from __future__ import print_function from __future__ import absolute_import # System modules import os # Third-party modules # LLDB modules import lldb from .lldbtest import * from . import lldbutil def source_type(filename): _, extension = os.path.splitext(filename) return { '.c' : 'C_SOURCES', '.cpp' : 'CXX_SOURCES', '.cxx' : 'CXX_SOURCES', '.cc' : 'CXX_SOURCES', '.m' : 'OBJC_SOURCES', '.mm' : 'OBJCXX_SOURCES' }.get(extension, None) class CommandParser: def __init__(self): self.breakpoints = [] def parse_one_command(self, line): parts = line.split('//%') command = None new_breakpoint = True if len(parts) == 2: command = parts[1].strip() # take off whitespace new_breakpoint = parts[0].strip() != "" return (command, new_breakpoint) def parse_source_files(self, source_files): for source_file in source_files: file_handle = open(source_file) lines = file_handle.readlines() line_number = 0 current_breakpoint = None # non-NULL means we're looking through whitespace to find additional commands for line in lines: line_number = line_number + 1 # 1-based, so we do this first (command, new_breakpoint) = self.parse_one_command(line) if new_breakpoint: current_breakpoint = None if command != None: if current_breakpoint == None: current_breakpoint = {} current_breakpoint['file_name'] = source_file current_breakpoint['line_number'] = line_number current_breakpoint['command'] = command self.breakpoints.append(current_breakpoint) else: current_breakpoint['command'] = current_breakpoint['command'] + "\n" + command def set_breakpoints(self, target): for breakpoint in self.breakpoints: breakpoint['breakpoint'] = target.BreakpointCreateByLocation(breakpoint['file_name'], breakpoint['line_number']) def handle_breakpoint(self, test, breakpoint_id): for breakpoint in self.breakpoints: if breakpoint['breakpoint'].GetID() == breakpoint_id: test.execute_user_command(breakpoint['command']) return class InlineTest(TestBase): # Internal implementation def getRerunArgs(self): # The -N option says to NOT run a if it matches the option argument, so # if we are using dSYM we say to NOT run dwarf (-N dwarf) and vice versa. if self.using_dsym is None: # The test was skipped altogether. return "" elif self.using_dsym: return "-N dwarf %s" % (self.mydir) else: return "-N dsym %s" % (self.mydir) def BuildMakefile(self): if os.path.exists("Makefile"): return categories = {} for f in os.listdir(os.getcwd()): t = source_type(f) if t: if t in list(categories.keys()): categories[t].append(f) else: categories[t] = [f] makefile = open("Makefile", 'w+') level = os.sep.join([".."] * len(self.mydir.split(os.sep))) + os.sep + "make" makefile.write("LEVEL = " + level + "\n") for t in list(categories.keys()): line = t + " := " + " ".join(categories[t]) makefile.write(line + "\n") if ('OBJCXX_SOURCES' in list(categories.keys())) or ('OBJC_SOURCES' in list(categories.keys())): makefile.write("LDFLAGS = $(CFLAGS) -lobjc -framework Foundation\n") if ('CXX_SOURCES' in list(categories.keys())): makefile.write("CXXFLAGS += -std=c++11\n") makefile.write("\ncleanup:\n\trm -f Makefile *.d\n\n") makefile.write("include $(LEVEL)/Makefile.rules\n") makefile.flush() makefile.close() @skipUnlessDarwin def __test_with_dsym(self): self.using_dsym = True self.BuildMakefile() self.buildDsym() self.do_test() def __test_with_dwarf(self): self.using_dsym = False self.BuildMakefile() self.buildDwarf() self.do_test() def __test_with_dwo(self): self.using_dsym = False self.BuildMakefile() self.buildDwo() self.do_test() def execute_user_command(self, __command): exec(__command, globals(), locals()) def do_test(self): exe_name = "a.out" exe = os.path.join(os.getcwd(), exe_name) source_files = [ f for f in os.listdir(os.getcwd()) if source_type(f) ] target = self.dbg.CreateTarget(exe) parser = CommandParser() parser.parse_source_files(source_files) parser.set_breakpoints(target) process = target.LaunchSimple(None, None, os.getcwd()) while lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint): thread = lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint) breakpoint_id = thread.GetStopReasonDataAtIndex (0) parser.handle_breakpoint(self, breakpoint_id) process.Continue() # Utilities for testcases def check_expression (self, expression, expected_result, use_summary = True): value = self.frame().EvaluateExpression (expression) self.assertTrue(value.IsValid(), expression+"returned a valid value") if self.TraceOn(): print(value.GetSummary()) print(value.GetValue()) if use_summary: answer = value.GetSummary() else: answer = value.GetValue() report_str = "%s expected: %s got: %s"%(expression, expected_result, answer) self.assertTrue(answer == expected_result, report_str) def ApplyDecoratorsToFunction(func, decorators): tmp = func if type(decorators) == list: for decorator in decorators: tmp = decorator(tmp) elif hasattr(decorators, '__call__'): tmp = decorators(tmp) return tmp def MakeInlineTest(__file, __globals, decorators=None): # Derive the test name from the current file name file_basename = os.path.basename(__file) InlineTest.mydir = TestBase.compute_mydir(__file) test_name, _ = os.path.splitext(file_basename) # Build the test case test = type(test_name, (InlineTest,), {'using_dsym': None}) test.name = test_name test.test_with_dsym = ApplyDecoratorsToFunction(test._InlineTest__test_with_dsym, decorators) test.test_with_dwarf = ApplyDecoratorsToFunction(test._InlineTest__test_with_dwarf, decorators) test.test_with_dwo = ApplyDecoratorsToFunction(test._InlineTest__test_with_dwo, decorators) # Add the test case to the globals, and hide InlineTest __globals.update({test_name : test}) # Store the name of the originating file.o test.test_filename = __file return test