""" Test the 'memory read' command. """ import os, time import re import unittest2 import lldb from lldbtest import * import lldbutil class MemoryReadTestCase(TestBase): mydir = os.path.join("functionalities", "memory", "read") @unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin") @dsym_test def test_memory_read_with_dsym(self): """Test the 'memory read' command with plain and vector formats.""" self.buildDsym() self.memory_read_command() @dwarf_test def test_memory_read_with_dwarf(self): """Test the 'memory read' command with plain and vector formats.""" self.buildDwarf() self.memory_read_command() 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.') def memory_read_command(self): """Test the 'memory read' command with plain and vector formats.""" exe = os.path.join(os.getcwd(), "a.out") self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET) # Break in main() aftre the variables are assigned values. 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']) # The breakpoint should have a hit count of 1. self.expect("breakpoint list -f", BREAKPOINT_HIT_ONCE, substrs = [' resolved, hit count = 1']) # Test the memory read commands. # (lldb) memory read -f d -c 1 `&argc` # 0x7fff5fbff9a0: 1 self.runCmd("memory read -f d -c 1 `&argc`") # Find the starting address for variable 'argc' to verify later that the # '--format uint32_t[] --size 4 --count 4' option increments the address # correctly. line = self.res.GetOutput().splitlines()[0] items = line.split(':') address = int(items[0], 0) argc = int(items[1], 0) self.assertTrue(address > 0 and argc == 1) # (lldb) memory read --format uint32_t[] --size 4 --count 4 `&argc` # 0x7fff5fbff9a0: {0x00000001} # 0x7fff5fbff9a4: {0x00000000} # 0x7fff5fbff9a8: {0x0ec0bf27} # 0x7fff5fbff9ac: {0x215db505} self.runCmd("memory read --format uint32_t[] --size 4 --count 4 `&argc`") lines = self.res.GetOutput().splitlines() for i in range(4): if i == 0: # Verify that the printout for argc is correct. self.assertTrue(argc == int(lines[i].split(':')[1].strip(' {}'), 0)) addr = int(lines[i].split(':')[0], 0) # Verify that the printout for addr is incremented correctly. self.assertTrue(addr == (address + i*4)) # (lldb) memory read --format char[] --size 7 --count 1 `&my_string` # 0x7fff5fbff990: {abcdefg} self.expect("memory read --format char[] --size 7 --count 1 `&my_string`", substrs = ['abcdefg']) # (lldb) memory read --format 'hex float' --size 16 `&argc` # 0x7fff5fbff5b0: error: unsupported byte size (16) for hex float format self.expect("memory read --format 'hex float' --size 16 `&argc`", substrs = ['unsupported byte size (16) for hex float format']) self.expect("memory read --format 'float' --count 1 --size 8 `&my_double`", substrs = ['1234.']) # (lldb) memory read --format 'float' --count 1 --size 20 `&my_double` # 0x7fff5fbff598: error: unsupported byte size (20) for float format self.expect("memory read --format 'float' --count 1 --size 20 `&my_double`", substrs = ['unsupported byte size (20) for float format']) if __name__ == '__main__': import atexit lldb.SBDebugger.Initialize() atexit.register(lambda: lldb.SBDebugger.Terminate()) unittest2.main()