def to_sbvalue(value, target):
value = Value.unwrap(value)
if isinstance(value, lldb.SBValue):
return value
elif value is None:
ty = target.GetBasicType(lldb.eBasicTypeVoid)
return target.CreateValueFromData('result', lldb.SBData(), ty)
elif isinstance(value, bool):
value = c_int(value)
asbytes = memoryview(value).tobytes() # type: ignore
data = lldb.SBData()
data.SetData(dummy_sberror, asbytes, target.GetByteOrder(), target.GetAddressByteSize()) # borrows from asbytes
ty = target.GetBasicType(lldb.eBasicTypeBool)
return target.CreateValueFromData('result', data, ty)
elif isinstance(value, int):
value = c_int64(value)
asbytes = memoryview(value).tobytes() # type: ignore
data = lldb.SBData()
data.SetData(dummy_sberror, asbytes, target.GetByteOrder(), target.GetAddressByteSize()) # borrows from asbytes
ty = target.GetBasicType(lldb.eBasicTypeLongLong)
return target.CreateValueFromData('result', data, ty)
elif isinstance(value, float):
value = c_double(value)
asbytes = memoryview(value).tobytes() # type: ignore
data = lldb.SBData()
data.SetData(dummy_sberror, asbytes, target.GetByteOrder(), target.GetAddressByteSize()) # borrows from asbytes
ty = target.GetBasicType(lldb.eBasicTypeDouble)
return target.CreateValueFromData('result', data, ty)
else: # Fall back to string representation
value = str(value)
data = lldb.SBData.CreateDataFromCString(target.GetByteOrder(), target.GetAddressByteSize(), value)
sbtype_arr = target.GetBasicType(lldb.eBasicTypeChar).GetArrayType(len(value))
return target.CreateValueFromData('result', data, sbtype_arr)
def to_sbvalue(value, target):
if isinstance(value, lldb.SBValue):
return value
elif isinstance(value, bool):
value = c_int(value)
asbytes = memoryview(value).tobytes()
data = lldb.SBData()
data.SetData(sberror, asbytes, target.GetByteOrder(),
target.GetAddressByteSize()) # borrows from asbytes
ty = target.GetBasicType(lldb.eBasicTypeBool)
return target.CreateValueFromData('result', data, ty)
elif isinstance(value, int):
value = c_int64(value)
asbytes = memoryview(value).tobytes()
data = lldb.SBData()
data.SetData(sberror, asbytes, target.GetByteOrder(),
target.GetAddressByteSize()) # borrows from asbytes
ty = target.GetBasicType(lldb.eBasicTypeLongLong)
return target.CreateValueFromData('result', data, ty)
else:
value = str(value)
data = lldb.SBData.CreateDataFromCString(target.GetByteOrder(),
target.GetAddressByteSize(),
value)
sbtype_arr = target.GetBasicType(lldb.eBasicTypeChar).GetArrayType(
len(value))
return target.CreateValueFromData('result', data, sbtype_arr)
def fuzz_obj(obj):
obj.GetError()
obj.GetID()
obj.GetName()
obj.GetTypeName()
obj.GetByteSize()
obj.IsInScope()
obj.GetFormat()
obj.SetFormat(lldb.eFormatBoolean)
obj.GetValue()
obj.GetValueType()
obj.GetValueDidChange()
obj.GetSummary()
obj.GetObjectDescription()
obj.GetLocation()
obj.SetValueFromCString("my_new_value")
obj.GetChildAtIndex(1)
obj.GetChildAtIndex(2, lldb.eNoDynamicValues, False)
obj.GetIndexOfChildWithName("my_first_child")
obj.GetChildMemberWithName("my_first_child")
obj.GetChildMemberWithName("my_first_child", lldb.eNoDynamicValues)
obj.GetNumChildren()
obj.GetOpaqueType()
obj.Dereference()
obj.TypeIsPointerType()
stream = lldb.SBStream()
obj.GetDescription(stream)
obj.GetExpressionPath(stream)
obj.GetExpressionPath(stream, True)
error = lldb.SBError()
obj.Watch(True, True, False, error)
obj.WatchPointee(True, False, True, error)
for child_val in obj:
s = str(child_val)
error = lldb.SBError()
obj.GetValueAsSigned(error, 0)
obj.GetValueAsUnsigned(error, 0)
obj.GetValueAsSigned(0)
obj.GetValueAsUnsigned(0)
obj.GetDynamicValue(lldb.eNoDynamicValues)
obj.GetStaticValue()
obj.IsDynamic()
invalid_type = lldb.SBType()
obj.CreateChildAtOffset("a", 12, invalid_type)
obj.Cast(invalid_type)
obj.CreateValueFromExpression("pt->x", "pt->x")
obj.CreateValueFromAddress("x", 0x123, invalid_type)
invalid_data = lldb.SBData()
obj.CreateValueFromData("x", invalid_data, invalid_type)
obj.GetValueForExpressionPath("[0]")
obj.AddressOf()
obj.GetLoadAddress()
obj.GetAddress()
obj.GetPointeeData(0, 1)
obj.GetData()
obj.GetTarget()
obj.GetProcess()
obj.GetThread()
obj.GetFrame()
obj.GetType()
def test_byte_order_and_address_byte_size_with_ownership(self):
"""Test the SBData::SetDataWithOwnership() to ensure the byte order
and address byte size are obeyed even when source date is released"""
addr_data = b'\x11\x22\x33\x44\x55\x66\x77\x88'
error = lldb.SBError()
data = lldb.SBData()
data.SetDataWithOwnership(error, addr_data, lldb.eByteOrderBig, 8)
del addr_data
addr = data.GetAddress(error, 0)
self.assertEqual(addr, 0x1122334455667788)
def read_memory_at_address(self, addr: int, size: int) -> lldb.SBData:
data = lldb.SBData()
error = lldb.SBError()
bytes_read = self.corefile_process.ReadMemory(addr, size, error)
if error.Fail():
return data
data.SetData(error, bytes_read, self.corefile_target.GetByteOrder(),
self.corefile_target.GetAddressByteSize())
return data
def get_child_at_index(self, index):
assert hasattr(self._pp, 'children')
if self._get_display_hint() == 'map':
self._get_children(2 * (index + 1))
if index < (len(self._children) / 2):
key = self._children[index * 2][1]
val = self._children[index * 2 + 1][1]
key_str = key.sbvalue().GetSummary()
if not key_str:
key_str = key.sbvalue().GetValue()
if not key_str:
key_str = str(key)
if isinstance(val, gdb.Value):
return val.sbvalue().CreateChildAtOffset(
'[%s]' % key_str, 0,
val.sbvalue().GetType())
else:
data = lldb.SBData()
data.SetDataFromUInt64Array([int(val)])
return self._sbvalue.CreateValueFromData(
'[%s]' % key_str, data,
lldb.debugger.GetSelectedTarget().FindFirstType('int'))
else:
self._get_children(index + 1)
if index < len(self._children):
c = self._children[index]
if not isinstance(c[1], gdb.Value):
data = lldb.SBData()
data.SetDataFromUInt64Array([int(c[1])])
return self._sbvalue.CreateValueFromData(
c[0], data,
lldb.debugger.GetSelectedTarget().FindFirstType('int'))
else:
return c[1].sbvalue().CreateChildAtOffset(
c[0], 0, c[1].sbvalue().GetType())
return sbvalue
raise IndexError('Child not present at given index.')
def test_byte_order_and_address_byte_size(self):
"""Test the SBData::SetData() to ensure the byte order and address
byte size are obeyed"""
addr_data = b'\x11\x22\x33\x44\x55\x66\x77\x88'
error = lldb.SBError()
data = lldb.SBData()
data.SetData(error, addr_data, lldb.eByteOrderBig, 4)
addr = data.GetAddress(error, 0)
self.assertEqual(addr, 0x11223344)
data.SetData(error, addr_data, lldb.eByteOrderBig, 8)
addr = data.GetAddress(error, 0)
self.assertEqual(addr, 0x1122334455667788)
data.SetData(error, addr_data, lldb.eByteOrderLittle, 4)
addr = data.GetAddress(error, 0)
self.assertEqual(addr, 0x44332211)
data.SetData(error, addr_data, lldb.eByteOrderLittle, 8)
addr = data.GetAddress(error, 0)
self.assertEqual(addr, 0x8877665544332211)
def read_memory_at_address(self, addr: int, size: int) -> lldb.SBData:
data = lldb.SBData()
with open(self.stack_memory_dump, 'rb') as f:
stack_mem = f.read(-1)
if not stack_mem:
return data
mem_region = self.get_memory_region_containing_address(addr)
if not mem_region or addr + size > mem_region.GetRegionEnd():
return data
offset = addr - mem_region.GetRegionBase()
shrunk_stack_mem = stack_mem[offset:offset + size]
error = lldb.SBError()
data.SetData(error, shrunk_stack_mem, self.target.GetByteOrder(),
self.target.GetAddressByteSize())
return data
def read_memory_at_address(self, addr: int, size: int) -> lldb.SBData:
# NOTE: CrashLogs don't contain any memory.
return lldb.SBData()
def test_with_run_command(self):
"""Test the SBData APIs."""
self.build()
self.runCmd("file " + self.getBuildArtifact("a.out"),
CURRENT_EXECUTABLE_SET)
lldbutil.run_break_set_by_file_and_line(self,
"main.cpp",
self.line,
num_expected_locations=1,
loc_exact=True)
self.runCmd("run", RUN_SUCCEEDED)
# The stop reason of the thread should be breakpoint.
self.expect("thread list",
STOPPED_DUE_TO_BREAKPOINT,
substrs=['stopped', 'stop reason = breakpoint'])
target = self.dbg.GetSelectedTarget()
process = target.GetProcess()
thread = lldbutil.get_stopped_thread(process,
lldb.eStopReasonBreakpoint)
self.assertIsNotNone(thread)
frame = thread.GetSelectedFrame()
foobar = frame.FindVariable('foobar')
self.assertTrue(foobar.IsValid())
data = foobar.GetPointeeData(0, 2)
offset = 0
error = lldb.SBError()
self.assert_data(data.GetUnsignedInt32, offset, 1)
offset += 4
low = data.GetSignedInt16(error, offset)
self.assertTrue(error.Success())
offset += 2
high = data.GetSignedInt16(error, offset)
self.assertTrue(error.Success())
offset += 2
self.assertTrue((low == 9 and high == 0) or (low == 0 and high == 9),
'foo[0].b == 9')
self.assertTrue(
fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[0].c == 3.14')
self.assertTrue(error.Success())
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 8)
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 5)
offset += 4
self.runCmd("n")
offset = 16
self.assert_data(data.GetUnsignedInt32, offset, 5)
data = foobar.GetPointeeData(1, 1)
offset = 0
self.assert_data(data.GetSignedInt32, offset, 8)
offset += 4
self.assert_data(data.GetSignedInt32, offset, 7)
offset += 8
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 0,
'do not read beyond end')
self.assertTrue(not error.Success())
error.Clear() # clear the error for the next test
star_foobar = foobar.Dereference()
self.assertTrue(star_foobar.IsValid())
data = star_foobar.GetData()
offset = 0
self.assert_data(data.GetUnsignedInt32, offset, 1)
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 9)
foobar_addr = star_foobar.GetLoadAddress()
foobar_addr += 12
# http://llvm.org/bugs/show_bug.cgi?id=11579
# lldb::SBValue::CreateValueFromAddress does not verify SBType::GetPointerType succeeds
# This should not crash LLDB.
nothing = foobar.CreateValueFromAddress(
"nothing", foobar_addr,
star_foobar.GetType().GetBasicType(lldb.eBasicTypeInvalid))
new_foobar = foobar.CreateValueFromAddress("f00", foobar_addr,
star_foobar.GetType())
self.assertTrue(new_foobar.IsValid())
data = new_foobar.GetData()
self.assertEqual(data.uint32[0], 8, 'then foo[1].a == 8')
self.assertEqual(data.uint32[1], 7, 'then foo[1].b == 7')
# exploiting that sizeof(uint32) == sizeof(float)
self.assertTrue(fabs(data.float[2] - 3.14) < 1, 'foo[1].c == 3.14')
self.runCmd("n")
offset = 0
self.assert_data(data.GetUnsignedInt32, offset, 8)
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 7)
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[1].c == 3.14')
self.assertTrue(error.Success())
data = new_foobar.GetData()
offset = 0
self.assert_data(data.GetUnsignedInt32, offset, 8)
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 7)
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 6.28) < 1, 'foo[1].c == 6.28')
self.assertTrue(error.Success())
self.runCmd("n")
barfoo = frame.FindVariable('barfoo')
data = barfoo.GetData()
offset = 0
self.assert_data(data.GetUnsignedInt32, offset, 1)
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 2)
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 3) < 1, 'barfoo[0].c == 3')
self.assertTrue(error.Success())
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 4)
offset += 4
self.assert_data(data.GetUnsignedInt32, offset, 5)
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 6) < 1, 'barfoo[1].c == 6')
self.assertTrue(error.Success())
new_object = barfoo.CreateValueFromData(
"new_object", data,
barfoo.GetType().GetBasicType(lldb.eBasicTypeInt))
self.assertEqual(new_object.GetValue(), "1", 'new_object == 1')
if data.GetByteOrder() == lldb.eByteOrderBig:
data.SetData(error, '\0\0\0A', data.GetByteOrder(),
data.GetAddressByteSize())
else:
data.SetData(error, 'A\0\0\0', data.GetByteOrder(),
data.GetAddressByteSize())
self.assertTrue(error.Success())
data2 = lldb.SBData()
data2.SetData(error, 'BCD', data.GetByteOrder(),
data.GetAddressByteSize())
self.assertTrue(error.Success())
data.Append(data2)
# this breaks on EBCDIC
offset = 0
self.assert_data(data.GetUnsignedInt32, offset, 65)
offset += 4
self.assert_data(data.GetUnsignedInt8, offset, 66)
offset += 1
self.assert_data(data.GetUnsignedInt8, offset, 67)
offset += 1
self.assert_data(data.GetUnsignedInt8, offset, 68)
offset += 1
# check the new API calls introduced per LLVM llvm.org/prenhancement request
# 11619 (Allow creating SBData values from arrays or primitives in
# Python)
hello_str = "hello!"
data2 = lldb.SBData.CreateDataFromCString(process.GetByteOrder(),
process.GetAddressByteSize(),
hello_str)
self.assertEqual(len(data2.uint8), len(hello_str))
self.assertEqual(data2.uint8[0], 104, 'h == 104')
self.assertEqual(data2.uint8[1], 101, 'e == 101')
self.assertEqual(data2.uint8[2], 108, 'l == 108')
self.assert_data(data2.GetUnsignedInt8, 3, 108) # l
self.assertEqual(data2.uint8[4], 111, 'o == 111')
self.assert_data(data2.GetUnsignedInt8, 5, 33) # !
uint_lists = [[1, 2, 3, 4, 5], [int(i) for i in [1, 2, 3, 4, 5]]]
int_lists = [[2, -2], [int(i) for i in [2, -2]]]
for l in uint_lists:
data2 = lldb.SBData.CreateDataFromUInt64Array(
process.GetByteOrder(), process.GetAddressByteSize(), l)
self.assert_data(data2.GetUnsignedInt64, 0, 1)
self.assert_data(data2.GetUnsignedInt64, 8, 2)
self.assert_data(data2.GetUnsignedInt64, 16, 3)
self.assert_data(data2.GetUnsignedInt64, 24, 4)
self.assert_data(data2.GetUnsignedInt64, 32, 5)
self.assertTrue(data2.uint64s == [1, 2, 3, 4, 5],
'read_data_helper failure: data2 == [1,2,3,4,5]')
for l in int_lists:
data2 = lldb.SBData.CreateDataFromSInt32Array(
process.GetByteOrder(), process.GetAddressByteSize(), l)
self.assertTrue(data2.sint32[0:2] == [2, -2],
'signed32 data2 = [2,-2]')
data2.Append(
lldb.SBData.CreateDataFromSInt64Array(process.GetByteOrder(),
process.GetAddressByteSize(),
int_lists[0]))
self.assert_data(data2.GetSignedInt32, 0, 2)
self.assert_data(data2.GetSignedInt32, 4, -2)
self.assertTrue(data2.sint64[1:3] == [2, -2],
'signed64 data2 = [2,-2]')
for l in int_lists:
data2 = lldb.SBData.CreateDataFromSInt64Array(
process.GetByteOrder(), process.GetAddressByteSize(), l)
self.assert_data(data2.GetSignedInt64, 0, 2)
self.assert_data(data2.GetSignedInt64, 8, -2)
self.assertTrue(data2.sint64[0:2] == [2, -2],
'signed64 data2 = [2,-2]')
for l in uint_lists:
data2 = lldb.SBData.CreateDataFromUInt32Array(
process.GetByteOrder(), process.GetAddressByteSize(), l)
self.assert_data(data2.GetUnsignedInt32, 0, 1)
self.assert_data(data2.GetUnsignedInt32, 4, 2)
self.assert_data(data2.GetUnsignedInt32, 8, 3)
self.assert_data(data2.GetUnsignedInt32, 12, 4)
self.assert_data(data2.GetUnsignedInt32, 16, 5)
bool_list = [True, True, False, False, True, False]
data2 = lldb.SBData.CreateDataFromSInt32Array(
process.GetByteOrder(), process.GetAddressByteSize(), bool_list)
self.assertTrue(data2.sint32[0:6] == [1, 1, 0, 0, 1, 0],
'signed32 data2 = [1, 1, 0, 0, 1, 0]')
data2 = lldb.SBData.CreateDataFromUInt32Array(
process.GetByteOrder(), process.GetAddressByteSize(), bool_list)
self.assertTrue(data2.uint32[0:6] == [1, 1, 0, 0, 1, 0],
'unsigned32 data2 = [1, 1, 0, 0, 1, 0]')
data2 = lldb.SBData.CreateDataFromSInt64Array(
process.GetByteOrder(), process.GetAddressByteSize(), bool_list)
self.assertTrue(data2.sint64[0:6] == [1, 1, 0, 0, 1, 0],
'signed64 data2 = [1, 1, 0, 0, 1, 0]')
data2 = lldb.SBData.CreateDataFromUInt64Array(
process.GetByteOrder(), process.GetAddressByteSize(), bool_list)
self.assertTrue(data2.uint64[0:6] == [1, 1, 0, 0, 1, 0],
'signed64 data2 = [1, 1, 0, 0, 1, 0]')
data2 = lldb.SBData.CreateDataFromDoubleArray(
process.GetByteOrder(), process.GetAddressByteSize(),
[3.14, 6.28, 2.71])
self.assertTrue(
fabs(data2.GetDouble(error, 0) - 3.14) < 0.5,
'double data2[0] = 3.14')
self.assertTrue(error.Success())
self.assertTrue(
fabs(data2.GetDouble(error, 8) - 6.28) < 0.5,
'double data2[1] = 6.28')
self.assertTrue(error.Success())
self.assertTrue(
fabs(data2.GetDouble(error, 16) - 2.71) < 0.5,
'double data2[2] = 2.71')
self.assertTrue(error.Success())
data2 = lldb.SBData()
data2.SetDataFromCString(hello_str)
self.assertEqual(len(data2.uint8), len(hello_str))
self.assert_data(data2.GetUnsignedInt8, 0, 104)
self.assert_data(data2.GetUnsignedInt8, 1, 101)
self.assert_data(data2.GetUnsignedInt8, 2, 108)
self.assert_data(data2.GetUnsignedInt8, 3, 108)
self.assert_data(data2.GetUnsignedInt8, 4, 111)
self.assert_data(data2.GetUnsignedInt8, 5, 33)
data2.SetDataFromUInt64Array([1, 2, 3, 4, 5])
self.assert_data(data2.GetUnsignedInt64, 0, 1)
self.assert_data(data2.GetUnsignedInt64, 8, 2)
self.assert_data(data2.GetUnsignedInt64, 16, 3)
self.assert_data(data2.GetUnsignedInt64, 24, 4)
self.assert_data(data2.GetUnsignedInt64, 32, 5)
self.assertEqual(data2.uint64[0], 1,
'read_data_helper failure: set data2[0] = 1')
self.assertEqual(data2.uint64[1], 2,
'read_data_helper failure: set data2[1] = 2')
self.assertEqual(data2.uint64[2], 3,
'read_data_helper failure: set data2[2] = 3')
self.assertEqual(data2.uint64[3], 4,
'read_data_helper failure: set data2[3] = 4')
self.assertEqual(data2.uint64[4], 5,
'read_data_helper failure: set data2[4] = 5')
self.assertTrue(data2.uint64[0:2] == [1, 2],
'read_data_helper failure: set data2[0:2] = [1,2]')
data2.SetDataFromSInt32Array([2, -2])
self.assert_data(data2.GetSignedInt32, 0, 2)
self.assert_data(data2.GetSignedInt32, 4, -2)
data2.SetDataFromSInt64Array([2, -2])
self.assert_data(data2.GetSignedInt64, 0, 2)
self.assert_data(data2.GetSignedInt64, 8, -2)
data2.SetDataFromUInt32Array([1, 2, 3, 4, 5])
self.assert_data(data2.GetUnsignedInt32, 0, 1)
self.assert_data(data2.GetUnsignedInt32, 4, 2)
self.assert_data(data2.GetUnsignedInt32, 8, 3)
self.assert_data(data2.GetUnsignedInt32, 12, 4)
self.assert_data(data2.GetUnsignedInt32, 16, 5)
self.assertEqual(data2.uint32[0], 1,
'read_data_helper failure: set 32-bit data2[0] = 1')
self.assertEqual(data2.uint32[1], 2,
'read_data_helper failure: set 32-bit data2[1] = 2')
self.assertEqual(data2.uint32[2], 3,
'read_data_helper failure: set 32-bit data2[2] = 3')
self.assertEqual(data2.uint32[3], 4,
'read_data_helper failure: set 32-bit data2[3] = 4')
self.assertEqual(data2.uint32[4], 5,
'read_data_helper failure: set 32-bit data2[4] = 5')
data2.SetDataFromDoubleArray([3.14, 6.28, 2.71])
self.assertTrue(
fabs(data2.GetDouble(error, 0) - 3.14) < 0.5,
'set double data2[0] = 3.14')
self.assertTrue(
fabs(data2.GetDouble(error, 8) - 6.28) < 0.5,
'set double data2[1] = 6.28')
self.assertTrue(
fabs(data2.GetDouble(error, 16) - 2.71) < 0.5,
'set double data2[2] = 2.71')
self.assertTrue(
fabs(data2.double[0] - 3.14) < 0.5,
'read_data_helper failure: set double data2[0] = 3.14')
self.assertTrue(
fabs(data2.double[1] - 6.28) < 0.5,
'read_data_helper failure: set double data2[1] = 6.28')
self.assertTrue(
fabs(data2.double[2] - 2.71) < 0.5,
'read_data_helper failure: set double data2[2] = 2.71')
def read_memory_at_address(self, addr: int, size: int) -> lldb.SBData:
data = lldb.SBData().CreateDataFromCString(
self.target.GetByteOrder(), self.target.GetCodeByteSize(),
"Hello, world!")
return data
def _binary_op(self, other, op, reverse=False):
sbtype, type_class = self._stripped_sbtype()
if type_class == lldb.eTypeClassPointer:
if not (op == OP_ADD or op == OP_SUB) or reverse:
raise TypeError(
'Invalid binary operation on/with pointer value.')
if isinstance(other, int) or isinstance(other, long):
other_val = other
other_sbtype = get_builtin_sbtype('long')
other_type_class = lldb.eTypeClassBuiltin
elif isinstance(other, float):
other_val = other
other_sbtype = get_builtin_sbtype('double')
other_type_class = lldb.eTypeClassBuiltin
elif isinstance(other, Value):
other_sbtype, other_type_class = other._stripped_sbtype()
if (other_type_class == lldb.eTypeClassPointer
and not (type_class == lldb.eTypeClassPointer
and op == OP_SUB)):
raise TypeError(
'Invalid binary operation on/with pointer value.')
other_val = other._as_number()
else:
raise TypeError('Cannot perform binary operation with/on value '
'of type "%s".' % str(type(other)))
if op == OP_BITWISE_AND:
res = self._as_number() & other_val
elif op == OP_BITWISE_OR:
res = self._as_number() | other_val
elif op == OP_BITWISE_XOR:
res = self._as_number() ^ other_val
elif op == OP_ADD:
if type_class == lldb.eTypeClassPointer:
addr = self._sbvalue_object.GetValueAsUnsigned()
new_addr = (addr +
other_val * sbtype.GetPointeeType().GetByteSize())
new_sbvalue = self._sbvalue_object.CreateValueFromAddress(
'', new_addr, sbtype.GetPointeeType())
return Value(new_sbvalue.AddressOf().Cast(
self._sbvalue_object.GetType()))
else:
res = self._as_number() + other_val
elif op == OP_SUB:
if reverse:
res = other_val - self._as_number()
else:
if type_class == lldb.eTypeClassPointer:
if other_type_class == lldb.eTypeClassPointer:
if sbtype != other_sbtype:
raise TypeError('Arithmetic operation on '
'incompatible pointer types.')
diff = self._as_number() - other_val
return diff / sbtype.GetPointeeType().GetByteSize()
else:
return self._binary_op(-other_val, OP_ADD)
else:
res = self._as_number() - other_val
elif op == OP_LSHIFT:
if reverse:
return other_val << self._as_number()
else:
res = self._as_number() << other_val
elif op == OP_RSHIFT:
if reverse:
return other_val >> self._as_number()
else:
res = self._as_number() >> other_val
else:
raise RuntimeError('Unsupported or incorrect binary operation.')
data = lldb.SBData()
data.SetDataFromUInt64Array([res])
return Value(
self._sbvalue_object.CreateValueFromData(
'', data, self._sbvalue_object.GetType()))
def data_api(self):
"""Test the SBData APIs."""
self.runCmd("file a.out", CURRENT_EXECUTABLE_SET)
lldbutil.run_break_set_by_file_and_line(self,
"main.cpp",
self.line,
num_expected_locations=1,
loc_exact=True)
self.runCmd("run", RUN_SUCCEEDED)
# The stop reason of the thread should be breakpoint.
self.expect("thread list",
STOPPED_DUE_TO_BREAKPOINT,
substrs=['stopped', 'stop reason = breakpoint'])
target = self.dbg.GetSelectedTarget()
process = target.GetProcess()
thread = process.GetThreadAtIndex(0)
frame = thread.GetSelectedFrame()
if self.TraceOn():
print frame
foobar = frame.FindVariable('foobar')
self.assertTrue(foobar.IsValid())
if self.TraceOn():
print foobar
data = foobar.GetPointeeData(0, 2)
if self.TraceOn():
print data
offset = 0
error = lldb.SBError()
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 1, 'foo[0].a == 1')
offset += 4
low = data.GetSignedInt16(error, offset)
offset += 2
high = data.GetSignedInt16(error, offset)
offset += 2
self.assertTrue((low == 9 and high == 0) or (low == 0 and high == 9),
'foo[0].b == 9')
self.assertTrue(
fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[0].c == 3.14')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 8, 'foo[1].a == 8')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 5, 'foo[1].b == 5')
offset += 4
self.runCmd("n")
offset = 16
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 5, 'saved foo[1].b == 5')
data = foobar.GetPointeeData(1, 1)
offset = 0
self.assertTrue(
data.GetSignedInt32(error, offset) == 8, 'new foo[1].a == 8')
offset += 4
self.assertTrue(
data.GetSignedInt32(error, offset) == 7, 'new foo[1].a == 7')
offset += 8
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 0,
'do not read beyond end')
star_foobar = foobar.Dereference()
self.assertTrue(star_foobar.IsValid())
data = star_foobar.GetData()
if self.TraceOn():
print data
offset = 0
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 1, 'foo[0].a == 1')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 9, 'foo[0].b == 9')
foobar_addr = star_foobar.GetLoadAddress()
foobar_addr += 12
# http://llvm.org/bugs/show_bug.cgi?id=11579
# lldb::SBValue::CreateValueFromAddress does not verify SBType::GetPointerType succeeds
# This should not crash LLDB.
nothing = foobar.CreateValueFromAddress(
"nothing", foobar_addr,
star_foobar.GetType().GetBasicType(lldb.eBasicTypeInvalid))
new_foobar = foobar.CreateValueFromAddress("f00", foobar_addr,
star_foobar.GetType())
self.assertTrue(new_foobar.IsValid())
if self.TraceOn():
print new_foobar
data = new_foobar.GetData()
if self.TraceOn():
print data
self.assertTrue(data.uint32[0] == 8, 'then foo[1].a == 8')
self.assertTrue(data.uint32[1] == 7, 'then foo[1].b == 7')
self.assertTrue(fabs(data.float[2] - 3.14) < 1, 'foo[1].c == 3.14'
) # exploiting that sizeof(uint32) == sizeof(float)
self.runCmd("n")
offset = 0
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 8, 'then foo[1].a == 8')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 7, 'then foo[1].b == 7')
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[1].c == 3.14')
data = new_foobar.GetData()
if self.TraceOn():
print data
offset = 0
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 8, 'finally foo[1].a == 8')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 7, 'finally foo[1].b == 7')
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 6.28) < 1, 'foo[1].c == 6.28')
self.runCmd("n")
barfoo = frame.FindVariable('barfoo')
data = barfoo.GetData()
if self.TraceOn():
print barfoo
if self.TraceOn():
print data
offset = 0
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 1, 'barfoo[0].a = 1')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 2, 'barfoo[0].b == 2')
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 3) < 1, 'barfoo[0].c == 3')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 4, 'barfoo[1].a = 4')
offset += 4
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 5, 'barfoo[1].b == 5')
offset += 4
self.assertTrue(
fabs(data.GetFloat(error, offset) - 6) < 1, 'barfoo[1].c == 6')
new_object = barfoo.CreateValueFromData(
"new_object", data,
barfoo.GetType().GetBasicType(lldb.eBasicTypeInt))
if self.TraceOn():
print new_object
self.assertTrue(new_object.GetLoadAddress() == 0xFFFFFFFFFFFFFFFF,
'GetLoadAddress() == invalid')
self.assertTrue(new_object.AddressOf().IsValid() == False,
'AddressOf() == invalid')
self.assertTrue(new_object.GetAddress().IsValid() == False,
'GetAddress() == invalid')
self.assertTrue(new_object.GetValue() == "1", 'new_object == 1')
data.SetData(error, 'A\0\0\0', data.GetByteOrder(),
data.GetAddressByteSize())
data2 = lldb.SBData()
data2.SetData(error, 'BCD', data.GetByteOrder(),
data.GetAddressByteSize())
data.Append(data2)
if self.TraceOn():
print data
# this breaks on EBCDIC
offset = 0
self.assertTrue(
data.GetUnsignedInt32(error, offset) == 65, 'made-up data == 65')
offset += 4
self.assertTrue(
data.GetUnsignedInt8(error, offset) == 66, 'made-up data == 66')
offset += 1
self.assertTrue(
data.GetUnsignedInt8(error, offset) == 67, 'made-up data == 67')
offset += 1
self.assertTrue(
data.GetUnsignedInt8(error, offset) == 68, 'made-up data == 68')
offset += 1
# check the new API calls introduced per LLVM bugzilla enhancement request
# 11619 (Allow creating SBData values from arrays or primitives in Python)
data2 = lldb.SBData.CreateDataFromCString(process.GetByteOrder(),
process.GetAddressByteSize(),
'hello!')
self.assertTrue(data2.uint8[0] == 104, 'h == 104')
self.assertTrue(data2.uint8[1] == 101, 'e == 101')
self.assertTrue(data2.uint8[2] == 108, 'l == 108')
self.assertTrue(data2.GetUnsignedInt8(error, 3) == 108, 'l == 108')
self.assertTrue(data2.uint8[4] == 111, 'o == 111')
self.assertTrue(data2.GetUnsignedInt8(error, 5) == 33, '! == 33')
self.assertTrue(data2.uint8[6] == 0, 'binary 0 terminator')
data2 = lldb.SBData.CreateDataFromUInt64Array(
process.GetByteOrder(), process.GetAddressByteSize(),
[1, 2, 3, 4, 5])
self.assertTrue(data2.GetUnsignedInt64(error, 0) == 1, 'data2[0] = 1')
self.assertTrue(data2.GetUnsignedInt64(error, 8) == 2, 'data2[1] = 2')
self.assertTrue(data2.GetUnsignedInt64(error, 16) == 3, 'data2[2] = 3')
self.assertTrue(data2.GetUnsignedInt64(error, 24) == 4, 'data2[3] = 4')
self.assertTrue(data2.GetUnsignedInt64(error, 32) == 5, 'data2[4] = 5')
self.assertTrue(data2.uint64s == [1, 2, 3, 4, 5],
'read_data_helper failure: data2 == [1,2,3,4,5]')
data2 = lldb.SBData.CreateDataFromSInt32Array(
process.GetByteOrder(), process.GetAddressByteSize(), [2, -2])
self.assertTrue(data2.sint32[0:2] == [2, -2],
'signed32 data2 = [2,-2]')
data2.Append(
lldb.SBData.CreateDataFromSInt64Array(process.GetByteOrder(),
process.GetAddressByteSize(),
[2, -2]))
self.assertTrue(
data2.GetSignedInt32(error, 0) == 2, 'signed32 data2[0] = 2')
self.assertTrue(
data2.GetSignedInt32(error, 4) == -2, 'signed32 data2[1] = -2')
self.assertTrue(data2.sint64[1:3] == [2, -2],
'signed64 data2 = [2,-2]')
data2 = lldb.SBData.CreateDataFromUInt32Array(
process.GetByteOrder(), process.GetAddressByteSize(),
[1, 2, 3, 4, 5])
self.assertTrue(
data2.GetUnsignedInt32(error, 0) == 1, '32-bit data2[0] = 1')
self.assertTrue(
data2.GetUnsignedInt32(error, 4) == 2, '32-bit data2[1] = 2')
self.assertTrue(
data2.GetUnsignedInt32(error, 8) == 3, '32-bit data2[2] = 3')
self.assertTrue(
data2.GetUnsignedInt32(error, 12) == 4, '32-bit data2[3] = 4')
self.assertTrue(
data2.GetUnsignedInt32(error, 16) == 5, '32-bit data2[4] = 5')
data2 = lldb.SBData.CreateDataFromDoubleArray(
process.GetByteOrder(), process.GetAddressByteSize(),
[3.14, 6.28, 2.71])
self.assertTrue(
fabs(data2.GetDouble(error, 0) - 3.14) < 0.5,
'double data2[0] = 3.14')
self.assertTrue(
fabs(data2.GetDouble(error, 8) - 6.28) < 0.5,
'double data2[1] = 6.28')
self.assertTrue(
fabs(data2.GetDouble(error, 16) - 2.71) < 0.5,
'double data2[2] = 2.71')
data2 = lldb.SBData()
data2.SetDataFromCString('hello!')
self.assertTrue(data2.GetUnsignedInt8(error, 0) == 104, 'set h == 104')
self.assertTrue(data2.GetUnsignedInt8(error, 1) == 101, 'set e == 101')
self.assertTrue(data2.GetUnsignedInt8(error, 2) == 108, 'set l == 108')
self.assertTrue(data2.GetUnsignedInt8(error, 3) == 108, 'set l == 108')
self.assertTrue(data2.GetUnsignedInt8(error, 4) == 111, 'set o == 111')
self.assertTrue(data2.GetUnsignedInt8(error, 5) == 33, 'set ! == 33')
self.assertTrue(
data2.GetUnsignedInt8(error, 6) == 0, 'set binary 0 terminator')
data2.SetDataFromUInt64Array([1, 2, 3, 4, 5])
self.assertTrue(
data2.GetUnsignedInt64(error, 0) == 1, 'set data2[0] = 1')
self.assertTrue(
data2.GetUnsignedInt64(error, 8) == 2, 'set data2[1] = 2')
self.assertTrue(
data2.GetUnsignedInt64(error, 16) == 3, 'set data2[2] = 3')
self.assertTrue(
data2.GetUnsignedInt64(error, 24) == 4, 'set data2[3] = 4')
self.assertTrue(
data2.GetUnsignedInt64(error, 32) == 5, 'set data2[4] = 5')
self.assertTrue(data2.uint64[0] == 1,
'read_data_helper failure: set data2[0] = 1')
self.assertTrue(data2.uint64[1] == 2,
'read_data_helper failure: set data2[1] = 2')
self.assertTrue(data2.uint64[2] == 3,
'read_data_helper failure: set data2[2] = 3')
self.assertTrue(data2.uint64[3] == 4,
'read_data_helper failure: set data2[3] = 4')
self.assertTrue(data2.uint64[4] == 5,
'read_data_helper failure: set data2[4] = 5')
self.assertTrue(data2.uint64[0:2] == [1, 2],
'read_data_helper failure: set data2[0:2] = [1,2]')
data2.SetDataFromSInt32Array([2, -2])
self.assertTrue(
data2.GetSignedInt32(error, 0) == 2, 'set signed32 data2[0] = 2')
self.assertTrue(
data2.GetSignedInt32(error, 4) == -2, 'set signed32 data2[1] = -2')
data2.SetDataFromSInt64Array([2, -2])
self.assertTrue(
data2.GetSignedInt32(error, 0) == 2, 'set signed64 data2[0] = 2')
self.assertTrue(
data2.GetSignedInt32(error, 8) == -2, 'set signed64 data2[1] = -2')
data2.SetDataFromUInt32Array([1, 2, 3, 4, 5])
self.assertTrue(
data2.GetUnsignedInt32(error, 0) == 1, 'set 32-bit data2[0] = 1')
self.assertTrue(
data2.GetUnsignedInt32(error, 4) == 2, 'set 32-bit data2[1] = 2')
self.assertTrue(
data2.GetUnsignedInt32(error, 8) == 3, 'set 32-bit data2[2] = 3')
self.assertTrue(
data2.GetUnsignedInt32(error, 12) == 4, 'set 32-bit data2[3] = 4')
self.assertTrue(
data2.GetUnsignedInt32(error, 16) == 5, 'set 32-bit data2[4] = 5')
self.assertTrue(data2.uint32[0] == 1,
'read_data_helper failure: set 32-bit data2[0] = 1')
self.assertTrue(data2.uint32[1] == 2,
'read_data_helper failure: set 32-bit data2[1] = 2')
self.assertTrue(data2.uint32[2] == 3,
'read_data_helper failure: set 32-bit data2[2] = 3')
self.assertTrue(data2.uint32[3] == 4,
'read_data_helper failure: set 32-bit data2[3] = 4')
self.assertTrue(data2.uint32[4] == 5,
'read_data_helper failure: set 32-bit data2[4] = 5')
data2.SetDataFromDoubleArray([3.14, 6.28, 2.71])
self.assertTrue(
fabs(data2.GetDouble(error, 0) - 3.14) < 0.5,
'set double data2[0] = 3.14')
self.assertTrue(
fabs(data2.GetDouble(error, 8) - 6.28) < 0.5,
'set double data2[1] = 6.28')
self.assertTrue(
fabs(data2.GetDouble(error, 16) - 2.71) < 0.5,
'set double data2[2] = 2.71')
self.assertTrue(
fabs(data2.double[0] - 3.14) < 0.5,
'read_data_helper failure: set double data2[0] = 3.14')
self.assertTrue(
fabs(data2.double[1] - 6.28) < 0.5,
'read_data_helper failure: set double data2[1] = 6.28')
self.assertTrue(
fabs(data2.double[2] - 2.71) < 0.5,
'read_data_helper failure: set double data2[2] = 2.71')
def test(self):
"""
Test lldb's parsing of SEGGER J-Link v6.54 register
definition for a Cortex M-4 dev board, and the fact
that the J-Link only supports g/G for reading/writing
register AND the J-Link v6.54 doesn't provide anything
but the general purpose registers."""
class MyResponder(MockGDBServerResponder):
def qXferRead(self, obj, annex, offset, length):
if annex == "target.xml":
return """<?xml version="1.0"?>
<!-- Copyright (C) 2008 Free Software Foundation, Inc.
Copying and distribution of this file, with or without modification,
are permitted in any medium without royalty provided the copyright
notice and this notice are preserved. -->
<!DOCTYPE feature SYSTEM "gdb-target.dtd">
<target version="1.0">
<architecture>arm</architecture>
<feature name="org.gnu.gdb.arm.m-profile">
<reg name="r0" bitsize="32" regnum="0" type="uint32" group="general"/>
<reg name="r1" bitsize="32" regnum="1" type="uint32" group="general"/>
<reg name="r2" bitsize="32" regnum="2" type="uint32" group="general"/>
<reg name="r3" bitsize="32" regnum="3" type="uint32" group="general"/>
<reg name="r4" bitsize="32" regnum="4" type="uint32" group="general"/>
<reg name="r5" bitsize="32" regnum="5" type="uint32" group="general"/>
<reg name="r6" bitsize="32" regnum="6" type="uint32" group="general"/>
<reg name="r7" bitsize="32" regnum="7" type="uint32" group="general"/>
<reg name="r8" bitsize="32" regnum="8" type="uint32" group="general"/>
<reg name="r9" bitsize="32" regnum="9" type="uint32" group="general"/>
<reg name="r10" bitsize="32" regnum="10" type="uint32" group="general"/>
<reg name="r11" bitsize="32" regnum="11" type="uint32" group="general"/>
<reg name="r12" bitsize="32" regnum="12" type="uint32" group="general"/>
<reg name="sp" bitsize="32" regnum="13" type="data_ptr" group="general"/>
<reg name="lr" bitsize="32" regnum="14" type="uint32" group="general"/>
<reg name="pc" bitsize="32" regnum="15" type="code_ptr" group="general"/>
<reg name="xpsr" bitsize="32" regnum="25" type="uint32" group="general"/>
</feature>
<feature name="org.gnu.gdb.arm.m-system">
<reg name="msp" bitsize="32" regnum="26" type="uint32" group="general"/>
<reg name="psp" bitsize="32" regnum="27" type="uint32" group="general"/>
<reg name="primask" bitsize="32" regnum="28" type="uint32" group="general"/>
<reg name="basepri" bitsize="32" regnum="29" type="uint32" group="general"/>
<reg name="faultmask" bitsize="32" regnum="30" type="uint32" group="general"/>
<reg name="control" bitsize="32" regnum="31" type="uint32" group="general"/>
</feature>
<feature name="org.gnu.gdb.arm.m-float">
<reg name="fpscr" bitsize="32" regnum="32" type="uint32" group="float"/>
<reg name="s0" bitsize="32" regnum="33" type="float" group="float"/>
<reg name="s1" bitsize="32" regnum="34" type="float" group="float"/>
<reg name="s2" bitsize="32" regnum="35" type="float" group="float"/>
<reg name="s3" bitsize="32" regnum="36" type="float" group="float"/>
<reg name="s4" bitsize="32" regnum="37" type="float" group="float"/>
<reg name="s5" bitsize="32" regnum="38" type="float" group="float"/>
<reg name="s6" bitsize="32" regnum="39" type="float" group="float"/>
<reg name="s7" bitsize="32" regnum="40" type="float" group="float"/>
<reg name="s8" bitsize="32" regnum="41" type="float" group="float"/>
<reg name="s9" bitsize="32" regnum="42" type="float" group="float"/>
<reg name="s10" bitsize="32" regnum="43" type="float" group="float"/>
<reg name="s11" bitsize="32" regnum="44" type="float" group="float"/>
<reg name="s12" bitsize="32" regnum="45" type="float" group="float"/>
<reg name="s13" bitsize="32" regnum="46" type="float" group="float"/>
<reg name="s14" bitsize="32" regnum="47" type="float" group="float"/>
<reg name="s15" bitsize="32" regnum="48" type="float" group="float"/>
<reg name="s16" bitsize="32" regnum="49" type="float" group="float"/>
<reg name="s17" bitsize="32" regnum="50" type="float" group="float"/>
<reg name="s18" bitsize="32" regnum="51" type="float" group="float"/>
<reg name="s19" bitsize="32" regnum="52" type="float" group="float"/>
<reg name="s20" bitsize="32" regnum="53" type="float" group="float"/>
<reg name="s21" bitsize="32" regnum="54" type="float" group="float"/>
<reg name="s22" bitsize="32" regnum="55" type="float" group="float"/>
<reg name="s23" bitsize="32" regnum="56" type="float" group="float"/>
<reg name="s24" bitsize="32" regnum="57" type="float" group="float"/>
<reg name="s25" bitsize="32" regnum="58" type="float" group="float"/>
<reg name="s26" bitsize="32" regnum="59" type="float" group="float"/>
<reg name="s27" bitsize="32" regnum="60" type="float" group="float"/>
<reg name="s28" bitsize="32" regnum="61" type="float" group="float"/>
<reg name="s29" bitsize="32" regnum="62" type="float" group="float"/>
<reg name="s30" bitsize="32" regnum="63" type="float" group="float"/>
<reg name="s31" bitsize="32" regnum="64" type="float" group="float"/>
<reg name="d0" bitsize="64" regnum="65" type="ieee_double" group="float"/>
<reg name="d1" bitsize="64" regnum="66" type="ieee_double" group="float"/>
<reg name="d2" bitsize="64" regnum="67" type="ieee_double" group="float"/>
<reg name="d3" bitsize="64" regnum="68" type="ieee_double" group="float"/>
<reg name="d4" bitsize="64" regnum="69" type="ieee_double" group="float"/>
<reg name="d5" bitsize="64" regnum="70" type="ieee_double" group="float"/>
<reg name="d6" bitsize="64" regnum="71" type="ieee_double" group="float"/>
<reg name="d7" bitsize="64" regnum="72" type="ieee_double" group="float"/>
<reg name="d8" bitsize="64" regnum="73" type="ieee_double" group="float"/>
<reg name="d9" bitsize="64" regnum="74" type="ieee_double" group="float"/>
<reg name="d10" bitsize="64" regnum="75" type="ieee_double" group="float"/>
<reg name="d11" bitsize="64" regnum="76" type="ieee_double" group="float"/>
<reg name="d12" bitsize="64" regnum="77" type="ieee_double" group="float"/>
<reg name="d13" bitsize="64" regnum="78" type="ieee_double" group="float"/>
<reg name="d14" bitsize="64" regnum="79" type="ieee_double" group="float"/>
<reg name="d15" bitsize="64" regnum="80" type="ieee_double" group="float"/>
</feature>
</target>""", False
else:
return None, False
def readRegister(self, regnum):
return "E01"
# Initial r1 bytes, in little-endian order
r1_bytes = "01000000"
## readRegisters only provides reg values up through xpsr (0x61000000)
## it doesn't send up any of the exception registers or floating point
## registers that the above register xml describes.
def readRegisters(self):
return "00000000" + self.r1_bytes + "010000000100000001000000000000008c080020a872012000000000a0790120000000008065012041ad0008a0720120692a00089e26000800000061"
## the J-Link accepts a register write packet with just the GPRs
## defined.
def writeRegisters(self, registers_hex):
# Check that lldb returns the full 704 hex-byte register context,
# or the 136 hex-byte general purpose register reg ctx.
if len(registers_hex) != 704 and len(register_hex) != 136:
return "E06"
if registers_hex.startswith(
"0000000044332211010000000100000001000000000000008c080020a872012000000000a0790120000000008065012041ad0008a0720120692a00089e26000800000061"
):
self.r1_bytes = "44332211"
return "OK"
else:
return "E07"
def haltReason(self):
return "S05"
def qfThreadInfo(self):
return "mdead"
def qC(self):
return ""
def qSupported(self, client_supported):
return "PacketSize=4000;qXfer:memory-map:read-;QStartNoAckMode+;hwbreak+;qXfer:features:read+"
def QThreadSuffixSupported(self):
return "OK"
def QListThreadsInStopReply(self):
return "OK"
self.server.responder = MyResponder()
if self.TraceOn():
self.runCmd("log enable gdb-remote packets")
self.addTearDownHook(
lambda: self.runCmd("log disable gdb-remote packets"))
self.dbg.SetDefaultArchitecture("armv7em")
target = self.dbg.CreateTargetWithFileAndArch(None, None)
process = self.connect(target)
if self.TraceOn():
interp = self.dbg.GetCommandInterpreter()
result = lldb.SBCommandReturnObject()
interp.HandleCommand("target list", result)
print(result.GetOutput())
r1_valobj = process.GetThreadAtIndex(0).GetFrameAtIndex(
0).FindRegister("r1")
self.assertEqual(r1_valobj.GetValueAsUnsigned(), 1)
pc_valobj = process.GetThreadAtIndex(0).GetFrameAtIndex(
0).FindRegister("pc")
self.assertEqual(pc_valobj.GetValueAsUnsigned(), 0x0800269e)
xpsr_valobj = process.GetThreadAtIndex(0).GetFrameAtIndex(
0).FindRegister("xpsr")
self.assertEqual(xpsr_valobj.GetValueAsUnsigned(), 0x61000000)
msp_valobj = process.GetThreadAtIndex(0).GetFrameAtIndex(
0).FindRegister("msp")
err = msp_valobj.GetError()
self.assertTrue(err.Fail(),
"lldb should not be able to fetch the msp register")
# Reproducers don't support SetData (yet) because it takes a void*.
if not configuration.is_reproducer():
val = b'\x11\x22\x33\x44'
error = lldb.SBError()
data = lldb.SBData()
data.SetData(error, val, lldb.eByteOrderBig, 4)
self.assertEqual(r1_valobj.SetData(data, error), True)
self.assertTrue(error.Success())
r1_valobj = process.GetThreadAtIndex(0).GetFrameAtIndex(
0).FindRegister("r1")
self.assertEqual(r1_valobj.GetValueAsUnsigned(), 0x11223344)
def data_api(self):
"""Test the SBData APIs."""
self.runCmd("file a.out", CURRENT_EXECUTABLE_SET)
self.expect("breakpoint set -f main.cpp -l %d" % self.line,
BREAKPOINT_CREATED,
startstr = "Breakpoint created: 1: file ='main.cpp', line = %d, locations = 1" %
self.line)
self.runCmd("run", RUN_SUCCEEDED)
# The stop reason of the thread should be breakpoint.
self.expect("thread list", STOPPED_DUE_TO_BREAKPOINT,
substrs = ['stopped',
'stop reason = breakpoint'])
target = self.dbg.GetSelectedTarget()
process = target.GetProcess()
thread = process.GetThreadAtIndex(0)
frame = thread.GetSelectedFrame()
foobar = frame.FindVariable('foobar')
if self.TraceOn():
print foobar
data = foobar.GetPointeeData(0, 2)
if self.TraceOn():
print data
offset = 0
error = lldb.SBError()
self.assertTrue(data.GetUnsignedInt32(error, offset) == 1, 'foo[0].a == 1')
offset += 4
low = data.GetSignedInt16(error, offset)
offset += 2
high = data.GetSignedInt16(error, offset)
offset += 2
self.assertTrue ((low == 9 and high == 0) or (low == 0 and high == 9), 'foo[0].b == 9')
self.assertTrue( fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[0].c == 3.14')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 8, 'foo[1].a == 8')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 5, 'foo[1].b == 5')
offset += 4
self.runCmd("n")
offset = 16
self.assertTrue(data.GetUnsignedInt32(error, offset) == 5, 'saved foo[1].b == 5')
data = foobar.GetPointeeData(1, 1)
offset = 0
self.assertTrue(data.GetSignedInt32(error, offset) == 8, 'new foo[1].a == 8')
offset += 4
self.assertTrue(data.GetSignedInt32(error, offset) == 7, 'new foo[1].a == 7')
offset += 8
self.assertTrue(data.GetUnsignedInt32(error, offset) == 0, 'do not read beyond end')
star_foobar = foobar.Dereference()
data = star_foobar.GetData()
if self.TraceOn():
print data
offset = 0
self.assertTrue(data.GetUnsignedInt32(error, offset) == 1, 'foo[0].a == 1')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 9, 'foo[0].b == 9')
foobar_addr = star_foobar.GetLoadAddress()
foobar_addr += 12
# http://llvm.org/bugs/show_bug.cgi?id=11579
# lldb::SBValue::CreateValueFromAddress does not verify SBType::GetPointerType succeeds
# This should not crash LLDB.
nothing = foobar.CreateValueFromAddress("nothing", foobar_addr, star_foobar.GetType().GetBasicType(lldb.eBasicTypeInvalid))
new_foobar = foobar.CreateValueFromAddress("f00", foobar_addr, star_foobar.GetType())
if self.TraceOn():
print new_foobar
data = new_foobar.GetData()
if self.TraceOn():
print data
offset = 0
self.assertTrue(data.GetUnsignedInt32(error, offset) == 8, 'then foo[1].a == 8')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 7, 'then foo[1].b == 7')
offset += 4
self.assertTrue(fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[1].c == 3.14')
self.runCmd("n")
offset = 0
self.assertTrue(data.GetUnsignedInt32(error, offset) == 8, 'then foo[1].a == 8')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 7, 'then foo[1].b == 7')
offset += 4
self.assertTrue(fabs(data.GetFloat(error, offset) - 3.14) < 1, 'foo[1].c == 3.14')
data = new_foobar.GetData()
if self.TraceOn():
print data
offset = 0
self.assertTrue(data.GetUnsignedInt32(error, offset) == 8, 'finally foo[1].a == 8')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 7, 'finally foo[1].b == 7')
offset += 4
self.assertTrue(fabs(data.GetFloat(error, offset) - 6.28) < 1, 'foo[1].c == 6.28')
self.runCmd("n")
barfoo = frame.FindVariable('barfoo')
data = barfoo.GetData()
if self.TraceOn():
print barfoo
if self.TraceOn():
print data
offset = 0
self.assertTrue(data.GetUnsignedInt32(error, offset) == 1, 'barfoo[0].a = 1')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 2, 'barfoo[0].b == 2')
offset += 4
self.assertTrue(fabs(data.GetFloat(error, offset) - 3) < 1, 'barfoo[0].c == 3')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 4, 'barfoo[1].a = 4')
offset += 4
self.assertTrue(data.GetUnsignedInt32(error, offset) == 5, 'barfoo[1].b == 5')
offset += 4
self.assertTrue(fabs(data.GetFloat(error, offset) - 6) < 1, 'barfoo[1].c == 6')
new_object = barfoo.CreateValueFromData("new_object",data,barfoo.GetType().GetBasicType(lldb.eBasicTypeInt))
if self.TraceOn():
print new_object
self.assertTrue(new_object.GetLoadAddress() == 0xFFFFFFFFFFFFFFFF, 'GetLoadAddress() == invalid')
self.assertTrue(new_object.AddressOf().IsValid() == False, 'AddressOf() == invalid')
self.assertTrue(new_object.GetAddress().IsValid() == False, 'GetAddress() == invalid')
self.assertTrue(new_object.GetValue() == "1", 'new_object == 1')
data.SetData(error, 'A\0\0\0', data.GetByteOrder(), data.GetAddressByteSize())
data2 = lldb.SBData()
data2.SetData(error, 'BCD', data.GetByteOrder(), data.GetAddressByteSize())
data.Append(data2)
if self.TraceOn():
print data
# this breaks on EBCDIC
offset = 0
self.assertTrue(data.GetUnsignedInt32(error, offset) == 65, 'made-up data == 65')
offset += 4
self.assertTrue(data.GetUnsignedInt8(error, offset) == 66, 'made-up data == 66')
offset += 1
self.assertTrue(data.GetUnsignedInt8(error, offset) == 67, 'made-up data == 67')
offset += 1
self.assertTrue(data.GetUnsignedInt8(error, offset) == 68, 'made-up data == 68')
offset += 1
