%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2003-2010. 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%
%%
%%% @doc Common Test specific layer on top of telnet client ct_telnet_client.erl
%%%
%%% Use this module to set up telnet connections, send commands and
%%% perform string matching on the result.
%%% See the unix_telnet manual page for information about how to use
%%% ct_telnet, and configure connections, specifically for unix hosts.
%%% The following default values are defined in ct_telnet:
%%%
%%% Connection timeout = 10 sec (time to wait for connection)
%%% Command timeout = 10 sec (time to wait for a command to return)
%%% Max no of reconnection attempts = 3
%%% Reconnection interval = 5 sek (time to wait in between reconnection attempts)
%%% Keep alive = true (will send NOP to the server every 10 sec if connection is idle)
%%% These parameters can be altered by the user with the following
%%% configuration term:
%%%
%%% {telnet_settings, [{connect_timeout,Millisec},
%%% {command_timeout,Millisec},
%%% {reconnection_attempts,N},
%%% {reconnection_interval,Millisec},
%%% {keep_alive,Bool}]}.
%%% Millisec = integer(), N = integer()
%%% Enter the telnet_settings term in a configuration
%%% file included in the test and ct_telnet will retrieve the information
%%% automatically. Note that keep_alive may be specified per connection if
%%% required. See unix_telnet for details.
%%% @type connection_type() = telnet | ts1 | ts2
%%% @type connection() = handle() |
%%% {ct:target_name(),connection_type()} | ct:target_name()
%%% @type handle() = ct_gen_conn:handle(). Handle for a
%%% specific telnet connection.
%%% @type prompt_regexp() = string(). A regular expression which
%%% matches all possible prompts for a specific type of target. The
%%% regexp must not have any groups i.e. when matching, re:run/3 shall
%%% return a list with one single element.
%%%
%%% @see unix_telnet
-module(ct_telnet).
-compile(export_all).
-export([open/1, open/2, open/3, open/4, close/1]).
-export([cmd/2, cmd/3, cmdf/3, cmdf/4, get_data/1,
send/2, sendf/3, expect/2, expect/3]).
%% Callbacks
-export([init/3,handle_msg/2,reconnect/2,terminate/2]).
%% Tool internals
-export([silent_teln_expect/5, teln_receive_until_prompt/3,
start_log/1, log/3, cont_log/2, end_log/0,
try_start_log/1, try_log/3, try_cont_log/2, try_end_log/0]).
-define(RECONNS,3).
-define(RECONN_TIMEOUT,5000).
-define(DEFAULT_TIMEOUT,10000).
-define(DEFAULT_PORT,23).
-include("ct_util.hrl").
-record(state,{teln_pid,
prx,
type,
buffer=[],
prompt=false,
name,
target_mod,
keep_alive,
extra,
conn_to=?DEFAULT_TIMEOUT,
com_to=?DEFAULT_TIMEOUT,
reconns=?RECONNS,
reconn_int=?RECONN_TIMEOUT}).
%%%-----------------------------------------------------------------
%%% @spec open(Name) -> {ok,Handle} | {error,Reason}
%%% @equiv open(Name,telnet)
open(Name) ->
open(Name,telnet).
%%%-----------------------------------------------------------------
%%% @spec open(Name,ConnType) -> {ok,Handle} | {error,Reason}
%%% Name = target_name()
%%% ConnType = ct_telnet:connection_type()
%%% Handle = ct_telnet:handle()
%%%
%%% @doc Open a telnet connection to the specified target host.
open(Name,ConnType) ->
case ct_util:get_key_from_name(Name) of
{ok, unix} -> % unix host
open(Name, ConnType, unix_telnet, Name);
{ok, Key} -> % any other, e.g. interwatch (iw), etc.
open(Name, ConnType, Key, Name);
Error ->
Error
end.
%%%-----------------------------------------------------------------
%%% @spec open(KeyOrName,ConnType,TargetMod) ->
%%% {ok,Handle} | {error,Reason}
%%% @equiv open(KeyOrName,ConnType,TargetMod,[])
open(KeyOrName,ConnType,TargetMod) ->
open(KeyOrName,ConnType,TargetMod,KeyOrName).
%%%-----------------------------------------------------------------
%%% @spec open(KeyOrName,ConnType,TargetMod,Extra) ->
%%% {ok,Handle} | {error,Reason}
%%% KeyOrName = Key | Name
%%% Key = atom()
%%% Name = ct:target_name()
%%% ConnType = connection_type()
%%% TargetMod = atom()
%%% Extra = term()
%%% Handle = handle()
%%%
%%% @doc Open a telnet connection to the specified target host.
%%%
%%% The target data must exist in a configuration file. The connection
%%% may be associated with either Name and/or the returned
%%% Handle. To allocate a name for the target,
%%% use ct:require/2 in a test case, or use a
%%% require statement in the suite info function
%%% (suite/0), or in a test case info function.
%%% If you want the connection to be associated with Handle only
%%% (in case you need to open multiple connections to a host for example),
%%% simply use Key, the configuration variable name, to
%%% specify the target. Note that a connection that has no associated target
%%% name can only be closed with the handle value.
%%%
%%% TargetMod is a module which exports the functions
%%% connect(Ip,Port,KeepAlive,Extra) and get_prompt_regexp()
%%% for the given TargetType (e.g. unix_telnet).
open(KeyOrName,ConnType,TargetMod,Extra) ->
case ct:get_config({KeyOrName,ConnType}) of
undefined ->
log(heading(open,{KeyOrName,ConnType}),"Failed: ~p",
[{not_available,KeyOrName}]),
{error,{not_available,KeyOrName,ConnType}};
Addr ->
Addr1 =
case Addr of
{_IP,_Port} ->
Addr;
IP ->
case ct:get_config({KeyOrName,port}) of
undefined -> IP;
P -> {IP,P}
end
end,
KeepAlive =
case ct:get_config({KeyOrName,keep_alive}) of
undefined ->
case ct:get_config({telnet_settings,keep_alive}) of
undefined -> true;
Bool -> Bool
end;
Bool -> Bool
end,
log(heading(open,{KeyOrName,ConnType}),"Opening connection to: ~p",[Addr1]),
ct_gen_conn:start(KeyOrName,full_addr(Addr1,ConnType),
{TargetMod,KeepAlive,Extra},?MODULE)
end.
%%%-----------------------------------------------------------------
%%% @spec close(Connection) -> ok | {error,Reason}
%%% Connection = ct_telnet:connection()
%%%
%%% @doc Close the telnet connection and stop the process managing it.
%%%
%%% A connection may be associated with a target name and/or a handle.
%%% If Connection has no associated target name, it may only
%%% be closed with the handle value (see the open/4
%%% function).
close(Connection) ->
case get_handle(Connection) of
{ok,Pid} ->
log("ct_telnet:close","Handle: ~p",[Pid]),
case ct_gen_conn:stop(Pid) of
{error,{process_down,Pid,noproc}} ->
{error,already_closed};
Result ->
Result
end;
Error ->
Error
end.
%%%=================================================================
%%% Test suite interface
%%%-----------------------------------------------------------------
%%% @spec cmd(Connection,Cmd) -> {ok,Data} | {error,Reason}
%%% @equiv cmd(Connection,Cmd,DefaultTimeout)
cmd(Connection,Cmd) ->
cmd(Connection,Cmd,default).
%%%-----------------------------------------------------------------
%%% @spec cmd(Connection,Cmd,Timeout) -> {ok,Data} | {error,Reason}
%%% Connection = ct_telnet:connection()
%%% Cmd = string()
%%% Timeout = integer()
%%% Data = [string()]
%%% @doc Send a command via telnet and wait for prompt.
cmd(Connection,Cmd,Timeout) ->
case get_handle(Connection) of
{ok,Pid} ->
call(Pid,{cmd,Cmd,Timeout});
Error ->
Error
end.
%%%-----------------------------------------------------------------
%%% @spec cmdf(Connection,CmdFormat,Args) -> {ok,Data} | {error,Reason}
%%% @equiv cmdf(Connection,CmdFormat,Args,DefaultTimeout)
cmdf(Connection,CmdFormat,Args) ->
cmdf(Connection,CmdFormat,Args,default).
%%%-----------------------------------------------------------------
%%% @spec cmdf(Connection,CmdFormat,Args,Timeout) -> {ok,Data} | {error,Reason}
%%% Connection = ct_telnet:connection()
%%% CmdFormat = string()
%%% Args = list()
%%% Timeout = integer()
%%% Data = [string()]
%%% @doc Send a telnet command and wait for prompt
%%% (uses a format string and list of arguments to build the command).
%%%-----------------------------------------------------------------
cmdf(Connection,CmdFormat,Args,Timeout) when is_list(Args) ->
Cmd = lists:flatten(io_lib:format(CmdFormat,Args)),
cmd(Connection,Cmd,Timeout).
%%%-----------------------------------------------------------------
%%% @spec get_data(Connection) -> {ok,Data} | {error,Reason}
%%% Connection = ct_telnet:connection()
%%% Data = [string()]
%%% @doc Get all data which has been received by the telnet client
%%% since last command was sent.
get_data(Connection) ->
case get_handle(Connection) of
{ok,Pid} ->
call(Pid,get_data);
Error ->
Error
end.
%%%-----------------------------------------------------------------
%%% @spec send(Connection,Cmd) -> ok | {error,Reason}
%%% Connection = ct_telnet:connection()
%%% Cmd = string()
%%% @doc Send a telnet command and return immediately.
%%%
%%% The resulting output from the command can be read with
%%% get_data/1 or expect/2/3.
send(Connection,Cmd) ->
case get_handle(Connection) of
{ok,Pid} ->
call(Pid,{send,Cmd});
Error ->
Error
end.
%%%-----------------------------------------------------------------
%%% @spec sendf(Connection,CmdFormat,Args) -> ok | {error,Reason}
%%% Connection = ct_telnet:connection()
%%% CmdFormat = string()
%%% Args = list()
%%% @doc Send a telnet command and return immediately (uses a format
%%% string and a list of arguments to build the command).
sendf(Connection,CmdFormat,Args) when is_list(Args) ->
Cmd = lists:flatten(io_lib:format(CmdFormat,Args)),
send(Connection,Cmd).
%%%-----------------------------------------------------------------
%%% @spec expect(Connection,Patterns) -> term()
%%% @equiv expect(Connections,Patterns,[])
expect(Connection,Patterns) ->
expect(Connection,Patterns,[]).
%%%-----------------------------------------------------------------
%%% @spec expect(Connection,Patterns,Opts) -> {ok,Match} |
%%% {ok,MatchList,HaltReason} |
%%% {error,Reason}
%%% Connection = ct_telnet:connection()
%%% Patterns = Pattern | [Pattern]
%%% Pattern = string() | {Tag,string()} | prompt | {prompt,Prompt}
%%% Prompt = string()
%%% Tag = term()
%%% Opts = [Opt]
%%% Opt = {timeout,Timeout} | repeat | {repeat,N} | sequence |
%%% {halt,HaltPatterns} | ignore_prompt
%%% Timeout = integer()
%%% N = integer()
%%% HaltPatterns = Patterns
%%% MatchList = [Match]
%%% Match = RxMatch | {Tag,RxMatch} | {prompt,Prompt}
%%% RxMatch = [string()]
%%% HaltReason = done | Match
%%% Reason = timeout | {prompt,Prompt}
%%%
%%% @doc Get data from telnet and wait for the expected pattern.
%%%
%%% Pattern can be a POSIX regular expression. If more
%%% than one pattern is given, the function returns when the first
%%% match is found.
%%%
%%% RxMatch is a list of matched strings. It looks
%%% like this: [FullMatch, SubMatch1, SubMatch2, ...]
%%% where FullMatch is the string matched by the whole
%%% regular expression and SubMatchN is the string that
%%% matched subexpression no N. Subexpressions are
%%% denoted with '(' ')' in the regular expression
%%%
%%% If a Tag is given, the returned Match
%%% will also include the matched Tag. Else, only
%%% RxMatch is returned.
%%%
%%% The function will always return when a prompt is found, unless
%%% the ignore_prompt options is used.
%%%
%%% The timeout option indicates that the function
%%% shall return if the telnet client is idle (i.e. if no data is
%%% received) for more than Timeout milliseconds. Default
%%% timeout is 10 seconds.
%%%
%%% The repeat option indicates that the pattern(s)
%%% shall be matched multiple times. If N is given, the
%%% pattern(s) will be matched N times, and the function
%%% will return with HaltReason = done.
%%%
%%% The sequence option indicates that all patterns
%%% shall be matched in a sequence. A match will not be concluded
%%% untill all patterns are matched.
%%%
%%% Both repeat and sequence can be
%%% interrupted by one or more HaltPatterns. When
%%% sequence or repeat is used, there will
%%% always be a MatchList returned, i.e. a list of
%%% Match instead of only one Match. There
%%% will also be a HaltReason returned.
%%%
%%% Examples:
%%% expect(Connection,[{abc,"ABC"},{xyz,"XYZ"}],
%%% [sequence,{halt,[{nnn,"NNN"}]}]).
will try to match
%%% "ABC" first and then "XYZ", but if "NNN" appears the function will
%%% return {error,{nnn,["NNN"]}}. If both "ABC" and "XYZ"
%%% are matched, the function will return
%%% {ok,[AbcMatch,XyzMatch]}.
%%%
%%% expect(Connection,[{abc,"ABC"},{xyz,"XYZ"}],
%%% [{repeat,2},{halt,[{nnn,"NNN"}]}]).
will try to match
%%% "ABC" or "XYZ" twice. If "NNN" appears the function will return
%%% with HaltReason = {nnn,["NNN"]}.
%%%
%%% The repeat and sequence options can be
%%% combined in order to match a sequence multiple times.
expect(Connection,Patterns,Opts) ->
case get_handle(Connection) of
{ok,Pid} ->
call(Pid,{expect,Patterns,Opts});
Error ->
Error
end.
%%%=================================================================
%%% Callback functions
%% @hidden
init(Name,{Ip,Port,Type},{TargetMod,KeepAlive,Extra}) ->
S0 = case ct:get_config(telnet_settings) of
undefined ->
#state{};
Settings ->
set_telnet_defaults(Settings,#state{})
end,
case catch TargetMod:connect(Ip,Port,S0#state.conn_to,KeepAlive,Extra) of
{ok,TelnPid} ->
log(heading(init,{Name,Type}),
"Opened telnet connection\n"
"IP: ~p\n"
"Port: ~p\n"
"Command timeout: ~p\n"
"Reconnection attempts: ~p\n"
"Reconnection interval: ~p\n"
"Connection timeout: ~p\n"
"Keep alive: ~w",
[Ip,Port,S0#state.com_to,S0#state.reconns,
S0#state.reconn_int,S0#state.conn_to,KeepAlive]),
{ok,TelnPid,S0#state{teln_pid=TelnPid,
type=type(Type),
name={Name,Type},
target_mod=TargetMod,
keep_alive=KeepAlive,
extra=Extra,
prx=TargetMod:get_prompt_regexp()}};
{'EXIT',Reason} ->
{error,Reason};
Error ->
Error
end.
type(telnet) -> ip;
type(TS) when TS==ts1;TS==ts2 -> ts.
set_telnet_defaults([{connect_timeout,CnTo}|Ss],S) ->
set_telnet_defaults(Ss,S#state{conn_to=CnTo});
set_telnet_defaults([{command_timeout,CmTo}|Ss],S) ->
set_telnet_defaults(Ss,S#state{com_to=CmTo});
set_telnet_defaults([{reconnection_attempts,Rs}|Ss],S) ->
set_telnet_defaults(Ss,S#state{reconns=Rs});
set_telnet_defaults([{reconnection_interval,RInt}|Ss],S) ->
set_telnet_defaults(Ss,S#state{reconn_int=RInt});
set_telnet_defaults([{keep_alive,_}|Ss],S) ->
set_telnet_defaults(Ss,S);
set_telnet_defaults([Unknown|Ss],S) ->
log(heading(set_telnet_defaults,{telnet_settings,Unknown}),
"Bad element in telnet_settings: ~p",[Unknown]),
set_telnet_defaults(Ss,S);
set_telnet_defaults([],S) ->
S.
%% @hidden
handle_msg({cmd,Cmd,Timeout},State) ->
try_start_log(heading(cmd,State#state.name)),
try_cont_log("Cmd: ~p", [Cmd]),
debug_cont_log("Throwing Buffer:",[]),
debug_log_lines(State#state.buffer),
case {State#state.type,State#state.prompt} of
{ts,_} ->
silent_teln_expect(State#state.teln_pid,
State#state.buffer,
prompt,
State#state.prx,
[{timeout,2000}]);
{ip,false} ->
silent_teln_expect(State#state.teln_pid,
State#state.buffer,
prompt,
State#state.prx,
[{timeout,200}]);
{ip,true} ->
ok
end,
TO = if Timeout == default -> State#state.com_to;
true -> Timeout
end,
{Return,NewBuffer,Prompt} =
case teln_cmd(State#state.teln_pid, Cmd, State#state.prx, TO) of
{ok,Data,_PromptType,Rest} ->
try_cont_log("Return: ~p", [{ok,Data}]),
{{ok,Data},Rest,true};
Error ->
Retry = {retry,{Error,State#state.name,State#state.teln_pid,
{cmd,Cmd,TO}}},
try_cont_log("Return: ~p", [Error]),
{Retry,[],false}
end,
try_end_log(),
{Return,State#state{buffer=NewBuffer,prompt=Prompt}};
handle_msg({send,Cmd},State) ->
try_log(heading(send,State#state.name),"Cmd: ~p",[Cmd]),
debug_cont_log("Throwing Buffer:",[]),
debug_log_lines(State#state.buffer),
case {State#state.type,State#state.prompt} of
{ts,_} ->
silent_teln_expect(State#state.teln_pid,
State#state.buffer,
prompt,
State#state.prx,
[{timeout,2000}]);
{ip,false} ->
silent_teln_expect(State#state.teln_pid,
State#state.buffer,
prompt,
State#state.prx,
[{timeout,200}]);
{ip,true} ->
ok
end,
ct_telnet_client:send_data(State#state.teln_pid,Cmd),
{ok,State#state{buffer=[],prompt=false}};
handle_msg(get_data,State) ->
try_start_log(heading(get_data,State#state.name)),
{ok,Data,Buffer} = teln_get_all_data(State#state.teln_pid,
State#state.prx,
State#state.buffer,
[],[]),
try_cont_log("Return: ~p",[{ok,Data}]),
try_end_log(),
{{ok,Data},State#state{buffer=Buffer}};
handle_msg({expect,Pattern,Opts},State) ->
try_start_log(heading(expect,State#state.name)),
try_cont_log("Expect: ~p\nOpts=~p\n",[Pattern,Opts]),
{Return,NewBuffer,Prompt} =
case teln_expect(State#state.teln_pid,
State#state.buffer,
Pattern,
State#state.prx,
Opts) of
{ok,Data,Rest} ->
P = check_if_prompt_was_reached(Data,[]),
{{ok,Data},Rest,P};
{ok,Data,HaltReason,Rest} ->
force_cont_log("HaltReason: ~p",
[HaltReason]),
P = check_if_prompt_was_reached(Data,HaltReason),
{{ok,Data,HaltReason},Rest,P};
{error,Reason,Rest} ->
force_cont_log("Expect failed\n~p",[{error,Reason}]),
P = check_if_prompt_was_reached([],Reason),
{{error,Reason},Rest,P};
{error,Reason} ->
force_cont_log("Expect failed\n~p",[{error,Reason}]),
P = check_if_prompt_was_reached([],Reason),
{{error,Reason},[],P}
end,
try_end_log(),
Return1 = case Return of
{error,_} -> {retry,{Return,State#state.name,
State#state.teln_pid,
{expect,Pattern,Opts}}};
_ -> Return
end,
{Return1,State#state{buffer=NewBuffer,prompt=Prompt}}.
%% @hidden
reconnect({Ip,Port,_Type},State) ->
reconnect(Ip,Port,State#state.reconns,State).
reconnect(Ip,Port,N,State=#state{target_mod=TargetMod,
keep_alive=KeepAlive,
extra=Extra,
conn_to=ConnTo,
reconn_int=ReconnInt}) ->
case TargetMod:connect(Ip,Port,ConnTo,KeepAlive,Extra) of
{ok, NewPid} ->
{ok, NewPid, State#state{teln_pid=NewPid}};
Error when N==0 ->
Error;
_Error ->
log("Reconnect failed!","Retries left: ~p",[N]),
timer:sleep(ReconnInt),
reconnect(Ip,Port,N-1,State)
end.
%% @hidden
terminate(TelnPid,State) ->
log(heading(terminate,State#state.name),
"Closing telnet connection.\nId: ~p",
[TelnPid]),
ct_telnet_client:close(TelnPid).
%%%=================================================================
%%% Internal function
get_handle(Pid) when is_pid(Pid) ->
{ok,Pid};
get_handle({Name,Type}) when Type==telnet;Type==ts1;Type==ts2 ->
case ct_util:get_connections(Name,?MODULE) of
{ok,Conns} when Conns /= [] ->
case get_handle(Type,Conns) of
{ok,Pid} ->
{ok,Pid};
_Error ->
case ct_util:get_key_from_name(Name) of
{ok,node} ->
open(Name,Type,ct_telnet_cello_node);
{ok,unix} -> % unix host
open(Name,Type,unix_telnet,Name);
{ok,Key} -> % any other, e.g. interwatch (iw)
open(Name,Type,Key,Name);
Error ->
Error
end
end;
{ok,[]} ->
{error,already_closed};
Error ->
Error
end;
get_handle(Name) ->
get_handle({Name,telnet}).
get_handle(Type,[{Pid,{_,_,Type}}|_]) ->
{ok,Pid};
get_handle(Type,[_H|T]) ->
get_handle(Type,T);
get_handle(Type,[]) ->
{error,{no_such_connection,Type}}.
full_addr({Ip,Port},Type) ->
{Ip,Port,Type};
full_addr(Ip,Type) ->
{Ip,?DEFAULT_PORT,Type}.
call(Pid,Msg) ->
ct_gen_conn:call(Pid,Msg).
check_if_prompt_was_reached({prompt,_},_) ->
true;
check_if_prompt_was_reached(_,{prompt,_}) ->
true;
check_if_prompt_was_reached(Data,_) when is_list(Data) ->
lists:keymember(prompt,1,Data);
check_if_prompt_was_reached(_,_) ->
false.
%tc(Fun) ->
% Before = erlang:now(),
% Val = Fun(),
% After = erlang:now(),
% {now_diff(After, Before), Val}.
%now_diff({A2, B2, C2}, {A1, B1, C1}) ->
% ((A2-A1)*1000000 + B2-B1)*1000000 + C2-C1.
heading(Function,Name) ->
io_lib:format("~w:~w ~p",[?MODULE,Function,Name]).
%%% @hidden
%% Functions for regular (unconditional) logging, to be
%% used during connect, reconnect, disconnect etc.
log(Heading,Str,Args) ->
ct_gen_conn:log(Heading,Str,Args).
%%% @hidden
start_log(Heading) ->
ct_gen_conn:start_log(Heading).
cont_log(Str,Args) ->
ct_gen_conn:cont_log(Str,Args).
end_log() ->
ct_gen_conn:end_log().
%%% @hidden
%% Functions for conditional logging, to be used by
%% cmd, send, receive, expect etc (this output may be
%% silenced by user).
try_start_log(Heading) ->
do_try_log(start_log,[Heading]).
%%% @hidden
try_end_log() ->
do_try_log(end_log,[]).
%%% @hidden
try_log(Heading,Str,Args) ->
do_try_log(log,[Heading,Str,Args]).
%%% @hidden
try_cont_log(Str,Args) ->
do_try_log(cont_log,[Str,Args]).
%%% @hidden
do_try_log(Func,Args) ->
%% check if output is suppressed
case ct_util:is_silenced(telnet) of
true ->
ok;
false ->
apply(ct_gen_conn,Func,Args)
end.
%%% @hidden
%% Functions that will force printout even if ct_telnet
%% output has been silenced, to be used for error printouts.
force_cont_log(Str,Args) ->
case ct_util:is_silenced(telnet) of
true ->
%% call log/3 now instead of cont_log/2 since
%% start_log/1 will not have been previously called
log("ct_telnet info",Str,Args);
false ->
cont_log(Str,Args)
end.
%%% @hidden
%% Debug printouts.
debug_cont_log(Str,Args) ->
Old = put(silent,true),
cont_log(Str,Args),
put(silent,Old).
%%%=================================================================
%%% Abstraction layer on top of ct_telnet_client.erl
teln_cmd(Pid,Cmd,Prx,Timeout) ->
ct_telnet_client:send_data(Pid,Cmd),
teln_receive_until_prompt(Pid,Prx,Timeout).
teln_get_all_data(Pid,Prx,Data,Acc,LastLine) ->
case check_for_prompt(Prx,lists:reverse(LastLine) ++ Data) of
{prompt,Lines,_PromptType,Rest} ->
teln_get_all_data(Pid,Prx,Rest,[Lines|Acc],[]);
{noprompt,Lines,LastLine1} ->
case ct_telnet_client:get_data(Pid) of
{ok,[]} ->
{ok,lists:reverse(lists:append([Lines|Acc])),
lists:reverse(LastLine1)};
{ok,Data1} ->
teln_get_all_data(Pid,Prx,Data1,[Lines|Acc],LastLine1)
end
end.
%% Expect options record
-record(eo,{teln_pid,
prx,
timeout,
haltpatterns=[],
seq=false,
repeat=false,
found_prompt=false}).
%% @hidden
%% @doc Externally the silent_teln_expect function shall only be used
%% by the TargetModule, i.e. the target specific module which
%% implements connect/2 and get_prompt_regexp/0.
silent_teln_expect(Pid,Data,Pattern,Prx,Opts) ->
Old = put(silent,true),
try_cont_log("silent_teln_expect/5, Pattern = ~p",[Pattern]),
Result = teln_expect(Pid,Data,Pattern,Prx,Opts),
try_cont_log("silent_teln_expect -> ~p\n",[Result]),
put(silent,Old),
Result.
%% teln_expect/5
%%
%% This function implements the expect functionality over telnet. In
%% general there are three possible ways to go:
%% 1) Single: One or more patterns are given, and the function return
%% when one of the patterns are matched.
%% 2) Sequence: Several patterns are given, and they are matched in
%% the order they appear in the pattern list.
%% 3a) Repeat (single): 1) is repeated either N times or until a halt
%% condition is fullfilled.
%% 3b) Repeat (sequence): 2) is repeated either N times or until a
%% halt condition is fullfilled.
teln_expect(Pid,Data,Pattern0,Prx,Opts) -> HaltPatterns = case
get_ignore_prompt(Opts) of true -> get_haltpatterns(Opts); false
-> [prompt | get_haltpatterns(Opts)] end,
Seq = get_seq(Opts),
Pattern = convert_pattern(Pattern0,Seq),
Timeout = get_timeout(Opts),
EO = #eo{teln_pid=Pid,
prx=Prx,
timeout=Timeout,
seq=Seq,
haltpatterns=HaltPatterns},
case get_repeat(Opts) of
false ->
case teln_expect1(Data,Pattern,[],EO) of
{ok,Matched,Rest} ->
{ok,Matched,Rest};
{halt,Why,Rest} ->
{error,Why,Rest};
{error,Reason} ->
{error,Reason}
end;
N ->
EO1 = EO#eo{repeat=N},
repeat_expect(Data,Pattern,[],EO1)
end.
convert_pattern(Pattern,Seq)
when is_list(Pattern) and not is_integer(hd(Pattern)) ->
case Seq of
true -> Pattern;
false -> rm_dupl(Pattern,[])
end;
convert_pattern(Pattern,_Seq) ->
[Pattern].
rm_dupl([P|Ps],Acc) ->
case lists:member(P,Acc) of
true ->
rm_dupl(Ps,Acc);
false ->
rm_dupl(Ps,[P|Acc])
end;
rm_dupl([],Acc) ->
lists:reverse(Acc).
get_timeout(Opts) ->
case lists:keysearch(timeout,1,Opts) of
{value,{timeout,T}} -> T;
false -> ?DEFAULT_TIMEOUT
end.
get_repeat(Opts) ->
case lists:keysearch(repeat,1,Opts) of
{value,{repeat,N}} when is_integer(N) ->
N;
false ->
case lists:member(repeat,Opts) of
true ->
-1;
false ->
false
end
end.
get_seq(Opts) ->
lists:member(sequence,Opts).
get_haltpatterns(Opts) ->
case lists:keysearch(halt,1,Opts) of
{value,{halt,HaltPatterns}} ->
convert_pattern(HaltPatterns,false);
false ->
[]
end.
get_ignore_prompt(Opts) ->
lists:member(ignore_prompt,Opts).
%% Repeat either single or sequence. All match results are accumulated
%% and returned when a halt condition is fulllfilled.
repeat_expect(Rest,_Pattern,Acc,#eo{repeat=0}) ->
{ok,lists:reverse(Acc),done,Rest};
repeat_expect(Data,Pattern,Acc,EO) ->
case teln_expect1(Data,Pattern,[],EO) of
{ok,Matched,Rest} ->
EO1 = EO#eo{repeat=EO#eo.repeat-1},
repeat_expect(Rest,Pattern,[Matched|Acc],EO1);
{halt,Why,Rest} ->
{ok,lists:reverse(Acc),Why,Rest};
{error,Reason} ->
{error,Reason}
end.
teln_expect1(Data,Pattern,Acc,EO) ->
ExpectFun = case EO#eo.seq of
true -> fun() -> seq_expect(Data,Pattern,Acc,EO) end;
false -> fun() -> one_expect(Data,Pattern,EO) end
end,
case ExpectFun() of
{match,Match,Rest} ->
{ok,Match,Rest};
{halt,Why,Rest} ->
{halt,Why,Rest};
NotFinished ->
%% Get more data
Fun = fun() -> get_data1(EO#eo.teln_pid) end,
case ct_gen_conn:do_within_time(Fun, EO#eo.timeout) of
{error,Reason} ->
%% A timeout will occur when the telnet connection
%% is idle for EO#eo.timeout milliseconds.
{error,Reason};
{ok,Data1} ->
case NotFinished of
{nomatch,Rest} ->
%% One expect
teln_expect1(Rest++Data1,Pattern,[],EO);
{continue,Patterns1,Acc1,Rest} ->
%% Sequence
teln_expect1(Rest++Data1,Patterns1,Acc1,EO)
end
end
end.
get_data1(Pid) ->
case ct_telnet_client:get_data(Pid) of
{ok,[]} ->
get_data1(Pid);
{ok,Data} ->
{ok,Data}
end.
%% 1) Single expect.
%% First the whole data chunk is searched for a prompt (to avoid doing
%% a regexp match for the prompt at each line).
%% If we are searching for anyting else, the datachunk is split into
%% lines and each line is matched against each pattern.
%% one_expect: split data chunk at prompts
one_expect(Data,Pattern,EO) ->
case match_prompt(Data,EO#eo.prx) of
{prompt,UptoPrompt,PromptType,Rest} ->
case Pattern of
[Prompt] when Prompt==prompt; Prompt=={prompt,PromptType} ->
%% Only searching for prompt
log_lines(UptoPrompt),
try_cont_log("PROMPT: ~s", [PromptType]),
{match,{prompt,PromptType},Rest};
[{prompt,_OtherPromptType}] ->
%% Only searching for one specific prompt, not thisone
log_lines(UptoPrompt),
{nomatch,Rest};
_ ->
one_expect1(UptoPrompt,Pattern,Rest,
EO#eo{found_prompt=PromptType})
end;
noprompt ->
case Pattern of
[Prompt] when Prompt==prompt; element(1,Prompt)==prompt ->
%% Only searching for prompt
LastLine = log_lines_not_last(Data),
{nomatch,LastLine};
_ ->
one_expect1(Data,Pattern,[],EO#eo{found_prompt=false})
end
end.
remove_zero(List) ->
[Ch || Ch <- List, Ch=/=0, Ch=/=13].
%% one_expect1: split data chunk at lines
one_expect1(Data,Pattern,Rest,EO) ->
case match_lines(Data,Pattern,EO) of
{match,Match,MatchRest} ->
{match,Match,MatchRest++Rest};
{nomatch,prompt} ->
one_expect(Rest,Pattern,EO);
{nomatch,NoMatchRest} ->
{nomatch,NoMatchRest++Rest};
{halt,Why,HaltRest} ->
{halt,Why,HaltRest++Rest}
end.
%% 2) Sequence.
%% First the whole data chunk is searched for a prompt (to avoid doing
%% a regexp match for the prompt at each line).
%% If we are searching for anyting else, the datachunk is split into
%% lines and each line is matched against the first pattern in the list.
%% When a match is found, the match result is accumulated, and we keep
%% searching for the next pattern in the list.
%% seq_expect: Split data chunk at prompts
seq_expect(Data,[],Acc,_EO) ->
{match,lists:reverse(Acc),Data};
seq_expect([],Patterns,Acc,_EO) ->
{continue,Patterns,lists:reverse(Acc),[]};
seq_expect(Data,Patterns,Acc,EO) ->
case match_prompt(Data,EO#eo.prx) of
{prompt,UptoPrompt,PromptType,Rest} ->
seq_expect1(UptoPrompt,Patterns,Acc,Rest,
EO#eo{found_prompt=PromptType});
noprompt ->
seq_expect1(Data,Patterns,Acc,[],EO#eo{found_prompt=false})
end.
%% seq_expect1: For one prompt-chunk, match each pattern - line by
%% line if it is other than the prompt we are seaching for.
seq_expect1(Data,[prompt|Patterns],Acc,Rest,EO) ->
case EO#eo.found_prompt of
false ->
LastLine = log_lines_not_last(Data),
%% Rest==[] because no prompt is found
{continue,[prompt|Patterns],Acc,LastLine};
PromptType ->
log_lines(Data),
try_cont_log("PROMPT: ~s", [PromptType]),
seq_expect(Rest,Patterns,[{prompt,PromptType}|Acc],EO)
end;
seq_expect1(Data,[{prompt,PromptType}|Patterns],Acc,Rest,EO) ->
case EO#eo.found_prompt of
false ->
LastLine = log_lines_not_last(Data),
%% Rest==[] because no prompt is found
{continue,[{prompt,PromptType}|Patterns],Acc,LastLine};
PromptType ->
log_lines(Data),
try_cont_log("PROMPT: ~s", [PromptType]),
seq_expect(Rest,Patterns,[{prompt,PromptType}|Acc],EO);
_OtherPromptType ->
log_lines(Data),
seq_expect(Rest,[{prompt,PromptType}|Patterns],Acc,EO)
end;
seq_expect1(Data,[Pattern|Patterns],Acc,Rest,EO) ->
case match_lines(Data,[Pattern],EO) of
{match,Match,MatchRest} ->
seq_expect1(MatchRest,Patterns,[Match|Acc],Rest,EO);
{nomatch,prompt} ->
seq_expect(Rest,[Pattern|Patterns],Acc,EO);
{nomatch,NoMatchRest} when Rest==[] ->
%% The data did not end with a prompt
{continue,[Pattern|Patterns],Acc,NoMatchRest};
{halt,Why,HaltRest} ->
{halt,Why,HaltRest++Rest}
end;
seq_expect1(Data,[],Acc,Rest,_EO) ->
{match,lists:reverse(Acc),Data++Rest}.
%% Split prompt-chunk at lines
match_lines(Data,Patterns,EO) ->
FoundPrompt = EO#eo.found_prompt,
case one_line(Data,[]) of
{noline,Rest} when FoundPrompt=/=false ->
%% This is the line including the prompt
case match_line(Rest,Patterns,FoundPrompt,EO) of
nomatch ->
{nomatch,prompt};
{Tag,Match} ->
{Tag,Match,[]}
end;
{noline,Rest} ->
{nomatch,Rest};
{Line,Rest} ->
case match_line(Line,Patterns,false,EO) of
nomatch ->
match_lines(Rest,Patterns,EO);
{Tag,Match} ->
{Tag,Match,Rest}
end
end.
%% For one line, match each pattern
match_line(Line,Patterns,FoundPrompt,EO) ->
match_line(Line,Patterns,FoundPrompt,EO,match).
match_line(Line,[prompt|Patterns],false,EO,RetTag) ->
match_line(Line,Patterns,false,EO,RetTag);
match_line(Line,[prompt|_Patterns],FoundPrompt,_EO,RetTag) ->
try_cont_log(" ~s", [Line]),
try_cont_log("PROMPT: ~s", [FoundPrompt]),
{RetTag,{prompt,FoundPrompt}};
match_line(Line,[{prompt,PromptType}|_Patterns],FoundPrompt,_EO,RetTag)
when PromptType==FoundPrompt ->
try_cont_log(" ~s", [Line]),
try_cont_log("PROMPT: ~s", [FoundPrompt]),
{RetTag,{prompt,FoundPrompt}};
match_line(Line,[{prompt,PromptType}|Patterns],FoundPrompt,EO,RetTag)
when PromptType=/=FoundPrompt ->
match_line(Line,Patterns,FoundPrompt,EO,RetTag);
match_line(Line,[{Tag,Pattern}|Patterns],FoundPrompt,EO,RetTag) ->
case re:run(Line,Pattern,[{capture,all,list}]) of
nomatch ->
match_line(Line,Patterns,FoundPrompt,EO,RetTag);
{match,Match} ->
try_cont_log("MATCH: ~s", [Line]),
{RetTag,{Tag,Match}}
end;
match_line(Line,[Pattern|Patterns],FoundPrompt,EO,RetTag) ->
case re:run(Line,Pattern,[{capture,all,list}]) of
nomatch ->
match_line(Line,Patterns,FoundPrompt,EO,RetTag);
{match,Match} ->
try_cont_log("MATCH: ~s", [Line]),
{RetTag,Match}
end;
match_line(Line,[],FoundPrompt,EO,match) ->
match_line(Line,EO#eo.haltpatterns,FoundPrompt,EO,halt);
match_line(Line,[],_FoundPrompt,_EO,halt) ->
try_cont_log(" ~s", [Line]),
nomatch.
one_line([$\n|Rest],Line) ->
{lists:reverse(Line),Rest};
one_line([$\r|Rest],Line) ->
one_line(Rest,Line);
one_line([0|Rest],Line) ->
one_line(Rest,Line);
one_line([Char|Rest],Line) ->
one_line(Rest,[Char|Line]);
one_line([],Line) ->
{noline,lists:reverse(Line)}.
debug_log_lines(String) ->
Old = put(silent,true),
log_lines(String),
put(silent,Old).
log_lines(String) ->
case log_lines_not_last(String) of
[] ->
ok;
LastLine ->
try_cont_log(" ~s", [LastLine])
end.
log_lines_not_last(String) ->
case add_tabs(String,[],[]) of
{[],LastLine} ->
LastLine;
{String1,LastLine} ->
try_cont_log("~s",[String1]),
LastLine
end.
add_tabs([0|Rest],Acc,LastLine) ->
add_tabs(Rest,Acc,LastLine);
add_tabs([$\r|Rest],Acc,LastLine) ->
add_tabs(Rest,Acc,LastLine);
add_tabs([$\n|Rest],Acc,LastLine) ->
add_tabs(Rest,[$\n|LastLine] ++ [$\s,$\s,$\s,$\s,$\s,$\s,$\s|Acc],[]);
add_tabs([Ch|Rest],Acc,LastLine) ->
add_tabs(Rest,Acc,[Ch|LastLine]);
add_tabs([],[$\n|Acc],LastLine) ->
{lists:reverse(Acc),lists:reverse(LastLine)};
add_tabs([],[],LastLine) ->
{[],lists:reverse(LastLine)}.
%%% @hidden
teln_receive_until_prompt(Pid,Prx,Timeout) ->
Fun = fun() -> teln_receive_until_prompt(Pid,Prx,[],[]) end,
ct_gen_conn:do_within_time(Fun, Timeout).
teln_receive_until_prompt(Pid,Prx,Acc,LastLine) ->
{ok,Data} = ct_telnet_client:get_data(Pid),
case check_for_prompt(Prx,LastLine ++ Data) of
{prompt,Lines,PromptType,Rest} ->
Return = lists:reverse(lists:append([Lines|Acc])),
{ok,Return,PromptType,Rest};
{noprompt,Lines,LastLine1} ->
teln_receive_until_prompt(Pid,Prx,[Lines|Acc],LastLine1)
end.
check_for_prompt(Prx,Data) ->
case match_prompt(Data,Prx) of
{prompt,UptoPrompt,PromptType,Rest} ->
{RevLines,LastLine} = split_lines(UptoPrompt),
{prompt,[LastLine|RevLines],PromptType,Rest};
noprompt ->
{RevLines,Rest} = split_lines(Data),
{noprompt,RevLines,Rest}
end.
split_lines(String) ->
split_lines(String,[],[]).
split_lines([$\n|Rest],Line,Lines) ->
split_lines(Rest,[],[lists:reverse(Line)|Lines]);
split_lines([$\r|Rest],Line,Lines) ->
split_lines(Rest,Line,Lines);
split_lines([0|Rest],Line,Lines) ->
split_lines(Rest,Line,Lines);
split_lines([Char|Rest],Line,Lines) ->
split_lines(Rest,[Char|Line],Lines);
split_lines([],Line,Lines) ->
{Lines,lists:reverse(Line)}.
match_prompt(Str,Prx) ->
match_prompt(Str,Prx,[]).
match_prompt(Str,Prx,Acc) ->
case re:run(Str,Prx) of
nomatch ->
noprompt;
{match,[{Start,Len}]} ->
case split_prompt_string(Str,Start+1,Start+Len,1,[],[]) of
{noprompt,Done,Rest} ->
match_prompt(Rest,Prx,Done);
{prompt,UptoPrompt,Prompt,Rest} ->
{prompt,lists:reverse(UptoPrompt++Acc),
lists:reverse(Prompt),Rest}
end
end.
split_prompt_string([Ch|Str],Start,End,N,UptoPrompt,Prompt) when N
split_prompt_string(Str,Start,End,N+1,[Ch|UptoPrompt],Prompt);
split_prompt_string([Ch|Str],Start,End,N,UptoPrompt,Prompt)
when N>=Start, N
split_prompt_string(Str,Start,End,N+1,UptoPrompt,[Ch|Prompt]);
split_prompt_string([Ch|Rest],_Start,End,N,UptoPrompt,Prompt) when N==End ->
case UptoPrompt of
[$",$=,$T,$P,$M,$O,$R,$P|_] ->
%% This is a line from "listenv", it is not a real prompt
{noprompt,[Ch|Prompt]++UptoPrompt,Rest};
[$\s,$t,$s,$a|_] when Prompt==":nigol" ->
%% This is probably the "Last login:" statement which is
%% written when telnet connection is openend.
{noprompt,[Ch|Prompt]++UptoPrompt,Rest};
_ ->
{prompt,[Ch|Prompt]++UptoPrompt,[Ch|Prompt],Rest}
end.