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"""
Test SBProcess APIs, including ReadMemory(), WriteMemory(), and others.
"""
from __future__ import print_function
import os
import time
import lldb
from lldbsuite.test.decorators import *
from lldbsuite.test.lldbtest import *
from lldbsuite.test.lldbutil import get_stopped_thread, state_type_to_str
class ProcessAPITestCase(TestBase):
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.cpp",
"// Set break point at this line and check variable 'my_char'.")
@add_test_categories(['pyapi'])
def test_read_memory(self):
"""Test Python SBProcess.ReadMemory() API."""
self.build()
exe = os.path.join(os.getcwd(), "a.out")
target = self.dbg.CreateTarget(exe)
self.assertTrue(target, VALID_TARGET)
breakpoint = target.BreakpointCreateByLocation("main.cpp", self.line)
self.assertTrue(breakpoint, VALID_BREAKPOINT)
# Launch the process, and do not stop at the entry point.
process = target.LaunchSimple(
None, None, self.get_process_working_directory())
thread = get_stopped_thread(process, lldb.eStopReasonBreakpoint)
self.assertTrue(
thread.IsValid(),
"There should be a thread stopped due to breakpoint")
frame = thread.GetFrameAtIndex(0)
# Get the SBValue for the global variable 'my_char'.
val = frame.FindValue("my_char", lldb.eValueTypeVariableGlobal)
self.DebugSBValue(val)
# Due to the typemap magic (see lldb.swig), we pass in 1 to ReadMemory and
# expect to get a Python string as the result object!
error = lldb.SBError()
self.assertFalse(val.TypeIsPointerType())
content = process.ReadMemory(
val.AddressOf().GetValueAsUnsigned(), 1, error)
if not error.Success():
self.fail("SBProcess.ReadMemory() failed")
if self.TraceOn():
print("memory content:", content)
self.expect(
content,
"Result from SBProcess.ReadMemory() matches our expected output: 'x'",
exe=False,
startstr=b'x')
# Read (char *)my_char_ptr.
val = frame.FindValue("my_char_ptr", lldb.eValueTypeVariableGlobal)
self.DebugSBValue(val)
cstring = process.ReadCStringFromMemory(
val.GetValueAsUnsigned(), 256, error)
if not error.Success():
self.fail("SBProcess.ReadCStringFromMemory() failed")
if self.TraceOn():
print("cstring read is:", cstring)
self.expect(
cstring,
"Result from SBProcess.ReadCStringFromMemory() matches our expected output",
exe=False,
startstr='Does it work?')
# Get the SBValue for the global variable 'my_cstring'.
val = frame.FindValue("my_cstring", lldb.eValueTypeVariableGlobal)
self.DebugSBValue(val)
# Due to the typemap magic (see lldb.swig), we pass in 256 to read at most 256 bytes
# from the address, and expect to get a Python string as the result
# object!
self.assertFalse(val.TypeIsPointerType())
cstring = process.ReadCStringFromMemory(
val.AddressOf().GetValueAsUnsigned(), 256, error)
if not error.Success():
self.fail("SBProcess.ReadCStringFromMemory() failed")
if self.TraceOn():
print("cstring read is:", cstring)
self.expect(
cstring,
"Result from SBProcess.ReadCStringFromMemory() matches our expected output",
exe=False,
startstr='lldb.SBProcess.ReadCStringFromMemory() works!')
# Get the SBValue for the global variable 'my_uint32'.
val = frame.FindValue("my_uint32", lldb.eValueTypeVariableGlobal)
self.DebugSBValue(val)
# Due to the typemap magic (see lldb.swig), we pass in 4 to read 4 bytes
# from the address, and expect to get an int as the result!
self.assertFalse(val.TypeIsPointerType())
my_uint32 = process.ReadUnsignedFromMemory(
val.AddressOf().GetValueAsUnsigned(), 4, error)
if not error.Success():
self.fail("SBProcess.ReadCStringFromMemory() failed")
if self.TraceOn():
print("uint32 read is:", my_uint32)
if my_uint32 != 12345:
self.fail(
"Result from SBProcess.ReadUnsignedFromMemory() does not match our expected output")
@add_test_categories(['pyapi'])
def test_write_memory(self):
"""Test Python SBProcess.WriteMemory() API."""
self.build()
exe = os.path.join(os.getcwd(), "a.out")
target = self.dbg.CreateTarget(exe)
self.assertTrue(target, VALID_TARGET)
breakpoint = target.BreakpointCreateByLocation("main.cpp", self.line)
self.assertTrue(breakpoint, VALID_BREAKPOINT)
# Launch the process, and do not stop at the entry point.
process = target.LaunchSimple(
None, None, self.get_process_working_directory())
thread = get_stopped_thread(process, lldb.eStopReasonBreakpoint)
self.assertTrue(
thread.IsValid(),
"There should be a thread stopped due to breakpoint")
frame = thread.GetFrameAtIndex(0)
# Get the SBValue for the global variable 'my_char'.
val = frame.FindValue("my_char", lldb.eValueTypeVariableGlobal)
self.DebugSBValue(val)
# If the variable does not have a load address, there's no sense
# continuing.
if not val.GetLocation().startswith("0x"):
return
# OK, let's get the hex location of the variable.
location = int(val.GetLocation(), 16)
# The program logic makes the 'my_char' variable to have memory content as 'x'.
# But we want to use the WriteMemory() API to assign 'a' to the
# variable.
# Now use WriteMemory() API to write 'a' into the global variable.
error = lldb.SBError()
result = process.WriteMemory(location, 'a', error)
if not error.Success() or result != 1:
self.fail("SBProcess.WriteMemory() failed")
# Read from the memory location. This time it should be 'a'.
# Due to the typemap magic (see lldb.swig), we pass in 1 to ReadMemory and
# expect to get a Python string as the result object!
content = process.ReadMemory(location, 1, error)
if not error.Success():
self.fail("SBProcess.ReadMemory() failed")
if self.TraceOn():
print("memory content:", content)
self.expect(
content,
"Result from SBProcess.ReadMemory() matches our expected output: 'a'",
exe=False,
startstr=b'a')
@add_test_categories(['pyapi'])
def test_access_my_int(self):
"""Test access 'my_int' using Python SBProcess.GetByteOrder() and other APIs."""
self.build()
exe = os.path.join(os.getcwd(), "a.out")
target = self.dbg.CreateTarget(exe)
self.assertTrue(target, VALID_TARGET)
breakpoint = target.BreakpointCreateByLocation("main.cpp", self.line)
self.assertTrue(breakpoint, VALID_BREAKPOINT)
# Launch the process, and do not stop at the entry point.
process = target.LaunchSimple(
None, None, self.get_process_working_directory())
thread = get_stopped_thread(process, lldb.eStopReasonBreakpoint)
self.assertTrue(
thread.IsValid(),
"There should be a thread stopped due to breakpoint")
frame = thread.GetFrameAtIndex(0)
# Get the SBValue for the global variable 'my_int'.
val = frame.FindValue("my_int", lldb.eValueTypeVariableGlobal)
self.DebugSBValue(val)
# If the variable does not have a load address, there's no sense
# continuing.
if not val.GetLocation().startswith("0x"):
return
# OK, let's get the hex location of the variable.
location = int(val.GetLocation(), 16)
# Note that the canonical from of the bytearray is little endian.
from lldbsuite.test.lldbutil import int_to_bytearray, bytearray_to_int
byteSize = val.GetByteSize()
bytes = int_to_bytearray(256, byteSize)
byteOrder = process.GetByteOrder()
if byteOrder == lldb.eByteOrderBig:
bytes.reverse()
elif byteOrder == lldb.eByteOrderLittle:
pass
else:
# Neither big endian nor little endian? Return for now.
# Add more logic here if we want to handle other types.
return
# The program logic makes the 'my_int' variable to have int type and value of 0.
# But we want to use the WriteMemory() API to assign 256 to the
# variable.
# Now use WriteMemory() API to write 256 into the global variable.
error = lldb.SBError()
result = process.WriteMemory(location, bytes, error)
if not error.Success() or result != byteSize:
self.fail("SBProcess.WriteMemory() failed")
# Make sure that the val we got originally updates itself to notice the
# change:
self.expect(
val.GetValue(),
"SBProcess.ReadMemory() successfully writes (int)256 to the memory location for 'my_int'",
exe=False,
startstr='256')
# And for grins, get the SBValue for the global variable 'my_int'
# again, to make sure that also tracks the new value:
val = frame.FindValue("my_int", lldb.eValueTypeVariableGlobal)
self.expect(
val.GetValue(),
"SBProcess.ReadMemory() successfully writes (int)256 to the memory location for 'my_int'",
exe=False,
startstr='256')
# Now read the memory content. The bytearray should have (byte)1 as
# the second element.
content = process.ReadMemory(location, byteSize, error)
if not error.Success():
self.fail("SBProcess.ReadMemory() failed")
# The bytearray_to_int utility function expects a little endian
# bytearray.
if byteOrder == lldb.eByteOrderBig:
content = bytearray(content, 'ascii')
content.reverse()
new_value = bytearray_to_int(content, byteSize)
if new_value != 256:
self.fail("Memory content read from 'my_int' does not match (int)256")
# Dump the memory content....
if self.TraceOn():
for i in content:
print("byte:", i)
@add_test_categories(['pyapi'])
def test_remote_launch(self):
"""Test SBProcess.RemoteLaunch() API with a process not in eStateConnected, and it should fail."""
self.build()
exe = os.path.join(os.getcwd(), "a.out")
target = self.dbg.CreateTarget(exe)
self.assertTrue(target, VALID_TARGET)
# Launch the process, and do not stop at the entry point.
process = target.LaunchSimple(
None, None, self.get_process_working_directory())
if self.TraceOn():
print("process state:", state_type_to_str(process.GetState()))
self.assertTrue(process.GetState() != lldb.eStateConnected)
error = lldb.SBError()
success = process.RemoteLaunch(
None, None, None, None, None, None, 0, False, error)
self.assertTrue(
not success,
"RemoteLaunch() should fail for process state != eStateConnected")
@add_test_categories(['pyapi'])
def test_get_num_supported_hardware_watchpoints(self):
"""Test SBProcess.GetNumSupportedHardwareWatchpoints() API with a process."""
self.build()
exe = os.path.join(os.getcwd(), "a.out")
self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET)
target = self.dbg.CreateTarget(exe)
self.assertTrue(target, VALID_TARGET)
breakpoint = target.BreakpointCreateByLocation("main.cpp", self.line)
self.assertTrue(breakpoint, VALID_BREAKPOINT)
# Launch the process, and do not stop at the entry point.
process = target.LaunchSimple(
None, None, self.get_process_working_directory())
error = lldb.SBError()
num = process.GetNumSupportedHardwareWatchpoints(error)
if self.TraceOn() and error.Success():
print("Number of supported hardware watchpoints: %d" % num)
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