TestMiniDumpNew.py
21.9 KB
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"""
Test basics of Minidump debugging.
"""
from six import iteritems
import shutil
import lldb
from lldbsuite.test.decorators import *
from lldbsuite.test.lldbtest import *
from lldbsuite.test import lldbutil
class MiniDumpNewTestCase(TestBase):
mydir = TestBase.compute_mydir(__file__)
NO_DEBUG_INFO_TESTCASE = True
_linux_x86_64_pid = 29917
_linux_x86_64_not_crashed_pid = 29939
_linux_x86_64_not_crashed_pid_offset = 0xD967
def process_from_yaml(self, yaml_file):
minidump_path = self.getBuildArtifact(os.path.basename(yaml_file) + ".dmp")
self.yaml2obj(yaml_file, minidump_path)
self.target = self.dbg.CreateTarget(None)
self.process = self.target.LoadCore(minidump_path)
return self.process
@skipIfReproducer # lldb::FileSP used in typemap cannot be instrumented.
def check_state(self):
with open(os.devnull) as devnul:
# sanitize test output
self.dbg.SetOutputFileHandle(devnul, False)
self.dbg.SetErrorFileHandle(devnul, False)
self.assertTrue(self.process.is_stopped)
# Process.Continue
error = self.process.Continue()
self.assertFalse(error.Success())
self.assertTrue(self.process.is_stopped)
# Thread.StepOut
thread = self.process.GetSelectedThread()
thread.StepOut()
self.assertTrue(self.process.is_stopped)
# command line
self.dbg.HandleCommand('s')
self.assertTrue(self.process.is_stopped)
self.dbg.HandleCommand('c')
self.assertTrue(self.process.is_stopped)
# restore file handles
self.dbg.SetOutputFileHandle(None, False)
self.dbg.SetErrorFileHandle(None, False)
def test_loadcore_error_status(self):
"""Test the SBTarget.LoadCore(core, error) overload."""
minidump_path = self.getBuildArtifact("linux-x86_64.dmp")
self.yaml2obj("linux-x86_64.yaml", minidump_path)
self.target = self.dbg.CreateTarget(None)
error = lldb.SBError()
self.process = self.target.LoadCore(minidump_path, error)
self.assertTrue(self.process, PROCESS_IS_VALID)
self.assertTrue(error.Success())
def test_loadcore_error_status_failure(self):
"""Test the SBTarget.LoadCore(core, error) overload."""
self.target = self.dbg.CreateTarget(None)
error = lldb.SBError()
self.process = self.target.LoadCore("non-existent.dmp", error)
self.assertFalse(self.process, PROCESS_IS_VALID)
self.assertTrue(error.Fail())
def test_process_info_in_minidump(self):
"""Test that lldb can read the process information from the Minidump."""
self.process_from_yaml("linux-x86_64.yaml")
self.assertTrue(self.process, PROCESS_IS_VALID)
self.assertEqual(self.process.GetNumThreads(), 1)
self.assertEqual(self.process.GetProcessID(), self._linux_x86_64_pid)
self.check_state()
def test_memory_region_name(self):
self.process_from_yaml("regions-linux-map.yaml")
result = lldb.SBCommandReturnObject()
addr_region_name_pairs = [
("0x400d9000", "/system/bin/app_process"),
("0x400db000", "/system/bin/app_process"),
("0x400dd000", "/system/bin/linker"),
("0x400ed000", "/system/bin/linker"),
("0x400ee000", "/system/bin/linker"),
("0x400fb000", "/system/lib/liblog.so"),
("0x400fc000", "/system/lib/liblog.so"),
("0x400fd000", "/system/lib/liblog.so"),
("0x400ff000", "/system/lib/liblog.so"),
("0x40100000", "/system/lib/liblog.so"),
("0x40101000", "/system/lib/libc.so"),
("0x40122000", "/system/lib/libc.so"),
("0x40123000", "/system/lib/libc.so"),
("0x40167000", "/system/lib/libc.so"),
("0x40169000", "/system/lib/libc.so"),
]
ci = self.dbg.GetCommandInterpreter()
for (addr, region_name) in addr_region_name_pairs:
command = 'memory region ' + addr
ci.HandleCommand(command, result, False)
message = 'Ensure memory "%s" shows up in output for "%s"' % (
region_name, command)
self.assertTrue(region_name in result.GetOutput(), message)
def test_thread_info_in_minidump(self):
"""Test that lldb can read the thread information from the Minidump."""
self.process_from_yaml("linux-x86_64.yaml")
self.check_state()
# This process crashed due to a segmentation fault in its
# one and only thread.
self.assertEqual(self.process.GetNumThreads(), 1)
thread = self.process.GetThreadAtIndex(0)
self.assertEqual(thread.GetStopReason(), lldb.eStopReasonSignal)
stop_description = thread.GetStopDescription(256)
self.assertTrue("SIGSEGV" in stop_description)
def test_stack_info_in_minidump(self):
"""Test that we can see a trivial stack in a breakpad-generated Minidump."""
# target create linux-x86_64 -c linux-x86_64.dmp
self.dbg.CreateTarget("linux-x86_64")
self.target = self.dbg.GetSelectedTarget()
self.process = self.target.LoadCore("linux-x86_64.dmp")
self.check_state()
self.assertEqual(self.process.GetNumThreads(), 1)
self.assertEqual(self.process.GetProcessID(), self._linux_x86_64_pid)
thread = self.process.GetThreadAtIndex(0)
# frame #0: linux-x86_64`crash()
# frame #1: linux-x86_64`_start
self.assertEqual(thread.GetNumFrames(), 2)
frame = thread.GetFrameAtIndex(0)
self.assertTrue(frame.IsValid())
self.assertTrue(frame.GetModule().IsValid())
pc = frame.GetPC()
eip = frame.FindRegister("pc")
self.assertTrue(eip.IsValid())
self.assertEqual(pc, eip.GetValueAsUnsigned())
def test_snapshot_minidump_dump_requested(self):
"""Test that if we load a snapshot minidump file (meaning the process
did not crash) with exception code "DUMP_REQUESTED" there is no stop reason."""
# target create -c linux-x86_64_not_crashed.dmp
self.dbg.CreateTarget(None)
self.target = self.dbg.GetSelectedTarget()
self.process = self.target.LoadCore("linux-x86_64_not_crashed.dmp")
self.check_state()
self.assertEqual(self.process.GetNumThreads(), 1)
thread = self.process.GetThreadAtIndex(0)
self.assertEqual(thread.GetStopReason(), lldb.eStopReasonNone)
stop_description = thread.GetStopDescription(256)
self.assertEqual(stop_description, "")
def test_snapshot_minidump_null_exn_code(self):
"""Test that if we load a snapshot minidump file (meaning the process
did not crash) with exception code zero there is no stop reason."""
self.process_from_yaml("linux-x86_64_null_signal.yaml")
self.check_state()
self.assertEqual(self.process.GetNumThreads(), 1)
thread = self.process.GetThreadAtIndex(0)
self.assertEqual(thread.GetStopReason(), lldb.eStopReasonNone)
stop_description = thread.GetStopDescription(256)
self.assertEqual(stop_description, "")
def check_register_unsigned(self, set, name, expected):
reg_value = set.GetChildMemberWithName(name)
self.assertTrue(reg_value.IsValid(),
'Verify we have a register named "%s"' % (name))
self.assertEqual(reg_value.GetValueAsUnsigned(), expected,
'Verify "%s" == %i' % (name, expected))
def check_register_string_value(self, set, name, expected, format):
reg_value = set.GetChildMemberWithName(name)
self.assertTrue(reg_value.IsValid(),
'Verify we have a register named "%s"' % (name))
if format is not None:
reg_value.SetFormat(format)
self.assertEqual(reg_value.GetValue(), expected,
'Verify "%s" has string value "%s"' % (name,
expected))
def test_arm64_registers(self):
"""Test ARM64 registers from a breakpad created minidump."""
self.process_from_yaml("arm64-macos.yaml")
self.check_state()
self.assertEqual(self.process.GetNumThreads(), 1)
thread = self.process.GetThreadAtIndex(0)
self.assertEqual(thread.GetStopReason(), lldb.eStopReasonNone)
stop_description = thread.GetStopDescription(256)
self.assertEqual(stop_description, "")
registers = thread.GetFrameAtIndex(0).GetRegisters()
# Verify the GPR registers are all correct
# Verify x0 - x31 register values
gpr = registers.GetValueAtIndex(0)
for i in range(32):
v = i+1 | i+2 << 32 | i+3 << 48
w = i+1
self.check_register_unsigned(gpr, 'x%i' % (i), v)
self.check_register_unsigned(gpr, 'w%i' % (i), w)
# Verify arg1 - arg8 register values
for i in range(1, 9):
v = i | i+1 << 32 | i+2 << 48
self.check_register_unsigned(gpr, 'arg%i' % (i), v)
i = 29
v = i+1 | i+2 << 32 | i+3 << 48
self.check_register_unsigned(gpr, 'fp', v)
i = 30
v = i+1 | i+2 << 32 | i+3 << 48
self.check_register_unsigned(gpr, 'lr', v)
i = 31
v = i+1 | i+2 << 32 | i+3 << 48
self.check_register_unsigned(gpr, 'sp', v)
self.check_register_unsigned(gpr, 'pc', 0x1000)
self.check_register_unsigned(gpr, 'cpsr', 0x11223344)
self.check_register_unsigned(gpr, 'psr', 0x11223344)
# Verify the FPR registers are all correct
fpr = registers.GetValueAtIndex(1)
for i in range(32):
v = "0x"
d = "0x"
s = "0x"
h = "0x"
for j in range(i+15, i-1, -1):
v += "%2.2x" % (j)
for j in range(i+7, i-1, -1):
d += "%2.2x" % (j)
for j in range(i+3, i-1, -1):
s += "%2.2x" % (j)
for j in range(i+1, i-1, -1):
h += "%2.2x" % (j)
self.check_register_string_value(fpr, "v%i" % (i), v,
lldb.eFormatHex)
self.check_register_string_value(fpr, "d%i" % (i), d,
lldb.eFormatHex)
self.check_register_string_value(fpr, "s%i" % (i), s,
lldb.eFormatHex)
self.check_register_string_value(fpr, "h%i" % (i), h,
lldb.eFormatHex)
self.check_register_unsigned(gpr, 'fpsr', 0x55667788)
self.check_register_unsigned(gpr, 'fpcr', 0x99aabbcc)
def verify_arm_registers(self, apple=False):
"""
Verify values of all ARM registers from a breakpad created
minidump.
"""
if apple:
self.process_from_yaml("arm-macos.yaml")
else:
self.process_from_yaml("arm-linux.yaml")
self.check_state()
self.assertEqual(self.process.GetNumThreads(), 1)
thread = self.process.GetThreadAtIndex(0)
self.assertEqual(thread.GetStopReason(), lldb.eStopReasonNone)
stop_description = thread.GetStopDescription(256)
self.assertEqual(stop_description, "")
registers = thread.GetFrameAtIndex(0).GetRegisters()
# Verify the GPR registers are all correct
# Verify x0 - x31 register values
gpr = registers.GetValueAtIndex(0)
for i in range(1, 16):
self.check_register_unsigned(gpr, 'r%i' % (i), i+1)
# Verify arg1 - arg4 register values
for i in range(1, 5):
self.check_register_unsigned(gpr, 'arg%i' % (i), i)
if apple:
self.check_register_unsigned(gpr, 'fp', 0x08)
else:
self.check_register_unsigned(gpr, 'fp', 0x0c)
self.check_register_unsigned(gpr, 'lr', 0x0f)
self.check_register_unsigned(gpr, 'sp', 0x0e)
self.check_register_unsigned(gpr, 'pc', 0x10)
self.check_register_unsigned(gpr, 'cpsr', 0x11223344)
# Verify the FPR registers are all correct
fpr = registers.GetValueAtIndex(1)
# Check d0 - d31
self.check_register_unsigned(gpr, 'fpscr', 0x55667788aabbccdd)
for i in range(32):
value = (i+1) | (i+1) << 8 | (i+1) << 32 | (i+1) << 48
self.check_register_unsigned(fpr, "d%i" % (i), value)
# Check s0 - s31
for i in range(32):
i_val = (i >> 1) + 1
if i & 1:
value = "%#8.8x" % (i_val | i_val << 16)
else:
value = "%#8.8x" % (i_val | i_val << 8)
self.check_register_string_value(fpr, "s%i" % (i), value,
lldb.eFormatHex)
# Check q0 - q15
for i in range(15):
a = i * 2 + 1
b = a + 1
value = ("0x00%2.2x00%2.2x0000%2.2x%2.2x"
"00%2.2x00%2.2x0000%2.2x%2.2x") % (b, b, b, b, a, a, a, a)
self.check_register_string_value(fpr, "q%i" % (i), value,
lldb.eFormatHex)
def test_linux_arm_registers(self):
"""Test Linux ARM registers from a breakpad created minidump.
The frame pointer is R11 for linux.
"""
self.verify_arm_registers(apple=False)
def test_apple_arm_registers(self):
"""Test Apple ARM registers from a breakpad created minidump.
The frame pointer is R7 for linux.
"""
self.verify_arm_registers(apple=True)
def do_test_deeper_stack(self, binary, core, pid):
target = self.dbg.CreateTarget(binary)
process = target.LoadCore(core)
thread = process.GetThreadAtIndex(0)
self.assertEqual(process.GetProcessID(), pid)
expected_stack = {1: 'bar', 2: 'foo', 3: '_start'}
self.assertGreaterEqual(thread.GetNumFrames(), len(expected_stack))
for index, name in iteritems(expected_stack):
frame = thread.GetFrameAtIndex(index)
self.assertTrue(frame.IsValid())
function_name = frame.GetFunctionName()
self.assertTrue(name in function_name)
@skipIfLLVMTargetMissing("X86")
def test_deeper_stack_in_minidump(self):
"""Test that we can examine a more interesting stack in a Minidump."""
# Launch with the Minidump, and inspect the stack.
# target create linux-x86_64_not_crashed -c linux-x86_64_not_crashed.dmp
self.do_test_deeper_stack("linux-x86_64_not_crashed",
"linux-x86_64_not_crashed.dmp",
self._linux_x86_64_not_crashed_pid)
@skipIfReproducer # VFS is a snapshot.
def do_change_pid_in_minidump(self, core, newcore, offset, oldpid, newpid):
""" This assumes that the minidump is breakpad generated on Linux -
meaning that the PID in the file will be an ascii string part of
/proc/PID/status which is written in the file
"""
shutil.copyfile(core, newcore)
with open(newcore, "rb+") as f:
f.seek(offset)
currentpid = f.read(5).decode('utf-8')
self.assertEqual(currentpid, oldpid)
f.seek(offset)
if len(newpid) < len(oldpid):
newpid += " " * (len(oldpid) - len(newpid))
newpid += "\n"
f.write(newpid.encode('utf-8'))
def test_deeper_stack_in_minidump_with_same_pid_running(self):
"""Test that we read the information from the core correctly even if we
have a running process with the same PID"""
new_core = self.getBuildArtifact("linux-x86_64_not_crashed-pid.dmp")
self.do_change_pid_in_minidump("linux-x86_64_not_crashed.dmp",
new_core,
self._linux_x86_64_not_crashed_pid_offset,
str(self._linux_x86_64_not_crashed_pid),
str(os.getpid()))
self.do_test_deeper_stack("linux-x86_64_not_crashed", new_core, os.getpid())
def test_two_cores_same_pid(self):
"""Test that we handle the situation if we have two core files with the same PID """
new_core = self.getBuildArtifact("linux-x86_64_not_crashed-pid.dmp")
self.do_change_pid_in_minidump("linux-x86_64_not_crashed.dmp",
new_core,
self._linux_x86_64_not_crashed_pid_offset,
str(self._linux_x86_64_not_crashed_pid),
str(self._linux_x86_64_pid))
self.do_test_deeper_stack("linux-x86_64_not_crashed",
new_core, self._linux_x86_64_pid)
self.test_stack_info_in_minidump()
def test_local_variables_in_minidump(self):
"""Test that we can examine local variables in a Minidump."""
# Launch with the Minidump, and inspect a local variable.
# target create linux-x86_64_not_crashed -c linux-x86_64_not_crashed.dmp
self.target = self.dbg.CreateTarget("linux-x86_64_not_crashed")
self.process = self.target.LoadCore("linux-x86_64_not_crashed.dmp")
self.check_state()
thread = self.process.GetThreadAtIndex(0)
frame = thread.GetFrameAtIndex(1)
value = frame.EvaluateExpression('x')
self.assertEqual(value.GetValueAsSigned(), 3)
def test_memory_regions_in_minidump(self):
"""Test memory regions from a Minidump"""
self.process_from_yaml("regions-linux-map.yaml")
self.check_state()
regions_count = 19
region_info_list = self.process.GetMemoryRegions()
self.assertEqual(region_info_list.GetSize(), regions_count)
def check_region(index, start, end, read, write, execute, mapped, name):
region_info = lldb.SBMemoryRegionInfo()
self.assertTrue(
self.process.GetMemoryRegionInfo(start, region_info).Success())
self.assertEqual(start, region_info.GetRegionBase())
self.assertEqual(end, region_info.GetRegionEnd())
self.assertEqual(read, region_info.IsReadable())
self.assertEqual(write, region_info.IsWritable())
self.assertEqual(execute, region_info.IsExecutable())
self.assertEqual(mapped, region_info.IsMapped())
self.assertEqual(name, region_info.GetName())
# Ensure we have the same regions as SBMemoryRegionInfoList contains.
if index >= 0 and index < regions_count:
region_info_from_list = lldb.SBMemoryRegionInfo()
self.assertTrue(region_info_list.GetMemoryRegionAtIndex(
index, region_info_from_list))
self.assertEqual(region_info_from_list, region_info)
a = "/system/bin/app_process"
b = "/system/bin/linker"
c = "/system/lib/liblog.so"
d = "/system/lib/libc.so"
n = None
max_int = 0xffffffffffffffff
# Test address before the first entry comes back with nothing mapped up
# to first valid region info
check_region(-1, 0x00000000, 0x400d9000, False, False, False, False, n)
check_region( 0, 0x400d9000, 0x400db000, True, False, True, True, a)
check_region( 1, 0x400db000, 0x400dc000, True, False, False, True, a)
check_region( 2, 0x400dc000, 0x400dd000, True, True, False, True, n)
check_region( 3, 0x400dd000, 0x400ec000, True, False, True, True, b)
check_region( 4, 0x400ec000, 0x400ed000, True, False, False, True, n)
check_region( 5, 0x400ed000, 0x400ee000, True, False, False, True, b)
check_region( 6, 0x400ee000, 0x400ef000, True, True, False, True, b)
check_region( 7, 0x400ef000, 0x400fb000, True, True, False, True, n)
check_region( 8, 0x400fb000, 0x400fc000, True, False, True, True, c)
check_region( 9, 0x400fc000, 0x400fd000, True, True, True, True, c)
check_region(10, 0x400fd000, 0x400ff000, True, False, True, True, c)
check_region(11, 0x400ff000, 0x40100000, True, False, False, True, c)
check_region(12, 0x40100000, 0x40101000, True, True, False, True, c)
check_region(13, 0x40101000, 0x40122000, True, False, True, True, d)
check_region(14, 0x40122000, 0x40123000, True, True, True, True, d)
check_region(15, 0x40123000, 0x40167000, True, False, True, True, d)
check_region(16, 0x40167000, 0x40169000, True, False, False, True, d)
check_region(17, 0x40169000, 0x4016b000, True, True, False, True, d)
check_region(18, 0x4016b000, 0x40176000, True, True, False, True, n)
check_region(-1, 0x40176000, max_int, False, False, False, False, n)
@skipIfLLVMTargetMissing("X86")
def test_minidump_sysroot(self):
"""Test that lldb can find a module referenced in an i386 linux minidump using the sysroot."""
# Copy linux-x86_64 executable to tmp_sysroot/temp/test/ (since it was compiled as
# /tmp/test/linux-x86_64)
tmp_sysroot = os.path.join(
self.getBuildDir(), "lldb_i386_mock_sysroot")
executable = os.path.join(
tmp_sysroot, "tmp", "test", "linux-x86_64")
exe_dir = os.path.dirname(executable)
lldbutil.mkdir_p(exe_dir)
shutil.copyfile("linux-x86_64", executable)
# Set sysroot and load core
self.runCmd("platform select remote-linux --sysroot '%s'" %
tmp_sysroot)
self.process_from_yaml("linux-x86_64.yaml")
self.check_state()
# Check that we loaded the module from the sysroot
self.assertEqual(self.target.GetNumModules(), 1)
module = self.target.GetModuleAtIndex(0)
spec_dir_norm = os.path.normcase(module.GetFileSpec().GetDirectory())
exe_dir_norm = os.path.normcase(exe_dir)
self.assertEqual(spec_dir_norm, exe_dir_norm)