lldb/test/API/python_api/value/TestValueAPI.py - third_party/github.com/llvm/llvm-project - Git at Google

 """
 Test some SBValue APIs.
 """

 import lldb
 from lldbsuite.test import lldbutil
 from lldbsuite.test.decorators import *
 from lldbsuite.test.lldbtest import *


 class ValueAPITestCase(TestBase):
     def setUp(self):
         # Call super's setUp().
         TestBase.setUp(self)
         # We'll use the test method name as the exe_name.
         self.exe_name = self.testMethodName
         # Find the line number to of function 'c'.
         self.line = line_number("main.c", "// Break at this line")

     @expectedFailureAll(oslist=["windows"], bugnumber="llvm.org/pr24772")
     def test(self):
         """Exercise some SBValue APIs."""
         d = {"EXE": self.exe_name}
         self.build(dictionary=d)
         self.setTearDownCleanup(dictionary=d)
         exe = self.getBuildArtifact(self.exe_name)

         # Create a target by the debugger.
         target = self.dbg.CreateTarget(exe)
         self.assertTrue(target, VALID_TARGET)

         # Create the breakpoint inside function 'main'.
         breakpoint = target.BreakpointCreateByLocation("main.c", self.line)
         self.assertTrue(breakpoint, VALID_BREAKPOINT)

         # 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)

         # Get Frame #0.
         self.assertState(process.GetState(), lldb.eStateStopped)
         thread = lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint)
         self.assertTrue(
             thread.IsValid(),
             "There should be a thread stopped due to breakpoint condition",
         )
         frame0 = thread.GetFrameAtIndex(0)

         # Get global variable 'days_of_week'.
         list = target.FindGlobalVariables("days_of_week", 1)
         days_of_week = list.GetValueAtIndex(0)
         self.assertTrue(days_of_week, VALID_VARIABLE)
         self.assertEqual(days_of_week.GetNumChildren(), 7, VALID_VARIABLE)
         self.DebugSBValue(days_of_week)

         # Use this to test the "child" and "children" accessors:
         children = days_of_week.children
         self.assertEqual(len(children), 7, VALID_VARIABLE)
         for i in range(0, len(children)):
             day = days_of_week.child[i]
             list_day = children[i]
             self.assertNotEqual(day, None)
             self.assertNotEqual(list_day, None)
             self.assertEqual(day.GetSummary(), list_day.GetSummary(), VALID_VARIABLE)

         # Spot check the actual value:
         first_day = days_of_week.child[1]
         self.assertEqual(first_day.GetSummary(), '"Monday"', VALID_VARIABLE)

         # Get global variable 'weekdays'.
         list = target.FindGlobalVariables("weekdays", 1)
         weekdays = list.GetValueAtIndex(0)
         self.assertTrue(weekdays, VALID_VARIABLE)
         self.assertEqual(weekdays.GetNumChildren(), 5, VALID_VARIABLE)
         self.DebugSBValue(weekdays)

         # Get global variable 'g_table'.
         list = target.FindGlobalVariables("g_table", 1)
         g_table = list.GetValueAtIndex(0)
         self.assertTrue(g_table, VALID_VARIABLE)
         self.assertEqual(g_table.GetNumChildren(), 2, VALID_VARIABLE)
         self.DebugSBValue(g_table)

         fmt = lldbutil.BasicFormatter()
         cvf = lldbutil.ChildVisitingFormatter(indent_child=2)
         rdf = lldbutil.RecursiveDecentFormatter(indent_child=2)
         if self.TraceOn():
             print(fmt.format(days_of_week))
             print(cvf.format(days_of_week))
             print(cvf.format(weekdays))
             print(rdf.format(g_table))

         # Get variable 'my_int_ptr'.
         value = frame0.FindVariable("my_int_ptr")
         self.assertTrue(value, VALID_VARIABLE)
         self.DebugSBValue(value)

         # Get what 'my_int_ptr' points to.
         pointed = value.GetChildAtIndex(0)
         self.assertTrue(pointed, VALID_VARIABLE)
         self.DebugSBValue(pointed)

         # While we are at it, verify that 'my_int_ptr' points to 'g_my_int'.
         symbol = target.ResolveLoadAddress(int(pointed.GetLocation(), 0)).GetSymbol()
         self.assertTrue(symbol)
         self.expect(symbol.GetName(), exe=False, startstr="g_my_int")

         # Get variable 'str_ptr'.
         value = frame0.FindVariable("str_ptr")
         self.assertTrue(value, VALID_VARIABLE)
         self.DebugSBValue(value)

         # SBValue::TypeIsPointerType() should return true.
         self.assertTrue(value.TypeIsPointerType())

         # Verify the SBValue::GetByteSize() API is working correctly.
         arch = self.getArchitecture()
         if arch == "i386":
             self.assertEqual(value.GetByteSize(), 4)
         elif arch == "x86_64":
             self.assertEqual(value.GetByteSize(), 8)

         # Get child at index 5 => 'Friday'.
         child = value.GetChildAtIndex(5, lldb.eNoDynamicValues, True)
         self.assertTrue(child, VALID_VARIABLE)
         self.DebugSBValue(child)

         self.expect(child.GetSummary(), exe=False, substrs=["Friday"])

         # Now try to get at the same variable using GetValueForExpressionPath().
         # These two SBValue objects should have the same value.
         val2 = value.GetValueForExpressionPath("[5]")
         self.assertTrue(val2, VALID_VARIABLE)
         self.DebugSBValue(val2)
         self.assertTrue(
             child.GetValue() == val2.GetValue()
             and child.GetSummary() == val2.GetSummary()
         )

         val_i = target.EvaluateExpression("i")
         val_s = target.EvaluateExpression("s")
         val_a = target.EvaluateExpression("a")
         self.assertTrue(
             val_s.GetChildMemberWithName("a").GetAddress().IsValid(), VALID_VARIABLE
         )
         self.assertTrue(val_s.GetChildMemberWithName("a").AddressOf(), VALID_VARIABLE)
         self.assertTrue(val_a.Cast(val_i.GetType()).AddressOf(), VALID_VARIABLE)

         # Test some other cases of the Cast API.  We allow casts from one struct type
         # to another, which is a little weird, but we don't support casting from a
         # smaller type to a larger when the underlying data is not in the inferior,
         # since then we have no way to fetch the out-of-bounds values.
         # For an expression that references a variable, or a FindVariable result,
         # or an SBValue made from an address and a type, we can get back to the target,
         # so those will work.  Make sure they do and get the right extra values as well.

         # We're casting everything to the type of "f", so get that first:
         f_var = frame0.FindVariable("f")
         self.assertSuccess(f_var.error, "Got f")
         bigger_type = f_var.GetType()

         # First try a value that we got from FindVariable
         container = frame0.FindVariable("my_container")
         self.assertSuccess(container.error, "Found my_container")
         fv_small = container.GetValueForExpressionPath(".data.small")
         self.assertSuccess(fv_small.error, "Found small in my_container")
         fv_cast = fv_small.Cast(bigger_type)
         self.assertSuccess(fv_cast.error, "Can cast up from FindVariable")
         child_checks = [
             ValueCheck(name="a", value="33", type="int"),
             ValueCheck(name="b", value="44", type="int"),
             ValueCheck(name="c", value="55", type="int"),
         ]
         cast_check = ValueCheck(type=bigger_type.name, children=child_checks)

         # Now try one we made with expr.  This one should fail, because expr
         # stores the "canonical value" in host memory, and doesn't know how
         # to augment that from the live address.
         expr_cont = frame0.EvaluateExpression("my_container")
         self.assertSuccess(expr_cont.error, "Got my_container by expr")
         expr_small = expr_cont.GetValueForExpressionPath(".data.small")
         self.assertSuccess(expr_small.error, "Got small by expr")
         expr_cast = expr_small.Cast(bigger_type)
         self.assertFailure(expr_cast.error, msg="Cannot cast expr result")

         # Now try one we made with CreateValueFromAddress.  That will succeed
         # because this directly tracks the inferior memory.
         small_addr = fv_small.addr
         self.assertTrue(small_addr.IsValid())
         small_type = fv_small.GetType()
         vfa_small = target.CreateValueFromAddress(
             "small_from_addr", small_addr, small_type
         )
         self.assertSuccess(vfa_small.error, "Made small from address")
         vfa_cast = vfa_small.Cast(bigger_type)
         self.assertSuccess(vfa_cast.error, "Made a cast from vfa_small")
         cast_check.check_value(self, vfa_cast, "Cast of ValueFromAddress succeeds")

         # Next try ValueObject created from data.  They should fail as there's no
         # way to grow the data:
         data_small = target.CreateValueFromData(
             "small_from_data", fv_small.data, fv_small.type
         )
         self.assertSuccess(data_small.error, "Made a valid object from data")
         data_cast = data_small.Cast(bigger_type)
         self.assertFailure(data_cast.error, msg="Cannot cast data backed SBValue")

         # Now check casting from a larger type to a smaller, we can always do this,
         # so just test one case:
         weird_cast = f_var.Cast(val_s.GetType())
         self.assertSuccess(weird_cast.GetError(), "Can cast from a larger to a smaller")
         self.assertEqual(
             weird_cast.GetChildMemberWithName("a").GetValueAsSigned(0),
             33,
             "Got the right value",
         )

         # Check that lldb.value implements truth testing.
         self.assertFalse(lldb.value(frame0.FindVariable("bogus")))
         self.assertTrue(lldb.value(frame0.FindVariable("uinthex")))

         self.assertEqual(
             int(lldb.value(frame0.FindVariable("uinthex"))),
             3768803088,
             "uinthex == 3768803088",
         )
         self.assertEqual(
             int(lldb.value(frame0.FindVariable("sinthex"))),
             -526164208,
             "sinthex == -526164208",
         )

         # Check value_iter works correctly.
         for v in [
             lldb.value(frame0.FindVariable("uinthex")),
             lldb.value(frame0.FindVariable("sinthex")),
         ]:
             self.assertTrue(v)

         self.assertEqual(
             frame0.FindVariable("uinthex").GetValueAsUnsigned(),
             3768803088,
             "unsigned uinthex == 3768803088",
         )
         self.assertEqual(
             frame0.FindVariable("sinthex").GetValueAsUnsigned(),
             3768803088,
             "unsigned sinthex == 3768803088",
         )

         self.assertEqual(
             frame0.FindVariable("uinthex").GetValueAsSigned(),
             -526164208,
             "signed uinthex == -526164208",
         )
         self.assertEqual(
             frame0.FindVariable("sinthex").GetValueAsSigned(),
             -526164208,
             "signed sinthex == -526164208",
         )

         # Check that hex value printing works as expected.
         self.assertEqual(
             frame0.FindVariable("fixed_int_ptr").GetValue(),
             "0x000000aa" if target.addr_size == 4 else "0x00000000000000aa",
         )
         self.runCmd(
             "settings set target.show-hex-variable-values-with-leading-zeroes false"
         )
         self.assertEqual(
             frame0.FindVariable("another_fixed_int_ptr").GetValue(),
             "0xaa",
         )
         self.assertEqual(
             frame0.FindVariable("a_null_int_ptr").GetValue(),
             "0x0",
         )
	"""
	Test some SBValue APIs.
	"""

	import lldb
	from lldbsuite.test import lldbutil
	from lldbsuite.test.decorators import *
	from lldbsuite.test.lldbtest import *


	class ValueAPITestCase(TestBase):
	def setUp(self):
	# Call super's setUp().
	TestBase.setUp(self)
	# We'll use the test method name as the exe_name.
	self.exe_name = self.testMethodName
	# Find the line number to of function 'c'.
	self.line = line_number("main.c", "// Break at this line")

	@expectedFailureAll(oslist=["windows"], bugnumber="llvm.org/pr24772")
	def test(self):
	"""Exercise some SBValue APIs."""
	d = {"EXE": self.exe_name}
	self.build(dictionary=d)
	self.setTearDownCleanup(dictionary=d)
	exe = self.getBuildArtifact(self.exe_name)

	# Create a target by the debugger.
	target = self.dbg.CreateTarget(exe)
	self.assertTrue(target, VALID_TARGET)

	# Create the breakpoint inside function 'main'.
	breakpoint = target.BreakpointCreateByLocation("main.c", self.line)
	self.assertTrue(breakpoint, VALID_BREAKPOINT)

	# 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)

	# Get Frame #0.
	self.assertState(process.GetState(), lldb.eStateStopped)
	thread = lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint)
	self.assertTrue(
	thread.IsValid(),
	"There should be a thread stopped due to breakpoint condition",
	)
	frame0 = thread.GetFrameAtIndex(0)

	# Get global variable 'days_of_week'.
	list = target.FindGlobalVariables("days_of_week", 1)
	days_of_week = list.GetValueAtIndex(0)
	self.assertTrue(days_of_week, VALID_VARIABLE)
	self.assertEqual(days_of_week.GetNumChildren(), 7, VALID_VARIABLE)
	self.DebugSBValue(days_of_week)

	# Use this to test the "child" and "children" accessors:
	children = days_of_week.children
	self.assertEqual(len(children), 7, VALID_VARIABLE)
	for i in range(0, len(children)):
	day = days_of_week.child[i]
	list_day = children[i]
	self.assertNotEqual(day, None)
	self.assertNotEqual(list_day, None)
	self.assertEqual(day.GetSummary(), list_day.GetSummary(), VALID_VARIABLE)

	# Spot check the actual value:
	first_day = days_of_week.child[1]
	self.assertEqual(first_day.GetSummary(), '"Monday"', VALID_VARIABLE)

	# Get global variable 'weekdays'.
	list = target.FindGlobalVariables("weekdays", 1)
	weekdays = list.GetValueAtIndex(0)
	self.assertTrue(weekdays, VALID_VARIABLE)
	self.assertEqual(weekdays.GetNumChildren(), 5, VALID_VARIABLE)
	self.DebugSBValue(weekdays)

	# Get global variable 'g_table'.
	list = target.FindGlobalVariables("g_table", 1)
	g_table = list.GetValueAtIndex(0)
	self.assertTrue(g_table, VALID_VARIABLE)
	self.assertEqual(g_table.GetNumChildren(), 2, VALID_VARIABLE)
	self.DebugSBValue(g_table)

	fmt = lldbutil.BasicFormatter()
	cvf = lldbutil.ChildVisitingFormatter(indent_child=2)
	rdf = lldbutil.RecursiveDecentFormatter(indent_child=2)
	if self.TraceOn():
	print(fmt.format(days_of_week))
	print(cvf.format(days_of_week))
	print(cvf.format(weekdays))
	print(rdf.format(g_table))

	# Get variable 'my_int_ptr'.
	value = frame0.FindVariable("my_int_ptr")
	self.assertTrue(value, VALID_VARIABLE)
	self.DebugSBValue(value)

	# Get what 'my_int_ptr' points to.
	pointed = value.GetChildAtIndex(0)
	self.assertTrue(pointed, VALID_VARIABLE)
	self.DebugSBValue(pointed)

	# While we are at it, verify that 'my_int_ptr' points to 'g_my_int'.
	symbol = target.ResolveLoadAddress(int(pointed.GetLocation(), 0)).GetSymbol()
	self.assertTrue(symbol)
	self.expect(symbol.GetName(), exe=False, startstr="g_my_int")

	# Get variable 'str_ptr'.
	value = frame0.FindVariable("str_ptr")
	self.assertTrue(value, VALID_VARIABLE)
	self.DebugSBValue(value)

	# SBValue::TypeIsPointerType() should return true.
	self.assertTrue(value.TypeIsPointerType())

	# Verify the SBValue::GetByteSize() API is working correctly.
	arch = self.getArchitecture()
	if arch == "i386":
	self.assertEqual(value.GetByteSize(), 4)
	elif arch == "x86_64":
	self.assertEqual(value.GetByteSize(), 8)

	# Get child at index 5 => 'Friday'.
	child = value.GetChildAtIndex(5, lldb.eNoDynamicValues, True)
	self.assertTrue(child, VALID_VARIABLE)
	self.DebugSBValue(child)

	self.expect(child.GetSummary(), exe=False, substrs=["Friday"])

	# Now try to get at the same variable using GetValueForExpressionPath().
	# These two SBValue objects should have the same value.
	val2 = value.GetValueForExpressionPath("[5]")
	self.assertTrue(val2, VALID_VARIABLE)
	self.DebugSBValue(val2)
	self.assertTrue(
	child.GetValue() == val2.GetValue()
	and child.GetSummary() == val2.GetSummary()
	)

	val_i = target.EvaluateExpression("i")
	val_s = target.EvaluateExpression("s")
	val_a = target.EvaluateExpression("a")
	self.assertTrue(
	val_s.GetChildMemberWithName("a").GetAddress().IsValid(), VALID_VARIABLE
	)
	self.assertTrue(val_s.GetChildMemberWithName("a").AddressOf(), VALID_VARIABLE)
	self.assertTrue(val_a.Cast(val_i.GetType()).AddressOf(), VALID_VARIABLE)

	# Test some other cases of the Cast API. We allow casts from one struct type
	# to another, which is a little weird, but we don't support casting from a
	# smaller type to a larger when the underlying data is not in the inferior,
	# since then we have no way to fetch the out-of-bounds values.
	# For an expression that references a variable, or a FindVariable result,
	# or an SBValue made from an address and a type, we can get back to the target,
	# so those will work. Make sure they do and get the right extra values as well.

	# We're casting everything to the type of "f", so get that first:
	f_var = frame0.FindVariable("f")
	self.assertSuccess(f_var.error, "Got f")
	bigger_type = f_var.GetType()

	# First try a value that we got from FindVariable
	container = frame0.FindVariable("my_container")
	self.assertSuccess(container.error, "Found my_container")
	fv_small = container.GetValueForExpressionPath(".data.small")
	self.assertSuccess(fv_small.error, "Found small in my_container")
	fv_cast = fv_small.Cast(bigger_type)
	self.assertSuccess(fv_cast.error, "Can cast up from FindVariable")
	child_checks = [
	ValueCheck(name="a", value="33", type="int"),
	ValueCheck(name="b", value="44", type="int"),
	ValueCheck(name="c", value="55", type="int"),
	]
	cast_check = ValueCheck(type=bigger_type.name, children=child_checks)

	# Now try one we made with expr. This one should fail, because expr
	# stores the "canonical value" in host memory, and doesn't know how
	# to augment that from the live address.
	expr_cont = frame0.EvaluateExpression("my_container")
	self.assertSuccess(expr_cont.error, "Got my_container by expr")
	expr_small = expr_cont.GetValueForExpressionPath(".data.small")
	self.assertSuccess(expr_small.error, "Got small by expr")
	expr_cast = expr_small.Cast(bigger_type)
	self.assertFailure(expr_cast.error, msg="Cannot cast expr result")

	# Now try one we made with CreateValueFromAddress. That will succeed
	# because this directly tracks the inferior memory.
	small_addr = fv_small.addr
	self.assertTrue(small_addr.IsValid())
	small_type = fv_small.GetType()
	vfa_small = target.CreateValueFromAddress(
	"small_from_addr", small_addr, small_type
	)
	self.assertSuccess(vfa_small.error, "Made small from address")
	vfa_cast = vfa_small.Cast(bigger_type)
	self.assertSuccess(vfa_cast.error, "Made a cast from vfa_small")
	cast_check.check_value(self, vfa_cast, "Cast of ValueFromAddress succeeds")

	# Next try ValueObject created from data. They should fail as there's no
	# way to grow the data:
	data_small = target.CreateValueFromData(
	"small_from_data", fv_small.data, fv_small.type
	)
	self.assertSuccess(data_small.error, "Made a valid object from data")
	data_cast = data_small.Cast(bigger_type)
	self.assertFailure(data_cast.error, msg="Cannot cast data backed SBValue")

	# Now check casting from a larger type to a smaller, we can always do this,
	# so just test one case:
	weird_cast = f_var.Cast(val_s.GetType())
	self.assertSuccess(weird_cast.GetError(), "Can cast from a larger to a smaller")
	self.assertEqual(
	weird_cast.GetChildMemberWithName("a").GetValueAsSigned(0),
	33,
	"Got the right value",
	)

	# Check that lldb.value implements truth testing.
	self.assertFalse(lldb.value(frame0.FindVariable("bogus")))
	self.assertTrue(lldb.value(frame0.FindVariable("uinthex")))

	self.assertEqual(
	int(lldb.value(frame0.FindVariable("uinthex"))),
	3768803088,
	"uinthex == 3768803088",
	)
	self.assertEqual(
	int(lldb.value(frame0.FindVariable("sinthex"))),
	-526164208,
	"sinthex == -526164208",
	)

	# Check value_iter works correctly.
	for v in [
	lldb.value(frame0.FindVariable("uinthex")),
	lldb.value(frame0.FindVariable("sinthex")),
	]:
	self.assertTrue(v)

	self.assertEqual(
	frame0.FindVariable("uinthex").GetValueAsUnsigned(),
	3768803088,
	"unsigned uinthex == 3768803088",
	)
	self.assertEqual(
	frame0.FindVariable("sinthex").GetValueAsUnsigned(),
	3768803088,
	"unsigned sinthex == 3768803088",
	)

	self.assertEqual(
	frame0.FindVariable("uinthex").GetValueAsSigned(),
	-526164208,
	"signed uinthex == -526164208",
	)
	self.assertEqual(
	frame0.FindVariable("sinthex").GetValueAsSigned(),
	-526164208,
	"signed sinthex == -526164208",
	)

	# Check that hex value printing works as expected.
	self.assertEqual(
	frame0.FindVariable("fixed_int_ptr").GetValue(),
	"0x000000aa" if target.addr_size == 4 else "0x00000000000000aa",
	)
	self.runCmd(
	"settings set target.show-hex-variable-values-with-leading-zeroes false"
	)
	self.assertEqual(
	frame0.FindVariable("another_fixed_int_ptr").GetValue(),
	"0xaa",
	)
	self.assertEqual(
	frame0.FindVariable("a_null_int_ptr").GetValue(),
	"0x0",
	)