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This is dejagnu.info, produced by makeinfo version 4.0 from
dejagnu.texi.
START-INFO-DIR-ENTRY
* DejaGnu: (dejagnu). The GNU testing framework.
END-INFO-DIR-ENTRY
Copyright (C) 92, 93, 94, 95, 1996 Free Software Foundation, Inc.
Permission is granted to make and distribute verbatim copies of this
manual provided the copyright notice and this permission notice are
preserved on all copies.
Permission is granted to copy and distribute modified versions of
this manual under the conditions for verbatim copying, provided also
that the entire resulting derived work is distributed under the terms
of a permission notice identical to this one.
Permission is granted to copy and distribute translations of this
manual into another language, under the above conditions for modified
versions.
File: dejagnu.info, Node: Names, Next: Init Module, Up: Internals
Conventions for using tool names
================================
DejaGnu uses `$tool', the name of the tool under test, to tie
together the testing configuration in a straightforward but flexible
way. If there is only one testsuite for a particular application, then
`$tool' is optional.
`$tool' is _not_ used to invoke the tool, since sites that run
multiple configurations of a particular tool often call each
configuration by a different name. `runtest' uses the
configuration-dependent variables captured in `site.exp' to determine
how to call each tool.
`runtest' uses tool names to find directories containing tests.
`runtest' scans the source directory (specified with `--srcdir') for
all directories whose names start with the tool name. It is a common
practice to put a period after the tool part of the name. For instance,
directories that start with `g++.' contain G++ tests. To add a new
test, just put it in any directory (create an entirely new directory,
if you wish) whose name follows this convention.
A test is any file in an appropriately named subdirectory whose name
ends in `.exp' (the conventional way of naming `expect' scripts).
These simple naming conventions make it as simple as possible to
install new tests: all you must do is put the test in the right
directory.
`runtest' sorts the tests in each subdirectory by name (using the
Tcl `lsort' command) and runs them in the resulting order.
File: dejagnu.info, Node: Init Module, Next: DejaGnu Builtins, Prev: Names, Up: Internals
Initialization module
=====================
The initialization module (or "init file") has two purposes: to
provide tool and target dependent procedures, and to start up an
interactive tool to the point where it is ready to operate. The latter
includes establishing communications with the target. All the tests for
interactive programs assume that the tool is already running and
communicating. Initialization modules for non-interactive programs may
only need to supply the support functions.
Each test suite directory must contain (in its `config'
subdirectory) a separate initialization module for each target. The
appropriate init file is can be named several ways. The prefered name is
the _os_ part of the canonical configuration name with `.exp' as the
suffix. An example would be that for an `m68k-coff' system, the
`target_os' part would be `coff'. The next way is for system where
there are short filenames, or a shortcut is desired to refer to the OS
name for that target. This is uses the value of `$target_abbrev' rather
than the `target_os'.
The final file looked for is simply `default.exp'. If there is only
one operating system to support, then this file can be used. It's main
purpose is to offer some support for new operating systems, or for
unsupported cross targets. The last file looked for is `unknown.exp'.
This is usually limited to error handling for unsupported targets. It's
whole contents is typically.
perror "Sorry, there is no support for this target"
exit 1
At the beginning of the init file, you must first determine the
proper executable name of the tool to execute, since the actual name of
the tool to be tested my vary from system to system. Here's an example
for the GNU C compiler.
global AR
# look for the archiver ar
if ![info exists AR] {
set AR [findfile $base_dir/../../binutils/ar $base_dir/../../binutils/ar [tr
ansform ar]]
verbose "AR defaulting to $AR" 2
}
}
global CFLAGS
if ![info exists CFLAGS] then {
set CFLAGS ""
}
It is always a good idea to first check the variable, and only set
it if it has not yet been defined. Often the proper value of `AR' is
set on the command line that invokes `runtest'.
The `findfile' procedure takes as it's first argument a file name to
look for. The second argument is returned if the file is found, and the
third argument is returned if the file is not found. `base_dir' is set
internally by DejaGnu to the top level directory of the object tree.
The `transform' procedure takes as its argument the native name of a
tool (such as `gcc' for the compiler), and returns the name as
configured for that tool in the current installation. (For example, a
cross-compiling version of GNU CC that generates MIPS code may be
installed with a name like `mips-idt-ecoff-gcc'.)
In a test running native, writing the Tcl code for initialization is
usually quite simple. For cross configurations, however, more elaborate
instructions are usually needed to describe how to talk to a remote
target.
Each initialization module defines up to four procedures with
standard names and purposes. The names of these procedures begin with
`$tool', the string that identifies tests for a particular tool:
`$tool_start', `$tool_load', `$tool_exit', and `$tool_version'. For
example, the start procedure for GDB is called `gdb_start'. (Since
start procedures are used differently for batch and interactive tools,
however, `runtest' itself never calls the start procedure. Init files
for interactive tools are expected to end by running the start
procedure.)
The initialization module is also a good place to call `load_lib' to
get any collections of utility procedures meant for a family of test
cases, and to set up default values for any additional Tcl variables
needed for a specific set of tests.
*Note Target dependent procedures: Target Dependent, for full
descriptions of these procedures.
File: dejagnu.info, Node: DejaGnu Builtins, Next: Target Dependent, Prev: Init Module, Up: Internals
DejaGnu procedures
==================
DejaGnu provides these Tcl procedures for use in test scripts. You
can also use any standard `expect' or Tcl function. These procedures
are stored in libraries, which DejaGnu loads at runtime. Here's
explanation of the library procedures that get loaded at runtime. All
other librarys are optional, and need to be loaded by the testsuite.
* Menu:
* framework.exp:: Core Internal Procedures.
* remote.exp:: Procedures for remote communication.
* utils.exp:: Utility procedures.
* target.exp:: Cross target procedures.
* debugger.exp:: Procedures for debugging your Tcl code.
File: dejagnu.info, Node: framework.exp, Next: remote.exp, Up: DejaGnu Builtins
Core Internal Procedures
------------------------
*Note A POSIX conforming test framework: Posix, for more detailed
explanations of the test outcomes (`FAIL', `PASS', `UNTESTED',
`UNRESOLVED', `UNSUPPORTED').
`perror "STRING NUMBER"'
Declares a severe error in the testing framework itself. `perror'
writes in the log files a message beginning with `ERROR',
appending the argument STRING. If the optional NUMBER is supplied,
then this is used to set the internal count of errors to that
value.
As a side effect, `perror' also changes the effect of the next
`pass' or `fail' command: the test outcome becomes `UNRESOLVED',
since an automatic `PASS' or `FAIL' cannot be trusted after a
severe error in the test framework. If the optional numeric value
is `0', then there are no further side effects to calling this
function, and the following test outcome doesn't become
`UNRESOLVED'. This can be used for errors with no known side
effects.
`warning "STRING NUMBER"'
Declares detection of a minor error in the test case itself.
`warning' writes in the log files a message beginning with
`WARNING', appending the argument STRING. Use `warning' rather
than `error' for cases (such as communication failure to be
followed by a retry) where the test case can recover from the
error. If the optional NUMBER is supplied, then this is used to
set the internal count of warnings to that value.
As a side effect, `warning_threshold' or more calls to `warning'
in a single test case also changes the effect of the next `pass'
or `fail' command: the test outcome becomes `UNRESOLVED' since an
automatic `PASS' or `FAIL' may not be trustworthy after many
warnings. If the optional numeric value is `0', then there are no
further side effects to calling this function, and the following
test outcome doesn't become `UNRESOLVED'. This can be used for
errors with no known side effects.
`note "STRING"'
Appends an informational message to the log file. `note' writes
in the log files a message beginning with `NOTE', appending the
argument STRING. Use `note' sparingly. `verbose' should be used
for most such messages, but in cases where a message is needed in
the log file regardless of the verbosity level use `note'.
`pass "STRING"'
Declares a test to have passed. `pass' writes in the log files a
message beginning with `PASS' (or `XPASS', if failure was
expected), appending the argument STRING.
`fail "STRING"'
Declares a test to have failed. `fail' writes in the log files a
message beginning with `FAIL' (or `XFAIL', if failure was
expected), appending the argument STRING.
`unresolved "STRING"'
Declares a test to have an unresolved outcome. `unresolved' writes
in the log file a message beginning with `UNRESOLVED', appending
the argument STRING. This usually means the test did not execute
as expected, and a human being must go over results to determine
if it passed or failed (and to improve the test case).
`untested "STRING"'
Declares a test was not run. `untested' writes in the log file a
message beginning with `UNTESTED', appending the argument STRING.
For example, you might use this in a dummy test whose only role is
to record that a test does not yet exist for some feature.
`unsupported "STRING"'
Declares that a test case depends on some facility that does not
exist in the testing environment. `unsupported' writes in the log
file a message beginning with `UNSUPPORTED', appending the argument
STRING.
`get_warning_threshold'
Returns the current value of `warning_threshold'. The default
value is 3.
`set_warning_threshold THRESHOLD'
Sets the value of `warning_threshold'. A value of `0' disables
it: calls to `warning' will not turn a `PASS' or `FAIL' into an
`UNRESOLVED'.
`transform "TOOLNAME"'
Generates a string for the name of a tool as it was configured and
installed, given its native name (as the argument TOOLNAME). This
makes the assumption that all tools are installed using the same
naming conventions: it extrapolates from the invocation name for
`runtest'. For example, if you call `runtest' as
`m68k-vxworks-runtest', the result of ` transform "gcc" ' is
`m68k-vxworks-gcc'.
`ishost "HOST"'
Tests for a particular _host_ environment. If the currently
configured host matches the argument string, the result is `1';
otherwise the result is `0'. HOST must be a full three-part
`configure' host name; in particular, you may not use the shorter
nicknames supported by `configure' (but you can use wildcard
characters, using shell syntax, to specify sets of names).
`istarget "TARGET"'
Tests for a particular _target_ environment. If the currently
configured target matches the argument string, the result is `1';
otherwise the result is `0'. TARGET must be a full three-part
`configure' target name; in particular, you may not use the
shorter nicknames supported by `configure' (but you can use
wildcard characters, using shell syntax, to specify sets of
names). If it is passed a `NULL' string, then it returns the name
of the build canonical configuration.
`isbuild "HOST"'
Tests for a particular _build host_ environment. If the currently
configured host matches the argument string, the result is `1';
otherwise the result is `0'. HOST must be a full three-part
`configure' host name; in particular, you may not use the shorter
nicknames supported by `configure' (but you can use wildcard
characters, using shell syntax, to specify sets of names). If it is
passed a `NULL' string, then it returns the name of the build
canonical configuration.
item is3way "HOST" Tests for a canadian cross. This is when the
tests will be run on a remotly hosted cross compiler. If it is a
canadian cross, then the result is `1'; otherwise the result is
`0'.
`isnative'
Tests whether the current configuration has the same host and
target. When it runs in a _native_ configuration this procedure
returns a `1'; otherwise it returns a `0'.
`load_lib "LIBRARY-FILE"'
Loads the file LIBRARY-FILE by searching a fixed path built into
`runtest'. If DejaGnu has been installed, it looks in a path
starting with the installed library directory. If you are running
DejaGnu directly from a source directory, without first running
`make install', this path defaults to the current directory. In
either case, it then looks in the current directory for a directory
called `lib'. If there are duplicate definitions, the last one
loaded takes precedence over the earlier ones.
`setup_xfail "CONFIG [BUGID]"'
Declares that the test is expected to fail on a particular set of
configurations. The CONFIG argument must be a list of full
three-part `configure' target name; in particular, you may not use
the shorter nicknames supported by `configure' (but you can use the
common shell wildcard characters to specify sets of names). The
BUGID argument is optional, and used only in the logging file
output; use it as a link to a bug-tracking system such as GNATS
(*note Overview: (gnats.info)Overview.).
Once you use `setup_xfail', the `fail' and `pass' procedures
produce the messages `XFAIL' and `XPASS' respectively, allowing
you to distinguish expected failures (and unexpected success!)
from other test outcomes.
_Warning:_ you must clear the expected failure after using
`setup_xfail' in a test case. Any call to `pass' or `fail' clears
the expected failure implicitly; if the test has some other
outcome, e.g. an error, you can call `clear_xfail' to clear the
expected failure explicitly. Otherwise, the expected-failure
declaration applies to whatever test runs next, leading to
surprising results.
`check_conditional_xfail MESSAGE TARGETS INCLUDES EXCLUDES'
This procedure adds a condition xfail, based on compiler options
used to create a test case executable. If an include options is
found in the compiler flags, and it's the right architecture,
it'll trigger an XFAIL. Otherwise it'll produce an ordinary FAIL.
You can also specify flags to exclude. This makes a result be a
FAIL, even if the included options are found. To set the
conditional, set the variable COMPILER_CONDITIONAL_XFAIL_DATA to
the fields "[message string] [targets list] [includes list]
[excludes list]" (descriptions below). This is the checked at
pass/fail decision time, so there is no need to call the procedure
yourself, unless you wish to know if it gets triggered. After a
pass/fail, the variable is reset, so it doesn't effect other tests.
The parameters are:
`message'
is the message to print with the normal test result
`targets'
is a string with the targets to activate this conditional on.
`includes'
is a list of sets of options to search for in the compiler
options to activate this conditional. If any set of the
options matches, then this conditional is true.
`excludes'
is a list of sets of options to search for in the compiler
options to activate this conditional. If any set of the
options matches, (regardless of whether any of the include
sets match) then this conditional is de-activated.
returns:
`1'
if the conditional is true
`0'
if the conditional is false
An example of setting the variable would be:
set compiler_conditional_xfail_data { \
"I sure wish I knew why this was hosed" \
"sparc*-sun*-* *-pc-*-*" \
{-"Wall -v" "-O3"} \
{-"O1" "-Map" } \
}
What this does is it matches only for these two targets if "-Wall
-v" or "-O3" is set, but neither "-O1" or "-Map" is set.
For a set to match, the options specified are searched for
independantly of each other, so a "-Wall -v" matches either "-Wall
-v" or "-v -Wall". A space seperates the options in the string.
Glob-style regular expressions are also permitted.
`clear_xfail CONFIG'
Cancel an expected failure (previously declared with `setup_xfail')
for a particular set of configurations. The CONFIG argument is a
list of configuration target names. It is only necessary to call
`clear_xfail' if a test case ends without calling either `pass' or
`fail', after calling `setup_xfail'.
`verbose [-log] [-n] [--] "STRING" NUMBER'
Test cases can use this function to issue helpful messages
depending on the number of `--verbose' options on the `runtest'
command line. It prints STRING if the value of the variable
`verbose' is higher than or equal to the optional NUMBER. The
default value for NUMBER is 1. Use the optional `-log' argument
to cause STRING to always be added to the log file, even if it
won't be printed. Use the optional `-n' argument to print STRING
without a trailing newline. Use the optional `--' argument if
STRING begins with "-".
File: dejagnu.info, Node: remote.exp, Next: utils.exp, Prev: framework.exp, Up: DejaGnu Builtins
Remote Communication Procedures
-------------------------------
`lib/remote.exp' defines these functions, for establishing and managing
communications:
_Procedures to establish a connection:_ Each of these procedures
tries to establish the connection up to three times before returning.
Warnings (if retries will continue) or errors (if the attempt is
abandoned) report on communication failures. The result for any of
these procedures is either `-1', when the connection cannot be
established, or the spawn ID returned by the `expect' command `spawn'.
It use the value of the `connect' field in the `target_info' array
(was `connectmode' as the type of connection to make. Current supported
connection types are tip, kermit, telnet, rsh, rlogin, and netdata. If
the `--reboot' option was used on the runtest command line, then the
target is rebooted before the connection is made.
`remote_open TYPE'
_Remote Connection Procedure._ This is passed _host_ or _target_.
Host or target refers to whether it is a connection to a remote
target, or a remote host. This opens the connection to the desired
target or host using the default values in the configuration
system. It returns that `spawn_id' of the process that manages the
connection. This value can be used in `expect' or `exp_send'
statements, or passed to other procedures that need the connection
process's id. This also sets the `fileid' field in the
`target_info' array.
`remote_close SHELLID'
_shellid_ is value returned by a call to `remote_open'. This
closes the connection to the target so resources can be used by
others. This parameter can be left off if the `fileid' field in the
`target_info' array is set.
`telnet HOSTNAME PORT'
`rlogin HOSTNAME'
`rsh HOSTNAME'
_IP network procedures._ HOSTNAME refers to the IP address or name
(for example, an entry in `/etc/hosts') for this target. The
procedure names reflect the Unix utility used to establish a
connection. The optional PORT is used to specify the IP port
number. The value of the `netport' field in the `target_info'
array is used. (was `$netport') This value has two parts, the
hostname and the port number, seperated by a _:_. If `host' or
`target' is used in the `hostname' field, than the config array is
used for all information.
`tip PORT'
_Serial line procedure._ Connect using the Unix utility `tip'.
PORT must be a name from the `tip' configuration file
`/etc/remote'. Often, this is called `hardwire', or something
like `ttya'. This file holds all the configuration data for the
serial port. The value of the `serial' field in the `target_info'
array is used. (was `$serialport') If `host' or `target' is used
in the `port' field, than the config array is used for all
information.
`kermit PORT BPS'
_Serial line procedure._ Connect using the program `kermit'.
PORT is the device name, e.g. `/dev/ttyb'. BPS is the line speed
to use (in bits per second) for the connection. The value of the
`serial' field in the `target_info' array is used. (was
`$serialport') If `host' or `target' is used in the `port' field,
than the config array is used for all information.
_Procedures to manage a connection:_
`tip_download SPAWNID FILE'
Download `FILE' to the process SPAWNID (the value returned when
the connection was established), using the `~put' command under
`tip'. Most often used for single board computers that require
downloading programs in ASCII S-records. Returns `1' if an error
occurs, `0' otherwise.
`exit_remote_shell SPAWNID'
Exits a remote process started by any of the connection procedures.
SPAWNID is the result of the connection procedure that started the
remote process.
`download FILE [ SPAWNID ]'
After you establish a connection to a target, you can download
programs using this command. `download' reads in FILE (object
code in S-record format) and writes it to the device controlling
this SPAWNID. (From the point of view of the target, the S-record
file comes in via standard input.)
If you have more than one target active, you can use the optional
argument SPAWNID to specify an alternative target (the default is
the most recently established SPAWNID.)
File: dejagnu.info, Node: utils.exp, Next: target.exp, Prev: remote.exp, Up: DejaGnu Builtins
Utility Procedures
------------------
`lib/utils.exp' defines these utility procedures:
`getdirs DIR'
`getdirs DIR PATTERN'
Returns a list of all the directories in the single directory DIR
that match PATTERN. If you do not specify PATTERN, `getdirs'
assumes `*'. You may use the common shell wildcard characters in
PATTERN. If no directories match the pattern, then a `NULL' string
is returned.
`find DIR PATTERN'
Search for files whose names match PATTERN (using shell wildcard
characters for filename expansion). Search subdirectories
recursively, starting at DIR. The result is the list of files
whose names match; if no files match, the result is empty.
Filenames in the result include all intervening subdirectory
names. If no files match the pattern, then a `NULL' string is
returned.
`which BINARY'
Searches the execution path for an executable file BINARY, like
the the BSD `which' utility. This procedure uses the shell
environment variable `PATH'. It returns `0' if the binary is not
in the path, or if there is no `PATH' environment variable. If
BINARY is in the path, it returns the full path to BINARY.
`grep FILENAME REGEXP'
`grep FILENAME REGEXP line'
Search the file called FILENAME (a fully specified path) for lines
that contain a match for regular expression REGEXP. The result is
a list of all the lines that match. If no lines match, the result
is an empty string. Specify REGEXP using the standard regular
expression style used by the Unix utility program `grep'.
Use the optional third argument `line' to start lines in the result
with the line number in FILENAME. (This argument is simply an
option flag; type it just as shown--`line'.)
`diff FILENAME FILENAME'
Compares the two files and returns a 1 if they match, or a 0 if
they don't. If `verbose' is set, then it'll print the differences
to the screen.
`slay NAME'
This look in the process table for NAME and send it a unix
`SIGINT', killing the process.
`absolute PATH'
This procedure takes the relative PATH, and converts it to an
absolute path.
`psource FILENAME'
This sources the file FILENAME, and traps all errors. It also
ignores all extraneous output. If there was an error it returns a
1, otherwise it returns a 0.
`prune LIST PATTERN'
Remove elements of the Tcl list LIST. Elements are fields
delimited by spaces. The result is a copy of LIST, without any
elements that match PATTERN. You can use the common shell
wildcard characters to specify PATTERN.
`setenv VAR VAL'
Sets the variable VAR to the value VAL.
`unsetenv VAR'
Unsets the environment variable VAR
`getenv VAR'
returns the value of VAR in the environment if it exists,
otherwise it returns `NULL'.
`runtest_file_p RUNTESTS TESTCASE'
Search RUNTESTS for TESTCASE and return 1 if found, 0 if not.
RUNTESTS is a list of two elements. The first is the pathname of
the testsuite expect script running. The second is a copy of what
was on the right side of the `=' if `foo.exp="..."' was specified,
or an empty string if no such argument is present. This is used
by tools like compilers where each testcase is a file.
`prune_system_crud SYSTEM TEXT'
For system SYSTEM, delete text the host or target operating system
might issue that will interfere with pattern matching of program
output in TEXT. An example is the message that is printed if a
shared library is out of date.
File: dejagnu.info, Node: target.exp, Next: debugger.exp, Prev: utils.exp, Up: DejaGnu Builtins
Cross target procedure
----------------------
`lib/target.exp' defines these utility procedures:
`push_target _name_'
This makes the target named _name_ be the current target
connection. The value of _name_ is an index into the `target_info'
array and is set in the global config file.
`pop_target'
This unsets the current target connection.
`list_targets'
This lists all the supported targets for this architecture.
`push_host _name_'
This makes the host named _name_ be the current remote host
connection. The value of _name_ is an index into the `target_info'
array and is set in the global config file.
`pop_host'
This unsets the current host connection.
This invokes the compiler as set by `CC' to compile the file
_file_. The default options for many cross compilation targets are
_guessed_ by DejaGnu, and these options can be added to by passing
in more parameters as arguments to `compile'. Optionally, this will
also use the value of the `cflags' field in the target config
array. If the host is not the same as the build machines, then then
compiler is run on the remote host using `execute_anywhere'.
This produces an archive file. Any parameters passed to `archive'
are used in addition to the default flags. Optionally, this will
also use the value of the `arflags' field in the target config
array. If the host is not the same as the build machines, then then
archiver is run on the remote host using `execute_anywhere'.
This generates an index for the archive file for systems that
aren't POSIX yet. Any parameters passed to `ranlib' are used in
for the flags.
`execute_anywhere _cmdline_'
This executes the _cmdline_ on the proper host. This should be used
as a replacement for the Tcl command `exec' as this version
utilizes the target config info to execute this command on the
build machine or a remote host. All config information for the
remote host must be setup to have this command work. If this is a
canadian cross, (where we test a cross compiler that runs on a
different host then where DejaGnu is running) then a connection is
made to the remote host and the command is executed there. It
returns either _REMOTERROR_ (for an error) or the output produced
when the command was executed. This is used for running the tool
to be tested, not a test case.
File: dejagnu.info, Node: debugger.exp, Prev: target.exp, Up: DejaGnu Builtins
Debugging Procedures
--------------------
`lib/debugger.exp' defines these utility procedures:
`dumpvars _expr_'
This takes a csh style regular expression (glob rules) and prints
the values of the global variable names that match. It is
abbreviated as `dv'
`dumplocals _expr_'
This takes a csh style regular expression (glob rules) and prints
the values of the local variable names that match. It is
abbreviated as `dl'.
`dumprocs _expr_'
This takes a csh style regular expression (glob rules) and prints
the body of all procs that match. It is abbreviated as `dp'
`dumpwatch _expr_'
This takes a csh style regular expression (glob rules) and prints
all the watchpoints. It is abbreviated as `dw'.
`watchunset _var_'
This breaks program execution when the variable _var_ is unset. It
is abbreviated as `wu'.
`watchwrite _var_'
This breaks program execution when the variable _var_ is written.
It is abbreviated as `ww'.
`watchread _var_'
This breaks program execution when the variable _var_ is read. It
is abbreviated as `wr'.
`watchdel _watch_'
This deletes a the watchpoint for _watch_. It is abbreviated as
`wd'.
`print _var_'
This prints the value of the variable _var_. It is abbreviated as
`p'.
`quit'
This makes runtest exit. It is abbreviated as `q'.
`bt'
This prints a backtrace of the executed Tcl commands.
File: dejagnu.info, Node: Target Dependent, Next: Cross Targets, Prev: DejaGnu Builtins, Up: Internals
Target dependent procedures
===========================
Each combination of target and tool requires some target-dependent
procedures. The names of these procedures have a common form: the tool
name, followed by an underbar `_', and finally a suffix describing the
procedure's purpose. For example, a procedure to extract the version
from GDB is called `gdb_version'. *Note Initialization Module: Init
Module, for a discussion of how DejaGnu arranges to find the right
procedures for each target.
`runtest' itself calls only two of these procedures, `TOOL_exit' and
`TOOL_version'; these procedures use no arguments.
The other two procedures, `TOOL_start' and `TOOL_load', are only
called by the test suites themselves (or by testsuite-specific
initialization code); they may take arguments or not, depending on the
conventions used within each test suite.
`TOOL_start'
Starts a particular tool. For an interactive tool, `TOOL_start'
starts and initializes the tool, leaving the tool up and running
for the test cases; an example is `gdb_start', the start function
for GDB. For a batch oriented tool, `TOOL_start' is optional; the
recommended convention is to let `TOOL_start' run the tool,
leaving the output in a variable called `comp_output'. Test
scripts can then analyze `$comp_output' to determine the test
results. An example of this second kind of start function is
`gcc_start', the start function for GCC.
`runtest' itself _does not call_ `TOOL_start'. The initialization
module `TOOL_init.exp' must call `TOOL_start' for interactive
tools; for batch-oriented tools, each individual test script calls
`TOOL_start' (or makes other arrangements to run the tool).
`TOOL_load'
Loads something into a tool. For an interactive tool, this
conditions the tool for a particular test case; for example,
`gdb_load' loads a new executable file into the debugger. For
batch oriented tools, `TOOL_load' may do nothing--though, for
example, the GCC support uses `gcc_load' to load and run a binary
on the target environment. Conventionally, `TOOL_load' leaves the
output of any program it runs in a variable called `exec_output'.
Writing `TOOL_load' can be the most complex part of extending
DejaGnu to a new tool or a new target, if it requires much
communication coding or file downloading.
Test scripts call `TOOL_load'.
`TOOL_exit'
Cleans up (if necessary) before `runtest' exits. For interactive
tools, this usually ends the interactive session. You can also use
`TOOL_exit' to remove any temporary files left over from the tests.
`runtest' calls `TOOL_exit'.
`TOOL_version'
Prints the version label and number for TOOL. This is called by
the DejaGnu procedure that prints the final summary report. The
output should consist of the full path name used for the tested
tool, and its version number.
`runtest' calls `TOOL_version'.
The usual convention for return codes from any of these procedures
(although it is not required by `runtest') is to return `0' if the
procedure succeeded, `1' if it failed, and `-1' if there was a
communication error.
File: dejagnu.info, Node: Cross Targets, Next: Input Files, Prev: Target Dependent, Up: Internals
Remote targets supported
========================
The DejaGnu distribution includes support for the following remote
targets. You can set the target name and the connect mode in the
`site.exp' file (using the Tcl variables `targetname' and
`connectmode', respectively), or on the `runtest' command line (using
`--name' and `--connect').
*AMD 29000, with UDI protocol*
Configure DejaGnu for target `a29k-amd-udi'. (Cygnus `configure'
also recognizes the abbreviation `udi29k'.) Then, to run tests,
use the `runtest' target name to specify whether you want to use a
simulator, or a particular hardware board. The particular string
to use with `--name' will depend on your UDI setup file, `udi_soc'
(if `udi_soc' is not in your working directory, the environment
variable `UDICONF' should contain a path to this file). For
example, if your UDI setup file includes these lines:
iss AF_UNIX * isstip -r /home/gnu/29k/src/osboot/sim/osboot
mon AF_UNIX * montip -t serial -baud 9600 -com /dev/ttyb
* *
You can use `--name iss' to run tests on the simulator, and
`--name mon' to run tests on the 29K hardware. See the
manufacturer's manuals for more information on UDI and `udi_soc'.
The default connect protocol is `mondfe' with either back end.
`mondfe' is the only shell DejaGnu supports for UDI targets.
`mondfe' is an AMD specific monitor program freely available from
AMD.
_Warning:_ This target requires GDB version 4.7.2 (or greater).
Earlier versions of GDB do not fully support the `load' command on
this target, so DejaGnu has no way to load executable files from
the debugger.
*Motorola 680x0 boards, a.out or COFF object format*
Configure DejaGnu for any remote target matching `m68k-*'.
_Warning:_ Most `m68k-*' configurations run all tests only for
native testing (when the target is the same as the host). When you
specify most of these targets for a cross configuration, you will
only be able to use tests that run completely within the host (for
example, tests of the binary utilities such as the archiver; or
compiler tests that only generate code rather than running it).
To run a.out or COFF binaries on a remote M68K, you must configure
DejaGnu for a particular target board. `m68k-abug' is an example.
(In general for an embedded environment, because it does not have
absolute addresses, a.out is not a good choice for output format
in any case; most often S-records or Hex-32 are used instead.)
*Motorola 68K MVME 135 board running ABug boot monitor*
Configure for `m68k-abug-aout' or `m68k-abug-coff' (as a target).
This boot monitor can only download S-records; therefore, the
DejaGnu tests for this environment require a linker command script
to convert either output format to S-records, setting the default
addresses for `.text', `.bss', and `.data'.
With this configuration, the default for `--connect' is `tip'.
`tip' is the only communications protocol supported for connecting
to `m68k-abug-*' targets. `tip' uses an ASCII downloader (the
`~put' command) to load S-records into the target board. The
`--name' string must be a machine name that `tip' understands (for
example, on some `tip' implementations it must be an entry from
the initialization file for `tip'; this file is sometimes called
`/etc/remote').
See your system documentation for information on how to create new
entries in `/etc/remote'. (Some UNIX systems are distributed with
at least one default entry with a name resembling `hardwire'; if
your system has one, you can edit it, or make a modified copy with
a new name.) When you have a working `/etc/remote' entry
ABUGTARGET, you should be able to type `tip ABUGTARGET', and get
the prompt `135ABUG>' from the board. Use the same ABUGTARGET
string with `runtest --name'.
*Motorola IDP board running the rom68k boot monitor*
This is the same in functionality as the MVME board running the
`BUG' boot monitor. Only the monitor commands and the addresses are
different.
*VxWorks (Motorola 68K or Intel 960)*
Configure DejaGnu for either `m68k-wrs-vxworks' (abbreviated
`vxworks68') or `i960-wrs-vxworks' (abbreviated `vxworks960').
Since both targets support IP addressing, specify the network
address (for example, a host name from `/etc/hosts') with `--name'.
The default connect protocol is `rlogin', but you can use any of
`--connect rlogin', `--connect telnet', or `--connect rsh'.
Test scripts need no special code to load programs into these
targets; since VxWorks supports NFS, all you must do is ensure
test programs are on an exported filesystem.
When you compile for VxWorks, use the linker `-r' option to make
the linker output relocatable--at least if you want to use library
routines. Many standard C routines are included in VxWorks; often
no additional libraries are needed. See your VxWorks system
documentation for additional details.
File: dejagnu.info, Node: Input Files, Next: Output Files, Prev: Cross Targets, Up: Internals
The files DejaGnu reads
=======================
The `runtest' program used to invoke DejaGnu is a short shell script
generated by `make' during the configuration process. Its main task is
to read the main test framework driver, `runtest.exp'.
`runtest.exp', in turn, reads `expect' code from certain other
files, in this order:
1. Each of the `site.exp' local definition files available. *Note
Setting `runtest' defaults: Customizing, for details.
2. `lib/utils.exp', a collection of utility procedures. *Note
DejaGnu Builtins: DejaGnu Builtins, for descriptions of these
procedures.
3. `lib/framework.exp', a file of subroutines meant for `runtest'
itself rather than for general-purpose use in both `runtest' and
test suites.
4. `debugger.exp', Don Libes' Tcl Debugger. (See `A Debugger for Tcl
Applications' by Don Libes. This paper is distributed with
`expect' in PostScript form as the file `expect/tcl-debug.ps'.)
5. `lib/remote.exp', a collection of subroutines meant for connecting
to remote machines.
6. `lib/target.exp', a collection of subroutines used for the
configuration systems in DejaGnu. These procedures typically
manipulate or utilize the configuration system.
7. An initialization file `TOOL_init.exp'. *Note Initialization
module: Init Module, for more discussion of init files.
File: dejagnu.info, Node: Output Files, Prev: Input Files, Up: Internals
The files DejaGnu writes
========================
`runtest' always writes two kinds of output files: summary logs and
detailed logs. The contents of both of these are determined by your
tests.
For troubleshooting, a third kind of output file is useful: use
`--debug' to request an output file showing details of what `expect' is
doing internally.
* Menu:
* Summary:: Files that summarize tests
* Detail:: Files that contain complete test results
* Debug:: Logging expect internal actions
File: dejagnu.info, Node: Summary, Next: Detail, Up: Output Files
Summary log
-----------
`runtest' always produces a summary output file `TOOL.sum'. This
summary shows the names of all test files run; for each test file, one
line of output from each `pass' command (showing status `PASS' or
`XPASS') or `fail' command (status `FAIL' or `XFAIL'); trailing summary
statistics that count passing and failing tests (expected and
unexpected); and the full pathname and version number of the tool
tested. (All possible outcomes, and all errors, are always reflected in
the summary output file, regardless of whether or not you specify
`--all'.)
If any of your tests use the procedures `unresolved', `unsupported',
or `untested', the summary output also tabulates the corresponding
outcomes.
For example, after `runtest --tool binutils', look for a summary log
in `binutils.sum'. Normally, `runtest' writes this file in your
current working directory; use the `--outdir' option to select a
different directory.
Here is a short sample summary log:
Test Run By rob on Mon May 25 21:40:57 PDT 1992
=== gdb tests ===
Running ./gdb.t00/echo.exp ...
PASS: Echo test
Running ./gdb.all/help.exp ...
PASS: help add-symbol-file
PASS: help aliases
PASS: help breakpoint "bre" abbreviation
FAIL: help run "r" abbreviation
Running ./gdb.t10/crossload.exp ...
PASS: m68k-elf (elf-big) explicit format; loaded
XFAIL: mips-ecoff (ecoff-bigmips) "ptype v_signed_char" signed
C types
=== gdb Summary ===
# of expected passes 5
# of expected failures 1
# of unexpected failures 1
/usr/latest/bin/gdb version 4.6.5 -q
File: dejagnu.info, Node: Detail, Next: Debug, Prev: Summary, Up: Output Files
Detailed log
------------
`runtest' also saves a detailed log file `TOOL.log', showing any
output generated by tests as well as the summary output. For example,
after `runtest --tool binutils', look for a detailed log in
`binutils.log'. Normally, `runtest' writes this file in your current
working directory; use the `--outdir' option to select a different
directory.
Here is a brief example showing a detailed log for G++ tests:
Test Run By rob on Mon May 25 21:40:43 PDT 1992
=== g++ tests ===
--- Running ./g++.other/t01-1.exp ---
PASS: operate delete
--- Running ./g++.other/t01-2.exp ---
FAIL: i960 bug EOF
p0000646.C: In function `int warn_return_1 ()':
p0000646.C:109: warning: control reaches end of non-void function
p0000646.C: In function `int warn_return_arg (int)':
p0000646.C:117: warning: control reaches end of non-void function
p0000646.C: In function `int warn_return_sum (int, int)':
p0000646.C:125: warning: control reaches end of non-void function
p0000646.C: In function `struct foo warn_return_foo ()':
p0000646.C:132: warning: control reaches end of non-void function
--- Running ./g++.other/t01-4.exp ---
FAIL: abort
900403_04.C:8: zero width for bit-field `foo'
--- Running ./g++.other/t01-3.exp ---
FAIL: segment violation
900519_12.C:9: parse error before `;'
900519_12.C:12: Segmentation violation
/usr/latest/bin/gcc: Internal compiler error: program cc1plus got
fatal signal
=== g++ Summary ===
# of expected passes 1
# of expected failures 3
/usr/ps/bin/g++ version cygnus-2.0.1
File: dejagnu.info, Node: Debug, Prev: Detail, Up: Output Files
Logging `expect' internal actions
---------------------------------
With the `--debug' option, you can request a log file showing the
output from `expect' itself, running in debugging mode. This file
(`dbg.log', in the directory where you start `runtest') shows each
pattern `expect' considers in analyzing test output.
This file reflects each `send' command, showing the string sent as
input to the tool under test; and each `expect' command, showing each
pattern it compares with the tool output.
The log messages for `expect' begin with a message of the form
expect: does {TOOL OUTPUT} (spawn_id N) match pattern
{EXPECTED PATTERN}?
For every unsuccessful match, `expect' issues a `no' after this
message; if other patterns are specified for the same `expect' command,
they are reflected also, but without the first part of the message
(`expect...match pattern').
When `expect' finds a match, the log for the successful match ends
with `yes', followed by a record of the `expect' variables set to
describe a successful match. Here is an excerpt from the debugging log
for a GDB test:
send: sent {break gdbme.c:34\n} to spawn id 6
expect: does {} (spawn_id 6) match pattern {Breakpoint.*at.* file
gdbme.c, line 34.*\(gdb\) $}? no
{.*\(gdb\) $}? no
expect: does {} (spawn_id 0) match pattern {<return>}? no
{\(y or n\) }? no
{buffer_full}? no
{virtual}? no
{memory}? no
{exhausted}? no
{Undefined}? no
{command}? no
break gdbme.c:34
Breakpoint 8 at 0x23d8: file gdbme.c, line 34.
(gdb) expect: does {break gdbme.c:34\r\nBreakpoint 8 at 0x23d8:
file gdbme.c, line 34.\r\n(gdb) } (spawn_id 6) match pattern
{Breakpoint.*at.* file gdbme.c, line 34.*\(gdb\) $}? yes
expect: set expect_out(0,start) {18}
expect: set expect_out(0,end) {71}
expect: set expect_out(0,string) {Breakpoint 8 at 0x23d8: file
gdbme.c, line 34.\r\n(gdb) }
expect: set expect_out(spawn_id) {6}
expect: set expect_out(buffer) {break gdbme.c:34\r\nBreakpoint 8
at 0x23d8: file gdbme.c, line 34.\r\n(gdb) }
PASS: 70 0 breakpoint line number in file
This example exhibits three properties of `expect' and DejaGnu that
might be surprising at first glance:
* Empty output for the first attempted match. The first set of
attempted matches shown ran against the output `{}'--that is, no
output. `expect' begins attempting to match the patterns supplied
immediately; often, the first pass is against incomplete output (or
completely before all output, as in this case).
* Interspersed tool output. The beginning of the log entry for the
second attempted match may be hard to spot: this is because the
prompt `(gdb) ' appears on the same line, just before the `expect:'
that marks the beginning of the log entry.
* Fail-safe patterns. Many of the patterns tested are fail-safe
patterns provided by GDB testing utilities, to reduce possible
indeterminacy. It is useful to anticipate potential variations
caused by extreme system conditions (GDB might issue the message
`virtual memory exhausted' in rare circumstances), or by changes in
the tested program (`Undefined command' is the likeliest outcome if
the name of a tested command changes).
The pattern `{<return>}' is a particularly interesting fail-safe
to notice; it checks for an unexpected <RET> prompt. This may
happen, for example, if the tested tool can filter output through a
pager.
These fail-safe patterns (like the debugging log itself) are
primarily useful while developing test scripts. Use the `error'
procedure to make the actions for fail-safe patterns produce
messages starting with `ERROR' on the `runtest' standard output,
and in the detailed log file.
File: dejagnu.info, Node: Tests, Next: Extending, Prev: Internals, Up: Top
How To Write a Test Cases
*************************
* Menu:
* Writing:: Writing a test case
* Debugging:: Debugging a test case
* Adding:: Adding a test case to a test suite
* Hints:: Hints on writing a test case
* Variables:: Special variables used by test cases