llvm-capstone/lldb/test/lldbtest.py
Johnny Chen 65045f2168 o TestStdCXXDisassembly.py:
Update the expected match string.

o lldbtest.py:

  Indicate when a command fails, even if there is nothing in the error stream.

o TestHelp.py:

  Add a regression test case for 'help image dump symtab'.

o CommandObjectHelp.cpp:

  Some of the logic branches with successful help command results were not tagged
  with a Success Status.  They are fixed now.  This is important for Python
  interaction.

llvm-svn: 116062
2010-10-08 17:21:27 +00:00

590 lines
21 KiB
Python

"""
LLDB module which provides the abstract base class of lldb test case.
The concrete subclass can override lldbtest.TesBase in order to inherit the
common behavior for unitest.TestCase.setUp/tearDown implemented in this file.
The subclass should override the attribute mydir in order for the python runtime
to locate the individual test cases when running as part of a large test suite
or when running each test case as a separate python invocation.
./dotest.py provides a test driver which sets up the environment to run the
entire test suite. Users who want to run a test case on its own can specify the
LLDB_TEST and PYTHONPATH environment variables, for example:
$ export LLDB_TEST=$PWD
$ export PYTHONPATH=/Volumes/data/lldb/svn/trunk/build/Debug/LLDB.framework/Resources/Python:$LLDB_TEST:$LLDB_TEST/plugins
$ echo $LLDB_TEST
/Volumes/data/lldb/svn/trunk/test
$ echo $PYTHONPATH
/Volumes/data/lldb/svn/trunk/build/Debug/LLDB.framework/Resources/Python:/Volumes/data/lldb/svn/trunk/test:/Volumes/data/lldb/svn/trunk/test/plugins
$ python function_types/TestFunctionTypes.py
.
----------------------------------------------------------------------
Ran 1 test in 0.363s
OK
$ LLDB_COMMAND_TRACE=YES python array_types/TestArrayTypes.py
...
runCmd: breakpoint set -f main.c -l 42
output: Breakpoint created: 1: file ='main.c', line = 42, locations = 1
runCmd: run
output: Launching '/Volumes/data/lldb/svn/trunk/test/array_types/a.out' (x86_64)
...
runCmd: frame variable strings
output: (char *[4]) strings = {
(char *) strings[0] = 0x0000000100000f0c "Hello",
(char *) strings[1] = 0x0000000100000f12 "Hola",
(char *) strings[2] = 0x0000000100000f17 "Bonjour",
(char *) strings[3] = 0x0000000100000f1f "Guten Tag"
}
runCmd: frame variable char_16
output: (char [16]) char_16 = {
(char) char_16[0] = 'H',
(char) char_16[1] = 'e',
(char) char_16[2] = 'l',
(char) char_16[3] = 'l',
(char) char_16[4] = 'o',
(char) char_16[5] = ' ',
(char) char_16[6] = 'W',
(char) char_16[7] = 'o',
(char) char_16[8] = 'r',
(char) char_16[9] = 'l',
(char) char_16[10] = 'd',
(char) char_16[11] = '\n',
(char) char_16[12] = '\0',
(char) char_16[13] = '\0',
(char) char_16[14] = '\0',
(char) char_16[15] = '\0'
}
runCmd: frame variable ushort_matrix
output: (unsigned short [2][3]) ushort_matrix = {
(unsigned short [3]) ushort_matrix[0] = {
(unsigned short) ushort_matrix[0][0] = 0x0001,
(unsigned short) ushort_matrix[0][1] = 0x0002,
(unsigned short) ushort_matrix[0][2] = 0x0003
},
(unsigned short [3]) ushort_matrix[1] = {
(unsigned short) ushort_matrix[1][0] = 0x000b,
(unsigned short) ushort_matrix[1][1] = 0x0016,
(unsigned short) ushort_matrix[1][2] = 0x0021
}
}
runCmd: frame variable long_6
output: (long [6]) long_6 = {
(long) long_6[0] = 1,
(long) long_6[1] = 2,
(long) long_6[2] = 3,
(long) long_6[3] = 4,
(long) long_6[4] = 5,
(long) long_6[5] = 6
}
.
----------------------------------------------------------------------
Ran 1 test in 0.349s
OK
$
"""
import os, sys, traceback
import re
from subprocess import *
import time
import types
import unittest2
import lldb
if "LLDB_COMMAND_TRACE" in os.environ and os.environ["LLDB_COMMAND_TRACE"]=="YES":
traceAlways = True
else:
traceAlways = False
#
# Some commonly used assert messages.
#
COMMAND_FAILED_AS_EXPECTED = "Command has failed as expected"
CURRENT_EXECUTABLE_SET = "Current executable set successfully"
PROCESS_IS_VALID = "Process is valid"
PROCESS_KILLED = "Process is killed successfully"
RUN_SUCCEEDED = "Process is launched successfully"
RUN_COMPLETED = "Process exited successfully"
BACKTRACE_DISPLAYED_CORRECTLY = "Backtrace displayed correctly"
BREAKPOINT_CREATED = "Breakpoint created successfully"
BREAKPOINT_PENDING_CREATED = "Pending breakpoint created successfully"
BREAKPOINT_HIT_ONCE = "Breakpoint resolved with hit cout = 1"
BREAKPOINT_HIT_TWICE = "Breakpoint resolved with hit cout = 2"
STEP_OUT_SUCCEEDED = "Thread step-out succeeded"
STOPPED_DUE_TO_BREAKPOINT = "Process state is stopped due to breakpoint"
STOPPED_DUE_TO_STEP_IN = "Process state is stopped due to step in"
DATA_TYPES_DISPLAYED_CORRECTLY = "Data type(s) displayed correctly"
VALID_BREAKPOINT = "Got a valid breakpoint"
VALID_FILESPEC = "Got a valid filespec"
VALID_PROCESS = "Got a valid process"
VALID_TARGET = "Got a valid target"
VARIABLES_DISPLAYED_CORRECTLY = "Variable(s) displayed correctly"
#
# And a generic "Command '%s' returns successfully" message generator.
#
def CMD_MSG(str, exe):
if exe:
return "Command '%s' returns successfully" % str
else:
return "'%s' compares successfully" % str
#
# Returns an env variable array from the os.environ map object.
#
def EnvArray():
return map(lambda k,v: k+"="+v, os.environ.keys(), os.environ.values())
# From 2.7's subprocess.check_output() convenience function.
def system(*popenargs, **kwargs):
r"""Run command with arguments and return its output as a byte string.
If the exit code was non-zero it raises a CalledProcessError. The
CalledProcessError object will have the return code in the returncode
attribute and output in the output attribute.
The arguments are the same as for the Popen constructor. Example:
>>> check_output(["ls", "-l", "/dev/null"])
'crw-rw-rw- 1 root root 1, 3 Oct 18 2007 /dev/null\n'
The stdout argument is not allowed as it is used internally.
To capture standard error in the result, use stderr=STDOUT.
>>> check_output(["/bin/sh", "-c",
... "ls -l non_existent_file ; exit 0"],
... stderr=STDOUT)
'ls: non_existent_file: No such file or directory\n'
"""
if 'stdout' in kwargs:
raise ValueError('stdout argument not allowed, it will be overridden.')
process = Popen(stdout=PIPE, *popenargs, **kwargs)
output, error = process.communicate()
retcode = process.poll()
if traceAlways:
if isinstance(popenargs, types.StringTypes):
args = [popenargs]
else:
args = list(popenargs)
print >> sys.stderr
print >> sys.stderr, "os command:", args
print >> sys.stderr, "stdout:", output
print >> sys.stderr, "stderr:", error
print >> sys.stderr, "retcode:", retcode
print >> sys.stderr
if retcode:
cmd = kwargs.get("args")
if cmd is None:
cmd = popenargs[0]
raise CalledProcessError(retcode, cmd)
return output
def pointer_size():
"""Return the pointer size of the host system."""
import ctypes
a_pointer = ctypes.c_void_p(0xffff)
return 8 * ctypes.sizeof(a_pointer)
class TestBase(unittest2.TestCase):
"""This LLDB abstract base class is meant to be subclassed."""
@classmethod
def skipLongRunningTest(cls):
"""
By default, we skip long running test case.
This can be overridden by passing '-l' to the test driver (dotest.py).
"""
if "LLDB_SKIP_LONG_RUNNING_TEST" in os.environ and "NO" == os.environ["LLDB_SKIP_LONG_RUNNING_TEST"]:
return False
else:
return True
# The concrete subclass should override this attribute.
mydir = None
# State pertaining to the inferior process, if any.
# This reflects inferior process started through the command interface with
# either the lldb "run" or "process launch" command.
# See also self.runCmd().
runStarted = False
# Maximum allowed attempts when launching the inferior process.
# Can be overridden by the LLDB_MAX_LAUNCH_COUNT environment variable.
maxLaunchCount = 3;
# Time to wait before the next launching attempt in second(s).
# Can be overridden by the LLDB_TIME_WAIT environment variable.
timeWait = 1.0;
# Keep track of the old current working directory.
oldcwd = None
@classmethod
def setUpClass(cls):
"""
Python unittest framework class setup fixture.
Do current directory manipulation.
"""
# Fail fast if 'mydir' attribute is not overridden.
if not cls.mydir or len(cls.mydir) == 0:
raise Exception("Subclasses must override the 'mydir' attribute.")
# Save old working directory.
cls.oldcwd = os.getcwd()
# Change current working directory if ${LLDB_TEST} is defined.
# See also dotest.py which sets up ${LLDB_TEST}.
if ("LLDB_TEST" in os.environ):
if traceAlways:
print >> sys.stderr, "Change dir to:", os.path.join(os.environ["LLDB_TEST"], cls.mydir)
os.chdir(os.path.join(os.environ["LLDB_TEST"], cls.mydir))
@classmethod
def tearDownClass(cls):
"""
Python unittest framework class teardown fixture.
Do class-wide cleanup.
"""
# First, let's do the platform-specific cleanup.
module = __import__(sys.platform)
if not module.cleanup():
raise Exception("Don't know how to do cleanup")
# Subclass might have specific cleanup function defined.
if getattr(cls, "classCleanup", None):
if traceAlways:
print >> sys.stderr, "Call class-specific cleanup function for class:", cls
try:
cls.classCleanup()
except:
exc_type, exc_value, exc_tb = sys.exc_info()
traceback.print_exception(exc_type, exc_value, exc_tb)
# Restore old working directory.
if traceAlways:
print >> sys.stderr, "Restore dir to:", cls.oldcwd
os.chdir(cls.oldcwd)
def setUp(self):
#import traceback
#traceback.print_stack()
if ("LLDB_WAIT_BETWEEN_TEST_CASES" in os.environ and
os.environ["LLDB_WAIT_BETWEEN_TEST_CASES"] == 'YES'):
time.sleep(0.5)
if "LLDB_MAX_LAUNCH_COUNT" in os.environ:
self.maxLaunchCount = int(os.environ["LLDB_MAX_LAUNCH_COUNT"])
if "LLDB_TIME_WAIT" in os.environ:
self.timeWait = float(os.environ["LLDB_TIME_WAIT"])
# Create the debugger instance if necessary.
try:
self.dbg = lldb.DBG
except AttributeError:
self.dbg = lldb.SBDebugger.Create()
if not self.dbg.IsValid():
raise Exception('Invalid debugger instance')
# We want our debugger to be synchronous.
self.dbg.SetAsync(False)
# There is no process associated with the debugger as yet.
# See also self.tearDown() where it checks whether self.process has a
# valid reference and calls self.process.Kill() to kill the process.
self.process = None
# Retrieve the associated command interpreter instance.
self.ci = self.dbg.GetCommandInterpreter()
if not self.ci:
raise Exception('Could not get the command interpreter')
# And the result object.
self.res = lldb.SBCommandReturnObject()
# These are for customized teardown cleanup.
self.dict = None
self.doTearDownCleanup = False
def setTearDownCleanup(self, dictionary=None):
self.dict = dictionary
self.doTearDownCleanup = True
def tearDown(self):
#import traceback
#traceback.print_stack()
# Terminate the current process being debugged, if any.
if self.runStarted:
self.runCmd("process kill", PROCESS_KILLED, check=False)
elif self.process and self.process.IsValid():
rc = self.invoke(self.process, "Kill")
self.assertTrue(rc.Success(), PROCESS_KILLED)
del self.process
del self.dbg
# Perform registered teardown cleanup.
if self.doTearDownCleanup:
module = __import__(sys.platform)
if not module.cleanup(dictionary=self.dict):
raise Exception("Don't know how to do cleanup")
def runCmd(self, cmd, msg=None, check=True, trace=False, setCookie=True):
"""
Ask the command interpreter to handle the command and then check its
return status.
"""
# Fail fast if 'cmd' is not meaningful.
if not cmd or len(cmd) == 0:
raise Exception("Bad 'cmd' parameter encountered")
trace = (True if traceAlways else trace)
running = (cmd.startswith("run") or cmd.startswith("process launch"))
for i in range(self.maxLaunchCount if running else 1):
self.ci.HandleCommand(cmd, self.res)
if trace:
print >> sys.stderr, "runCmd:", cmd
if self.res.Succeeded():
print >> sys.stderr, "output:", self.res.GetOutput()
else:
print >> sys.stderr, "runCmd failed!"
print >> sys.stderr, self.res.GetError()
if running:
# For process launch, wait some time before possible next try.
time.sleep(self.timeWait)
if self.res.Succeeded():
break
elif running:
print >> sys.stderr, "Command '" + cmd + "' failed!"
# Modify runStarted only if "run" or "process launch" was encountered.
if running:
self.runStarted = running and setCookie
if check:
self.assertTrue(self.res.Succeeded(),
msg if msg else CMD_MSG(cmd, True))
def expect(self, str, msg=None, patterns=None, startstr=None, substrs=None, trace=False, error=False, matching=True, exe=True):
"""
Similar to runCmd; with additional expect style output matching ability.
Ask the command interpreter to handle the command and then check its
return status. The 'msg' parameter specifies an informational assert
message. We expect the output from running the command to start with
'startstr', matches the substrings contained in 'substrs', and regexp
matches the patterns contained in 'patterns'.
If the keyword argument error is set to True, it signifies that the API
client is expecting the command to fail. In this case, the error stream
from running the command is retrieved and compared against the golden
input, instead.
If the keyword argument matching is set to False, it signifies that the API
client is expecting the output of the command not to match the golden
input.
Finally, the required argument 'str' represents the lldb command to be
sent to the command interpreter. In case the keyword argument 'exe' is
set to False, the 'str' is treated as a string to be matched/not-matched
against the golden input.
"""
trace = (True if traceAlways else trace)
if exe:
# First run the command. If we are expecting error, set check=False.
self.runCmd(str, trace = (True if trace else False), check = not error)
# Then compare the output against expected strings.
output = self.res.GetError() if error else self.res.GetOutput()
# If error is True, the API client expects the command to fail!
if error:
self.assertFalse(self.res.Succeeded(),
"Command '" + str + "' is expected to fail!")
else:
# No execution required, just compare str against the golden input.
output = str
if trace:
print >> sys.stderr, "looking at:", output
# The heading says either "Expecting" or "Not expecting".
if trace:
heading = "Expecting" if matching else "Not expecting"
# Start from the startstr, if specified.
# If there's no startstr, set the initial state appropriately.
matched = output.startswith(startstr) if startstr else (True if matching else False)
if startstr and trace:
print >> sys.stderr, "%s start string: %s" % (heading, startstr)
print >> sys.stderr, "Matched" if matched else "Not matched"
print >> sys.stderr
# Look for sub strings, if specified.
keepgoing = matched if matching else not matched
if substrs and keepgoing:
for str in substrs:
matched = output.find(str) != -1
if trace:
print >> sys.stderr, "%s sub string: %s" % (heading, str)
print >> sys.stderr, "Matched" if matched else "Not matched"
keepgoing = matched if matching else not matched
if not keepgoing:
break
if trace:
print >> sys.stderr
# Search for regular expression patterns, if specified.
keepgoing = matched if matching else not matched
if patterns and keepgoing:
for pattern in patterns:
# Match Objects always have a boolean value of True.
matched = bool(re.search(pattern, output))
if trace:
print >> sys.stderr, "%s pattern: %s" % (heading, pattern)
print >> sys.stderr, "Matched" if matched else "Not matched"
keepgoing = matched if matching else not matched
if not keepgoing:
break
if trace:
print >> sys.stderr
self.assertTrue(matched if matching else not matched,
msg if msg else CMD_MSG(str, exe))
def invoke(self, obj, name, trace=False):
"""Use reflection to call a method dynamically with no argument."""
trace = (True if traceAlways else trace)
method = getattr(obj, name)
import inspect
self.assertTrue(inspect.ismethod(method),
name + "is a method name of object: " + str(obj))
result = method()
if trace:
print >> sys.stderr, str(method) + ":", result
return result
def breakAfterLaunch(self, process, func, trace=False):
"""
Perform some dancees after LaunchProcess() to break at func name.
Return True if we can successfully break at the func name in due time.
"""
trace = (True if traceAlways else trace)
count = 0
while True:
# The stop reason of the thread should be breakpoint.
thread = process.GetThreadAtIndex(0)
SR = thread.GetStopReason()
if trace:
print >> sys.stderr, "StopReason =", StopReasonString(SR)
if SR == StopReasonEnum("Breakpoint"):
frame = thread.GetFrameAtIndex(0)
name = frame.GetFunction().GetName()
if trace:
print >> sys.stderr, "function =", name
if (name == func):
# We got what we want; now break out of the loop.
return True
# The inferior is in a transient state; continue the process.
time.sleep(1.0)
if trace:
print >> sys.stderr, "Continuing the process:", process
process.Continue()
count = count + 1
if count == 15:
if trace:
print >> sys.stderr, "Reached 15 iterations, giving up..."
# Enough iterations already, break out of the loop.
return False
# End of while loop.
def buildDefault(self, architecture=None, compiler=None, dictionary=None):
"""Platform specific way to build the default binaries."""
module = __import__(sys.platform)
if not module.buildDefault(architecture, compiler, dictionary):
raise Exception("Don't know how to build default binary")
def buildDsym(self, architecture=None, compiler=None, dictionary=None):
"""Platform specific way to build binaries with dsym info."""
module = __import__(sys.platform)
if not module.buildDsym(architecture, compiler, dictionary):
raise Exception("Don't know how to build binary with dsym")
def buildDwarf(self, architecture=None, compiler=None, dictionary=None):
"""Platform specific way to build binaries with dwarf maps."""
module = __import__(sys.platform)
if not module.buildDwarf(architecture, compiler, dictionary):
raise Exception("Don't know how to build binary with dwarf")
def DebugSBValue(self, frame, val):
"""Debug print a SBValue object, if traceAlways is True."""
if not traceAlways:
return
err = sys.stderr
err.write(val.GetName() + ":\n")
err.write('\t' + "TypeName -> " + val.GetTypeName() + '\n')
err.write('\t' + "ByteSize -> " + str(val.GetByteSize()) + '\n')
err.write('\t' + "NumChildren -> " + str(val.GetNumChildren()) + '\n')
err.write('\t' + "Value -> " + str(val.GetValue(frame)) + '\n')
err.write('\t' + "Summary -> " + str(val.GetSummary(frame)) + '\n')
err.write('\t' + "IsPtrType -> " + str(val.TypeIsPtrType()) + '\n')
err.write('\t' + "Location -> " + val.GetLocation(frame) + '\n')