TestUniversal.py
6.21 KB
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"""Test aspects of lldb commands on universal binaries."""
import unittest2
import os
import lldb
from lldbsuite.test.decorators import *
from lldbsuite.test.lldbtest import *
from lldbsuite.test import lldbutil
def haswellOrLater():
features = subprocess.check_output(["sysctl", "machdep.cpu"])
return "AVX2" in features.split()
class UniversalTestCase(TestBase):
NO_DEBUG_INFO_TESTCASE = True
mydir = TestBase.compute_mydir(__file__)
def setUp(self):
# Call super's setUp().
TestBase.setUp(self)
# Find the line number to break inside main().
self.line = line_number('main.c', '// Set break point at this line.')
@add_test_categories(['pyapi'])
@skipUnlessDarwin
@unittest2.skipUnless(hasattr(os, "uname") and os.uname()[4] in
['x86_64'], "requires x86_64")
@skipIfDarwinEmbedded # this test file assumes we're targetting an x86 system
def test_sbdebugger_create_target_with_file_and_target_triple(self):
"""Test the SBDebugger.CreateTargetWithFileAndTargetTriple() API."""
# Invoke the default build rule.
self.build()
# Note that "testit" is a universal binary.
exe = self.getBuildArtifact("testit")
# Create a target by the debugger.
target = self.dbg.CreateTargetWithFileAndTargetTriple(
exe, "x86_64-apple-macosx")
self.assertTrue(target, VALID_TARGET)
self.expect("image list -A -b", substrs=["x86_64 testit"])
# Now launch the process, and do not stop at entry point.
process = target.LaunchSimple(
None, None, self.get_process_working_directory())
self.assertTrue(process, PROCESS_IS_VALID)
@skipUnlessDarwin
@unittest2.skipUnless(hasattr(os, "uname") and os.uname()[4] in
['x86_64'], "requires x86_64")
@skipIfDarwinEmbedded # this test file assumes we're targetting an x86 system
def test_process_launch_for_universal(self):
"""Test process launch of a universal binary."""
from lldbsuite.test.lldbutil import print_registers
if not haswellOrLater():
return
# Invoke the default build rule.
self.build()
# Note that "testit" is a universal binary.
exe = self.getBuildArtifact("testit")
# By default, x86_64 is assumed if no architecture is specified.
self.expect("file " + exe, CURRENT_EXECUTABLE_SET,
startstr="Current executable set to ",
substrs=["testit' (x86_64h)."])
# Break inside the main.
lldbutil.run_break_set_by_file_and_line(
self, "main.c", self.line, num_expected_locations=1, loc_exact=True)
# We should be able to launch the x86_64h executable.
self.runCmd("run", RUN_SUCCEEDED)
# Check whether we have a x86_64h process launched.
target = self.dbg.GetSelectedTarget()
process = target.GetProcess()
self.expect("image list -A -b", substrs=["x86_64h testit"])
self.runCmd("continue")
# Now specify x86_64 as the architecture for "testit".
self.expect("file -a x86_64 " + exe, CURRENT_EXECUTABLE_SET,
startstr="Current executable set to ",
substrs=["testit' (x86_64)."])
# Break inside the main.
lldbutil.run_break_set_by_file_and_line(
self, "main.c", self.line, num_expected_locations=1, loc_exact=True)
# We should be able to launch the x86_64 executable as well.
self.runCmd("run", RUN_SUCCEEDED)
# Check whether we have a x86_64 process launched.
# FIXME: This wrong. We are expecting x86_64, but spawning a
# new process currently doesn't allow specifying a *sub*-architecture.
# <rdar://problem/46101466>
self.expect("image list -A -b", substrs=["x86_64h testit"])
self.runCmd("continue")
@skipUnlessDarwin
@unittest2.skipUnless(hasattr(os, "uname") and os.uname()[4] in
['x86_64'], "requires x86_64")
@skipIfDarwinEmbedded # this test file assumes we're targetting an x86 system
def test_process_attach_with_wrong_arch(self):
"""Test that when we attach to a binary from the wrong fork of
a universal binary, we fix up the ABI correctly."""
if not haswellOrLater():
return
# Now keep the architecture at x86_64, but switch the binary
# we launch to x86_64h, and make sure on attach we switch to
# the correct architecture.
# Invoke the default build rule.
self.build()
# Note that "testit" is a universal binary.
exe = self.getBuildArtifact("testit")
# Create a target by the debugger.
target = self.dbg.CreateTargetWithFileAndTargetTriple(
exe, "x86_64-apple-macosx")
self.assertTrue(target, VALID_TARGET)
self.expect("image list -A -b", substrs=["x86_64 testit"])
bkpt = target.BreakpointCreateBySourceRegex(
"sleep", lldb.SBFileSpec("main.c"))
self.assertTrue(bkpt.IsValid(), "Valid breakpoint")
self.assertTrue(
bkpt.GetNumLocations() >= 1,
"Our main breakpoint has locations.")
popen = self.spawnSubprocess(exe, ["keep_waiting"])
self.addTearDownHook(self.cleanupSubprocesses)
error = lldb.SBError()
empty_listener = lldb.SBListener()
process = target.AttachToProcessWithID(
empty_listener, popen.pid, error)
self.assertTrue(error.Success(), "Attached to process.")
self.expect("image list -A -b", substrs=["x86_64h testit"])
# It may seem odd to check the number of frames, but the bug
# that motivated this test was that we eventually fixed the
# architecture, but we left the ABI set to the original value.
# In that case, if you asked the process for its architecture,
# it would look right, but since the ABI was wrong,
# backtracing failed.
threads = lldbutil.continue_to_breakpoint(process, bkpt)
self.assertTrue(len(threads) == 1)
thread = threads[0]
self.assertTrue(
thread.GetNumFrames() > 1,
"We were able to backtrace.")