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author | Kenneth Lundin <[email protected]> | 2011-03-02 16:56:55 +0100 |
---|---|---|
committer | Kenneth Lundin <[email protected]> | 2011-03-02 16:56:55 +0100 |
commit | cbea681feb52dad9316a29dbd1a8b0c400362123 (patch) | |
tree | 19fcb6dce71191c3e14378ed6902643e885bc905 /lib/inviso | |
parent | 7bc25db7f9a70190a661b2a97734900893d33169 (diff) | |
download | otp-cbea681feb52dad9316a29dbd1a8b0c400362123.tar.gz otp-cbea681feb52dad9316a29dbd1a8b0c400362123.tar.bz2 otp-cbea681feb52dad9316a29dbd1a8b0c400362123.zip |
Add timer:sleep(100) after each 10 modules trace pattern and remove dialyzer warnings
When setting trace pattern for many modules the system will quite unresponsive
and thus we have added a timer:sleep(100) after every 10 modules to set
trace patterns for.
Code has also been change in order to get rid of dialyzer warnings. I.e removal
of dead code.
Diffstat (limited to 'lib/inviso')
-rw-r--r-- | lib/inviso/src/inviso_tool.erl | 6511 | ||||
-rw-r--r-- | lib/inviso/src/inviso_tool_sh.erl | 3480 |
2 files changed, 4970 insertions, 5021 deletions
diff --git a/lib/inviso/src/inviso_tool.erl b/lib/inviso/src/inviso_tool.erl index 05158f58fe..7d3cfb9da0 100644 --- a/lib/inviso/src/inviso_tool.erl +++ b/lib/inviso/src/inviso_tool.erl @@ -1,3324 +1,3255 @@ -% ``The contents of this file are subject to the Erlang Public License,
-%% Version 1.1, (the "License"); you may not use this file except in
-%% compliance with the License. You should have received a copy of the
-%% Erlang Public License along with this software. If not, it can be
-%% retrieved via the world wide web at http://www.erlang.org/.
-%%
-%% Software distributed under the License is distributed on an "AS IS"
-%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
-%% the License for the specific language governing rights and limitations
-%% under the License.
-%%
-%% The Initial Developer of the Original Code is Ericsson Utvecklings AB.
-%% Portions created by Ericsson are Copyright 1999, Ericsson Utvecklings
-%% AB. All Rights Reserved.''
-%%
-%% $Id$
-%%
-%% Description:
-%% The inviso_tool implementation. A tool that uses inviso.
-%%
-%% Authors:
-%% Lennart �hman, [email protected]
-%% -----------------------------------------------------------------------------
-
--module(inviso_tool).
-
-
-%% This is the inviso tool, which is a tool using the inviso trace application.
-%% It is developed to make tracing using trace cases possible in an environment
-%% of distributed Erlang nodes.
-%% A current restriction is that the Erlang nodes are supposed to have the same
-%% code. This since inviso tool can at this point not handle subsets of nodes.
-%% Instead all participating Erlang nodes are treated the same.
-%%
-%% The main functionality of the inviso tool are:
-%%
-%% (1) Handles start and stop of tracing at participating nodes.
-%% (2) Interprets trace-case files at a distributed network level.
-%% (The inviso runtime component is responsible for interpreting
-%% trace cases at a local level, if run in an autostart).
-%% (3) Keeps a command history log from which:
-%% (a) Sequences easily can be repeated.
-%% (b) Autostart configuration files can be created (understood by the
-%% default inviso autostart mechanism).
-%% (4) Performs reactivation in case tracing is suspended (manually or by
-%% an overload mechanism).
-%% (5) Can reconnect crashed nodes and by using the history bringing them
-%% up to speed.
-
-%% Distributed Erlang
-%% ------------------
-%% Inviso is built to run in a distributed environment.
-%% The inviso tool can also be used in a non distributed environment.
-
-%% Short description
-%% -----------------
-%% Start-up of the inviso tool
-%% During the start-up of the tool, the tool starts runtime components at
-%% all participating nodes. A runtime component can already be running at
-%% a particular node and will then simply be adopted.
-%%
-%% Session
-%% A session is said to start when tracing is initiated, and ends when
-%% made to stop by the user. When a session is stopped, tracing is stopped
-%% at all participating nodes. Note that participating nodes may come and
-%% go though the time-frame of a session. That means that if a node is
-%% reconnected it may resume its tracing in the current session through
-%% a 'restart_session'. A runtime component that is already tracing at the
-%% time start-session will simply be part of the session without its
-%% ingoing tracing being changed.
-%%
-%% Reactivation
-%% A node that is suspended can be reactivated to resume tracing. Note that
-%% tracing has in this situation never been stopped at the node in question.
-%% The inviso tool resumes the node and applies the history to it.
-%%
-%% Reconnect
-%% A node that is "down" from the inviso tool's perspective can be
-%% reconnected. During reconnection the tool restarts the runtime component
-%% at that node but does not (re)initiate tracing. The latter is called
-%% restart_session and must be done explicitly, unless the node in question
-%% is in fact already tracing. If the node is already tracing (due to an autostart
-%% for instance), it automatically becomes part of the ongoing session (if
-%% there is an ongoing session).
-%%
-%% Restart Session
-%% A node that has been down and has been reconnected can be made to
-%% initialize and resume its tracing. This is done by starting the session
-%% at the node in question and redoing the current history.
-
-%% Trace files within a session
-%% Since it is possible to init-tracing (from an inviso perspective) several
-%% times within the same session, a session may leave several trace log files
-%% behind. This must be resolved by the tracer data generator function
-%% (user supplied) by marking filenames in a chronological order but still
-%% making them possible to identify as part of the same session
-
-
-
-%% -----------------------------------------------------------------------------
-%% API exports.
-%% -----------------------------------------------------------------------------
-
--export([start/0,start/1,stop/0,stop/1]).
--export([reconnect_nodes/0,reconnect_nodes/1,
- start_session/0,start_session/1,
- reinitiate_session/0,reinitiate_session/1,
- restore_session/0,restore_session/1,restore_session/2,
- stop_session/0,
- reset_nodes/0,reset_nodes/1,
- atc/3,sync_atc/3,sync_atc/4,
- sync_rtc/2,sync_rtc/3,
- dtc/2,sync_dtc/2,sync_dtc/3,
- inviso/2]).
--export([reactivate/0,reactivate/1,
- save_history/1,
- get_autostart_data/1,get_autostart_data/2,
- get_activities/0,get_node_status/0,get_node_status/1,get_session_data/0]).
--export([flush/0,flush/1]).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% Debug exports.
-%% -----------------------------------------------------------------------------
-
--export([get_loopdata/0]).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% OTP exports and call backs.
-%% -----------------------------------------------------------------------------
-
--export([init/1,handle_call/3,handle_cast/2,handle_info/2,terminate/2]).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% Internal exports.
-%% -----------------------------------------------------------------------------
-
--export([tc_executer/4,reactivator_executer/6]).
--export([std_options_generator/1]).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% Constants.
-%% -----------------------------------------------------------------------------
-
-%% Defines the inviso function calls that shall be possible to do through the
-%% inviso API in this tool.
--define(INVISO_CMDS,
- [{tp,5},{tp,4},{tp,1},{tpl,5},{tpl,4},{tpl,1},
- {ctp,1},{ctp,2},{ctp,3},{ctpl,1},{ctpl,2},{ctpl,3},
- {tf,2},{tf,1},{ctf,2},{ctf,1},{ctf_all,0},
- {init_tpm,4},{init_tpm,7},
- {tpm,4},{tpm,5},{tpm,8},
- {tpm_tracer,4},{tpm_tracer,5},{init_tpm,8},
- {tpm_ms,5},{tpm_ms_tracer,5},
- {ctpm_ms,4},{ctpm,3},
- {tpm_localnames,0},{ctpm_localnames,0},
- {tpm_globalnames,0},{ctpm_globalnames,0},
- {ctp_all,0},
- {suspend,1},{cancel_suspension,0}]).
-%% -----------------------------------------------------------------------------
-
-%% These inviso functions shall be included in the command history log. Others
-%% are not relevant to be redone during a recactivation, a restart session or
-%% exported to an autostart file.
--define(INVISO_CMD_HISTORY,
- [{tp,5},{tp,4},{tp,1},{tpl,5},{tpl,4},{tpl,1},
- {ctp,1},{ctp,2},{ctp,3},{ctpl,1},{ctpl,2},{ctpl,3},
- {tf,2},{tf,1},{ctf,2},{ctf,1},{ctf_all,0},
- {init_tpm,4},{init_tpm,7},
- {tpm,4},{tpm,5},{tpm,8},
- {tpm_tracer,4},{tpm_tracer,5},{init_tpm,8},
- {tpm_ms,5},{tpm_ms_tracer,5},
- {ctpm_ms,4},{ctpm,3},
- {tpm_localnames,0},{ctpm_localnames,0},
- {tpm_globalnames,0},{ctpm_globalnames,0},
- {ctp_all,0}]).
-%% -----------------------------------------------------------------------------
-
-%% Since many function calls to inviso may take long time, especially if they
-%% involve difficult and many trace patterns to set, the default gen_server:call
-%% time out can not be used. We just do not want to get stuck for ever if some
-%% error occurs.
--define(CALL_TIMEOUT,60000).
-
-%% Default max time to wait for a trace case called synchronously to return.
--define(SYNC_TC_TIMEOUT,10000).
-
-%% Runtime components shall terminate when the tool terminates.
--define(DEFAULT_DEPENDENCY,{dependency,0}).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% Record definitions.
-%% -----------------------------------------------------------------------------
-
-%% The loopdata record.
--record(ld,{
- dir=".", % Working dir of the tool.
- nodes=down, % The nodesD database, defaults to non-distr.
- c_node, % Location of inviso_c.
- c_pid, % The inviso control component.
- regexp_node, % Node for regexp expansions.
- tc_dict, % Trace case definition db.
- chl, % Command history log.
- session_state=passive, % passive | tracing
- tdg={inviso_tool_lib,std_tdg,[]}, % Tracer data generator func.
- tracer_data, % Current session nr and TDGargs.
- reactivators=[], % Pids of now running reactivators.
- tc_def_file, % Trace case definition file.
- optg={?MODULE,std_options_generator,[]}, % Generates options to add_nodes/3.
- initial_tcs=[], % Initial trace cases.
- started_initial_tcs=[], % Cases that must be stopped when stop_tracing.
- history_dir, % File path for history file.
- keep_nodes=[], % Nodes that shall not be cleared when stopping.
- debug=false % Internal debug mode
- }).
-%% -----------------------------------------------------------------------------
-
-
-%% =============================================================================
-%% API
-%% =============================================================================
-
-%% start()={ok,Pid} | {error,{already_started,pid()}}
-%% start(Config)
-%% Config=[{Opt,Value},...], list of tuple options.
-%% Opt=dir|nodes|c_node|regexp_node|tdg|tc_def_file|optg|initial_tcs|
-%% history_dir|keep_nodes
-%% Starts the inviso_tool process. Options in Config are the same as those
-%% which are kept in the #ld structure.
-start() ->
- start([]).
-start(Config) ->
- gen_server:start({local,?MODULE},?MODULE,Config,[]).
-%% -----------------------------------------------------------------------------
-
-%% stop(UntouchedNodes)=
-%% stop()={ok,NodeResults} | NodeResult | {error,Reason}
-%% UntouchedNodes=list(), nodes where any trace patterns shall not be removed.
-%% NodeResults=[{Node,NodeResult},...]
-%% NodeResult=ok | {error,Reason} | patterns_untouched
-%% Stops the inviso tool and the inviso control component. Runtime components are
-%% stopped by them selves depending on their dependcy of the control component.
-%% All runtime components that are not marked as to be kept will have their
-%% trace patterns cleared before the inviso control component is shutdown.
-%% The NodeResults indicates which nodes were successfullt handled.
-stop() ->
- stop([]).
-stop(UntouchedNodes) ->
- gen_server:call(?MODULE,{stop,UntouchedNodes},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% reconnect_nodes()=NodeResult; function for the nod-distributed case.
-%% reconnect_nodes(Nodes)={ok,NodesResults}
-%% NodesResults=[{Node,NodeResult},...]
-%% NodeResult={ok,{State,Status}} | {error,NReason}
-%% State=tracing | inactive
-%% Status=running | suspended
-%% NReason=unknown_node | already_connected | down
-%% (Re)starts the inviso runtime components at Nodes. Depending on its state
-%% (new,idle or tracing) and if the tool is running a session or not, it becomes
-%% part of the tool's ongoing session. If the newly reconnected node is not
-%% tracing but the tool runs a session, the node must be reinitiated to become
-%% tracing.
-reconnect_nodes() ->
- gen_server:call(?MODULE,{reconnect_nodes,local_runtime},?CALL_TIMEOUT).
+%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2005-2011. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% Description: +%% The inviso_tool implementation. A tool that uses inviso. +%% +%% Authors: +%% Lennart Öhman, [email protected] +%% ----------------------------------------------------------------------------- + +-module(inviso_tool). + + +%% This is the inviso tool, which is a tool using the inviso trace application. +%% It is developed to make tracing using trace cases possible in an environment +%% of distributed Erlang nodes. +%% A current restriction is that the Erlang nodes are supposed to have the same +%% code. This since inviso tool can at this point not handle subsets of nodes. +%% Instead all participating Erlang nodes are treated the same. +%% +%% The main functionality of the inviso tool are: +%% +%% (1) Handles start and stop of tracing at participating nodes. +%% (2) Interprets trace-case files at a distributed network level. +%% (The inviso runtime component is responsible for interpreting +%% trace cases at a local level, if run in an autostart). +%% (3) Keeps a command history log from which: +%% (a) Sequences easily can be repeated. +%% (b) Autostart configuration files can be created (understood by the +%% default inviso autostart mechanism). +%% (4) Performs reactivation in case tracing is suspended (manually or by +%% an overload mechanism). +%% (5) Can reconnect crashed nodes and by using the history bringing them +%% up to speed. + +%% Distributed Erlang +%% ------------------ +%% Inviso is built to run in a distributed environment. +%% The inviso tool can also be used in a non distributed environment. + +%% Short description +%% ----------------- +%% Start-up of the inviso tool +%% During the start-up of the tool, the tool starts runtime components at +%% all participating nodes. A runtime component can already be running at +%% a particular node and will then simply be adopted. +%% +%% Session +%% A session is said to start when tracing is initiated, and ends when +%% made to stop by the user. When a session is stopped, tracing is stopped +%% at all participating nodes. Note that participating nodes may come and +%% go though the time-frame of a session. That means that if a node is +%% reconnected it may resume its tracing in the current session through +%% a 'restart_session'. A runtime component that is already tracing at the +%% time start-session will simply be part of the session without its +%% ingoing tracing being changed. +%% +%% Reactivation +%% A node that is suspended can be reactivated to resume tracing. Note that +%% tracing has in this situation never been stopped at the node in question. +%% The inviso tool resumes the node and applies the history to it. +%% +%% Reconnect +%% A node that is "down" from the inviso tool's perspective can be +%% reconnected. During reconnection the tool restarts the runtime component +%% at that node but does not (re)initiate tracing. The latter is called +%% restart_session and must be done explicitly, unless the node in question +%% is in fact already tracing. If the node is already tracing (due to an autostart +%% for instance), it automatically becomes part of the ongoing session (if +%% there is an ongoing session). +%% +%% Restart Session +%% A node that has been down and has been reconnected can be made to +%% initialize and resume its tracing. This is done by starting the session +%% at the node in question and redoing the current history. + +%% Trace files within a session +%% Since it is possible to init-tracing (from an inviso perspective) several +%% times within the same session, a session may leave several trace log files +%% behind. This must be resolved by the tracer data generator function +%% (user supplied) by marking filenames in a chronological order but still +%% making them possible to identify as part of the same session + + + +%% ----------------------------------------------------------------------------- +%% API exports. +%% ----------------------------------------------------------------------------- + +-export([start/0,start/1,stop/0,stop/1]). +-export([reconnect_nodes/0,reconnect_nodes/1, + start_session/0,start_session/1, + reinitiate_session/0,reinitiate_session/1, + restore_session/0,restore_session/1,restore_session/2, + stop_session/0, + reset_nodes/0,reset_nodes/1, + atc/3,sync_atc/3,sync_atc/4, + sync_rtc/2,sync_rtc/3, + dtc/2,sync_dtc/2,sync_dtc/3, + inviso/2]). +-export([reactivate/0,reactivate/1, + save_history/1, + get_autostart_data/1,get_autostart_data/2, + get_activities/0,get_node_status/0,get_node_status/1,get_session_data/0]). +-export([flush/0,flush/1]). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% Debug exports. +%% ----------------------------------------------------------------------------- + +-export([get_loopdata/0]). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% OTP exports and call backs. +%% ----------------------------------------------------------------------------- + +-export([init/1,handle_call/3,handle_cast/2,handle_info/2,terminate/2]). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% Internal exports. +%% ----------------------------------------------------------------------------- + +-export([tc_executer/4,reactivator_executer/6]). +-export([std_options_generator/1]). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% Constants. +%% ----------------------------------------------------------------------------- + +%% Defines the inviso function calls that shall be possible to do through the +%% inviso API in this tool. +-define(INVISO_CMDS, + [{tp,5},{tp,4},{tp,1},{tpl,5},{tpl,4},{tpl,1}, + {ctp,1},{ctp,2},{ctp,3},{ctpl,1},{ctpl,2},{ctpl,3}, + {tf,2},{tf,1},{ctf,2},{ctf,1},{ctf_all,0}, + {init_tpm,4},{init_tpm,7}, + {tpm,4},{tpm,5},{tpm,8}, + {tpm_tracer,4},{tpm_tracer,5},{init_tpm,8}, + {tpm_ms,5},{tpm_ms_tracer,5}, + {ctpm_ms,4},{ctpm,3}, + {tpm_localnames,0},{ctpm_localnames,0}, + {tpm_globalnames,0},{ctpm_globalnames,0}, + {ctp_all,0}, + {suspend,1},{cancel_suspension,0}]). +%% ----------------------------------------------------------------------------- + +%% These inviso functions shall be included in the command history log. Others +%% are not relevant to be redone during a recactivation, a restart session or +%% exported to an autostart file. +-define(INVISO_CMD_HISTORY, + [{tp,5},{tp,4},{tp,1},{tpl,5},{tpl,4},{tpl,1}, + {ctp,1},{ctp,2},{ctp,3},{ctpl,1},{ctpl,2},{ctpl,3}, + {tf,2},{tf,1},{ctf,2},{ctf,1},{ctf_all,0}, + {init_tpm,4},{init_tpm,7}, + {tpm,4},{tpm,5},{tpm,8}, + {tpm_tracer,4},{tpm_tracer,5},{init_tpm,8}, + {tpm_ms,5},{tpm_ms_tracer,5}, + {ctpm_ms,4},{ctpm,3}, + {tpm_localnames,0},{ctpm_localnames,0}, + {tpm_globalnames,0},{ctpm_globalnames,0}, + {ctp_all,0}]). +%% ----------------------------------------------------------------------------- + +%% Since many function calls to inviso may take long time, especially if they +%% involve difficult and many trace patterns to set, the default gen_server:call +%% time out can not be used. We just do not want to get stuck for ever if some +%% error occurs. +-define(CALL_TIMEOUT,60000). + +%% Default max time to wait for a trace case called synchronously to return. +-define(SYNC_TC_TIMEOUT,10000). + +%% Runtime components shall terminate when the tool terminates. +-define(DEFAULT_DEPENDENCY,{dependency,0}). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% Record definitions. +%% ----------------------------------------------------------------------------- + +%% The loopdata record. +-record(ld,{ + dir=".", % Working dir of the tool. + nodes=down, % The nodesD database, defaults to non-distr. + c_node, % Location of inviso_c. + c_pid, % The inviso control component. + regexp_node, % Node for regexp expansions. + tc_dict, % Trace case definition db. + chl, % Command history log. + session_state=passive, % passive | tracing + tdg={inviso_tool_lib,std_tdg,[]}, % Tracer data generator func. + tracer_data, % Current session nr and TDGargs. + reactivators=[], % Pids of now running reactivators. + tc_def_file, % Trace case definition file. + optg={?MODULE,std_options_generator,[]}, % Generates options to add_nodes/3. + initial_tcs=[], % Initial trace cases. + started_initial_tcs=[], % Cases that must be stopped when stop_tracing. + history_dir, % File path for history file. + keep_nodes=[], % Nodes that shall not be cleared when stopping. + debug=false % Internal debug mode + }). +%% ----------------------------------------------------------------------------- + + +%% ============================================================================= +%% API +%% ============================================================================= + +%% start()={ok,Pid} | {error,{already_started,pid()}} +%% start(Config) +%% Config=[{Opt,Value},...], list of tuple options. +%% Opt=dir|nodes|c_node|regexp_node|tdg|tc_def_file|optg|initial_tcs| +%% history_dir|keep_nodes +%% Starts the inviso_tool process. Options in Config are the same as those +%% which are kept in the #ld structure. +start() -> + start([]). +start(Config) -> + gen_server:start({local,?MODULE},?MODULE,Config,[]). +%% ----------------------------------------------------------------------------- + +%% stop(UntouchedNodes)= +%% stop()={ok,NodeResults} | NodeResult | {error,Reason} +%% UntouchedNodes=list(), nodes where any trace patterns shall not be removed. +%% NodeResults=[{Node,NodeResult},...] +%% NodeResult=ok | {error,Reason} | patterns_untouched +%% Stops the inviso tool and the inviso control component. Runtime components are +%% stopped by them selves depending on their dependcy of the control component. +%% All runtime components that are not marked as to be kept will have their +%% trace patterns cleared before the inviso control component is shutdown. +%% The NodeResults indicates which nodes were successfullt handled. +stop() -> + stop([]). +stop(UntouchedNodes) -> + gen_server:call(?MODULE,{stop,UntouchedNodes},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% reconnect_nodes()=NodeResult; function for the nod-distributed case. +%% reconnect_nodes(Nodes)={ok,NodesResults} +%% NodesResults=[{Node,NodeResult},...] +%% NodeResult={ok,{State,Status}} | {error,NReason} +%% State=tracing | inactive +%% Status=running | suspended +%% NReason=unknown_node | already_connected | down +%% (Re)starts the inviso runtime components at Nodes. Depending on its state +%% (new,idle or tracing) and if the tool is running a session or not, it becomes +%% part of the tool's ongoing session. If the newly reconnected node is not +%% tracing but the tool runs a session, the node must be reinitiated to become +%% tracing. +reconnect_nodes() -> + gen_server:call(?MODULE,{reconnect_nodes,local_runtime},?CALL_TIMEOUT). reconnect_nodes(Node) when is_atom(Node) -> - reconnect_nodes([Node]);
+ reconnect_nodes([Node]); reconnect_nodes(Nodes) when is_list(Nodes) -> - gen_server:call(?MODULE,{reconnect_nodes,Nodes},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% start_session()={ok,{SessionNr,InvisoReturn}} | {error,Reason}
-%% start_session(MoreTDGargs)=
-%% MoreTDGargs=list(), prepended to the fixed list of args used when calling the
-%% tracer data generator function.
-%% SessionNr=integer(), trace sessions are numbered by the tool.
-%% InvisoReturn=If successful inviso call, the returnvalue from inviso.
-%% Note that individual nodes may be unsuccessful. See inviso:init_tracing/1
-%% Initiates tracing at all participating nodes.
-start_session() ->
- start_session([]).
-start_session(MoreTDGargs) ->
- gen_server:call(?MODULE,{start_session,MoreTDGargs},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% reinitiate_session(Nodes)={ok,InvisoReturn} | {error,Reason}
-%% InvisoReturn=If successful inviso call, the returnvalue from inviso:init_tracing/1.
-%% Note that individual nodes may be unsuccessful. Mentioned nodes not part
-%% of the tool or not in state inactive will be marked as failing by the
-%% tool in the InvisoReturn.
-%% To reinitate a node means to (inviso) init tracing at it according to saved
-%% tracer data generator arguments for the current session and then redo the current
-%% history to bring it up to speed. Note that the tool must be running a session
-%% for reinitiate to work.
-reinitiate_session() ->
- gen_server:call(?MODULE,{reinitiate_session,local_runtime},?CALL_TIMEOUT).
-reinitiate_session(Nodes) ->
- gen_server:call(?MODULE,{reinitiate_session,Nodes},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% restore_session()=
-%% restore_session(MoreTDGargs)=
-%% restore_session(FileName)=
-%% restore_session(FileName,MoreTDGargs)={ok,{SessionNr,InvisoReturn}} | {error,Reason}
-%% The two first clauses will start a new session using the last history. This
-%% implies that there must have been a session running prior.
-%% The two last clauses starts a session and reads a history file and executes the
-%% tracecases in it at all inactive nodes.
-%% In both cases the reused or read history becomes the current histoy, just if the
-%% session had been initiated manually. The tool may not
-%% have a session ongoing, and nodes already tracing (nodes which were adopted)
-%% are not effected. Just like when starting a session manually.
-restore_session() ->
- restore_session([]).
-restore_session([]) -> % This cant be a filename.
- gen_server:call(?MODULE,{restore_session,[]},?CALL_TIMEOUT);
-restore_session(FileNameOrMoreTDGargs) ->
- case is_string(FileNameOrMoreTDGargs) of
- true -> % Interpret it as a filename.
- restore_session(FileNameOrMoreTDGargs,[]);
- false -> % The we want to use last session history!
- gen_server:call(?MODULE,{restore_session,FileNameOrMoreTDGargs},?CALL_TIMEOUT)
- end.
-restore_session(FileName,MoreTDGargs) ->
- gen_server:call(?MODULE,{restore_session,{FileName,MoreTDGargs}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% stop_session()={ok,{SessionNr,Result}} | {error,Reason}
-%% SessionNr=integer()
-%% Result=[{Node,NodeResult},...] | NonDistributedNodeResult
-%% NodeResult=ok | {error,Reason}
-%% NonDistributedNodeResult=[ok] | []
-%% Stops inviso tracing at all participating nodes. The inviso runtime components
-%% will go to state idle. It is now time to fetch the logfiles. Will most often
-%% succeed. Will only return an error if the entire inviso call returned an
-%% error. Not if an individual node failed stop tracing successfully.
-%% Any running trace case, including reactivator processes will be terminated.
-stop_session() ->
- gen_server:call(?MODULE,stop_session,?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% reset_nodes()=NodeResult | {error,Reason}
-%% reset_nodes(Nodes)={ok,NodeResults} | {error,Reason}
-%% NodeResults and NodeResult as returned by inviso:clear/1 and /0.
-%% Clear nodes from trace flags, trace patterns and meta trace patterns. The tool
-%% must not be having a running session.
-reset_nodes() ->
- gen_server:call(?MODULE,{reset_nodes,local_runtime},?CALL_TIMEOUT).
-reset_nodes(Nodes) ->
- gen_server:call(?MODULE,{reset_nodes,Nodes},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% atc(TC,Id,Vars)=ok | {error,Reason}
-%% TC=atom(), name of the trace case.
-%% Id=term(), given name of this usage of TC.
-%% Vars=list(), list of variable bindings [{Var,Value},...], Var=atom(),Value=term().
-%% Function activating a trace case. The trace case must be defined in the
-%% trace case dictionary. The 'ok' return value is only a signal that the
-%% trace case has started successfully. It may then run for as long as it is
-%% programmed to run. An erroneous return value does not necessarily mean that
-%% the trace case has not been executed. It rather means that is undetermined
-%% what happend.
-atc(TC,Id,Vars) ->
- gen_server:call(?MODULE,{atc,{TC,Id,Vars}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% sync_atc(TC,Id,Vars)=Result | {error,Reason}
-%% sync_atc(TC,Id,Vars,TimeOut)=
-%% Result=term(), what ever is returned be the last expression in the trace case.
-%% TimeOut=interger() | infinity, the max wait time for the trace case to finnish.
-%% As atc/3 but waits for the trace case to finish.
-sync_atc(TC,Id,Vars) ->
- gen_server:call(?MODULE,{sync_atc,{TC,Id,Vars,?SYNC_TC_TIMEOUT}},?CALL_TIMEOUT).
-sync_atc(TC,Id,Vars,TimeOut) ->
- gen_server:call(?MODULE,{sync_atc,{TC,Id,Vars,TimeOut}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% sync_rtc(TC,Vars)=Result | {error,Reason}
-%% sync_rtc(TC,Vars,TimeOut)=
-%% Result=term(), what ever is returned be the last expression in the trace case.
-%% TimeOut=interger() | infinity, the max wait time for the trace case to finnish.
-%% As sync_atc/3 but the trace case is not marked as activated. It is mearly placed
-%% in the history. Hence with sync_rtc a trace case can be "activated" multiple time.
-sync_rtc(TC,Vars) ->
- gen_server:call(?MODULE,{sync_rtc,{TC,Vars,?SYNC_TC_TIMEOUT}},?CALL_TIMEOUT).
-sync_rtc(TC,Vars,TimeOut) ->
- gen_server:call(?MODULE,{sync_rtc,{TC,Vars,TimeOut}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% dtc(TC,Id)=ok | {error,Reason}
-%% Deactivates a previosly activated trace case. This function can only be used
-%% on trace cases that has a deactivation defined in the trace case dictionary.
-%% There is of course really no difference between a file containing an activation
-%% compared to a deactivation. But to be able cancelling activations out from the
-%% history log, a defined deactivation is essential.
-%% As with activation, the returned 'ok' simply indicates the start of the trace
-%% case.
-dtc(TC,Id) ->
- gen_server:call(?MODULE,{dtc,{TC,Id}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% sync_dtc(TC,Id)=Result | {error,Reason}
-%% sync_dtc(TC,Id,TimeOut)=
-%% Synchronous deactivation of trace case. See dtc/2 and sync_atc/3 for
-%% parameters.
-sync_dtc(TC,Id) ->
- gen_server:call(?MODULE,{sync_dtc,{TC,Id,?SYNC_TC_TIMEOUT}},?CALL_TIMEOUT).
-sync_dtc(TC,Id,TimeOut) ->
- gen_server:call(?MODULE,{sync_dtc,{TC,Id,TimeOut}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% inviso(Cmd,Args)=Result
-%% Cmd=atom(), the (inviso) function name that shall be called.
-%% Args=list(), the arguments to Cmd.
-%% Result=term(), the result from the inviso function call.
-%% This function executes a Cmd in the inviso tool context. The inviso call will
-%% be logged in history log and thereby repeated in case of a reactivation.
-%% Note that this function is intended for use with inviso function API without
-%% specifying any nodes, since the function call is supposed to be carried out on
-%% all nodes.
-%% When these functions are written to an autostart config file by the tool there
-%% is supposed to be a translation to inviso_rt functions.
-inviso(Cmd,Args) ->
- gen_server:call(?MODULE,{inviso,{Cmd,Args}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% reactivate()=ok | {error,Reason}
-%% reactivate(Node)=ok | {error,Reason}
-%% Moves a runtime component from suspended to the state running. This can be
-%% done for both tracing and inactive nodes. The later is necessary since you
-%% may have stopped tracing with a node suspended.
-%% In case the node is tracing, commands in the command history log are redone at
-%% the node in questions.
-%% Note that this function returns 'ok' before the node is running. This because the
-%% the reactivated history is done by a separate process and there is no guarantee
-%% when it will be ready. The reactivated node will not be marked as running in
-%% the tool until done reactivating.
-%% Further it is important to understand that if there are "ongoing" tracecases
-%% (i.e tracecase scripts that are currently executing) and this node was running
-%% at the time that tracecase script started to execute, the list of nodes bound
-%% to the Nodes variable in that script executer includes this node. Making it
-%% no longer suspended makes it start executing inviso commands from where ever
-%% such are called. Hence the reactivation may be interferred by that tracecase.
-reactivate() -> % Non-distributed API.
- reactivate(node()).
-reactivate(Node) ->
- gen_server:call(?MODULE,{reactivate,Node},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% save_history(FileName)={ok,AbsFileName} | {error,Reason}
-%% Saves the currently collected command history log to a file. The file will
-%% be a binary-file. If FileName is an absolute path, it will be saved to that
-%% file. Otherwise the history dir will be used. If no history dir was specified
-%% the tool dir will be used, prepended to FileName.
-save_history(FileName) ->
- gen_server:call(?MODULE,{save_history,FileName},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% get_autostart_data(Nodes,Dependency)={ok,{AutoStartData,NodeResults} |
-%% {ok,{AutoStartData,NodeResult}} | {error,Reason}
-%% Dependency=inviso dependency parameter which will be used for every
-%% autostarted runtime component (included in Options).
-%% NodeResults=[{Node,NodeResult},...]
-%% NodeResult={ok,{Options,{tdg,{M,F,CompleteTDGargs}}}} | {error,Reason}
-%% Options=add_nodes options to the inviso runtime component.
-%% M,F=atom(), the module and function for tracerdata generation.
-%% CompleteTDGargs=list(), all arguments as they are given to the tracer
-%% data generator function.
-%% AutostartData=[CaseSpec,...]
-%% CaseSpec={file,{FileName,Bindings}} | {mfa,{M,F,Args}}
-%% FileName=string(), pointing out the trace case file. Note that this
-%% is the same as the path used by the tool.
-%% Bindings=Var bindings used according to the history for the
-%% invocation.
-%% M,F=atom(), the function that shall be called (normally some inviso).
-%% Args=list(), the actual arguments. Note that this may contain things
-%% which can not be written to file (ports, pids,...).
-%% Function returning information on how to autostart a node to make it trace
-%% according to the current history. The inviso_tool does not know how to write
-%% the necessary files at the nodes in question. That must be done by the user
-%% of the tool, guided by the return value from this function.
-%% Note that there will be two types of trace case files. Regular trace case
-%% files and binaries returned from this function. The latter contains the
-%% inviso commands which have been executed. Note that the order amongst the
-%% trace cases and binaries is of importance (otherwise they will be redone in
-%% an incorrect order).
-get_autostart_data(Dependency) ->
- gen_server:call(?MODULE,{get_autostart_data,Dependency},?CALL_TIMEOUT).
-get_autostart_data(Nodes,Dependency) ->
- gen_server:call(?MODULE,{get_autostart_data,{Nodes,Dependency}},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% get_activities()={ok,Ongoing} | {error,Reason}
-%% Ongoing=list(); [ [TraceCases] [,Reactivators] ]
-%% TraceCases={tracecases,TraceCaseList}
-%% TraceCaseList=[{{TCname,Id},Phase},...]
-%% Phase=activating | deactivating
-%% Reactivators={reactivating_nodes,ReactivatingNodes}
-%% ReactivatingNodes=[Node,...]
-%% Returns a list of assynchronous tracecases and nodes doing reactivation at
-%% this momement. This can be useful to implement "home brewn" synchronization,
-%% waiting for the runtime components to reach a certain state.
-get_activities() ->
- gen_server:call(?MODULE,get_activities,?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% get_status(Node)={ok,StateStatus} | {error,Reason}
-%% StateStatus={State,Status} | reactivating | down
-%% State=tracing | inactive | trace_failure
-%% Status=running | suspended
-get_node_status() ->
- get_node_status(local_runtime).
-get_node_status(Node) ->
- gen_server:call(?MODULE,{get_node_status,Node},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% get_session_data()={ok,{Status,SessionNr,TDGargs}} | {error,Reason}
-%% Status=tracing | not_tracing, info about current/last session.
-%% SessionNr=integer()
-%% TDGargs=list(), list of the arguments that will be given to the tracer data
-%% generator function (not including the leading Nodes list).
-%% Returns data about the current or last session.
-get_session_data() ->
- gen_server:call(?MODULE,get_session_data,?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% flush()={ok,NodeResults} | NodeResult | {error,Reason}
-%% flush(Nodes)={ok,NodesResults} | {error,Reason}
-%% NodeResults=[{Node,NodeResult},...]
-%% NodeResult=ok | {error,Reason}
-%% Makes runtime components flush their trace ports.
-flush() ->
- gen_server:call(?MODULE,flush,?CALL_TIMEOUT).
-flush(Nodes) ->
- gen_server:call(?MODULE,{flush,Nodes},?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% get_loopdata()=#ld
-%% Debug API returning the internal loopdata structure. See #ld above for details.
-get_loopdata() ->
- gen_server:call(?MODULE,get_loopdata,?CALL_TIMEOUT).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% Internal APIs.
-%% -----------------------------------------------------------------------------
-
-%% tc_executer_reply(To,Reply)=nothing significant
-%% To=pid()
-%% Reply=term()
-%% Internal API used by a trace case executer process to signal its completion.
-tc_executer_reply(To,Reply) ->
- gen_server:cast(To,{tc_executer_reply,Reply}).
-%% -----------------------------------------------------------------------------
-
-%% Internal API used by a reactivator process indicating it is done with the
-%% history log it has got so far.
-%% Timeout set to infinity since the tool may be busy, then the reactivator just
-%% have to wait. If the tool crashes the reactivator will be go down too automatically.
-reactivator_reply(TPid,Counter) ->
- gen_server:call(TPid,{reactivator_reply,{Counter,self()}},infinity).
-%% -----------------------------------------------------------------------------
-
-
-%% =============================================================================
-%% gen_server implementation.
-%% =============================================================================
-
-init(Config) ->
- case fetch_configuration(Config) of % From conf-file and Config.
+ gen_server:call(?MODULE,{reconnect_nodes,Nodes},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% start_session()={ok,{SessionNr,InvisoReturn}} | {error,Reason} +%% start_session(MoreTDGargs)= +%% MoreTDGargs=list(), prepended to the fixed list of args used when calling the +%% tracer data generator function. +%% SessionNr=integer(), trace sessions are numbered by the tool. +%% InvisoReturn=If successful inviso call, the returnvalue from inviso. +%% Note that individual nodes may be unsuccessful. See inviso:init_tracing/1 +%% Initiates tracing at all participating nodes. +start_session() -> + start_session([]). +start_session(MoreTDGargs) -> + gen_server:call(?MODULE,{start_session,MoreTDGargs},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% reinitiate_session(Nodes)={ok,InvisoReturn} | {error,Reason} +%% InvisoReturn=If successful inviso call, the returnvalue from inviso:init_tracing/1. +%% Note that individual nodes may be unsuccessful. Mentioned nodes not part +%% of the tool or not in state inactive will be marked as failing by the +%% tool in the InvisoReturn. +%% To reinitate a node means to (inviso) init tracing at it according to saved +%% tracer data generator arguments for the current session and then redo the current +%% history to bring it up to speed. Note that the tool must be running a session +%% for reinitiate to work. +reinitiate_session() -> + gen_server:call(?MODULE,{reinitiate_session,local_runtime},?CALL_TIMEOUT). +reinitiate_session(Nodes) -> + gen_server:call(?MODULE,{reinitiate_session,Nodes},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% restore_session()= +%% restore_session(MoreTDGargs)= +%% restore_session(FileName)= +%% restore_session(FileName,MoreTDGargs)={ok,{SessionNr,InvisoReturn}} | {error,Reason} +%% The two first clauses will start a new session using the last history. This +%% implies that there must have been a session running prior. +%% The two last clauses starts a session and reads a history file and executes the +%% tracecases in it at all inactive nodes. +%% In both cases the reused or read history becomes the current histoy, just if the +%% session had been initiated manually. The tool may not +%% have a session ongoing, and nodes already tracing (nodes which were adopted) +%% are not effected. Just like when starting a session manually. +restore_session() -> + restore_session([]). +restore_session([]) -> % This cant be a filename. + gen_server:call(?MODULE,{restore_session,[]},?CALL_TIMEOUT); +restore_session(FileNameOrMoreTDGargs) -> + case is_string(FileNameOrMoreTDGargs) of + true -> % Interpret it as a filename. + restore_session(FileNameOrMoreTDGargs,[]); + false -> % The we want to use last session history! + gen_server:call(?MODULE,{restore_session,FileNameOrMoreTDGargs},?CALL_TIMEOUT) + end. +restore_session(FileName,MoreTDGargs) -> + gen_server:call(?MODULE,{restore_session,{FileName,MoreTDGargs}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% stop_session()={ok,{SessionNr,Result}} | {error,Reason} +%% SessionNr=integer() +%% Result=[{Node,NodeResult},...] | NonDistributedNodeResult +%% NodeResult=ok | {error,Reason} +%% NonDistributedNodeResult=[ok] | [] +%% Stops inviso tracing at all participating nodes. The inviso runtime components +%% will go to state idle. It is now time to fetch the logfiles. Will most often +%% succeed. Will only return an error if the entire inviso call returned an +%% error. Not if an individual node failed stop tracing successfully. +%% Any running trace case, including reactivator processes will be terminated. +stop_session() -> + gen_server:call(?MODULE,stop_session,?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% reset_nodes()=NodeResult | {error,Reason} +%% reset_nodes(Nodes)={ok,NodeResults} | {error,Reason} +%% NodeResults and NodeResult as returned by inviso:clear/1 and /0. +%% Clear nodes from trace flags, trace patterns and meta trace patterns. The tool +%% must not be having a running session. +reset_nodes() -> + gen_server:call(?MODULE,{reset_nodes,local_runtime},?CALL_TIMEOUT). +reset_nodes(Nodes) -> + gen_server:call(?MODULE,{reset_nodes,Nodes},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% atc(TC,Id,Vars)=ok | {error,Reason} +%% TC=atom(), name of the trace case. +%% Id=term(), given name of this usage of TC. +%% Vars=list(), list of variable bindings [{Var,Value},...], Var=atom(),Value=term(). +%% Function activating a trace case. The trace case must be defined in the +%% trace case dictionary. The 'ok' return value is only a signal that the +%% trace case has started successfully. It may then run for as long as it is +%% programmed to run. An erroneous return value does not necessarily mean that +%% the trace case has not been executed. It rather means that is undetermined +%% what happend. +atc(TC,Id,Vars) -> + gen_server:call(?MODULE,{atc,{TC,Id,Vars}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% sync_atc(TC,Id,Vars)=Result | {error,Reason} +%% sync_atc(TC,Id,Vars,TimeOut)= +%% Result=term(), what ever is returned be the last expression in the trace case. +%% TimeOut=interger() | infinity, the max wait time for the trace case to finnish. +%% As atc/3 but waits for the trace case to finish. +sync_atc(TC,Id,Vars) -> + gen_server:call(?MODULE,{sync_atc,{TC,Id,Vars,?SYNC_TC_TIMEOUT}},?CALL_TIMEOUT). +sync_atc(TC,Id,Vars,TimeOut) -> + gen_server:call(?MODULE,{sync_atc,{TC,Id,Vars,TimeOut}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% sync_rtc(TC,Vars)=Result | {error,Reason} +%% sync_rtc(TC,Vars,TimeOut)= +%% Result=term(), what ever is returned be the last expression in the trace case. +%% TimeOut=interger() | infinity, the max wait time for the trace case to finnish. +%% As sync_atc/3 but the trace case is not marked as activated. It is mearly placed +%% in the history. Hence with sync_rtc a trace case can be "activated" multiple time. +sync_rtc(TC,Vars) -> + gen_server:call(?MODULE,{sync_rtc,{TC,Vars,?SYNC_TC_TIMEOUT}},?CALL_TIMEOUT). +sync_rtc(TC,Vars,TimeOut) -> + gen_server:call(?MODULE,{sync_rtc,{TC,Vars,TimeOut}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% dtc(TC,Id)=ok | {error,Reason} +%% Deactivates a previosly activated trace case. This function can only be used +%% on trace cases that has a deactivation defined in the trace case dictionary. +%% There is of course really no difference between a file containing an activation +%% compared to a deactivation. But to be able cancelling activations out from the +%% history log, a defined deactivation is essential. +%% As with activation, the returned 'ok' simply indicates the start of the trace +%% case. +dtc(TC,Id) -> + gen_server:call(?MODULE,{dtc,{TC,Id}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% sync_dtc(TC,Id)=Result | {error,Reason} +%% sync_dtc(TC,Id,TimeOut)= +%% Synchronous deactivation of trace case. See dtc/2 and sync_atc/3 for +%% parameters. +sync_dtc(TC,Id) -> + gen_server:call(?MODULE,{sync_dtc,{TC,Id,?SYNC_TC_TIMEOUT}},?CALL_TIMEOUT). +sync_dtc(TC,Id,TimeOut) -> + gen_server:call(?MODULE,{sync_dtc,{TC,Id,TimeOut}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% inviso(Cmd,Args)=Result +%% Cmd=atom(), the (inviso) function name that shall be called. +%% Args=list(), the arguments to Cmd. +%% Result=term(), the result from the inviso function call. +%% This function executes a Cmd in the inviso tool context. The inviso call will +%% be logged in history log and thereby repeated in case of a reactivation. +%% Note that this function is intended for use with inviso function API without +%% specifying any nodes, since the function call is supposed to be carried out on +%% all nodes. +%% When these functions are written to an autostart config file by the tool there +%% is supposed to be a translation to inviso_rt functions. +inviso(Cmd,Args) -> + gen_server:call(?MODULE,{inviso,{Cmd,Args}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% reactivate()=ok | {error,Reason} +%% reactivate(Node)=ok | {error,Reason} +%% Moves a runtime component from suspended to the state running. This can be +%% done for both tracing and inactive nodes. The later is necessary since you +%% may have stopped tracing with a node suspended. +%% In case the node is tracing, commands in the command history log are redone at +%% the node in questions. +%% Note that this function returns 'ok' before the node is running. This because the +%% the reactivated history is done by a separate process and there is no guarantee +%% when it will be ready. The reactivated node will not be marked as running in +%% the tool until done reactivating. +%% Further it is important to understand that if there are "ongoing" tracecases +%% (i.e tracecase scripts that are currently executing) and this node was running +%% at the time that tracecase script started to execute, the list of nodes bound +%% to the Nodes variable in that script executer includes this node. Making it +%% no longer suspended makes it start executing inviso commands from where ever +%% such are called. Hence the reactivation may be interferred by that tracecase. +reactivate() -> % Non-distributed API. + reactivate(node()). +reactivate(Node) -> + gen_server:call(?MODULE,{reactivate,Node},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% save_history(FileName)={ok,AbsFileName} | {error,Reason} +%% Saves the currently collected command history log to a file. The file will +%% be a binary-file. If FileName is an absolute path, it will be saved to that +%% file. Otherwise the history dir will be used. If no history dir was specified +%% the tool dir will be used, prepended to FileName. +save_history(FileName) -> + gen_server:call(?MODULE,{save_history,FileName},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% get_autostart_data(Nodes,Dependency)={ok,{AutoStartData,NodeResults} | +%% {ok,{AutoStartData,NodeResult}} | {error,Reason} +%% Dependency=inviso dependency parameter which will be used for every +%% autostarted runtime component (included in Options). +%% NodeResults=[{Node,NodeResult},...] +%% NodeResult={ok,{Options,{tdg,{M,F,CompleteTDGargs}}}} | {error,Reason} +%% Options=add_nodes options to the inviso runtime component. +%% M,F=atom(), the module and function for tracerdata generation. +%% CompleteTDGargs=list(), all arguments as they are given to the tracer +%% data generator function. +%% AutostartData=[CaseSpec,...] +%% CaseSpec={file,{FileName,Bindings}} | {mfa,{M,F,Args}} +%% FileName=string(), pointing out the trace case file. Note that this +%% is the same as the path used by the tool. +%% Bindings=Var bindings used according to the history for the +%% invocation. +%% M,F=atom(), the function that shall be called (normally some inviso). +%% Args=list(), the actual arguments. Note that this may contain things +%% which can not be written to file (ports, pids,...). +%% Function returning information on how to autostart a node to make it trace +%% according to the current history. The inviso_tool does not know how to write +%% the necessary files at the nodes in question. That must be done by the user +%% of the tool, guided by the return value from this function. +%% Note that there will be two types of trace case files. Regular trace case +%% files and binaries returned from this function. The latter contains the +%% inviso commands which have been executed. Note that the order amongst the +%% trace cases and binaries is of importance (otherwise they will be redone in +%% an incorrect order). +get_autostart_data(Dependency) -> + gen_server:call(?MODULE,{get_autostart_data,Dependency},?CALL_TIMEOUT). +get_autostart_data(Nodes,Dependency) -> + gen_server:call(?MODULE,{get_autostart_data,{Nodes,Dependency}},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% get_activities()={ok,Ongoing} | {error,Reason} +%% Ongoing=list(); [ [TraceCases] [,Reactivators] ] +%% TraceCases={tracecases,TraceCaseList} +%% TraceCaseList=[{{TCname,Id},Phase},...] +%% Phase=activating | deactivating +%% Reactivators={reactivating_nodes,ReactivatingNodes} +%% ReactivatingNodes=[Node,...] +%% Returns a list of assynchronous tracecases and nodes doing reactivation at +%% this momement. This can be useful to implement "home brewn" synchronization, +%% waiting for the runtime components to reach a certain state. +get_activities() -> + gen_server:call(?MODULE,get_activities,?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% get_status(Node)={ok,StateStatus} | {error,Reason} +%% StateStatus={State,Status} | reactivating | down +%% State=tracing | inactive | trace_failure +%% Status=running | suspended +get_node_status() -> + get_node_status(local_runtime). +get_node_status(Node) -> + gen_server:call(?MODULE,{get_node_status,Node},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% get_session_data()={ok,{Status,SessionNr,TDGargs}} | {error,Reason} +%% Status=tracing | not_tracing, info about current/last session. +%% SessionNr=integer() +%% TDGargs=list(), list of the arguments that will be given to the tracer data +%% generator function (not including the leading Nodes list). +%% Returns data about the current or last session. +get_session_data() -> + gen_server:call(?MODULE,get_session_data,?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% flush()={ok,NodeResults} | NodeResult | {error,Reason} +%% flush(Nodes)={ok,NodesResults} | {error,Reason} +%% NodeResults=[{Node,NodeResult},...] +%% NodeResult=ok | {error,Reason} +%% Makes runtime components flush their trace ports. +flush() -> + gen_server:call(?MODULE,flush,?CALL_TIMEOUT). +flush(Nodes) -> + gen_server:call(?MODULE,{flush,Nodes},?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% get_loopdata()=#ld +%% Debug API returning the internal loopdata structure. See #ld above for details. +get_loopdata() -> + gen_server:call(?MODULE,get_loopdata,?CALL_TIMEOUT). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% Internal APIs. +%% ----------------------------------------------------------------------------- + +%% tc_executer_reply(To,Reply)=nothing significant +%% To=pid() +%% Reply=term() +%% Internal API used by a trace case executer process to signal its completion. +tc_executer_reply(To,Reply) -> + gen_server:cast(To,{tc_executer_reply,Reply}). +%% ----------------------------------------------------------------------------- + +%% Internal API used by a reactivator process indicating it is done with the +%% history log it has got so far. +%% Timeout set to infinity since the tool may be busy, then the reactivator just +%% have to wait. If the tool crashes the reactivator will be go down too automatically. +reactivator_reply(TPid,Counter) -> + gen_server:call(TPid,{reactivator_reply,{Counter,self()}},infinity). +%% ----------------------------------------------------------------------------- + + +%% ============================================================================= +%% gen_server implementation. +%% ============================================================================= + +init(Config) -> + case fetch_configuration(Config) of % From conf-file and Config. {ok,LD} when is_record(LD,ld) -> - case start_inviso_at_c_node(LD) of
- {ok,CPid} ->
- LD2=start_runtime_components(LD),
- LD3=read_trace_case_definitions(LD2),
- process_flag(trap_exit,true),
- start_subscribe_inviso_events(LD3#ld.c_node),
- {ok,LD3#ld{c_pid=CPid}};
- {error,Reason} -> % Most likely already running.
- {stop,{error,Reason}}
- end;
- {error,Reason} ->
- {stop,{error,{start_up,Reason}}}
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function starting the inviso control component at node c_node, or "here"
-%% if it is not a distributed network.
-start_inviso_at_c_node(#ld{c_node=undefined}) -> % Non distributed case.
- case inviso:start() of
- {ok,Pid} ->
- {ok,Pid};
- {error,Reason} ->
- {error,Reason}
- end;
-start_inviso_at_c_node(#ld{c_node=CNode}) ->
- case rpc:call(CNode,inviso,start,[]) of
- {ok,Pid} ->
- {ok,Pid};
- {error,{already_started,_}} -> % A control component already started.
- {error,{inviso_control_already_running,CNode}};
- {error,Reason} ->
- {error,Reason};
- {badrpc,Reason} ->
- {error,{inviso_control_node_error,Reason}}
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function starting the runtime components at all particapting nodes.
-%% It also updates the nodes structure in the #ld to indicate which nodes where
-%% successfully started. Returns a new #ld.
-%% Note that a runtime component may actually be running at one or several nodes.
-%% This is supposed to be the result of an (wanted) autostart. Meaning that the
-%% inviso tool can not handle the situation if a runtime component is not doing
-%% what it is supposed to do. In case a runtime component is already running it
-%% will be adopted and therefore marked as running.
-start_runtime_components(LD=#ld{c_node=undefined}) ->
- start_runtime_components_2(local_runtime,undefined,LD);
-start_runtime_components(LD=#ld{c_node=CNode,nodes=NodesD}) ->
- start_runtime_components_2(get_all_nodenames_nodes(NodesD),CNode,LD).
-start_runtime_components(Nodes,LD=#ld{c_node=CNode}) ->
- start_runtime_components_2(Nodes,CNode,LD).
-
-start_runtime_components_2(local_runtime,CNode,LD=#ld{optg=OptG}) ->
- Opts=start_runtime_components_mk_opts(local_runtime,OptG),
- case inviso:add_node(mk_rt_tag(),Opts) of
- {ok,NAnsw} -> % Should be more clever really!
- NewNodesD=update_added_nodes(CNode,{ok,NAnsw},LD#ld.nodes),
- LD#ld{nodes=NewNodesD};
- {error,_Reason} ->
- LD
- end;
-start_runtime_components_2([Node|Rest],CNode,LD=#ld{optg=OptG}) ->
- Opts=start_runtime_components_mk_opts(Node,OptG),
- case rpc:call(CNode,inviso,add_nodes,[[Node],mk_rt_tag(),Opts]) of
- {ok,NodeResults} ->
- NewNodesD=update_added_nodes(CNode,NodeResults,LD#ld.nodes),
- start_runtime_components_2(Rest,CNode,LD#ld{nodes=NewNodesD});
- {error,_Reason} ->
- start_runtime_components_2(Rest,CNode,LD);
- {badrpc,_Reason} ->
- start_runtime_components_2(Rest,CNode,LD)
- end;
-start_runtime_components_2([],_,LD) ->
- LD.
-
-start_runtime_components_mk_opts(Node,{M,F,Args}) ->
- case catch apply(M,F,[Node|Args]) of
+ case start_inviso_at_c_node(LD) of + {ok,CPid} -> + LD2=start_runtime_components(LD), + LD3=read_trace_case_definitions(LD2), + process_flag(trap_exit,true), + start_subscribe_inviso_events(LD3#ld.c_node), + {ok,LD3#ld{c_pid=CPid}}; + {error,Reason} -> % Most likely already running. + {stop,{error,Reason}} + end; + {error,Reason} -> + {stop,{error,{start_up,Reason}}} + end. +%% ----------------------------------------------------------------------------- + +%% Help function starting the inviso control component at node c_node, or "here" +%% if it is not a distributed network. +start_inviso_at_c_node(#ld{c_node=undefined}) -> % Non distributed case. + case inviso:start() of + {ok,Pid} -> + {ok,Pid}; + {error,Reason} -> + {error,Reason} + end; +start_inviso_at_c_node(#ld{c_node=CNode}) -> + case rpc:call(CNode,inviso,start,[]) of + {ok,Pid} -> + {ok,Pid}; + {error,{already_started,_}} -> % A control component already started. + {error,{inviso_control_already_running,CNode}}; + {error,Reason} -> + {error,Reason}; + {badrpc,Reason} -> + {error,{inviso_control_node_error,Reason}} + end. +%% ----------------------------------------------------------------------------- + +%% Help function starting the runtime components at all particapting nodes. +%% It also updates the nodes structure in the #ld to indicate which nodes where +%% successfully started. Returns a new #ld. +%% Note that a runtime component may actually be running at one or several nodes. +%% This is supposed to be the result of an (wanted) autostart. Meaning that the +%% inviso tool can not handle the situation if a runtime component is not doing +%% what it is supposed to do. In case a runtime component is already running it +%% will be adopted and therefore marked as running. +start_runtime_components(LD=#ld{c_node=undefined}) -> + start_runtime_components_2(local_runtime,undefined,LD); +start_runtime_components(LD=#ld{c_node=CNode,nodes=NodesD}) -> + start_runtime_components_2(get_all_nodenames_nodes(NodesD),CNode,LD). +start_runtime_components(Nodes,LD=#ld{c_node=CNode}) -> + start_runtime_components_2(Nodes,CNode,LD). + +start_runtime_components_2(local_runtime,CNode,LD=#ld{optg=OptG}) -> + Opts=start_runtime_components_mk_opts(local_runtime,OptG), + case inviso:add_node(mk_rt_tag(),Opts) of + {ok,NAnsw} -> % Should be more clever really! + NewNodesD=update_added_nodes(CNode,{ok,NAnsw},LD#ld.nodes), + LD#ld{nodes=NewNodesD}; + {error,_Reason} -> + LD + end; +start_runtime_components_2([Node|Rest],CNode,LD=#ld{optg=OptG}) -> + Opts=start_runtime_components_mk_opts(Node,OptG), + case rpc:call(CNode,inviso,add_nodes,[[Node],mk_rt_tag(),Opts]) of + {ok,NodeResults} -> + NewNodesD=update_added_nodes(CNode,NodeResults,LD#ld.nodes), + start_runtime_components_2(Rest,CNode,LD#ld{nodes=NewNodesD}); + {error,_Reason} -> + start_runtime_components_2(Rest,CNode,LD); + {badrpc,_Reason} -> + start_runtime_components_2(Rest,CNode,LD) + end; +start_runtime_components_2([],_,LD) -> + LD. + +start_runtime_components_mk_opts(Node,{M,F,Args}) -> + case catch apply(M,F,[Node|Args]) of {ok,Opts} when is_list(Opts) -> - start_runtime_component_mk_opts_add_dependency(Opts);
- _ ->
- [?DEFAULT_DEPENDENCY]
- end.
-
-%% The options generator is not supposed to generate the dependency. Hence this
-%% function adds and if necessary removes an incorrectly added dependency tag.
-start_runtime_component_mk_opts_add_dependency(Opts) ->
- case lists:keysearch(dependency,1,Opts) of
- {value,_} -> % Not allowed!!!
- [?DEFAULT_DEPENDENCY|lists:keydelete(dependecy,1,Opts)];
- false ->
- [?DEFAULT_DEPENDENCY|Opts]
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function subscribing to inviso events from the inviso controller. This
-%% will make it possible to follow runtime components going down.
-start_subscribe_inviso_events(undefined) ->
- inviso:subscribe();
-start_subscribe_inviso_events(CNode) ->
- rpc:call(CNode,inviso,subscribe,[self()]). % Don't want the rpc-proc to subscribe!
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% gen_server handle call back functions.
-%% -----------------------------------------------------------------------------
-
-handle_call({stop,UntouchedNodes},_From,LD=#ld{nodes=NodesD,c_node=CNode,keep_nodes=KeepNodes})
- when is_list(UntouchedNodes) ->
- {stop,
- normal,
- remove_all_trace_patterns(CNode,
- UntouchedNodes++KeepNodes,
- get_available_nodes(NodesD)),
- LD};
-handle_call({stop,BadArg},_From,LD) ->
- {reply,{error,{badarg,BadArg}},LD};
-
-handle_call({reconnect_nodes,Nodes},_From,LD) ->
- case h_reconnect_nodes(Nodes,LD) of
- {ok,{Nodes2,NodesErr,NewLD}} ->
- if
- Nodes==local_runtime ->
- {reply,
- build_reconnect_nodes_reply(Nodes,Nodes2,NodesErr,NewLD#ld.nodes),
- NewLD};
+ start_runtime_component_mk_opts_add_dependency(Opts); + _ -> + [?DEFAULT_DEPENDENCY] + end. + +%% The options generator is not supposed to generate the dependency. Hence this +%% function adds and if necessary removes an incorrectly added dependency tag. +start_runtime_component_mk_opts_add_dependency(Opts) -> + case lists:keysearch(dependency,1,Opts) of + {value,_} -> % Not allowed!!! + [?DEFAULT_DEPENDENCY|lists:keydelete(dependecy,1,Opts)]; + false -> + [?DEFAULT_DEPENDENCY|Opts] + end. +%% ----------------------------------------------------------------------------- + +%% Help function subscribing to inviso events from the inviso controller. This +%% will make it possible to follow runtime components going down. +start_subscribe_inviso_events(undefined) -> + inviso:subscribe(); +start_subscribe_inviso_events(CNode) -> + rpc:call(CNode,inviso,subscribe,[self()]). % Don't want the rpc-proc to subscribe! +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% gen_server handle call back functions. +%% ----------------------------------------------------------------------------- + +handle_call({stop,UntouchedNodes},_From,LD=#ld{nodes=NodesD,c_node=CNode,keep_nodes=KeepNodes}) + when is_list(UntouchedNodes) -> + {stop, + normal, + remove_all_trace_patterns(CNode, + UntouchedNodes++KeepNodes, + get_available_nodes(NodesD)), + LD}; +handle_call({stop,BadArg},_From,LD) -> + {reply,{error,{badarg,BadArg}},LD}; + +handle_call({reconnect_nodes,Nodes},_From,LD) -> + case h_reconnect_nodes(Nodes,LD) of + {ok,{Nodes2,NodesErr,NewLD}} -> + if + Nodes==local_runtime -> + {reply, + build_reconnect_nodes_reply(Nodes,Nodes2,NodesErr,NewLD#ld.nodes), + NewLD}; is_list(Nodes) -> - {reply,
- {ok,build_reconnect_nodes_reply(Nodes,Nodes2,NodesErr,NewLD#ld.nodes)},
- NewLD}
- end;
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
-
-handle_call({start_session,MoreTDGargs},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of
- false -> % No session running.
- if
+ {reply, + {ok,build_reconnect_nodes_reply(Nodes,Nodes2,NodesErr,NewLD#ld.nodes)}, + NewLD} + end; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + +handle_call({start_session,MoreTDGargs},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of + false -> % No session running. + if is_list(MoreTDGargs) -> - DateTime=calendar:universal_time(),
- {M,F,Args}=LD#ld.tdg,
- TDGargs=inviso_tool_lib:mk_tdg_args(DateTime,MoreTDGargs++Args),
- case h_start_session(M,F,TDGargs,LD) of
- {ok,{SessionNr,ReturnVal,NewLD}} -> % No nodes to initiate.
- NewLD2=add_initial_tcs_to_history(NewLD#ld.initial_tcs,
- NewLD#ld{chl=mk_chl(LD#ld.chl)}),
- {reply,
- {ok,{SessionNr,ReturnVal}},
- NewLD2#ld{session_state=tracing_sessionstate()}};
- {ok,{SessionNr,ReturnVal,Nodes2,NewLD}} ->
- NewLD2=do_initial_tcs(NewLD#ld.initial_tcs,
- Nodes2,
- NewLD#ld{chl=mk_chl(LD#ld.chl)}),
- {reply,
- {ok,{SessionNr,ReturnVal}},
- NewLD2#ld{session_state=tracing_sessionstate()}};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- true -> % Faulty TDGargs.
- {reply,{error,{badarg,MoreTDGargs}},LD}
- end;
- true ->
- {reply,{error,session_already_started},LD}
- end;
-
-handle_call({reinitiate_session,Nodes},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of
- true -> % The tool must be tracing.
- {M,F,_Args}=LD#ld.tdg,
- TDGargs=get_latest_tdgargs_tracer_data(LD#ld.tracer_data),
- case h_reinitiate_session(Nodes,M,F,TDGargs,LD) of
- {ok,{NodesErr,ReturnVal,NewLD}} ->
- {reply,
- {ok,build_reinitiate_session_reply(Nodes,NodesErr,ReturnVal)},
- NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- false -> % Must have a running session!
- {reply,{error,no_session},LD}
- end;
-
-handle_call({restore_session,{FileName,MoreTDGargs}},_From,LD=#ld{chl=OldCHL})
+ DateTime=calendar:universal_time(), + {M,F,Args}=LD#ld.tdg, + TDGargs=inviso_tool_lib:mk_tdg_args(DateTime,MoreTDGargs++Args), + case h_start_session(M,F,TDGargs,LD) of + {ok,{SessionNr,ReturnVal,NewLD}} -> % No nodes to initiate. + NewLD2=add_initial_tcs_to_history(NewLD#ld.initial_tcs, + NewLD#ld{chl=mk_chl(LD#ld.chl)}), + {reply, + {ok,{SessionNr,ReturnVal}}, + NewLD2#ld{session_state=tracing_sessionstate()}}; + {ok,{SessionNr,ReturnVal,Nodes2,NewLD}} -> + NewLD2=do_initial_tcs(NewLD#ld.initial_tcs, + Nodes2, + NewLD#ld{chl=mk_chl(LD#ld.chl)}), + {reply, + {ok,{SessionNr,ReturnVal}}, + NewLD2#ld{session_state=tracing_sessionstate()}}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + true -> % Faulty TDGargs. + {reply,{error,{badarg,MoreTDGargs}},LD} + end; + true -> + {reply,{error,session_already_started},LD} + end; + +handle_call({reinitiate_session,Nodes},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of + true -> % The tool must be tracing. + {M,F,_Args}=LD#ld.tdg, + TDGargs=get_latest_tdgargs_tracer_data(LD#ld.tracer_data), + case h_reinitiate_session(Nodes,M,F,TDGargs,LD) of + {ok,{NodesErr,ReturnVal,NewLD}} -> + {reply, + {ok,build_reinitiate_session_reply(Nodes,NodesErr,ReturnVal)}, + NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + false -> % Must have a running session! + {reply,{error,no_session},LD} + end; + +handle_call({restore_session,{FileName,MoreTDGargs}},_From,LD=#ld{chl=OldCHL}) when is_list(MoreTDGargs) -> - case is_tracing(LD#ld.session_state) of
- false ->
- case catch make_absolute_path(FileName,LD#ld.dir) of
+ case is_tracing(LD#ld.session_state) of + false -> + case catch make_absolute_path(FileName,LD#ld.dir) of AbsFileName when is_list(AbsFileName) -> - case file:read_file(AbsFileName) of
- {ok,Bin} ->
- if
+ case file:read_file(AbsFileName) of + {ok,Bin} -> + if is_list(MoreTDGargs) -> - case catch replace_history_chl(OldCHL,
- binary_to_term(Bin)) of
- {ok,CHL} -> % The file was well formatted.
- case h_restore_session(MoreTDGargs,
- LD#ld{chl=CHL}) of
- {ok,{SessionNr,ReturnVal,NewLD}} ->
- {reply,
- {ok,{SessionNr,ReturnVal}},
- NewLD#ld{session_state=
- tracing_sessionstate()}};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- Error -> % Badly formatted file.
- {reply,
- {error,{bad_file,{AbsFileName,Error}}},
- LD}
- end;
- true ->
- {reply,{error,{badarg,MoreTDGargs}},LD}
- end;
- {error,Reason} ->
- {reply,{error,{read_file,Reason}},LD}
- end;
- Error ->
- {reply,{error,{bad_filename,{FileName,Error}}},LD}
- end;
- true ->
- {reply,{error,session_already_started},LD}
- end;
-%% This is doing restore session on the current history.
-handle_call({restore_session,MoreTDGargs},_From,LD=#ld{chl=CHL}) ->
- case is_tracing(LD#ld.session_state) of
- false ->
- case history_exists_chl(CHL) of
- true -> % There is a history to redo.
- if
+ case catch replace_history_chl(OldCHL, + binary_to_term(Bin)) of + {ok,CHL} -> % The file was well formatted. + case h_restore_session(MoreTDGargs, + LD#ld{chl=CHL}) of + {ok,{SessionNr,ReturnVal,NewLD}} -> + {reply, + {ok,{SessionNr,ReturnVal}}, + NewLD#ld{session_state= + tracing_sessionstate()}}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + Error -> % Badly formatted file. + {reply, + {error,{bad_file,{AbsFileName,Error}}}, + LD} + end; + true -> + {reply,{error,{badarg,MoreTDGargs}},LD} + end; + {error,Reason} -> + {reply,{error,{read_file,Reason}},LD} + end; + Error -> + {reply,{error,{bad_filename,{FileName,Error}}},LD} + end; + true -> + {reply,{error,session_already_started},LD} + end; +%% This is doing restore session on the current history. +handle_call({restore_session,MoreTDGargs},_From,LD=#ld{chl=CHL}) -> + case is_tracing(LD#ld.session_state) of + false -> + case history_exists_chl(CHL) of + true -> % There is a history to redo. + if is_list(MoreTDGargs) -> - case h_restore_session(MoreTDGargs,LD) of
- {ok,{SessionNr,ReturnVal,NewLD}} ->
- {reply,
- {ok,{SessionNr,ReturnVal}},
- NewLD#ld{session_state=tracing_sessionstate()}};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- true ->
- {reply,{error,{badarg,MoreTDGargs}},LD}
- end;
- false ->
- {reply,{error,no_history},LD}
- end;
- true ->
- {reply,{error,session_already_started},LD}
- end;
-
-%% To stop tracing means stop_tracing through the inviso API. But we must also
-%% remove any help processes executing inviso commands (trace case executers
-%% and reactivators).
-%% Note that to be really sure we should actually wait for EXIT-signals from those
-%% processes before returning a successful returnvalue to the caller. In theory
-%% those processes could issue an inviso call effecting a new trace session started
-%% with init_tracing shortly after the call to stop_tracing. But too complicated! :-)
-%% Further, stop-tracing is done on all nodes in our nodes structure. Regardless
-%% if the node is tracing or not
-handle_call(stop_session,_From,LD=#ld{session_state=SState,chl=CHL,reactivators=ReAct}) ->
- case is_tracing(SState) of
- true ->
- NewCHL=stop_all_tc_executer_chl(CHL), % Stop any running trace case proc.
- NewReAct=stop_all_reactivators(ReAct), % Stop any running reactivators.
- case h_stop_session(LD) of
- {ok,{SessionNr,Result}} ->
- NewNodesD=set_inactive_nodes(Result,LD#ld.nodes),
- {reply,
- {ok,{SessionNr,Result}},
- LD#ld{session_state=passive_sessionstate(),
- nodes=NewNodesD,
- chl=NewCHL,
- reactivators=NewReAct,
- started_initial_tcs=[]}};
- {error,Reason} -> % Now we're really in deep shit :-)
- {reply,{error,{unrecoverable,Reason}},LD}
- end;
- false ->
- {reply,{error,no_session},LD}
- end;
-
-handle_call({reset_nodes,Nodes},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of
- false -> % We can not be in a session.
- {reply,h_reset_nodes(Nodes,LD#ld.c_node),LD};
- true ->
- {reply,{error,session_active},LD}
- end;
-
-%% Calling a trace-case, or "turning it on".
-handle_call({atc,{TC,Id,Vars}},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of % Check that we are tracing now.
- true ->
- case h_atc(TC,Id,Vars,LD) of
- {ok,NewLD} -> % Trace case executed.
- {reply,ok,NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- false -> % Can't activate if not tracing.
- {reply,{error,no_session},LD}
- end;
-
-handle_call({sync_atc,{TC,Id,Vars,TimeOut}},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of
- true ->
- if
+ case h_restore_session(MoreTDGargs,LD) of + {ok,{SessionNr,ReturnVal,NewLD}} -> + {reply, + {ok,{SessionNr,ReturnVal}}, + NewLD#ld{session_state=tracing_sessionstate()}}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + true -> + {reply,{error,{badarg,MoreTDGargs}},LD} + end; + false -> + {reply,{error,no_history},LD} + end; + true -> + {reply,{error,session_already_started},LD} + end; + +%% To stop tracing means stop_tracing through the inviso API. But we must also +%% remove any help processes executing inviso commands (trace case executers +%% and reactivators). +%% Note that to be really sure we should actually wait for EXIT-signals from those +%% processes before returning a successful returnvalue to the caller. In theory +%% those processes could issue an inviso call effecting a new trace session started +%% with init_tracing shortly after the call to stop_tracing. But too complicated! :-) +%% Further, stop-tracing is done on all nodes in our nodes structure. Regardless +%% if the node is tracing or not +handle_call(stop_session,_From,LD=#ld{session_state=SState,chl=CHL,reactivators=ReAct}) -> + case is_tracing(SState) of + true -> + NewCHL=stop_all_tc_executer_chl(CHL), % Stop any running trace case proc. + NewReAct=stop_all_reactivators(ReAct), % Stop any running reactivators. + case h_stop_session(LD) of + {ok,{SessionNr,Result}} -> + NewNodesD=set_inactive_nodes(Result,LD#ld.nodes), + {reply, + {ok,{SessionNr,Result}}, + LD#ld{session_state=passive_sessionstate(), + nodes=NewNodesD, + chl=NewCHL, + reactivators=NewReAct, + started_initial_tcs=[]}}; + {error,Reason} -> % Now we're really in deep shit :-) + {reply,{error,{unrecoverable,Reason}},LD} + end; + false -> + {reply,{error,no_session},LD} + end; + +handle_call({reset_nodes,Nodes},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of + false -> % We can not be in a session. + {reply,h_reset_nodes(Nodes,LD#ld.c_node),LD}; + true -> + {reply,{error,session_active},LD} + end; + +%% Calling a trace-case, or "turning it on". +handle_call({atc,{TC,Id,Vars}},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of % Check that we are tracing now. + true -> + case h_atc(TC,Id,Vars,LD) of + {ok,NewLD} -> % Trace case executed. + {reply,ok,NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + false -> % Can't activate if not tracing. + {reply,{error,no_session},LD} + end; + +handle_call({sync_atc,{TC,Id,Vars,TimeOut}},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of + true -> + if is_integer(TimeOut);TimeOut==infinity -> - case h_sync_atc(TC,Id,Vars,TimeOut,LD) of
- {ok,NewLD,Result} ->
- {reply,Result,NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- true ->
- {reply,{error,{badarg,TimeOut}},LD}
- end;
- false ->
- {reply,{error,no_session},LD}
- end;
-
-handle_call({sync_rtc,{TC,Vars,TimeOut}},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of
- true ->
- if
+ case h_sync_atc(TC,Id,Vars,TimeOut,LD) of + {ok,NewLD,Result} -> + {reply,Result,NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + true -> + {reply,{error,{badarg,TimeOut}},LD} + end; + false -> + {reply,{error,no_session},LD} + end; + +handle_call({sync_rtc,{TC,Vars,TimeOut}},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of + true -> + if is_integer(TimeOut);TimeOut==infinity -> - case h_sync_rtc(TC,Vars,TimeOut,LD) of
- {ok,NewLD,Result} ->
- {reply,Result,NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- true ->
- {reply,{error,{badarg,TimeOut}},LD}
- end;
- false ->
- {reply,{error,no_session},LD}
- end;
-
-
-handle_call({dtc,{TC,Id}},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of % Check that we are tracing now.
- true ->
- case h_dtc(TC,Id,LD) of
- {ok,NewLD} ->
- {reply,ok,NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- false -> % Can't activate if not tracing.
- {reply,{error,no_session},LD}
- end;
-
-handle_call({sync_dtc,{TC,Id,TimeOut}},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of % Check that we are tracing now.
- true ->
- if
+ case h_sync_rtc(TC,Vars,TimeOut,LD) of + {ok,NewLD,Result} -> + {reply,Result,NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + true -> + {reply,{error,{badarg,TimeOut}},LD} + end; + false -> + {reply,{error,no_session},LD} + end; + + +handle_call({dtc,{TC,Id}},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of % Check that we are tracing now. + true -> + case h_dtc(TC,Id,LD) of + {ok,NewLD} -> + {reply,ok,NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + false -> % Can't activate if not tracing. + {reply,{error,no_session},LD} + end; + +handle_call({sync_dtc,{TC,Id,TimeOut}},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of % Check that we are tracing now. + true -> + if is_integer(TimeOut);TimeOut==infinity -> - case h_sync_dtc(TC,Id,TimeOut,LD) of
- {ok,NewLD,Result} ->
- {reply,Result,NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- true ->
- {reply,{error,{badarg,TimeOut}},LD}
- end;
- false -> % Can't activate if not tracing.
- {reply,{error,no_session},LD}
- end;
-
-handle_call({inviso,{Cmd,Args}},_From,LD=#ld{session_state=SState}) ->
- case is_tracing(SState) of
- true ->
- if
+ case h_sync_dtc(TC,Id,TimeOut,LD) of + {ok,NewLD,Result} -> + {reply,Result,NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + true -> + {reply,{error,{badarg,TimeOut}},LD} + end; + false -> % Can't activate if not tracing. + {reply,{error,no_session},LD} + end; + +handle_call({inviso,{Cmd,Args}},_From,LD=#ld{session_state=SState}) -> + case is_tracing(SState) of + true -> + if is_list(Args) -> - case h_inviso(Cmd,Args,LD) of
- {ok,{Reply,NewLD}} ->
- {reply,Reply,NewLD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- true ->
- {reply,{error,{badarg,Args}},LD}
- end;
- false -> % Can't do if not tracing.
- {reply,{error,no_session},LD}
- end;
-
-handle_call({reactivate,Node},_From,LD=#ld{nodes=NodesD,c_node=CNode}) ->
- case get_state_nodes(Node,NodesD) of
- {trace_failure,_} ->
- {reply,{error,trace_failure},LD};
- {State,suspended} -> % The node is infact suspended.
- case h_reactivate(Node,CNode) of
- ok ->
- case {State,is_tracing(LD#ld.session_state)} of
- {tracing,true} -> % Only then shall we redo cmds.
- {reply,ok,redo_cmd_history(Node,LD)};
- _ -> % All other just no longer suspended.
- {reply,ok,LD#ld{nodes=set_running_nodes(Node,NodesD)}}
- end;
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end;
- reactivating ->
- {reply,{error,reactivating},LD};
- {_,running} ->
- {reply,{error,already_running},LD};
- down ->
- {reply,{error,not_available},LD};
- false ->
- {reply,{error,unknown_node},LD}
- end;
-
-handle_call({save_history,FileName},_From,LD=#ld{chl=CHL,dir=Dir,history_dir=HDir}) ->
- case lists:keysort(2,get_loglist_chl(CHL)) of
- [] -> % Empty history or no history.
- {reply,{error,no_history},LD};
- Log ->
- case h_save_history(HDir,Dir,FileName,Log) of
- {ok,AbsFileName} ->
- {reply,{ok,AbsFileName},LD};
- {error,Reason} ->
- {reply,{error,Reason},LD}
- end
- end;
-
-
-handle_call({get_autostart_data,{Nodes,Dependency}},_From,LD=#ld{chl=CHL}) ->
- case build_autostart_data(lists:keysort(2,get_loglist_chl(CHL)),LD#ld.tc_dict) of
- {ok,ASD} ->
- TDGargs=get_latest_tdgargs_tracer_data(LD#ld.tracer_data),
- {M,F,_}=LD#ld.tdg,
- OptsG=LD#ld.optg, % Addnodes options generator.
- {reply,
- h_get_autostart_data(Nodes,LD#ld.c_node,Dependency,ASD,M,F,TDGargs,OptsG),
- LD};
- {error,Reason} -> % Bad datatypes in command args.
- {reply,{error,Reason},LD}
- end;
-
-handle_call({get_autostart_data,Dependency},From,LD=#ld{c_node=undefined}) ->
- handle_call({get_autostart_data,{local_runtime,Dependency}},From,LD);
-handle_call({get_autostart_data,Dependency},From,LD=#ld{nodes=NodesD}) ->
- Nodes=get_all_nodenames_nodes(NodesD),
- handle_call({get_autostart_data,{local_runtime,{Nodes,Dependency}}},From,LD);
-
-handle_call(get_activities,_From,LD=#ld{chl=CHL,reactivators=Reactivators}) ->
- TraceCases=get_ongoing_chl(CHL),
- RNodes=get_all_nodes_reactivators(Reactivators),
- ReturnList1=
- if
- TraceCases==[] ->
- [];
- true ->
- [{tracecases,TraceCases}]
- end,
- ReturnList2=
- if
- RNodes==[] ->
- ReturnList1;
- true ->
- [{reactivating_nodes,RNodes}|ReturnList1]
- end,
- {reply,{ok,ReturnList2},LD};
-
-handle_call({get_node_status,Node},_Node,LD) ->
- case get_state_nodes(Node,LD#ld.nodes) of
- false ->
- {reply,{error,unknown_node},LD};
- StateStatus ->
- {reply,{ok,StateStatus},LD}
- end;
-
-handle_call(get_session_data,_From,LD=#ld{session_state=SState,tracer_data=TD}) ->
- case get_latest_session_nr_tracer_data(TD) of
- undefined ->
- {reply,{error,no_session},LD};
- SessionNr ->
- TDGargs=get_latest_tdgargs_tracer_data(TD),
- case is_tracing(SState) of
- true ->
- {reply,{ok,{tracing,SessionNr,TDGargs}},LD};
- false ->
- {reply,{ok,{not_tracing,SessionNr,TDGargs}},LD}
- end
- end;
-
-handle_call(flush,_From,LD=#ld{c_node=CNode,nodes=NodesD}) ->
- Nodes=get_tracing_nodes(NodesD),
- {reply,h_flush(CNode,Nodes),LD};
-handle_call({flush,Nodes},_From,LD=#ld{c_node=CNode}) ->
- {reply,h_flush(CNode,Nodes),LD};
-
-handle_call(get_loopdata,_From,LD) ->
- {reply,LD,LD};
-
-%% Internal handle_call callbacks.
-
-handle_call({reactivator_reply,{Counter,RPid}},_From,LD=#ld{chl=CHL}) ->
- HighestUsedCounter=get_highest_used_counter_chl(CHL),
- if
- HighestUsedCounter>Counter -> % There are now more log entries.
- NewUnsortedLog=get_loglist_chl(CHL),
- {reply,{more,NewUnsortedLog},LD};
- true -> % No Counter is youngest log entry.
- NodesD=LD#ld.nodes,
- Node=get_node_reactivators(RPid,LD#ld.reactivators),
- {reply,
- done,
- LD#ld{nodes=set_running_nodes(Node,NodesD),
- reactivators=del_reactivators(RPid,LD#ld.reactivators)}}
- end.
-%% -----------------------------------------------------------------------------
-
-%% Handling a notification from a trace case execution process. Receiving this
-%% indicated that this phase of the trace case is finnished.
-handle_cast({tc_executer_reply,{Phase,ProcH,Result}},LD) ->
- case Phase of
- activating -> % The trace case is running now.
- {ok,NewLD}=h_tc_activation_done(ProcH,Result,LD),
- {noreply,NewLD};
- stopping ->
- {ok,NewLD}=h_tc_stopping_done(ProcH,Result,LD),
- {noreply,NewLD};
- _ ->
- {noreply,LD}
- end;
-handle_cast(_,LD) ->
- {noreply,LD}.
-%% -----------------------------------------------------------------------------
-
-%% This is the case when a runtime component goes down. We stop all running
-%% reactivators for this node. Note that there can also be tracecases ongoing
-%% where this node is part of the Nodes variable. But there is not much we can
-%% do about that. Other then informing the user that it is unwise to reconnect
-%% this node before those tracecases have stopped being ongoing.
-handle_info({inviso_event,_CNode,_Time,{disconnected,Node,_}},LD) ->
- {noreply,LD#ld{nodes=set_down_nodes(Node,LD#ld.nodes),
- reactivators=stop_node_reactivators(Node,LD#ld.reactivators)}};
-
-%% This is the case when a runtime component gets suspended. Much of the same
-%% problem as described above applies.
-handle_info({inviso_event,_CNode,_Time,{state_change,Node,{_,{suspended,_}}}},LD) ->
- {noreply,LD#ld{nodes=set_suspended_nodes(Node,LD#ld.nodes),
- reactivators=stop_node_reactivators(Node,LD#ld.reactivators)}};
-
-handle_info(_,LD) ->
- {noreply,LD}.
-%% -----------------------------------------------------------------------------
-
-%% Called when the tool server stops. First clause, termination is initiated by
-%% our self and therefore controlled another way. In the second case we are
-%% stopping for some external reason, and we must then do more here in terminate/2.
-terminate(normal,#ld{c_node=CNode}) -> % This is when we are stopping our self.
- stop_inviso_at_c_node(CNode);
-terminate(_,#ld{c_node=CNode,nodes=NodesD,keep_nodes=KeepNodes}) ->
- remove_all_trace_patterns(CNode,KeepNodes,get_all_nodenames_nodes(NodesD)),
- stop_inviso_at_c_node(CNode).
-%% -----------------------------------------------------------------------------
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-%% =============================================================================
-%% Handler first level help functions.
-%% =============================================================================
-
-%% -----------------------------------------------------------------------------
-%% reconnect_nodes
-%% -----------------------------------------------------------------------------
-
-%% Help function reconnecting the nodes in Nodes. Listed nodes must be part of
-%% the set of nodes handled by the tool. It is not possible to reconnect a node
-%% that is not marked as down. This partly because we otherwise risk losing the
-%% trace_failure state (which can not be rediscovered).
-h_reconnect_nodes(local_runtime,LD=#ld{nodes=NodesD}) -> % Non-distributed.
- case get_state_nodes(local_runtime,NodesD) of
- down ->
- {ok,{local_runtime,[],start_runtime_components(local_runtime,LD)}};
- _ -> % Allready connected!
- {ok,{[],{error,already_connected},LD}}
- end;
+ case h_inviso(Cmd,Args,LD) of + {ok,{Reply,NewLD}} -> + {reply,Reply,NewLD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + true -> + {reply,{error,{badarg,Args}},LD} + end; + false -> % Can't do if not tracing. + {reply,{error,no_session},LD} + end; + +handle_call({reactivate,Node},_From,LD=#ld{nodes=NodesD,c_node=CNode}) -> + case get_state_nodes(Node,NodesD) of + {trace_failure,_} -> + {reply,{error,trace_failure},LD}; + {State,suspended} -> % The node is infact suspended. + case h_reactivate(Node,CNode) of + ok -> + case {State,is_tracing(LD#ld.session_state)} of + {tracing,true} -> % Only then shall we redo cmds. + {reply,ok,redo_cmd_history(Node,LD)}; + _ -> % All other just no longer suspended. + {reply,ok,LD#ld{nodes=set_running_nodes(Node,NodesD)}} + end; + {error,Reason} -> + {reply,{error,Reason},LD} + end; + reactivating -> + {reply,{error,reactivating},LD}; + {_,running} -> + {reply,{error,already_running},LD}; + down -> + {reply,{error,not_available},LD}; + false -> + {reply,{error,unknown_node},LD} + end; + +handle_call({save_history,FileName},_From,LD=#ld{chl=CHL,dir=Dir,history_dir=HDir}) -> + case lists:keysort(2,get_loglist_chl(CHL)) of + [] -> % Empty history or no history. + {reply,{error,no_history},LD}; + Log -> + case h_save_history(HDir,Dir,FileName,Log) of + {ok,AbsFileName} -> + {reply,{ok,AbsFileName},LD}; + {error,Reason} -> + {reply,{error,Reason},LD} + end + end; + +handle_call({get_autostart_data,{Nodes,Dependency}},_From,LD=#ld{chl=CHL}) -> + {ok,ASD} = build_autostart_data(lists:keysort(2,get_loglist_chl(CHL)),LD#ld.tc_dict), + TDGargs=get_latest_tdgargs_tracer_data(LD#ld.tracer_data), + {M,F,_}=LD#ld.tdg, + OptsG=LD#ld.optg, % Addnodes options generator. + {reply, + h_get_autostart_data(Nodes,LD#ld.c_node,Dependency,ASD,M,F,TDGargs,OptsG), + LD}; + +handle_call({get_autostart_data,Dependency},From,LD=#ld{c_node=undefined}) -> + handle_call({get_autostart_data,{local_runtime,Dependency}},From,LD); +handle_call({get_autostart_data,Dependency},From,LD=#ld{nodes=NodesD}) -> + Nodes=get_all_nodenames_nodes(NodesD), + handle_call({get_autostart_data,{local_runtime,{Nodes,Dependency}}},From,LD); + +handle_call(get_activities,_From,LD=#ld{chl=CHL,reactivators=Reactivators}) -> + TraceCases=get_ongoing_chl(CHL), + RNodes=get_all_nodes_reactivators(Reactivators), + ReturnList1= + if + TraceCases==[] -> + []; + true -> + [{tracecases,TraceCases}] + end, + ReturnList2= + if + RNodes==[] -> + ReturnList1; + true -> + [{reactivating_nodes,RNodes}|ReturnList1] + end, + {reply,{ok,ReturnList2},LD}; + +handle_call({get_node_status,Node},_Node,LD) -> + case get_state_nodes(Node,LD#ld.nodes) of + false -> + {reply,{error,unknown_node},LD}; + StateStatus -> + {reply,{ok,StateStatus},LD} + end; + +handle_call(get_session_data,_From,LD=#ld{session_state=SState,tracer_data=TD}) -> + case get_latest_session_nr_tracer_data(TD) of + undefined -> + {reply,{error,no_session},LD}; + SessionNr -> + TDGargs=get_latest_tdgargs_tracer_data(TD), + case is_tracing(SState) of + true -> + {reply,{ok,{tracing,SessionNr,TDGargs}},LD}; + false -> + {reply,{ok,{not_tracing,SessionNr,TDGargs}},LD} + end + end; + +handle_call(flush,_From,LD=#ld{c_node=CNode,nodes=NodesD}) -> + Nodes=get_tracing_nodes(NodesD), + {reply,h_flush(CNode,Nodes),LD}; +handle_call({flush,Nodes},_From,LD=#ld{c_node=CNode}) -> + {reply,h_flush(CNode,Nodes),LD}; + +handle_call(get_loopdata,_From,LD) -> + {reply,LD,LD}; + +%% Internal handle_call callbacks. + +handle_call({reactivator_reply,{Counter,RPid}},_From,LD=#ld{chl=CHL}) -> + HighestUsedCounter=get_highest_used_counter_chl(CHL), + if + HighestUsedCounter>Counter -> % There are now more log entries. + NewUnsortedLog=get_loglist_chl(CHL), + {reply,{more,NewUnsortedLog},LD}; + true -> % No Counter is youngest log entry. + NodesD=LD#ld.nodes, + Node=get_node_reactivators(RPid,LD#ld.reactivators), + {reply, + done, + LD#ld{nodes=set_running_nodes(Node,NodesD), + reactivators=del_reactivators(RPid,LD#ld.reactivators)}} + end. +%% ----------------------------------------------------------------------------- + +%% Handling a notification from a trace case execution process. Receiving this +%% indicated that this phase of the trace case is finnished. +handle_cast({tc_executer_reply,{Phase,ProcH,Result}},LD) -> + case Phase of + activating -> % The trace case is running now. + {ok,NewLD}=h_tc_activation_done(ProcH,Result,LD), + {noreply,NewLD}; + stopping -> + {ok,NewLD}=h_tc_stopping_done(ProcH,Result,LD), + {noreply,NewLD}; + _ -> + {noreply,LD} + end; +handle_cast(_,LD) -> + {noreply,LD}. +%% ----------------------------------------------------------------------------- + +%% This is the case when a runtime component goes down. We stop all running +%% reactivators for this node. Note that there can also be tracecases ongoing +%% where this node is part of the Nodes variable. But there is not much we can +%% do about that. Other then informing the user that it is unwise to reconnect +%% this node before those tracecases have stopped being ongoing. +handle_info({inviso_event,_CNode,_Time,{disconnected,Node,_}},LD) -> + {noreply,LD#ld{nodes=set_down_nodes(Node,LD#ld.nodes), + reactivators=stop_node_reactivators(Node,LD#ld.reactivators)}}; + +%% This is the case when a runtime component gets suspended. Much of the same +%% problem as described above applies. +handle_info({inviso_event,_CNode,_Time,{state_change,Node,{_,{suspended,_}}}},LD) -> + {noreply,LD#ld{nodes=set_suspended_nodes(Node,LD#ld.nodes), + reactivators=stop_node_reactivators(Node,LD#ld.reactivators)}}; + +handle_info(_,LD) -> + {noreply,LD}. +%% ----------------------------------------------------------------------------- + +%% Called when the tool server stops. First clause, termination is initiated by +%% our self and therefore controlled another way. In the second case we are +%% stopping for some external reason, and we must then do more here in terminate/2. +terminate(normal,#ld{c_node=CNode}) -> % This is when we are stopping our self. + stop_inviso_at_c_node(CNode); +terminate(_,#ld{c_node=CNode,nodes=NodesD,keep_nodes=KeepNodes}) -> + remove_all_trace_patterns(CNode,KeepNodes,get_all_nodenames_nodes(NodesD)), + stop_inviso_at_c_node(CNode). +%% ----------------------------------------------------------------------------- + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%% ============================================================================= +%% Handler first level help functions. +%% ============================================================================= + +%% ----------------------------------------------------------------------------- +%% reconnect_nodes +%% ----------------------------------------------------------------------------- + +%% Help function reconnecting the nodes in Nodes. Listed nodes must be part of +%% the set of nodes handled by the tool. It is not possible to reconnect a node +%% that is not marked as down. This partly because we otherwise risk losing the +%% trace_failure state (which can not be rediscovered). +h_reconnect_nodes(local_runtime,LD=#ld{nodes=NodesD}) -> % Non-distributed. + case get_state_nodes(local_runtime,NodesD) of + down -> + {ok,{local_runtime,[],start_runtime_components(local_runtime,LD)}}; + _ -> % Allready connected! + {ok,{[],{error,already_connected},LD}} + end; h_reconnect_nodes(Nodes,LD=#ld{nodes=NodesD}) when is_list(Nodes) -> - {Nodes2,NodesErr}=
- lists:foldl(fun(N,{Nodes2,NodesErr})->
- case get_state_nodes(N,NodesD) of
- down -> % Yes this node can be reconnected.
- {[N|Nodes2],NodesErr};
- false -> % Not part of the node-set!
- {Nodes2,[{N,{error,unknown_node}}|NodesErr]};
- _ -> % Allready connected!
- {Nodes2,[{N,{error,already_connected}}|NodesErr]}
- end
- end,
- {[],[]},
- Nodes),
- LD2=start_runtime_components(Nodes2,LD), % Inpect the #ld.nodes for result.
- {ok,{Nodes2,NodesErr,LD2}};
-h_reconnect_nodes(Nodes,_LD) ->
- {error,{badarg,Nodes}}.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% start_session
-%% -----------------------------------------------------------------------------
-
-%% Help function starting the tracing at all nodes. Note that the tracer data
-%% is calculated using a user defined function. This is how for instance the
-%% file names (of the log files) are determined.
-%% Before the nodes are initiated their (possibly remaining) trace patterns are
-%% cleared, both local and global.
-h_start_session(M,F,TDGargs,LD=#ld{c_node=CNode,nodes=NodesD,tracer_data=TDs}) ->
- case get_inactive_running_nodes(NodesD) of
- [] -> % There are no nodes to initiate!
- h_start_session_nonodes(TDGargs,LD,[]);
- Nodes -> % List of nodes or 'local_runtime'.
- case h_start_session_ctp_all(CNode,Nodes) of
- {ok,Errors,[]} -> % Now no nodes to initiate!
- h_start_session_nonodes(TDGargs,LD,Errors);
- {ok,Errors,Nodes2} -> % Now these nodes are fresh.
- case call_tracer_data_generator(CNode,M,F,TDGargs,Nodes2) of
- {ok,TracerList} -> % Generated our tracerdata.
- case h_start_session_2(CNode,TracerList,Errors) of
- {ok,ReturnValue} -> % Some nodes are initialized now.
- {NewNodesD,Nodes3}=
- set_tracing_running_nodes(CNode,ReturnValue,NodesD),
- {SessionNr,NewTDs}=insert_td_tracer_data(TDGargs,TDs),
- {ok,{SessionNr,
- ReturnValue,
- Nodes3, % The nodes that shall get initial tracases.
- LD#ld{nodes=NewNodesD,tracer_data=NewTDs}}};
- {error,Reason} ->
- {error,Reason}
- end;
- {error,Reason} -> % Faulty tracer data generator func.
- {error,{bad_tdg,Reason}}
- end;
- {error,Reason} -> % Error clearing patterns.
- {error,Reason}
- end
- end.
-
-h_start_session_nonodes(TDGargs,LD=#ld{c_node=CNode,tracer_data=TDs},Errors) ->
- {SessionNr,NewTDs}=insert_td_tracer_data(TDGargs,TDs),
- if
- CNode==undefined ->
- {ok,{SessionNr,[],LD#ld{tracer_data=NewTDs}}};
- true ->
- {ok,{SessionNr,{ok,Errors},LD#ld{tracer_data=NewTDs}}}
- end.
-
-%% Help function clearing all trace patterns on all nodes.
-h_start_session_ctp_all(CNode,Nodes) ->
- case remove_all_trace_patterns(CNode,[],Nodes) of
- ok -> % Non-distributed case1.
- {ok,[],local_runtime};
- {error,Reason} -> % Non-distributed case2 and general failure.
- {error,Reason};
- {ok,NodeResults} ->
- h_start_session_ctp_all_2(NodeResults,[],[])
- end.
-
-h_start_session_ctp_all_2([{Node,{error,Reason}}|Rest],Errors,Nodes) ->
- h_start_session_ctp_all_2(Rest,[{Node,{error,Reason}}|Errors],Nodes);
-h_start_session_ctp_all_2([{Node,_OkOrPatternsUntouched}|Rest],Errors,Nodes) ->
- h_start_session_ctp_all_2(Rest,Errors,[Node|Nodes]);
-h_start_session_ctp_all_2([],Errors,Nodes) ->
- {ok,Errors,Nodes}.
-
-%% Help function doing the actual init_tracing.
-h_start_session_2(undefined,TracerData,_Errors) -> % Non distributed case.
- case inviso:init_tracing(TracerData) of
+ {Nodes2,NodesErr}= + lists:foldl(fun(N,{Nodes2,NodesErr})-> + case get_state_nodes(N,NodesD) of + down -> % Yes this node can be reconnected. + {[N|Nodes2],NodesErr}; + false -> % Not part of the node-set! + {Nodes2,[{N,{error,unknown_node}}|NodesErr]}; + _ -> % Allready connected! + {Nodes2,[{N,{error,already_connected}}|NodesErr]} + end + end, + {[],[]}, + Nodes), + LD2=start_runtime_components(Nodes2,LD), % Inpect the #ld.nodes for result. + {ok,{Nodes2,NodesErr,LD2}}; +h_reconnect_nodes(Nodes,_LD) -> + {error,{badarg,Nodes}}. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% start_session +%% ----------------------------------------------------------------------------- + +%% Help function starting the tracing at all nodes. Note that the tracer data +%% is calculated using a user defined function. This is how for instance the +%% file names (of the log files) are determined. +%% Before the nodes are initiated their (possibly remaining) trace patterns are +%% cleared, both local and global. +h_start_session(M,F,TDGargs,LD=#ld{c_node=CNode,nodes=NodesD,tracer_data=TDs}) -> + case get_inactive_running_nodes(NodesD) of + [] -> % There are no nodes to initiate! + h_start_session_nonodes(TDGargs,LD,[]); + Nodes -> % List of nodes or 'local_runtime'. + case h_start_session_ctp_all(CNode,Nodes) of + {ok,Errors,[]} -> % Now no nodes to initiate! + h_start_session_nonodes(TDGargs,LD,Errors); + {ok,Errors,Nodes2} -> % Now these nodes are fresh. + case call_tracer_data_generator(CNode,M,F,TDGargs,Nodes2) of + {ok,TracerList} -> % Generated our tracerdata. + case h_start_session_2(CNode,TracerList,Errors) of + {ok,ReturnValue} -> % Some nodes are initialized now. + {NewNodesD,Nodes3}= + set_tracing_running_nodes(CNode,ReturnValue,NodesD), + {SessionNr,NewTDs}=insert_td_tracer_data(TDGargs,TDs), + {ok,{SessionNr, + ReturnValue, + Nodes3, % The nodes that shall get initial tracases. + LD#ld{nodes=NewNodesD,tracer_data=NewTDs}}}; + {error,Reason} -> + {error,Reason} + end; + {error,Reason} -> % Faulty tracer data generator func. + {error,{bad_tdg,Reason}} + end; + {error,Reason} -> % Error clearing patterns. + {error,Reason} + end + end. + +h_start_session_nonodes(TDGargs,LD=#ld{c_node=CNode,tracer_data=TDs},Errors) -> + {SessionNr,NewTDs}=insert_td_tracer_data(TDGargs,TDs), + if + CNode==undefined -> + {ok,{SessionNr,[],LD#ld{tracer_data=NewTDs}}}; + true -> + {ok,{SessionNr,{ok,Errors},LD#ld{tracer_data=NewTDs}}} + end. + +%% Help function clearing all trace patterns on all nodes. +h_start_session_ctp_all(CNode,Nodes) -> + case remove_all_trace_patterns(CNode,[],Nodes) of + ok -> % Non-distributed case1. + {ok,[],local_runtime}; + {error,Reason} -> % Non-distributed case2 and general failure. + {error,Reason}; + {ok,NodeResults} -> + h_start_session_ctp_all_2(NodeResults,[],[]) + end. + +h_start_session_ctp_all_2([{Node,{error,Reason}}|Rest],Errors,Nodes) -> + h_start_session_ctp_all_2(Rest,[{Node,{error,Reason}}|Errors],Nodes); +h_start_session_ctp_all_2([{Node,_OkOrPatternsUntouched}|Rest],Errors,Nodes) -> + h_start_session_ctp_all_2(Rest,Errors,[Node|Nodes]); +h_start_session_ctp_all_2([],Errors,Nodes) -> + {ok,Errors,Nodes}. + +%% Help function doing the actual init_tracing. +h_start_session_2(undefined,TracerData,_Errors) -> % Non distributed case. + case inviso:init_tracing(TracerData) of {ok,LogResult} when is_list(LogResult) -> - {ok,{ok,LogResult}};
- {error,already_initated} -> % Perhaps adopted!?
- {ok,{error,already_initiated}}; % Not necessarily wrong.
- {error,Reason} ->
- {error,Reason}
- end;
-h_start_session_2(CNode,TracerList,Errors) ->
- case rpc:call(CNode,inviso,init_tracing,[TracerList]) of
- {ok,NodeResults} ->
- {ok,{ok,Errors++NodeResults}};
- {error,Reason} ->
- {error,Reason};
- {badrpc,Reason} ->
- {error,{inviso_control_node_error,Reason}}
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function starting all initial trace cases. They are actually handled
-%% the same way as user started trace cases. We actually only start initial
-%% tracecases at Nodes (if Nodes is a list of nodes). This because we may have
-%% adopted some nodes some already tracing nodes, and such are supposed to have
-%% the correct patterns and flags set.
-do_initial_tcs([{TC,Vars}|Rest],Nodes,LD) ->
- Id=make_ref(), % Trace case ID.
- case h_atc(TC,Id,Vars,LD,Nodes) of % Start using regular start methods.
- {ok,NewLD} -> % Trace case was successfully started.
- NewInitialTcs=add_initial_tcs(TC,Id,NewLD#ld.started_initial_tcs),
- do_initial_tcs(Rest,Nodes,NewLD#ld{started_initial_tcs=NewInitialTcs});
- {error,_Reason} ->
- do_initial_tcs(Rest,Nodes,LD)
- end;
-do_initial_tcs([_|Rest],Nodes,LD) ->
- do_initial_tcs(Rest,Nodes,LD);
-do_initial_tcs([],_Nodes,LD) ->
- LD.
-%% -----------------------------------------------------------------------------
-
-%% This help functio is used instead of do_initial_tcs/3 if there actually are no
-%% nodes to do the trace cases on. The reason we must have this function is that
-%% the tracecases must still be entered into the history with bindings and all.
-%% But we let them be marked as 'running' immediately (no need for the activator
-%% process).
-add_initial_tcs_to_history([{TC,Vars}|Rest],LD=#ld{tc_dict=TCdict,chl=CHL}) ->
- case get_tracecase_tc_dict(TC,TCdict) of
- {ok,TraceCase} ->
- case check_bindings(Vars,TraceCase) of
- {ok,Bindings} ->
- Id=make_ref(), % Trace case ID.
- FakeProcH=make_ref(), % Need something to enter as activator.
- NewCHL=set_activating_chl(TC,Id,CHL,Bindings,FakeProcH),
- NewCHL2=set_running_chl(FakeProcH,TC,Id,void,NewCHL), % Result=void.
- NewInitialTcs=add_initial_tcs(TC,Id,LD#ld.started_initial_tcs),
- add_initial_tcs_to_history(Rest,LD#ld{chl=NewCHL2,
- started_initial_tcs=NewInitialTcs});
- {error,_Reason} -> % Not much we can do about that.
- add_initial_tcs_to_history(Rest,LD)
- end;
- false ->
- add_initial_tcs_to_history(Rest,LD)
- end;
-add_initial_tcs_to_history([],LD) ->
- LD.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% reinitiate_session
-%% -----------------------------------------------------------------------------
-
-%% Function doing the reinitiation. That means first do init_tracing at the nodes
-%% in question. Then redo the command history to bring them up to speed.
-%% But first the runtime component is cleared of all trace patterns.
-h_reinitiate_session(Nodes,M,F,TDGargs,LD=#ld{c_node=CNode,nodes=NodesD}) ->
- case h_reinitiate_session_2(Nodes,NodesD,CNode) of
- {ok,{[],NodesErr}} -> % No nodes to reinitiate.
- {ok,{NodesErr,{ok,[]},LD}};
- {ok,{Nodes2,NodesErr}} -> % List of nodes or local_runtime.
- case call_tracer_data_generator(CNode,M,F,TDGargs,Nodes2) of
- {ok,TracerList} ->
- case h_start_session_2(CNode,TracerList,[]) of % Borrow from start_session.
- {ok,ReturnValue} -> % Ok, now we must redo cmd history.
- {NewNodesD,_Nodes}=
- set_tracing_running_nodes(CNode,ReturnValue,NodesD),
- NewLD=h_reinitiate_session_chl(Nodes2,LD#ld{nodes=NewNodesD}),
- {ok,{NodesErr,ReturnValue,NewLD}};
- {error,Reason} ->
- {error,Reason}
- end;
- {error,Reason} ->
- {error,{bad_tdg,Reason}}
- end;
- {error,Reason} ->
- {error,Reason}
- end.
-
-%% Help function finding out which nodes in Nodes actually can be reinitiated.
-%% A node must be up, inactive and not suspended in order for this to work. All the
-%% rest is just a matter of how detailed error return values we want to generate.
-h_reinitiate_session_2(local_runtime,NodesD,undefined) -> % Non distributed case.
- case get_state_nodes(local_runtime,NodesD) of
- {inactive,running} -> % Only ok case.
- case inviso:ctp_all() of
- ok ->
- {ok,{local_runtime,[]}};
- {error,Reason} -> % This is strange.
- {error,Reason}
- end;
- {_,suspended} ->
- {ok,{[],{error,suspended}}};
- down ->
- {ok,{[],{error,down}}};
- _ ->
- {ok,{[],{error,already_in_session}}}
- end;
+ {ok,{ok,LogResult}}; + {error,already_initated} -> % Perhaps adopted!? + {ok,{error,already_initiated}}; % Not necessarily wrong. + {error,Reason} -> + {error,Reason} + end; +h_start_session_2(CNode,TracerList,Errors) -> + case rpc:call(CNode,inviso,init_tracing,[TracerList]) of + {ok,NodeResults} -> + {ok,{ok,Errors++NodeResults}}; + {error,Reason} -> + {error,Reason}; + {badrpc,Reason} -> + {error,{inviso_control_node_error,Reason}} + end. +%% ----------------------------------------------------------------------------- + +%% Help function starting all initial trace cases. They are actually handled +%% the same way as user started trace cases. We actually only start initial +%% tracecases at Nodes (if Nodes is a list of nodes). This because we may have +%% adopted some nodes some already tracing nodes, and such are supposed to have +%% the correct patterns and flags set. +do_initial_tcs([{TC,Vars}|Rest],Nodes,LD) -> + Id=make_ref(), % Trace case ID. + case h_atc(TC,Id,Vars,LD,Nodes) of % Start using regular start methods. + {ok,NewLD} -> % Trace case was successfully started. + NewInitialTcs=add_initial_tcs(TC,Id,NewLD#ld.started_initial_tcs), + do_initial_tcs(Rest,Nodes,NewLD#ld{started_initial_tcs=NewInitialTcs}); + {error,_Reason} -> + do_initial_tcs(Rest,Nodes,LD) + end; +do_initial_tcs([_|Rest],Nodes,LD) -> + do_initial_tcs(Rest,Nodes,LD); +do_initial_tcs([],_Nodes,LD) -> + LD. +%% ----------------------------------------------------------------------------- + +%% This help functio is used instead of do_initial_tcs/3 if there actually are no +%% nodes to do the trace cases on. The reason we must have this function is that +%% the tracecases must still be entered into the history with bindings and all. +%% But we let them be marked as 'running' immediately (no need for the activator +%% process). +add_initial_tcs_to_history([{TC,Vars}|Rest],LD=#ld{tc_dict=TCdict,chl=CHL}) -> + case get_tracecase_tc_dict(TC,TCdict) of + {ok,TraceCase} -> + case check_bindings(Vars,TraceCase) of + {ok,Bindings} -> + Id=make_ref(), % Trace case ID. + FakeProcH=make_ref(), % Need something to enter as activator. + NewCHL=set_activating_chl(TC,Id,CHL,Bindings,FakeProcH), + NewCHL2=set_running_chl(FakeProcH,TC,Id,void,NewCHL), % Result=void. + NewInitialTcs=add_initial_tcs(TC,Id,LD#ld.started_initial_tcs), + add_initial_tcs_to_history(Rest,LD#ld{chl=NewCHL2, + started_initial_tcs=NewInitialTcs}); + {error,_Reason} -> % Not much we can do about that. + add_initial_tcs_to_history(Rest,LD) + end; + false -> + add_initial_tcs_to_history(Rest,LD) + end; +add_initial_tcs_to_history([],LD) -> + LD. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% reinitiate_session +%% ----------------------------------------------------------------------------- + +%% Function doing the reinitiation. That means first do init_tracing at the nodes +%% in question. Then redo the command history to bring them up to speed. +%% But first the runtime component is cleared of all trace patterns. +h_reinitiate_session(Nodes,M,F,TDGargs,LD=#ld{c_node=CNode,nodes=NodesD}) -> + case h_reinitiate_session_2(Nodes,NodesD,CNode) of + {ok,{[],NodesErr}} -> % No nodes to reinitiate. + {ok,{NodesErr,{ok,[]},LD}}; + {ok,{Nodes2,NodesErr}} -> % List of nodes or local_runtime. + case call_tracer_data_generator(CNode,M,F,TDGargs,Nodes2) of + {ok,TracerList} -> + case h_start_session_2(CNode,TracerList,[]) of % Borrow from start_session. + {ok,ReturnValue} -> % Ok, now we must redo cmd history. + {NewNodesD,_Nodes}= + set_tracing_running_nodes(CNode,ReturnValue,NodesD), + NewLD=h_reinitiate_session_chl(Nodes2,LD#ld{nodes=NewNodesD}), + {ok,{NodesErr,ReturnValue,NewLD}}; + {error,Reason} -> + {error,Reason} + end; + {error,Reason} -> + {error,{bad_tdg,Reason}} + end; + {error,Reason} -> + {error,Reason} + end. + +%% Help function finding out which nodes in Nodes actually can be reinitiated. +%% A node must be up, inactive and not suspended in order for this to work. All the +%% rest is just a matter of how detailed error return values we want to generate. +h_reinitiate_session_2(local_runtime,NodesD,undefined) -> % Non distributed case. + case get_state_nodes(local_runtime,NodesD) of + {inactive,running} -> % Only ok case. + case inviso:ctp_all() of + ok -> + {ok,{local_runtime,[]}}; + {error,Reason} -> % This is strange. + {error,Reason} + end; + {_,suspended} -> + {ok,{[],{error,suspended}}}; + down -> + {ok,{[],{error,down}}}; + _ -> + {ok,{[],{error,already_in_session}}} + end; h_reinitiate_session_2(Nodes,NodesD,CNode) when is_list(Nodes) -> - {ok,lists:foldl(fun(N,{Nodes2,NodesErr})->
- case get_state_nodes(N,NodesD) of
- {inactive,running} -> % Only ok case.
- case rpc:call(CNode,inviso,ctp_all,[[N]]) of
- {ok,[{N,ok}]} ->
- {[N|Nodes2],NodesErr};
- {ok,[{N,{error,Reason}}]} ->
- {Nodes2,[{N,{error,Reason}}|NodesErr]};
- {error,Reason} ->
- {Nodes2,[{N,{error,Reason}}|NodesErr]};
- {badrpc,Reason} ->
- {Nodes2,[{N,{error,{badrpc,Reason}}}|NodesErr]}
- end;
- {_,suspended} ->
- {Nodes2,[{N,{error,suspended}}|NodesErr]};
- down ->
- {Nodes2,[{N,{error,down}}|NodesErr]};
- false ->
- {Nodes2,[{N,{error,unknown_node}}|NodesErr]};
- _ ->
- {Nodes2,[{N,{error,already_in_session}}|NodesErr]}
- end
- end,
- {[],[]},
- Nodes)};
-h_reinitiate_session_2(Nodes,_NodesD,_CNode) ->
- {error,{badarg7,Nodes}}.
-
-%% Help function redoing the command history log at all nodes that actually
-%% started to trace. Note that we do not modify the return value which will be
-%% given to the caller just because we decide not to redo commands. The user
-%% must conclude him self from the inviso return value that commands were not
-%% redone at a particular node.
-h_reinitiate_session_chl(local_runtime,LD) ->
- h_reinitiate_session_chl([local_runtime],LD);
-h_reinitiate_session_chl([Node|Rest],LD=#ld{nodes=NodesD}) ->
- case get_state_nodes(Node,NodesD) of
- {tracing,running} -> % Only case when we shall redo!
- h_reinitiate_session_chl(Rest,redo_cmd_history(Node,LD));
- _ -> % No redo of chl in other cases.
- h_reinitiate_session_chl(Rest,LD)
- end;
-h_reinitiate_session_chl([],LD) ->
- LD.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% restore_session
-%% -----------------------------------------------------------------------------
-
-%% Help function starting a session (init tracing) and redoes the history
-%% found in CHL.
-h_restore_session(MoreTDGargs,LD) ->
- DateTime=calendar:universal_time(),
- {M,F,Args}=LD#ld.tdg,
- TDGargs=inviso_tool_lib:mk_tdg_args(DateTime,MoreTDGargs++Args),
- case h_start_session(M,F,TDGargs,LD) of
- {ok,{SessionNr,ReturnVal,NewLD}} -> % There were no available nodes.
- {ok,{SessionNr,ReturnVal,NewLD}};
- {ok,{SessionNr,ReturnVal,Nodes2,NewLD}} ->
- NewLD2=h_reinitiate_session_chl(Nodes2,NewLD),
- {ok,{SessionNr,ReturnVal,NewLD2}};
- {error,Reason} -> % Risk of out of control.
- {error,Reason}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% stop_session
-%% -----------------------------------------------------------------------------
-
-%% Help function stopping tracing at tracing nodes.
-h_stop_session(#ld{c_node=CNode,nodes=NodesD,tracer_data=TDs}) ->
- case h_stop_session_2(CNode,NodesD) of
- {ok,Result} ->
- {ok,{get_latest_session_nr_tracer_data(TDs),Result}};
- {error,Reason} ->
- {error,Reason}
- end.
-
-h_stop_session_2(undefined,NodesD) -> % The non distributed case.
- case get_tracing_nodes(NodesD) of
- {up,{inactive,_}} -> % Already not tracing!
- {ok,[]};
- {up,_} ->
- case inviso:stop_tracing() of
- {ok,_State} ->
- {ok,[ok]};
- {error,no_response} ->
- {ok,[]};
- {error,Reason} ->
- {error,Reason}
- end;
- down ->
- {ok,[]}
- end;
-h_stop_session_2(CNode,NodesD) ->
- Nodes=get_tracing_nodes(NodesD),
- case rpc:call(CNode,inviso,stop_tracing,[Nodes]) of
- {ok,NodeResults} ->
- {ok,lists:map(fun({N,{ok,_}})->{N,ok};
- (NodeError)->NodeError
- end,
- NodeResults)};
- {error,Reason} ->
- {error,Reason};
- {badrpc,Reason} ->
- {error,{inviso_control_node_error,Reason}}
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function removing any trace flags, trace patterns and meta trace patterns
-%% at Nodes. This will cause the nodes to become "fresh".
-h_reset_nodes(local_runtime,_CNode) ->
- inviso:clear([keep_log_files]);
-h_reset_nodes(Nodes,CNode) ->
- case inviso_tool_lib:inviso_cmd(CNode,clear,[Nodes,[keep_log_files]]) of
- {ok,NodeResults} ->
- {ok,NodeResults};
- {error,Reason} ->
- {error,Reason}
- end.
-%% -----------------------------------------------------------------------------
-
-
-%% -----------------------------------------------------------------------------
-%% atc
-%% -----------------------------------------------------------------------------
-
-%% Function handling ativating a trace case. Trace cases that do not have a
-%% particular on/off handling (but just on in some scense) are handled here too.
-%% The trace case is entered into the Command History Log.
-%% Note that the trace case can not be executed at this node but must be
-%% executed where the inviso control component is.
-%% Further it is possible to either activated the tracecase for all running and
-%% tracing nodes, or just for a specified list of nodes.
-%% TC=tracecase_name(),
-%% Id=term(), identifiying this usage so we can turn it off later.
-%% Vars=list(), list of variable-value bindnings.
-h_atc(TC,Id,Vars,LD) ->
- h_atc(TC,Id,Vars,LD,void). % For all running-tracing nodes.
-
-h_atc(TC,Id,Vars,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL},Nodes) ->
- case find_id_chl(TC,Id,CHL) of
- activating -> % Already started.
- {error,activating};
- stopping -> % Not yet stopped.
- {error,deactivating};
- false ->
- case get_tracecase_tc_dict(TC,TCdict) of
- {ok,TraceCase} -> % Such a trace case exists.
- case check_bindings(Vars,TraceCase) of
- {ok,Bindings} -> % Necessary vars exists in Vars.
- if
+ {ok,lists:foldl(fun(N,{Nodes2,NodesErr})-> + case get_state_nodes(N,NodesD) of + {inactive,running} -> % Only ok case. + case rpc:call(CNode,inviso,ctp_all,[[N]]) of + {ok,[{N,ok}]} -> + {[N|Nodes2],NodesErr}; + {ok,[{N,{error,Reason}}]} -> + {Nodes2,[{N,{error,Reason}}|NodesErr]}; + {error,Reason} -> + {Nodes2,[{N,{error,Reason}}|NodesErr]}; + {badrpc,Reason} -> + {Nodes2,[{N,{error,{badrpc,Reason}}}|NodesErr]} + end; + {_,suspended} -> + {Nodes2,[{N,{error,suspended}}|NodesErr]}; + down -> + {Nodes2,[{N,{error,down}}|NodesErr]}; + false -> + {Nodes2,[{N,{error,unknown_node}}|NodesErr]}; + _ -> + {Nodes2,[{N,{error,already_in_session}}|NodesErr]} + end + end, + {[],[]}, + Nodes)}; +h_reinitiate_session_2(Nodes,_NodesD,_CNode) -> + {error,{badarg7,Nodes}}. + +%% Help function redoing the command history log at all nodes that actually +%% started to trace. Note that we do not modify the return value which will be +%% given to the caller just because we decide not to redo commands. The user +%% must conclude him self from the inviso return value that commands were not +%% redone at a particular node. +h_reinitiate_session_chl(local_runtime,LD) -> + h_reinitiate_session_chl([local_runtime],LD); +h_reinitiate_session_chl([Node|Rest],LD=#ld{nodes=NodesD}) -> + case get_state_nodes(Node,NodesD) of + {tracing,running} -> % Only case when we shall redo! + h_reinitiate_session_chl(Rest,redo_cmd_history(Node,LD)); + _ -> % No redo of chl in other cases. + h_reinitiate_session_chl(Rest,LD) + end; +h_reinitiate_session_chl([],LD) -> + LD. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% restore_session +%% ----------------------------------------------------------------------------- + +%% Help function starting a session (init tracing) and redoes the history +%% found in CHL. +h_restore_session(MoreTDGargs,LD) -> + DateTime=calendar:universal_time(), + {M,F,Args}=LD#ld.tdg, + TDGargs=inviso_tool_lib:mk_tdg_args(DateTime,MoreTDGargs++Args), + case h_start_session(M,F,TDGargs,LD) of + {ok,{SessionNr,ReturnVal,NewLD}} -> % There were no available nodes. + {ok,{SessionNr,ReturnVal,NewLD}}; + {ok,{SessionNr,ReturnVal,Nodes2,NewLD}} -> + NewLD2=h_reinitiate_session_chl(Nodes2,NewLD), + {ok,{SessionNr,ReturnVal,NewLD2}}; + {error,Reason} -> % Risk of out of control. + {error,Reason} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% stop_session +%% ----------------------------------------------------------------------------- + +%% Help function stopping tracing at tracing nodes. +h_stop_session(#ld{c_node=CNode,nodes=NodesD,tracer_data=TDs}) -> + case h_stop_session_2(CNode,NodesD) of + {ok,Result} -> + {ok,{get_latest_session_nr_tracer_data(TDs),Result}}; + {error,Reason} -> + {error,Reason} + end. + +h_stop_session_2(undefined,NodesD) -> % The non distributed case. + case get_tracing_nodes(NodesD) of + {up,{inactive,_}} -> % Already not tracing! + {ok,[]}; + {up,_} -> + case inviso:stop_tracing() of + {ok,_State} -> + {ok,[ok]}; + {error,no_response} -> + {ok,[]}; + {error,Reason} -> + {error,Reason} + end; + down -> + {ok,[]} + end; +h_stop_session_2(CNode,NodesD) -> + Nodes=get_tracing_nodes(NodesD), + case rpc:call(CNode,inviso,stop_tracing,[Nodes]) of + {ok,NodeResults} -> + {ok,lists:map(fun({N,{ok,_}})->{N,ok}; + (NodeError)->NodeError + end, + NodeResults)}; + {error,Reason} -> + {error,Reason}; + {badrpc,Reason} -> + {error,{inviso_control_node_error,Reason}} + end. +%% ----------------------------------------------------------------------------- + +%% Help function removing any trace flags, trace patterns and meta trace patterns +%% at Nodes. This will cause the nodes to become "fresh". +h_reset_nodes(local_runtime,_CNode) -> + inviso:clear([keep_log_files]); +h_reset_nodes(Nodes,CNode) -> + case inviso_tool_lib:inviso_cmd(CNode,clear,[Nodes,[keep_log_files]]) of + {ok,NodeResults} -> + {ok,NodeResults}; + {error,Reason} -> + {error,Reason} + end. +%% ----------------------------------------------------------------------------- + + +%% ----------------------------------------------------------------------------- +%% atc +%% ----------------------------------------------------------------------------- + +%% Function handling ativating a trace case. Trace cases that do not have a +%% particular on/off handling (but just on in some scense) are handled here too. +%% The trace case is entered into the Command History Log. +%% Note that the trace case can not be executed at this node but must be +%% executed where the inviso control component is. +%% Further it is possible to either activated the tracecase for all running and +%% tracing nodes, or just for a specified list of nodes. +%% TC=tracecase_name(), +%% Id=term(), identifiying this usage so we can turn it off later. +%% Vars=list(), list of variable-value bindnings. +h_atc(TC,Id,Vars,LD) -> + h_atc(TC,Id,Vars,LD,void). % For all running-tracing nodes. + +h_atc(TC,Id,Vars,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL},Nodes) -> + case find_id_chl(TC,Id,CHL) of + activating -> % Already started. + {error,activating}; + stopping -> % Not yet stopped. + {error,deactivating}; + false -> + case get_tracecase_tc_dict(TC,TCdict) of + {ok,TraceCase} -> % Such a trace case exists. + case check_bindings(Vars,TraceCase) of + {ok,Bindings} -> % Necessary vars exists in Vars. + if is_list(Nodes) -> % Nodes predefined. - h_atc_2(TC,Id,CNode,CHL,LD,TraceCase,Bindings,Nodes);
- true -> % Use all tracing and running nodes.
- Nodes1=get_nodenames_running_nodes(LD#ld.nodes),
- h_atc_2(TC,Id,CNode,CHL,LD,TraceCase,Bindings,Nodes1)
- end;
- {error,Reason} -> % Variable def missing.
- {error,Reason}
- end;
- false ->
- {error,unknown_tracecase}
- end;
- {ok,_Bindings} -> % Already activated and running.
- {error,already_started}
- end.
-
-h_atc_2(TC,Id,CNode,CHL,LD,TraceCase,Bindings,Nodes) ->
- case exec_trace_case_on(CNode,TraceCase,Bindings,Nodes) of
- {ok,ProcH} -> % Trace cases have no return values.
- NewCHL=set_activating_chl(TC,Id,CHL,Bindings,ProcH),
- {ok,LD#ld{chl=NewCHL}};
- {error,Reason} ->
- {error,Reason}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% sync_atc
-%% -----------------------------------------------------------------------------
-
-h_sync_atc(TC,Id,Vars,TimeOut,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) ->
- case find_id_chl(TC,Id,CHL) of
- activating -> % Already started.
- {error,activating};
- stopping -> % Not yet stopped.
- {error,deactivating};
- false ->
- case get_tracecase_tc_dict(TC,TCdict) of
- {ok,TraceCase} -> % Such a trace case exists.
- case check_bindings(Vars,TraceCase) of
- {ok,Bindings} -> % Necessary vars exists in Vars.
- {ok,TcFName}=get_tc_activate_fname(TraceCase),
- Nodes=get_nodenames_running_nodes(LD#ld.nodes),
- Bindings2=erl_eval:add_binding('Nodes',Nodes,Bindings),
- RpcNode=get_rpc_nodename(CNode),
- case rpc:call(RpcNode,file,script,[TcFName,Bindings2],TimeOut) of
- {ok,Value} ->
- FakeProcH=make_ref(),
- NewCHL1=set_activating_chl(TC,Id,CHL,Bindings,FakeProcH),
- NewCHL2=set_running_chl(FakeProcH,TC,Id,Value,NewCHL1),
- {ok,LD#ld{chl=NewCHL2},Value};
- {error,Reason} ->
- {error,{faulty_tracecase,{TcFName,Reason}}};
- {badrpc,Reason} ->
- {error,{badrpc,Reason}}
- end;
- {error,Reason} -> % Variable def missing.
- {error,Reason}
- end;
- false ->
- {error,unknown_tracecase}
- end;
- {ok,_Bindings} -> % Already activated and running.
- {error,already_started}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% rtc
-%% -----------------------------------------------------------------------------
-
-%% Function handling running a trace case without marking it as activated. It
-%% is in the history mearly indicated as activated
-h_sync_rtc(TC,Vars,TimeOut,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) ->
- case get_tracecase_tc_dict(TC,TCdict) of
- {ok,TraceCase} -> % Such a trace case exists.
- case check_bindings(Vars,TraceCase) of
- {ok,Bindings} -> % Necessary vars exists in Vars.
- {ok,TcFName}=get_tc_activate_fname(TraceCase),
- Nodes=get_nodenames_running_nodes(LD#ld.nodes),
- Bindings2=erl_eval:add_binding('Nodes',Nodes,Bindings),
- RpcNode=get_rpc_nodename(CNode),
- case rpc:call(RpcNode,file,script,[TcFName,Bindings2],TimeOut) of
- {ok,Value} ->
- {ok,LD#ld{chl=add_rtc_chl(TC,Bindings2,CHL)},Value};
- {error,Reason} ->
- {error,{faulty_tracecase,{TcFName,Reason}}};
- {badrpc,Reason} ->
- {error,{badrpc,Reason}}
- end;
- {error,Reason} -> % Variable def missing.
- {error,Reason}
- end;
- false ->
- {error,unknown_tracecase}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% dtc
-%% -----------------------------------------------------------------------------
-
-%% Function handling turning a trace case off. The trace case must be registered
-%% as having an off mechanism. If it has an off mechanism and was previously entered
-%% into the Command History Log and is done with its activation phase, it will be
-%% executed and removed from the CHL.
-h_dtc(TC,Id,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) ->
- case find_id_chl(TC,Id,CHL) of
- {ok,Bindings} -> % Yes, we have turned it on before.
- case get_tracecase_tc_dict(TC,TCdict) of
- {ok,TraceCase} ->
- Nodes=get_nodenames_running_nodes(LD#ld.nodes),
- case exec_trace_case_off(CNode,TraceCase,Bindings,Nodes) of
- {ok,ProcH} ->
- NewCHL=set_stopping_chl(TC,Id,CHL,ProcH),
- {ok,LD#ld{chl=NewCHL}};
- {error,Reason} ->
- {error,Reason}
- end;
- false -> % Strange, Id ok but no such trace case.
- {error,unknown_tracecase}
- end;
- false -> % Not previously turned on.
- {error,unknown_id};
- activating ->
- {error,activating};
- stopping ->
- {error,already_deactivating}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% sync_dtc
-%% -----------------------------------------------------------------------------
-
-h_sync_dtc(TC,Id,TimeOut,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) ->
- case find_id_chl(TC,Id,CHL) of
- {ok,Bindings} -> % Yes, we have turned it on before.
- case get_tracecase_tc_dict(TC,TCdict) of
- {ok,TraceCase} ->
- case get_tc_deactivate_fname(TraceCase) of
- {ok,TcFName} ->
- Nodes=get_nodenames_running_nodes(LD#ld.nodes),
- Bindings2=erl_eval:add_binding('Nodes',Nodes,Bindings),
- RpcNode=get_rpc_nodename(CNode),
- case rpc:call(RpcNode,file,script,[TcFName,Bindings2],TimeOut) of
- {ok,Value} ->
- FakeProcH=make_ref(),
- NewCHL1=set_stopping_chl(TC,Id,CHL,FakeProcH),
- NewCHL2=nullify_chl(FakeProcH,TC,Id,NewCHL1),
- {ok,LD#ld{chl=NewCHL2},Value};
- {error,Reason} -> % Script fault.
- {error,{faulty_tracecase,{TcFName,Reason}}};
- {badrpc,Reason} ->
- {error,{badrpc,Reason}}
- end;
- false ->
- {error,no_deactivation}
- end;
- false -> % Strange, Id ok but no such trace case.
- {error,unknown_tracecase}
- end;
- false -> % Not previously turned on.
- {error,unknown_id};
- activating ->
- {error,activating};
- stopping ->
- {error,already_deactivating}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% inviso
-%% -----------------------------------------------------------------------------
-
-%% Function executing one inviso command. The returnvalue from the inviso
-%% function call will be the return value to the client. The command is
-%% entered into the history command log.
-%% Note that the inviso call may have to be done at another node, dictated
-%% by the c_node field. Further, if the module name is not an atom it is
-%% most likely a regexp, which must be expanded at the regexp_node. Note
-%% this is only relevant for tp and tpl.
-h_inviso(Cmd,Args,LD=#ld{c_node=CNode,regexp_node=RegExpNode,chl=CHL}) ->
- Arity=length(Args),
- case check_proper_inviso_call(Cmd,Arity) of
- {true,RegExpFlag} -> % Yes it is an inviso call.
- Nodes=get_nodenames_running_nodes(LD#ld.nodes),
- case h_inviso_2(Cmd,Args,CNode,RegExpNode,RegExpFlag,Nodes) of
- {ok,Result} ->
- case check_inviso_call_to_history(Cmd,Arity) of
- true -> % This function shall be added to chl.
- {ok,{Result,LD#ld{chl=add_inviso_call_chl(Cmd,Args,CHL)}}};
- false -> % Do not add it.
- {ok,{Result,LD}}
- end;
- {error,Reason} ->
- {error,Reason}
- end;
- false -> % Not an inviso function.
- {error,invalid_function_name}
- end.
-
-h_inviso_2(Cmd,Args,undefined,_,_,_) -> % A non distributed system.
- case catch apply(inviso,Cmd,Args) of % Regexp expansion only relevant when
- {'EXIT',Reason} -> % distributed, here let inviso_rt expand.
- {error,{'EXIT',Reason}};
- Result ->
- {ok,Result}
- end;
-h_inviso_2(Cmd,Args,CNode,RegExpNode,RegExpFlag,Nodes) ->
- case expand_module_regexps(Args,RegExpNode,Nodes,RegExpFlag) of
- {ok,NewArgs} ->
- case catch inviso_tool_lib:inviso_cmd(CNode,Cmd,[Nodes|NewArgs]) of
- {'EXIT',Reason} ->
- {error,{'EXIT',Reason}};
- {error,{badrpc,Reason}} -> % Includes runtime failure.
- {error,{badrpc,Reason}};
- Result ->
- {ok,Result}
- end;
- {error,Reason} ->
- {error,Reason}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% reactivate
-%% -----------------------------------------------------------------------------
-
-h_reactivate(_Node,undefined) -> % The non-distributed case.
- case inviso:cancel_suspension() of
- ok ->
- ok;
- {error,Reason} ->
- {error,Reason}
- end;
-h_reactivate(Node,CNode) ->
- case inviso_tool_lib:inviso_cmd(CNode,cancel_suspension,[[Node]]) of
- {ok,[{Node,ok}]} ->
- ok;
- {ok,[{Node,{error,Reason}}]} ->
- {error,Reason};
- {error,Reason} ->
- {error,Reason}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% save_history
-%% -----------------------------------------------------------------------------
-
-h_save_history(HDir,Dir,FileName,SortedLog) ->
- Dir0=
- if
+ h_atc_2(TC,Id,CNode,CHL,LD,TraceCase,Bindings,Nodes); + true -> % Use all tracing and running nodes. + Nodes1=get_nodenames_running_nodes(LD#ld.nodes), + h_atc_2(TC,Id,CNode,CHL,LD,TraceCase,Bindings,Nodes1) + end; + {error,Reason} -> % Variable def missing. + {error,Reason} + end; + false -> + {error,unknown_tracecase} + end; + {ok,_Bindings} -> % Already activated and running. + {error,already_started} + end. + +h_atc_2(TC,Id,CNode,CHL,LD,TraceCase,Bindings,Nodes) -> + {ok,ProcH} = exec_trace_case_on(CNode,TraceCase,Bindings,Nodes), + %% Trace cases have no return values. + NewCHL=set_activating_chl(TC,Id,CHL,Bindings,ProcH), + {ok,LD#ld{chl=NewCHL}}. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% sync_atc +%% ----------------------------------------------------------------------------- + +h_sync_atc(TC,Id,Vars,TimeOut,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) -> + case find_id_chl(TC,Id,CHL) of + activating -> % Already started. + {error,activating}; + stopping -> % Not yet stopped. + {error,deactivating}; + false -> + case get_tracecase_tc_dict(TC,TCdict) of + {ok,TraceCase} -> % Such a trace case exists. + case check_bindings(Vars,TraceCase) of + {ok,Bindings} -> % Necessary vars exists in Vars. + {ok,TcFName}=get_tc_activate_fname(TraceCase), + Nodes=get_nodenames_running_nodes(LD#ld.nodes), + Bindings2=erl_eval:add_binding('Nodes',Nodes,Bindings), + RpcNode=get_rpc_nodename(CNode), + case rpc:call(RpcNode,file,script,[TcFName,Bindings2],TimeOut) of + {ok,Value} -> + FakeProcH=make_ref(), + NewCHL1=set_activating_chl(TC,Id,CHL,Bindings,FakeProcH), + NewCHL2=set_running_chl(FakeProcH,TC,Id,Value,NewCHL1), + {ok,LD#ld{chl=NewCHL2},Value}; + {error,Reason} -> + {error,{faulty_tracecase,{TcFName,Reason}}}; + {badrpc,Reason} -> + {error,{badrpc,Reason}} + end; + {error,Reason} -> % Variable def missing. + {error,Reason} + end; + false -> + {error,unknown_tracecase} + end; + {ok,_Bindings} -> % Already activated and running. + {error,already_started} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% rtc +%% ----------------------------------------------------------------------------- + +%% Function handling running a trace case without marking it as activated. It +%% is in the history mearly indicated as activated +h_sync_rtc(TC,Vars,TimeOut,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) -> + case get_tracecase_tc_dict(TC,TCdict) of + {ok,TraceCase} -> % Such a trace case exists. + case check_bindings(Vars,TraceCase) of + {ok,Bindings} -> % Necessary vars exists in Vars. + {ok,TcFName}=get_tc_activate_fname(TraceCase), + Nodes=get_nodenames_running_nodes(LD#ld.nodes), + Bindings2=erl_eval:add_binding('Nodes',Nodes,Bindings), + RpcNode=get_rpc_nodename(CNode), + case rpc:call(RpcNode,file,script,[TcFName,Bindings2],TimeOut) of + {ok,Value} -> + {ok,LD#ld{chl=add_rtc_chl(TC,Bindings2,CHL)},Value}; + {error,Reason} -> + {error,{faulty_tracecase,{TcFName,Reason}}}; + {badrpc,Reason} -> + {error,{badrpc,Reason}} + end; + {error,Reason} -> % Variable def missing. + {error,Reason} + end; + false -> + {error,unknown_tracecase} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% dtc +%% ----------------------------------------------------------------------------- + +%% Function handling turning a trace case off. The trace case must be registered +%% as having an off mechanism. If it has an off mechanism and was previously entered +%% into the Command History Log and is done with its activation phase, it will be +%% executed and removed from the CHL. +h_dtc(TC,Id,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) -> + case find_id_chl(TC,Id,CHL) of + {ok,Bindings} -> % Yes, we have turned it on before. + case get_tracecase_tc_dict(TC,TCdict) of + {ok,TraceCase} -> + Nodes=get_nodenames_running_nodes(LD#ld.nodes), + case exec_trace_case_off(CNode,TraceCase,Bindings,Nodes) of + {ok,ProcH} -> + NewCHL=set_stopping_chl(TC,Id,CHL,ProcH), + {ok,LD#ld{chl=NewCHL}}; + {error,Reason} -> + {error,Reason} + end; + false -> % Strange, Id ok but no such trace case. + {error,unknown_tracecase} + end; + false -> % Not previously turned on. + {error,unknown_id}; + activating -> + {error,activating}; + stopping -> + {error,already_deactivating} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% sync_dtc +%% ----------------------------------------------------------------------------- + +h_sync_dtc(TC,Id,TimeOut,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL}) -> + case find_id_chl(TC,Id,CHL) of + {ok,Bindings} -> % Yes, we have turned it on before. + case get_tracecase_tc_dict(TC,TCdict) of + {ok,TraceCase} -> + case get_tc_deactivate_fname(TraceCase) of + {ok,TcFName} -> + Nodes=get_nodenames_running_nodes(LD#ld.nodes), + Bindings2=erl_eval:add_binding('Nodes',Nodes,Bindings), + RpcNode=get_rpc_nodename(CNode), + case rpc:call(RpcNode,file,script,[TcFName,Bindings2],TimeOut) of + {ok,Value} -> + FakeProcH=make_ref(), + NewCHL1=set_stopping_chl(TC,Id,CHL,FakeProcH), + NewCHL2=nullify_chl(FakeProcH,TC,Id,NewCHL1), + {ok,LD#ld{chl=NewCHL2},Value}; + {error,Reason} -> % Script fault. + {error,{faulty_tracecase,{TcFName,Reason}}}; + {badrpc,Reason} -> + {error,{badrpc,Reason}} + end; + false -> + {error,no_deactivation} + end; + false -> % Strange, Id ok but no such trace case. + {error,unknown_tracecase} + end; + false -> % Not previously turned on. + {error,unknown_id}; + activating -> + {error,activating}; + stopping -> + {error,already_deactivating} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% inviso +%% ----------------------------------------------------------------------------- + +%% Function executing one inviso command. The returnvalue from the inviso +%% function call will be the return value to the client. The command is +%% entered into the history command log. +%% Note that the inviso call may have to be done at another node, dictated +%% by the c_node field. Further, if the module name is not an atom it is +%% most likely a regexp, which must be expanded at the regexp_node. Note +%% this is only relevant for tp and tpl. +h_inviso(Cmd,Args,LD=#ld{c_node=CNode,regexp_node=RegExpNode,chl=CHL}) -> + Arity=length(Args), + case check_proper_inviso_call(Cmd,Arity) of + {true,RegExpFlag} -> % Yes it is an inviso call. + Nodes=get_nodenames_running_nodes(LD#ld.nodes), + case h_inviso_2(Cmd,Args,CNode,RegExpNode,RegExpFlag,Nodes) of + {ok,Result} -> + case check_inviso_call_to_history(Cmd,Arity) of + true -> % This function shall be added to chl. + {ok,{Result,LD#ld{chl=add_inviso_call_chl(Cmd,Args,CHL)}}}; + false -> % Do not add it. + {ok,{Result,LD}} + end; + {error,Reason} -> + {error,Reason} + end; + false -> % Not an inviso function. + {error,invalid_function_name} + end. + +h_inviso_2(Cmd,Args,undefined,_,_,_) -> % A non distributed system. + case catch apply(inviso,Cmd,Args) of % Regexp expansion only relevant when + {'EXIT',Reason} -> % distributed, here let inviso_rt expand. + {error,{'EXIT',Reason}}; + Result -> + {ok,Result} + end; +h_inviso_2(Cmd,Args,CNode,RegExpNode,RegExpFlag,Nodes) -> + case expand_module_regexps(Args,RegExpNode,Nodes,RegExpFlag) of + {ok,NewArgs} -> + case catch inviso_tool_lib:inviso_cmd(CNode,Cmd,[Nodes|NewArgs]) of + {'EXIT',Reason} -> + {error,{'EXIT',Reason}}; + {error,{badrpc,Reason}} -> % Includes runtime failure. + {error,{badrpc,Reason}}; + Result -> + {ok,Result} + end; + {error,Reason} -> + {error,Reason} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% reactivate +%% ----------------------------------------------------------------------------- + +h_reactivate(_Node,undefined) -> % The non-distributed case. + case inviso:cancel_suspension() of + ok -> + ok; + {error,Reason} -> + {error,Reason} + end; +h_reactivate(Node,CNode) -> + case inviso_tool_lib:inviso_cmd(CNode,cancel_suspension,[[Node]]) of + {ok,[{Node,ok}]} -> + ok; + {ok,[{Node,{error,Reason}}]} -> + {error,Reason}; + {error,Reason} -> + {error,Reason} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% save_history +%% ----------------------------------------------------------------------------- + +h_save_history(HDir,Dir,FileName,SortedLog) -> + Dir0= + if is_list(HDir) -> % There is a history dir specified. - HDir; % Use it then.
- true ->
- Dir % Else use the tool dir.
- end,
- case catch make_absolute_path(FileName,Dir0) of
+ HDir; % Use it then. + true -> + Dir % Else use the tool dir. + end, + case catch make_absolute_path(FileName,Dir0) of AbsFileName when is_list(AbsFileName) -> - Log2=build_saved_history_data(SortedLog), % Remove stopped tracecases.
- case file:write_file(AbsFileName,term_to_binary(Log2)) of
- ok ->
- {ok,AbsFileName};
- {error,Reason} ->
- {error,{write_file,Reason}}
- end;
- {'EXIT',_Reason} ->
- {error,{bad_filename,FileName}}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% get_autostart_data
-%% -----------------------------------------------------------------------------
-
-%% Help function building the structures used when exporting autostart information
-%% from the tool. Note that we remove the tool-dependency and insert the one
-%% specify in the get_autostart_data call.
-h_get_autostart_data(local_runtime,_,Dependency,ASD,M,F,TDGargs,OptsG) ->
- CompleteTDGargs=call_tracer_data_generator_mkargs(local_runtime,TDGargs),
- Opts0=start_runtime_components_mk_opts(local_runtime,OptsG),
- Opts=[Dependency|lists:keydelete(dependency,1,Opts0)],
- {ok,{ASD,{ok,{Opts,{tdg,{M,F,CompleteTDGargs}}}}}};
-
+ Log2=build_saved_history_data(SortedLog), % Remove stopped tracecases. + case file:write_file(AbsFileName,term_to_binary(Log2)) of + ok -> + {ok,AbsFileName}; + {error,Reason} -> + {error,{write_file,Reason}} + end; + {'EXIT',_Reason} -> + {error,{bad_filename,FileName}} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% get_autostart_data +%% ----------------------------------------------------------------------------- + +%% Help function building the structures used when exporting autostart information +%% from the tool. Note that we remove the tool-dependency and insert the one +%% specify in the get_autostart_data call. +h_get_autostart_data(local_runtime,_,Dependency,ASD,M,F,TDGargs,OptsG) -> + CompleteTDGargs=call_tracer_data_generator_mkargs(local_runtime,TDGargs), + Opts0=start_runtime_components_mk_opts(local_runtime,OptsG), + Opts=[Dependency|lists:keydelete(dependency,1,Opts0)], + {ok,{ASD,{ok,{Opts,{tdg,{M,F,CompleteTDGargs}}}}}}; + h_get_autostart_data(Nodes,CNode,Dependency,ASD,M,F,TDGargs,OptsG) when is_list(Nodes) -> - {ok,{ASD,h_get_autostart_data_2(Nodes,CNode,Dependency,M,F,TDGargs,OptsG)}};
-h_get_autostart_data(Nodes,_CNode,_Dependency,_ASD,_M,_F,_TDGargs,_OptsG) ->
- {error,{badarg,Nodes}}.
-
-h_get_autostart_data_2([Node|Rest],CNode,Dependency,M,F,TDGargs,OptsG) ->
- CompleteTDGargs=call_tracer_data_generator_mkargs(Node,TDGargs),
- Opts0=start_runtime_components_mk_opts(Node,OptsG),
- Opts=[Dependency|lists:keydelete(dependency,1,Opts0)],
- [{Node,{ok,{Opts,{tdg,{M,F,CompleteTDGargs}}}}}|
- h_get_autostart_data_2(Rest,CNode,Dependency,M,F,TDGargs,OptsG)];
-h_get_autostart_data_2([],_CNode,_Dependency,_M,_F,_TDGargs,_OptsG) ->
- [].
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% flush
-%% -----------------------------------------------------------------------------
-
-h_flush(undefined,_Nodes) ->
- inviso:flush();
-h_flush(CNode,Nodes) ->
- inviso_tool_lib:inviso_cmd(CNode,flush,[Nodes]).
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% tc_executer_reply
-%% -----------------------------------------------------------------------------
-
-%% Function handling that a trace case has completed its activation phase and
-%% shall now be marked in the Command History Log as running.
-h_tc_activation_done(ProcH,Result,LD=#ld{chl=CHL}) ->
- case find_tc_executer_chl(ProcH,CHL) of
- {activating,{TC,Id}} ->
- case Result of
- {ok,Value} -> % The trace case is successful activated.
- {ok,LD#ld{chl=set_running_chl(ProcH,TC,Id,Value,CHL)}};
- {error,_} -> % Then pretend it never happend :-)
- {ok,LD#ld{chl=del_tc_chl(ProcH,TC,Id,CHL)}} % Remove it.
- end;
- _ -> % Where did this come from?
- {ok,LD} % Well just ignore it then.
- end.
-%% -----------------------------------------------------------------------------
-
-%% Function handling that a trace case has completed its stopping phase and
-%% shall now be nulled in the Command History Log (meaning that it will not
-%% be repeated in the event of a reactivation).
-h_tc_stopping_done(ProcH,Result,LD=#ld{chl=CHL}) ->
- case find_tc_executer_chl(ProcH,CHL) of
- {stopping,{TC,Id}} ->
- case Result of
- {ok,_Result} -> % _Result is returned from the tracecase.
- {ok,LD#ld{chl=nullify_chl(ProcH,TC,Id,CHL)}};
- {error,_} -> % This is difficult, is it still active?
- {ok,LD#ld{chl=nullify_chl(ProcH,TC,Id,CHL)}}
- end;
- _ -> % Strange.
- {ok,LD}
- end.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% Terminate.
-%% -----------------------------------------------------------------------------
-
-%% Help function stopping the inviso control component. Does not return
-%% anything significant.
-stop_inviso_at_c_node(undefined) -> % Non distributed case.
- inviso:stop();
-stop_inviso_at_c_node(CNode) ->
- rpc:call(CNode,inviso,stop,[]).
-%% -----------------------------------------------------------------------------
-
-%% Help function that removes all trace patterns from the nodes that are not
-%% marked as such were patterns shall be left after stopping of inviso.
-%% Returns {ok,NodeResult} or {error,Reason}. In the non-distributed case
-%% 'ok' is returned incase of success, ot 'patterns_untouched'.
-remove_all_trace_patterns(undefined,KeepNodes,_Nodes) ->
- case KeepNodes of
- undefined -> % No, remove patterns from localruntime.
- inviso:ctp_all();
- _ ->
- patterns_untouched
- end;
-remove_all_trace_patterns(CNode,KeepNodes,Nodes) ->
- Nodes2=lists:filter(fun(N)->not(lists:member(N,KeepNodes)) end,Nodes),
- case inviso_tool_lib:inviso_cmd(CNode,ctp_all,[Nodes2]) of
- {ok,NodeResults} ->
- F=fun(N) ->
- case lists:member(N,KeepNodes) of
- true ->
- {N,patterns_untouched};
- false ->
- case lists:keysearch(N,1,NodeResults) of
- {value,Result} ->
- Result; % {Node,ok}
- false -> % Extremely strange.
- {N,{error,general_error}}
- end
- end
- end,
- {ok,lists:map(F,Nodes)};
- {error,{badrpc,Reason}} ->
- {error,{inviso_control_node_error,Reason}};
- {error,Reason} ->
- {error,Reason}
- end.
-%% -----------------------------------------------------------------------------
-
-%% =============================================================================
-%% Second level help functions.
-%% =============================================================================
-
-%% Help function building a reply to a reconnection call based on which nodes
-%% where asked to be reconnected and which of those are actually now working.
-%% We actually make an effort to serve the return value in the same order as the
-%% nodes were mentioned in the original call (Nodes).
-build_reconnect_nodes_reply(local_runtime,local_runtime,_NodesErr,NodesD) ->
- case get_state_nodes(local_runtime,NodesD) of
- down ->
- {error,down};
- {State,Status} ->
- {ok,{State,Status}}
- end;
-build_reconnect_nodes_reply(local_runtime,_,NodesErr,_NodesD) ->
- NodesErr;
-build_reconnect_nodes_reply([Node|Rest],Nodes2,NodesErr,NodesD) ->
- case lists:member(Node,Nodes2) of
- true -> % Ok, look in the #ld.nodes.
- case get_state_nodes(Node,NodesD) of
- down -> % Somekind of failure, still down.
- [{Node,{error,down}}|
- build_reconnect_nodes_reply(Rest,Nodes2,NodesErr,NodesD)];
- {State,Status} -> % {State,Status}
- [{Node,{ok,{State,Status}}}|
- build_reconnect_nodes_reply(Rest,Nodes2,NodesErr,NodesD)]
- end;
- false -> % Error already from the beginning.
- {value,{_,Error}}=lists:keysearch(Node,1,NodesErr),
- [{Node,Error}|build_reconnect_nodes_reply(Rest,Nodes2,NodesErr,NodesD)]
- end;
-build_reconnect_nodes_reply([],_,_,_) ->
- [].
-%% -----------------------------------------------------------------------------
-
-%% Help function building a return value to reinitiate_session. Nodes contains
-%% all involved nodes. If the node occurrs in NodesErr, we choose the error in
-%% NodesErr. Otherwise the returnvalue in ReturnVal is used.
-build_reinitiate_session_reply(Nodes,NodesErr,{ok,NodesResults}) ->
- {ok,build_reinitiate_session_reply_2(Nodes,NodesErr,NodesResults)};
-build_reinitiate_session_reply(local_runtime,[],NodeResult) ->
- NodeResult;
-build_reinitiate_session_reply(local_runtime,NodesErr,_NodeResult) ->
- NodesErr.
-build_reinitiate_session_reply_2([Node|Rest],NodesErr,NodeResults) ->
- case lists:keysearch(Node,1,NodesErr) of
- {value,{_,Error}} ->
- [{Node,Error}|build_reinitiate_session_reply_2(Rest,NodesErr,NodeResults)];
- false ->
- case lists:keysearch(Node,1,NodeResults) of
- {value,Value} ->
- [Value|build_reinitiate_session_reply_2(Rest,NodesErr,NodeResults)]
- end
- end;
-build_reinitiate_session_reply_2([],_NodesErr,_NodeResults) ->
- [].
-%% -----------------------------------------------------------------------------
-
-%% Help function returning a history log where stop and stopping entries have
-%% been removed. Further all tracecase log entries must be set to running since
-%% there can not be such a thing as an activating tracecase stored away in a
-%% saved historyfile!
-%% We must also take away any #Ref.
-build_saved_history_data(SortedLog) ->
- CleanedLog=
- lists:filter(fun({_,_,Stop,_}) when Stop==stop;Stop==stopping -> false;
- (_) -> true
- end,
- SortedLog),
- lists:map(fun({{TC,Id},C,activating,B}) -> {{TC,Id},C,running,B};
- ({{TC,Id},C,S,B}) -> {{TC,Id},C,S,B};
- ({{M,F,Args,_Ref},C}) -> {{M,F,Args},C};
- ({{TC,_Ref},C,B}) -> {TC,C,B} % An rtc.
- end,
- CleanedLog).
-%% -----------------------------------------------------------------------------
-
-%% This help function builds the AutoStartData structure which is returned from
-%% get_austostart_data. An AutoStartData structure is a list of trace-files and
-%% inviso commands. The order is significant since it is the idea that doing
-%% the trace case files and inviso commands in that order will bring a node to
-%% a certain state in a trace perspective.
-%% Returns {ok,AutoStartData} or {error,Reason}
-build_autostart_data(SortedLog,TCdict) ->
- build_autostart_data_2(SortedLog,TCdict,[]).
-
-build_autostart_data_2([{_,_C,Stop,_B}|Rest],TCdict,Accum) when Stop==stop;Stop==stopping->
- build_autostart_data_2(Rest,TCdict,Accum); % Simply skip deactivated/deativating.
-build_autostart_data_2([{{TCname,_},_C,activating,Bindings}|Rest],TCdict,Accum) ->
- build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum);
-build_autostart_data_2([{{TCname,_},_C,running,Bindings}|Rest],TCdict,Accum) ->
- build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum);
-build_autostart_data_2([{{TCname,_Ref},_C,Bindings}|Rest],TCdict,Accum) ->
- build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum);
-build_autostart_data_2([{{M,F,Args,_Ref},_C}|Rest],TCdict,Accum) ->
- build_autostart_data_2(Rest,TCdict,[{mfa,{M,F,Args}}|Accum]);
-build_autostart_data_2([],_TCdict,Accum) ->
- {ok,lists:reverse(Accum)}.
-
-%% Help function placing the filename in the AutoStartData structure.
-build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum) ->
- {ok,TC}=get_tracecase_tc_dict(TCname,TCdict),
- {ok,FName}=get_tc_activate_fname(TC),
- build_autostart_data_2(Rest,TCdict,[{file,{FName,Bindings}}|Accum]).
-%% -----------------------------------------------------------------------------
-
-%% Help function generating tracerdata to init inviso tracing. The generation
-%% is done by the TracerDataGenerator, TDG, function.
-%% Individual tracerdata is generated for each node in Nodes.
-%% Returns {ok,TracerData} or {error,Reason}.
-call_tracer_data_generator(undefined,M,F,TDGargs,_Nodes) -> % Non distributed.
- case catch call_tracer_data_generator_3(M,F,TDGargs,local_runtime) of
- {'EXIT',Reason} ->
- {error,{'EXIT',Reason}};
- TracerData ->
- {ok,TracerData}
- end;
-call_tracer_data_generator(_CNode,M,F,TDGargs,Nodes) ->
- case catch call_tracer_data_generator_2(M,F,TDGargs,Nodes) of
- {'EXIT',Reason} ->
- {error,{'EXIT',Reason}};
- TracerList ->
- {ok,TracerList}
- end.
-
-call_tracer_data_generator_2(M,F,TDGargs,[Node|Rest]) ->
- [{Node,call_tracer_data_generator_3(M,F,TDGargs,Node)}|
- call_tracer_data_generator_2(M,F,TDGargs,Rest)];
-call_tracer_data_generator_2(_,_,_,[]) ->
- [].
-
-call_tracer_data_generator_3(M,F,TDGargs,Node) ->
- apply(M,F,call_tracer_data_generator_mkargs(Node,TDGargs)).
-
-%% This function creates the arguments that the tracer data generator function
-%% accepts (in an apply call). The reason for making it a sepparate function is
-%% that the arguments are constructed in more situations than just when actually
-%% doing the apply. By having a function it will become obvious where to change
-%% should the arguments change.
-call_tracer_data_generator_mkargs(Node,TDGargs) ->
- inviso_tool_lib:mk_complete_tdg_args(Node,TDGargs).
-%% -----------------------------------------------------------------------------
-
-%% This function acts as standard options generator function. That is returning
-%% the options argument to inviso:add_node/3. Note that this function must not
-%% return the dependency part of that option.
-std_options_generator(_Node) ->
- []. % No particular options(!)
-%% -----------------------------------------------------------------------------
-
-
-%% Help function checking that Vars contains a binding for every variable
-%% listed in the VarNames field in TraceCase. Note that the special variable 'Nodes'
-%% is disregarded, since it is always added by the inviso_tool.
-%% Returns {ok,Bindings} or {error,Reason}. Where Bindings is a bindngs structure
-%% according to file:eval functionality.
-check_bindings(Vars,TraceCase) ->
- case catch check_bindings_2(Vars,
- get_tc_varnames(TraceCase),
- erl_eval:new_bindings()) of
- {'EXIT',_Reason} ->
- {error,variable_error};
- {error,Reason} -> % Missing a bindning.
- {error,Reason};
- {ok,Bindings} ->
- {ok,Bindings}
- end.
-
-check_bindings_2(Vars,['Nodes'|Rest],Bindings) ->
- check_bindings_2(Vars,Rest,Bindings); % Disregard Nodes since it is automatic.
-check_bindings_2(Vars,[VarName|Rest],Bindings) ->
- case lists:keysearch(VarName,1,Vars) of
- {value,{_,Val}} ->
- check_bindings_2(Vars,Rest,erl_eval:add_binding(VarName,Val,Bindings));
- false -> % Mandatory variable missing.
- {error,{missing_variable,VarName}} % Quite here then.
- end;
-check_bindings_2(_,[],Bindings) ->
- {ok,Bindings}.
-%% -----------------------------------------------------------------------------
-
-%% This help function checks that the command the user tries to do is amongst
-%% the inviso API. It at the same time returns what kind of command it is.
-%% {true,RegExpFlag} or 'false' where RegExpFlag indicates if this command
-%% needs to have its argument modified by module regexp expansion or not.
-check_proper_inviso_call(Cmd,Arity) ->
- case lists:member({Cmd,Arity},?INVISO_CMDS) of
- true -> % It is part of inviso API.
- {true,check_proper_inviso_call_regexp(Cmd,Arity)};
- false ->
- false
- end.
-
-%% Returns {Type,Arity,PlaceOfModuleSpec} or 'false'.
-check_proper_inviso_call_regexp(tp,5) -> {tp,5,1};
-check_proper_inviso_call_regexp(tp,4) -> {tp,4,1};
-check_proper_inviso_call_regexp(tp,1) -> {tp,1,1};
-check_proper_inviso_call_regexp(tpl,5) -> {tp,5,1};
-check_proper_inviso_call_regexp(tpl,4) -> {tp,4,1};
-check_proper_inviso_call_regexp(tpl,1) -> {tp,1,1};
-check_proper_inviso_call_regexp(ctp,3) -> {ctp,3,1};
-check_proper_inviso_call_regexp(ctp,1) -> {ctp,1,1};
-check_proper_inviso_call_regexp(ctpl,3) -> {ctp,3,1};
-check_proper_inviso_call_regexp(ctpl,1) -> {ctp,1,1};
-check_proper_inviso_call_regexp(_,_) -> % No regexp expansion.
- false.
-%% -----------------------------------------------------------------------------
-
-%% Help function checking if this inviso command shall be added to the command
-%% history log. Returns true or false.
-check_inviso_call_to_history(Cmd,Arity) ->
- case lists:member({Cmd,Arity},?INVISO_CMD_HISTORY) of
- true ->
- true;
- false ->
- false
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function traversing the arguments and expanding module names stated
-%% as regular expressions. This means that the resulting arguments may be longer
-%% than the orginal ones.
-%% When we run this function it has been determined that we are a distributed
-%% system.
-%% Also note that if there are no regexps in Args, no regexpansion will be
-%% made and RegExpNode may be 'undefined' (as it is if not set at start-up).
-%% If RegExpNode is unavailable the nodes found in Nodes will be used until
-%% one that works is found.
-expand_module_regexps(Args,_RegExpNode,_Nodes,false) ->
- {ok,Args};
-expand_module_regexps([PatternList],RegExpNode,Nodes,{tp,1,1}) ->
- case catch expand_module_regexps_tp(PatternList,RegExpNode,Nodes) of
+ {ok,{ASD,h_get_autostart_data_2(Nodes,CNode,Dependency,M,F,TDGargs,OptsG)}}; +h_get_autostart_data(Nodes,_CNode,_Dependency,_ASD,_M,_F,_TDGargs,_OptsG) -> + {error,{badarg,Nodes}}. + +h_get_autostart_data_2([Node|Rest],CNode,Dependency,M,F,TDGargs,OptsG) -> + CompleteTDGargs=call_tracer_data_generator_mkargs(Node,TDGargs), + Opts0=start_runtime_components_mk_opts(Node,OptsG), + Opts=[Dependency|lists:keydelete(dependency,1,Opts0)], + [{Node,{ok,{Opts,{tdg,{M,F,CompleteTDGargs}}}}}| + h_get_autostart_data_2(Rest,CNode,Dependency,M,F,TDGargs,OptsG)]; +h_get_autostart_data_2([],_CNode,_Dependency,_M,_F,_TDGargs,_OptsG) -> + []. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% flush +%% ----------------------------------------------------------------------------- + +h_flush(undefined,_Nodes) -> + inviso:flush(); +h_flush(CNode,Nodes) -> + inviso_tool_lib:inviso_cmd(CNode,flush,[Nodes]). +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% tc_executer_reply +%% ----------------------------------------------------------------------------- + +%% Function handling that a trace case has completed its activation phase and +%% shall now be marked in the Command History Log as running. +h_tc_activation_done(ProcH,Result,LD=#ld{chl=CHL}) -> + case find_tc_executer_chl(ProcH,CHL) of + {activating,{TC,Id}} -> + case Result of + {ok,Value} -> % The trace case is successful activated. + {ok,LD#ld{chl=set_running_chl(ProcH,TC,Id,Value,CHL)}}; + {error,_} -> % Then pretend it never happend :-) + {ok,LD#ld{chl=del_tc_chl(ProcH,TC,Id,CHL)}} % Remove it. + end; + _ -> % Where did this come from? + {ok,LD} % Well just ignore it then. + end. +%% ----------------------------------------------------------------------------- + +%% Function handling that a trace case has completed its stopping phase and +%% shall now be nulled in the Command History Log (meaning that it will not +%% be repeated in the event of a reactivation). +h_tc_stopping_done(ProcH,Result,LD=#ld{chl=CHL}) -> + case find_tc_executer_chl(ProcH,CHL) of + {stopping,{TC,Id}} -> + case Result of + {ok,_Result} -> % _Result is returned from the tracecase. + {ok,LD#ld{chl=nullify_chl(ProcH,TC,Id,CHL)}}; + {error,_} -> % This is difficult, is it still active? + {ok,LD#ld{chl=nullify_chl(ProcH,TC,Id,CHL)}} + end; + _ -> % Strange. + {ok,LD} + end. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% Terminate. +%% ----------------------------------------------------------------------------- + +%% Help function stopping the inviso control component. Does not return +%% anything significant. +stop_inviso_at_c_node(undefined) -> % Non distributed case. + inviso:stop(); +stop_inviso_at_c_node(CNode) -> + rpc:call(CNode,inviso,stop,[]). +%% ----------------------------------------------------------------------------- + +%% Help function that removes all trace patterns from the nodes that are not +%% marked as such were patterns shall be left after stopping of inviso. +%% Returns {ok,NodeResult} or {error,Reason}. In the non-distributed case +%% 'ok' is returned incase of success, ot 'patterns_untouched'. +remove_all_trace_patterns(undefined,KeepNodes,_Nodes) -> + case KeepNodes of + undefined -> % No, remove patterns from localruntime. + inviso:ctp_all(); + _ -> + patterns_untouched + end; +remove_all_trace_patterns(CNode,KeepNodes,Nodes) -> + Nodes2=lists:filter(fun(N)->not(lists:member(N,KeepNodes)) end,Nodes), + case inviso_tool_lib:inviso_cmd(CNode,ctp_all,[Nodes2]) of + {ok,NodeResults} -> + F=fun(N) -> + case lists:member(N,KeepNodes) of + true -> + {N,patterns_untouched}; + false -> + case lists:keysearch(N,1,NodeResults) of + {value,Result} -> + Result; % {Node,ok} + false -> % Extremely strange. + {N,{error,general_error}} + end + end + end, + {ok,lists:map(F,Nodes)}; + {error,{badrpc,Reason}} -> + {error,{inviso_control_node_error,Reason}}; + {error,Reason} -> + {error,Reason} + end. +%% ----------------------------------------------------------------------------- + +%% ============================================================================= +%% Second level help functions. +%% ============================================================================= + +%% Help function building a reply to a reconnection call based on which nodes +%% where asked to be reconnected and which of those are actually now working. +%% We actually make an effort to serve the return value in the same order as the +%% nodes were mentioned in the original call (Nodes). +build_reconnect_nodes_reply(local_runtime,local_runtime,_NodesErr,NodesD) -> + case get_state_nodes(local_runtime,NodesD) of + down -> + {error,down}; + {State,Status} -> + {ok,{State,Status}} + end; +build_reconnect_nodes_reply(local_runtime,_,NodesErr,_NodesD) -> + NodesErr; +build_reconnect_nodes_reply([Node|Rest],Nodes2,NodesErr,NodesD) -> + case lists:member(Node,Nodes2) of + true -> % Ok, look in the #ld.nodes. + case get_state_nodes(Node,NodesD) of + down -> % Somekind of failure, still down. + [{Node,{error,down}}| + build_reconnect_nodes_reply(Rest,Nodes2,NodesErr,NodesD)]; + {State,Status} -> % {State,Status} + [{Node,{ok,{State,Status}}}| + build_reconnect_nodes_reply(Rest,Nodes2,NodesErr,NodesD)] + end; + false -> % Error already from the beginning. + {value,{_,Error}}=lists:keysearch(Node,1,NodesErr), + [{Node,Error}|build_reconnect_nodes_reply(Rest,Nodes2,NodesErr,NodesD)] + end; +build_reconnect_nodes_reply([],_,_,_) -> + []. +%% ----------------------------------------------------------------------------- + +%% Help function building a return value to reinitiate_session. Nodes contains +%% all involved nodes. If the node occurrs in NodesErr, we choose the error in +%% NodesErr. Otherwise the returnvalue in ReturnVal is used. +build_reinitiate_session_reply(Nodes,NodesErr,{ok,NodesResults}) -> + {ok,build_reinitiate_session_reply_2(Nodes,NodesErr,NodesResults)}; +build_reinitiate_session_reply(local_runtime,[],NodeResult) -> + NodeResult; +build_reinitiate_session_reply(local_runtime,NodesErr,_NodeResult) -> + NodesErr. +build_reinitiate_session_reply_2([Node|Rest],NodesErr,NodeResults) -> + case lists:keysearch(Node,1,NodesErr) of + {value,{_,Error}} -> + [{Node,Error}|build_reinitiate_session_reply_2(Rest,NodesErr,NodeResults)]; + false -> + case lists:keysearch(Node,1,NodeResults) of + {value,Value} -> + [Value|build_reinitiate_session_reply_2(Rest,NodesErr,NodeResults)] + end + end; +build_reinitiate_session_reply_2([],_NodesErr,_NodeResults) -> + []. +%% ----------------------------------------------------------------------------- + +%% Help function returning a history log where stop and stopping entries have +%% been removed. Further all tracecase log entries must be set to running since +%% there can not be such a thing as an activating tracecase stored away in a +%% saved historyfile! +%% We must also take away any #Ref. +build_saved_history_data(SortedLog) -> + CleanedLog= + lists:filter(fun({_,_,Stop,_}) when Stop==stop;Stop==stopping -> false; + (_) -> true + end, + SortedLog), + lists:map(fun({{TC,Id},C,activating,B}) -> {{TC,Id},C,running,B}; + ({{TC,Id},C,S,B}) -> {{TC,Id},C,S,B}; + ({{M,F,Args,_Ref},C}) -> {{M,F,Args},C}; + ({{TC,_Ref},C,B}) -> {TC,C,B} % An rtc. + end, + CleanedLog). +%% ----------------------------------------------------------------------------- + +%% This help function builds the AutoStartData structure which is returned from +%% get_austostart_data. An AutoStartData structure is a list of trace-files and +%% inviso commands. The order is significant since it is the idea that doing +%% the trace case files and inviso commands in that order will bring a node to +%% a certain state in a trace perspective. +%% Returns {ok,AutoStartData} or {error,Reason} +build_autostart_data(SortedLog,TCdict) -> + build_autostart_data_2(SortedLog,TCdict,[]). + +build_autostart_data_2([{_,_C,Stop,_B}|Rest],TCdict,Accum) when Stop==stop;Stop==stopping-> + build_autostart_data_2(Rest,TCdict,Accum); % Simply skip deactivated/deativating. +build_autostart_data_2([{{TCname,_},_C,activating,Bindings}|Rest],TCdict,Accum) -> + build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum); +build_autostart_data_2([{{TCname,_},_C,running,Bindings}|Rest],TCdict,Accum) -> + build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum); +build_autostart_data_2([{{TCname,_Ref},_C,Bindings}|Rest],TCdict,Accum) -> + build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum); +build_autostart_data_2([{{M,F,Args,_Ref},_C}|Rest],TCdict,Accum) -> + build_autostart_data_2(Rest,TCdict,[{mfa,{M,F,Args}}|Accum]); +build_autostart_data_2([],_TCdict,Accum) -> + {ok,lists:reverse(Accum)}. + +%% Help function placing the filename in the AutoStartData structure. +build_autostart_data_tc(TCname,Bindings,TCdict,Rest,Accum) -> + {ok,TC}=get_tracecase_tc_dict(TCname,TCdict), + {ok,FName}=get_tc_activate_fname(TC), + build_autostart_data_2(Rest,TCdict,[{file,{FName,Bindings}}|Accum]). +%% ----------------------------------------------------------------------------- + +%% Help function generating tracerdata to init inviso tracing. The generation +%% is done by the TracerDataGenerator, TDG, function. +%% Individual tracerdata is generated for each node in Nodes. +%% Returns {ok,TracerData} or {error,Reason}. +call_tracer_data_generator(undefined,M,F,TDGargs,_Nodes) -> % Non distributed. + case catch call_tracer_data_generator_3(M,F,TDGargs,local_runtime) of + {'EXIT',Reason} -> + {error,{'EXIT',Reason}}; + TracerData -> + {ok,TracerData} + end; +call_tracer_data_generator(_CNode,M,F,TDGargs,Nodes) -> + case catch call_tracer_data_generator_2(M,F,TDGargs,Nodes) of + {'EXIT',Reason} -> + {error,{'EXIT',Reason}}; + TracerList -> + {ok,TracerList} + end. + +call_tracer_data_generator_2(M,F,TDGargs,[Node|Rest]) -> + [{Node,call_tracer_data_generator_3(M,F,TDGargs,Node)}| + call_tracer_data_generator_2(M,F,TDGargs,Rest)]; +call_tracer_data_generator_2(_,_,_,[]) -> + []. + +call_tracer_data_generator_3(M,F,TDGargs,Node) -> + apply(M,F,call_tracer_data_generator_mkargs(Node,TDGargs)). + +%% This function creates the arguments that the tracer data generator function +%% accepts (in an apply call). The reason for making it a sepparate function is +%% that the arguments are constructed in more situations than just when actually +%% doing the apply. By having a function it will become obvious where to change +%% should the arguments change. +call_tracer_data_generator_mkargs(Node,TDGargs) -> + inviso_tool_lib:mk_complete_tdg_args(Node,TDGargs). +%% ----------------------------------------------------------------------------- + +%% This function acts as standard options generator function. That is returning +%% the options argument to inviso:add_node/3. Note that this function must not +%% return the dependency part of that option. +std_options_generator(_Node) -> + []. % No particular options(!) +%% ----------------------------------------------------------------------------- + + +%% Help function checking that Vars contains a binding for every variable +%% listed in the VarNames field in TraceCase. Note that the special variable 'Nodes' +%% is disregarded, since it is always added by the inviso_tool. +%% Returns {ok,Bindings} or {error,Reason}. Where Bindings is a bindngs structure +%% according to file:eval functionality. +check_bindings(Vars,TraceCase) -> + case catch check_bindings_2(Vars, + get_tc_varnames(TraceCase), + erl_eval:new_bindings()) of + {'EXIT',_Reason} -> + {error,variable_error}; + {error,Reason} -> % Missing a bindning. + {error,Reason}; + {ok,Bindings} -> + {ok,Bindings} + end. + +check_bindings_2(Vars,['Nodes'|Rest],Bindings) -> + check_bindings_2(Vars,Rest,Bindings); % Disregard Nodes since it is automatic. +check_bindings_2(Vars,[VarName|Rest],Bindings) -> + case lists:keysearch(VarName,1,Vars) of + {value,{_,Val}} -> + check_bindings_2(Vars,Rest,erl_eval:add_binding(VarName,Val,Bindings)); + false -> % Mandatory variable missing. + {error,{missing_variable,VarName}} % Quite here then. + end; +check_bindings_2(_,[],Bindings) -> + {ok,Bindings}. +%% ----------------------------------------------------------------------------- + +%% This help function checks that the command the user tries to do is amongst +%% the inviso API. It at the same time returns what kind of command it is. +%% {true,RegExpFlag} or 'false' where RegExpFlag indicates if this command +%% needs to have its argument modified by module regexp expansion or not. +check_proper_inviso_call(Cmd,Arity) -> + case lists:member({Cmd,Arity},?INVISO_CMDS) of + true -> % It is part of inviso API. + {true,check_proper_inviso_call_regexp(Cmd,Arity)}; + false -> + false + end. + +%% Returns {Type,Arity,PlaceOfModuleSpec} or 'false'. +check_proper_inviso_call_regexp(tp,5) -> {tp,5,1}; +check_proper_inviso_call_regexp(tp,4) -> {tp,4,1}; +check_proper_inviso_call_regexp(tp,1) -> {tp,1,1}; +check_proper_inviso_call_regexp(tpl,5) -> {tp,5,1}; +check_proper_inviso_call_regexp(tpl,4) -> {tp,4,1}; +check_proper_inviso_call_regexp(tpl,1) -> {tp,1,1}; +check_proper_inviso_call_regexp(ctp,3) -> {ctp,3,1}; +check_proper_inviso_call_regexp(ctp,1) -> {ctp,1,1}; +check_proper_inviso_call_regexp(ctpl,3) -> {ctp,3,1}; +check_proper_inviso_call_regexp(ctpl,1) -> {ctp,1,1}; +check_proper_inviso_call_regexp(_,_) -> % No regexp expansion. + false. +%% ----------------------------------------------------------------------------- + +%% Help function checking if this inviso command shall be added to the command +%% history log. Returns true or false. +check_inviso_call_to_history(Cmd,Arity) -> + case lists:member({Cmd,Arity},?INVISO_CMD_HISTORY) of + true -> + true; + false -> + false + end. +%% ----------------------------------------------------------------------------- + +%% Help function traversing the arguments and expanding module names stated +%% as regular expressions. This means that the resulting arguments may be longer +%% than the orginal ones. +%% When we run this function it has been determined that we are a distributed +%% system. +%% Also note that if there are no regexps in Args, no regexpansion will be +%% made and RegExpNode may be 'undefined' (as it is if not set at start-up). +%% If RegExpNode is unavailable the nodes found in Nodes will be used until +%% one that works is found. +expand_module_regexps(Args,_RegExpNode,_Nodes,false) -> + {ok,Args}; +expand_module_regexps([PatternList],RegExpNode,Nodes,{tp,1,1}) -> + case catch expand_module_regexps_tp(PatternList,RegExpNode,Nodes) of NewPatternList when is_list(NewPatternList) -> - {ok,[NewPatternList]};
- {error,Reason} ->
- {error,Reason}
- end;
-expand_module_regexps([PatternList],RegExpNode,Nodes,{ctp,1,1}) ->
- case catch expand_module_regexps_ctp(PatternList,RegExpNode,Nodes) of
+ {ok,[NewPatternList]}; + {error,Reason} -> + {error,Reason} + end; +expand_module_regexps([PatternList],RegExpNode,Nodes,{ctp,1,1}) -> + case catch expand_module_regexps_ctp(PatternList,RegExpNode,Nodes) of NewPatternList when is_list(NewPatternList) -> - {ok,[NewPatternList]};
- {error,Reason} ->
- {error,Reason}
- end;
-expand_module_regexps([M,F,Arity,MS,Opts],RegExpNode,Nodes,{tp,5,1}) ->
- expand_module_regexps([[{M,F,Arity,MS,Opts}]],RegExpNode,Nodes,{tp,1,1});
-expand_module_regexps([M,F,Arity,MS],RegExpNode,Nodes,{tp,4,1}) ->
- expand_module_regexps([[{M,F,Arity,MS,[]}]],RegExpNode,Nodes,{tp,1,1});
-expand_module_regexps([M,F,Arity],RegExpNode,Nodes,{ctp,3,1}) ->
- expand_module_regexps([[{M,F,Arity}]],RegExpNode,Nodes,{ctp,1,1}).
-
-
+ {ok,[NewPatternList]}; + {error,Reason} -> + {error,Reason} + end; +expand_module_regexps([M,F,Arity,MS,Opts],RegExpNode,Nodes,{tp,5,1}) -> + expand_module_regexps([[{M,F,Arity,MS,Opts}]],RegExpNode,Nodes,{tp,1,1}); +expand_module_regexps([M,F,Arity,MS],RegExpNode,Nodes,{tp,4,1}) -> + expand_module_regexps([[{M,F,Arity,MS,[]}]],RegExpNode,Nodes,{tp,1,1}); +expand_module_regexps([M,F,Arity],RegExpNode,Nodes,{ctp,3,1}) -> + expand_module_regexps([[{M,F,Arity}]],RegExpNode,Nodes,{ctp,1,1}). + + expand_module_regexps_tp([E={M,_,_,_,_}|Rest],RegExpNode,Nodes) when is_atom(M) -> - [E|expand_module_regexps_tp(Rest,RegExpNode,Nodes)];
+ [E|expand_module_regexps_tp(Rest,RegExpNode,Nodes)]; expand_module_regexps_tp([{M,F,Arity,MS,Opts}|Rest],RegExpNode,Nodes) when is_list(M);is_tuple(M) -> - case inviso_tool_lib:expand_module_names([RegExpNode],
- M,
- [{expand_only_at,RegExpNode}]) of
- {singlenode_expansion,Modules} ->
- expand_module_regexps_tp_2(Modules,F,Arity,MS,Opts,Rest,RegExpNode,Nodes);
- {error,{faulty_node,RegExpNode}} -> % RegExpNode probably down.
- case Nodes of
- [NewRegExpNode|RestNodes] -> % Ok, just choose a node.
- expand_module_regexps_tp([{M,F,Arity,MS,Opts}|Rest],NewRegExpNode,RestNodes);
- [] -> % No more nodes to choose from.
- throw({error,no_available_regexpnode})
- end;
- {error,_Reason} ->
- expand_module_regexps_tp(Rest,RegExpNode,Nodes)
- end;
-expand_module_regexps_tp([_|Rest],RegExpNode,Nodes) ->
- expand_module_regexps_tp(Rest,RegExpNode,Nodes); % Skip faulty module specification.
-expand_module_regexps_tp([],_RegExpNodes,_Nodes) ->
- [].
-
-expand_module_regexps_tp_2([M|MRest],F,Arity,MS,Opts,Rest,RegExpNode,Nodes) ->
- [{M,F,Arity,MS,Opts}|
- expand_module_regexps_tp_2(MRest,F,Arity,MS,Opts,Rest,RegExpNode,Nodes)];
-expand_module_regexps_tp_2([],_,_,_,_,Rest,RegExpNode,Nodes) ->
- expand_module_regexps_tp(Rest,RegExpNode,Nodes).
-
+ case inviso_tool_lib:expand_module_names([RegExpNode], + M, + [{expand_only_at,RegExpNode}]) of + {singlenode_expansion,Modules} -> + expand_module_regexps_tp_2(Modules,F,Arity,MS,Opts,Rest,RegExpNode,Nodes); + {error,{faulty_node,RegExpNode}} -> % RegExpNode probably down. + case Nodes of + [NewRegExpNode|RestNodes] -> % Ok, just choose a node. + expand_module_regexps_tp([{M,F,Arity,MS,Opts}|Rest],NewRegExpNode,RestNodes); + [] -> % No more nodes to choose from. + throw({error,no_available_regexpnode}) + end; + {error,_Reason} -> + expand_module_regexps_tp(Rest,RegExpNode,Nodes) + end; +expand_module_regexps_tp([_|Rest],RegExpNode,Nodes) -> + expand_module_regexps_tp(Rest,RegExpNode,Nodes); % Skip faulty module specification. +expand_module_regexps_tp([],_RegExpNodes,_Nodes) -> + []. + +expand_module_regexps_tp_2([M|MRest],F,Arity,MS,Opts,Rest,RegExpNode,Nodes) -> + [{M,F,Arity,MS,Opts}| + expand_module_regexps_tp_2(MRest,F,Arity,MS,Opts,Rest,RegExpNode,Nodes)]; +expand_module_regexps_tp_2([],_,_,_,_,Rest,RegExpNode,Nodes) -> + expand_module_regexps_tp(Rest,RegExpNode,Nodes). + expand_module_regexps_ctp([E={M,_,_}|Rest],RegExpNode,Nodes) when is_atom(M) -> - [E|expand_module_regexps_ctp(Rest,RegExpNode,Nodes)];
+ [E|expand_module_regexps_ctp(Rest,RegExpNode,Nodes)]; expand_module_regexps_ctp([{M,F,Arity}|Rest],RegExpNode,Nodes) when is_list(M);is_tuple(M) -> - case inviso_tool_lib:expand_module_names([RegExpNode],
- M,
- [{expand_only_at,RegExpNode}]) of
- {singlenode_expansion,badrpc} -> % RegExpNode probably down.
- case Nodes of
- [NewRegExpNode|RestNodes] -> % Ok, just choose a node.
- expand_module_regexps_ctp([{M,F,Arity}|Rest],NewRegExpNode,RestNodes);
- [] -> % No more nodes to choose from.
- throw({error,no_available_regexpnode})
- end;
- {singlenode_expansion,Modules} ->
- expand_module_regexps_ctp_2(Modules,F,Arity,Rest,RegExpNode,Nodes);
- {error,_Reason} ->
- expand_module_regexps_ctp(Rest,RegExpNode,Nodes)
- end;
-expand_module_regexps_ctp([_|Rest],RegExpNode,Nodes) ->
- expand_module_regexps_tp(Rest,RegExpNode,Nodes); % Skip faulty module specification.
-expand_module_regexps_ctp([],_RegExpNodes,_Nodes) ->
- [].
-
-expand_module_regexps_ctp_2([M|MRest],F,Arity,Rest,RegExpNode,Nodes) ->
- [{M,F,Arity}|expand_module_regexps_ctp_2(MRest,F,Arity,Rest,RegExpNode,Nodes)];
-expand_module_regexps_ctp_2([],_,_,Rest,RegExpNode,Nodes) ->
- expand_module_regexps_ctp(Rest,RegExpNode,Nodes).
-%% -----------------------------------------------------------------------------
-
-
-
-%% Help function running the activation of a trace case. Note that this must
-%% be done at the inviso control component's Erlang node *and* that it must be
-%% done in its own process since there is no telling for how long a trace case
-%% may run.
-%% Returns {ok,ActivationHandler}.
-exec_trace_case_on(CNode,TraceCase,Bindings,Nodes) ->
- {ok,TcFName}=get_tc_activate_fname(TraceCase),
- {ok,exec_trace_case_2(CNode,
- TcFName,
- erl_eval:add_binding('Nodes',Nodes,Bindings),
- activating)}.
-
-%% Help function running the deactivation of a trace case.
-exec_trace_case_off(CNode,TraceCase,Bindings,Nodes) ->
- case get_tc_deactivate_fname(TraceCase) of
- {ok,TcFName} -> % There is a deactivation.
- {ok,exec_trace_case_2(CNode,
- TcFName,
- erl_eval:add_binding('Nodes',Nodes,Bindings),
- stopping)};
- false ->
- {error,no_deactivation}
- end.
-
-exec_trace_case_2(CNode,TcFName,Bindings,Phase) ->
- if
- CNode==undefined -> % The non distributed case.
- spawn_link(?MODULE,tc_executer,[TcFName,Bindings,Phase,self()]);
- true ->
- spawn_link(CNode,?MODULE,tc_executer,[TcFName,Bindings,Phase,self()])
- end.
-
-%% This function is run in its own process and is responsible for executing
-%% the trace case.
-tc_executer(TcFName,Bindings,Phase,Parent) ->
- case catch file:script(TcFName,Bindings) of
- {ok,Value} ->
- tc_executer_reply(Parent,{Phase,self(),{ok,Value}});
- {'EXIT',Reason} ->
- tc_executer_reply(Parent,{Phase,self(),{error,{'EXIT',Reason}}});
- Error ->
- tc_executer_reply(Parent,{Phase,self(),Error})
- end.
-%% -----------------------------------------------------------------------------
-
-%% Help function which starts a reactivator process redoing command history at
-%% Node. It also updates the loopdata to indicate that Node is now in state
-%% reactivating. It is a good idea to only handle one node per reactivator process.
-%% This because if the node terminates and comes back up, the reactivator must be
-%% stopped.
-redo_cmd_history(Node,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL,nodes=NodesD}) ->
- P=start_reactivator(Node,CNode,TCdict,CHL),
- LD#ld{nodes=set_reactivating_nodes(Node,NodesD),
- reactivators=add_reactivators(Node,P,LD#ld.reactivators)}.
-
-%% Help function starting a reactivator process replaying the command history log.
-%% Returns a pid of the reactivator process.
-start_reactivator(Node,CNode,TCdict,CHL) ->
- UnsortedLog=get_loglist_chl(CHL), % Must fetch here, later on wrong node.
- if
- CNode==undefined -> % The non-distributed case.
- spawn_link(?MODULE,
- reactivator_executer,
- [Node,TCdict,UnsortedLog,self(),0,[]]);
- true ->
- spawn_link(CNode,
- ?MODULE,
- reactivator_executer,
- [Node,TCdict,UnsortedLog,self(),0,[]])
- end.
-
-%% The strategy is to traverse the CHL ETS table in Counter order, redoing the
-%% commands one by one. We wait until one command is finished until we do the
-%% next. Commands marked as nullified are not performed. In fact when a command
-%% is nullified only the stop will be found in the CHL. Its activation will be
-%% removed.
-reactivator_executer(Node,TCdict,UnsortedLog,TPid,StartCounter,DoneCases) ->
- SortedLog=lists:keysort(2,UnsortedLog), % Sort on Counter, oldest first.
- Log=reactivator_skip_log_entries(SortedLog,StartCounter),
- case reactivator_executer_2(Node,TCdict,TPid,StartCounter,DoneCases,Log) of
- done ->
- true; % Simply terminate the reactivator then.
- {more,{NewStartCounter,NewDoneCases,NewUnsortedLog}} ->
- reactivator_executer(Node,TCdict,NewUnsortedLog,TPid,NewStartCounter,NewDoneCases)
- end.
-
-reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases,
- [{{TCname,Id},NextC,running,Bindings}|Rest]) ->
- reactivator_executer_3(Node,TCdict,TPid,DoneCases,Rest,TCname,Id,NextC,Bindings,Rest);
-reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases,
- [{{TCname,_Ref},NextC,Bindings}|Rest]) ->
- reactivator_executer_rtc(Node,TCdict,TPid,DoneCases,Rest,TCname,NextC,Bindings,Rest);
-reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases,
- [{{TCname,Id},NextC,activating,Bindings}|Rest]) ->
- reactivator_executer_3(Node,TCdict,TPid,DoneCases,Rest,TCname,Id,NextC,Bindings,Rest);
-reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases,
- [{{M,F,Args,_Ref},NextC}|Rest]) ->
- reactivator_executer_cmd(Node,M,F,Args),
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest);
-reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases,
- [{{_TCname,_Id},NextC,stopping,_Bindings}|Rest]) ->
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest);
-reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases,
- [{{TCname,Id,_Ref},NextC,stop,Bindings}|Rest]) ->
- case lists:member({TCname,Id},DoneCases) of
- true -> % We have activated it, must stop then.
- case get_tracecase_tc_dict(TCname,TCdict) of
- {ok,{_,_,_,_,FNameOff}} ->
- reactivator_executer_tc(Node,Bindings,FNameOff),
- NewDoneCases=lists:delete({TCname,Id},DoneCases),
- reactivator_executer_2(Node,TCdict,TPid,NextC,NewDoneCases,Rest);
- {ok,_} -> % No stop-filename, strange!
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest);
- false -> % Even stranger, does not exist!?
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest)
- end;
- false -> % Never activated in the first place.
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest)
- end;
-%% Done all log entries found this lap. See if there are more entries by now.
-reactivator_executer_2(_Node,_TCdict,TPid,Counter,DoneCases,[]) ->
- case reactivator_reply(TPid,Counter) of % Ask the tool process for more entries.
- done -> % No more entries in the CHL.
- done;
- {more,NewUnsortedLog} -> % Repeat the procedure
- {more,{Counter+1,DoneCases,NewUnsortedLog}} % with log entries from Counter+1.
- end.
-
-%% This help function activates a tracecase.
-reactivator_executer_3(Node,TCdict,TPid,DoneCases,Rest,TCname,Id,NextC,Bindings,Rest) ->
- case get_tracecase_tc_dict(TCname,TCdict) of
- {ok,{_,_,_,FNameOn}} -> % A case with just on functionality.
- reactivator_executer_tc(Node,Bindings,FNameOn),
- reactivator_executer_2(Node,TCdict,TPid,NextC,[{TCname,Id}|DoneCases],Rest);
- {ok,{_,_,_,FNameOn,_}} ->
- reactivator_executer_tc(Node,Bindings,FNameOn),
- reactivator_executer_2(Node,TCdict,TPid,NextC,[{TCname,Id}|DoneCases],Rest);
- false -> % Strange, does not exist anylonger!?
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest)
- end.
-
-%% Help function executing a trace case in the reactivators context. Does not
-%% return anything significant.
-reactivator_executer_tc(Node,Bindings,FileName) ->
- catch file:eval(FileName,erl_eval:add_binding('Nodes',[Node],Bindings)).
-
-%% Help function handling trace case that are simply executed - rtc.
-reactivator_executer_rtc(Node,TCdict,TPid,DoneCases,Rest,TCname,NextC,Bindings,Rest) ->
- case get_tracecase_tc_dict(TCname,TCdict) of
- {ok,{_,_,_,FNameOn}} -> % A case with just on functionality.
- reactivator_executer_tc(Node,Bindings,FNameOn),
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest);
- {ok,{_,_,_,FNameOn,_}} ->
- reactivator_executer_tc(Node,Bindings,FNameOn),
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest);
- false -> % Strange, does not exist anylonger!?
- reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest)
- end.
-
-reactivator_executer_cmd(nonode@nohost,M,F,Args) ->
- catch apply(M,F,Args); % Non-distributed.
-reactivator_executer_cmd(Node,M,F,Args) ->
- catch apply(M,F,[[Node]|Args]).
-
-%% Help function returning a list of log entries missing the first entries
-%% having a counter less or equal to C1.
-reactivator_skip_log_entries([{_,C,_,_}|Rest],C1) when C<C1 ->
- reactivator_skip_log_entries(Rest,C1);
-reactivator_skip_log_entries([{_,C}|Rest],C1) when C<C1 ->
- reactivator_skip_log_entries(Rest,C1);
-reactivator_skip_log_entries(Log,_) ->
- Log.
-%% -----------------------------------------------------------------------------
-
-%% Help function returning the node name to use in an rpc call.
-get_rpc_nodename(undefined) ->
- node();
-get_rpc_nodename(CNode) ->
- CNode.
-%% -----------------------------------------------------------------------------
-
-mk_rt_tag() ->
- inviso_tool.
-%% -----------------------------------------------------------------------------
-
-is_string([C|Rest]) when C>=32, C=<255 ->
- is_string(Rest);
-is_string([]) ->
- true;
-is_string(_) ->
- false.
-%% -----------------------------------------------------------------------------
-
-
-%% -----------------------------------------------------------------------------
-%% Functions for handling the configuration file.
-%% -----------------------------------------------------------------------------
-
-%% The inviso tool is configured via start arguments and/or a configuration file.
-%% Start arguments will override any definitions in a configuration file.
-%% The configuration file is pointed out by either a start argument or the
-%% inviso application parameter 'inviso_tool_config_file'.
-
-%% Help function building the internal configuration structure. Configurations
-%% in the start argument will override parameters found in a configuration file.
-fetch_configuration(Config) ->
- case fetch_config_filename(Config) of
- {ok,FName} -> % We are supposed to use a conf-file.
- case read_config_file(FName) of
- {ok,LD} -> % Managed to open a file.
- NewLD=read_config_list(LD,Config),
- {ok,NewLD};
- {error,_Reason} -> % Problem finding/opening file.
- LD=read_config_list(#ld{},Config),
- {ok,LD}
- end;
- false -> % No filename specified.
- LD=read_config_list(#ld{},Config),
- {ok,LD}
- end.
-
-%% Help function determining the name of the file which shall be consulted as
-%% the main configuration file.
-%% Returns {ok,FileName} or 'false'. The latter if no name could be determined.
-fetch_config_filename(Config) ->
- case catch lists:keysearch(config_file,1,Config) of
+ case inviso_tool_lib:expand_module_names([RegExpNode], + M, + [{expand_only_at,RegExpNode}]) of + {singlenode_expansion,Modules} -> + expand_module_regexps_ctp_2(Modules,F,Arity,Rest,RegExpNode,Nodes); + {error,_Reason} -> + expand_module_regexps_ctp(Rest,RegExpNode,Nodes) + end; +expand_module_regexps_ctp([_|Rest],RegExpNode,Nodes) -> + expand_module_regexps_tp(Rest,RegExpNode,Nodes); % Skip faulty module specification. +expand_module_regexps_ctp([],_RegExpNodes,_Nodes) -> + []. + +expand_module_regexps_ctp_2([M|MRest],F,Arity,Rest,RegExpNode,Nodes) -> + [{M,F,Arity}|expand_module_regexps_ctp_2(MRest,F,Arity,Rest,RegExpNode,Nodes)]; +expand_module_regexps_ctp_2([],_,_,Rest,RegExpNode,Nodes) -> + expand_module_regexps_ctp(Rest,RegExpNode,Nodes). +%% ----------------------------------------------------------------------------- + + + +%% Help function running the activation of a trace case. Note that this must +%% be done at the inviso control component's Erlang node *and* that it must be +%% done in its own process since there is no telling for how long a trace case +%% may run. +%% Returns {ok,ActivationHandler}. +exec_trace_case_on(CNode,TraceCase,Bindings,Nodes) -> + {ok,TcFName}=get_tc_activate_fname(TraceCase), + {ok,exec_trace_case_2(CNode, + TcFName, + erl_eval:add_binding('Nodes',Nodes,Bindings), + activating)}. + +%% Help function running the deactivation of a trace case. +exec_trace_case_off(CNode,TraceCase,Bindings,Nodes) -> + case get_tc_deactivate_fname(TraceCase) of + {ok,TcFName} -> % There is a deactivation. + {ok,exec_trace_case_2(CNode, + TcFName, + erl_eval:add_binding('Nodes',Nodes,Bindings), + stopping)}; + false -> + {error,no_deactivation} + end. + +exec_trace_case_2(CNode,TcFName,Bindings,Phase) -> + if + CNode==undefined -> % The non distributed case. + spawn_link(?MODULE,tc_executer,[TcFName,Bindings,Phase,self()]); + true -> + spawn_link(CNode,?MODULE,tc_executer,[TcFName,Bindings,Phase,self()]) + end. + +%% This function is run in its own process and is responsible for executing +%% the trace case. +tc_executer(TcFName,Bindings,Phase,Parent) -> + case catch file:script(TcFName,Bindings) of + {ok,Value} -> + tc_executer_reply(Parent,{Phase,self(),{ok,Value}}); + {'EXIT',Reason} -> + tc_executer_reply(Parent,{Phase,self(),{error,{'EXIT',Reason}}}); + Error -> + tc_executer_reply(Parent,{Phase,self(),Error}) + end. +%% ----------------------------------------------------------------------------- + +%% Help function which starts a reactivator process redoing command history at +%% Node. It also updates the loopdata to indicate that Node is now in state +%% reactivating. It is a good idea to only handle one node per reactivator process. +%% This because if the node terminates and comes back up, the reactivator must be +%% stopped. +redo_cmd_history(Node,LD=#ld{c_node=CNode,tc_dict=TCdict,chl=CHL,nodes=NodesD}) -> + P=start_reactivator(Node,CNode,TCdict,CHL), + LD#ld{nodes=set_reactivating_nodes(Node,NodesD), + reactivators=add_reactivators(Node,P,LD#ld.reactivators)}. + +%% Help function starting a reactivator process replaying the command history log. +%% Returns a pid of the reactivator process. +start_reactivator(Node,CNode,TCdict,CHL) -> + UnsortedLog=get_loglist_chl(CHL), % Must fetch here, later on wrong node. + if + CNode==undefined -> % The non-distributed case. + spawn_link(?MODULE, + reactivator_executer, + [Node,TCdict,UnsortedLog,self(),0,[]]); + true -> + spawn_link(CNode, + ?MODULE, + reactivator_executer, + [Node,TCdict,UnsortedLog,self(),0,[]]) + end. + +%% The strategy is to traverse the CHL ETS table in Counter order, redoing the +%% commands one by one. We wait until one command is finished until we do the +%% next. Commands marked as nullified are not performed. In fact when a command +%% is nullified only the stop will be found in the CHL. Its activation will be +%% removed. +reactivator_executer(Node,TCdict,UnsortedLog,TPid,StartCounter,DoneCases) -> + SortedLog=lists:keysort(2,UnsortedLog), % Sort on Counter, oldest first. + Log=reactivator_skip_log_entries(SortedLog,StartCounter), + case reactivator_executer_2(Node,TCdict,TPid,StartCounter,DoneCases,Log) of + done -> + true; % Simply terminate the reactivator then. + {more,{NewStartCounter,NewDoneCases,NewUnsortedLog}} -> + reactivator_executer(Node,TCdict,NewUnsortedLog,TPid,NewStartCounter,NewDoneCases) + end. + +reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases, + [{{TCname,Id},NextC,running,Bindings}|Rest]) -> + reactivator_executer_3(Node,TCdict,TPid,DoneCases,Rest,TCname,Id,NextC,Bindings,Rest); +reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases, + [{{TCname,_Ref},NextC,Bindings}|Rest]) -> + reactivator_executer_rtc(Node,TCdict,TPid,DoneCases,Rest,TCname,NextC,Bindings,Rest); +reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases, + [{{TCname,Id},NextC,activating,Bindings}|Rest]) -> + reactivator_executer_3(Node,TCdict,TPid,DoneCases,Rest,TCname,Id,NextC,Bindings,Rest); +reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases, + [{{M,F,Args,_Ref},NextC}|Rest]) -> + reactivator_executer_cmd(Node,M,F,Args), + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest); +reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases, + [{{_TCname,_Id},NextC,stopping,_Bindings}|Rest]) -> + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest); +reactivator_executer_2(Node,TCdict,TPid,_Counter,DoneCases, + [{{TCname,Id,_Ref},NextC,stop,Bindings}|Rest]) -> + case lists:member({TCname,Id},DoneCases) of + true -> % We have activated it, must stop then. + case get_tracecase_tc_dict(TCname,TCdict) of + {ok,{_,_,_,_,FNameOff}} -> + reactivator_executer_tc(Node,Bindings,FNameOff), + NewDoneCases=lists:delete({TCname,Id},DoneCases), + reactivator_executer_2(Node,TCdict,TPid,NextC,NewDoneCases,Rest); + {ok,_} -> % No stop-filename, strange! + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest); + false -> % Even stranger, does not exist!? + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest) + end; + false -> % Never activated in the first place. + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest) + end; +%% Done all log entries found this lap. See if there are more entries by now. +reactivator_executer_2(_Node,_TCdict,TPid,Counter,DoneCases,[]) -> + case reactivator_reply(TPid,Counter) of % Ask the tool process for more entries. + done -> % No more entries in the CHL. + done; + {more,NewUnsortedLog} -> % Repeat the procedure + {more,{Counter+1,DoneCases,NewUnsortedLog}} % with log entries from Counter+1. + end. + +%% This help function activates a tracecase. +reactivator_executer_3(Node,TCdict,TPid,DoneCases,Rest,TCname,Id,NextC,Bindings,Rest) -> + case get_tracecase_tc_dict(TCname,TCdict) of + {ok,{_,_,_,FNameOn}} -> % A case with just on functionality. + reactivator_executer_tc(Node,Bindings,FNameOn), + reactivator_executer_2(Node,TCdict,TPid,NextC,[{TCname,Id}|DoneCases],Rest); + {ok,{_,_,_,FNameOn,_}} -> + reactivator_executer_tc(Node,Bindings,FNameOn), + reactivator_executer_2(Node,TCdict,TPid,NextC,[{TCname,Id}|DoneCases],Rest); + false -> % Strange, does not exist anylonger!? + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest) + end. + +%% Help function executing a trace case in the reactivators context. Does not +%% return anything significant. +reactivator_executer_tc(Node,Bindings,FileName) -> + catch file:eval(FileName,erl_eval:add_binding('Nodes',[Node],Bindings)). + +%% Help function handling trace case that are simply executed - rtc. +reactivator_executer_rtc(Node,TCdict,TPid,DoneCases,Rest,TCname,NextC,Bindings,Rest) -> + case get_tracecase_tc_dict(TCname,TCdict) of + {ok,{_,_,_,FNameOn}} -> % A case with just on functionality. + reactivator_executer_tc(Node,Bindings,FNameOn), + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest); + {ok,{_,_,_,FNameOn,_}} -> + reactivator_executer_tc(Node,Bindings,FNameOn), + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest); + false -> % Strange, does not exist anylonger!? + reactivator_executer_2(Node,TCdict,TPid,NextC,DoneCases,Rest) + end. + +reactivator_executer_cmd(nonode@nohost,M,F,Args) -> + catch apply(M,F,Args); % Non-distributed. +reactivator_executer_cmd(Node,M,F,Args) -> + catch apply(M,F,[[Node]|Args]). + +%% Help function returning a list of log entries missing the first entries +%% having a counter less or equal to C1. +reactivator_skip_log_entries([{_,C,_,_}|Rest],C1) when C<C1 -> + reactivator_skip_log_entries(Rest,C1); +reactivator_skip_log_entries([{_,C}|Rest],C1) when C<C1 -> + reactivator_skip_log_entries(Rest,C1); +reactivator_skip_log_entries(Log,_) -> + Log. +%% ----------------------------------------------------------------------------- + +%% Help function returning the node name to use in an rpc call. +get_rpc_nodename(undefined) -> + node(); +get_rpc_nodename(CNode) -> + CNode. +%% ----------------------------------------------------------------------------- + +mk_rt_tag() -> + inviso_tool. +%% ----------------------------------------------------------------------------- + +is_string([C|Rest]) when C>=32, C=<255 -> + is_string(Rest); +is_string([]) -> + true; +is_string(_) -> + false. +%% ----------------------------------------------------------------------------- + + +%% ----------------------------------------------------------------------------- +%% Functions for handling the configuration file. +%% ----------------------------------------------------------------------------- + +%% The inviso tool is configured via start arguments and/or a configuration file. +%% Start arguments will override any definitions in a configuration file. +%% The configuration file is pointed out by either a start argument or the +%% inviso application parameter 'inviso_tool_config_file'. + +%% Help function building the internal configuration structure. Configurations +%% in the start argument will override parameters found in a configuration file. +fetch_configuration(Config) -> + case fetch_config_filename(Config) of + {ok,FName} -> % We are supposed to use a conf-file. + case read_config_file(FName) of + {ok,LD} -> % Managed to open a file. + NewLD=read_config_list(LD,Config), + {ok,NewLD}; + Error = {error,_Reason} -> % Problem finding/opening file. + Error + end; + false -> % No filename specified. + LD=read_config_list(#ld{},Config), + {ok,LD} + end. + +%% Help function determining the name of the file which shall be consulted as +%% the main configuration file. +%% Returns {ok,FileName} or 'false'. The latter if no name could be determined. +fetch_config_filename(Config) -> + case catch lists:keysearch(config_file,1,Config) of {value,{_,FName}} when is_list(FName) -> - {ok,FName};
- _ -> % No filename in the start argument.
- fetch_config_filename_2()
- end.
-
-fetch_config_filename_2() ->
- case application:get_env(inviso_tool_config_file) of
+ {ok,FName}; + _ -> % No filename in the start argument. + fetch_config_filename_2() + end. + +fetch_config_filename_2() -> + case application:get_env(inviso_tool_config_file) of {ok,FName} when is_list(FName) -> - {ok,FName};
- _ -> % Application parameter not specified.
- false % Means no config file will be used.
- end.
-
-%% Help function reading the configuration file. Returns a #conf or {error,Reason}.
-read_config_file(FName) ->
- case catch file:consult(FName) of
- {ok,Terms} ->
- {ok,read_config_list(#ld{},Terms)};
- {error,Reason} ->
- {error,{file_consult,Reason}};
- {'EXIT',Reason} ->
- {error,{failure,Reason}}
- end.
-
-%% Help function traversing the Terms list entering known tag-values into #ld.
-read_config_list(LD,Terms) ->
- LD1=read_config_list_2(LD,Terms,nodes),
- LD2=read_config_list_2(LD1,Terms,c_node),
- LD3=read_config_list_2(LD2,Terms,regexp_node),
- LD4=read_config_list_2(LD3,Terms,tc_def_file),
- LD6=read_config_list_2(LD4,Terms,tdg),
- LD8=read_config_list_2(LD6,Terms,debug),
- LD10=read_config_list_2(LD8,Terms,initial_tcs),
- LD11=read_config_list_2(LD10,Terms,dir),
- _LD12=read_config_list_2(LD11,Terms,optg).
-
-read_config_list_2(LD,Terms,Tag) ->
- case catch lists:keysearch(Tag,1,Terms) of
- {value,{_,Value}} ->
- update_ld_record(LD,Tag,Value);
- _ ->
- LD % Tag not found in Terms (or error!)
- end.
-%% -----------------------------------------------------------------------------
-
-%% Function updating a named field in a record. Returns a new record. Note that
-%% this function must be maintained due the fact that field names are removed
-%% at compile time.
-update_ld_record(LD,nodes,Value) when is_record(LD,ld) -> - case mk_nodes(Value) of
- {ok,NodesD} ->
- LD#ld{nodes=NodesD};
- error ->
- LD
- end;
-update_ld_record(LD,Tag,Value) when is_record(LD,ld) -> - Index=
- case Tag of
- c_node -> % atom()
- #ld.c_node;
- regexp_node -> % atom()
- #ld.regexp_node;
- tc_def_file -> % string()
- #ld.tc_def_file;
- initial_tcs -> % [{TCname,VarList},...]
- #ld.initial_tcs;
- history_dir -> % string()
- #ld.history_dir;
- debug -> % true | false
- #ld.debug;
- dir -> % string()
- #ld.dir;
- optg -> % {Mod,Func,Args}
- #ld.optg;
- tdg -> % {Mod,Func,Args}
- #ld.tdg;
- keep_nodes -> % [Nodes,...]
- #ld.keep_nodes
- end,
- setelement(Index,LD,Value). % Cheeting!
-%% -----------------------------------------------------------------------------
-
-
-%% Help function which, if it exists, consults the trace definition file. The
-%% idea behind the trace definition file is to point out which trace cases there
-%% are, where to find them and how to turn them on and off.
-%% Trace case definitions are:
-%% {TCname,Type,VariableNameList,ActivatioFileName} |
-%% {TCname,Type,VariableNameList,ActivationFileName,DeactivationFileName}
-%% TCname=atom()
-%% Type=on | on_off
-%% VariableNameList=[atom(),...]
-%% ActivationFileName=DeactivationFileName=string()
-read_trace_case_definitions(LD) ->
- case LD#ld.tc_def_file of
+ {ok,FName}; + _ -> % Application parameter not specified. + false % Means no config file will be used. + end. + +%% Help function reading the configuration file. Returns a #conf or {error,Reason}. +read_config_file(FName) -> + case catch file:consult(FName) of + {ok,Terms} -> + {ok,read_config_list(#ld{},Terms)}; + {error,Reason} -> + {error,{file_consult,Reason}}; + {'EXIT',Reason} -> + {error,{failure,Reason}} + end. + +%% Help function traversing the Terms list entering known tag-values into #ld. +read_config_list(LD,Terms) -> + LD#ld{ + nodes = case mk_nodes(proplists:get_value(nodes,Terms,LD#ld.nodes)) of + {ok,Nodes} -> Nodes; + _ -> LD#ld.nodes + end, + c_node = proplists:get_value(c_node,Terms,LD#ld.c_node), % atom8) + regexp_node = proplists:get_value(regexp_node,Terms,LD#ld.regexp_node), % atom() + tc_def_file = proplists:get_value(tc_def_file,Terms,LD#ld.tc_def_file), + tdg = proplists:get_value(tdg,Terms,LD#ld.tdg), + debug = proplists:get_value(debug,Terms,LD#ld.debug), + initial_tcs = proplists:get_value(initial_tcs,Terms,LD#ld.initial_tcs), + dir = proplists:get_value(dir,Terms,LD#ld.dir), + optg = proplists:get_value(optg,Terms,LD#ld.optg) + }. + +%% ----------------------------------------------------------------------------- + + +%% Help function which, if it exists, consults the trace definition file. The +%% idea behind the trace definition file is to point out which trace cases there +%% are, where to find them and how to turn them on and off. +%% Trace case definitions are: +%% {TCname,Type,VariableNameList,ActivatioFileName} | +%% {TCname,Type,VariableNameList,ActivationFileName,DeactivationFileName} +%% TCname=atom() +%% Type=on | on_off +%% VariableNameList=[atom(),...] +%% ActivationFileName=DeactivationFileName=string() +read_trace_case_definitions(LD) -> + case LD#ld.tc_def_file of TCfileName when is_list(TCfileName) -> - case catch file:consult(TCfileName) of
- {ok,Terms} ->
- Dir=LD#ld.dir, % The working directory of the tool.
- TCdict=read_trace_case_definitions_2(Terms,Dir,mk_tc_dict()),
- LD#ld{tc_dict=TCdict};
- _ ->
- LD
- end;
- _ ->
- LD
- end.
-
-read_trace_case_definitions_2([{TCname,on,VarNames,FName}|Rest],Dir,TCdict) ->
- FileName=make_absolute_path(FName,Dir),
- read_trace_case_definitions_2(Rest,
- Dir,
- insert_tracecase_tc_dict(TCname,
- on,
- VarNames,
- FileName,
- TCdict));
-read_trace_case_definitions_2([{TCname,on_off,VarNames,FNameOn,FNameOff}|Rest],Dir,TCdict) ->
- FileNameOn=make_absolute_path(FNameOn,Dir),
- FileNameOff=make_absolute_path(FNameOff,Dir),
- read_trace_case_definitions_2(Rest,
- Dir,
- insert_tracecase_tc_dict(TCname,
- on_off,
- VarNames,
- FileNameOn,
- FileNameOff,
- TCdict));
-read_trace_case_definitions_2([_|Rest],Dir,TCdict) ->
- read_trace_case_definitions_2(Rest,Dir,TCdict);
-read_trace_case_definitions_2([],_Dir,TCdict) ->
- TCdict.
-
-%% Help function returning an absolute path to FName if FName is not already
-%% absolute. Dir is the working dir of the tool and supposed to be absolute.
-make_absolute_path(FName,Dir) ->
- case filename:pathtype(FName) of
- absolute -> % Then do nothing, allready absolute.
- FName;
- _ ->
- filename:join(Dir,FName)
- end.
-%% -----------------------------------------------------------------------------
-
-get_status(undefined,_Node) ->
- inviso:get_status();
-get_status(CNode,Nodes) ->
- inviso_tool_lib:inviso_cmd(CNode,get_status,[Nodes]).
-%% -----------------------------------------------------------------------------
-
-
-%% =============================================================================
-%% Internal data structure functions.
-%% =============================================================================
-
-%% -----------------------------------------------------------------------------
-%% The nodes database structure.
-%% -----------------------------------------------------------------------------
-
-%% The purpose of the nodes database structure is to keep track of what runtime
-%% nodes we have, and their current status.
-%% Implementation:
-%% [{NodeName,AvailableStatus},...] or AvailableStatus in the
-%% non-distributed case.
-%% AvailableStatus={up,Status1} | down
-%% Status1={State,Status} | reactivating
-%% State=tracing | inactive | trace_failure
-%% Status=running | suspended
-%% reactivating=the node is now being brought up to date.
-%% inactive=not tracing, can be initiated and then reactivated.
-%% The following states can occure.
-%% {inactive,running}
-%% Mainly when we start the tool, before a session has been started.
-%% {tracing,running}
-%% When a trace session is on-going.
-%% {trace_failure,running}
-%% If init_tracing failed for some reason.
-%% {tracing,suspended}
-%% reactivating
-%% The node is tracing (has always been) but was suspended. It is now
-%% no longer suspended and the tool is redong commands.
-%% {inactive,suspended}
-%% We can end up here if a session is stopped with this node suspended.
-
-%% Returns a nodes database structure filled with the nodes Nodes.
+ case catch file:consult(TCfileName) of + {ok,Terms} -> + Dir=LD#ld.dir, % The working directory of the tool. + TCdict=read_trace_case_definitions_2(Terms,Dir,mk_tc_dict()), + LD#ld{tc_dict=TCdict}; + _ -> + LD + end; + _ -> + LD + end. + +read_trace_case_definitions_2([{TCname,on,VarNames,FName}|Rest],Dir,TCdict) -> + FileName=make_absolute_path(FName,Dir), + read_trace_case_definitions_2(Rest, + Dir, + insert_tracecase_tc_dict(TCname, + on, + VarNames, + FileName, + TCdict)); +read_trace_case_definitions_2([{TCname,on_off,VarNames,FNameOn,FNameOff}|Rest],Dir,TCdict) -> + FileNameOn=make_absolute_path(FNameOn,Dir), + FileNameOff=make_absolute_path(FNameOff,Dir), + read_trace_case_definitions_2(Rest, + Dir, + insert_tracecase_tc_dict(TCname, + on_off, + VarNames, + FileNameOn, + FileNameOff, + TCdict)); +read_trace_case_definitions_2([_|Rest],Dir,TCdict) -> + read_trace_case_definitions_2(Rest,Dir,TCdict); +read_trace_case_definitions_2([],_Dir,TCdict) -> + TCdict. + +%% Help function returning an absolute path to FName if FName is not already +%% absolute. Dir is the working dir of the tool and supposed to be absolute. +make_absolute_path(FName,Dir) -> + case filename:pathtype(FName) of + absolute -> % Then do nothing, allready absolute. + FName; + _ -> + filename:join(Dir,FName) + end. +%% ----------------------------------------------------------------------------- + +get_status(undefined,_Node) -> + inviso:get_status(); +get_status(CNode,Nodes) -> + inviso_tool_lib:inviso_cmd(CNode,get_status,[Nodes]). +%% ----------------------------------------------------------------------------- + + +%% ============================================================================= +%% Internal data structure functions. +%% ============================================================================= + +%% ----------------------------------------------------------------------------- +%% The nodes database structure. +%% ----------------------------------------------------------------------------- + +%% The purpose of the nodes database structure is to keep track of what runtime +%% nodes we have, and their current status. +%% Implementation: +%% [{NodeName,AvailableStatus},...] or AvailableStatus in the +%% non-distributed case. +%% AvailableStatus={up,Status1} | down +%% Status1={State,Status} | reactivating +%% State=tracing | inactive | trace_failure +%% Status=running | suspended +%% reactivating=the node is now being brought up to date. +%% inactive=not tracing, can be initiated and then reactivated. +%% The following states can occure. +%% {inactive,running} +%% Mainly when we start the tool, before a session has been started. +%% {tracing,running} +%% When a trace session is on-going. +%% {trace_failure,running} +%% If init_tracing failed for some reason. +%% {tracing,suspended} +%% reactivating +%% The node is tracing (has always been) but was suspended. It is now +%% no longer suspended and the tool is redong commands. +%% {inactive,suspended} +%% We can end up here if a session is stopped with this node suspended. + +%% Returns a nodes database structure filled with the nodes Nodes. mk_nodes(Nodes) when is_list(Nodes) -> {ok,lists:map(fun(N) when is_atom(N)->{N,down} end,Nodes)}; -mk_nodes(local_runtime) -> % The non-distributed case.
- down;
-mk_nodes(_Nodes) ->
- error.
-%% -----------------------------------------------------------------------------
-
-%% Updates the nodes database structure for each node that has been added.
-%% This is the case when we start the tool or reactivate a node. Note that a node
-%% may have become adopted instead of started.
-%% Returns a new nodes database structure.
-update_added_nodes(CNode,[{Node,NodeResult}|Rest],NodesD) ->
- case update_added_nodes_3(NodeResult) of
- already_added -> % Already added to the control component.
- case get_status(CNode,[Node]) of % Examine if it is tracing or not.
- {ok,[{Node,NodeResult2}]} ->
- Result=mk_nodes_state_from_status(NodeResult2),
- update_added_nodes_2(CNode,Node,Result,NodesD,Rest);
- {error,_Reason} -> % Strange, mark it as down now.
- update_added_nodes_2(CNode,Node,down,NodesD,Rest)
- end;
- Result ->
- update_added_nodes_2(CNode,Node,Result,NodesD,Rest)
- end;
-update_added_nodes(_CNode,[],NodesD) ->
- NodesD;
-update_added_nodes(_CNode,NodeResult,_NodesD) -> % Non distributed case.
- case update_added_nodes_3(NodeResult) of
- already_added -> % Already added, most likely autostart.
- mk_nodes_state_from_status(inviso:get_status());
- Result ->
- Result % Simply replace NodesD.
- end.
-
-update_added_nodes_2(CNode,Node,Result,NodesD,Rest) ->
- case lists:keysearch(Node,1,NodesD) of
- {value,_} -> % Node already exists, replace!
- update_added_nodes(CNode,Rest,lists:keyreplace(Node,1,NodesD,{Node,Result}));
- false -> % Strange, unknown node!
- update_added_nodes(CNode,Rest,NodesD)
- end.
-
-update_added_nodes_3({ok,{adopted,tracing,running,_Tag}}) ->
- {up,{tracing,running}};
-update_added_nodes_3({ok,{adopted,tracing,{suspended,_SReason},_Tag}}) ->
- {up,{tracing,suspended}};
-update_added_nodes_3({ok,{adopted,_,running,_Tag}}) ->
- {up,{inactive,running}};
-update_added_nodes_3({ok,{adopted,_,{suspended,_SReason},_Tag}}) ->
- {up,{inactive,suspended}};
-update_added_nodes_3({ok,new}) ->
- {up,{inactive,running}};
-update_added_nodes_3({ok,already_added}) ->
- already_added; % This is an error value!
-update_added_nodes_3({error,_Reason}) ->
- down.
-%% -----------------------------------------------------------------------------
-
-%% Function marking all nodes that, according to the returnvalue from init_tracing,
-%% now are successfully initiated as tracing and running. Note that nodes that
-%% does not fully respond 'ok' when init_tracing are marked as 'trace_failure'.
-%% Also note that we assume that the nodes must be running to have made it this far.
-%% A node can of course have become suspended in the process, but that node will
-%% be marked as suspended later when that inviso event message arrives to the tool.
-%% Returns {NewNodesD,Nodes} where Nodes are the nodes that actually got initiated
-%% as a result of the init_tracing call (judged from the LogResults).
-set_tracing_running_nodes(undefined,{ok,LogResults},_AvailableStatus) -> % Non-distr. case.
- case set_tracing_running_nodes_checkresult(LogResults) of
- ok ->
- {{up,{tracing,running}},local_runtime};
- error ->
- {down,[]}
- end;
-set_tracing_running_nodes(undefined,{error,already_initiated},_) -> % Non-distributed case.
- {mk_nodes_state_from_status(inviso:get_status()),[]}; % Ask it for its status.
-set_tracing_running_nodes(undefined,{error,_Reason},_) -> % Non-distributed case.
- {down,[]}; % This is questionable!
-set_tracing_running_nodes(CNode,{ok,NodeResults},NodesD) ->
- set_tracing_running_nodes_2(CNode,NodeResults,NodesD,[]).
-
-set_tracing_running_nodes_2(CNode,[{Node,{ok,LogResults}}|Rest],NodesD,Nodes) ->
- case set_tracing_running_nodes_checkresult(LogResults) of
- ok -> % The result is good.
- case lists:keysearch(Node,1,NodesD) of
- {value,_} ->
- NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,{up,{tracing,running}}}),
- set_tracing_running_nodes_2(CNode,Rest,NewNodesD,[Node|Nodes]);
- false -> % Strange.
- set_tracing_running_nodes_2(CNode,Rest,NodesD,Nodes)
- end;
- error -> % This node is not tracing correctly.
- NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,down}),
- set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes)
- end;
-set_tracing_running_nodes_2(CNode,[{Node,{error,already_initiated}}|Rest],NodesD,Nodes) ->
- case get_status(CNode,[Node]) of % Then we must ask what it is doing now.
- {ok,[{Node,NodeResult}]} ->
- Result=mk_nodes_state_from_status(NodeResult),
- NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,Result}),
- set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes);
- {error,_Reason} -> % Strange, mark it as down.
- NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,down}),
- set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes)
- end;
-set_tracing_running_nodes_2(CNode,[{Node,{error,_Reason}}|Rest],NodesD,Nodes) ->
- NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,{up,{trace_failure,running}}}),
- set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes);
-set_tracing_running_nodes_2(_CNode,[],NodesD,Nodes) ->
- {NodesD,Nodes}. % New NodesD and nodes successfully initiated.
-
-%% Help function checking if a returnvalue from inviso:init_tracing really
-%% means that tracing has started as requested.
-set_tracing_running_nodes_checkresult(_LogResults) -> ok. % Should really be better!
-%% -----------------------------------------------------------------------------
-
-%% Function updating Node in the NodesD structure and sets it to 'down'.
-%% Returns a new nodes structure.
-set_down_nodes(Node,[{Node,_}|Rest]) ->
- [{Node,down}|Rest];
-set_down_nodes(Node,[NodeStruct|Rest]) ->
- [NodeStruct|set_down_nodes(Node,Rest)];
-set_down_nodes(_,[]) ->
- [];
-set_down_nodes(_,_) -> % Non-distributed case.
- down. % One can argue if this can happend.
-%% -----------------------------------------------------------------------------
-
-%% Function updating Node in NodesD to now be suspended. Note that if the node is
-%% reactivating it must be moved to state tracing because that is what is doing.
-set_suspended_nodes(Node,[{Node,{up,reactivating}}|Rest]) ->
- [{Node,{up,{tracing,suspended}}}|Rest];
-set_suspended_nodes(Node,[{Node,{up,{State,_}}}|Rest]) ->
- [{Node,{up,{State,suspended}}}|Rest];
-set_suspended_nodes(Node,[NodesData|Rest]) ->
- [NodesData|set_suspended_nodes(Node,Rest)];
-set_suspended_nodes(_Node,[]) -> % Hmm, strange why did we end up here?
- [];
-set_suspended_nodes(_,{up,reactivating}) -> % Non-distributed case.
- {up,{tracing,suspended}};
-set_suspended_nodes(_,{up,{State,_}}) ->
- {up,{State,suspended}}.
-%% -----------------------------------------------------------------------------
-
-%% This function is called when reactivation is completed. Hence it moves the
-%% node to no longer suspended. Note this can mean that the node is either
-%% tracing or inactive. Reactivation is not allowed for a node have trace_failure.
+mk_nodes(local_runtime) -> % The non-distributed case. + down; +mk_nodes(_Nodes) -> + error. +%% ----------------------------------------------------------------------------- + +%% Updates the nodes database structure for each node that has been added. +%% This is the case when we start the tool or reactivate a node. Note that a node +%% may have become adopted instead of started. +%% Returns a new nodes database structure. +update_added_nodes(CNode,[{Node,NodeResult}|Rest],NodesD) -> + case update_added_nodes_3(NodeResult) of + already_added -> % Already added to the control component. + case get_status(CNode,[Node]) of % Examine if it is tracing or not. + {ok,[{Node,NodeResult2}]} -> + Result=mk_nodes_state_from_status(NodeResult2), + update_added_nodes_2(CNode,Node,Result,NodesD,Rest); + {error,_Reason} -> % Strange, mark it as down now. + update_added_nodes_2(CNode,Node,down,NodesD,Rest) + end; + Result -> + update_added_nodes_2(CNode,Node,Result,NodesD,Rest) + end; +update_added_nodes(_CNode,[],NodesD) -> + NodesD; +update_added_nodes(_CNode,NodeResult,_NodesD) -> % Non distributed case. + case update_added_nodes_3(NodeResult) of + already_added -> % Already added, most likely autostart. + mk_nodes_state_from_status(inviso:get_status()); + Result -> + Result % Simply replace NodesD. + end. + +update_added_nodes_2(CNode,Node,Result,NodesD,Rest) -> + case lists:keysearch(Node,1,NodesD) of + {value,_} -> % Node already exists, replace! + update_added_nodes(CNode,Rest,lists:keyreplace(Node,1,NodesD,{Node,Result})); + false -> % Strange, unknown node! + update_added_nodes(CNode,Rest,NodesD) + end. + +update_added_nodes_3({ok,{adopted,tracing,running,_Tag}}) -> + {up,{tracing,running}}; +update_added_nodes_3({ok,{adopted,tracing,{suspended,_SReason},_Tag}}) -> + {up,{tracing,suspended}}; +update_added_nodes_3({ok,{adopted,_,running,_Tag}}) -> + {up,{inactive,running}}; +update_added_nodes_3({ok,{adopted,_,{suspended,_SReason},_Tag}}) -> + {up,{inactive,suspended}}; +update_added_nodes_3({ok,new}) -> + {up,{inactive,running}}; +update_added_nodes_3({ok,already_added}) -> + already_added; % This is an error value! +update_added_nodes_3({error,_Reason}) -> + down. +%% ----------------------------------------------------------------------------- + +%% Function marking all nodes that, according to the returnvalue from init_tracing, +%% now are successfully initiated as tracing and running. Note that nodes that +%% does not fully respond 'ok' when init_tracing are marked as 'trace_failure'. +%% Also note that we assume that the nodes must be running to have made it this far. +%% A node can of course have become suspended in the process, but that node will +%% be marked as suspended later when that inviso event message arrives to the tool. +%% Returns {NewNodesD,Nodes} where Nodes are the nodes that actually got initiated +%% as a result of the init_tracing call (judged from the LogResults). +set_tracing_running_nodes(undefined,{ok,_LogResults},_AvailableStatus) -> % Non-distr. case. + {{up,{tracing,running}},local_runtime}; +set_tracing_running_nodes(undefined,{error,already_initiated},_) -> % Non-distributed case. + {mk_nodes_state_from_status(inviso:get_status()),[]}; % Ask it for its status. +set_tracing_running_nodes(undefined,{error,_Reason},_) -> % Non-distributed case. + {down,[]}; % This is questionable! +set_tracing_running_nodes(CNode,{ok,NodeResults},NodesD) -> + set_tracing_running_nodes_2(CNode,NodeResults,NodesD,[]). + +set_tracing_running_nodes_2(CNode,[{Node,{ok,_LogResults}}|Rest],NodesD,Nodes) -> + case lists:keysearch(Node,1,NodesD) of + {value,_} -> + NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,{up,{tracing,running}}}), + set_tracing_running_nodes_2(CNode,Rest,NewNodesD,[Node|Nodes]); + false -> % Strange. + set_tracing_running_nodes_2(CNode,Rest,NodesD,Nodes) + end; +set_tracing_running_nodes_2(CNode,[{Node,{error,already_initiated}}|Rest],NodesD,Nodes) -> + case get_status(CNode,[Node]) of % Then we must ask what it is doing now. + {ok,[{Node,NodeResult}]} -> + Result=mk_nodes_state_from_status(NodeResult), + NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,Result}), + set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes); + {error,_Reason} -> % Strange, mark it as down. + NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,down}), + set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes) + end; +set_tracing_running_nodes_2(CNode,[{Node,{error,_Reason}}|Rest],NodesD,Nodes) -> + NewNodesD=lists:keyreplace(Node,1,NodesD,{Node,{up,{trace_failure,running}}}), + set_tracing_running_nodes_2(CNode,Rest,NewNodesD,Nodes); +set_tracing_running_nodes_2(_CNode,[],NodesD,Nodes) -> + {NodesD,Nodes}. % New NodesD and nodes successfully initiated. + +%% ----------------------------------------------------------------------------- + +%% Function updating Node in the NodesD structure and sets it to 'down'. +%% Returns a new nodes structure. +set_down_nodes(Node,[{Node,_}|Rest]) -> + [{Node,down}|Rest]; +set_down_nodes(Node,[NodeStruct|Rest]) -> + [NodeStruct|set_down_nodes(Node,Rest)]; +set_down_nodes(_,[]) -> + []; +set_down_nodes(_,_) -> % Non-distributed case. + down. % One can argue if this can happend. +%% ----------------------------------------------------------------------------- + +%% Function updating Node in NodesD to now be suspended. Note that if the node is +%% reactivating it must be moved to state tracing because that is what is doing. +set_suspended_nodes(Node,[{Node,{up,reactivating}}|Rest]) -> + [{Node,{up,{tracing,suspended}}}|Rest]; +set_suspended_nodes(Node,[{Node,{up,{State,_}}}|Rest]) -> + [{Node,{up,{State,suspended}}}|Rest]; +set_suspended_nodes(Node,[NodesData|Rest]) -> + [NodesData|set_suspended_nodes(Node,Rest)]; +set_suspended_nodes(_Node,[]) -> % Hmm, strange why did we end up here? + []; +set_suspended_nodes(_,{up,reactivating}) -> % Non-distributed case. + {up,{tracing,suspended}}; +set_suspended_nodes(_,{up,{State,_}}) -> + {up,{State,suspended}}. +%% ----------------------------------------------------------------------------- + +%% This function is called when reactivation is completed. Hence it moves the +%% node to no longer suspended. Note this can mean that the node is either +%% tracing or inactive. Reactivation is not allowed for a node have trace_failure. set_running_nodes(Node,NodesD) when is_list(NodesD) -> - case lists:keysearch(Node,1,NodesD) of
- {value,{_,AvailableStatus}} ->
- lists:keyreplace(Node,1,NodesD,{Node,set_running_nodes_2(AvailableStatus)});
- false -> % Very strange!
- NodesD
- end;
-set_running_nodes(_,NodesD) -> % The non-distributed case.
- set_running_nodes_2(NodesD).
-
-set_running_nodes_2({up,reactivating}) ->
- {up,{tracing,running}};
-set_running_nodes_2({up,{State,suspended}}) ->
- {up,{State,running}}.
-%% -----------------------------------------------------------------------------
-
-%% Function marking node as now reactivating. That means it is not suspended
-%% any longer (and tracing), but still not part of the set of nodes which shall
-%% get all commands. Returns a new NodesD.
-set_reactivating_nodes(Node,[{Node,_}|Rest]) ->
- [{Node,{up,reactivating}}|Rest];
-set_reactivating_nodes(Node,[NodesData|Rest]) ->
- [NodesData|set_reactivating_nodes(Node,Rest)];
-set_reactivating_nodes(_,[]) ->
- [];
-set_reactivating_nodes(_,{up,_}) -> % The non-distributed case.
- {up,reactivating}.
-%% -----------------------------------------------------------------------------
-
-%% Function called when stop-tracing is done. That is all nodes in Nodes shall
-%% be inactive now. Note that an inactive node can still be suspended.
-%% Returns a new NodesD.
-set_inactive_nodes(_,{up,reactivating}) -> % Non-distributed case.
- {up,{inactive,running}};
-set_inactive_nodes(_,{up,{_,Status}}) -> % Tracing or trace_failure.
- {up,{inactive,Status}};
-set_inactive_nodes(_,down) ->
- down;
-set_inactive_nodes([{Node,ok}|Rest],NodesD) ->
- case lists:keysearch(Node,1,NodesD) of
- {value,{_,{up,reactivating}}} ->
- set_inactive_nodes(Rest,lists:keyreplace(Node,1,NodesD,{Node,{up,{inactive,running}}}));
- {value,{_,{up,{_,Status}}}} -> % Tracing or trace_failure.
- set_inactive_nodes(Rest,lists:keyreplace(Node,1,NodesD,{Node,{up,{inactive,Status}}}));
- _ -> % This should not happend.
- set_inactive_nodes(Rest,NodesD)
- end;
-set_inactive_nodes([{_Node,_Error}|Rest],NodesD) ->
- set_inactive_nodes(Rest,NodesD);
-set_inactive_nodes([],NodesD) ->
- NodesD.
-%% -----------------------------------------------------------------------------
-
-%% Returns a list of all node names. Note that it can only be used in the
-%% distributed case.
-get_all_nodenames_nodes(NodesD) ->
- lists:map(fun({Node,_})->Node end,NodesD).
-%% -----------------------------------------------------------------------------
-
-%% Returns a list of all nodes that are up, tracing and running (not suspended),
-%% or 'void' in the non-distributed case. This is the list of nodes that shall get
-%% inviso commands.
-get_nodenames_running_nodes([{Node,{up,{tracing,running}}}|Rest]) ->
- [Node|get_nodenames_running_nodes(Rest)];
-get_nodenames_running_nodes([{_Node,_}|Rest]) ->
- get_nodenames_running_nodes(Rest);
-get_nodenames_running_nodes([]) ->
- [];
-get_nodenames_running_nodes(_) ->
- void. % When non distributed, N/A.
-%% -----------------------------------------------------------------------------
-
-%% Returns a list of nodes that can be made to initiate tracing.
-get_inactive_running_nodes({up,{inactive,running}}) ->
- local_runtime;
-get_inactive_running_nodes(NonDistributed) when not(is_list(NonDistributed)) ->
- [];
-get_inactive_running_nodes([{Node,{up,{inactive,running}}}|Rest]) ->
- [Node|get_inactive_running_nodes(Rest)];
-get_inactive_running_nodes([{_Node,_}|Rest]) ->
- get_inactive_running_nodes(Rest);
-get_inactive_running_nodes([]) ->
- [].
-%% -----------------------------------------------------------------------------
-
-%% Returns a list of nodes that are currently tracing (not necessarily running).
-%% In the non-distributed case the status of the runtime component will be
-%% returned.
-%% Note that nodes showing trace_failure will be included since we like to stop
-%% tracing at those nodes too.
-get_tracing_nodes([{Node,{up,{tracing,_}}}|Rest]) ->
- [Node|get_tracing_nodes(Rest)];
-get_tracing_nodes([{Node,{up,{trace_failure,_}}}|Rest]) ->
- [Node|get_tracing_nodes(Rest)];
-get_tracing_nodes([{Node,{up,reactivating}}|Rest]) ->
- [Node|get_tracing_nodes(Rest)];
-get_tracing_nodes([_|Rest]) ->
- get_tracing_nodes(Rest);
-get_tracing_nodes([]) ->
- [];
-get_tracing_nodes(AvailableStatus) ->
- AvailableStatus.
-%% -----------------------------------------------------------------------------
-
-%% Returns a list of all nodes that are currently up.
-get_available_nodes(down) ->
- undefined;
-get_available_nodes([{_Node,down}|Rest]) ->
- get_available_nodes(Rest);
-get_available_nodes([{Node,_}|Rest]) ->
- [Node|get_available_nodes(Rest)];
-get_available_nodes([]) ->
- [].
-%% -----------------------------------------------------------------------------
-
-%% Function returning the "state" of Node. Mainly used to check if the node is
-%% suspended or not.
-%% Returns {State,Status} | reactivating | down
-%% where
+ case lists:keysearch(Node,1,NodesD) of + {value,{_,AvailableStatus}} -> + lists:keyreplace(Node,1,NodesD,{Node,set_running_nodes_2(AvailableStatus)}); + false -> % Very strange! + NodesD + end; +set_running_nodes(_,NodesD) -> % The non-distributed case. + set_running_nodes_2(NodesD). + +set_running_nodes_2({up,reactivating}) -> + {up,{tracing,running}}; +set_running_nodes_2({up,{State,suspended}}) -> + {up,{State,running}}. +%% ----------------------------------------------------------------------------- + +%% Function marking node as now reactivating. That means it is not suspended +%% any longer (and tracing), but still not part of the set of nodes which shall +%% get all commands. Returns a new NodesD. +set_reactivating_nodes(Node,[{Node,_}|Rest]) -> + [{Node,{up,reactivating}}|Rest]; +set_reactivating_nodes(Node,[NodesData|Rest]) -> + [NodesData|set_reactivating_nodes(Node,Rest)]; +set_reactivating_nodes(_,[]) -> + []; +set_reactivating_nodes(_,{up,_}) -> % The non-distributed case. + {up,reactivating}. +%% ----------------------------------------------------------------------------- + +%% Function called when stop-tracing is done. That is all nodes in Nodes shall +%% be inactive now. Note that an inactive node can still be suspended. +%% Returns a new NodesD. +set_inactive_nodes(_,{up,reactivating}) -> % Non-distributed case. + {up,{inactive,running}}; +set_inactive_nodes(_,{up,{_,Status}}) -> % Tracing or trace_failure. + {up,{inactive,Status}}; +set_inactive_nodes(_,down) -> + down; +set_inactive_nodes([{Node,ok}|Rest],NodesD) -> + case lists:keysearch(Node,1,NodesD) of + {value,{_,{up,reactivating}}} -> + set_inactive_nodes(Rest,lists:keyreplace(Node,1,NodesD,{Node,{up,{inactive,running}}})); + {value,{_,{up,{_,Status}}}} -> % Tracing or trace_failure. + set_inactive_nodes(Rest,lists:keyreplace(Node,1,NodesD,{Node,{up,{inactive,Status}}})); + _ -> % This should not happend. + set_inactive_nodes(Rest,NodesD) + end; +set_inactive_nodes([{_Node,_Error}|Rest],NodesD) -> + set_inactive_nodes(Rest,NodesD); +set_inactive_nodes([],NodesD) -> + NodesD. +%% ----------------------------------------------------------------------------- + +%% Returns a list of all node names. Note that it can only be used in the +%% distributed case. +get_all_nodenames_nodes(NodesD) -> + lists:map(fun({Node,_})->Node end,NodesD). +%% ----------------------------------------------------------------------------- + +%% Returns a list of all nodes that are up, tracing and running (not suspended), +%% or 'void' in the non-distributed case. This is the list of nodes that shall get +%% inviso commands. +get_nodenames_running_nodes([{Node,{up,{tracing,running}}}|Rest]) -> + [Node|get_nodenames_running_nodes(Rest)]; +get_nodenames_running_nodes([{_Node,_}|Rest]) -> + get_nodenames_running_nodes(Rest); +get_nodenames_running_nodes([]) -> + []; +get_nodenames_running_nodes(_) -> + void. % When non distributed, N/A. +%% ----------------------------------------------------------------------------- + +%% Returns a list of nodes that can be made to initiate tracing. +get_inactive_running_nodes({up,{inactive,running}}) -> + local_runtime; +get_inactive_running_nodes(NonDistributed) when not(is_list(NonDistributed)) -> + []; +get_inactive_running_nodes([{Node,{up,{inactive,running}}}|Rest]) -> + [Node|get_inactive_running_nodes(Rest)]; +get_inactive_running_nodes([{_Node,_}|Rest]) -> + get_inactive_running_nodes(Rest); +get_inactive_running_nodes([]) -> + []. +%% ----------------------------------------------------------------------------- + +%% Returns a list of nodes that are currently tracing (not necessarily running). +%% In the non-distributed case the status of the runtime component will be +%% returned. +%% Note that nodes showing trace_failure will be included since we like to stop +%% tracing at those nodes too. +get_tracing_nodes([{Node,{up,{tracing,_}}}|Rest]) -> + [Node|get_tracing_nodes(Rest)]; +get_tracing_nodes([{Node,{up,{trace_failure,_}}}|Rest]) -> + [Node|get_tracing_nodes(Rest)]; +get_tracing_nodes([{Node,{up,reactivating}}|Rest]) -> + [Node|get_tracing_nodes(Rest)]; +get_tracing_nodes([_|Rest]) -> + get_tracing_nodes(Rest); +get_tracing_nodes([]) -> + []; +get_tracing_nodes(AvailableStatus) -> + AvailableStatus. +%% ----------------------------------------------------------------------------- + +%% Returns a list of all nodes that are currently up. +get_available_nodes(down) -> + undefined; +get_available_nodes([{_Node,down}|Rest]) -> + get_available_nodes(Rest); +get_available_nodes([{Node,_}|Rest]) -> + [Node|get_available_nodes(Rest)]; +get_available_nodes([]) -> + []. +%% ----------------------------------------------------------------------------- + +%% Function returning the "state" of Node. Mainly used to check if the node is +%% suspended or not. +%% Returns {State,Status} | reactivating | down +%% where get_state_nodes(Node,NodesD) when is_list(NodesD) -> - case lists:keysearch(Node,1,NodesD) of
- {value,{_,AvailableStatus}} ->
- get_state_nodes_2(AvailableStatus);
- false ->
- false
- end;
-get_state_nodes(_,NodesD) -> % Non distributed case.
- get_state_nodes_2(NodesD).
-
-get_state_nodes_2({up,{trace_failure,Status}}) ->
- {trace_failure,Status};
-get_state_nodes_2({up,{State,suspended}}) -> % {tracing|inactive,suspended}
- {State,suspended};
-get_state_nodes_2({up,reactivating}) ->
- reactivating;
-get_state_nodes_2({up,{State,running}}) ->
- {State,running};
-get_state_nodes_2(down) ->
- down.
-%% -----------------------------------------------------------------------------
-
-%% Help function in the case we need to consult the state/status of a runtime
-%% component. Returns a nodesD value that can be added to the nodes database.
-mk_nodes_state_from_status({ok,{tracing,running}}) ->
- {up,{tracing,running}};
-mk_nodes_state_from_status({ok,{tracing,{suspended,_SReason}}}) ->
- {up,{tracing,suspended}};
-mk_nodes_state_from_status({ok,{_,running}}) ->
- {up,{inactive,running}};
-mk_nodes_state_from_status({ok,{_,{suspended,_SReason}}}) ->
- {up,{inactive,suspended}};
-mk_nodes_state_from_status({error,_Reason}) ->
- down.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% The session_state.
-%% -----------------------------------------------------------------------------
-
-%% The session state reflects if the inviso_tool is tracing or not.
-%% This means that if the tool is tracing a reconnected node can be made to
-%% restart_session.
-
-%% Returns the correct value indicating that we are tracing now.
-tracing_sessionstate() ->
- tracing.
-%% -----------------------------------------------------------------------------
-
-%% Returns true or false depending on if we are tracing now or not.
-is_tracing(tracing) ->
- true;
-is_tracing(_) ->
- false.
-%% -----------------------------------------------------------------------------
-
-%% Returns the correct value indicating that the tool is not tracing.
-passive_sessionstate() ->
- idle.
-%% -----------------------------------------------------------------------------
-
-%% -----------------------------------------------------------------------------
-%% The tracer_data datastructure.
-%% -----------------------------------------------------------------------------
-
-%% The tracer_data structure collects the tracer data arguments used to init tracing
-%% by this inviso tool. The args are saved per session. Each session has
-%% a number.
-%% Implementation:
-%% Sessions=[{SessionNr,TDGargs},...]
-%% SessionNr=integer()
-%% TDGargs=list(), args given to the tracer data generator
-%% minus the first argument which is the Node name.
-
-%% Function taking tracerdata args structure inserting yet another session.
-%% Returns {SessionNr,NewTDs}.
-insert_td_tracer_data(TDGargs,TDs=[{SNr,_}|_]) ->
- {SNr+1,[{SNr+1,TDGargs}|TDs]};
-insert_td_tracer_data(TDGargs,undefined) ->
- {1,[{1,TDGargs}]}.
-%% -----------------------------------------------------------------------------
-
-%% Returns the latest session nr.
-get_latest_session_nr_tracer_data(undefined) ->
- undefined;
-get_latest_session_nr_tracer_data([{SessionNr,_}|_]) ->
- SessionNr.
-%% -----------------------------------------------------------------------------
-
-%% Returns the tracer data arguments used when creating the trace data for the
-%% latest session.
-get_latest_tdgargs_tracer_data(undefined) ->
- undefined;
-get_latest_tdgargs_tracer_data([{_,TDGargs}|_]) ->
- TDGargs.
-%% -----------------------------------------------------------------------------
-
-
-%% -----------------------------------------------------------------------------
-%% The tc_dict or trace case dictionary datastructure.
-%% -----------------------------------------------------------------------------
-
-%% The tc_dict stores information about all available trace cases.
-%% Implementation:
-%% [{TCname,Type,VarNames,FNameOn [,FNameOff]},...]
-%% TCname=atom()
-%% Type=on | on_off
-%% VarNames=[atom(),...]
-%% FNameOn=FNameOff=string()
-
-%% Returns the empty trace case dictionary.
-mk_tc_dict() ->
- [].
-%% -----------------------------------------------------------------------------
-
-%% Function inserting a new trace case into the trace case dictionary.
-insert_tracecase_tc_dict(TCname,on,VarNames,FNameOn,TCdict) ->
- [{TCname,on,VarNames,FNameOn}|TCdict].
-insert_tracecase_tc_dict(TCname,on_off,VarNames,FNameOn,FNameOff,TCdict) ->
- [{TCname,on_off,VarNames,FNameOn,FNameOff}|TCdict].
-%% -----------------------------------------------------------------------------
-
-%% Function finding a trace case definition in the tc_dict structure.
-%% Returns {ok,{TCname,Type,VarNAmes,FNameOn [,FNameOff]}} or 'false'.
-get_tracecase_tc_dict(TCname,[Tuple|_]) when element(1,Tuple)==TCname ->
- {ok,Tuple};
-get_tracecase_tc_dict(TCname,[_|Rest]) ->
- get_tracecase_tc_dict(TCname,Rest);
-get_tracecase_tc_dict(_,[]) ->
- false;
-get_tracecase_tc_dict(_,_) -> % There are no trace cases!
- false.
-%% -----------------------------------------------------------------------------
-
-%% Function working on the trace case definition returned by get_tracecase_tc_dict/2
-%% function.
-%% Returning {ok,ActivationFileName}.
-get_tc_activate_fname({_TCname,_Type,_VarNames,FNameOn}) ->
- {ok,FNameOn};
-get_tc_activate_fname({_TCname,_Type,_VarNames,FNameOn,_FNameOff}) ->
- {ok,FNameOn}.
-
-get_tc_deactivate_fname({_TCname,_Type,_VarNames,_FNameOn,FNameOff}) ->
- {ok,FNameOff};
-get_tc_deactivate_fname(_) -> % Not a case with off function.
- false.
-
-get_tc_varnames({_TCname,_Type,VarNames,_FNameOn}) ->
- VarNames;
-get_tc_varnames({_TCname,_Type,VarNames,_FNameOn,_FNameOff}) ->
- VarNames.
-
-%% -----------------------------------------------------------------------------
-
-
-%% The Command History Log (CHL) stores commands to make it possible to
-%% reactivate suspended nodes, reconnect restarted nodes, and to make
-%% autostart files.
-%% Each time tracing is initiated (that is started) the CHL is cleared since
-%% it would not make scense to repeat commands from an earlier tracing at
-%% reactivation for instance.
-
-%% Implementation: {NextCounter,OnGoingList,ETStable}
-%% NextCounter=integer(), next command number - to be able to sort them in order.
-%% OnGoingList=[{ProcH,{TCname,ID}},...]
-%% ID=term(), instance id for this execution of this trace case.
-%% ETStable=tid() -> {{TCname,Id},Counter,State1,Bindings}
-%% ETStable=tid() -> {{TCname,Id},Counter,running,Bindings,Result} |
-%% {{TCname,Id,#Ref},Counter,stop,Bindings} |
-%% {{TCname,#Ref},Counter,Bindings} % An rtc
-%% {{M,F,Args,#Ref},Counter}
-%% Counter=integer(), the order-counter for this logged entry.
-%% State1=activating | stopping
-%% Where:
-%% activating: the activation file for the tracecase is running.
-%% running : activation is completed.
-%% stopping : set on the previously running ETS entry when deactivation
-%% file is currently executing.
-%% stop : entered with own Counter into the ETS table when
-%% deactivation file is executing. Remains after too.
-%% Result=term(), the result returned from the tr-case or inviso call.
-
-
-%% Returning an initial empty CHL.
-mk_chl(undefined) ->
- {1,[],ets:new(inviso_tool_chl,[set,protected])};
-mk_chl({_,_,TId}) ->
- ets:delete(TId),
- mk_chl(undefined).
-
-%% Help function returning 'true' if there is a current history.
-history_exists_chl(undefined) ->
- false;
-history_exists_chl({_,_,_}) ->
- true.
-
-%% Function looking up the state of this trace case.
-find_id_chl(TCname,Id,{_NextCounter,_OnGoingList,TId}) ->
- case ets:lookup(TId,{TCname,Id}) of
- [{_,_,running,Bindings,_Result}] -> % The trace case is tracing.
- {ok,Bindings};
- [{_,_,State,_}] -> % activating or stopping.
- State;
- [] ->
- false
- end.
-
-%% Function finding the Trace case associated with a process handle
-%% doing this trace case's activation or stopping.
-find_tc_executer_chl(ProcH,{_,OnGoingList,TId}) ->
- case lists:keysearch(ProcH,1,OnGoingList) of
- {value,{_,{TCname,Id}}} ->
- [{_,_,State,_}]=ets:lookup(TId,{TCname,Id}),
- {State,{TCname,Id}}; % Should be activating or stopping.
- false ->
- false
- end.
-
-%% Adds a Trace case to the CHL. This is done when it is turned on. Or when it
-%% is called for trace cases that do not have on/off functionality.
-set_activating_chl(TCname,Id,{Counter,OnGoingList,TId},Bindings,ProcH) ->
- ets:insert(TId,{{TCname,Id},Counter,activating,Bindings}),
- {Counter+1,[{ProcH,{TCname,Id}}|OnGoingList],TId}.
-
-%% Function marking a trace case as now running. That is the activation
-%% phase is completed. It is normaly completed when the process executing
-%% the trace case signals that it is done.
-set_running_chl(ProcH,TCname,Id,Result,{NextCounter,OnGoingList,TId}) ->
- [{_,Counter,_,Bindings}]=ets:lookup(TId,{TCname,Id}),
- ets:insert(TId,{{TCname,Id},Counter,running,Bindings,Result}),
- NewOnGoingList=lists:keydelete(ProcH,1,OnGoingList),
- {NextCounter,NewOnGoingList,TId}.
-
-%% Function marking trace case TCname with identifier Id as now in its stopping
-%% state. Where ProcH is the handler to the process running the stopping
-%% trace case.
-set_stopping_chl(TCname,Id,{NextCounter,OnGoingList,TId},ProcH)->
- [{_,Counter,_,Bindings,_}]=ets:lookup(TId,{TCname,Id}),
- ets:insert(TId,{{TCname,Id},Counter,stopping,Bindings}),
- ets:insert(TId,{{TCname,Id,make_ref()},NextCounter,stop,Bindings}),
- {NextCounter+1,[{ProcH,{TCname,Id}}|OnGoingList],TId}.
-
-%% Function removing a TCname-Id from the CHL. This is mostly used
-%% if activating the trace case failed for some reason. We do not then
-%% expect the user to stop the trace case. Hence it must be removed now.
-%% A reactivation process may have noticed the activating-entry and started
-%% to activate it. But since the general state reached after an unsuccessful
-%% activation can not easily be determined, we don't try to do much about it.
-del_tc_chl(ProcH,TCname,Id,{NextCounter,OnGoingList,TId}) ->
- ets:delete(TId,{TCname,Id}),
- NewOnGoingList=lists:keydelete(ProcH,1,OnGoingList),
- {NextCounter,NewOnGoingList,TId}.
-
-%% Function removing the entry TCname+Id from the CHL. This makes it
-%% possible to activate a tracecase with this id again. The entry was
-%% previously marked as stopping.
-nullify_chl(ProcH,TCname,Id,{NextCounter,OnGoingList,TId}) ->
- ets:delete(TId,{TCname,Id}),
- NewOnGoingList=lists:keydelete(ProcH,1,OnGoingList),
- {NextCounter+1,NewOnGoingList,TId}.
-
-%% Function stopping all processes saved as being now running tc executers.
-%% This is useful as cleanup during stop tracing for instance.
-%% Returns a new CHL which is not in all parts correct. Entries in the
-%% ETS table are for instance not properly state-changed. But the CHL will
-%% from now on only be used to create command files and similar.
-stop_all_tc_executer_chl({NextCounter,[{ProcH,_}|Rest],TId}) ->
- exit(ProcH,kill),
- stop_all_tc_executer_chl({NextCounter,Rest,TId});
-stop_all_tc_executer_chl({NextCounter,[],TId}) ->
- {NextCounter,[],TId}.
-
-%% Function adding a "plain" inviso call to the CHL.
-add_inviso_call_chl(Cmd,Args,{NextCounter,OnGoingList,TId}) ->
- ets:insert(TId,{{inviso,Cmd,Args,make_ref()},NextCounter}),
- {NextCounter+1,OnGoingList,TId}.
-
-%% Function adding a run trace case entry to the chl.
-add_rtc_chl(TCname,Bindings,{NextCounter,OnGoingList,TId}) ->
- ets:insert(TId,{{TCname,make_ref()},NextCounter,Bindings}),
- {NextCounter+1,OnGoingList,TId}.
-%% Returns the highest used counter number in the command history log.
-get_highest_used_counter_chl({NextCounter,_,_}) ->
- NextCounter-1.
-
-%% Help function returning a list of {{TCname,Id},Phase} for all ongoing
-%% assynchronous tracecases.
-get_ongoing_chl(undefined) ->
- [];
-get_ongoing_chl({_,OngoingList,TId}) ->
- get_ongoing_chl_2(OngoingList,TId).
-
-get_ongoing_chl_2([{_ProcH,{TCname,Id}}|Rest],TId) ->
- case ets:lookup(TId,{TCname,Id}) of
- [{_,_C,activating,_B}] ->
- [{{TCname,Id},activating}|get_ongoing_chl_2(Rest,TId)];
- [{_,_C,stopping,_B}] ->
- [{{TCname,Id},deactivating}|get_ongoing_chl_2(Rest,TId)]
- end;
-get_ongoing_chl_2([],_) ->
- [].
-
-%% Function returning a list of log entries. Note that the list is unsorted
-%% in respect to Counter.
-get_loglist_chl({_,_,TId}) ->
- L=ets:tab2list(TId),
- lists:map(fun({{TC,Id},C,S,B,_Result}) -> {{TC,Id},C,S,B}; % running
- (Tuple={{_TC,_Id},_C,_S,_B}) -> Tuple; % activating | stopping
- (Tuple={{_TC,_Id,_Ref},_C,_S,_B}) -> Tuple; % stop
- (Tuple={{_M,_F,_Args,_Ref},_C}) -> Tuple;
- (Tuple={{_TC,_Ref},_C,_B}) -> Tuple
- end,
- L);
-get_loglist_chl(_) -> % The history is not initiated, ever!
- [].
-
-%% Function returning a list of log entries, but only those which are not
-%% cancelled out by deactivations.
-% get_loglist_active_chl({_,_,TId}) ->
-% L=ets:tab2list(TId),
-% lists:zf(fun({{TC,Id},C,S,B,_Result}) -> {true,{{TC,Id},C,S,B}}; % running
-% (Tuple={{_TC,_Id},_C,_S,_B}) -> Tuple; % activating | stopping
-% (Tuple={{_TC,_Id,_Ref},_C,_S,_B}) -> Tuple; % stop
-% (Tuple={{_M,_F,_Args,_Ref},_C}) -> Tuple
-% end,
-% L);
-% get_loglist_chl(_) -> % The history is not initiated, ever!
-% [].
-
-
-%% This helpfunction recreates a history from a saved history list. This function
-%% is supposed to crash if the log is not well formatted. Note that we must restore
-%% the counter in order for the counter to work if new commands are added to the
-%% history.
-replace_history_chl(OldCHL,SortedLog) ->
- {_,Ongoing,TId}=mk_chl(OldCHL),
- {NewTId,Counter}=replace_history_chl_2(TId,SortedLog,0),
- {ok,{Counter+1,Ongoing,NewTId}}.
-
-replace_history_chl_2(TId,[{{TC,Id},C,running,B}|Rest],_Counter) ->
- ets:insert(TId,{{TC,Id},C,running,B,undefined}),
- replace_history_chl_2(TId,Rest,C);
-replace_history_chl_2(TId,[{{M,F,Args},C}|Rest],_Counter) ->
- ets:insert(TId,{{M,F,Args,make_ref()},C}),
- replace_history_chl_2(TId,Rest,C);
-replace_history_chl_2(TId,[{TC,C,B}|Rest],_Counter) ->
- ets:insert(TId,{{TC,make_ref()},C,B}),
- replace_history_chl_2(TId,Rest,C);
-replace_history_chl_2(TId,[],Counter) ->
- {TId,Counter}.
-%% -----------------------------------------------------------------------------
-
-
-%% -----------------------------------------------------------------------------
-%% Reactivators data structure.
-%% -----------------------------------------------------------------------------
-
-%% Function adding a new node-reactivatorpid pair to the reactivators structure.
-%% In this way we know which reactivators to remove if Node terminates, or when
-%% a node is fully updated when a reactivator is done.
-add_reactivators(Node,Pid,Reactivators) ->
- [{Node,Pid}|Reactivators].
-
-%% Function removing a reactivator entry from the reactivators structure.
-del_reactivators(RPid,[{_Node,RPid}|Rest]) ->
- Rest;
-del_reactivators(RPid,[Element|Rest]) ->
- [Element|del_reactivators(RPid,Rest)];
-del_reactivators(_,[]) -> % This should not happend.
- [].
-
-get_node_reactivators(RPid,Reactivators) ->
- case lists:keysearch(RPid,2,Reactivators) of
- {value,{Node,_}} ->
- Node;
- false -> % This should not happend.
- false
- end.
-
-%% Returns a list of list all nodes that are currently reactivating.
-get_all_nodes_reactivators([{Nodes,_Pid}|Rest]) ->
- [Nodes|get_all_nodes_reactivators(Rest)];
-get_all_nodes_reactivators([]) ->
- [].
-
-%% Function stopping all running reactivator processes. Returns a new empty
-%% reactivators structure. Note that this function does not set the state of
-%% Nodes. It must most often be set to running.
-stop_all_reactivators([{_Nodes,Pid}|Rest]) ->
- exit(Pid,kill),
- stop_all_reactivators(Rest);
-stop_all_reactivators([]) ->
- []. % Returns an empty reactivators.
-
-%% Help function stopping the reactivator (if any) that reactivates Node.
-%% Returns a new list of reactivators structure.
-stop_node_reactivators(Node,[{Node,Pid}|Rest]) ->
- exit(Pid,kill),
- Rest;
-stop_node_reactivators(Node,[NodePid|Rest]) ->
- [NodePid|stop_node_reactivators(Node,Rest)];
-stop_node_reactivators(_,[]) ->
- [].
-%% -----------------------------------------------------------------------------
-
-
-%% -----------------------------------------------------------------------------
-%% Started initial trace cases data structure.
-%% -----------------------------------------------------------------------------
-
-%% This datastructure keeps information about ongoing trace cases started
-%% automatically at init_tracing. These must be automatically stopped when calling
-%% stop_tracing.
-
-add_initial_tcs(TCname,Id,StartedInitialTcs) ->
- [{TCname,Id}|StartedInitialTcs].
-%% -----------------------------------------------------------------------------
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+ case lists:keysearch(Node,1,NodesD) of + {value,{_,AvailableStatus}} -> + get_state_nodes_2(AvailableStatus); + false -> + false + end; +get_state_nodes(_,NodesD) -> % Non distributed case. + get_state_nodes_2(NodesD). + +get_state_nodes_2({up,{trace_failure,Status}}) -> + {trace_failure,Status}; +get_state_nodes_2({up,{State,suspended}}) -> % {tracing|inactive,suspended} + {State,suspended}; +get_state_nodes_2({up,reactivating}) -> + reactivating; +get_state_nodes_2({up,{State,running}}) -> + {State,running}; +get_state_nodes_2(down) -> + down. +%% ----------------------------------------------------------------------------- + +%% Help function in the case we need to consult the state/status of a runtime +%% component. Returns a nodesD value that can be added to the nodes database. +mk_nodes_state_from_status({ok,{tracing,running}}) -> + {up,{tracing,running}}; +mk_nodes_state_from_status({ok,{tracing,{suspended,_SReason}}}) -> + {up,{tracing,suspended}}; +mk_nodes_state_from_status({ok,{_,running}}) -> + {up,{inactive,running}}; +mk_nodes_state_from_status({ok,{_,{suspended,_SReason}}}) -> + {up,{inactive,suspended}}; +mk_nodes_state_from_status({error,_Reason}) -> + down. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% The session_state. +%% ----------------------------------------------------------------------------- + +%% The session state reflects if the inviso_tool is tracing or not. +%% This means that if the tool is tracing a reconnected node can be made to +%% restart_session. + +%% Returns the correct value indicating that we are tracing now. +tracing_sessionstate() -> + tracing. +%% ----------------------------------------------------------------------------- + +%% Returns true or false depending on if we are tracing now or not. +is_tracing(tracing) -> + true; +is_tracing(_) -> + false. +%% ----------------------------------------------------------------------------- + +%% Returns the correct value indicating that the tool is not tracing. +passive_sessionstate() -> + idle. +%% ----------------------------------------------------------------------------- + +%% ----------------------------------------------------------------------------- +%% The tracer_data datastructure. +%% ----------------------------------------------------------------------------- + +%% The tracer_data structure collects the tracer data arguments used to init tracing +%% by this inviso tool. The args are saved per session. Each session has +%% a number. +%% Implementation: +%% Sessions=[{SessionNr,TDGargs},...] +%% SessionNr=integer() +%% TDGargs=list(), args given to the tracer data generator +%% minus the first argument which is the Node name. + +%% Function taking tracerdata args structure inserting yet another session. +%% Returns {SessionNr,NewTDs}. +insert_td_tracer_data(TDGargs,TDs=[{SNr,_}|_]) -> + {SNr+1,[{SNr+1,TDGargs}|TDs]}; +insert_td_tracer_data(TDGargs,undefined) -> + {1,[{1,TDGargs}]}. +%% ----------------------------------------------------------------------------- + +%% Returns the latest session nr. +get_latest_session_nr_tracer_data(undefined) -> + undefined; +get_latest_session_nr_tracer_data([{SessionNr,_}|_]) -> + SessionNr. +%% ----------------------------------------------------------------------------- + +%% Returns the tracer data arguments used when creating the trace data for the +%% latest session. +get_latest_tdgargs_tracer_data(undefined) -> + undefined; +get_latest_tdgargs_tracer_data([{_,TDGargs}|_]) -> + TDGargs. +%% ----------------------------------------------------------------------------- + + +%% ----------------------------------------------------------------------------- +%% The tc_dict or trace case dictionary datastructure. +%% ----------------------------------------------------------------------------- + +%% The tc_dict stores information about all available trace cases. +%% Implementation: +%% [{TCname,Type,VarNames,FNameOn [,FNameOff]},...] +%% TCname=atom() +%% Type=on | on_off +%% VarNames=[atom(),...] +%% FNameOn=FNameOff=string() + +%% Returns the empty trace case dictionary. +mk_tc_dict() -> + []. +%% ----------------------------------------------------------------------------- + +%% Function inserting a new trace case into the trace case dictionary. +insert_tracecase_tc_dict(TCname,on,VarNames,FNameOn,TCdict) -> + [{TCname,on,VarNames,FNameOn}|TCdict]. +insert_tracecase_tc_dict(TCname,on_off,VarNames,FNameOn,FNameOff,TCdict) -> + [{TCname,on_off,VarNames,FNameOn,FNameOff}|TCdict]. +%% ----------------------------------------------------------------------------- + +%% Function finding a trace case definition in the tc_dict structure. +%% Returns {ok,{TCname,Type,VarNAmes,FNameOn [,FNameOff]}} or 'false'. +get_tracecase_tc_dict(TCname,[Tuple|_]) when element(1,Tuple)==TCname -> + {ok,Tuple}; +get_tracecase_tc_dict(TCname,[_|Rest]) -> + get_tracecase_tc_dict(TCname,Rest); +get_tracecase_tc_dict(_,[]) -> + false; +get_tracecase_tc_dict(_,_) -> % There are no trace cases! + false. +%% ----------------------------------------------------------------------------- + +%% Function working on the trace case definition returned by get_tracecase_tc_dict/2 +%% function. +%% Returning {ok,ActivationFileName}. +get_tc_activate_fname({_TCname,_Type,_VarNames,FNameOn}) -> + {ok,FNameOn}; +get_tc_activate_fname({_TCname,_Type,_VarNames,FNameOn,_FNameOff}) -> + {ok,FNameOn}. + +get_tc_deactivate_fname({_TCname,_Type,_VarNames,_FNameOn,FNameOff}) -> + {ok,FNameOff}; +get_tc_deactivate_fname(_) -> % Not a case with off function. + false. + +get_tc_varnames({_TCname,_Type,VarNames,_FNameOn}) -> + VarNames; +get_tc_varnames({_TCname,_Type,VarNames,_FNameOn,_FNameOff}) -> + VarNames. + +%% ----------------------------------------------------------------------------- + + +%% The Command History Log (CHL) stores commands to make it possible to +%% reactivate suspended nodes, reconnect restarted nodes, and to make +%% autostart files. +%% Each time tracing is initiated (that is started) the CHL is cleared since +%% it would not make scense to repeat commands from an earlier tracing at +%% reactivation for instance. + +%% Implementation: {NextCounter,OnGoingList,ETStable} +%% NextCounter=integer(), next command number - to be able to sort them in order. +%% OnGoingList=[{ProcH,{TCname,ID}},...] +%% ID=term(), instance id for this execution of this trace case. +%% ETStable=tid() -> {{TCname,Id},Counter,State1,Bindings} +%% ETStable=tid() -> {{TCname,Id},Counter,running,Bindings,Result} | +%% {{TCname,Id,#Ref},Counter,stop,Bindings} | +%% {{TCname,#Ref},Counter,Bindings} % An rtc +%% {{M,F,Args,#Ref},Counter} +%% Counter=integer(), the order-counter for this logged entry. +%% State1=activating | stopping +%% Where: +%% activating: the activation file for the tracecase is running. +%% running : activation is completed. +%% stopping : set on the previously running ETS entry when deactivation +%% file is currently executing. +%% stop : entered with own Counter into the ETS table when +%% deactivation file is executing. Remains after too. +%% Result=term(), the result returned from the tr-case or inviso call. + + +%% Returning an initial empty CHL. +mk_chl(undefined) -> + {1,[],ets:new(inviso_tool_chl,[set,protected])}; +mk_chl({_,_,TId}) -> + ets:delete(TId), + mk_chl(undefined). + +%% Help function returning 'true' if there is a current history. +history_exists_chl(undefined) -> + false; +history_exists_chl({_,_,_}) -> + true. + +%% Function looking up the state of this trace case. +find_id_chl(TCname,Id,{_NextCounter,_OnGoingList,TId}) -> + case ets:lookup(TId,{TCname,Id}) of + [{_,_,running,Bindings,_Result}] -> % The trace case is tracing. + {ok,Bindings}; + [{_,_,State,_}] -> % activating or stopping. + State; + [] -> + false + end. + +%% Function finding the Trace case associated with a process handle +%% doing this trace case's activation or stopping. +find_tc_executer_chl(ProcH,{_,OnGoingList,TId}) -> + case lists:keysearch(ProcH,1,OnGoingList) of + {value,{_,{TCname,Id}}} -> + [{_,_,State,_}]=ets:lookup(TId,{TCname,Id}), + {State,{TCname,Id}}; % Should be activating or stopping. + false -> + false + end. + +%% Adds a Trace case to the CHL. This is done when it is turned on. Or when it +%% is called for trace cases that do not have on/off functionality. +set_activating_chl(TCname,Id,{Counter,OnGoingList,TId},Bindings,ProcH) -> + ets:insert(TId,{{TCname,Id},Counter,activating,Bindings}), + {Counter+1,[{ProcH,{TCname,Id}}|OnGoingList],TId}. + +%% Function marking a trace case as now running. That is the activation +%% phase is completed. It is normaly completed when the process executing +%% the trace case signals that it is done. +set_running_chl(ProcH,TCname,Id,Result,{NextCounter,OnGoingList,TId}) -> + [{_,Counter,_,Bindings}]=ets:lookup(TId,{TCname,Id}), + ets:insert(TId,{{TCname,Id},Counter,running,Bindings,Result}), + NewOnGoingList=lists:keydelete(ProcH,1,OnGoingList), + {NextCounter,NewOnGoingList,TId}. + +%% Function marking trace case TCname with identifier Id as now in its stopping +%% state. Where ProcH is the handler to the process running the stopping +%% trace case. +set_stopping_chl(TCname,Id,{NextCounter,OnGoingList,TId},ProcH)-> + [{_,Counter,_,Bindings,_}]=ets:lookup(TId,{TCname,Id}), + ets:insert(TId,{{TCname,Id},Counter,stopping,Bindings}), + ets:insert(TId,{{TCname,Id,make_ref()},NextCounter,stop,Bindings}), + {NextCounter+1,[{ProcH,{TCname,Id}}|OnGoingList],TId}. + +%% Function removing a TCname-Id from the CHL. This is mostly used +%% if activating the trace case failed for some reason. We do not then +%% expect the user to stop the trace case. Hence it must be removed now. +%% A reactivation process may have noticed the activating-entry and started +%% to activate it. But since the general state reached after an unsuccessful +%% activation can not easily be determined, we don't try to do much about it. +del_tc_chl(ProcH,TCname,Id,{NextCounter,OnGoingList,TId}) -> + ets:delete(TId,{TCname,Id}), + NewOnGoingList=lists:keydelete(ProcH,1,OnGoingList), + {NextCounter,NewOnGoingList,TId}. + +%% Function removing the entry TCname+Id from the CHL. This makes it +%% possible to activate a tracecase with this id again. The entry was +%% previously marked as stopping. +nullify_chl(ProcH,TCname,Id,{NextCounter,OnGoingList,TId}) -> + ets:delete(TId,{TCname,Id}), + NewOnGoingList=lists:keydelete(ProcH,1,OnGoingList), + {NextCounter+1,NewOnGoingList,TId}. + +%% Function stopping all processes saved as being now running tc executers. +%% This is useful as cleanup during stop tracing for instance. +%% Returns a new CHL which is not in all parts correct. Entries in the +%% ETS table are for instance not properly state-changed. But the CHL will +%% from now on only be used to create command files and similar. +stop_all_tc_executer_chl({NextCounter,[{ProcH,_}|Rest],TId}) -> + exit(ProcH,kill), + stop_all_tc_executer_chl({NextCounter,Rest,TId}); +stop_all_tc_executer_chl({NextCounter,[],TId}) -> + {NextCounter,[],TId}. + +%% Function adding a "plain" inviso call to the CHL. +add_inviso_call_chl(Cmd,Args,{NextCounter,OnGoingList,TId}) -> + ets:insert(TId,{{inviso,Cmd,Args,make_ref()},NextCounter}), + {NextCounter+1,OnGoingList,TId}. + +%% Function adding a run trace case entry to the chl. +add_rtc_chl(TCname,Bindings,{NextCounter,OnGoingList,TId}) -> + ets:insert(TId,{{TCname,make_ref()},NextCounter,Bindings}), + {NextCounter+1,OnGoingList,TId}. +%% Returns the highest used counter number in the command history log. +get_highest_used_counter_chl({NextCounter,_,_}) -> + NextCounter-1. + +%% Help function returning a list of {{TCname,Id},Phase} for all ongoing +%% assynchronous tracecases. +get_ongoing_chl(undefined) -> + []; +get_ongoing_chl({_,OngoingList,TId}) -> + get_ongoing_chl_2(OngoingList,TId). + +get_ongoing_chl_2([{_ProcH,{TCname,Id}}|Rest],TId) -> + case ets:lookup(TId,{TCname,Id}) of + [{_,_C,activating,_B}] -> + [{{TCname,Id},activating}|get_ongoing_chl_2(Rest,TId)]; + [{_,_C,stopping,_B}] -> + [{{TCname,Id},deactivating}|get_ongoing_chl_2(Rest,TId)] + end; +get_ongoing_chl_2([],_) -> + []. + +%% Function returning a list of log entries. Note that the list is unsorted +%% in respect to Counter. +get_loglist_chl({_,_,TId}) -> + L=ets:tab2list(TId), + lists:map(fun({{TC,Id},C,S,B,_Result}) -> {{TC,Id},C,S,B}; % running + (Tuple={{_TC,_Id},_C,_S,_B}) -> Tuple; % activating | stopping + (Tuple={{_TC,_Id,_Ref},_C,_S,_B}) -> Tuple; % stop + (Tuple={{_M,_F,_Args,_Ref},_C}) -> Tuple; + (Tuple={{_TC,_Ref},_C,_B}) -> Tuple + end, + L); +get_loglist_chl(_) -> % The history is not initiated, ever! + []. + +%% Function returning a list of log entries, but only those which are not +%% cancelled out by deactivations. +% get_loglist_active_chl({_,_,TId}) -> +% L=ets:tab2list(TId), +% lists:zf(fun({{TC,Id},C,S,B,_Result}) -> {true,{{TC,Id},C,S,B}}; % running +% (Tuple={{_TC,_Id},_C,_S,_B}) -> Tuple; % activating | stopping +% (Tuple={{_TC,_Id,_Ref},_C,_S,_B}) -> Tuple; % stop +% (Tuple={{_M,_F,_Args,_Ref},_C}) -> Tuple +% end, +% L); +% get_loglist_chl(_) -> % The history is not initiated, ever! +% []. + + +%% This helpfunction recreates a history from a saved history list. This function +%% is supposed to crash if the log is not well formatted. Note that we must restore +%% the counter in order for the counter to work if new commands are added to the +%% history. +replace_history_chl(OldCHL,SortedLog) -> + {_,Ongoing,TId}=mk_chl(OldCHL), + {NewTId,Counter}=replace_history_chl_2(TId,SortedLog,0), + {ok,{Counter+1,Ongoing,NewTId}}. + +replace_history_chl_2(TId,[{{TC,Id},C,running,B}|Rest],_Counter) -> + ets:insert(TId,{{TC,Id},C,running,B,undefined}), + replace_history_chl_2(TId,Rest,C); +replace_history_chl_2(TId,[{{M,F,Args},C}|Rest],_Counter) -> + ets:insert(TId,{{M,F,Args,make_ref()},C}), + replace_history_chl_2(TId,Rest,C); +replace_history_chl_2(TId,[{TC,C,B}|Rest],_Counter) -> + ets:insert(TId,{{TC,make_ref()},C,B}), + replace_history_chl_2(TId,Rest,C); +replace_history_chl_2(TId,[],Counter) -> + {TId,Counter}. +%% ----------------------------------------------------------------------------- + + +%% ----------------------------------------------------------------------------- +%% Reactivators data structure. +%% ----------------------------------------------------------------------------- + +%% Function adding a new node-reactivatorpid pair to the reactivators structure. +%% In this way we know which reactivators to remove if Node terminates, or when +%% a node is fully updated when a reactivator is done. +add_reactivators(Node,Pid,Reactivators) -> + [{Node,Pid}|Reactivators]. + +%% Function removing a reactivator entry from the reactivators structure. +del_reactivators(RPid,[{_Node,RPid}|Rest]) -> + Rest; +del_reactivators(RPid,[Element|Rest]) -> + [Element|del_reactivators(RPid,Rest)]; +del_reactivators(_,[]) -> % This should not happend. + []. + +get_node_reactivators(RPid,Reactivators) -> + case lists:keysearch(RPid,2,Reactivators) of + {value,{Node,_}} -> + Node; + false -> % This should not happend. + false + end. + +%% Returns a list of list all nodes that are currently reactivating. +get_all_nodes_reactivators([{Nodes,_Pid}|Rest]) -> + [Nodes|get_all_nodes_reactivators(Rest)]; +get_all_nodes_reactivators([]) -> + []. + +%% Function stopping all running reactivator processes. Returns a new empty +%% reactivators structure. Note that this function does not set the state of +%% Nodes. It must most often be set to running. +stop_all_reactivators([{_Nodes,Pid}|Rest]) -> + exit(Pid,kill), + stop_all_reactivators(Rest); +stop_all_reactivators([]) -> + []. % Returns an empty reactivators. + +%% Help function stopping the reactivator (if any) that reactivates Node. +%% Returns a new list of reactivators structure. +stop_node_reactivators(Node,[{Node,Pid}|Rest]) -> + exit(Pid,kill), + Rest; +stop_node_reactivators(Node,[NodePid|Rest]) -> + [NodePid|stop_node_reactivators(Node,Rest)]; +stop_node_reactivators(_,[]) -> + []. +%% ----------------------------------------------------------------------------- + + +%% ----------------------------------------------------------------------------- +%% Started initial trace cases data structure. +%% ----------------------------------------------------------------------------- + +%% This datastructure keeps information about ongoing trace cases started +%% automatically at init_tracing. These must be automatically stopped when calling +%% stop_tracing. + +add_initial_tcs(TCname,Id,StartedInitialTcs) -> + [{TCname,Id}|StartedInitialTcs]. +%% ----------------------------------------------------------------------------- + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% diff --git a/lib/inviso/src/inviso_tool_sh.erl b/lib/inviso/src/inviso_tool_sh.erl index fe876b955a..b02f498c5b 100644 --- a/lib/inviso/src/inviso_tool_sh.erl +++ b/lib/inviso/src/inviso_tool_sh.erl @@ -1,1731 +1,1749 @@ -%%%------------------------------------------------------------------------------
-%%% File : inviso_tool_sh.erl
-%%% Author : Lennart �hman <[email protected]>
-%%% Description :
-%%%
-%%% Created : 24 Oct 2005 by Lennart �hman
-%%%------------------------------------------------------------------------------
--module(inviso_tool_sh).
-
-%% Inviso Session Handler.
-%% This is the code for the session handler process. Its purpose is that we have
-%% one session handler process for each trace session started through the
-%% start_session inviso tool API. The session handler process is responsible for:
-%%
-%% -Knowing the state/status of all participating runtime components.
-%% -Keeping storage of all tracerdata all our participants have used. This means
-%% also to find out the tracerdata of runtime components connecting by them
-%% selves.
-%%
-%% STORAGE STRATEGY
-%% ----------------
-%% The local information storage can be changed by two things. Either by executing
-%% commands issued through our APIs. Or by receiving trace_event from the control
-%% component. When we execute commands, a corresponding event will also follow.
-%% Meaning that in those situations we are informed twice.
-%% A simple strategy could be to wait for the event even when doing the changes
-%% to the runtime components our self (through commands). But that may result in
-%% a small time frame where someone might do yet another command and failing
-%% because the local information storage is not uptodate as it would have been
-%% expected to be. Therefore we always update the local storage when making changes
-%% to a runtime component our selves. There will eventually be a double update
-%% through an incoming event. But the storage must coop with that, preventing
-%% inconsitancies to happend. An example of a strategy is that the tracerdata table
-%% is a bag, not allowing for double entries of the same kind. Therefore a double
-%% update is harmless there.
-
-%% ------------------------------------------------------------------------------
-%% Module wide constants.
-%% ------------------------------------------------------------------------------
--define(LOCAL_RUNTIME,local_runtime). % Used as node name when non-disitrbuted.
--define(TRACING,tracing). % A state defined by the control component.
--define(RUNNING,running). % A status according to control componet.
-
--define(COPY_LOG_FROM,copy_log_from). % Common fileystem option.
-%% ------------------------------------------------------------------------------
-
-%% ------------------------------------------------------------------------------
-%% API exports.
-%% ------------------------------------------------------------------------------
--export([start_link/5,start_link/8]).
--export([cancel_session/1,stop_session/3]).
--export([reactivate/1,reactivate/2]).
--export([tpl/5,tpl/6,tpl/7,
- tf/2,tf/3,
- tpm_localnames/2,init_tpm/6,init_tpm/9,tpm/6,tpm/7,tpm/10,
- tpm_ms/7,ctpm_ms/6,ctpm/5
- ]).
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Internal exports.
-%% ------------------------------------------------------------------------------
--export([init/1,handle_call/3,handle_info/2,terminate/2]).
-
--export([get_loopdata/1]).
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Includes.
-%% ------------------------------------------------------------------------------
--include_lib("kernel/include/file.hrl"). % Necessary for file module.
-%% ------------------------------------------------------------------------------
-
-
-%% ==============================================================================
-%% Exported API functions.
-%% ==============================================================================
-
-%% start_link(From,NodeParams,CtrlNode,CtrlPid,SafetyCatches,NodesIn,NodesNotIn) =
-%% {ok,Pid} | {error,Reason}
-%% From= pid(), the initial client expecting the reply.
-%% NodeParams=[{Node,TracerData},{Node,TracerData,Opts}...]
-%% CtrlNode=atom() | 'void', the node where the trace control component is.
-%% CtrlPid=pid(), the pid of the trace control component.
-%% SafetyCatches=
-%% Dir=string(), where to place fetched logs and the merged log.
-%% Dbg=debug structure.
-%% NodesIn=[Node,...], list of nodes already in another session.
-%% NodesNotIn=[Node,...], list of nodes not in another session.
-%%
-%% Starts a session-handler. It keeps track of the the state and status of all
-%% participating runtime components. Note that there is a non-distributed case too.
-%% In the non-distributed case there is no things such as CtrlNode.
-start_link(From,TracerData,CtrlPid,SafetyCatches,Dbg) ->
- gen_server:start_link(?MODULE,
- {self(),From,TracerData,CtrlPid,SafetyCatches,Dbg},
- []).
-
-start_link(From,NodeParams,CtrlNode,CtrlPid,SafetyCatches,Dbg,NodesIn,NodesNotIn) ->
- gen_server:start_link(?MODULE,
- {self(),From,NodeParams,CtrlNode,CtrlPid,
- SafetyCatches,Dbg,NodesIn,NodesNotIn},
- []).
-%% ------------------------------------------------------------------------------
-
-%% Stops tracing where it is ongoing. Fetches all logfiles.
-stop_session(SID,Dir,Prefix) ->
- gen_server:call(SID,{stop_session,Dir,Prefix}).
-%% ------------------------------------------------------------------------------
-
-%% stop_session(SID) = ok
-%%
-%% Cancels the session brutaly. All runtime components are made to stop tracing,
-%% all local log files are removed using the tracerdata we know for them.
-cancel_session(SID) ->
- gen_server:call(SID,cancel_session).
-%% ------------------------------------------------------------------------------
-
-%% reactivate(SID) = {ok,
-%% reactivate(SID,Nodes) = {ok,NodeResults} | {error,Reason}.
-%% SID=session id, pid().
-%% Nodes=[Node,...]
-%% NodeResult=[{Node,Result},...]
-%% Result={Good,Bad}
-%% Good,Bad=integer(), the number of redone activities.
-%%
-%% Function which reactivates runtime components being suspended. This is done
-%% replaying all trace flags (in the correct order) to the corresponding nodes.
-%% Note that this may also mean turning flags off. Like first turning them on
-%% then off a split second later.
-reactivate(SID) ->
- gen_server:call(SID,reactivate). %% NOT IMPLEMENTED YET.
-reactivate(SID,Nodes) ->
- gen_server:call(SID,{reactivate,Nodes}).
-%% ------------------------------------------------------------------------------
-
-
-%% tpl(SessionID,Mod,Func,Arity,MS)=
-%% tpl(SessionID,Mod,Func,Arity,MS,Opts)={ok,N}|{error,Reason}.
-%% tpl(SessionID,Nodes,Mod,Func,Arity,MS)=
-%% tpl(SessionID,Nodes,Mod,Func,Arity,MS,Opts)={ok,Result}|{error,Reason}
-%% Mod='_' | ModuleName | ModRegExp | {DirRegExp,ModRegExp}
-%% ModRegExp=DirRegExp= string()
-%% Func='_' | FunctionName
-%% Arity='_' | integer()
-%% MS=[] | false | a match specification
-%% Opts=[Opts,...]
-%% Opt={arg,Arg}, disable_safety, {expand_regexp_at,NodeName}, only_loaded
-%% Nodes=[NodeName,...]
-tpl(SID,Mod,Func,Arity,MS) ->
- gen_server:call(SID,{tp,tpl,Mod,Func,Arity,MS,[]}).
-tpl(SID,Mod,Func,Arity,MS,Opts) when list(MS);MS==true;MS==false ->
- gen_server:call(SID,{tp,tpl,Mod,Func,Arity,MS,Opts});
-tpl(SID,Nodes,Mod,Func,Arity,MS) when integer(Arity);Arity=='_' ->
- gen_server:call(SID,{tp,tpl,Nodes,Mod,Func,Arity,MS,[]}).
-tpl(SID,Nodes,Mod,Func,Arity,MS,Opts) ->
- gen_server:call(SID,{tp,tpl,Nodes,Mod,Func,Arity,MS,Opts}).
-%% ------------------------------------------------------------------------------
-
-%% ctpl(SessionID,Nodes,Mod,Func,Arity)=
-%% See tpl/X for arguments.
-%%
-%% Removes local trace-patterns from functions.
-ctpl(SID,Nodes,Mod,Func,Arity) ->
- gen_server:call(SID,{ctp,ctpl,Nodes,Mod,Func,Arity}).
-%% ------------------------------------------------------------------------------
-
-
-tpm_localnames(SID,Nodes) ->
- gen_server:call(SID,{tpm_localnames,Nodes}).
-tpm_globalnames(SID,Nodes) ->
- gen_server:call(SID,{tpm_globalnames,Nodes}).
-
-init_tpm(SID,Nodes,Mod,Func,Arity,CallFunc) ->
- gen_server:call(SID,{init_tpm,Nodes,Mod,Func,Arity,CallFunc}).
-init_tpm(SID,Nodes,Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc) ->
- gen_server:call(SID,
- {init_tpm,Nodes,Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc}).
-tpm(SID,Nodes,Mod,Func,Arity,MS) ->
- gen_server:call(SID,{tpm,Nodes,Mod,Func,Arity,MS}).
-tpm(SID,Nodes,Mod,Func,Arity,MS,CallFunc) ->
- gen_server:call(SID,{tpm,Nodes,Mod,Func,Arity,MS,CallFunc}).
-tpm(SID,Nodes,Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc) ->
- gen_server:call(SID,{tpm,Nodes,Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc}).
-
-tpm_ms(SID,Nodes,Mod,Func,Arity,MSname,MS) ->
- gen_server:call(SID,{tpm_ms,Nodes,Mod,Func,Arity,MSname,MS}).
-
-ctpm_ms(SID,Nodes,Mod,Func,Arity,MSname) ->
- gen_server:call(SID,{tpm_ms,Nodes,Mod,Func,Arity,MSname}).
-
-ctpm(SID,Nodes,Mod,Func,Arity) ->
- gen_server:call(SID,{ctpm,Nodes,Mod,Func,Arity}).
-%% ------------------------------------------------------------------------------
-
-
-%% tf(SessionID,Nodes,TraceConfList)=
-%% TraceConfList=[{PidSpec,Flags},...]
-%% PidSpec=pid()|atom()|all|new|existing
-%% Flags=[Flag,...]
-tf(SID,TraceConfList) ->
- gen_server:call(SID,{tf,TraceConfList}).
-tf(SID,Nodes,TraceConfList) ->
- gen_server:call(SID,{tf,Nodes,TraceConfList}).
-%% ------------------------------------------------------------------------------
-
-
-get_loopdata(SID) ->
- gen_server:call(SID,get_loopdata).
-%% ------------------------------------------------------------------------------
-
-%% ==============================================================================
-%% Genserver call-backs.
-%% ==============================================================================
-
-%% Initial function for the session handler process. The nodes participating in
-%% the session must previously have been added to our control component by the tool.
-%% The session handler first finds out the state/status of the specified runtime
-%% components, then it tries to initiate tracing on those where it is applicable.
-%% Note that a reply to the initial (tool)client is done from here instead from
-%% the tool-server.
-init({Parent,From,TracerData,CtrlPid,SafetyCatches,Dbg}) -> % The non-distributed case.
- {ok,StateStatus}=init_rtcomponent_states([],void,CtrlPid,[?LOCAL_RUNTIME]),
- case is_tool_internal_tracerdata(TracerData) of
- false -> % We shall initiate local runtime.
- case inviso:init_tracing(TracerData) of
- ok ->
- gen_server:reply(From,{ok,{self(),ok}}),
- {ok,mk_ld(Parent,
- void,
- CtrlPid,
- to_rtstates([{?LOCAL_RUNTIME,{tracing,?RUNNING},[]}]),
- [{?LOCAL_RUNTIME,TracerData}],
- [],
- SafetyCatches,
- Dbg)};
- {error,Reason} -> % It might have become suspended?!
- gen_server:reply(From,{error,Reason}),
- {ok,mk_ld(Parent,
- void,
- CtrlPid,
- to_rtstates([{?LOCAL_RUNTIME,StateStatus,[]}]),
- [{?LOCAL_RUNTIME,TracerData}],
- [],
- SafetyCatches,
- Dbg)}
- end;
- true -> % We shall not pass this one on.
- gen_server:reply(From,{ok,{self(),ok}}), % Then it is ok.
- {ok,mk_ld(Parent,
- void,
- CtrlPid,
- to_rtstates([{?LOCAL_RUNTIME,StateStatus,[]}]),
- [],
- [?LOCAL_RUNTIME],
- SafetyCatches,
- Dbg)}
- end;
-init({Parent,From,NodeParams,CtrlNode,CtrlPid,SafetyCatches,Dbg,NodesIn,NodesNotIn}) ->
- case init_rtcomponent_states(NodeParams,CtrlNode,CtrlPid,NodesNotIn) of
- {ok,States} -> % A list of {Node,{State,Status},Opts}.
- {NodeParams2,Nodes2}=remove_nodeparams(NodesIn,NodeParams),
- case inviso_tool_lib:inviso_cmd(CtrlNode,init_tracing,[NodeParams2]) of
- {ok,Result} -> % Resulted in state changes!
- RTStates=set_tracing_rtstates(to_rtstates(States),Result),
- ReplyValue=init_fix_resultnodes(NodesIn,Nodes2,Result),
- gen_server:reply(From,{ok,{self(),ReplyValue}}),
- {ok,mk_ld(Parent,CtrlNode,CtrlPid,RTStates,
- NodeParams2,Nodes2,SafetyCatches,Dbg)};
- {error,Reason} -> % Some general failure.
- inviso_tool_lib:inviso_cmd(CtrlNode,unsubscribe,[]),
- gen_server:reply(From,{error,{init_tracing,Reason}}),
- {stop,{init_tracing,Reason}};
- What ->
- io:format("GOT:~n~w~n",[What]),
- exit(foo)
- end;
- {error,Reason} -> % Unable to get the state/status.
- inviso_tool_lib:inviso_cmd(CtrlNode,unsubscribe,[]),
- gen_server:reply(From,{error,Reason}),
- {stop,{error,Reason}};
- What ->
- io:format("GOT:~n~w~n",[What]),
- exit(foo)
- end.
-%% ------------------------------------------------------------------------------
-
-%% To stop a session means stop the tracing and remove all local files on the
-%% runtime nodes. We do have a table with all tracer data and that is how we are
-%% going to recreate what files to remove.
-%% Since runtime components may actually change state when this procedure is
-%% on-going, we do not care! It is the state in the session handling process at
-%% the time of start of this procedure which is used.
-handle_call(cancel_session,_From,LD) ->
- CtrlNode=get_ctrlnode_ld(LD),
- RTStates=get_rtstates_ld(LD),
- Dbg=get_dbg_ld(LD),
- TracingNodes=get_all_tracing_nodes_rtstates(RTStates),
- case stop_all_tracing(CtrlNode,Dbg,TracingNodes) of
- ok-> % Hopefully all nodes are stopped now.
- AvailableNodes=get_all_available_nodes_rtstates(RTStates),
- TRDstorage=get_trdstorage_ld(LD),
- remove_all_local_logs(CtrlNode,TRDstorage,AvailableNodes,Dbg),
- {stop,normal,ok,LD}; % LD actually not correct now!
- {error,Reason} -> % Some serious error when stop_tracing.
- {stop,normal,{error,Reason},LD}
- end;
-%% ------------------------------------------------------------------------------
-
-%% *Stop all tracing on runtime components still tracing.
-%% *Copy all local log files to the collection directory.
-handle_call({stop_session,Dir,Prefix},_From,LD) ->
- case check_directory_exists(Dir) of % Check that this directory exists here.
- true ->
- RTStates=get_rtstates_ld(LD),
- CtrlNode=get_ctrlnode_ld(LD),
- Dbg=get_dbg_ld(LD),
- TracingNodes=get_all_tracing_nodes_rtstates(RTStates),
- case stop_all_tracing(CtrlNode,Dbg,TracingNodes) of
- ok -> % Hopefully no node is still tracing now.
- TRDstorage=get_trdstorage_ld(LD),
- AvailableNodes=get_all_available_nodes_rtstates(RTStates),
- {FailedNodes,FetchedFiles}=
- transfer_logfiles(RTStates,CtrlNode,Dir,Prefix,
- TRDstorage,Dbg,AvailableNodes),
- RemoveNodes= % We only delete local logs where fetch ok.
- lists:filter(fun(N)->
- case lists:keysearch(N,1,FailedNodes) of
- {value,_} ->
- false;
- false ->
- true
- end
- end,
- AvailableNodes),
- remove_all_local_logs(CtrlNode,TRDstorage,RemoveNodes,Dbg),
- {stop,normal,{ok,{FailedNodes,FetchedFiles}},LD};
- {error,Reason} -> % Some general failure, quit.
- {stop,normal,{error,Reason},LD}
- end;
- false -> % You specified a non-existing directory!
- {reply,{error,{faulty_dir,Dir}},LD}
- end;
-%% ------------------------------------------------------------------------------
-
-handle_call({reactivate,Nodes},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- {OurNodes,OtherNodes}=
- remove_nodes_not_ours(Nodes,get_all_session_nodes_rtstates(RTStates)),
- CtrlNode=get_ctrlnode_ld(LD),
- ACTstorage=get_actstorage_ld(LD),
- case h_reactivate(CtrlNode,OurNodes,ACTstorage) of
- {ok,Results} -> % A list of {Node,Result}.
- if
- OtherNodes==[] -> % Normal case, no non-session nodes.
- {reply,{ok,Results},LD};
- true -> % Add error values for non-session nodes.
- {reply,
- {ok,
- lists:map(fun(N)->{N,{error,not_in_session}} end,OtherNodes)++
- Results},
- LD}
- end;
- {error,Reason} -> % Then this error takes presidence.
- {reply,{error,Reason},LD}
- end;
-%% ------------------------------------------------------------------------------
-
-%% Call-back for set trace-pattern for both global and local functions.
-handle_call({tp,PatternFunc,Mod,F,A,MS,Opts},_From,LD) ->
- Reply=h_tp(all,PatternFunc,Mod,F,A,MS,Opts,LD), % For all active nodes in the session.
- {reply,Reply,LD};
-handle_call({tp,PatternFunc,Nodes,Mod,F,A,MS,Opts},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- SNodes=get_all_session_nodes_rtstates(RTStates), % Notes belongoing to the session.
- {Nodes2,FaultyNodes}=remove_nodes_not_ours(Nodes,SNodes),
- Reply=h_tp(Nodes2,PatternFunc,Mod,F,A,MS,Opts,LD),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,FaultyNodes),
- {reply,ErrorReply++Reply,LD};
-%% ------------------------------------------------------------------------------
-
-%% Call-back handling the removal of both local and global trace-patterns.
-%% NOT IMPLEMENTED YET.
-handle_call({ctp,PatternFunc,Nodes,Mod,F,A},_From,LD) ->
- Reply=h_ctp(Nodes,PatternFunc,Mod,F,A,LD),
- {reply,Reply,LD};
-%% ------------------------------------------------------------------------------
-
-handle_call({tpm_localnames,Nodes},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_tpm_localnames(get_ctrlnode_ld(LD),Nodes2,RTStates,ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({init_tpm,Nodes,Mod,Func,Arity,CallFunc},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),
- Nodes2,
- init_tpm,
- [Mod,Func,Arity,CallFunc],
- RTStates,
- ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({init_tpm,Nodes,Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),
- Nodes2,
- init_tpm,
- [Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc],
- RTStates,
- ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({tpm,Nodes,Mod,Func,Arity,MS},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),Nodes2,tpm,[Mod,Func,Arity,MS],RTStates,ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({tpm,Nodes,Mod,Func,Arity,MS,CallFunc},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),
- Nodes2,
- tpm,
- [Mod,Func,Arity,MS,CallFunc],
- RTStates,
- ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({tpm,Nodes,Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),
- Nodes2,
- tpm,
- [Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc],
- RTStates,
- ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({tpm_ms,Nodes,Mod,Func,Arity,MSname,MS},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),
- Nodes2,
- tpm_ms,
- [Mod,Func,Arity,MSname,MS],
- RTStates,
- ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({ctpm_ms,Nodes,Mod,Func,Arity,MSname},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),
- Nodes2,
- ctpm_ms,
- [Mod,Func,Arity,MSname],
- RTStates,
- ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-
-handle_call({ctpm,Nodes,Mod,Func,Arity},_From,LD) ->
- RTStates=get_rtstates_ld(LD),
- OurNodes=get_all_session_nodes_rtstates(RTStates),
- {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes),
- ACTstorage=get_actstorage_ld(LD),
- {Reply,NewACTstorage}=
- h_all_tpm(get_ctrlnode_ld(LD),Nodes2,ctpm,[Mod,Func,Arity],RTStates,ACTstorage),
- ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes),
- {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)};
-%% ------------------------------------------------------------------------------
-
-%% Call-back for setting process trace-flags. Handles both distributed and non-
-%% distributed case.
-handle_call({tf,TraceConfList},From,LD) ->
- handle_call({tf,all,TraceConfList},From,LD);
-handle_call({tf,Nodes,TraceConfList},_From,LD) ->
- {Reply,NewACTstorage}=h_tf(get_ctrlnode_ld(LD),
- Nodes,
- TraceConfList,
- get_actstorage_ld(LD),
- get_rtstates_ld(LD)),
- {reply,Reply,put_actstorage_ld(NewACTstorage,LD)};
-%% ------------------------------------------------------------------------------
-
-
-
-handle_call(get_loopdata,_From,LD) ->
- io:format("The loopdata:~n~p~n",[LD]),
- {reply,ok,LD}.
-%% ------------------------------------------------------------------------------
-
-
-%% Clause handling an incomming state-change event from the control component.
-%% Note that it does not have to be one of our nodes since it is not possible
-%% to subscribe to certain node-events.
-%% We may very well get state-change events for state-changes we are the source
-%% to our selves. Those state-changes are already incorporated into the RTStates.
-%% There is however no harm in doing them again since we know that this event
-%% message will reach us before a reply to a potentially following state-change
-%% request will reach us. Hence we will do all state-changes in the correct order,
-%% even if sometimes done twice.
-handle_info({trace_event,CtrlPid,_Time,{state_change,Node,{State,Status}}},LD) ->
- case get_ctrlpid_ld(LD) of
- CtrlPid -> % It is from our control component.
- case {State,Status} of
- {?TRACING,?RUNNING} -> % This is the only case when new tracerdata!
- NewTracerData=add_current_tracerdata_ld(get_ctrlnode_ld(LD),
- Node,
- get_rtstates_ld(LD),
- get_trdstorage_ld(LD)),
- NewRTStates=statechange_rtstates(Node,State,Status,get_rtstates_ld(LD)),
- {noreply,put_trdstorage_ld(NewTracerData,
- put_rtstates_ld(NewRTStates,LD))};
- _ -> % In all other cases, just fix rtstates.
- NewRTStates=statechange_rtstates(Node,State,Status,get_rtstates_ld(LD)),
- {noreply,put_rtstates_ld(NewRTStates,LD)}
- end;
- _ ->
- {noreply,LD}
- end;
-%% If a new runtime component connects to our trace control component, and it is
-%% in our list of runtime components belonging to this session, we may update its
-%% state to now being present. Otherwise it does not belong to this session.
-%% Note that we avoid updating an already connected runtime component. This
-%% can happend if it connected by itself after we started the session handler,
-%% but before we managed to initiate tracing. Doing so or not will not result in
-%% any error in the long run, but during a short period of time we might be
-%% prevented from doing things with the runtime though it actually is tracing.
-handle_info({trace_event,CtrlPid,_Time,{connected,Node,{_Tag,{State,Status}}}},LD) ->
- case get_ctrlpid_ld(LD) of
- CtrlPid -> % It is from our control component.
- case get_statestatus_rtstates(Node,get_rtstates_ld(LD)) of
- {ok,unavailable} -> % This is the situation when we update!
- NewRTStates=statechange_rtstates(Node,State,Status,get_rtstates_ld(LD)),
- {noreply,put_rtstates_ld(NewRTStates,LD)};
- _ -> % In all other cases, let it be.
- {noreply,LD}
- end;
- _ -> % Not from our control component.
- {noreply,LD}
- end;
-%% If a runtime component disconnects we mark it as unavailable. We must also
-%% remove all saved trace-flags in order for them to not be accidently reactivated
-%% should the runtime component reconnect and then suspend.
-handle_info({trace_event,CtrlPid,_Time,{disconnected,Node,_}},LD) ->
- case get_ctrlpid_ld(LD) of
- CtrlPid -> % It is from our control component.
- NewRTStates=set_unavailable_rtstates(Node,get_rtstates_ld(LD)),
- NewACTstorage=del_node_actstorage(Node,get_actstorage_ld(LD)),
- {noreply,put_actstorage_ld(NewACTstorage,put_rtstates_ld(NewRTStates,LD))};
- _ ->
- {noreply,LD}
- end;
-handle_info(_,LD) ->
- {noreply,LD}.
-%% ------------------------------------------------------------------------------
-
-%% In terminate we cancel our subscription to event from the trace control component.
-%% That should actually not be necessary, but lets do it the correct way!
-terminate(_,LD) ->
- case get_ctrlnode_ld(LD) of
- void -> % Non-distributed.
- inviso:unsubscribe();
- Node ->
- inviso_tool_lib:inviso_cmd(Node,unsubscribe,[])
- end.
-%% ------------------------------------------------------------------------------
-
-
-
-%% ==============================================================================
-%% First level help functions to call-backs.
-%% ==============================================================================
-
-%% ------------------------------------------------------------------------------
-%% Help functions to init.
-%% ------------------------------------------------------------------------------
-
-%% Help function which find out the state/status of the runtime components.
-%% Note that since we have just started subscribe to state changes we must
-%% check our inqueue to see that we have no waiting messages for the nodes
-%% we learned the state/status of. If there is a waiting message we don't
-%% know whether that was a state change received before or after the state
-%% check was done. We will then redo the state-check.
-%% Returns {ok,States} or {error,Reason}.
-%% Where States is [{Node,{State,Status},Opts},...].
-%% Note that {error,Reason} can not occur in the non-distributed case.
-init_rtcomponent_states(NodeParams,void,CtrlPid,Nodes) -> % The non-distributed case.
- ok=inviso:subscribe(),
- init_rtcomponent_states_2(NodeParams,void,CtrlPid,Nodes,[]);
-init_rtcomponent_states(NodeParams,CtrlNode,CtrlPid,Nodes) ->
- ok=inviso_tool_lib:inviso_cmd(CtrlNode,subscribe,[]),
- init_rtcomponent_states_2(NodeParams,CtrlNode,CtrlPid,Nodes,[]).
-
-init_rtcomponent_states_2(_,_,_,[],States) ->
- {ok,States};
-init_rtcomponent_states_2(NodeParams,void,CtrlPid,_Nodes,States) ->
- case inviso:get_status() of
- {ok,StateStatus} -> % Got its state/status, now...
- {ProblemNodes,NewStates}=
- init_rtcomponent_states_3(NodeParams,CtrlPid,[{?LOCAL_RUNTIME,{ok,StateStatus}}],
- [],States),
- init_rtcomponent_states_2(NodeParams,void,CtrlPid,ProblemNodes,NewStates);
- {error,_Reason} -> % The runtime is not available!?
- {ok,[{?LOCAL_RUNTIME,unavailable,[]}]} % Create the return value immediately.
- end;
-init_rtcomponent_states_2(NodeParams,CtrlNode,CtrlPid,Nodes,States) ->
- case inviso_tool_lib:inviso_cmd(CtrlNode,get_status,[Nodes]) of
- {ok,NodeResult} ->
- {ProblemNodes,NewStates}=
- init_rtcomponent_states_3(NodeParams,CtrlPid,NodeResult,[],States),
- init_rtcomponent_states_2(NodeParams,CtrlNode,CtrlPid,ProblemNodes,NewStates);
- {error,Reason} -> % Severe problem, abort the session.
- {error,{get_status,Reason}}
- end.
-
-%% Traverses the list of returnvalues and checks that we do not have an event
-%% waiting in the message queue. If we do have, it is a problem. That node will
-%% be asked about its state again.
-%% Note that it is here we construct the RTStatesList.
-init_rtcomponent_states_3(NodeParams,CtrlPid,[{Node,{ok,{State,Status}}}|Rest],Problems,States) ->
- receive
- {trace_event,CtrlPid,_Time,{state_change,Node,_}} ->
- init_rtcomponent_states_3(NodeParams,CtrlPid,Rest,[Node|Problems],States)
- after
- 0 -> % Not in msg queue, then we're safe!
- RTState=case lists:keysearch(Node,1,NodeParams) of
- {value,{_Node,_TracerData,Opts}} ->
- {Node,{State,Status},Opts};
- _ -> % No option available, use [].
- {Node,{State,Status},[]}
- end,
- init_rtcomponent_states_3(NodeParams,CtrlPid,Rest,Problems,[RTState|States])
- end;
-init_rtcomponent_states_3(NodeParams,CtrlPid,[{Node,{error,_Reason}}|Rest],Problems,States) ->
- RTState=case lists:keysearch(Node,1,NodeParams) of
- {value,{_Node,_TracerData,Opts}} ->
- {Node,unavailable,Opts};
- _ -> % No option available, use [].
- {Node,unavailable,[]}
- end,
- init_rtcomponent_states_3(NodeParams,CtrlPid,Rest,Problems,[RTState|States]);
-init_rtcomponent_states_3(_,_,[],Problems,States) ->
- {Problems,States}.
-%% ------------------------------------------------------------------------------
-
-%% Help function removing nodes from NodeParams. The reason for this can either
-%% be that we are using a tool internal tracerdata that shall not be forwarded to
-%% the trace control component, or that the node is actually already part of
-%% another session.
-%% Returns {NewNodeParams,NodesWhichShallNotBeInitiated}.
-remove_nodeparams(Nodes,NodesParams) ->
- remove_nodeparams_2(Nodes,NodesParams,[],[]).
-
-remove_nodeparams_2(Nodes,[NodeParam|Rest],NPAcc,NAcc) when % NPAcc=NodeParamsAcc.
- (is_tuple(NodeParam) and ((size(NodeParam)==2) or (size(NodeParam)==3))) ->
- Node=element(1,NodeParam),
- Params=element(2,NodeParam), % This is tracerdata!
- case lists:member(Node,Nodes) of
- true -> % Remove this one, in another session.
- remove_nodeparams_2(Nodes,Rest,NPAcc,NAcc);
- false -> % Ok so far...
- case is_tool_internal_tracerdata(Params) of
- false -> % Then keep it and use it later!
- remove_nodeparams_2(Nodes,Rest,[{Node,Params}|NPAcc],NAcc);
- true -> % Since it is, remove it from the list.
- remove_nodeparams_2(Nodes,Rest,NPAcc,[Node|NAcc])
- end
- end;
-remove_nodeparams_2(Nodes,[_|Rest],NPAcc,NAcc) -> % Faulty NodeParam, skip it!
- remove_nodeparams_2(Nodes,Rest,NPAcc,NAcc);
-remove_nodeparams_2(_,[],NPAcc,NAcc) ->
- {lists:reverse(NPAcc),NAcc}.
-%% ------------------------------------------------------------------------------
-
-%% Help function which adds both the nodes which were already part of another
-%% session and the nodes that we actually did not issue any init_tracing for.
-%% Returns a new Result list of [{Node,NodeResult},...].
-init_fix_resultnodes(NodesOtherSes,NodesNotInit,Result) ->
- NewResult=init_fix_resultnodes_2(NodesOtherSes,{error,in_other_session},Result),
- init_fix_resultnodes_2(NodesNotInit,ok,NewResult).
-
-init_fix_resultnodes_2([Node|Rest],NodeResult,Result) ->
- [{Node,NodeResult}|init_fix_resultnodes_2(Rest,NodeResult,Result)];
-init_fix_resultnodes_2([],_,Result) ->
- Result. % Append Result to the end of the list.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Help functions to reactivate.
-%% ------------------------------------------------------------------------------
-
-h_reactivate(CtrlNode,Nodes,ACTstorage) -> % Distributed case.
- case inviso_tool_lib:inviso_cmd(CtrlNode,cancel_suspension,[Nodes]) of
- {ok,CSuspResults} ->
- {GoodNodes,BadResults}= % Sort out nodes no longer suspended.
- lists:foldl(fun({Node,ok},{GoodNs,BadNs})->
- {[Node|GoodNs],BadNs};
- ({Node,{error,Reason}},{GoodNs,BadNs})->
- {GoodNs,[{Node,{error,{cancel_suspension,Reason}}}|BadNs]}
- end,
- {[],[]},
- CSuspResults),
- Results=h_reactivate_redo_activity(CtrlNode,GoodNodes,ACTstorage,[]),
- {ok,BadResults++Results};
- {error,Reason} -> % General failure cancelling suspend.
- {error,{cancel_suspension,Reason}}
- end.
-%% ------------------------------------------------------------------------------
-
-%% Help function which traverses the list of nodes known to be ours and have
-%% cancelled their suspend. If we fail redoing one of the activities associated
-%% with a node, the node will be reported in the return value as failed. From
-%% that point on its state must be considered unknown since we do not know how
-%% many of the activities were successfully redone.
-h_reactivate_redo_activity(CtrlNode,[Node|Rest],ACTstorage,Acc) ->
- case get_activities_actstorage(Node,ACTstorage) of
- {ok,Activities} -> % The node existed in activity storage.
- {Good,Bad}=h_reactivate_redo_activity_2(CtrlNode,Node,Activities,0,0),
- h_reactivate_redo_activity(CtrlNode,Rest,ACTstorage,[{Node,{Good,Bad}}|Acc]);
- false -> % Node not present in activity storage.
- h_reactivate_redo_activity(CtrlNode,Rest,ACTstorage,[{Node,{0,0}}|Acc])
- end;
-h_reactivate_redo_activity(_CtrlNode,[],_,Acc) ->
- lists:reverse(Acc).
-
-%% Help function actually redoing the activity. Note that there must be one
-%% clause here for every type of activity.
-%% Returns {NrGoodCmds,NrBadCmds}.
-%% The number of good or bad commands refers to inviso commands done. If any
-%% of the subparts of such a command returned an error, the command is concidered
-%% no good.
-h_reactivate_redo_activity_2(CtrlNode,Node,[{tf,{Op,TraceConfList}}|Rest],Good,Bad) ->
- case inviso_tool_lib:inviso_cmd(CtrlNode,Op,[[Node],TraceConfList]) of
- {ok,[{_Node,{ok,Answers}}]} ->
- case h_reactivate_redo_activity_check_tf(Answers) of
- ok ->
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good+1,Bad);
- error -> % At least oneReports the first encountered error.
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1)
- end;
- {ok,[{_Node,{error,_Reason}}]} ->
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1);
- {error,_Reason} -> % General error when doing cmd.
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1)
- end;
-h_reactivate_redo_activity_2(CtrlNode,Node,[{tpm,{Op,InvisoCmdParams}}|Rest],Good,Bad) ->
- case inviso_tool_lib:inviso_cmd(CtrlNode,Op,[[Node]|InvisoCmdParams]) of
- {ok,[{_Node,ok}]} ->
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good+1,Bad);
- {ok,[{_Node,{error,_Reason}}]} ->
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1);
- {error,_Reason} -> % General error when doing cmd.
- h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1)
- end;
-h_reactivate_redo_activity_2(_CtrlNode,_Node,[],Good,Bad) ->
- {Good,Bad}.
-
-%% Help function traversing a list of results from inviso:tf/2 or inviso:ctf/2
-%% to see if there were any errors.
-h_reactivate_redo_activity_check_tf([N|Rest]) when integer(N) ->
- h_reactivate_redo_activity_check_tf(Rest);
-h_reactivate_redo_activity_check_tf([{error,_Reason}|_]) ->
- error;
-h_reactivate_redo_activity_check_tf([]) ->
- ok.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Help functions to tp (setting trace patterns, both local and global).
-%% ------------------------------------------------------------------------------
-
-%% Help function which handles both tpl and tp. Note that the non-distributed case
-%% handled with Nodes='all'.
-%% Returns what shall be the reply to the client.
-h_tp(all,PatternFunc,Mod,F,A,MS,Opts,LD) -> % All available runtime nodes.
- Nodes=get_all_available_nodes_rtstates(get_rtstates_ld(LD)),
- h_tp(Nodes,PatternFunc,Mod,F,A,MS,Opts,LD);
-h_tp(Nodes,PatternFunc,Mod,F,A,MS,Opts,LD) -> % Only certain nodes in the session.
- CtrlNode=get_ctrlnode_ld(LD),
- Dbg=get_dbg_ld(LD),
- SafetyCatches=get_safetycatches_ld(LD),
- case inviso_tool_lib:expand_module_names(Nodes,Mod,Opts) of % Take care of any reg-exps.
- {multinode_expansion,NodeMods} ->
- NodeTPs=inviso_tool_lib:make_patterns(SafetyCatches,Opts,Dbg,NodeMods,F,A,MS),
- h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,NodeTPs,[]);
- {singlenode_expansion,Modules} ->
- TPs=inviso_tool_lib:make_patterns(SafetyCatches,Opts,Dbg,Modules,F,A,MS),
- h_tp_do_tps(CtrlNode,Nodes,TPs,PatternFunc,Dbg);
- module ->
- TPs=inviso_tool_lib:make_patterns(SafetyCatches,Opts,Dbg,[Mod],F,A,MS),
- h_tp_do_tps(CtrlNode,Nodes,TPs,PatternFunc,Dbg);
- wildcard -> % Means do for all modules, no safety.
- h_tp_do_tps(CtrlNode,Nodes,[{Mod,F,A,MS}],PatternFunc,Dbg);
- {error,Reason} ->
- {error,Reason}
- end.
-
-%% Note that this function can never be called in the non-distributed case.
-h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,[{Node,TPs}|Rest],Accum) ->
- case h_tp_do_tps(CtrlNode,[Node],TPs,PatternFunc,Dbg) of
- {ok,[{Node,Result}]} ->
- h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,Rest,[{Node,Result}|Accum]);
- {error,Reason} -> % Failure, but don't stop.
- h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,Rest,[{Node,{error,Reason}}|Accum])
- end;
-h_tp_node_by_node(_,_,_,[],Accum) ->
- {ok,lists:reverse(Accum)}.
-
-%% Help function which does the actual call to the trace control component.
-%% Note that Nodes can be a list of nodes (including a single one) or
-%% ?LOCAL_RUNTIME if we are not distributed. The non-distributed case is otherwise
-%% detected by the 'void' CtrlNode.
-%% Returns {ok,[{Node,{ok,{NrOfFunctions,NrOfErrors}}},{Node,{error,Reason}},...]} or
-%% {error,Reason}. In the non-distributed case {ok,{NrOfFunctions,NrOfErros}} or
-%% {error,Reason}.
-h_tp_do_tps(void,_Nodes,TPs,PatternFunc,Dbg) -> % Non distributed case!
- inviso_tool_lib:debug(tp,Dbg,[TPs,PatternFunc]),
- case inviso:PatternFunc(TPs) of
- {ok,Result} -> % A list of [Nr1,Nr2,error,...].
- {ok,
- lists:foldl(fun(N,{AccNr,AccErr}) when integer(N) ->
- {AccNr+N,AccErr};
- (error,{AccNr,AccErr}) ->
- {AccNr,AccErr+1}
- end,
- {0,0},
- Result)};
- {error,Reason} ->
- {error,{PatternFunc,Reason}}
- end;
-h_tp_do_tps(CtrlNode,Nodes,TPs,PatternFunc,Dbg) ->
- inviso_tool_lib:debug(tp,Dbg,[Nodes,TPs,PatternFunc]),
- case inviso_tool_lib:inviso_cmd(CtrlNode,PatternFunc,[Nodes,TPs]) of
- {ok,Result} -> % Result is [{Node,Result},...].
- {ok,
- lists:map(fun({Node,{ok,Res}})->
- {Node,lists:foldl(fun(N,{ok,{AccNr,AccErr}}) when integer(N) ->
- {ok,{AccNr+N,AccErr}};
- (error,{AccNr,AccErr}) ->
- {ok,{AccNr,AccErr+1}}
- end,
- {ok,{0,0}},
- Res)};
- ({_Node,{error,Reason}})->
- {error,Reason}
- end,
- Result)};
- {error,Reason} ->
- {error,{PatternFunc,Reason}}
- end.
-%% ------------------------------------------------------------------------------
-
-%% ------------------------------------------------------------------------------
-%% Help functions for removing trace-patterns.
-%% ------------------------------------------------------------------------------
-
-%% NOT IMPLEMENTED YET.
-h_ctp(Node,PatternFunc,Mod,F,A,LD) ->
- tbd.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Help functions for calling the trace information facility.
-%% ------------------------------------------------------------------------------
-
-
-%% Function handling the meta trace pattern for capturing registration of local
-%% process names.
-h_tpm_localnames(CtrlNode,Nodes,RTStates,ACTstorage) ->
- AvailableNodes=get_all_available_nodes_rtstates(RTStates),
- {Nodes3,FaultyNodes}=remove_nodes_not_ours(Nodes,AvailableNodes),
- case inviso_tool_lib:inviso_cmd(CtrlNode,tpm_localnames,[Nodes3]) of
- {ok,Result} -> % That good we want to modify tpmstorage!
- NewACTstorage=add_tpm_actstorage(Result,tpm_localnames,[],ACTstorage),
- ErrorResult=lists:map(fun(N)->{N,{error,not_available}} end,FaultyNodes),
- {{ok,ErrorResult++Result},NewACTstorage};
- {error,Reason} -> % If general failure, do not modify storage.
- {{error,Reason},ACTstorage}
- end.
-%% ------------------------------------------------------------------------------
-
-%% Functions calling meta trace functions for specified nodes. This function is
-%% intended for use with all tmp function calls, init_tpm,tpm,tpm_ms,ctpm_ms and
-%% ctpm.
-%% Note that we must store called meta trace functions and their parameters in the
-%% activity storage in order to be able to redo them in case of a reactivate.
-h_all_tpm(CtrlNode,Nodes,TpmCmd,InvisoCmdParams,RTStates,ACTstorage) ->
- AvailableNodes=get_all_available_nodes_rtstates(RTStates),
- {Nodes3,FaultyNodes}=remove_nodes_not_ours(Nodes,AvailableNodes),
- case inviso_tool_lib:inviso_cmd(CtrlNode,TpmCmd,[Nodes3|InvisoCmdParams]) of
- {ok,Result} -> % That good we want to modify tpmstorage!
- NewACTstorage=add_tpm_actstorage(Result,TpmCmd,InvisoCmdParams,ACTstorage),
- ErrorResult=lists:map(fun(N)->{N,{error,not_available}} end,FaultyNodes),
- {{ok,ErrorResult++Result},NewACTstorage};
- {error,Reason} -> % If general failure, do not modify storage.
- {{error,Reason},ACTstorage}
- end.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Help functions for set trace flags.
-%% ------------------------------------------------------------------------------
-
-%% Help function which sets the tracepatterns in TraceConfList for all nodes
-%% mentioned in Nodes. Note that non-distributed case is handled with Nodes='all'.
-%% Returns {Reply,NewACTstorage} where Reply is whatever shall be returned to caller
-%% and NewACTstorage is traceflag storage modified with the flags added to the
-%% corresponding nodes.
-h_tf(void,_Nodes,TraceConfList,ACTstorage,_RTStates) -> % The non-distributed case.
- Reply=inviso:tf(TraceConfList),
- NewACTstorage=add_tf_actstorage([{?LOCAL_RUNTIME,Reply}],tf,TraceConfList,ACTstorage),
- {Reply,NewACTstorage};
-h_tf(CtrlNode,all,TraceConfList,ACTstorage,RTStates) ->
- AllNodes=get_all_session_nodes_rtstates(RTStates),
- h_tf(CtrlNode,AllNodes,TraceConfList,ACTstorage,RTStates);
-h_tf(CtrlNode,Nodes,TraceConfList,ACTstorage,_RTStates) ->
- case inviso_tool_lib:inviso_cmd(CtrlNode,tf,[Nodes,TraceConfList]) of
- {ok,Result} -> % That good we want to modify actstorage!
- NewACTstorage=add_tf_actstorage(Result,tf,TraceConfList,ACTstorage),
- {{ok,Result},NewACTstorage};
- {error,Reason} -> % If general failure, do not modify actstorage.
- {{error,Reason},ACTstorage}
- end.
-%% ------------------------------------------------------------------------------
-
-%% ------------------------------------------------------------------------------
-%% Help functions to stop_session.
-%% ------------------------------------------------------------------------------
-
-%% This function fetches all local log-files using our stored tracerdata. Note
-%% that there are two major ways of tranfering logfiles. Either via distributed
-%% Erlang or by common filesystem (like NFS). The default is distributed Erlang.
-%% But there may be info in the RTStates structure about a common file-system.
-%% Returns {FailedNodes,FetchedFileNames} where FailedNodes is a list of
-%% nodenames where problems occurred. Note that problems does not necessarily
-%% mean that no files were copied.
-%% FetchedFileNames contains one or two of the tuples {trace_log,Files} and/or
-%% {ti_log,Files}, listing all files successfully fetched. Note that the
-%% list of fetched files contains sublists of filenames. One for each node and
-%% tracerdata.
-%% In the non-distributed system we always use copy (since the files always
-%% resides locally).
-transfer_logfiles(RTStates,CtrlNode,Dir,Prefix,TRDstorage,Dbg,AvailableNodes) ->
- if
- CtrlNode==void -> % When non-distributed, always copy!
- fetch_logfiles_copy(CtrlNode,Dir,Prefix,TRDstorage,Dbg,[?LOCAL_RUNTIME]);
- true -> % The distributed case.
- {FetchNodes,CopyNodes}=find_logfile_transfer_methods(AvailableNodes,RTStates),
- {FailedFetchNodes,FetchedFiles}=
- case fetch_logfiles_distributed(CtrlNode,Dir,Prefix,TRDstorage,Dbg,FetchNodes) of
- {ok,Failed,Files} -> % So far no disasters.
- {Failed,Files};
- {error,Reason} -> % Means all fetch-nodes failed!
- inviso_tool_lib:debug(transfer_logfiles,Dbg,[FetchNodes,Reason]),
- {lists:map(fun(N)->{N,error} end,FetchNodes),[]}
- end,
- {FailedCopyNodes,CopiedFiles}=
- fetch_logfiles_copy(CtrlNode,Dir,Prefix,TRDstorage,Dbg,CopyNodes),
- {FailedFetchNodes++FailedCopyNodes,FetchedFiles++CopiedFiles}
- end.
-
-%% Help function which finds out which node we have a common file system with
-%% and from which we must make distributed erlang tranfere.
-%% Returns {DistributedNodes,CopyNodes} where CopyNode is [{Node,CopyFromDir},...].
-find_logfile_transfer_methods(Nodes,RTStates) ->
- find_logfile_transfer_methods_2(Nodes,RTStates,[],[]).
-
-find_logfile_transfer_methods_2([Node|Rest],RTStates,FetchAcc,CopyAcc) ->
- {ok,Opts}=get_opts_rtstates(Node,RTStates), % Node must be in RTStates!
- case lists:keysearch(?COPY_LOG_FROM,1,Opts) of
- {value,{_,FromDir}} when list(FromDir) -> % Node has common filesystem.
- find_logfile_transfer_methods_2(Rest,RTStates,FetchAcc,[{Node,FromDir}|CopyAcc]);
- {value,_} -> % Can't understand dir option.
- find_logfile_transfer_methods_2(Rest,RTStates,[Node|FetchAcc],CopyAcc);
- false -> % Then we want to use fetch instead.
- find_logfile_transfer_methods_2(Rest,RTStates,[Node|FetchAcc],CopyAcc)
- end;
-find_logfile_transfer_methods_2([],_,FetchAcc,CopyAcc) ->
- {FetchAcc,CopyAcc}.
-%% ------------------------------------------------------------------------------
-
-%% Help function which transferes all local logfiles according to the tracerdata
-%% stored for the nodes in Nodes.
-%% Returns {ok,FailedNodes,FileNodeSpecs} or {error,Reason}.
-%% FailedNodes is a list of nodes where fetching logs did not succeed, partially
-%% or not at all.
-%% FileNames is a list of list of actually fetched files (the name as it is here, including
-%% Dir). The sublists are files which belong together.
-fetch_logfiles_distributed(CtrlNode,Dir,Prefix,TRDstorage,Dbg,Nodes) ->
- LogSpecList=build_logspeclist(Nodes,TRDstorage),
- case inviso_fetch_log(inviso_tool_lib:inviso_cmd(CtrlNode,
- fetch_log,
- [LogSpecList,Dir,Prefix])) of
- {ok,Result} ->
- Files=get_all_filenames_fetchlog_result(Result,Dbg),
- FailedNodes=get_all_failednodes_fetchlog_result(Result),
- {ok,FailedNodes,Files};
- {error,Reason} -> % Some general failure!
- {error,{fetch_log,Reason}}
- end.
-
-%% Help function which constructs a list {Node,TracerData} for all nodes in Nodes.
-%% Note that there may be more than one tracerdata for a node, resulting in multiple
-%% tuples for that node.
-build_logspeclist(Nodes,TRDstorage) ->
- build_logspeclist_2(Nodes,TRDstorage,[]).
-
-build_logspeclist_2([Node|Rest],TRDstorage,Acc) ->
- TRDlist=find_tracerdata_for_node_trd(Node,TRDstorage), % A list of all tracerdata.
- build_logspeclist_2(Rest,
- TRDstorage,
- [lists:map(fun(TRD)->{Node,TRD} end,TRDlist)|Acc]);
-build_logspeclist_2([],_,Acc) ->
- lists:flatten(Acc).
-
-%% Help function which translates inviso:fetch_log return values to what I
-%% want!
-inviso_fetch_log({error,Reason}) ->
- {error,Reason};
-inviso_fetch_log({_Success,ResultList}) ->
- {ok,ResultList}.
-
-%% Help function which collects all filenames mentioned in a noderesult structure.
-%% The files may or may not be complete.
-%% Returns a list of list of filenames. Each sublist contains files which belong
-%% together, i.e because they are a wrap-set.
-get_all_filenames_fetchlog_result(NodeResult,Dbg) ->
- get_all_filenames_fetchlog_result_2(NodeResult,Dbg,[]).
-
-get_all_filenames_fetchlog_result_2([{Node,{Success,FileInfo}}|Rest],Dbg,Accum)
- when Success=/=error, list(FileInfo) ->
- SubAccum=get_all_filenames_fetchlog_result_3(FileInfo,[]),
- get_all_filenames_fetchlog_result_2(Rest,Dbg,[{Node,SubAccum}|Accum]);
-get_all_filenames_fetchlog_result_2([{Node,{error,FReason}}|Rest],Dbg,Accum) ->
- inviso_tool_lib:debug(fetch_files,Dbg,[Node,FReason]),
- get_all_filenames_fetchlog_result_2(Rest,Dbg,Accum);
-get_all_filenames_fetchlog_result_2([],_Dbg,Accum) ->
- Accum.
-
-get_all_filenames_fetchlog_result_3([{FType,Files}|Rest],SubAccum) ->
- FilesOnly=lists:foldl(fun({ok,FName},Acc)->[FName|Acc];(_,Acc)->Acc end,[],Files),
- get_all_filenames_fetchlog_result_3(Rest,[{FType,FilesOnly}|SubAccum]);
-get_all_filenames_fetchlog_result_3([],SubAccum) ->
- SubAccum.
-
-%% Help function which traverses a noderesult and builds a list as return
-%% value containing the nodenames of all nodes not being complete.
-%% Note that a node may occur multiple times since may have fetched logfiles
-%% for several tracerdata from the same node. Makes sure the list contains
-%% unique node names.
-%% Returns a list nodes.
-get_all_failednodes_fetchlog_result(NodeResult) ->
- get_all_failednodes_fetchlog_result_2(NodeResult,[]).
-
-get_all_failednodes_fetchlog_result_2([{_Node,{complete,_}}|Rest],Acc) ->
- get_all_failednodes_fetchlog_result_2(Rest,Acc);
-get_all_failednodes_fetchlog_result_2([{Node,{_Severity,_}}|Rest],Acc) ->
- case lists:member(Node,Acc) of
- true -> % Already in the list.
- get_all_failednodes_fetchlog_result_2(Rest,Acc);
- false -> % Not in Acc, add it!
- get_all_failednodes_fetchlog_result_2(Rest,[Node|Acc])
- end;
-get_all_failednodes_fetchlog_result_2([],Acc) ->
- Acc.
-%% ------------------------------------------------------------------------------
-
-%% Help function which copies files from one location to Dir and at the same time
-%% adds the Prefix to the filename. NodeSpecs contains full path to the files. The
-%% reason the node information is still part of NodeSpecs is that otherwise we can
-%% not report faulty nodes. Note that one node may occur multiple times since there
-%% may be more than one tracerdata for a node.
-%% Returns {FailedNodes,Files} where FailedNodes is a list of nodes where problems
-%% occurred. Files is a tuple list of [{Node,[{FType,FileNames},...]},...].
-fetch_logfiles_copy(CtrlNode,Dir,Prefix,TRDstorage,Dbg,NodeSpecs) ->
- CopySpecList=build_copylist(CtrlNode,Dbg,NodeSpecs,TRDstorage),
- fetch_logfiles_copy_2(Dir,Prefix,Dbg,CopySpecList,[],[]).
-
-fetch_logfiles_copy_2(Dir,Prefix,Dbg,[{Node,CopySpecs}|Rest],FailedNodes,Files) ->
- case fetch_logfiles_copy_3(Dir,Prefix,Dbg,CopySpecs,[],0) of
- {0,LocalFiles} -> % Copy went ok and zero errors.
- fetch_logfiles_copy_2(Dir,Prefix,Dbg,Rest,FailedNodes,[{Node,LocalFiles}|Files]);
- {_N,LocalFiles} -> % Copied files, but some went wrong.
- case lists:member(Node,FailedNodes) of
- true -> % Node already in FailedNodes.
- fetch_logfiles_copy_2(Dir,Prefix,Dbg,Rest,FailedNodes,
- [{Node,LocalFiles}|Files]);
- false -> % Node not marked as failed, yet.
- fetch_logfiles_copy_2(Dir,Prefix,Dbg,Rest,[Node|FailedNodes],
- [{Node,LocalFiles}|Files])
- end
- end;
-fetch_logfiles_copy_2(_,_,_,[],FailedNodes,Files) ->
- {FailedNodes,Files}. % The return value from fetch_logfiles_copy.
-
-fetch_logfiles_copy_3(Dir,Prefix,Dbg,[{FType,RemoteFiles}|Rest],Results,Errors) ->
- {Err,LocalFiles}=fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,RemoteFiles,[],0),
- fetch_logfiles_copy_3(Dir,Prefix,Dbg,Rest,[{FType,LocalFiles}|Results],Errors+Err);
-fetch_logfiles_copy_3(_,_,_,[],Results,Errors) ->
- {Errors,Results}.
-
-%% For each file of one file-type (e.g. trace_log).
-fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,[File|Rest],LocalFiles,Errors) ->
- DestName=Prefix++filename:basename(File),
- Destination=filename:join(Dir,DestName),
- case do_copy_file(File,Destination) of
- ok ->
- fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,Rest,[DestName|LocalFiles],Errors);
- {error,Reason} ->
- inviso_tool_lib:debug(copy_files,Dbg,[File,Destination,Reason]),
- fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,Rest,LocalFiles,Errors+1)
- end;
-fetch_logfiles_copy_3_1(_,_,_,[],LocalFiles,Errors) ->
- {Errors,LocalFiles}.
-
-%% Help function which builds a [{Node,[{Type,[ListOfRemoteFiles]}},...}]
-%% where Type describes trace_log or ti_log and each entry in ListOfRemoteFiles
-%% is a complete path to a file to be copied.
-build_copylist(CtrlNode,Dbg,NodeSpecList,TRDstorage) ->
- build_copylist_2(CtrlNode,Dbg,NodeSpecList,TRDstorage,[]).
-
-%% For each node specified in the NodeSpecList.
-build_copylist_2(CtrlNode,Dbg,[{Node,SourceDir}|Rest],TRDstorage,Acc) ->
- TRDlist=find_tracerdata_for_node_trd(Node,TRDstorage),
- CopySpecList=build_copylist_3(CtrlNode,Dbg,SourceDir,Node,TRDlist),
- build_copylist_2(CtrlNode,Dbg,Rest,TRDstorage,[CopySpecList|Acc]);
-build_copylist_2(_,_,[],_,Acc) ->
- lists:flatten(Acc).
-
-%% For each tracerdata found for the node.
-build_copylist_3(void,Dbg,SourceDir,Node,[TRD|Rest]) -> % The non-distributed case.
- case inviso:list_logs(TRD) of
- {ok,FileSpec} when list(FileSpec) -> % [{trace_log,Dir,Files},...]
- NewFileSpec=build_copylist_4(SourceDir,FileSpec,[]),
- [{Node,NewFileSpec}|build_copylist_3(void,Dbg,SourceDir,Node,Rest)];
- {ok,no_log} -> % This tracedata not associated with any log.
- build_copylist_3(void,Dbg,SourceDir,Node,Rest);
- {error,Reason} ->
- inviso_tool_lib:debug(list_logs,Dbg,[Node,TRD,Reason]),
- build_copylist_3(void,Dbg,SourceDir,Node,Rest)
- end;
-build_copylist_3(CtrlNode,Dbg,SourceDir,Node,[TRD|Rest]) -> % The distributed case.
- case inviso_tool_lib:inviso_cmd(CtrlNode,list_logs,[[{Node,TRD}]]) of
- {ok,[{Node,{ok,FileSpec}}]} when list(FileSpec) ->
- NewFileSpec=build_copylist_4(SourceDir,FileSpec,[]),
- [{Node,NewFileSpec}|build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest)];
- {ok,[{Node,{ok,no_log}}]} -> % It relays to another node, no files!
- build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest);
- {ok,[{Node,{error,Reason}}]} ->
- inviso_tool_lib:debug(list_logs,Dbg,[Node,TRD,Reason]),
- build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest);
- {error,Reason} -> % Some general failure.
- inviso_tool_lib:debug(list_logs,Dbg,[Node,TRD,Reason]),
- build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest)
- end;
-build_copylist_3(_,_,_,_,[]) ->
- [].
-
-%% Help function which makes a [{Type,Files},...] list where each file in Files
-%% is with full path as found from our file-system.
-build_copylist_4(SourceDir,[{Type,_Dir,Files}|Rest],Accum) ->
- NewFiles=
- lists:foldl(fun(FName,LocalAcc)->[filename:join(SourceDir,FName)|LocalAcc] end,
- [],
- Files),
- build_copylist_4(SourceDir,Rest,[{Type,NewFiles}|Accum]);
-build_copylist_4(_,[],Accum) ->
- Accum.
-
-
-%% Help function which copies a file using os:cmd.
-%% Returns 'ok' or {error,Reason}.
-do_copy_file(Source,Destination) ->
- case os:type() of
- {win32,_} ->
- os:cmd("copy "++Source++" "++Destination), % Perhaps a test on success?
- ok;
- {unix,_} ->
- os:cmd("cp "++Source++" "++Destination), % Perhaps a test on success?
- ok
- end.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-
-%% ==============================================================================
-%% Various help functions.
-%% ==============================================================================
-
-%% Help function going through the Nodes list and checking that only nodes
-%% mentioned in OurNodes gets returned. It also makes the nodes in the return
-%% value unique.
-remove_nodes_not_ours(Nodes,OurNodes) ->
- remove_nodes_not_ours_2(Nodes,OurNodes,[],[]).
-
-remove_nodes_not_ours_2([Node|Rest],OurNodes,OurAcc,OtherAcc) ->
- case lists:member(Node,OurNodes) of
- true -> % Ok it is one of our nodes.
- case lists:member(Node,OurAcc) of
- true -> % Already in the list, skip.
- remove_nodes_not_ours_2(Rest,OurNodes,OurAcc,OtherAcc);
- false ->
- remove_nodes_not_ours_2(Rest,OurNodes,[Node|OurAcc],OtherAcc)
- end;
- false ->
- case lists:member(Node,OtherAcc) of
- true ->
- remove_nodes_not_ours_2(Rest,OurNodes,OurAcc,OtherAcc);
- false ->
- remove_nodes_not_ours_2(Rest,OurNodes,OurAcc,[Node|OtherAcc])
- end
- end;
-remove_nodes_not_ours_2([],_,OurAcc,OtherAcc) ->
- {lists:reverse(OurAcc),lists:reverse(OtherAcc)}.
-%% ------------------------------------------------------------------------------
-
-%% Help function which returns 'true' or 'false' depending on if TracerData is
-%% meant to be used by the session handler (true) or if it supposed to be passed
-%% on to the trace system.
-is_tool_internal_tracerdata(_) -> % CURRENTLY NO INTERNAL TRACER DATA!
- false.
-%% ------------------------------------------------------------------------------
-
-%% Help function which checks that all nodes in the first list of nodes exists
-%% in the second list of nodes. Returns 'true' or 'false'. The latter if as much
-%% as one incorrect node was found.
-check_our_nodes([Node|Rest],AllNodes) ->
- case lists:member(Node,AllNodes) of
- true ->
- check_our_nodes(Rest,AllNodes);
- false -> % Then we can stop right here.
- false
- end;
-check_our_nodes([],_) ->
- true.
-%% ------------------------------------------------------------------------------
-
-%% Help function which checks that a directory actually exists. Returns 'true' or
-%% 'false'.
-check_directory_exists(Dir) ->
- case file:read_file_info(Dir) of
- {ok,#file_info{type=directory}} ->
- true;
- _ -> % In all other cases it is not valid.
- false
- end.
-%% ------------------------------------------------------------------------------
-
-%% This function stops the tracing on all nodes in Nodes. Preferably Nodes is a list
-%% of only tracing runtime components. Not that there will actually be any difference
-%% since the return value does not reflect how stopping the nodes went.
-%% Returns 'ok' or {error,Reason}, the latter only in case of general failure.
-stop_all_tracing(void,Dbg,[?LOCAL_RUNTIME]) -> % The non-distributed case, and is tracing.
- case inviso:stop_tracing() of
- {ok,_State} ->
- ok;
- {error,Reason} -> % We actually don't care.
- inviso_tool_lib:debug(stop_tracing,Dbg,[?LOCAL_RUNTIME,Reason]),
- ok
- end;
-stop_all_tracing(void,_,_) -> % There is no local runtime started.
- ok;
-stop_all_tracing(CtrlNode,Dbg,Nodes) ->
- case inviso_tool_lib:inviso_cmd(CtrlNode,stop_tracing,[Nodes]) of
- {ok,Result} -> % The result is only used for debug.
- Failed=lists:foldl(fun({N,{error,Reason}},Acc)->[{N,{error,Reason}}|Acc];
- (_,Acc)->Acc
- end,
- [],
- Result),
- if
- Failed==[] ->
- ok;
- true ->
- inviso_tool_lib:debug(stop_tracing,Dbg,[Nodes,Failed]),
- ok
- end;
- {error,Reason} ->
- {error,{stop_tracing,Reason}}
- end.
-%% ------------------------------------------------------------------------------
-
-%% Help function removing all local logs using the tracerdata to determine what
-%% logs to remove from where.
-%% There is no significant return value since it is not really clear what to do
-%% if removal went wrong. The function can make debug-reports thought.
-remove_all_local_logs(CtrlNode,TRDstorage,Nodes,Dbg) ->
- LogSpecList=build_logspeclist_remove_logs(Nodes,TRDstorage),
- case inviso_tool_lib:inviso_cmd(CtrlNode,delete_log,[LogSpecList]) of
- {ok,Results} ->
- case look_for_errors_resultlist(Results) of
- [] -> % No errors found in the result!
- true;
- Errors ->
- inviso_tool_lib:debug(remove_all_local_logs,Dbg,[Errors]),
- true
- end;
- {error,Reason} -> % Some general error.
- inviso_tool_lib:debug(remove_all_local_logs,Dbg,[{error,Reason}]),
- true
- end.
-
-%% Help function which puts together a list of {Node,Tracerdata} tuples. Note that
-%% we must build one tuple for each tracerdata for one node.
-build_logspeclist_remove_logs(Nodes,TRDstorage) ->
- [{Node,TracerData}||Node<-Nodes,TracerData<-find_tracerdata_for_node_trd(Node,TRDstorage)].
-%% ------------------------------------------------------------------------------
-
-%% Help function which traverses a resultlist from an inviso function. Such are
-%% built up as [{Node,SubResults},...] where SubResult is a list of tuples for each
-%% file-type (e.g trace_log) {FType,FileList} where a FileList is either {error,Reason}
-%% or {ok,FileName}.
-%% Returns a list of {Node,[{error,Reason},...]}.
-look_for_errors_resultlist([{Node,{error,Reason}}|Rest]) ->
- [{Node,{error,Reason}}|look_for_errors_resultlist(Rest)];
-look_for_errors_resultlist([{Node,{ok,NResults}}|Rest]) when list(NResults) ->
- case look_for_errors_resultlist_2(NResults,[]) of
- [] ->
- look_for_errors_resultlist(Rest);
- Errors -> % A list of lists.
- [{Node,lists:flatten(Errors)}|look_for_errors_resultlist(Rest)]
- end;
-look_for_errors_resultlist([_|Rest]) ->
- look_for_errors_resultlist(Rest);
-look_for_errors_resultlist([]) ->
- [].
-
-look_for_errors_resultlist_2([{_FType,NSubResult}|Rest],Accum) ->
- case lists:filter(fun({error,_Reason})->true;(_)->false end,NSubResult) of
- [] -> % No errors for this node.
- look_for_errors_resultlist_2(Rest,Accum);
- Errors -> % A list of at least one error.
- look_for_errors_resultlist_2(Rest,[Errors|Accum])
- end;
-look_for_errors_resultlist_2([],Accum) ->
- Accum.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Functions working on the loopdata structure.
-%% Its main purpose is to store information about runtime components participating
-%% in the session and their current status.
-%% ------------------------------------------------------------------------------
-
--record(ld,{parent,
- ctrlnode,
- ctrlpid, % To where to send inviso cmd.
- rtstates,
- tracerdata,
- safetycatches,
- dbg,
- actstorage % Activity storage, for reactivate.
- }).
-
-%% Function creating the initial datastructure.
-%% The datastructure is [{Node,State},...].
-%%
-%% The tracerdata table is a bag simply for the reason that if we try to insert
-%% the same tracerdata for a node twice, we will end up with one tracerdata after
-%% all. This is useful when we insert tracerdata ourselves, the tracerdata will
-%% come as a state-change too.
-mk_ld(Parent,CtrlNode,CtrlPid,RTStates,NodeParams,OtherNodes,SafetyCatches,Dbg) ->
- TRDtableName=list_to_atom("inviso_tool_sh_trdstorage_"++pid_to_list(self())),
- TRDtid=ets:new(TRDtableName,[bag]),
- ACTtableName=list_to_atom("inviso_tool_sh_actstorage_"++pid_to_list(self())),
- ACTtid=ets:new(ACTtableName,[bag]),
- mk_ld_fill_tracerdata(CtrlNode,TRDtid,NodeParams,OtherNodes), % Fill the ETS table.
- #ld{parent=Parent, % The tool main process.
- ctrlnode=CtrlNode, % Node name where the control component is.
- ctrlpid=CtrlPid, % The process id of the control component.
- rtstates=RTStates, % All nodes and their state/status.
- tracerdata=TRDtid,
- safetycatches=SafetyCatches,
- dbg=Dbg,
- actstorage=ACTtid
- }.
-
-%% Help function which inserts tracer data for the nodes. Note that we can get
-%% tracer data either from the return value from init_tracing or by asking the
-%% node for it. The latter is necessary for the nodes which were marked not to
-%% be initiated by the session handler. This maybe because those nodes have
-%% autostarted.
-mk_ld_fill_tracerdata(CtrlNode,TId,NodeParams,OtherNodes) ->
- mk_ld_fill_tracerdata_nodeparams(TId,NodeParams),
- mk_ld_fill_tracerdata_othernodes(CtrlNode,TId,OtherNodes).
-
-mk_ld_fill_tracerdata_nodeparams(TId,[{Node,TracerData}|Rest]) ->
- ets:insert(TId,{Node,TracerData}),
- mk_ld_fill_tracerdata_nodeparams(TId,Rest);
-mk_ld_fill_tracerdata_nodeparams(_,[]) ->
- ok.
-
-mk_ld_fill_tracerdata_othernodes(_,_,[]) -> % Then not necessary to do anything.
- ok;
-mk_ld_fill_tracerdata_othernodes(void,TId,[Node]) -> % The non-distributed case.
- case inviso:get_tracerdata() of
- {error,_Reason} -> % Perhaps in state new or disconnected.
- ok; % Do nothing.
- {ok,TracerData} ->
- ets:insert(TId,{Node,TracerData})
- end;
-mk_ld_fill_tracerdata_othernodes(CtrlNode,TId,Nodes) ->
- case inviso_tool_lib:invisomd(CtrlNode,get_tracerdata,[Nodes]) of
- {ok,Results} ->
- mk_ld_fill_tracerdata_othernodes_2(TId,Results);
- {error,_Reason} -> % Strange, we will probably crash later.
- ok
- end.
-
-mk_ld_fill_tracerdata_othernodes_2(TId,[{_Node,{ok,no_tracerdata}}|Rest]) ->
- mk_ld_fill_tracerdata_othernodes_2(TId,Rest); % It was not initiated then!
-mk_ld_fill_tracerdata_othernodes_2(TId,[{Node,{ok,TracerData}}|Rest]) ->
- ets:insert(TId,{Node,TracerData}),
- mk_ld_fill_tracerdata_othernodes_2(TId,Rest);
-mk_ld_fill_tracerdata_othernodes_2(_,[]) ->
- ok.
-%% ------------------------------------------------------------------------------
-
-get_ctrlnode_ld(#ld{ctrlnode=CtrlNode}) ->
- CtrlNode.
-%% ------------------------------------------------------------------------------
-
-
-get_ctrlpid_ld(#ld{ctrlpid=CtrlPid}) ->
- CtrlPid.
-%% ------------------------------------------------------------------------------
-
-get_rtstates_ld(#ld{rtstates=RTStates}) ->
- RTStates.
-
-put_rtstates_ld(NewRTStates,LD) ->
- LD#ld{rtstates=NewRTStates}.
-%% ------------------------------------------------------------------------------
-
-get_trdstorage_ld(#ld{tracerdata=TId}) ->
- TId.
-
-put_trdstorage_ld(_NewTId,LD) ->
- LD.
-%% ------------------------------------------------------------------------------
-
-%% Help function which adds the current tracerdata of node Node to the tracerdata
-%% storage. We only want to add tracerdata we have not seen before. We therefore
-%% avoid adding it if the node already is in state ?TRACING.
-%% Returns a new tracerdata (what ever it is)!
-add_current_tracerdata_ld(CtrlNode,Node,RTStates,TId) ->
- case get_statestatus_rtstates(Node,RTStates) of
- {ok,{?TRACING,_}} -> % Then we have already added the tracerdata.
- TId; % Then do nothing.
- {ok,_} -> % Since we were not tracing before.
- case add_current_tracerdata_ld_fetchtracerdata(CtrlNode,Node) of
- {ok,TracerData} ->
- ets:insert(TId,{Node,TracerData});
- no_tracerdata -> % Strange, how could we become tracing
- ok;
- {error,_Reason} -> % The node perhaps disconnected!?
- ok
- end;
- false -> % Very strange, not our node!
- ok % Do nothing.
- end.
-
-add_current_tracerdata_ld_fetchtracerdata(void,_Node) ->
- case inviso:get_tracerdata() of
- {ok,TracerData} ->
- {ok,TracerData};
- {error,no_tracerdata} ->
- no_tracerdata;
- {error,Reason} ->
- {error,Reason}
- end;
-add_current_tracerdata_ld_fetchtracerdata(CtrlNode,Node) ->
- case inviso_tool_lib:inviso_cmd(CtrlNode,get_tracerdata,[[Node]]) of
- {ok,[{Node,{ok,TracerData}}]} ->
- {ok,TracerData};
- {ok,[{Node,{error,no_tracerdata}}]} ->
- no_tracerdata;
- {ok,[{Node,{error,Reason}}]} ->
- {error,Reason};
- {error,Reason} ->
- {error,Reason}
- end.
-%% ------------------------------------------------------------------------------
-
-
-get_safetycatches_ld(#ld{safetycatches=SCs}) ->
- SCs.
-%% ------------------------------------------------------------------------------
-
-get_dbg_ld(#ld{dbg=Dbg}) ->
- Dbg.
-%% ------------------------------------------------------------------------------
-
-get_actstorage_ld(#ld{actstorage=ACTstorage}) ->
- ACTstorage.
-
-put_actstorage_ld(_NewACTstorage,LD) ->
- LD.
-%% ------------------------------------------------------------------------------
-
-
-
-%% ------------------------------------------------------------------------------
-%% Functions working on the rtstates structure (which is a substructure of loopdata).
-%% It is either:
-%% [{Node,StateStatus,Opts},...]
-%% Node is either the node name of the runtime component erlang node or
-%% ?LOCAL_RUNTIME as returned from the trace control component.
-%% StateStatus is {State,Status}, 'unavailable' or 'unknown'.
-%% Status is the returnvalue from trace control component.
-%% i.e: running | {suspended,Reason}
-%% ------------------------------------------------------------------------------
-
-%% Function contructing an rtstates structure from a list of [{Node,StateStatus,Opts},...].
-to_rtstates(ListOfStates) when list(ListOfStates) ->
- ListOfStates.
-%% ------------------------------------------------------------------------------
-
-%% Function which takes a rtstates structure and returns a list of [{Node,StateStatus},...].
-from_rtstates(RTStates) ->
- RTStates.
-%% ------------------------------------------------------------------------------
-
-%% Function which takes an rtstates structure and a result as returned from
-%% init_tracing. The RTStates is modified for the nodes that changed state as a
-%% result of successful init_tracing.
-%% Returns a new RTStates.
-set_tracing_rtstates([E={Node,_StateStatus,Opts}|Rest],Result) ->
- case lists:keysearch(Node,1,Result) of
- {value,{_,ok}} -> % Means state-change to tracing!
- [{Node,{tracing,running},Opts}|set_tracing_rtstates(Rest,Result)];
- _ -> % Otherwise, leave it as is.
- [E|set_tracing_rtstates(Rest,Result)]
- end;
-set_tracing_rtstates([],_Result) ->
- [].
-%% ------------------------------------------------------------------------------
-
-%% Function updating the state/status for a certain runtime component.
-%% Returns a new RTStates structure. Note that Node must not necessarily be one
-%% of the nodes in the session. Meaning that Node shall not be added to RTStates
-%% should it not already be in there.
-statechange_rtstates(Node,State,Status,RTStates) when list(RTStates) ->
- case lists:keysearch(Node,1,RTStates) of
- {value,{_,_,Opts}} ->
- lists:keyreplace(Node,1,RTStates,{Node,{State,Status},Opts});
- _ -> % Then Node does not exist.
- RTStates % Just keep it as is, as keyreplace would have done.
- end.
-%% ------------------------------------------------------------------------------
-
-%% Function updating the state/status for a certain runtime component. The
-%% state/status is set to 'unavailable'.
-%% Returns a new RTStates structure.
-set_unavailable_rtstates(Node,RTStates) when list(RTStates) ->
- case lists:keysearch(Node,1,RTStates) of
- {value,{_,_,Opts}} ->
- lists:keyreplace(Node,1,RTStates,{Node,unavailable,Opts});
- _ -> % Then Node does not exist.
- RTStates % Just keep it as is, as keyreplace would have done.
- end.
-%% ------------------------------------------------------------------------------
-
-%% Function finding the statestatus associated with Node in the RTStates structure.
-%% Returns {ok,StateStatus} or 'false'.
-get_statestatus_rtstates(Node,RTStates) ->
- case lists:keysearch(Node,1,RTStates) of
- {value,{_,StateStatus,_}} ->
- {ok,StateStatus};
- false ->
- false
- end.
-%% ------------------------------------------------------------------------------
-
-%% Help function which returns a list of all nodes that are currently marked
-%% as available to us in the runtime state structure.
-get_all_available_nodes_rtstates(RTStates) ->
- get_all_session_nodes_rtstates(lists:filter(fun({_N,unavailable,_})->false;
- (_)->true
- end,
- RTStates)).
-%% ------------------------------------------------------------------------------
-
-%% Help function returning a list of all nodes belonging to this session.
-get_all_session_nodes_rtstates(RTStates) ->
- lists:map(fun({Node,_,_})->Node end,RTStates).
-%% ------------------------------------------------------------------------------
-
-%% Function which returns a list of nodes that are indicated as tracing in the
-%% RTStates structure.
-get_all_tracing_nodes_rtstates(RTStates) ->
- lists:map(fun({N,_,_})->N end,
- lists:filter(fun({_,{tracing,_},_})->true;(_)->false end,RTStates)).
-%% ------------------------------------------------------------------------------
-
-%% Returns the options associated with Node in the RTStates structure.
-get_opts_rtstates(Node,RTStates) ->
- case lists:keysearch(Node,1,RTStates) of
- {value,{_,_,Opts}} ->
- {ok,Opts};
- false ->
- false
- end.
-
-%% ------------------------------------------------------------------------------
-%% Functions working on the tracerdata structure, which is a part of the loopdata.
-%% The tracerdata structure is an ETS-table of type bag storing:
-%% {Node,TracerData}.
-%% Note that there can of course be multiple entries for a node.
-%% ------------------------------------------------------------------------------
-
-%% Help function which takes a tracerdata loopdata structure and returns a list
-%% of all stored tracerdata for a certain Node.
-find_tracerdata_for_node_trd(Node,TRD) ->
- case ets:lookup(TRD,Node) of
- Result when list(Result) ->
- lists:map(fun({_Node,TracerData})->TracerData end,Result);
- _ -> % Should probably never happend.
- []
- end.
-%% ------------------------------------------------------------------------------
-
-
-%% ------------------------------------------------------------------------------
-%% Functions working on the activity storage structure, which is part of the
-%% loopdata. It stores entries about things that needs to be "redone" in case
-%% of a reactivation of the node. The time order is also important.
-%% Note that for every ActivityType there must be a "handler" in the reactivation
-%% functionality.
-%%
-%% The structure is a bag of {Node,ActivityType,What}.
-%% ActivityType/What=tf/{Op,TraceConfList}|tpm/{Op,[Mod,Func,Arity,MS,CallFunc]}
-%% /{Op,[Mod,Func,Arity,MS,CallFunc,ReturnFunc]}
-%% /{Op,[]}
-%% TraceConfList=[{Proc,Flags},...]
-%% How=true|false
-%% ------------------------------------------------------------------------------
-
-%% Function that adds meta-pattern activities to the activity storage. Note
-%% that one of the parameters to the function is a return value from an
-%% inviso call. In that way we do not enter activities that were unsuccessful.
-%% Op can be either the setting or clearing of a meta pattern.
-%% Returns a new ACTstorage.
-add_tpm_actstorage([{Node,ok}|Rest],Op,InvisoCmdParams,ACTstorage) ->
- true=ets:insert(ACTstorage,{Node,tpm,{Op,InvisoCmdParams}}),
- add_tpm_actstorage(Rest,Op,InvisoCmdParams,ACTstorage);
-add_tpm_actstorage([_|Rest],Op,InvisoCmdParams,ACTstorage) ->
- add_tpm_actstorage(Rest,Op,InvisoCmdParams,ACTstorage);
-add_tpm_actstorage([],_,_,ACTstorage) ->
- ACTstorage.
-
-%% Function that adds process trace-flags to the activity storage. Note that one
-%% of the parameters is the return value from an inviso function. Meaning that
-%% if the flags failed in their entirety, no activity will be saved. If only
-%% some of the flags failed, we will not go through the effort of trying to find
-%% out exactly which.
-%% Returns a new activity storage structure.
-add_tf_actstorage([{_Node,{error,_Reason}}|Rest],Op,TraceConfList,ACTstorage) ->
- add_tf_actstorage(Rest,Op,TraceConfList,ACTstorage);
-add_tf_actstorage([{Node,_Result}|Rest],Op,TraceConfList,ACTstorage) ->
- true=ets:insert(ACTstorage,{Node,tf,{Op,TraceConfList}}),
- add_tf_actstorage(Rest,Op,TraceConfList,ACTstorage);
-add_tf_actstorage([],_,_,ACTstorage) ->
- ACTstorage.
-%% ------------------------------------------------------------------------------
-
-%% Finds all activities associated with Node. Returns a list of them in the
-%% same order as they were inserted.
-get_activities_actstorage(Node,ACTstorage) ->
- case ets:lookup(ACTstorage,Node) of
- [] ->
- false;
- Result when list(Result) ->
- {ok,lists:map(fun({_N,Type,What})->{Type,What} end,Result)}
- end.
-%% ------------------------------------------------------------------------------
-
-%% Function removing all activity entries associated with Node. This is useful
-%% if the Node disconnects for instance.
-del_node_actstorage(Node,ACTstorage) ->
- ets:delete(ACTstorage,Node),
- ACTstorage.
-%% ------------------------------------------------------------------------------
-
+%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2005-2011. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% Description: +%% The runtime component of the trace tool Inviso. +%% +%% Authors: +%% Lennart �hman, [email protected] +%% ----------------------------------------------------------------------------- + +-module(inviso_tool_sh). + +%% Inviso Session Handler. +%% This is the code for the session handler process. Its purpose is that we have +%% one session handler process for each trace session started through the +%% start_session inviso tool API. The session handler process is responsible for: +%% +%% -Knowing the state/status of all participating runtime components. +%% -Keeping storage of all tracerdata all our participants have used. This means +%% also to find out the tracerdata of runtime components connecting by them +%% selves. +%% +%% STORAGE STRATEGY +%% ---------------- +%% The local information storage can be changed by two things. Either by executing +%% commands issued through our APIs. Or by receiving trace_event from the control +%% component. When we execute commands, a corresponding event will also follow. +%% Meaning that in those situations we are informed twice. +%% A simple strategy could be to wait for the event even when doing the changes +%% to the runtime components our self (through commands). But that may result in +%% a small time frame where someone might do yet another command and failing +%% because the local information storage is not uptodate as it would have been +%% expected to be. Therefore we always update the local storage when making changes +%% to a runtime component our selves. There will eventually be a double update +%% through an incoming event. But the storage must coop with that, preventing +%% inconsitancies to happend. An example of a strategy is that the tracerdata table +%% is a bag, not allowing for double entries of the same kind. Therefore a double +%% update is harmless there. + +%% ------------------------------------------------------------------------------ +%% Module wide constants. +%% ------------------------------------------------------------------------------ +-define(LOCAL_RUNTIME,local_runtime). % Used as node name when non-disitrbuted. +-define(TRACING,tracing). % A state defined by the control component. +-define(RUNNING,running). % A status according to control componet. + +-define(COPY_LOG_FROM,copy_log_from). % Common fileystem option. +%% ------------------------------------------------------------------------------ + +%% ------------------------------------------------------------------------------ +%% API exports. +%% ------------------------------------------------------------------------------ +-export([start_link/5,start_link/8]). +-export([cancel_session/1,stop_session/3]). +-export([reactivate/1,reactivate/2]). +-export([ctpl/5,tpl/5,tpl/6,tpl/7, + tf/2,tf/3, + tpm_localnames/2,init_tpm/6,init_tpm/9,tpm/6,tpm/7,tpm/10, + tpm_ms/7,ctpm_ms/6,ctpm/5 + ]). +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Internal exports. +%% ------------------------------------------------------------------------------ +-export([init/1,handle_call/3,handle_info/2,terminate/2]). + +-export([get_loopdata/1]). +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Includes. +%% ------------------------------------------------------------------------------ +-include_lib("kernel/include/file.hrl"). % Necessary for file module. +%% ------------------------------------------------------------------------------ + + +%% ============================================================================== +%% Exported API functions. +%% ============================================================================== + +%% start_link(From,NodeParams,CtrlNode,CtrlPid,SafetyCatches,NodesIn,NodesNotIn) = +%% {ok,Pid} | {error,Reason} +%% From= pid(), the initial client expecting the reply. +%% NodeParams=[{Node,TracerData},{Node,TracerData,Opts}...] +%% CtrlNode=atom() | 'void', the node where the trace control component is. +%% CtrlPid=pid(), the pid of the trace control component. +%% SafetyCatches= +%% Dir=string(), where to place fetched logs and the merged log. +%% Dbg=debug structure. +%% NodesIn=[Node,...], list of nodes already in another session. +%% NodesNotIn=[Node,...], list of nodes not in another session. +%% +%% Starts a session-handler. It keeps track of the the state and status of all +%% participating runtime components. Note that there is a non-distributed case too. +%% In the non-distributed case there is no things such as CtrlNode. +start_link(From,TracerData,CtrlPid,SafetyCatches,Dbg) -> + gen_server:start_link(?MODULE, + {self(),From,TracerData,CtrlPid,SafetyCatches,Dbg}, + []). + +start_link(From,NodeParams,CtrlNode,CtrlPid,SafetyCatches,Dbg,NodesIn,NodesNotIn) -> + gen_server:start_link(?MODULE, + {self(),From,NodeParams,CtrlNode,CtrlPid, + SafetyCatches,Dbg,NodesIn,NodesNotIn}, + []). +%% ------------------------------------------------------------------------------ + +%% Stops tracing where it is ongoing. Fetches all logfiles. +stop_session(SID,Dir,Prefix) -> + gen_server:call(SID,{stop_session,Dir,Prefix}). +%% ------------------------------------------------------------------------------ + +%% stop_session(SID) = ok +%% +%% Cancels the session brutaly. All runtime components are made to stop tracing, +%% all local log files are removed using the tracerdata we know for them. +cancel_session(SID) -> + gen_server:call(SID,cancel_session). +%% ------------------------------------------------------------------------------ + +%% reactivate(SID) = {ok, +%% reactivate(SID,Nodes) = {ok,NodeResults} | {error,Reason}. +%% SID=session id, pid(). +%% Nodes=[Node,...] +%% NodeResult=[{Node,Result},...] +%% Result={Good,Bad} +%% Good,Bad=integer(), the number of redone activities. +%% +%% Function which reactivates runtime components being suspended. This is done +%% replaying all trace flags (in the correct order) to the corresponding nodes. +%% Note that this may also mean turning flags off. Like first turning them on +%% then off a split second later. +reactivate(SID) -> + gen_server:call(SID,reactivate). %% NOT IMPLEMENTED YET. +reactivate(SID,Nodes) -> + gen_server:call(SID,{reactivate,Nodes}). +%% ------------------------------------------------------------------------------ + + +%% tpl(SessionID,Mod,Func,Arity,MS)= +%% tpl(SessionID,Mod,Func,Arity,MS,Opts)={ok,N}|{error,Reason}. +%% tpl(SessionID,Nodes,Mod,Func,Arity,MS)= +%% tpl(SessionID,Nodes,Mod,Func,Arity,MS,Opts)={ok,Result}|{error,Reason} +%% Mod='_' | ModuleName | ModRegExp | {DirRegExp,ModRegExp} +%% ModRegExp=DirRegExp= string() +%% Func='_' | FunctionName +%% Arity='_' | integer() +%% MS=[] | false | a match specification +%% Opts=[Opts,...] +%% Opt={arg,Arg}, disable_safety, {expand_regexp_at,NodeName}, only_loaded +%% Nodes=[NodeName,...] +tpl(SID,Mod,Func,Arity,MS) -> + gen_server:call(SID,{tp,tpl,Mod,Func,Arity,MS,[]}). +tpl(SID,Mod,Func,Arity,MS,Opts) when list(MS);MS==true;MS==false -> + gen_server:call(SID,{tp,tpl,Mod,Func,Arity,MS,Opts}); +tpl(SID,Nodes,Mod,Func,Arity,MS) when integer(Arity);Arity=='_' -> + gen_server:call(SID,{tp,tpl,Nodes,Mod,Func,Arity,MS,[]}). +tpl(SID,Nodes,Mod,Func,Arity,MS,Opts) -> + gen_server:call(SID,{tp,tpl,Nodes,Mod,Func,Arity,MS,Opts}). +%% ------------------------------------------------------------------------------ + +%% ctpl(SessionID,Nodes,Mod,Func,Arity)= +%% See tpl/X for arguments. +%% +%% Removes local trace-patterns from functions. +ctpl(SID,Nodes,Mod,Func,Arity) -> + gen_server:call(SID,{ctp,ctpl,Nodes,Mod,Func,Arity}). +%% ------------------------------------------------------------------------------ + + +tpm_localnames(SID,Nodes) -> + gen_server:call(SID,{tpm_localnames,Nodes}). + +%% tpm_globalnames(SID,Nodes) -> +%% gen_server:call(SID,{tpm_globalnames,Nodes}). + +init_tpm(SID,Nodes,Mod,Func,Arity,CallFunc) -> + gen_server:call(SID,{init_tpm,Nodes,Mod,Func,Arity,CallFunc}). +init_tpm(SID,Nodes,Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc) -> + gen_server:call(SID, + {init_tpm,Nodes,Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc}). +tpm(SID,Nodes,Mod,Func,Arity,MS) -> + gen_server:call(SID,{tpm,Nodes,Mod,Func,Arity,MS}). +tpm(SID,Nodes,Mod,Func,Arity,MS,CallFunc) -> + gen_server:call(SID,{tpm,Nodes,Mod,Func,Arity,MS,CallFunc}). +tpm(SID,Nodes,Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc) -> + gen_server:call(SID,{tpm,Nodes,Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc}). + +tpm_ms(SID,Nodes,Mod,Func,Arity,MSname,MS) -> + gen_server:call(SID,{tpm_ms,Nodes,Mod,Func,Arity,MSname,MS}). + +ctpm_ms(SID,Nodes,Mod,Func,Arity,MSname) -> + gen_server:call(SID,{tpm_ms,Nodes,Mod,Func,Arity,MSname}). + +ctpm(SID,Nodes,Mod,Func,Arity) -> + gen_server:call(SID,{ctpm,Nodes,Mod,Func,Arity}). +%% ------------------------------------------------------------------------------ + + +%% tf(SessionID,Nodes,TraceConfList)= +%% TraceConfList=[{PidSpec,Flags},...] +%% PidSpec=pid()|atom()|all|new|existing +%% Flags=[Flag,...] +tf(SID,TraceConfList) -> + gen_server:call(SID,{tf,TraceConfList}). +tf(SID,Nodes,TraceConfList) -> + gen_server:call(SID,{tf,Nodes,TraceConfList}). +%% ------------------------------------------------------------------------------ + + +get_loopdata(SID) -> + gen_server:call(SID,get_loopdata). +%% ------------------------------------------------------------------------------ + +%% ============================================================================== +%% Genserver call-backs. +%% ============================================================================== + +%% Initial function for the session handler process. The nodes participating in +%% the session must previously have been added to our control component by the tool. +%% The session handler first finds out the state/status of the specified runtime +%% components, then it tries to initiate tracing on those where it is applicable. +%% Note that a reply to the initial (tool)client is done from here instead from +%% the tool-server. +init({Parent,From,TracerData,CtrlPid,SafetyCatches,Dbg}) -> % The non-distributed case. + {ok,StateStatus}=init_rtcomponent_states([],void,CtrlPid,[?LOCAL_RUNTIME]), + case is_tool_internal_tracerdata(TracerData) of + false -> % We shall initiate local runtime. + case inviso:init_tracing(TracerData) of + ok -> + gen_server:reply(From,{ok,{self(),ok}}), + {ok,mk_ld(Parent, + void, + CtrlPid, + to_rtstates([{?LOCAL_RUNTIME,{tracing,?RUNNING},[]}]), + [{?LOCAL_RUNTIME,TracerData}], + [], + SafetyCatches, + Dbg)}; + {error,Reason} -> % It might have become suspended?! + gen_server:reply(From,{error,Reason}), + {ok,mk_ld(Parent, + void, + CtrlPid, + to_rtstates([{?LOCAL_RUNTIME,StateStatus,[]}]), + [{?LOCAL_RUNTIME,TracerData}], + [], + SafetyCatches, + Dbg)} + end; + true -> % We shall not pass this one on. + gen_server:reply(From,{ok,{self(),ok}}), % Then it is ok. + {ok,mk_ld(Parent, + void, + CtrlPid, + to_rtstates([{?LOCAL_RUNTIME,StateStatus,[]}]), + [], + [?LOCAL_RUNTIME], + SafetyCatches, + Dbg)} + end; +init({Parent,From,NodeParams,CtrlNode,CtrlPid,SafetyCatches,Dbg,NodesIn,NodesNotIn}) -> + case init_rtcomponent_states(NodeParams,CtrlNode,CtrlPid,NodesNotIn) of + {ok,States} -> % A list of {Node,{State,Status},Opts}. + {NodeParams2,Nodes2}=remove_nodeparams(NodesIn,NodeParams), + case inviso_tool_lib:inviso_cmd(CtrlNode,init_tracing,[NodeParams2]) of + {ok,Result} -> % Resulted in state changes! + RTStates=set_tracing_rtstates(to_rtstates(States),Result), + ReplyValue=init_fix_resultnodes(NodesIn,Nodes2,Result), + gen_server:reply(From,{ok,{self(),ReplyValue}}), + {ok,mk_ld(Parent,CtrlNode,CtrlPid,RTStates, + NodeParams2,Nodes2,SafetyCatches,Dbg)}; + {error,Reason} -> % Some general failure. + inviso_tool_lib:inviso_cmd(CtrlNode,unsubscribe,[]), + gen_server:reply(From,{error,{init_tracing,Reason}}), + {stop,{init_tracing,Reason}}; + What -> + io:format("GOT:~n~w~n",[What]), + exit(foo) + end; + {error,Reason} -> % Unable to get the state/status. + inviso_tool_lib:inviso_cmd(CtrlNode,unsubscribe,[]), + gen_server:reply(From,{error,Reason}), + {stop,{error,Reason}}; + What -> + io:format("GOT:~n~w~n",[What]), + exit(foo) + end. +%% ------------------------------------------------------------------------------ + +%% To stop a session means stop the tracing and remove all local files on the +%% runtime nodes. We do have a table with all tracer data and that is how we are +%% going to recreate what files to remove. +%% Since runtime components may actually change state when this procedure is +%% on-going, we do not care! It is the state in the session handling process at +%% the time of start of this procedure which is used. +handle_call(cancel_session,_From,LD) -> + CtrlNode=get_ctrlnode_ld(LD), + RTStates=get_rtstates_ld(LD), + Dbg=get_dbg_ld(LD), + TracingNodes=get_all_tracing_nodes_rtstates(RTStates), + case stop_all_tracing(CtrlNode,Dbg,TracingNodes) of + ok-> % Hopefully all nodes are stopped now. + AvailableNodes=get_all_available_nodes_rtstates(RTStates), + TRDstorage=get_trdstorage_ld(LD), + remove_all_local_logs(CtrlNode,TRDstorage,AvailableNodes,Dbg), + {stop,normal,ok,LD}; % LD actually not correct now! + {error,Reason} -> % Some serious error when stop_tracing. + {stop,normal,{error,Reason},LD} + end; +%% ------------------------------------------------------------------------------ + +%% *Stop all tracing on runtime components still tracing. +%% *Copy all local log files to the collection directory. +handle_call({stop_session,Dir,Prefix},_From,LD) -> + case check_directory_exists(Dir) of % Check that this directory exists here. + true -> + RTStates=get_rtstates_ld(LD), + CtrlNode=get_ctrlnode_ld(LD), + Dbg=get_dbg_ld(LD), + TracingNodes=get_all_tracing_nodes_rtstates(RTStates), + case stop_all_tracing(CtrlNode,Dbg,TracingNodes) of + ok -> % Hopefully no node is still tracing now. + TRDstorage=get_trdstorage_ld(LD), + AvailableNodes=get_all_available_nodes_rtstates(RTStates), + {FailedNodes,FetchedFiles}= + transfer_logfiles(RTStates,CtrlNode,Dir,Prefix, + TRDstorage,Dbg,AvailableNodes), + RemoveNodes= % We only delete local logs where fetch ok. + lists:filter(fun(N)-> + case lists:keysearch(N,1,FailedNodes) of + {value,_} -> + false; + false -> + true + end + end, + AvailableNodes), + remove_all_local_logs(CtrlNode,TRDstorage,RemoveNodes,Dbg), + {stop,normal,{ok,{FailedNodes,FetchedFiles}},LD}; + {error,Reason} -> % Some general failure, quit. + {stop,normal,{error,Reason},LD} + end; + false -> % You specified a non-existing directory! + {reply,{error,{faulty_dir,Dir}},LD} + end; +%% ------------------------------------------------------------------------------ + +handle_call({reactivate,Nodes},_From,LD) -> + RTStates=get_rtstates_ld(LD), + {OurNodes,OtherNodes}= + remove_nodes_not_ours(Nodes,get_all_session_nodes_rtstates(RTStates)), + CtrlNode=get_ctrlnode_ld(LD), + ACTstorage=get_actstorage_ld(LD), + case h_reactivate(CtrlNode,OurNodes,ACTstorage) of + {ok,Results} -> % A list of {Node,Result}. + if + OtherNodes==[] -> % Normal case, no non-session nodes. + {reply,{ok,Results},LD}; + true -> % Add error values for non-session nodes. + {reply, + {ok, + lists:map(fun(N)->{N,{error,not_in_session}} end,OtherNodes)++ + Results}, + LD} + end; + {error,Reason} -> % Then this error takes presidence. + {reply,{error,Reason},LD} + end; +%% ------------------------------------------------------------------------------ + +%% Call-back for set trace-pattern for both global and local functions. +handle_call({tp,PatternFunc,Mod,F,A,MS,Opts},_From,LD) -> + Reply=h_tp(all,PatternFunc,Mod,F,A,MS,Opts,LD), % For all active nodes in the session. + {reply,Reply,LD}; +handle_call({tp,PatternFunc,Nodes,Mod,F,A,MS,Opts},_From,LD) -> + RTStates=get_rtstates_ld(LD), + SNodes=get_all_session_nodes_rtstates(RTStates), % Notes belongoing to the session. + {Nodes2,FaultyNodes}=remove_nodes_not_ours(Nodes,SNodes), + Reply=h_tp(Nodes2,PatternFunc,Mod,F,A,MS,Opts,LD), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,FaultyNodes), + {reply,ErrorReply++Reply,LD}; +%% ------------------------------------------------------------------------------ + +%% Call-back handling the removal of both local and global trace-patterns. +%% NOT IMPLEMENTED YET. +handle_call({ctp,PatternFunc,Nodes,Mod,F,A},_From,LD) -> + Reply=h_ctp(Nodes,PatternFunc,Mod,F,A,LD), + {reply,Reply,LD}; +%% ------------------------------------------------------------------------------ + +handle_call({tpm_localnames,Nodes},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_tpm_localnames(get_ctrlnode_ld(LD),Nodes2,RTStates,ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({init_tpm,Nodes,Mod,Func,Arity,CallFunc},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD), + Nodes2, + init_tpm, + [Mod,Func,Arity,CallFunc], + RTStates, + ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({init_tpm,Nodes,Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD), + Nodes2, + init_tpm, + [Mod,Func,Arity,InitFunc,CallFunc,ReturnFunc,RemoveFunc], + RTStates, + ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({tpm,Nodes,Mod,Func,Arity,MS},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD),Nodes2,tpm,[Mod,Func,Arity,MS],RTStates,ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({tpm,Nodes,Mod,Func,Arity,MS,CallFunc},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD), + Nodes2, + tpm, + [Mod,Func,Arity,MS,CallFunc], + RTStates, + ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({tpm,Nodes,Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD), + Nodes2, + tpm, + [Mod,Func,Arity,MS,InitFunc,CallFunc,ReturnFunc,RemoveFunc], + RTStates, + ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({tpm_ms,Nodes,Mod,Func,Arity,MSname,MS},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD), + Nodes2, + tpm_ms, + [Mod,Func,Arity,MSname,MS], + RTStates, + ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({ctpm_ms,Nodes,Mod,Func,Arity,MSname},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD), + Nodes2, + ctpm_ms, + [Mod,Func,Arity,MSname], + RTStates, + ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; + +handle_call({ctpm,Nodes,Mod,Func,Arity},_From,LD) -> + RTStates=get_rtstates_ld(LD), + OurNodes=get_all_session_nodes_rtstates(RTStates), + {Nodes2,NotOurNodes}=remove_nodes_not_ours(Nodes,OurNodes), + ACTstorage=get_actstorage_ld(LD), + {Reply,NewACTstorage}= + h_all_tpm(get_ctrlnode_ld(LD),Nodes2,ctpm,[Mod,Func,Arity],RTStates,ACTstorage), + ErrorReply=lists:map(fun(N)->{N,{error,not_in_session}} end,NotOurNodes), + {reply,ErrorReply++Reply,put_actstorage_ld(NewACTstorage,LD)}; +%% ------------------------------------------------------------------------------ + +%% Call-back for setting process trace-flags. Handles both distributed and non- +%% distributed case. +handle_call({tf,TraceConfList},From,LD) -> + handle_call({tf,all,TraceConfList},From,LD); +handle_call({tf,Nodes,TraceConfList},_From,LD) -> + {Reply,NewACTstorage}=h_tf(get_ctrlnode_ld(LD), + Nodes, + TraceConfList, + get_actstorage_ld(LD), + get_rtstates_ld(LD)), + {reply,Reply,put_actstorage_ld(NewACTstorage,LD)}; +%% ------------------------------------------------------------------------------ + + + +handle_call(get_loopdata,_From,LD) -> + io:format("The loopdata:~n~p~n",[LD]), + {reply,ok,LD}. +%% ------------------------------------------------------------------------------ + + +%% Clause handling an incomming state-change event from the control component. +%% Note that it does not have to be one of our nodes since it is not possible +%% to subscribe to certain node-events. +%% We may very well get state-change events for state-changes we are the source +%% to our selves. Those state-changes are already incorporated into the RTStates. +%% There is however no harm in doing them again since we know that this event +%% message will reach us before a reply to a potentially following state-change +%% request will reach us. Hence we will do all state-changes in the correct order, +%% even if sometimes done twice. +handle_info({trace_event,CtrlPid,_Time,{state_change,Node,{State,Status}}},LD) -> + case get_ctrlpid_ld(LD) of + CtrlPid -> % It is from our control component. + case {State,Status} of + {?TRACING,?RUNNING} -> % This is the only case when new tracerdata! + NewTracerData=add_current_tracerdata_ld(get_ctrlnode_ld(LD), + Node, + get_rtstates_ld(LD), + get_trdstorage_ld(LD)), + NewRTStates=statechange_rtstates(Node,State,Status,get_rtstates_ld(LD)), + {noreply,put_trdstorage_ld(NewTracerData, + put_rtstates_ld(NewRTStates,LD))}; + _ -> % In all other cases, just fix rtstates. + NewRTStates=statechange_rtstates(Node,State,Status,get_rtstates_ld(LD)), + {noreply,put_rtstates_ld(NewRTStates,LD)} + end; + _ -> + {noreply,LD} + end; +%% If a new runtime component connects to our trace control component, and it is +%% in our list of runtime components belonging to this session, we may update its +%% state to now being present. Otherwise it does not belong to this session. +%% Note that we avoid updating an already connected runtime component. This +%% can happend if it connected by itself after we started the session handler, +%% but before we managed to initiate tracing. Doing so or not will not result in +%% any error in the long run, but during a short period of time we might be +%% prevented from doing things with the runtime though it actually is tracing. +handle_info({trace_event,CtrlPid,_Time,{connected,Node,{_Tag,{State,Status}}}},LD) -> + case get_ctrlpid_ld(LD) of + CtrlPid -> % It is from our control component. + case get_statestatus_rtstates(Node,get_rtstates_ld(LD)) of + {ok,unavailable} -> % This is the situation when we update! + NewRTStates=statechange_rtstates(Node,State,Status,get_rtstates_ld(LD)), + {noreply,put_rtstates_ld(NewRTStates,LD)}; + _ -> % In all other cases, let it be. + {noreply,LD} + end; + _ -> % Not from our control component. + {noreply,LD} + end; +%% If a runtime component disconnects we mark it as unavailable. We must also +%% remove all saved trace-flags in order for them to not be accidently reactivated +%% should the runtime component reconnect and then suspend. +handle_info({trace_event,CtrlPid,_Time,{disconnected,Node,_}},LD) -> + case get_ctrlpid_ld(LD) of + CtrlPid -> % It is from our control component. + NewRTStates=set_unavailable_rtstates(Node,get_rtstates_ld(LD)), + NewACTstorage=del_node_actstorage(Node,get_actstorage_ld(LD)), + {noreply,put_actstorage_ld(NewACTstorage,put_rtstates_ld(NewRTStates,LD))}; + _ -> + {noreply,LD} + end; +handle_info(_,LD) -> + {noreply,LD}. +%% ------------------------------------------------------------------------------ + +%% In terminate we cancel our subscription to event from the trace control component. +%% That should actually not be necessary, but lets do it the correct way! +terminate(_,LD) -> + case get_ctrlnode_ld(LD) of + void -> % Non-distributed. + inviso:unsubscribe(); + Node -> + inviso_tool_lib:inviso_cmd(Node,unsubscribe,[]) + end. +%% ------------------------------------------------------------------------------ + + + +%% ============================================================================== +%% First level help functions to call-backs. +%% ============================================================================== + +%% ------------------------------------------------------------------------------ +%% Help functions to init. +%% ------------------------------------------------------------------------------ + +%% Help function which find out the state/status of the runtime components. +%% Note that since we have just started subscribe to state changes we must +%% check our inqueue to see that we have no waiting messages for the nodes +%% we learned the state/status of. If there is a waiting message we don't +%% know whether that was a state change received before or after the state +%% check was done. We will then redo the state-check. +%% Returns {ok,States} or {error,Reason}. +%% Where States is [{Node,{State,Status},Opts},...]. +%% Note that {error,Reason} can not occur in the non-distributed case. +init_rtcomponent_states(NodeParams,void,CtrlPid,Nodes) -> % The non-distributed case. + ok=inviso:subscribe(), + init_rtcomponent_states_2(NodeParams,void,CtrlPid,Nodes,[]); +init_rtcomponent_states(NodeParams,CtrlNode,CtrlPid,Nodes) -> + ok=inviso_tool_lib:inviso_cmd(CtrlNode,subscribe,[]), + init_rtcomponent_states_2(NodeParams,CtrlNode,CtrlPid,Nodes,[]). + +init_rtcomponent_states_2(_,_,_,[],States) -> + {ok,States}; +init_rtcomponent_states_2(NodeParams,void,CtrlPid,_Nodes,States) -> + case inviso:get_status() of + {ok,StateStatus} -> % Got its state/status, now... + {ProblemNodes,NewStates}= + init_rtcomponent_states_3(NodeParams,CtrlPid,[{?LOCAL_RUNTIME,{ok,StateStatus}}], + [],States), + init_rtcomponent_states_2(NodeParams,void,CtrlPid,ProblemNodes,NewStates); + {error,_Reason} -> % The runtime is not available!? + {ok,[{?LOCAL_RUNTIME,unavailable,[]}]} % Create the return value immediately. + end; +init_rtcomponent_states_2(NodeParams,CtrlNode,CtrlPid,Nodes,States) -> + case inviso_tool_lib:inviso_cmd(CtrlNode,get_status,[Nodes]) of + {ok,NodeResult} -> + {ProblemNodes,NewStates}= + init_rtcomponent_states_3(NodeParams,CtrlPid,NodeResult,[],States), + init_rtcomponent_states_2(NodeParams,CtrlNode,CtrlPid,ProblemNodes,NewStates); + {error,Reason} -> % Severe problem, abort the session. + {error,{get_status,Reason}} + end. + +%% Traverses the list of returnvalues and checks that we do not have an event +%% waiting in the message queue. If we do have, it is a problem. That node will +%% be asked about its state again. +%% Note that it is here we construct the RTStatesList. +init_rtcomponent_states_3(NodeParams,CtrlPid,[{Node,{ok,{State,Status}}}|Rest],Problems,States) -> + receive + {trace_event,CtrlPid,_Time,{state_change,Node,_}} -> + init_rtcomponent_states_3(NodeParams,CtrlPid,Rest,[Node|Problems],States) + after + 0 -> % Not in msg queue, then we're safe! + RTState=case lists:keysearch(Node,1,NodeParams) of + {value,{_Node,_TracerData,Opts}} -> + {Node,{State,Status},Opts}; + _ -> % No option available, use []. + {Node,{State,Status},[]} + end, + init_rtcomponent_states_3(NodeParams,CtrlPid,Rest,Problems,[RTState|States]) + end; +init_rtcomponent_states_3(NodeParams,CtrlPid,[{Node,{error,_Reason}}|Rest],Problems,States) -> + RTState=case lists:keysearch(Node,1,NodeParams) of + {value,{_Node,_TracerData,Opts}} -> + {Node,unavailable,Opts}; + _ -> % No option available, use []. + {Node,unavailable,[]} + end, + init_rtcomponent_states_3(NodeParams,CtrlPid,Rest,Problems,[RTState|States]); +init_rtcomponent_states_3(_,_,[],Problems,States) -> + {Problems,States}. +%% ------------------------------------------------------------------------------ + +%% Help function removing nodes from NodeParams. The reason for this can either +%% be that we are using a tool internal tracerdata that shall not be forwarded to +%% the trace control component, or that the node is actually already part of +%% another session. +%% Returns {NewNodeParams,NodesWhichShallNotBeInitiated}. +remove_nodeparams(Nodes,NodesParams) -> + remove_nodeparams_2(Nodes,NodesParams,[],[]). + +remove_nodeparams_2(Nodes,[NodeParam|Rest],NPAcc,NAcc) when % NPAcc=NodeParamsAcc. + (is_tuple(NodeParam) and ((size(NodeParam)==2) or (size(NodeParam)==3))) -> + Node=element(1,NodeParam), + Params=element(2,NodeParam), % This is tracerdata! + case lists:member(Node,Nodes) of + true -> % Remove this one, in another session. + remove_nodeparams_2(Nodes,Rest,NPAcc,NAcc); + false -> % Ok so far... + case is_tool_internal_tracerdata(Params) of + false -> % Then keep it and use it later! + remove_nodeparams_2(Nodes,Rest,[{Node,Params}|NPAcc],NAcc); + true -> % Since it is, remove it from the list. + remove_nodeparams_2(Nodes,Rest,NPAcc,[Node|NAcc]) + end + end; +remove_nodeparams_2(Nodes,[_|Rest],NPAcc,NAcc) -> % Faulty NodeParam, skip it! + remove_nodeparams_2(Nodes,Rest,NPAcc,NAcc); +remove_nodeparams_2(_,[],NPAcc,NAcc) -> + {lists:reverse(NPAcc),NAcc}. +%% ------------------------------------------------------------------------------ + +%% Help function which adds both the nodes which were already part of another +%% session and the nodes that we actually did not issue any init_tracing for. +%% Returns a new Result list of [{Node,NodeResult},...]. +init_fix_resultnodes(NodesOtherSes,NodesNotInit,Result) -> + NewResult=init_fix_resultnodes_2(NodesOtherSes,{error,in_other_session},Result), + init_fix_resultnodes_2(NodesNotInit,ok,NewResult). + +init_fix_resultnodes_2([Node|Rest],NodeResult,Result) -> + [{Node,NodeResult}|init_fix_resultnodes_2(Rest,NodeResult,Result)]; +init_fix_resultnodes_2([],_,Result) -> + Result. % Append Result to the end of the list. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Help functions to reactivate. +%% ------------------------------------------------------------------------------ + +h_reactivate(CtrlNode,Nodes,ACTstorage) -> % Distributed case. + case inviso_tool_lib:inviso_cmd(CtrlNode,cancel_suspension,[Nodes]) of + {ok,CSuspResults} -> + {GoodNodes,BadResults}= % Sort out nodes no longer suspended. + lists:foldl(fun({Node,ok},{GoodNs,BadNs})-> + {[Node|GoodNs],BadNs}; + ({Node,{error,Reason}},{GoodNs,BadNs})-> + {GoodNs,[{Node,{error,{cancel_suspension,Reason}}}|BadNs]} + end, + {[],[]}, + CSuspResults), + Results=h_reactivate_redo_activity(CtrlNode,GoodNodes,ACTstorage,[]), + {ok,BadResults++Results}; + {error,Reason} -> % General failure cancelling suspend. + {error,{cancel_suspension,Reason}} + end. +%% ------------------------------------------------------------------------------ + +%% Help function which traverses the list of nodes known to be ours and have +%% cancelled their suspend. If we fail redoing one of the activities associated +%% with a node, the node will be reported in the return value as failed. From +%% that point on its state must be considered unknown since we do not know how +%% many of the activities were successfully redone. +h_reactivate_redo_activity(CtrlNode,[Node|Rest],ACTstorage,Acc) -> + case get_activities_actstorage(Node,ACTstorage) of + {ok,Activities} -> % The node existed in activity storage. + {Good,Bad}=h_reactivate_redo_activity_2(CtrlNode,Node,Activities,0,0), + h_reactivate_redo_activity(CtrlNode,Rest,ACTstorage,[{Node,{Good,Bad}}|Acc]); + false -> % Node not present in activity storage. + h_reactivate_redo_activity(CtrlNode,Rest,ACTstorage,[{Node,{0,0}}|Acc]) + end; +h_reactivate_redo_activity(_CtrlNode,[],_,Acc) -> + lists:reverse(Acc). + +%% Help function actually redoing the activity. Note that there must be one +%% clause here for every type of activity. +%% Returns {NrGoodCmds,NrBadCmds}. +%% The number of good or bad commands refers to inviso commands done. If any +%% of the subparts of such a command returned an error, the command is concidered +%% no good. +h_reactivate_redo_activity_2(CtrlNode,Node,[{tf,{Op,TraceConfList}}|Rest],Good,Bad) -> + case inviso_tool_lib:inviso_cmd(CtrlNode,Op,[[Node],TraceConfList]) of + {ok,[{_Node,{ok,Answers}}]} -> + case h_reactivate_redo_activity_check_tf(Answers) of + ok -> + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good+1,Bad); + error -> % At least oneReports the first encountered error. + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1) + end; + {ok,[{_Node,{error,_Reason}}]} -> + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1); + {error,_Reason} -> % General error when doing cmd. + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1) + end; +h_reactivate_redo_activity_2(CtrlNode,Node,[{tpm,{Op,InvisoCmdParams}}|Rest],Good,Bad) -> + case inviso_tool_lib:inviso_cmd(CtrlNode,Op,[[Node]|InvisoCmdParams]) of + {ok,[{_Node,ok}]} -> + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good+1,Bad); + {ok,[{_Node,{error,_Reason}}]} -> + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1); + {error,_Reason} -> % General error when doing cmd. + h_reactivate_redo_activity_2(CtrlNode,Node,Rest,Good,Bad+1) + end; +h_reactivate_redo_activity_2(_CtrlNode,_Node,[],Good,Bad) -> + {Good,Bad}. + +%% Help function traversing a list of results from inviso:tf/2 or inviso:ctf/2 +%% to see if there were any errors. +h_reactivate_redo_activity_check_tf([N|Rest]) when integer(N) -> + h_reactivate_redo_activity_check_tf(Rest); +h_reactivate_redo_activity_check_tf([{error,_Reason}|_]) -> + error; +h_reactivate_redo_activity_check_tf([]) -> + ok. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Help functions to tp (setting trace patterns, both local and global). +%% ------------------------------------------------------------------------------ + +%% Help function which handles both tpl and tp. Note that the non-distributed case +%% handled with Nodes='all'. +%% Returns what shall be the reply to the client. +h_tp(all,PatternFunc,Mod,F,A,MS,Opts,LD) -> % All available runtime nodes. + Nodes=get_all_available_nodes_rtstates(get_rtstates_ld(LD)), + h_tp(Nodes,PatternFunc,Mod,F,A,MS,Opts,LD); +h_tp(Nodes,PatternFunc,Mod,F,A,MS,Opts,LD) -> % Only certain nodes in the session. + CtrlNode=get_ctrlnode_ld(LD), + Dbg=get_dbg_ld(LD), + SafetyCatches=get_safetycatches_ld(LD), + case inviso_tool_lib:expand_module_names(Nodes,Mod,Opts) of % Take care of any reg-exps. + {multinode_expansion,NodeMods} -> + NodeTPs=inviso_tool_lib:make_patterns(SafetyCatches,Opts,Dbg,NodeMods,F,A,MS), + h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,NodeTPs,[]); + {singlenode_expansion,Modules} -> + TPs=inviso_tool_lib:make_patterns(SafetyCatches,Opts,Dbg,Modules,F,A,MS), + h_tp_do_tps(CtrlNode,Nodes,TPs,PatternFunc,Dbg); + module -> + TPs=inviso_tool_lib:make_patterns(SafetyCatches,Opts,Dbg,[Mod],F,A,MS), + h_tp_do_tps(CtrlNode,Nodes,TPs,PatternFunc,Dbg); + wildcard -> % Means do for all modules, no safety. + h_tp_do_tps(CtrlNode,Nodes,[{Mod,F,A,MS}],PatternFunc,Dbg); + {error,Reason} -> + {error,Reason} + end. + +%% Note that this function can never be called in the non-distributed case. +h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,[{Node,TPs}|Rest],Accum) -> + case h_tp_do_tps(CtrlNode,[Node],TPs,PatternFunc,Dbg) of + {ok,[{Node,Result}]} -> + h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,Rest,[{Node,Result}|Accum]); + {error,Reason} -> % Failure, but don't stop. + h_tp_node_by_node(CtrlNode,PatternFunc,Dbg,Rest,[{Node,{error,Reason}}|Accum]) + end; +h_tp_node_by_node(_,_,_,[],Accum) -> + {ok,lists:reverse(Accum)}. + +%% Help function which does the actual call to the trace control component. +%% Note that Nodes can be a list of nodes (including a single one) or +%% ?LOCAL_RUNTIME if we are not distributed. The non-distributed case is otherwise +%% detected by the 'void' CtrlNode. +%% Returns {ok,[{Node,{ok,{NrOfFunctions,NrOfErrors}}},{Node,{error,Reason}},...]} or +%% {error,Reason}. In the non-distributed case {ok,{NrOfFunctions,NrOfErros}} or +%% {error,Reason}. +h_tp_do_tps(void,_Nodes,TPs,PatternFunc,Dbg) -> % Non distributed case! + inviso_tool_lib:debug(tp,Dbg,[TPs,PatternFunc]), + case inviso:PatternFunc(TPs) of + {ok,Result} -> % A list of [Nr1,Nr2,error,...]. + {ok, + lists:foldl(fun(N,{AccNr,AccErr}) when integer(N) -> + {AccNr+N,AccErr}; + (error,{AccNr,AccErr}) -> + {AccNr,AccErr+1} + end, + {0,0}, + Result)}; + {error,Reason} -> + {error,{PatternFunc,Reason}} + end; +h_tp_do_tps(CtrlNode,Nodes,TPs,PatternFunc,Dbg) -> + inviso_tool_lib:debug(tp,Dbg,[Nodes,TPs,PatternFunc]), + case inviso_tool_lib:inviso_cmd(CtrlNode,PatternFunc,[Nodes,TPs]) of + {ok,Result} -> % Result is [{Node,Result},...]. + {ok, + lists:map(fun({Node,{ok,Res}})-> + {Node,lists:foldl(fun(N,{ok,{AccNr,AccErr}}) when integer(N) -> + {ok,{AccNr+N,AccErr}}; + (error,{AccNr,AccErr}) -> + {ok,{AccNr,AccErr+1}} + end, + {ok,{0,0}}, + Res)}; + ({_Node,{error,Reason}})-> + {error,Reason} + end, + Result)}; + {error,Reason} -> + {error,{PatternFunc,Reason}} + end. +%% ------------------------------------------------------------------------------ + +%% ------------------------------------------------------------------------------ +%% Help functions for removing trace-patterns. +%% ------------------------------------------------------------------------------ + +%% NOT IMPLEMENTED YET. +h_ctp(Node,PatternFunc,Mod,F,A,LD) -> + tbd. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Help functions for calling the trace information facility. +%% ------------------------------------------------------------------------------ + + +%% Function handling the meta trace pattern for capturing registration of local +%% process names. +h_tpm_localnames(CtrlNode,Nodes,RTStates,ACTstorage) -> + AvailableNodes=get_all_available_nodes_rtstates(RTStates), + {Nodes3,FaultyNodes}=remove_nodes_not_ours(Nodes,AvailableNodes), + case inviso_tool_lib:inviso_cmd(CtrlNode,tpm_localnames,[Nodes3]) of + {ok,Result} -> % That good we want to modify tpmstorage! + NewACTstorage=add_tpm_actstorage(Result,tpm_localnames,[],ACTstorage), + ErrorResult=lists:map(fun(N)->{N,{error,not_available}} end,FaultyNodes), + {{ok,ErrorResult++Result},NewACTstorage}; + {error,Reason} -> % If general failure, do not modify storage. + {{error,Reason},ACTstorage} + end. +%% ------------------------------------------------------------------------------ + +%% Functions calling meta trace functions for specified nodes. This function is +%% intended for use with all tmp function calls, init_tpm,tpm,tpm_ms,ctpm_ms and +%% ctpm. +%% Note that we must store called meta trace functions and their parameters in the +%% activity storage in order to be able to redo them in case of a reactivate. +h_all_tpm(CtrlNode,Nodes,TpmCmd,InvisoCmdParams,RTStates,ACTstorage) -> + AvailableNodes=get_all_available_nodes_rtstates(RTStates), + {Nodes3,FaultyNodes}=remove_nodes_not_ours(Nodes,AvailableNodes), + case inviso_tool_lib:inviso_cmd(CtrlNode,TpmCmd,[Nodes3|InvisoCmdParams]) of + {ok,Result} -> % That good we want to modify tpmstorage! + NewACTstorage=add_tpm_actstorage(Result,TpmCmd,InvisoCmdParams,ACTstorage), + ErrorResult=lists:map(fun(N)->{N,{error,not_available}} end,FaultyNodes), + {{ok,ErrorResult++Result},NewACTstorage}; + {error,Reason} -> % If general failure, do not modify storage. + {{error,Reason},ACTstorage} + end. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Help functions for set trace flags. +%% ------------------------------------------------------------------------------ + +%% Help function which sets the tracepatterns in TraceConfList for all nodes +%% mentioned in Nodes. Note that non-distributed case is handled with Nodes='all'. +%% Returns {Reply,NewACTstorage} where Reply is whatever shall be returned to caller +%% and NewACTstorage is traceflag storage modified with the flags added to the +%% corresponding nodes. +h_tf(void,_Nodes,TraceConfList,ACTstorage,_RTStates) -> % The non-distributed case. + Reply=inviso:tf(TraceConfList), + NewACTstorage=add_tf_actstorage([{?LOCAL_RUNTIME,Reply}],tf,TraceConfList,ACTstorage), + {Reply,NewACTstorage}; +h_tf(CtrlNode,all,TraceConfList,ACTstorage,RTStates) -> + AllNodes=get_all_session_nodes_rtstates(RTStates), + h_tf(CtrlNode,AllNodes,TraceConfList,ACTstorage,RTStates); +h_tf(CtrlNode,Nodes,TraceConfList,ACTstorage,_RTStates) -> + case inviso_tool_lib:inviso_cmd(CtrlNode,tf,[Nodes,TraceConfList]) of + {ok,Result} -> % That good we want to modify actstorage! + NewACTstorage=add_tf_actstorage(Result,tf,TraceConfList,ACTstorage), + {{ok,Result},NewACTstorage}; + {error,Reason} -> % If general failure, do not modify actstorage. + {{error,Reason},ACTstorage} + end. +%% ------------------------------------------------------------------------------ + +%% ------------------------------------------------------------------------------ +%% Help functions to stop_session. +%% ------------------------------------------------------------------------------ + +%% This function fetches all local log-files using our stored tracerdata. Note +%% that there are two major ways of tranfering logfiles. Either via distributed +%% Erlang or by common filesystem (like NFS). The default is distributed Erlang. +%% But there may be info in the RTStates structure about a common file-system. +%% Returns {FailedNodes,FetchedFileNames} where FailedNodes is a list of +%% nodenames where problems occurred. Note that problems does not necessarily +%% mean that no files were copied. +%% FetchedFileNames contains one or two of the tuples {trace_log,Files} and/or +%% {ti_log,Files}, listing all files successfully fetched. Note that the +%% list of fetched files contains sublists of filenames. One for each node and +%% tracerdata. +%% In the non-distributed system we always use copy (since the files always +%% resides locally). +transfer_logfiles(RTStates,CtrlNode,Dir,Prefix,TRDstorage,Dbg,AvailableNodes) -> + if + CtrlNode==void -> % When non-distributed, always copy! + fetch_logfiles_copy(CtrlNode,Dir,Prefix,TRDstorage,Dbg,[?LOCAL_RUNTIME]); + true -> % The distributed case. + {FetchNodes,CopyNodes}=find_logfile_transfer_methods(AvailableNodes,RTStates), + {FailedFetchNodes,FetchedFiles}= + case fetch_logfiles_distributed(CtrlNode,Dir,Prefix,TRDstorage,Dbg,FetchNodes) of + {ok,Failed,Files} -> % So far no disasters. + {Failed,Files}; + {error,Reason} -> % Means all fetch-nodes failed! + inviso_tool_lib:debug(transfer_logfiles,Dbg,[FetchNodes,Reason]), + {lists:map(fun(N)->{N,error} end,FetchNodes),[]} + end, + {FailedCopyNodes,CopiedFiles}= + fetch_logfiles_copy(CtrlNode,Dir,Prefix,TRDstorage,Dbg,CopyNodes), + {FailedFetchNodes++FailedCopyNodes,FetchedFiles++CopiedFiles} + end. + +%% Help function which finds out which node we have a common file system with +%% and from which we must make distributed erlang tranfere. +%% Returns {DistributedNodes,CopyNodes} where CopyNode is [{Node,CopyFromDir},...]. +find_logfile_transfer_methods(Nodes,RTStates) -> + find_logfile_transfer_methods_2(Nodes,RTStates,[],[]). + +find_logfile_transfer_methods_2([Node|Rest],RTStates,FetchAcc,CopyAcc) -> + {ok,Opts}=get_opts_rtstates(Node,RTStates), % Node must be in RTStates! + case lists:keysearch(?COPY_LOG_FROM,1,Opts) of + {value,{_,FromDir}} when list(FromDir) -> % Node has common filesystem. + find_logfile_transfer_methods_2(Rest,RTStates,FetchAcc,[{Node,FromDir}|CopyAcc]); + {value,_} -> % Can't understand dir option. + find_logfile_transfer_methods_2(Rest,RTStates,[Node|FetchAcc],CopyAcc); + false -> % Then we want to use fetch instead. + find_logfile_transfer_methods_2(Rest,RTStates,[Node|FetchAcc],CopyAcc) + end; +find_logfile_transfer_methods_2([],_,FetchAcc,CopyAcc) -> + {FetchAcc,CopyAcc}. +%% ------------------------------------------------------------------------------ + +%% Help function which transferes all local logfiles according to the tracerdata +%% stored for the nodes in Nodes. +%% Returns {ok,FailedNodes,FileNodeSpecs} or {error,Reason}. +%% FailedNodes is a list of nodes where fetching logs did not succeed, partially +%% or not at all. +%% FileNames is a list of list of actually fetched files (the name as it is here, including +%% Dir). The sublists are files which belong together. +fetch_logfiles_distributed(CtrlNode,Dir,Prefix,TRDstorage,Dbg,Nodes) -> + LogSpecList=build_logspeclist(Nodes,TRDstorage), + case inviso_fetch_log(inviso_tool_lib:inviso_cmd(CtrlNode, + fetch_log, + [LogSpecList,Dir,Prefix])) of + {ok,Result} -> + Files=get_all_filenames_fetchlog_result(Result,Dbg), + FailedNodes=get_all_failednodes_fetchlog_result(Result), + {ok,FailedNodes,Files}; + {error,Reason} -> % Some general failure! + {error,{fetch_log,Reason}} + end. + +%% Help function which constructs a list {Node,TracerData} for all nodes in Nodes. +%% Note that there may be more than one tracerdata for a node, resulting in multiple +%% tuples for that node. +build_logspeclist(Nodes,TRDstorage) -> + build_logspeclist_2(Nodes,TRDstorage,[]). + +build_logspeclist_2([Node|Rest],TRDstorage,Acc) -> + TRDlist=find_tracerdata_for_node_trd(Node,TRDstorage), % A list of all tracerdata. + build_logspeclist_2(Rest, + TRDstorage, + [lists:map(fun(TRD)->{Node,TRD} end,TRDlist)|Acc]); +build_logspeclist_2([],_,Acc) -> + lists:flatten(Acc). + +%% Help function which translates inviso:fetch_log return values to what I +%% want! +inviso_fetch_log({error,Reason}) -> + {error,Reason}; +inviso_fetch_log({_Success,ResultList}) -> + {ok,ResultList}. + +%% Help function which collects all filenames mentioned in a noderesult structure. +%% The files may or may not be complete. +%% Returns a list of list of filenames. Each sublist contains files which belong +%% together, i.e because they are a wrap-set. +get_all_filenames_fetchlog_result(NodeResult,Dbg) -> + get_all_filenames_fetchlog_result_2(NodeResult,Dbg,[]). + +get_all_filenames_fetchlog_result_2([{Node,{Success,FileInfo}}|Rest],Dbg,Accum) + when Success=/=error, list(FileInfo) -> + SubAccum=get_all_filenames_fetchlog_result_3(FileInfo,[]), + get_all_filenames_fetchlog_result_2(Rest,Dbg,[{Node,SubAccum}|Accum]); +get_all_filenames_fetchlog_result_2([{Node,{error,FReason}}|Rest],Dbg,Accum) -> + inviso_tool_lib:debug(fetch_files,Dbg,[Node,FReason]), + get_all_filenames_fetchlog_result_2(Rest,Dbg,Accum); +get_all_filenames_fetchlog_result_2([],_Dbg,Accum) -> + Accum. + +get_all_filenames_fetchlog_result_3([{FType,Files}|Rest],SubAccum) -> + FilesOnly=lists:foldl(fun({ok,FName},Acc)->[FName|Acc];(_,Acc)->Acc end,[],Files), + get_all_filenames_fetchlog_result_3(Rest,[{FType,FilesOnly}|SubAccum]); +get_all_filenames_fetchlog_result_3([],SubAccum) -> + SubAccum. + +%% Help function which traverses a noderesult and builds a list as return +%% value containing the nodenames of all nodes not being complete. +%% Note that a node may occur multiple times since may have fetched logfiles +%% for several tracerdata from the same node. Makes sure the list contains +%% unique node names. +%% Returns a list nodes. +get_all_failednodes_fetchlog_result(NodeResult) -> + get_all_failednodes_fetchlog_result_2(NodeResult,[]). + +get_all_failednodes_fetchlog_result_2([{_Node,{complete,_}}|Rest],Acc) -> + get_all_failednodes_fetchlog_result_2(Rest,Acc); +get_all_failednodes_fetchlog_result_2([{Node,{_Severity,_}}|Rest],Acc) -> + case lists:member(Node,Acc) of + true -> % Already in the list. + get_all_failednodes_fetchlog_result_2(Rest,Acc); + false -> % Not in Acc, add it! + get_all_failednodes_fetchlog_result_2(Rest,[Node|Acc]) + end; +get_all_failednodes_fetchlog_result_2([],Acc) -> + Acc. +%% ------------------------------------------------------------------------------ + +%% Help function which copies files from one location to Dir and at the same time +%% adds the Prefix to the filename. NodeSpecs contains full path to the files. The +%% reason the node information is still part of NodeSpecs is that otherwise we can +%% not report faulty nodes. Note that one node may occur multiple times since there +%% may be more than one tracerdata for a node. +%% Returns {FailedNodes,Files} where FailedNodes is a list of nodes where problems +%% occurred. Files is a tuple list of [{Node,[{FType,FileNames},...]},...]. +fetch_logfiles_copy(CtrlNode,Dir,Prefix,TRDstorage,Dbg,NodeSpecs) -> + CopySpecList=build_copylist(CtrlNode,Dbg,NodeSpecs,TRDstorage), + fetch_logfiles_copy_2(Dir,Prefix,Dbg,CopySpecList,[],[]). + +fetch_logfiles_copy_2(Dir,Prefix,Dbg,[{Node,CopySpecs}|Rest],FailedNodes,Files) -> + case fetch_logfiles_copy_3(Dir,Prefix,Dbg,CopySpecs,[],0) of + {0,LocalFiles} -> % Copy went ok and zero errors. + fetch_logfiles_copy_2(Dir,Prefix,Dbg,Rest,FailedNodes,[{Node,LocalFiles}|Files]); + {_N,LocalFiles} -> % Copied files, but some went wrong. + case lists:member(Node,FailedNodes) of + true -> % Node already in FailedNodes. + fetch_logfiles_copy_2(Dir,Prefix,Dbg,Rest,FailedNodes, + [{Node,LocalFiles}|Files]); + false -> % Node not marked as failed, yet. + fetch_logfiles_copy_2(Dir,Prefix,Dbg,Rest,[Node|FailedNodes], + [{Node,LocalFiles}|Files]) + end + end; +fetch_logfiles_copy_2(_,_,_,[],FailedNodes,Files) -> + {FailedNodes,Files}. % The return value from fetch_logfiles_copy. + +fetch_logfiles_copy_3(Dir,Prefix,Dbg,[{FType,RemoteFiles}|Rest],Results,Errors) -> + {Err,LocalFiles}=fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,RemoteFiles,[],0), + fetch_logfiles_copy_3(Dir,Prefix,Dbg,Rest,[{FType,LocalFiles}|Results],Errors+Err); +fetch_logfiles_copy_3(_,_,_,[],Results,Errors) -> + {Errors,Results}. + +%% For each file of one file-type (e.g. trace_log). +fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,[File|Rest],LocalFiles,Errors) -> + DestName=Prefix++filename:basename(File), + Destination=filename:join(Dir,DestName), + case do_copy_file(File,Destination) of + ok -> + fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,Rest,[DestName|LocalFiles],Errors); + {error,Reason} -> + inviso_tool_lib:debug(copy_files,Dbg,[File,Destination,Reason]), + fetch_logfiles_copy_3_1(Dir,Prefix,Dbg,Rest,LocalFiles,Errors+1) + end; +fetch_logfiles_copy_3_1(_,_,_,[],LocalFiles,Errors) -> + {Errors,LocalFiles}. + +%% Help function which builds a [{Node,[{Type,[ListOfRemoteFiles]}},...}] +%% where Type describes trace_log or ti_log and each entry in ListOfRemoteFiles +%% is a complete path to a file to be copied. +build_copylist(CtrlNode,Dbg,NodeSpecList,TRDstorage) -> + build_copylist_2(CtrlNode,Dbg,NodeSpecList,TRDstorage,[]). + +%% For each node specified in the NodeSpecList. +build_copylist_2(CtrlNode,Dbg,[{Node,SourceDir}|Rest],TRDstorage,Acc) -> + TRDlist=find_tracerdata_for_node_trd(Node,TRDstorage), + CopySpecList=build_copylist_3(CtrlNode,Dbg,SourceDir,Node,TRDlist), + build_copylist_2(CtrlNode,Dbg,Rest,TRDstorage,[CopySpecList|Acc]); +build_copylist_2(_,_,[],_,Acc) -> + lists:flatten(Acc). + +%% For each tracerdata found for the node. +build_copylist_3(void,Dbg,SourceDir,Node,[TRD|Rest]) -> % The non-distributed case. + case inviso:list_logs(TRD) of + {ok,FileSpec} when list(FileSpec) -> % [{trace_log,Dir,Files},...] + NewFileSpec=build_copylist_4(SourceDir,FileSpec,[]), + [{Node,NewFileSpec}|build_copylist_3(void,Dbg,SourceDir,Node,Rest)]; + {ok,no_log} -> % This tracedata not associated with any log. + build_copylist_3(void,Dbg,SourceDir,Node,Rest); + {error,Reason} -> + inviso_tool_lib:debug(list_logs,Dbg,[Node,TRD,Reason]), + build_copylist_3(void,Dbg,SourceDir,Node,Rest) + end; +build_copylist_3(CtrlNode,Dbg,SourceDir,Node,[TRD|Rest]) -> % The distributed case. + case inviso_tool_lib:inviso_cmd(CtrlNode,list_logs,[[{Node,TRD}]]) of + {ok,[{Node,{ok,FileSpec}}]} when list(FileSpec) -> + NewFileSpec=build_copylist_4(SourceDir,FileSpec,[]), + [{Node,NewFileSpec}|build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest)]; + {ok,[{Node,{ok,no_log}}]} -> % It relays to another node, no files! + build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest); + {ok,[{Node,{error,Reason}}]} -> + inviso_tool_lib:debug(list_logs,Dbg,[Node,TRD,Reason]), + build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest); + {error,Reason} -> % Some general failure. + inviso_tool_lib:debug(list_logs,Dbg,[Node,TRD,Reason]), + build_copylist_3(CtrlNode,Dbg,SourceDir,Node,Rest) + end; +build_copylist_3(_,_,_,_,[]) -> + []. + +%% Help function which makes a [{Type,Files},...] list where each file in Files +%% is with full path as found from our file-system. +build_copylist_4(SourceDir,[{Type,_Dir,Files}|Rest],Accum) -> + NewFiles= + lists:foldl(fun(FName,LocalAcc)->[filename:join(SourceDir,FName)|LocalAcc] end, + [], + Files), + build_copylist_4(SourceDir,Rest,[{Type,NewFiles}|Accum]); +build_copylist_4(_,[],Accum) -> + Accum. + + +%% Help function which copies a file using os:cmd. +%% Returns 'ok' or {error,Reason}. +do_copy_file(Source,Destination) -> + case os:type() of + {win32,_} -> + os:cmd("copy "++Source++" "++Destination), % Perhaps a test on success? + ok; + {unix,_} -> + os:cmd("cp "++Source++" "++Destination), % Perhaps a test on success? + ok + end. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ + +%% ============================================================================== +%% Various help functions. +%% ============================================================================== + +%% Help function going through the Nodes list and checking that only nodes +%% mentioned in OurNodes gets returned. It also makes the nodes in the return +%% value unique. +remove_nodes_not_ours(Nodes,OurNodes) -> + remove_nodes_not_ours_2(Nodes,OurNodes,[],[]). + +remove_nodes_not_ours_2([Node|Rest],OurNodes,OurAcc,OtherAcc) -> + case lists:member(Node,OurNodes) of + true -> % Ok it is one of our nodes. + case lists:member(Node,OurAcc) of + true -> % Already in the list, skip. + remove_nodes_not_ours_2(Rest,OurNodes,OurAcc,OtherAcc); + false -> + remove_nodes_not_ours_2(Rest,OurNodes,[Node|OurAcc],OtherAcc) + end; + false -> + case lists:member(Node,OtherAcc) of + true -> + remove_nodes_not_ours_2(Rest,OurNodes,OurAcc,OtherAcc); + false -> + remove_nodes_not_ours_2(Rest,OurNodes,OurAcc,[Node|OtherAcc]) + end + end; +remove_nodes_not_ours_2([],_,OurAcc,OtherAcc) -> + {lists:reverse(OurAcc),lists:reverse(OtherAcc)}. +%% ------------------------------------------------------------------------------ + +%% Help function which returns 'true' or 'false' depending on if TracerData is +%% meant to be used by the session handler (true) or if it supposed to be passed +%% on to the trace system. +is_tool_internal_tracerdata(_) -> % CURRENTLY NO INTERNAL TRACER DATA! + false. +%% ------------------------------------------------------------------------------ + +%% Help function which checks that all nodes in the first list of nodes exists +%% in the second list of nodes. Returns 'true' or 'false'. The latter if as much +%% as one incorrect node was found. +check_our_nodes([Node|Rest],AllNodes) -> + case lists:member(Node,AllNodes) of + true -> + check_our_nodes(Rest,AllNodes); + false -> % Then we can stop right here. + false + end; +check_our_nodes([],_) -> + true. +%% ------------------------------------------------------------------------------ + +%% Help function which checks that a directory actually exists. Returns 'true' or +%% 'false'. +check_directory_exists(Dir) -> + case file:read_file_info(Dir) of + {ok,#file_info{type=directory}} -> + true; + _ -> % In all other cases it is not valid. + false + end. +%% ------------------------------------------------------------------------------ + +%% This function stops the tracing on all nodes in Nodes. Preferably Nodes is a list +%% of only tracing runtime components. Not that there will actually be any difference +%% since the return value does not reflect how stopping the nodes went. +%% Returns 'ok' or {error,Reason}, the latter only in case of general failure. +stop_all_tracing(void,Dbg,[?LOCAL_RUNTIME]) -> % The non-distributed case, and is tracing. + case inviso:stop_tracing() of + {ok,_State} -> + ok; + {error,Reason} -> % We actually don't care. + inviso_tool_lib:debug(stop_tracing,Dbg,[?LOCAL_RUNTIME,Reason]), + ok + end; +stop_all_tracing(void,_,_) -> % There is no local runtime started. + ok; +stop_all_tracing(CtrlNode,Dbg,Nodes) -> + case inviso_tool_lib:inviso_cmd(CtrlNode,stop_tracing,[Nodes]) of + {ok,Result} -> % The result is only used for debug. + Failed=lists:foldl(fun({N,{error,Reason}},Acc)->[{N,{error,Reason}}|Acc]; + (_,Acc)->Acc + end, + [], + Result), + if + Failed==[] -> + ok; + true -> + inviso_tool_lib:debug(stop_tracing,Dbg,[Nodes,Failed]), + ok + end; + {error,Reason} -> + {error,{stop_tracing,Reason}} + end. +%% ------------------------------------------------------------------------------ + +%% Help function removing all local logs using the tracerdata to determine what +%% logs to remove from where. +%% There is no significant return value since it is not really clear what to do +%% if removal went wrong. The function can make debug-reports thought. +remove_all_local_logs(CtrlNode,TRDstorage,Nodes,Dbg) -> + LogSpecList=build_logspeclist_remove_logs(Nodes,TRDstorage), + case inviso_tool_lib:inviso_cmd(CtrlNode,delete_log,[LogSpecList]) of + {ok,Results} -> + case look_for_errors_resultlist(Results) of + [] -> % No errors found in the result! + true; + Errors -> + inviso_tool_lib:debug(remove_all_local_logs,Dbg,[Errors]), + true + end; + {error,Reason} -> % Some general error. + inviso_tool_lib:debug(remove_all_local_logs,Dbg,[{error,Reason}]), + true + end. + +%% Help function which puts together a list of {Node,Tracerdata} tuples. Note that +%% we must build one tuple for each tracerdata for one node. +build_logspeclist_remove_logs(Nodes,TRDstorage) -> + [{Node,TracerData}||Node<-Nodes,TracerData<-find_tracerdata_for_node_trd(Node,TRDstorage)]. +%% ------------------------------------------------------------------------------ + +%% Help function which traverses a resultlist from an inviso function. Such are +%% built up as [{Node,SubResults},...] where SubResult is a list of tuples for each +%% file-type (e.g trace_log) {FType,FileList} where a FileList is either {error,Reason} +%% or {ok,FileName}. +%% Returns a list of {Node,[{error,Reason},...]}. +look_for_errors_resultlist([{Node,{error,Reason}}|Rest]) -> + [{Node,{error,Reason}}|look_for_errors_resultlist(Rest)]; +look_for_errors_resultlist([{Node,{ok,NResults}}|Rest]) when list(NResults) -> + case look_for_errors_resultlist_2(NResults,[]) of + [] -> + look_for_errors_resultlist(Rest); + Errors -> % A list of lists. + [{Node,lists:flatten(Errors)}|look_for_errors_resultlist(Rest)] + end; +look_for_errors_resultlist([_|Rest]) -> + look_for_errors_resultlist(Rest); +look_for_errors_resultlist([]) -> + []. + +look_for_errors_resultlist_2([{_FType,NSubResult}|Rest],Accum) -> + case lists:filter(fun({error,_Reason})->true;(_)->false end,NSubResult) of + [] -> % No errors for this node. + look_for_errors_resultlist_2(Rest,Accum); + Errors -> % A list of at least one error. + look_for_errors_resultlist_2(Rest,[Errors|Accum]) + end; +look_for_errors_resultlist_2([],Accum) -> + Accum. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Functions working on the loopdata structure. +%% Its main purpose is to store information about runtime components participating +%% in the session and their current status. +%% ------------------------------------------------------------------------------ + +-record(ld,{parent, + ctrlnode, + ctrlpid, % To where to send inviso cmd. + rtstates, + tracerdata, + safetycatches, + dbg, + actstorage % Activity storage, for reactivate. + }). + +%% Function creating the initial datastructure. +%% The datastructure is [{Node,State},...]. +%% +%% The tracerdata table is a bag simply for the reason that if we try to insert +%% the same tracerdata for a node twice, we will end up with one tracerdata after +%% all. This is useful when we insert tracerdata ourselves, the tracerdata will +%% come as a state-change too. +mk_ld(Parent,CtrlNode,CtrlPid,RTStates,NodeParams,OtherNodes,SafetyCatches,Dbg) -> + TRDtableName=list_to_atom("inviso_tool_sh_trdstorage_"++pid_to_list(self())), + TRDtid=ets:new(TRDtableName,[bag]), + ACTtableName=list_to_atom("inviso_tool_sh_actstorage_"++pid_to_list(self())), + ACTtid=ets:new(ACTtableName,[bag]), + mk_ld_fill_tracerdata(CtrlNode,TRDtid,NodeParams,OtherNodes), % Fill the ETS table. + #ld{parent=Parent, % The tool main process. + ctrlnode=CtrlNode, % Node name where the control component is. + ctrlpid=CtrlPid, % The process id of the control component. + rtstates=RTStates, % All nodes and their state/status. + tracerdata=TRDtid, + safetycatches=SafetyCatches, + dbg=Dbg, + actstorage=ACTtid + }. + +%% Help function which inserts tracer data for the nodes. Note that we can get +%% tracer data either from the return value from init_tracing or by asking the +%% node for it. The latter is necessary for the nodes which were marked not to +%% be initiated by the session handler. This maybe because those nodes have +%% autostarted. +mk_ld_fill_tracerdata(CtrlNode,TId,NodeParams,OtherNodes) -> + mk_ld_fill_tracerdata_nodeparams(TId,NodeParams), + mk_ld_fill_tracerdata_othernodes(CtrlNode,TId,OtherNodes). + +mk_ld_fill_tracerdata_nodeparams(TId,[{Node,TracerData}|Rest]) -> + ets:insert(TId,{Node,TracerData}), + mk_ld_fill_tracerdata_nodeparams(TId,Rest); +mk_ld_fill_tracerdata_nodeparams(_,[]) -> + ok. + +mk_ld_fill_tracerdata_othernodes(_,_,[]) -> % Then not necessary to do anything. + ok; +mk_ld_fill_tracerdata_othernodes(void,TId,[Node]) -> % The non-distributed case. + case inviso:get_tracerdata() of + {error,_Reason} -> % Perhaps in state new or disconnected. + ok; % Do nothing. + {ok,TracerData} -> + ets:insert(TId,{Node,TracerData}) + end; +mk_ld_fill_tracerdata_othernodes(CtrlNode,TId,Nodes) -> + case inviso_tool_lib:invisomd(CtrlNode,get_tracerdata,[Nodes]) of + {ok,Results} -> + mk_ld_fill_tracerdata_othernodes_2(TId,Results); + {error,_Reason} -> % Strange, we will probably crash later. + ok + end. + +mk_ld_fill_tracerdata_othernodes_2(TId,[{_Node,{ok,no_tracerdata}}|Rest]) -> + mk_ld_fill_tracerdata_othernodes_2(TId,Rest); % It was not initiated then! +mk_ld_fill_tracerdata_othernodes_2(TId,[{Node,{ok,TracerData}}|Rest]) -> + ets:insert(TId,{Node,TracerData}), + mk_ld_fill_tracerdata_othernodes_2(TId,Rest); +mk_ld_fill_tracerdata_othernodes_2(_,[]) -> + ok. +%% ------------------------------------------------------------------------------ + +get_ctrlnode_ld(#ld{ctrlnode=CtrlNode}) -> + CtrlNode. +%% ------------------------------------------------------------------------------ + + +get_ctrlpid_ld(#ld{ctrlpid=CtrlPid}) -> + CtrlPid. +%% ------------------------------------------------------------------------------ + +get_rtstates_ld(#ld{rtstates=RTStates}) -> + RTStates. + +put_rtstates_ld(NewRTStates,LD) -> + LD#ld{rtstates=NewRTStates}. +%% ------------------------------------------------------------------------------ + +get_trdstorage_ld(#ld{tracerdata=TId}) -> + TId. + +put_trdstorage_ld(_NewTId,LD) -> + LD. +%% ------------------------------------------------------------------------------ + +%% Help function which adds the current tracerdata of node Node to the tracerdata +%% storage. We only want to add tracerdata we have not seen before. We therefore +%% avoid adding it if the node already is in state ?TRACING. +%% Returns a new tracerdata (what ever it is)! +add_current_tracerdata_ld(CtrlNode,Node,RTStates,TId) -> + case get_statestatus_rtstates(Node,RTStates) of + {ok,{?TRACING,_}} -> % Then we have already added the tracerdata. + TId; % Then do nothing. + {ok,_} -> % Since we were not tracing before. + case add_current_tracerdata_ld_fetchtracerdata(CtrlNode,Node) of + {ok,TracerData} -> + ets:insert(TId,{Node,TracerData}); + no_tracerdata -> % Strange, how could we become tracing + ok; + {error,_Reason} -> % The node perhaps disconnected!? + ok + end; + false -> % Very strange, not our node! + ok % Do nothing. + end. + +add_current_tracerdata_ld_fetchtracerdata(void,_Node) -> + case inviso:get_tracerdata() of + {ok,TracerData} -> + {ok,TracerData}; + {error,no_tracerdata} -> + no_tracerdata; + {error,Reason} -> + {error,Reason} + end; +add_current_tracerdata_ld_fetchtracerdata(CtrlNode,Node) -> + case inviso_tool_lib:inviso_cmd(CtrlNode,get_tracerdata,[[Node]]) of + {ok,[{Node,{ok,TracerData}}]} -> + {ok,TracerData}; + {ok,[{Node,{error,no_tracerdata}}]} -> + no_tracerdata; + {ok,[{Node,{error,Reason}}]} -> + {error,Reason}; + {error,Reason} -> + {error,Reason} + end. +%% ------------------------------------------------------------------------------ + + +get_safetycatches_ld(#ld{safetycatches=SCs}) -> + SCs. +%% ------------------------------------------------------------------------------ + +get_dbg_ld(#ld{dbg=Dbg}) -> + Dbg. +%% ------------------------------------------------------------------------------ + +get_actstorage_ld(#ld{actstorage=ACTstorage}) -> + ACTstorage. + +put_actstorage_ld(_NewACTstorage,LD) -> + LD. +%% ------------------------------------------------------------------------------ + + + +%% ------------------------------------------------------------------------------ +%% Functions working on the rtstates structure (which is a substructure of loopdata). +%% It is either: +%% [{Node,StateStatus,Opts},...] +%% Node is either the node name of the runtime component erlang node or +%% ?LOCAL_RUNTIME as returned from the trace control component. +%% StateStatus is {State,Status}, 'unavailable' or 'unknown'. +%% Status is the returnvalue from trace control component. +%% i.e: running | {suspended,Reason} +%% ------------------------------------------------------------------------------ + +%% Function contructing an rtstates structure from a list of [{Node,StateStatus,Opts},...]. +to_rtstates(ListOfStates) when list(ListOfStates) -> + ListOfStates. +%% ------------------------------------------------------------------------------ + +%% Function which takes a rtstates structure and returns a list of [{Node,StateStatus},...]. +from_rtstates(RTStates) -> + RTStates. +%% ------------------------------------------------------------------------------ + +%% Function which takes an rtstates structure and a result as returned from +%% init_tracing. The RTStates is modified for the nodes that changed state as a +%% result of successful init_tracing. +%% Returns a new RTStates. +set_tracing_rtstates([E={Node,_StateStatus,Opts}|Rest],Result) -> + case lists:keysearch(Node,1,Result) of + {value,{_,ok}} -> % Means state-change to tracing! + [{Node,{tracing,running},Opts}|set_tracing_rtstates(Rest,Result)]; + _ -> % Otherwise, leave it as is. + [E|set_tracing_rtstates(Rest,Result)] + end; +set_tracing_rtstates([],_Result) -> + []. +%% ------------------------------------------------------------------------------ + +%% Function updating the state/status for a certain runtime component. +%% Returns a new RTStates structure. Note that Node must not necessarily be one +%% of the nodes in the session. Meaning that Node shall not be added to RTStates +%% should it not already be in there. +statechange_rtstates(Node,State,Status,RTStates) when list(RTStates) -> + case lists:keysearch(Node,1,RTStates) of + {value,{_,_,Opts}} -> + lists:keyreplace(Node,1,RTStates,{Node,{State,Status},Opts}); + _ -> % Then Node does not exist. + RTStates % Just keep it as is, as keyreplace would have done. + end. +%% ------------------------------------------------------------------------------ + +%% Function updating the state/status for a certain runtime component. The +%% state/status is set to 'unavailable'. +%% Returns a new RTStates structure. +set_unavailable_rtstates(Node,RTStates) when list(RTStates) -> + case lists:keysearch(Node,1,RTStates) of + {value,{_,_,Opts}} -> + lists:keyreplace(Node,1,RTStates,{Node,unavailable,Opts}); + _ -> % Then Node does not exist. + RTStates % Just keep it as is, as keyreplace would have done. + end. +%% ------------------------------------------------------------------------------ + +%% Function finding the statestatus associated with Node in the RTStates structure. +%% Returns {ok,StateStatus} or 'false'. +get_statestatus_rtstates(Node,RTStates) -> + case lists:keysearch(Node,1,RTStates) of + {value,{_,StateStatus,_}} -> + {ok,StateStatus}; + false -> + false + end. +%% ------------------------------------------------------------------------------ + +%% Help function which returns a list of all nodes that are currently marked +%% as available to us in the runtime state structure. +get_all_available_nodes_rtstates(RTStates) -> + get_all_session_nodes_rtstates(lists:filter(fun({_N,unavailable,_})->false; + (_)->true + end, + RTStates)). +%% ------------------------------------------------------------------------------ + +%% Help function returning a list of all nodes belonging to this session. +get_all_session_nodes_rtstates(RTStates) -> + lists:map(fun({Node,_,_})->Node end,RTStates). +%% ------------------------------------------------------------------------------ + +%% Function which returns a list of nodes that are indicated as tracing in the +%% RTStates structure. +get_all_tracing_nodes_rtstates(RTStates) -> + lists:map(fun({N,_,_})->N end, + lists:filter(fun({_,{tracing,_},_})->true;(_)->false end,RTStates)). +%% ------------------------------------------------------------------------------ + +%% Returns the options associated with Node in the RTStates structure. +get_opts_rtstates(Node,RTStates) -> + case lists:keysearch(Node,1,RTStates) of + {value,{_,_,Opts}} -> + {ok,Opts}; + false -> + false + end. + +%% ------------------------------------------------------------------------------ +%% Functions working on the tracerdata structure, which is a part of the loopdata. +%% The tracerdata structure is an ETS-table of type bag storing: +%% {Node,TracerData}. +%% Note that there can of course be multiple entries for a node. +%% ------------------------------------------------------------------------------ + +%% Help function which takes a tracerdata loopdata structure and returns a list +%% of all stored tracerdata for a certain Node. +find_tracerdata_for_node_trd(Node,TRD) -> + case ets:lookup(TRD,Node) of + Result when list(Result) -> + lists:map(fun({_Node,TracerData})->TracerData end,Result); + _ -> % Should probably never happend. + [] + end. +%% ------------------------------------------------------------------------------ + + +%% ------------------------------------------------------------------------------ +%% Functions working on the activity storage structure, which is part of the +%% loopdata. It stores entries about things that needs to be "redone" in case +%% of a reactivation of the node. The time order is also important. +%% Note that for every ActivityType there must be a "handler" in the reactivation +%% functionality. +%% +%% The structure is a bag of {Node,ActivityType,What}. +%% ActivityType/What=tf/{Op,TraceConfList}|tpm/{Op,[Mod,Func,Arity,MS,CallFunc]} +%% /{Op,[Mod,Func,Arity,MS,CallFunc,ReturnFunc]} +%% /{Op,[]} +%% TraceConfList=[{Proc,Flags},...] +%% How=true|false +%% ------------------------------------------------------------------------------ + +%% Function that adds meta-pattern activities to the activity storage. Note +%% that one of the parameters to the function is a return value from an +%% inviso call. In that way we do not enter activities that were unsuccessful. +%% Op can be either the setting or clearing of a meta pattern. +%% Returns a new ACTstorage. +add_tpm_actstorage([{Node,ok}|Rest],Op,InvisoCmdParams,ACTstorage) -> + true=ets:insert(ACTstorage,{Node,tpm,{Op,InvisoCmdParams}}), + add_tpm_actstorage(Rest,Op,InvisoCmdParams,ACTstorage); +add_tpm_actstorage([_|Rest],Op,InvisoCmdParams,ACTstorage) -> + add_tpm_actstorage(Rest,Op,InvisoCmdParams,ACTstorage); +add_tpm_actstorage([],_,_,ACTstorage) -> + ACTstorage. + +%% Function that adds process trace-flags to the activity storage. Note that one +%% of the parameters is the return value from an inviso function. Meaning that +%% if the flags failed in their entirety, no activity will be saved. If only +%% some of the flags failed, we will not go through the effort of trying to find +%% out exactly which. +%% Returns a new activity storage structure. +add_tf_actstorage([{_Node,{error,_Reason}}|Rest],Op,TraceConfList,ACTstorage) -> + add_tf_actstorage(Rest,Op,TraceConfList,ACTstorage); +add_tf_actstorage([{Node,_Result}|Rest],Op,TraceConfList,ACTstorage) -> + true=ets:insert(ACTstorage,{Node,tf,{Op,TraceConfList}}), + add_tf_actstorage(Rest,Op,TraceConfList,ACTstorage); +add_tf_actstorage([],_,_,ACTstorage) -> + ACTstorage. +%% ------------------------------------------------------------------------------ + +%% Finds all activities associated with Node. Returns a list of them in the +%% same order as they were inserted. +get_activities_actstorage(Node,ACTstorage) -> + case ets:lookup(ACTstorage,Node) of + [] -> + false; + Result when list(Result) -> + {ok,lists:map(fun({_N,Type,What})->{Type,What} end,Result)} + end. +%% ------------------------------------------------------------------------------ + +%% Function removing all activity entries associated with Node. This is useful +%% if the Node disconnects for instance. +del_node_actstorage(Node,ACTstorage) -> + ets:delete(ACTstorage,Node), + ACTstorage. +%% ------------------------------------------------------------------------------ + |