%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2003-2013. 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 Main user interface for the Common Test framework. %%% %%%

This module implements the command line interface for running %%% tests and some basic functions for common test case issues %%% such as configuration and logging.

%%% %%%

Test Suite Support Macros

%%% %%%

The config macro is defined in ct.hrl. This %%% macro should be used to retrieve information from the %%% Config variable sent to all test cases. It is used with two %%% arguments, where the first is the name of the configuration %%% variable you wish to retrieve, and the second is the Config %%% variable supplied to the test case.

%%% %%%

Possible configuration variables include:

%%% %%% @type var_name() = atom(). A variable name which is specified when %%% ct:require/2 is called, %%% e.g. ct:require(mynodename,{node,[telnet]}) %%% %%% @type target_name() = var_name(). The name of a target. %%% %%% @type handle() = ct_gen_conn:handle() | term(). The identity of a %%% specific connection. -module(ct). -include("ct.hrl"). %% Command line user interface for running tests -export([install/1, run/1, run/2, run/3, run_test/1, run_testspec/1, step/3, step/4, start_interactive/0, stop_interactive/0]). %% Test suite API -export([require/1, require/2, get_config/1, get_config/2, get_config/3, reload_config/1, log/1, log/2, log/3, log/4, print/1, print/2, print/3, print/4, pal/1, pal/2, pal/3, pal/4, capture_start/0, capture_stop/0, capture_get/0, capture_get/1, fail/1, fail/2, comment/1, comment/2, make_priv_dir/0, testcases/2, userdata/2, userdata/3, timetrap/1, get_timetrap_info/0, sleep/1, notify/2, sync_notify/2, break/1, break/2, continue/0, continue/1]). %% New API for manipulating with config handlers -export([add_config/2, remove_config/2]). %% Other interface functions -export([get_status/0, abort_current_testcase/1, encrypt_config_file/2, encrypt_config_file/3, decrypt_config_file/2, decrypt_config_file/3]). -export([get_target_name/1]). -export([parse_table/1, listenv/1]). %%%----------------------------------------------------------------- %%% @spec install(Opts) -> ok | {error,Reason} %%% Opts = [Opt] %%% Opt = {config,ConfigFiles} | {event_handler,Modules} | %%% {decrypt,KeyOrFile} %%% ConfigFiles = [ConfigFile] %%% ConfigFile = string() %%% Modules = [atom()] %%% KeyOrFile = {key,Key} | {file,KeyFile} %%% Key = string() %%% KeyFile = string() %%% @doc Install config files and event handlers. %%% %%%

Run this function once before first test.

%%% %%%

Example:
%%% install([{config,["config_node.ctc","config_user.ctc"]}]).

%%% %%%

Note that this function is automatically run by the %%% ct_run program.

install(Opts) -> ct_run:install(Opts). %%%----------------------------------------------------------------- %%% @spec run(TestDir,Suite,Cases) -> Result %%% TestDir = string() %%% Suite = atom() %%% Cases = atom() | [atom()] %%% Result = [TestResult] | {error,Reason} %%% %%% @doc Run the given test case(s). %%% %%%

Requires that ct:install/1 has been run first.

%%% %%%

Suites (*_SUITE.erl) files must be stored in %%% TestDir or TestDir/test. All suites %%% will be compiled when test is run.

run(TestDir,Suite,Cases) -> ct_run:run(TestDir,Suite,Cases). %%%----------------------------------------------------------------- %%% @spec run(TestDir,Suite) -> Result %%% %%% @doc Run all test cases in the given suite. %%% @see run/3. run(TestDir,Suite) -> ct_run:run(TestDir,Suite). %%%----------------------------------------------------------------- %%% @spec run(TestDirs) -> Result %%% TestDirs = TestDir | [TestDir] %%% %%% @doc Run all test cases in all suites in the given directories. %%% @see run/3. run(TestDirs) -> ct_run:run(TestDirs). %%%----------------------------------------------------------------- %%% @spec run_test(Opts) -> Result %%% Opts = [OptTuples] %%% OptTuples = {dir,TestDirs} | {suite,Suites} | {group,Groups} | %%% {testcase,Cases} | {spec,TestSpecs} | {join_specs,Bool} | %%% {label,Label} | {config,CfgFiles} | {userconfig, UserConfig} | %%% {allow_user_terms,Bool} | {logdir,LogDir} | %%% {silent_connections,Conns} | {stylesheet,CSSFile} | %%% {cover,CoverSpecFile} | {cover_stop,Bool} | {step,StepOpts} | %%% {event_handler,EventHandlers} | {include,InclDirs} | %%% {auto_compile,Bool} | {create_priv_dir,CreatePrivDir} | %%% {multiply_timetraps,M} | {scale_timetraps,Bool} | %%% {repeat,N} | {duration,DurTime} | {until,StopTime} | %%% {force_stop,ForceStop} | {decrypt,DecryptKeyOrFile} | %%% {refresh_logs,LogDir} | {logopts,LogOpts} | %%% {verbosity,VLevels} | {basic_html,Bool} | %%% {ct_hooks, CTHs} | {enable_builtin_hooks,Bool} | %%% {release_shell,Bool} %%% TestDirs = [string()] | string() %%% Suites = [string()] | [atom()] | string() | atom() %%% Cases = [atom()] | atom() %%% Groups = GroupNameOrPath | [GroupNameOrPath] %%% GroupNameOrPath = [atom()] | atom() | all %%% TestSpecs = [string()] | string() %%% Label = string() | atom() %%% CfgFiles = [string()] | string() %%% UserConfig = [{CallbackMod,CfgStrings}] | {CallbackMod,CfgStrings} %%% CallbackMod = atom() %%% CfgStrings = [string()] | string() %%% LogDir = string() %%% Conns = all | [atom()] %%% CSSFile = string() %%% CoverSpecFile = string() %%% StepOpts = [StepOpt] | [] %%% StepOpt = config | keep_inactive %%% EventHandlers = EH | [EH] %%% EH = atom() | {atom(),InitArgs} | {[atom()],InitArgs} %%% InitArgs = [term()] %%% InclDirs = [string()] | string() %%% CreatePrivDir = auto_per_run | auto_per_tc | manual_per_tc %%% M = integer() %%% N = integer() %%% DurTime = string(HHMMSS) %%% StopTime = string(YYMoMoDDHHMMSS) | string(HHMMSS) %%% ForceStop = skip_rest | Bool %%% DecryptKeyOrFile = {key,DecryptKey} | {file,DecryptFile} %%% DecryptKey = string() %%% DecryptFile = string() %%% LogOpts = [LogOpt] %%% LogOpt = no_nl | no_src %%% VLevels = VLevel | [{Category,VLevel}] %%% VLevel = integer() %%% Category = atom() %%% CTHs = [CTHModule | {CTHModule, CTHInitArgs}] %%% CTHModule = atom() %%% CTHInitArgs = term() %%% Result = {Ok,Failed,{UserSkipped,AutoSkipped}} | TestRunnerPid | {error,Reason} %%% Ok = integer() %%% Failed = integer() %%% UserSkipped = integer() %%% AutoSkipped = integer() %%% TestRunnerPid = pid() %%% Reason = term() %%% @doc

Run tests as specified by the combination of options in Opts. %%% The options are the same as those used with the %%% ct_run program. %%% Note that here a TestDir can be used to point out the path to %%% a Suite. Note also that the option testcase %%% corresponds to the -case option in the ct_run %%% program. Configuration files specified in Opts will be %%% installed automatically at startup.

%%%

TestRunnerPid is returned if release_shell == true %%% (see break/1 for details).

%%%

Reason indicates what type of error has been encountered.

run_test(Opts) -> ct_run:run_test(Opts). %%%----------------------------------------------------------------- %%% @spec run_testspec(TestSpec) -> Result %%% TestSpec = [term()] %%% Result = {Ok,Failed,{UserSkipped,AutoSkipped}} | {error,Reason} %%% Ok = integer() %%% Failed = integer() %%% UserSkipped = integer() %%% AutoSkipped = integer() %%% Reason = term() %%% @doc Run test specified by TestSpec. The terms are %%% the same as those used in test specification files. %%%

Reason indicates what type of error has been encountered.

run_testspec(TestSpec) -> ct_run:run_testspec(TestSpec). %%%----------------------------------------------------------------- %%% @spec step(TestDir,Suite,Case) -> Result %%% Case = atom() %%% %%% @doc Step through a test case with the debugger. %%% @see run/3 step(TestDir,Suite,Case) -> ct_run:step(TestDir,Suite,Case). %%%----------------------------------------------------------------- %%% @spec step(TestDir,Suite,Case,Opts) -> Result %%% Case = atom() %%% Opts = [Opt] | [] %%% Opt = config | keep_inactive %%% %%% @doc Step through a test case with the debugger. If the %%% config option has been given, breakpoints will %%% be set also on the configuration functions in Suite. %%% @see run/3 step(TestDir,Suite,Case,Opts) -> ct_run:step(TestDir,Suite,Case,Opts). %%%----------------------------------------------------------------- %%% @spec start_interactive() -> ok %%% %%% @doc Start CT in interactive mode. %%% %%%

From this mode all test case support functions can be executed %%% directly from the erlang shell. The interactive mode can also be %%% started from the OS command line with ct_run -shell %%% [-config File...].

%%% %%%

If any functions using "required config data" (e.g. telnet or %%% ftp functions) are to be called from the erlang shell, config data %%% must first be required with ct:require/2.

%%% %%%

Example:
%%% > ct:require(unix_telnet, unix).
%%% ok
%%% > ct_telnet:open(unix_telnet).
%%% {ok,<0.105.0>}
%%% > ct_telnet:cmd(unix_telnet, "ls .").
%%% {ok,["ls","file1 ...",...]}

start_interactive() -> ct_util:start(interactive), ok. %%%----------------------------------------------------------------- %%% @spec stop_interactive() -> ok %%% %%% @doc Exit the interactive mode. %%% @see start_interactive/0 stop_interactive() -> ct_util:stop(normal), ok. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% MISC INTERFACE %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%----------------------------------------------------------------- %%% @spec require(Required) -> ok | {error,Reason} %%% Required = Key | {Key,SubKeys} | {Key,SubKey,SubKeys} %%% Key = atom() %%% SubKeys = SubKey | [SubKey] %%% SubKey = atom() %%% %%% @doc Check if the required configuration is available. It is possible %%% to specify arbitrarily deep tuples as Required. Note that it is %%% only the last element of the tuple which can be a list of SubKeys. %%% %%%

Example 1: require the variable myvar:

%%% 
ok = ct:require(myvar).
%%% %%%

In this case the config file must at least contain:

%%% 
{myvar,Value}.
%%% %%%

Example 2: require the key myvar with %%% subkeys sub1 and sub2:

%%% 
ok = ct:require({myvar,[sub1,sub2]}).
%%% %%%

In this case the config file must at least contain:

%%% 
{myvar,[{sub1,Value},{sub2,Value}]}.
%%% %%%

Example 3: require the key myvar with %%% subkey sub1 with subsub1:

%%% 
ok = ct:require({myvar,sub1,sub2}).
%%% %%%

In this case the config file must at least contain:

%%% 
{myvar,[{sub1,[{sub2,Value}]}]}.
%%% %%% @see require/2 %%% @see get_config/1 %%% @see get_config/2 %%% @see get_config/3 require(Required) -> ct_config:require(Required). %%%----------------------------------------------------------------- %%% @spec require(Name,Required) -> ok | {error,Reason} %%% Name = atom() %%% Required = Key | {Key,SubKey} | {Key,SubKey,SubKey} %%% SubKey = Key %%% Key = atom() %%% %%% @doc Check if the required configuration is available, and give it %%% a name. The semantics for Required is the same as in %%% required/1 except that it is not possible to specify a list %%% of SubKeys. %%% %%%

If the requested data is available, the sub entry will be %%% associated with Name so that the value of the element %%% can be read with get_config/1,2 provided %%% Name instead of the whole Required term.

%%% %%%

Example: Require one node with a telnet connection and an %%% ftp connection. Name the node a: %%% 

ok = ct:require(a,{machine,node}).
%%% All references to this node may then use the node name. %%% E.g. you can fetch a file over ftp like this:

%%% 
ok = ct:ftp_get(a,RemoteFile,LocalFile).
%%% %%%

For this to work, the config file must at least contain:

%%% 
{machine,[{node,[{telnet,IpAddr},{ftp,IpAddr}]}]}.
%%% %%%

The behaviour of this function changed radically in common_test %%% 1.6.2. In order too keep some backwards compatability it is still possible %%% to do:
ct:require(a,{node,[telnet,ftp]}).
%%% This will associate the name a with the top level node entry. %%% For this to work, the config file must at least contain:
%%% {node,[{telnet,IpAddr},{ftp,IpAddr}]}.

 %%% %%% @see require/1 %%% @see get_config/1 %%% @see get_config/2 %%% @see get_config/3 require(Name,Required) -> ct_config:require(Name,Required). %%%----------------------------------------------------------------- %%% @spec get_config(Required) -> Value %%% @equiv get_config(Required,undefined,[]) get_config(Required) -> ct_config:get_config(Required,undefined,[]). %%%----------------------------------------------------------------- %%% @spec get_config(Required,Default) -> Value %%% @equiv get_config(Required,Default,[]) get_config(Required,Default) -> ct_config:get_config(Required,Default,[]). %%%----------------------------------------------------------------- %%% @spec get_config(Required,Default,Opts) -> ValueOrElement %%% Required = KeyOrName | {KeyOrName,SubKey} | {KeyOrName,SubKey,SubKey} %%% KeyOrName = atom() %%% SubKey = atom() %%% Default = term() %%% Opts = [Opt] | [] %%% Opt = element | all %%% ValueOrElement = term() | Default %%% %%% @doc Read config data values. %%% %%%

This function returns the matching value(s) or config element(s), %%% given a config variable key or its associated name %%% (if one has been specified with require/2 or a %%% require statement).

%%% %%%

Example, given the following config file:

%%% 
%%% {unix,[{telnet,IpAddr},
%%%        {user,[{username,Username},
%%%               {password,Password}]}]}.
%%%

ct:get_config(unix,Default) -> %%% [{telnet,IpAddr}, %%% {user, [{username,Username}, %%% {password,Password}]}]
%%% ct:get_config({unix,telnet},Default) -> IpAddr
%%% ct:get_config({unix,user,username},Default) -> Username
%%% ct:get_config({unix,ftp},Default) -> Default
%%% ct:get_config(unknownkey,Default) -> Default

%%% %%%

If a config variable key has been associated with a name (by %%% means of require/2 or a require statement), the name %%% may be used instead of the key to read the value:

%%% %%%

ct:require(myuser,{unix,user}) -> ok.
%%% ct:get_config(myuser,Default) -> %%% [{username,Username}, %%% {password,Password}]

%%% %%%

If a config variable is defined in multiple files and you want to %%% access all possible values, use the all option. The %%% values will be returned in a list and the order of the elements %%% corresponds to the order that the config files were specified at %%% startup.

%%% %%%

If you want config elements (key-value tuples) returned as result %%% instead of values, use the element option. %%% The returned elements will then be on the form {Required,Value}

%%% %%% @see get_config/1 %%% @see get_config/2 %%% @see require/1 %%% @see require/2 get_config(Required,Default,Opts) -> ct_config:get_config(Required,Default,Opts). %%%----------------------------------------------------------------- %%% @spec reload_config(Required) -> ValueOrElement %%% Required = KeyOrName | {KeyOrName,SubKey} | {KeyOrName,SubKey,SubKey} %%% KeyOrName = atom() %%% SubKey = atom() %%% ValueOrElement = term() %%% %%% @doc Reload config file which contains specified configuration key. %%% %%%

This function performs updating of the configuration data from which the %%% given configuration variable was read, and returns the (possibly) new %%% value of this variable.

%%%

Note that if some variables were present in the configuration but are not loaded %%% using this function, they will be removed from the configuration table together %%% with their aliases.

%%% reload_config(Required)-> ct_config:reload_config(Required). %%%----------------------------------------------------------------- %%% @spec log(Format) -> ok %%% @equiv log(default,50,Format,[]) log(Format) -> log(default,?STD_IMPORTANCE,Format,[]). %%%----------------------------------------------------------------- %%% @spec log(X1,X2) -> ok %%% X1 = Category | Importance | Format %%% X2 = Format | Args %%% @equiv log(Category,Importance,Format,Args) log(X1,X2) -> {Category,Importance,Format,Args} = if is_atom(X1) -> {X1,?STD_IMPORTANCE,X2,[]}; is_integer(X1) -> {default,X1,X2,[]}; is_list(X1) -> {default,?STD_IMPORTANCE,X1,X2} end, log(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec log(X1,X2,X3) -> ok %%% X1 = Category | Importance %%% X2 = Importance | Format %%% X3 = Format | Args %%% @equiv log(Category,Importance,Format,Args) log(X1,X2,X3) -> {Category,Importance,Format,Args} = if is_atom(X1), is_integer(X2) -> {X1,X2,X3,[]}; is_atom(X1), is_list(X2) -> {X1,?STD_IMPORTANCE,X2,X3}; is_integer(X1) -> {default,X1,X2,X3} end, log(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec log(Category,Importance,Format,Args) -> ok %%% Category = atom() %%% Importance = integer() %%% Format = string() %%% Args = list() %%% %%% @doc Printout from a test case to the log file. %%% %%%

This function is meant for printing a string directly from a %%% test case to the test case log file.

%%% %%%

Default Category is default, %%% default Importance is ?STD_IMPORTANCE, %%% and default value for Args is [].

%%%

Please see the User's Guide for details on Category %%% and Importance.

log(Category,Importance,Format,Args) -> ct_logs:tc_log(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec print(Format) -> ok %%% @equiv print(default,50,Format,[]) print(Format) -> print(default,?STD_IMPORTANCE,Format,[]). %%%----------------------------------------------------------------- %%% @spec print(X1,X2) -> ok %%% X1 = Category | Importance | Format %%% X2 = Format | Args %%% @equiv print(Category,Importance,Format,Args) print(X1,X2) -> {Category,Importance,Format,Args} = if is_atom(X1) -> {X1,?STD_IMPORTANCE,X2,[]}; is_integer(X1) -> {default,X1,X2,[]}; is_list(X1) -> {default,?STD_IMPORTANCE,X1,X2} end, print(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec print(X1,X2,X3) -> ok %%% X1 = Category | Importance %%% X2 = Importance | Format %%% X3 = Format | Args %%% @equiv print(Category,Importance,Format,Args) print(X1,X2,X3) -> {Category,Importance,Format,Args} = if is_atom(X1), is_integer(X2) -> {X1,X2,X3,[]}; is_atom(X1), is_list(X2) -> {X1,?STD_IMPORTANCE,X2,X3}; is_integer(X1) -> {default,X1,X2,X3} end, print(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec print(Category,Importance,Format,Args) -> ok %%% Category = atom() %%% Importance = integer() %%% Format = string() %%% Args = list() %%% %%% @doc Printout from a test case to the console. %%% %%%

This function is meant for printing a string from a test case %%% to the console.

%%% %%%

Default Category is default, %%% default Importance is ?STD_IMPORTANCE, %%% and default value for Args is [].

%%%

Please see the User's Guide for details on Category %%% and Importance.

print(Category,Importance,Format,Args) -> ct_logs:tc_print(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec pal(Format) -> ok %%% @equiv pal(default,50,Format,[]) pal(Format) -> pal(default,?STD_IMPORTANCE,Format,[]). %%%----------------------------------------------------------------- %%% @spec pal(X1,X2) -> ok %%% X1 = Category | Importance | Format %%% X2 = Format | Args %%% @equiv pal(Category,Importance,Format,Args) pal(X1,X2) -> {Category,Importance,Format,Args} = if is_atom(X1) -> {X1,?STD_IMPORTANCE,X2,[]}; is_integer(X1) -> {default,X1,X2,[]}; is_list(X1) -> {default,?STD_IMPORTANCE,X1,X2} end, pal(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec pal(X1,X2,X3) -> ok %%% X1 = Category | Importance %%% X2 = Importance | Format %%% X3 = Format | Args %%% @equiv pal(Category,Importance,Format,Args) pal(X1,X2,X3) -> {Category,Importance,Format,Args} = if is_atom(X1), is_integer(X2) -> {X1,X2,X3,[]}; is_atom(X1), is_list(X2) -> {X1,?STD_IMPORTANCE,X2,X3}; is_integer(X1) -> {default,X1,X2,X3} end, pal(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec pal(Category,Importance,Format,Args) -> ok %%% Category = atom() %%% Importance = integer() %%% Format = string() %%% Args = list() %%% %%% @doc Print and log from a test case. %%% %%%

This function is meant for printing a string from a test case, %%% both to the test case log file and to the console.

%%% %%%

Default Category is default, %%% default Importance is ?STD_IMPORTANCE, %%% and default value for Args is [].

%%%

Please see the User's Guide for details on Category %%% and Importance.

pal(Category,Importance,Format,Args) -> ct_logs:tc_pal(Category,Importance,Format,Args). %%%----------------------------------------------------------------- %%% @spec capture_start() -> ok %%% %%% @doc Start capturing all text strings printed to stdout during %%% execution of the test case. %%% %%% @see capture_stop/0 %%% @see capture_get/1 capture_start() -> test_server:capture_start(). %%%----------------------------------------------------------------- %%% @spec capture_stop() -> ok %%% %%% @doc Stop capturing text strings (a session started with %%% capture_start/0). %%% %%% @see capture_start/0 %%% @see capture_get/1 capture_stop() -> test_server:capture_stop(). %%%----------------------------------------------------------------- %%% @spec capture_get() -> ListOfStrings %%% ListOfStrings = [string()] %%% %%% @equiv capture_get([default]) capture_get() -> %% remove default log printouts (e.g. ct:log/2 printouts) capture_get([default]). %%%----------------------------------------------------------------- %%% @spec capture_get(ExclCategories) -> ListOfStrings %%% ExclCategories = [atom()] %%% ListOfStrings = [string()] %%% %%% @doc Return and purge the list of text strings buffered %%% during the latest session of capturing printouts to stdout. %%% With ExclCategories it's possible to specify %%% log categories that should be ignored in ListOfStrings. %%% If ExclCategories = [], no filtering takes place. %%% %%% @see capture_start/0 %%% @see capture_stop/0 %%% @see log/3 capture_get([ExclCat | ExclCategories]) -> Strs = test_server:capture_get(), CatsStr = [atom_to_list(ExclCat) | [[$| | atom_to_list(EC)] || EC <- ExclCategories]], {ok,MP} = re:compile("
.*"), lists:flatmap(fun(Str) -> case re:run(Str, MP) of {match,_} -> []; nomatch -> [Str] end end, Strs); capture_get([]) -> test_server:capture_get(). %%%----------------------------------------------------------------- %%% @spec fail(Reason) -> void() %%% Reason = term() %%% %%% @doc Terminate a test case with the given error %%% Reason. fail(Reason) -> try exit({test_case_failed,Reason}) catch Class:R -> case erlang:get_stacktrace() of [{?MODULE,fail,1,_}|Stk] -> ok; Stk -> ok end, erlang:raise(Class, R, Stk) end. %%%----------------------------------------------------------------- %%% @spec fail(Format, Args) -> void() %%% Format = string() %%% Args = list() %%% %%% @doc Terminate a test case with an error message specified %%% by a format string and a list of values (used as arguments to %%% io_lib:format/2). fail(Format, Args) -> try io_lib:format(Format, Args) of Str -> try exit({test_case_failed,lists:flatten(Str)}) catch Class:R -> case erlang:get_stacktrace() of [{?MODULE,fail,2,_}|Stk] -> ok; Stk -> ok end, erlang:raise(Class, R, Stk) end catch _:BadArgs -> exit({BadArgs,{?MODULE,fail,[Format,Args]}}) end. %%%----------------------------------------------------------------- %%% @spec comment(Comment) -> void() %%% Comment = term() %%% %%% @doc Print the given Comment in the comment field in %%% the table on the test suite result page. %%% %%%

If called several times, only the last comment is printed. %%% The test case return value {comment,Comment} %%% overwrites the string set by this function.

comment(Comment) when is_list(Comment) -> Formatted = case (catch io_lib:format("~ts",[Comment])) of {'EXIT',_} -> % it's a list not a string io_lib:format("~p",[Comment]); String -> String end, send_html_comment(lists:flatten(Formatted)); comment(Comment) -> Formatted = io_lib:format("~p",[Comment]), send_html_comment(lists:flatten(Formatted)). %%%----------------------------------------------------------------- %%% @spec comment(Format, Args) -> void() %%% Format = string() %%% Args = list() %%% %%% @doc Print the formatted string in the comment field in %%% the table on the test suite result page. %%% %%%

The Format and Args arguments are %%% used in call to io_lib:format/2 in order to create %%% the comment string. The behaviour of comment/2 is %%% otherwise the same as the comment/1 function (see %%% above for details).

comment(Format, Args) when is_list(Format), is_list(Args) -> Formatted = case (catch io_lib:format(Format, Args)) of {'EXIT',Reason} -> % bad args exit({Reason,{?MODULE,comment,[Format,Args]}}); String -> lists:flatten(String) end, send_html_comment(Formatted). send_html_comment(Comment) -> Html = "" ++ Comment ++ "", ct_util:set_testdata({comment,Html}), test_server:comment(Html). %%%----------------------------------------------------------------- %%% @spec make_priv_dir() -> ok | {error,Reason} %%% Reason = term() %%% @doc If the test has been started with the create_priv_dir %%% option set to manual_per_tc, in order for the test case to use %%% the private directory, it must first create it by calling %%% this function. make_priv_dir() -> test_server:make_priv_dir(). %%%----------------------------------------------------------------- %%% @spec get_target_name(Handle) -> {ok,TargetName} | {error,Reason} %%% Handle = handle() %%% TargetName = target_name() %%% @doc Return the name of the target that the given connection %%% belongs to. get_target_name(Handle) -> ct_util:get_target_name(Handle). %%%----------------------------------------------------------------- %%% @spec parse_table(Data) -> {Heading,Table} %%% Data = [string()] %%% Heading = tuple() %%% Table = [tuple()] %%% %%% @doc Parse the printout from an SQL table and return a list of tuples. %%% %%%

The printout to parse would typically be the result of a %%% select command in SQL. The returned %%% Table is a list of tuples, where each tuple is a row %%% in the table.

%%% %%%

Heading is a tuple of strings representing the %%% headings of each column in the table.

parse_table(Data) -> ct_util:parse_table(Data). %%%----------------------------------------------------------------- %%% @spec listenv(Telnet) -> [Env] %%% Telnet = term() %%% Env = {Key,Value} %%% Key = string() %%% Value = string() %%% %%% @doc Performs the listenv command on the given telnet connection %%% and returns the result as a list of Key-Value pairs. listenv(Telnet) -> ct_util:listenv(Telnet). %%%----------------------------------------------------------------- %%% @spec testcases(TestDir, Suite) -> Testcases | {error,Reason} %%% TestDir = string() %%% Suite = atom() %%% Testcases = list() %%% Reason = term() %%% %%% @doc Returns all test cases in the specified suite. testcases(TestDir, Suite) -> case make_and_load(TestDir, Suite) of E = {error,_} -> E; _ -> case (catch Suite:all()) of {'EXIT',Reason} -> {error,Reason}; TCs -> TCs end end. make_and_load(Dir, Suite) -> EnvInclude = case os:getenv("CT_INCLUDE_PATH") of false -> []; CtInclPath -> string:tokens(CtInclPath, [$:,$ ,$,]) end, StartInclude = case init:get_argument(include) of {ok,[Dirs]} -> Dirs; _ -> [] end, UserInclude = EnvInclude ++ StartInclude, case ct_run:run_make(Dir, Suite, UserInclude) of MErr = {error,_} -> MErr; _ -> TestDir = ct_util:get_testdir(Dir, Suite), File = filename:join(TestDir, atom_to_list(Suite)), case code:soft_purge(Suite) of true -> code:load_abs(File); false -> % will use loaded {module,Suite} end end. %%%----------------------------------------------------------------- %%% @spec userdata(TestDir, Suite) -> SuiteUserData | {error,Reason} %%% TestDir = string() %%% Suite = atom() %%% SuiteUserData = [term()] %%% Reason = term() %%% %%% @doc Returns any data specified with the tag userdata %%% in the list of tuples returned from Suite:suite/0. userdata(TestDir, Suite) -> case make_and_load(TestDir, Suite) of E = {error,_} -> E; _ -> Info = (catch Suite:suite()), get_userdata(Info, "suite/0") end. get_userdata({'EXIT',{Undef,_}}, Spec) when Undef == undef; Undef == function_clause -> {error,list_to_atom(Spec ++ " is not defined")}; get_userdata({'EXIT',Reason}, Spec) -> {error,{list_to_atom("error in " ++ Spec),Reason}}; get_userdata(List, _) when is_list(List) -> Fun = fun({userdata,Data}, Acc) -> [Data | Acc]; (_, Acc) -> Acc end, case lists:foldl(Fun, [], List) of Terms -> lists:flatten(lists:reverse(Terms)) end; get_userdata(_BadTerm, Spec) -> {error,list_to_atom(Spec ++ " must return a list")}. %%%----------------------------------------------------------------- %%% @spec userdata(TestDir, Suite, GroupOrCase) -> TCUserData | {error,Reason} %%% TestDir = string() %%% Suite = atom() %%% GroupOrCase = {group,GroupName} | atom() %%% GroupName = atom() %%% TCUserData = [term()] %%% Reason = term() %%% %%% @doc Returns any data specified with the tag userdata %%% in the list of tuples returned from Suite:group(GroupName) %%% or Suite:Case(). userdata(TestDir, Suite, {group,GroupName}) -> case make_and_load(TestDir, Suite) of E = {error,_} -> E; _ -> Info = (catch apply(Suite, group, [GroupName])), get_userdata(Info, "group("++atom_to_list(GroupName)++")") end; userdata(TestDir, Suite, Case) when is_atom(Case) -> case make_and_load(TestDir, Suite) of E = {error,_} -> E; _ -> Info = (catch apply(Suite, Case, [])), get_userdata(Info, atom_to_list(Case)++"/0") end. %%%----------------------------------------------------------------- %%% @spec get_status() -> TestStatus | {error,Reason} | no_tests_running %%% TestStatus = [StatusElem] %%% StatusElem = {current,TestCaseInfo} | {successful,Successful} | %%% {failed,Failed} | {skipped,Skipped} | {total,Total} %%% TestCaseInfo = {Suite,TestCase} | [{Suite,TestCase}] %%% Suite = atom() %%% TestCase = atom() %%% Successful = integer() %%% Failed = integer() %%% Skipped = {UserSkipped,AutoSkipped} %%% UserSkipped = integer() %%% AutoSkipped = integer() %%% Total = integer() %%% Reason = term() %%% %%% @doc Returns status of ongoing test. The returned list contains info about %%% which test case is currently executing (a list of cases when a %%% parallel test case group is executing), as well as counters for %%% successful, failed, skipped, and total test cases so far. get_status() -> case get_testdata(curr_tc) of {ok,TestCase} -> case get_testdata(stats) of {ok,{Ok,Failed,Skipped={UserSkipped,AutoSkipped}}} -> [{current,TestCase}, {successful,Ok}, {failed,Failed}, {skipped,Skipped}, {total,Ok+Failed+UserSkipped+AutoSkipped}]; Err1 -> Err1 end; Err2 -> Err2 end. get_testdata(Key) -> case catch ct_util:get_testdata(Key) of {error,ct_util_server_not_running} -> no_tests_running; Error = {error,_Reason} -> Error; {'EXIT',_Reason} -> no_tests_running; undefined -> {error,no_testdata}; [CurrTC] when Key == curr_tc -> {ok,CurrTC}; Data -> {ok,Data} end. %%%----------------------------------------------------------------- %%% @spec abort_current_testcase(Reason) -> ok | {error,ErrorReason} %%% Reason = term() %%% ErrorReason = no_testcase_running | parallel_group %%% %%% @doc

When calling this function, the currently executing test case will be aborted. %%% It is the user's responsibility to know for sure which test case is currently %%% executing. The function is therefore only safe to call from a function which %%% has been called (or synchronously invoked) by the test case.

%%% %%%

Reason, the reason for aborting the test case, is printed %%% in the test case log.

abort_current_testcase(Reason) -> test_server_ctrl:abort_current_testcase(Reason). %%%----------------------------------------------------------------- %%% @spec encrypt_config_file(SrcFileName, EncryptFileName) -> %%% ok | {error,Reason} %%% SrcFileName = string() %%% EncryptFileName = string() %%% Reason = term() %%% %%% @doc

This function encrypts the source config file with DES3 and %%% saves the result in file EncryptFileName. The key, %%% a string, must be available in a text file named %%% .ct_config.crypt in the current directory, or the %%% home directory of the user (it is searched for in that order).

%%%

See the Common Test User's Guide for information about using %%% encrypted config files when running tests.

%%%

See the crypto application for details on DES3 %%% encryption/decryption.

encrypt_config_file(SrcFileName, EncryptFileName) -> ct_config:encrypt_config_file(SrcFileName, EncryptFileName). %%%----------------------------------------------------------------- %%% @spec encrypt_config_file(SrcFileName, EncryptFileName, KeyOrFile) -> %%% ok | {error,Reason} %%% SrcFileName = string() %%% EncryptFileName = string() %%% KeyOrFile = {key,string()} | {file,string()} %%% Reason = term() %%% %%% @doc

This function encrypts the source config file with DES3 and %%% saves the result in the target file EncryptFileName. %%% The encryption key to use is either the value in %%% {key,Key} or the value stored in the file specified %%% by {file,File}.

%%%

See the Common Test User's Guide for information about using %%% encrypted config files when running tests.

%%%

See the crypto application for details on DES3 %%% encryption/decryption.

encrypt_config_file(SrcFileName, EncryptFileName, KeyOrFile) -> ct_config:encrypt_config_file(SrcFileName, EncryptFileName, KeyOrFile). %%%----------------------------------------------------------------- %%% @spec decrypt_config_file(EncryptFileName, TargetFileName) -> %%% ok | {error,Reason} %%% EncryptFileName = string() %%% TargetFileName = string() %%% Reason = term() %%% %%% @doc

This function decrypts EncryptFileName, previously %%% generated with encrypt_config_file/2/3. The original %%% file contents is saved in the target file. The encryption key, a %%% string, must be available in a text file named %%% .ct_config.crypt in the current directory, or the %%% home directory of the user (it is searched for in that order).

decrypt_config_file(EncryptFileName, TargetFileName) -> ct_config:decrypt_config_file(EncryptFileName, TargetFileName). %%%----------------------------------------------------------------- %%% @spec decrypt_config_file(EncryptFileName, TargetFileName, KeyOrFile) -> %%% ok | {error,Reason} %%% EncryptFileName = string() %%% TargetFileName = string() %%% KeyOrFile = {key,string()} | {file,string()} %%% Reason = term() %%% %%% @doc

This function decrypts EncryptFileName, previously %%% generated with encrypt_config_file/2/3. The original %%% file contents is saved in the target file. The key must have the %%% the same value as that used for encryption.

decrypt_config_file(EncryptFileName, TargetFileName, KeyOrFile) -> ct_config:decrypt_config_file(EncryptFileName, TargetFileName, KeyOrFile). %%%----------------------------------------------------------------- %%% @spec add_config(Callback, Config) -> ok | {error, Reason} %%% Callback = atom() %%% Config = string() %%% Reason = term() %%% %%% @doc

This function loads configuration variables using the %%% given callback module and configuration string. Callback module %%% should be either loaded or present in the code part. Loaded %%% configuration variables can later be removed using %%% remove_config/2 function.

add_config(Callback, Config)-> ct_config:add_config(Callback, Config). %%%----------------------------------------------------------------- %%% @spec remove_config(Callback, Config) -> ok %%% Callback = atom() %%% Config = string() %%% Reason = term() %%% %%% @doc

This function removes configuration variables (together with %%% their aliases) which were loaded with specified callback module and %%% configuration string.

remove_config(Callback, Config) -> ct_config:remove_config(Callback, Config). %%%----------------------------------------------------------------- %%% @spec timetrap(Time) -> ok %%% Time = {hours,Hours} | {minutes,Mins} | {seconds,Secs} | Millisecs | infinity | Func %%% Hours = integer() %%% Mins = integer() %%% Secs = integer() %%% Millisecs = integer() | float() %%% Func = {M,F,A} | fun() %%% M = atom() %%% F = atom() %%% A = list() %%% %%% @doc

Use this function to set a new timetrap for the running test case. %%% If the argument is Func, the timetrap will be triggered %%% when this function returns. Func may also return a new %%% Time value, which in that case will be the value for the %%% new timetrap.

timetrap(Time) -> test_server:timetrap_cancel(), test_server:timetrap(Time). %%%----------------------------------------------------------------- %%% @spec get_timetrap_info() -> {Time,Scale} %%% Time = integer() | infinity %%% Scale = true | false %%% %%% @doc

Read info about the timetrap set for the current test case. %%% Scale indicates if Common Test will attempt to automatically %%% compensate timetraps for runtime delays introduced by e.g. tools like %%% cover.

get_timetrap_info() -> test_server:get_timetrap_info(). %%%----------------------------------------------------------------- %%% @spec sleep(Time) -> ok %%% Time = {hours,Hours} | {minutes,Mins} | {seconds,Secs} | Millisecs | infinity %%% Hours = integer() %%% Mins = integer() %%% Secs = integer() %%% Millisecs = integer() | float() %%% %%% @doc

This function, similar to timer:sleep/1, suspends the test %%% case for specified time. However, this function also multiplies %%% Time with the 'multiply_timetraps' value (if set) and under %%% certain circumstances also scales up the time automatically %%% if 'scale_timetraps' is set to true (default is false).

sleep({hours,Hs}) -> sleep(trunc(Hs * 1000 * 60 * 60)); sleep({minutes,Ms}) -> sleep(trunc(Ms * 1000 * 60)); sleep({seconds,Ss}) -> sleep(trunc(Ss * 1000)); sleep(Time) -> test_server:adjusted_sleep(Time). %%%----------------------------------------------------------------- %%% @spec notify(Name,Data) -> ok %%% Name = atom() %%% Data = term() %%% %%% @doc

Sends a asynchronous notification of type Name with %%% Datato the common_test event manager. This can later be %%% caught by any installed event manager.

%%% @see //stdlib/gen_event notify(Name,Data) -> ct_event:notify(Name, Data). %%%----------------------------------------------------------------- %%% @spec sync_notify(Name,Data) -> ok %%% Name = atom() %%% Data = term() %%% %%% @doc

Sends a synchronous notification of type Name with %%% Datato the common_test event manager. This can later be %%% caught by any installed event manager.

%%% @see //stdlib/gen_event sync_notify(Name,Data) -> ct_event:sync_notify(Name, Data). %%%----------------------------------------------------------------- %%% @spec break(Comment) -> ok | {error,Reason} %%% Comment = string() %%% Reason = {multiple_cases_running,TestCases} | %%% 'enable break with release_shell option' %%% TestCases = [atom()] %%% %%% @doc

This function will cancel any active timetrap and pause the %%% execution of the current test case until the user calls the %%% continue/0 function. It gives the user the opportunity %%% to interact with the erlang node running the tests, e.g. for %%% debugging purposes or for manually executing a part of the %%% test case. If a parallel group is executing, break/2 %%% should be called instead.

%%%

A cancelled timetrap will not be automatically %%% reactivated after the break, but must be started exlicitly with %%% ct:timetrap/1

%%%

In order for the break/continue functionality to work, %%% Common Test must release the shell process controlling stdin. %%% This is done by setting the release_shell start option %%% to true. See the User's Guide for more information.

break(Comment) -> case {ct_util:get_testdata(starter), ct_util:get_testdata(release_shell)} of {ct,ReleaseSh} when ReleaseSh /= true -> Warning = "ct:break/1 can only be used if release_shell == true.\n", ct_logs:log("Warning!", Warning, []), io:format(user, "Warning! " ++ Warning, []), {error,'enable break with release_shell option'}; _ -> case get_testdata(curr_tc) of {ok,{_,_TestCase}} -> test_server:break(?MODULE, Comment); {ok,Cases} when is_list(Cases) -> {error,{'multiple cases running', [TC || {_,TC} <- Cases]}}; Error = {error,_} -> Error; Error -> {error,Error} end end. %%%----------------------------------------------------------------- %%% @spec break(TestCase, Comment) -> ok | {error,Reason} %%% TestCase = atom() %%% Comment = string() %%% Reason = 'test case not running' | %%% 'enable break with release_shell option' %%% %%% @doc

This function works the same way as break/1, %%% only the TestCase argument makes it possible to %%% pause a test case executing in a parallel group. The %%% continue/1 function should be used to resume %%% execution of TestCase.

%%%

See break/1 for more details.

break(TestCase, Comment) -> case {ct_util:get_testdata(starter), ct_util:get_testdata(release_shell)} of {ct,ReleaseSh} when ReleaseSh /= true -> Warning = "ct:break/2 can only be used if release_shell == true.\n", ct_logs:log("Warning!", Warning, []), io:format(user, "Warning! " ++ Warning, []), {error,'enable break with release_shell option'}; _ -> case get_testdata(curr_tc) of {ok,Cases} when is_list(Cases) -> case lists:keymember(TestCase, 2, Cases) of true -> test_server:break(?MODULE, TestCase, Comment); false -> {error,'test case not running'} end; {ok,{_,TestCase}} -> test_server:break(?MODULE, TestCase, Comment); Error = {error,_} -> Error; Error -> {error,Error} end end. %%%----------------------------------------------------------------- %%% @spec continue() -> ok %%% %%% @doc

This function must be called in order to continue after a %%% test case (not executing in a parallel group) has called %%% break/1.

continue() -> test_server:continue(). %%%----------------------------------------------------------------- %%% @spec continue(TestCase) -> ok %%% TestCase = atom() %%% %%% @doc

This function must be called in order to continue after a %%% test case has called break/2. If the paused test case, %%% TestCase, executes in a parallel group, this %%% function - rather than continue/0 - must be used %%% in order to let the test case proceed.

continue(TestCase) -> test_server:continue(TestCase).