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authorMicael Karlberg <[email protected]>2011-03-17 16:02:02 +0100
committerMicael Karlberg <[email protected]>2011-03-17 16:02:02 +0100
commit5cba72579ad75f85797aae14fde94fca6acf6406 (patch)
treedcced80b5816741682d10f77d37e5a059c054e42 /lib/inviso/src
parentc959a0cd5392d356e8bda8d7eb9d0e71a88360b3 (diff)
parentf861b4fdb3fd39e35f2951c53a73b30a98c7f973 (diff)
downloadotp-5cba72579ad75f85797aae14fde94fca6acf6406.tar.gz
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Merge branch 'dev' into bmk/inets/httpc/support_upload_body_streaming/OTP-9094
Conflicts: lib/inets/doc/src/notes.xml Fixed release notes after merge.
Diffstat (limited to 'lib/inviso/src')
-rw-r--r--lib/inviso/src/inviso_tool.erl6511
-rw-r--r--lib/inviso/src/inviso_tool_sh.erl3480
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.
+%% ------------------------------------------------------------------------------
+