lldb/docs/testsuite/a-detailed-walkthrough.txt - llvm-project - Git at Google

 Let's pick test/settings/TestSettings.py as our example.  First, notice the file
 name "TestSettings.py", the Test*.py pattern is the default mechanism that the
 test driver uses for discovery of tests.  As to TestSettings.py, it defines a
 class:

 class SettingsCommandTestCase(TestBase):

 derived from TestBase, which is defined in test/lldbtest.py and is itself
 derived from Python's unittest framework's TestCase class.  See also
 http://docs.python.org/library/unittest.html for more details.

 To just run the TestSettings.py test, chdir to the lldb test directory, and then
 type the following command:

 /Volumes/data/lldb/svn/trunk/test $ ./dotest.py settings
 ----------------------------------------------------------------------
 Collected 6 tests

 ----------------------------------------------------------------------
 Ran 6 tests in 8.699s

 OK (expected failures=1)
 /Volumes/data/lldb/svn/trunk/test $

 Pass '-v' option to the test driver to also output verbose descriptions of the
 individual test cases and their test status:

 /Volumes/data/lldb/svn/trunk/test $ ./dotest.py -v settings
 ----------------------------------------------------------------------
 Collected 6 tests

 test_set_auto_confirm (TestSettings.SettingsCommandTestCase)
 Test that after 'set auto-confirm true', manual confirmation should not kick in. ... ok
 test_set_output_path (TestSettings.SettingsCommandTestCase)
 Test that setting target.process.output-path for the launched process works. ... expected failure
 test_set_prompt (TestSettings.SettingsCommandTestCase)
 Test that 'set prompt' actually changes the prompt. ... ok
 test_set_term_width (TestSettings.SettingsCommandTestCase)
 Test that 'set term-width' actually changes the term-width. ... ok
 test_with_dsym (TestSettings.SettingsCommandTestCase)
 Test that run-args and env-vars are passed to the launched process. ... ok
 test_with_dwarf (TestSettings.SettingsCommandTestCase)
 Test that run-args and env-vars are passed to the launched process. ... ok

 ----------------------------------------------------------------------
 Ran 6 tests in 5.735s

 OK (expected failures=1)
 /Volumes/data/lldb/svn/trunk/test $

 Underneath, the '-v' option passes keyword argument verbosity=2 to the
 Python's unittest.TextTestRunner (see also
 http://docs.python.org/library/unittest.html#unittest.TextTestRunner).  For very
 detailed descriptions about what's going on during the test, pass '-t' to the
 test driver, which asks the test driver to trace the commands executed and to
 display their output.  For brevity, the '-t' output is not included here.

 Notice the 'expected failures=1' message at the end of the run.  This is because
 of a bug currently in lldb such that setting target.process.output-path to
 'stdout.txt' does not have any effect on the redirection of the standard output
 of the subsequent launched process.  We are using unittest2 (a backport of new
 unittest features for Python 2.4-2.6) to decorate (mark) the particular test
 method as such:

     @unittest2.expectedFailure
     # rdar://problem/8435794
     # settings set target.process.output-path does not seem to work
     def test_set_output_path(self):

 See http://pypi.python.org/pypi/unittest2 for more details.

 Now let's look inside the test method:

     def test_set_output_path(self):
         """Test that setting target.process.output-path for the launched process works."""
         self.build()

         exe = os.path.join(os.getcwd(), "a.out")
         self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET)

         # Set the output-path and verify it is set.
         self.runCmd("settings set target.process.output-path 'stdout.txt'")
         self.expect("settings show target.process.output-path",
             startstr = "target.process.output-path (string) = 'stdout.txt'")

         self.runCmd("run", RUN_SUCCEEDED)

         # The 'stdout.txt' file should now exist.
         self.assertTrue(os.path.isfile("stdout.txt"),
                         "'stdout.txt' exists due to target.process.output-path.")

         # Read the output file produced by running the program.
         with open('stdout.txt', 'r') as f:
             output = f.read()

         self.expect(output, exe=False,
             startstr = "This message should go to standard out.")

 The self.build() statement is used to build a binary for this
 test instance. This will build the binary for the current debug info format. If
 we wanted to avoid running the test for every supported debug info format we
 could annotate it with @no_debug_info_test. The test would then only be run for
 the default format.  The logic for building a test binary resides in the builder
 modules (packages/Python/lldbsuite/test/builders/builder.py)

 After the binary is built, it is time to specify the file to be used as the main
 executable by lldb:

         # Construct the path to a file "a.out" inside the test's build folder.
         exe = self.getBuildArtifact("a.out")
         self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET)

 This is where the attribute assignment:

 class SettingsCommandTestCase(TestBase):

     mydir = "settings"

 which happens right after the SettingsCommandTestCase class declaration comes
 into place. It specifies the relative directory to the top level 'test' so that
 the test harness can change its working directory in order to find the
 executable as well as the source code files. The runCmd() method is defined in
 the TestBase base class (within test/lldbtest.py) and its purpose is to pass the
 specified command to the lldb command interpreter. It's like you're typing the
 command within an interactive lldb session.

 The CURRENT_EXECUTABLE_SET is an assert message defined in the lldbtest module
 so that it can be reused from other test modules.

 By default, the runCmd() is going to check the return status of the command
 execution and fails the test if it is not a success.  The assert message, in our
 case CURRENT_EXECUTABLE_SET, is used in the exception printout if this happens.

 There are cases when we don't care about the return status from the command
 execution.  This can be accomplished by passing the keyword argument pair
 'check=False' to the method.

 After the current executable is set, we'll then execute two more commands:

         # Set the output-path and verify it is set.
         stdout = self.getBuildArtifact('stdout.txt')
         self.runCmd("settings set target.process.output-path '%s'" %stdout)
         self.expect("settings show target.process.output-path",
                     SETTING_MSG("target.process.output-path"),
             startstr = "target.process.output-path (string) = '.*stdout.txt'")

 The first uses the 'settings set' command to set the static setting
 target.process.output-path to be 'stdout.txt', instead of the default
 '/dev/stdout'.  We then immediately issue a 'settings show' command to check
 that, indeed, the setting did take place.  Notice that we use a new method
 expect() to accomplish the task, which in effect issues a runCmd() behind the
 door and grabs the output from the command execution and expects to match the
 start string of the output against what we pass in as the value of the keyword
 argument pair:

             startstr = "target.process.output-path (string) = '%s'" %stdout

 Take a look at TestBase.expect() within lldbtest.py for more details.  Among
 other things, it can also match against a list of regexp patterns as well as a
 list of sub strings.  And it can also perform negative matching, i.e., instead
 of expecting something from the output of command execution, it can perform the
 action of 'not expecting' something.

 This will launch/run the program:

         self.runCmd("run", RUN_SUCCEEDED)

 And this asserts that the file 'stdout.txt' should be present after running the
 program.

         # The 'stdout.txt' file should now exist.
         self.assertTrue(os.path.isfile(stdout),
                         "stdout.txt' exists due to target.process.output-path.")

 Also take a look at main.cpp which emits some message to the stdout.  Now, if we
 pass this assertion, it's time to examine the contents of the file to make sure
 it contains the same message as programmed in main.cpp:

         # Read the output file produced by running the program.
         with open(stdout, 'r') as f:
             output = f.read()

         self.expect(output, exe=False,
             startstr = "This message should go to standard out.")

 We open the file and read its contents into output, then issue an expect()
 method.  The 'exe=False' keyword argument pair tells expect() that don't try to
 execute the first arg as a command at all.  Instead, treat it as a string to
 match against whatever is thrown in as keyword argument pairs!

 There are also other test methods present in the TestSettings.py mode:
 test_set_prompt(), test_set_term_width(), test_set_auto_confirm(),
 test_with_dsym(), and test_with_dwarf().  We are using the default test loader
 from unittest framework, which uses the 'test' method name prefix to identify
 test methods automatically.

 This finishes the walkthrough of the test method test_set_output_path(self).
 Before we say goodbye, notice the little method definition at the top of the
 file:

     @classmethod
     def classCleanup(cls):
         system(["/bin/sh", "-c", "rm -f "+self.getBuildArtifact("output.txt")])
         system(["/bin/sh", "-c", "rm -f "+self.getBuildArtifact("stdout.txt")])

 This is a classmethod (as shown by the @classmethod decorator) which allows the
 individual test class to perform cleanup actions after the test harness finishes
 with the particular test class.  This is part of the so-called test fixture in
 the unittest framework.  From http://docs.python.org/library/unittest.html:

 A test fixture represents the preparation needed to perform one or more tests,
 and any associate cleanup actions. This may involve, for example, creating
 temporary or proxy databases, directories, or starting a server process.

 The TestBase class uses such fixture with setUp(self), tearDown(self),
 setUpClass(cls), and tearDownClass(cls).  And within teraDownClass(cls), it
 checks whether the current class has an attribute named 'classCleanup', and
 executes as a method if present.  In this particular case, the classCleanup()
 calls a utility function system() defined in lldbtest.py in order to remove the
 files created by running the program as the tests are executed.

 This system() function uses the Python subprocess module to spawn the process
 and to retrieve its results.  If the test instance passes the keyword argument
 pair 'sender=self', the detailed command execution through the operating system
 also gets recorded in a session object.  If the test instance fails or errors,
 the session info automatically gets dumped to a file grouped under a directory
 named after the timestamp of the particular test suite run.

 For simple cases, look for the timestamp directory in the same directory of the
 test driver program dotest.py.  For example, if we comment out the
 @expectedFailure decorator for TestSettings.py, and then run the test module:

 /Volumes/data/lldb/svn/trunk/test $ ./dotest.py -v settings
 ----------------------------------------------------------------------
 Collected 6 tests

 test_set_auto_confirm (TestSettings.SettingsCommandTestCase)
 Test that after 'set auto-confirm true', manual confirmation should not kick in. ... ok
 test_set_output_path (TestSettings.SettingsCommandTestCase)
 Test that setting target.process.output-path for the launched process works. ... FAIL
 test_set_prompt (TestSettings.SettingsCommandTestCase)
 Test that 'set prompt' actually changes the prompt. ... ok
 test_set_term_width (TestSettings.SettingsCommandTestCase)
 Test that 'set term-width' actually changes the term-width. ... ok
 test_with_dsym (TestSettings.SettingsCommandTestCase)
 Test that run-args and env-vars are passed to the launched process. ... ok
 test_with_dwarf (TestSettings.SettingsCommandTestCase)
 Test that run-args and env-vars are passed to the launched process. ... ok

 ======================================================================
 FAIL: test_set_output_path (TestSettings.SettingsCommandTestCase)
 Test that setting target.process.output-path for the launched process works.
 ----------------------------------------------------------------------
 Traceback (most recent call last):
   File "/Volumes/data/lldb/svn/trunk/test/settings/TestSettings.py", line 125, in test_set_output_path
     "'stdout.txt' exists due to target.process.output-path.")
 AssertionError: False is not True : 'stdout.txt' exists due to target.process.output-path.

 ----------------------------------------------------------------------
 Ran 6 tests in 8.219s

 FAILED (failures=1)
 /Volumes/data/lldb/svn/trunk/test $ ls 2010-10-19-14:10:49.059609

 NOTE: This directory name has been changed to not contain the ':' character
       which is not allowed in windows platforms.  We'll change the ':' to '_'
       and get rid of the microsecond resolution by modifying the test driver.

 TestSettings.SettingsCommandTestCase.test_set_output_path.log
 /Volumes/data/lldb/svn/trunk/test $

 We get one failure and a timestamp directory 2010-10-19-14:10:49.059609.
 For education purposes, the directory and its contents are reproduced here in
 the same directory as the current file.
	Let's pick test/settings/TestSettings.py as our example. First, notice the file
	name "TestSettings.py", the Test*.py pattern is the default mechanism that the
	test driver uses for discovery of tests. As to TestSettings.py, it defines a
	class:

	class SettingsCommandTestCase(TestBase):

	derived from TestBase, which is defined in test/lldbtest.py and is itself
	derived from Python's unittest framework's TestCase class. See also
	http://docs.python.org/library/unittest.html for more details.

	To just run the TestSettings.py test, chdir to the lldb test directory, and then
	type the following command:

	/Volumes/data/lldb/svn/trunk/test $ ./dotest.py settings
	----------------------------------------------------------------------
	Collected 6 tests

	----------------------------------------------------------------------
	Ran 6 tests in 8.699s

	OK (expected failures=1)
	/Volumes/data/lldb/svn/trunk/test $

	Pass '-v' option to the test driver to also output verbose descriptions of the
	individual test cases and their test status:

	/Volumes/data/lldb/svn/trunk/test $ ./dotest.py -v settings
	----------------------------------------------------------------------
	Collected 6 tests

	test_set_auto_confirm (TestSettings.SettingsCommandTestCase)
	Test that after 'set auto-confirm true', manual confirmation should not kick in. ... ok
	test_set_output_path (TestSettings.SettingsCommandTestCase)
	Test that setting target.process.output-path for the launched process works. ... expected failure
	test_set_prompt (TestSettings.SettingsCommandTestCase)
	Test that 'set prompt' actually changes the prompt. ... ok
	test_set_term_width (TestSettings.SettingsCommandTestCase)
	Test that 'set term-width' actually changes the term-width. ... ok
	test_with_dsym (TestSettings.SettingsCommandTestCase)
	Test that run-args and env-vars are passed to the launched process. ... ok
	test_with_dwarf (TestSettings.SettingsCommandTestCase)
	Test that run-args and env-vars are passed to the launched process. ... ok

	----------------------------------------------------------------------
	Ran 6 tests in 5.735s

	OK (expected failures=1)
	/Volumes/data/lldb/svn/trunk/test $

	Underneath, the '-v' option passes keyword argument verbosity=2 to the
	Python's unittest.TextTestRunner (see also
	http://docs.python.org/library/unittest.html#unittest.TextTestRunner). For very
	detailed descriptions about what's going on during the test, pass '-t' to the
	test driver, which asks the test driver to trace the commands executed and to
	display their output. For brevity, the '-t' output is not included here.

	Notice the 'expected failures=1' message at the end of the run. This is because
	of a bug currently in lldb such that setting target.process.output-path to
	'stdout.txt' does not have any effect on the redirection of the standard output
	of the subsequent launched process. We are using unittest2 (a backport of new
	unittest features for Python 2.4-2.6) to decorate (mark) the particular test
	method as such:

	@unittest2.expectedFailure
	# rdar://problem/8435794
	# settings set target.process.output-path does not seem to work
	def test_set_output_path(self):

	See http://pypi.python.org/pypi/unittest2 for more details.

	Now let's look inside the test method:

	def test_set_output_path(self):
	"""Test that setting target.process.output-path for the launched process works."""
	self.build()

	exe = os.path.join(os.getcwd(), "a.out")
	self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET)

	# Set the output-path and verify it is set.
	self.runCmd("settings set target.process.output-path 'stdout.txt'")
	self.expect("settings show target.process.output-path",
	startstr = "target.process.output-path (string) = 'stdout.txt'")

	self.runCmd("run", RUN_SUCCEEDED)

	# The 'stdout.txt' file should now exist.
	self.assertTrue(os.path.isfile("stdout.txt"),
	"'stdout.txt' exists due to target.process.output-path.")

	# Read the output file produced by running the program.
	with open('stdout.txt', 'r') as f:
	output = f.read()

	self.expect(output, exe=False,
	startstr = "This message should go to standard out.")

	The self.build() statement is used to build a binary for this
	test instance. This will build the binary for the current debug info format. If
	we wanted to avoid running the test for every supported debug info format we
	could annotate it with @no_debug_info_test. The test would then only be run for
	the default format. The logic for building a test binary resides in the builder
	modules (packages/Python/lldbsuite/test/builders/builder.py)

	After the binary is built, it is time to specify the file to be used as the main
	executable by lldb:

	# Construct the path to a file "a.out" inside the test's build folder.
	exe = self.getBuildArtifact("a.out")
	self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET)

	This is where the attribute assignment:

	class SettingsCommandTestCase(TestBase):

	mydir = "settings"

	which happens right after the SettingsCommandTestCase class declaration comes
	into place. It specifies the relative directory to the top level 'test' so that
	the test harness can change its working directory in order to find the
	executable as well as the source code files. The runCmd() method is defined in
	the TestBase base class (within test/lldbtest.py) and its purpose is to pass the
	specified command to the lldb command interpreter. It's like you're typing the
	command within an interactive lldb session.

	The CURRENT_EXECUTABLE_SET is an assert message defined in the lldbtest module
	so that it can be reused from other test modules.

	By default, the runCmd() is going to check the return status of the command
	execution and fails the test if it is not a success. The assert message, in our
	case CURRENT_EXECUTABLE_SET, is used in the exception printout if this happens.

	There are cases when we don't care about the return status from the command
	execution. This can be accomplished by passing the keyword argument pair
	'check=False' to the method.

	After the current executable is set, we'll then execute two more commands:

	# Set the output-path and verify it is set.
	stdout = self.getBuildArtifact('stdout.txt')
	self.runCmd("settings set target.process.output-path '%s'" %stdout)
	self.expect("settings show target.process.output-path",
	SETTING_MSG("target.process.output-path"),
	startstr = "target.process.output-path (string) = '.*stdout.txt'")

	The first uses the 'settings set' command to set the static setting
	target.process.output-path to be 'stdout.txt', instead of the default
	'/dev/stdout'. We then immediately issue a 'settings show' command to check
	that, indeed, the setting did take place. Notice that we use a new method
	expect() to accomplish the task, which in effect issues a runCmd() behind the
	door and grabs the output from the command execution and expects to match the
	start string of the output against what we pass in as the value of the keyword
	argument pair:

	startstr = "target.process.output-path (string) = '%s'" %stdout

	Take a look at TestBase.expect() within lldbtest.py for more details. Among
	other things, it can also match against a list of regexp patterns as well as a
	list of sub strings. And it can also perform negative matching, i.e., instead
	of expecting something from the output of command execution, it can perform the
	action of 'not expecting' something.

	This will launch/run the program:

	self.runCmd("run", RUN_SUCCEEDED)

	And this asserts that the file 'stdout.txt' should be present after running the
	program.

	# The 'stdout.txt' file should now exist.
	self.assertTrue(os.path.isfile(stdout),
	"stdout.txt' exists due to target.process.output-path.")

	Also take a look at main.cpp which emits some message to the stdout. Now, if we
	pass this assertion, it's time to examine the contents of the file to make sure
	it contains the same message as programmed in main.cpp:

	# Read the output file produced by running the program.
	with open(stdout, 'r') as f:
	output = f.read()

	self.expect(output, exe=False,
	startstr = "This message should go to standard out.")

	We open the file and read its contents into output, then issue an expect()
	method. The 'exe=False' keyword argument pair tells expect() that don't try to
	execute the first arg as a command at all. Instead, treat it as a string to
	match against whatever is thrown in as keyword argument pairs!

	There are also other test methods present in the TestSettings.py mode:
	test_set_prompt(), test_set_term_width(), test_set_auto_confirm(),
	test_with_dsym(), and test_with_dwarf(). We are using the default test loader
	from unittest framework, which uses the 'test' method name prefix to identify
	test methods automatically.

	This finishes the walkthrough of the test method test_set_output_path(self).
	Before we say goodbye, notice the little method definition at the top of the
	file:

	@classmethod
	def classCleanup(cls):
	system(["/bin/sh", "-c", "rm -f "+self.getBuildArtifact("output.txt")])
	system(["/bin/sh", "-c", "rm -f "+self.getBuildArtifact("stdout.txt")])

	This is a classmethod (as shown by the @classmethod decorator) which allows the
	individual test class to perform cleanup actions after the test harness finishes
	with the particular test class. This is part of the so-called test fixture in
	the unittest framework. From http://docs.python.org/library/unittest.html:

	A test fixture represents the preparation needed to perform one or more tests,
	and any associate cleanup actions. This may involve, for example, creating
	temporary or proxy databases, directories, or starting a server process.

	The TestBase class uses such fixture with setUp(self), tearDown(self),
	setUpClass(cls), and tearDownClass(cls). And within teraDownClass(cls), it
	checks whether the current class has an attribute named 'classCleanup', and
	executes as a method if present. In this particular case, the classCleanup()
	calls a utility function system() defined in lldbtest.py in order to remove the
	files created by running the program as the tests are executed.

	This system() function uses the Python subprocess module to spawn the process
	and to retrieve its results. If the test instance passes the keyword argument
	pair 'sender=self', the detailed command execution through the operating system
	also gets recorded in a session object. If the test instance fails or errors,
	the session info automatically gets dumped to a file grouped under a directory
	named after the timestamp of the particular test suite run.

	For simple cases, look for the timestamp directory in the same directory of the
	test driver program dotest.py. For example, if we comment out the
	@expectedFailure decorator for TestSettings.py, and then run the test module:

	/Volumes/data/lldb/svn/trunk/test $ ./dotest.py -v settings
	----------------------------------------------------------------------
	Collected 6 tests

	test_set_auto_confirm (TestSettings.SettingsCommandTestCase)
	Test that after 'set auto-confirm true', manual confirmation should not kick in. ... ok
	test_set_output_path (TestSettings.SettingsCommandTestCase)
	Test that setting target.process.output-path for the launched process works. ... FAIL
	test_set_prompt (TestSettings.SettingsCommandTestCase)
	Test that 'set prompt' actually changes the prompt. ... ok
	test_set_term_width (TestSettings.SettingsCommandTestCase)
	Test that 'set term-width' actually changes the term-width. ... ok
	test_with_dsym (TestSettings.SettingsCommandTestCase)
	Test that run-args and env-vars are passed to the launched process. ... ok
	test_with_dwarf (TestSettings.SettingsCommandTestCase)
	Test that run-args and env-vars are passed to the launched process. ... ok

	======================================================================
	FAIL: test_set_output_path (TestSettings.SettingsCommandTestCase)
	Test that setting target.process.output-path for the launched process works.
	----------------------------------------------------------------------
	Traceback (most recent call last):
	File "/Volumes/data/lldb/svn/trunk/test/settings/TestSettings.py", line 125, in test_set_output_path
	"'stdout.txt' exists due to target.process.output-path.")
	AssertionError: False is not True : 'stdout.txt' exists due to target.process.output-path.

	----------------------------------------------------------------------
	Ran 6 tests in 8.219s

	FAILED (failures=1)
	/Volumes/data/lldb/svn/trunk/test $ ls 2010-10-19-14:10:49.059609

	NOTE: This directory name has been changed to not contain the ':' character
	which is not allowed in windows platforms. We'll change the ':' to '_'
	and get rid of the microsecond resolution by modifying the test driver.

	TestSettings.SettingsCommandTestCase.test_set_output_path.log
	/Volumes/data/lldb/svn/trunk/test $

	We get one failure and a timestamp directory 2010-10-19-14:10:49.059609.
	For education purposes, the directory and its contents are reproduced here in
	the same directory as the current file.