""" Test lldb-mi -data-xxx commands. """ from __future__ import print_function import unittest2 import lldbmi_testcase from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class MiDataTestCase(lldbmi_testcase.MiTestCaseBase): mydir = TestBase.compute_mydir(__file__) @skipIfRemote # We do not currently support remote debugging via the MI. @skipIfWindows # llvm.org/pr24452: Get lldb-mi tests working on Windows @skipIfDarwin # pexpect is known to be unreliable on Darwin @skipIfFreeBSD # llvm.org/pr22411: Failure presumably due to known thread races def test_lldbmi_data_disassemble(self): """Test that 'lldb-mi --interpreter' works for -data-disassemble.""" self.spawnLldbMi(args=None) # Load executable self.runCmd("-file-exec-and-symbols %s" % self.myexe) self.expect("\^done") # Run to main self.runCmd("-break-insert -f main") self.expect("\^done,bkpt={number=\"1\"") self.runCmd("-exec-run") self.expect("\^running") self.expect("\*stopped,reason=\"breakpoint-hit\"") # Get an address for disassembling: use main self.runCmd("-data-evaluate-expression main") self.expect( "\^done,value=\"0x[0-9a-f]+ \(a.out`main at main.cpp:[0-9]+\)\"") addr = int(self.child.after.split("\"")[1].split(" ")[0], 16) # Test -data-disassemble: try to disassemble some address self.runCmd( "-data-disassemble -s %#x -e %#x -- 0" % (addr, addr + 0x10)) self.expect( "\^done,asm_insns=\[{address=\"0x0*%x\",func-name=\"main\",offset=\"0\",size=\"[1-9]+\",inst=\".+?\"}," % addr) # Test -data-disassemble without "--" self.runCmd("-data-disassemble -s %#x -e %#x 0" % (addr, addr + 0x10)) self.expect( "\^done,asm_insns=\[{address=\"0x0*%x\",func-name=\"main\",offset=\"0\",size=\"[1-9]+\",inst=\".+?\"}," % addr) # Test -data-disassemble with source line information self.runCmd("-data-disassemble -s %#x -e %#x -- 1" % (addr, addr + 0x10)) self.expect( '\^done,asm_insns=\[src_and_asm_line={line="\d+",file="main.cpp",' 'line_asm_insn=\[{address="0x0*%x",func-name="main",offset="0",size="[1-9]+",inst=".+?"}\],' 'fullname="%s"}' % (addr, os.path.abspath("main.cpp")) ) # Run to hello_world self.runCmd("-break-insert -f hello_world") self.expect("\^done,bkpt={number=\"2\"") self.runCmd("-exec-continue") self.expect("\^running") self.expect("\*stopped,reason=\"breakpoint-hit\"") # Get an address for disassembling: use hello_world self.runCmd("-data-evaluate-expression hello_world") self.expect( "\^done,value=\"0x[0-9a-f]+ \(a.out`hello_world\(\) at main.cpp:[0-9]+\)\"") addr = int(self.child.after.split("\"")[1].split(" ")[0], 16) # Test -data-disassemble: try to disassemble some address self.runCmd( "-data-disassemble -s %#x -e %#x -- 0" % (addr, addr + 0x10)) # This matches a line similar to: # Darwin: {address="0x0000000100000f18",func-name="hello_world()",offset="8",size="7",inst="leaq 0x65(%rip), %rdi; \"Hello, World!\\n\""}, # Linux: {address="0x0000000000400642",func-name="hello_world()",offset="18",size="5",inst="callq 0x4004d0; symbol stub for: printf"} # To match the escaped characters in the ouptut, we must use four backslashes per matches backslash # See https://docs.python.org/2/howto/regex.html#the-backslash-plague # The MIPS and PPC64le disassemblers never print stub name if self.isMIPS() or self.isPPC64le(): self.expect(["{address=\"0x[0-9a-f]+\",func-name=\"hello_world\(\)\",offset=\"[0-9]+\",size=\"[0-9]+\",inst=\".+?; \\\\\"Hello, World!\\\\\\\\n\\\\\"\"}", "{address=\"0x[0-9a-f]+\",func-name=\"hello_world\(\)\",offset=\"[0-9]+\",size=\"[0-9]+\",inst=\".+?\"}"]) else: self.expect(["{address=\"0x[0-9a-f]+\",func-name=\"hello_world\(\)\",offset=\"[0-9]+\",size=\"[0-9]+\",inst=\".+?; \\\\\"Hello, World!\\\\\\\\n\\\\\"\"}", "{address=\"0x[0-9a-f]+\",func-name=\"hello_world\(\)\",offset=\"[0-9]+\",size=\"[0-9]+\",inst=\".+?; symbol stub for: printf\"}"]) @skipIfRemote # We do not currently support remote debugging via the MI. @skipIfWindows # llvm.org/pr24452: Get lldb-mi tests working on Windows @skipIfDarwin # pexpect is known to be unreliable on Darwin @skipIfFreeBSD # llvm.org/pr22411: Failure presumably due to known thread races def test_lldbmi_data_read_memory_bytes_global(self): """Test that -data-read-memory-bytes can access global buffers.""" self.spawnLldbMi(args=None) # Load executable self.runCmd("-file-exec-and-symbols %s" % self.myexe) self.expect("\^done") # Run to main self.runCmd("-break-insert -f main") self.expect("\^done,bkpt={number=\"1\"") self.runCmd("-exec-run") self.expect("\^running") self.expect("\*stopped,reason=\"breakpoint-hit\"") # Get address of char[] (global) self.runCmd("-data-evaluate-expression &g_CharArray") self.expect("\^done,value=\"0x[0-9a-f]+\"") addr = int(self.child.after.split("\"")[1], 16) size = 5 # Test that -data-read-memory-bytes works for char[] type (global) self.runCmd("-data-read-memory-bytes %#x %d" % (addr, size)) self.expect( "\^done,memory=\[{begin=\"0x0*%x\",offset=\"0x0+\",end=\"0x0*%x\",contents=\"1011121300\"}\]" % (addr, addr + size)) # Get address of static char[] self.runCmd("-data-evaluate-expression &s_CharArray") self.expect("\^done,value=\"0x[0-9a-f]+\"") addr = int(self.child.after.split("\"")[1], 16) size = 5 # Test that -data-read-memory-bytes works for static char[] type self.runCmd("-data-read-memory-bytes %#x %d" % (addr, size)) self.expect( "\^done,memory=\[{begin=\"0x0*%x\",offset=\"0x0+\",end=\"0x0*%x\",contents=\"2021222300\"}\]" % (addr, addr + size)) @skipIfRemote # We do not currently support remote debugging via the MI. @skipIfWindows # llvm.org/pr24452: Get lldb-mi tests working on Windows @skipIfDarwin # pexpect is known to be unreliable on Darwin @skipIfFreeBSD # llvm.org/pr22411: Failure presumably due to known thread races def test_lldbmi_data_read_memory_bytes_local(self): """Test that -data-read-memory-bytes can access local buffers.""" self.spawnLldbMi(args=None) # Load executable self.runCmd('-file-exec-and-symbols %s' % self.myexe) self.expect(r'\^done') # Run to BP_local_array_test_inner line = line_number('main.cpp', '// BP_local_array_test_inner') self.runCmd('-break-insert main.cpp:%d' % line) self.expect(r'\^done,bkpt=\{number="1"') self.runCmd('-exec-run') self.expect(r'\^running') self.expect(r'\*stopped,reason="breakpoint-hit"') # Get address of local char[] self.runCmd('-data-evaluate-expression "(void *)&array"') self.expect(r'\^done,value="0x[0-9a-f]+"') addr = int(self.child.after.split('"')[1], 16) size = 4 # Test that an unquoted hex literal address works self.runCmd('-data-read-memory-bytes %#x %d' % (addr, size)) self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) # Test that a double-quoted hex literal address works self.runCmd('-data-read-memory-bytes "%#x" %d' % (addr, size)) self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) # Test that unquoted expressions work self.runCmd('-data-read-memory-bytes &array %d' % size) self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) # This doesn't work, and perhaps that makes sense, but it does work on # GDB self.runCmd('-data-read-memory-bytes array 4') self.expect(r'\^error') #self.expect(r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) self.runCmd('-data-read-memory-bytes &array[2] 2') self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="0304"\}\]' % (addr + 2, addr + size)) self.runCmd('-data-read-memory-bytes first_element_ptr %d' % size) self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) # Test that double-quoted expressions work self.runCmd('-data-read-memory-bytes "&array" %d' % size) self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) self.runCmd('-data-read-memory-bytes "&array[0] + 1" 3') self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="020304"\}\]' % (addr + 1, addr + size)) self.runCmd('-data-read-memory-bytes "first_element_ptr + 1" 3') self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="020304"\}\]' % (addr + 1, addr + size)) # Test the -o (offset) option self.runCmd('-data-read-memory-bytes -o 1 &array 3') self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="020304"\}\]' % (addr + 1, addr + size)) # Test the --thread option self.runCmd('-data-read-memory-bytes --thread 1 &array 4') self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) # Test the --thread option with an invalid value self.runCmd('-data-read-memory-bytes --thread 999 &array 4') self.expect(r'\^error') # Test the --frame option (current frame) self.runCmd('-data-read-memory-bytes --frame 0 &array 4') self.expect( r'\^done,memory=\[\{begin="0x0*%x",offset="0x0+",end="0x0*%x",contents="01020304"\}\]' % (addr, addr + size)) # Test the --frame option (outer frame) self.runCmd('-data-read-memory-bytes --frame 1 &array 4') self.expect( r'\^done,memory=\[\{begin="0x[0-9a-f]+",offset="0x0+",end="0x[0-9a-f]+",contents="05060708"\}\]') # Test the --frame option with an invalid value self.runCmd('-data-read-memory-bytes --frame 999 &array 4') self.expect(r'\^error') # Test all the options at once self.runCmd( '-data-read-memory-bytes --thread 1 --frame 1 -o 2 &array 2') self.expect( r'\^done,memory=\[\{begin="0x[0-9a-f]+",offset="0x0+",end="0x[0-9a-f]+",contents="0708"\}\]') # Test that an expression that references undeclared variables doesn't # work self.runCmd( '-data-read-memory-bytes "&undeclared_array1 + undeclared_array2[1]" 2') self.expect(r'\^error') # Test that the address argument is required self.runCmd('-data-read-memory-bytes') self.expect(r'\^error') # Test that the count argument is required self.runCmd('-data-read-memory-bytes &array') self.expect(r'\^error') # Test that the address and count arguments are required when other # options are present self.runCmd('-data-read-memory-bytes --thread 1') self.expect(r'\^error') self.runCmd('-data-read-memory-bytes --thread 1 --frame 0') self.expect(r'\^error') # Test that the count argument is required when other options are # present self.runCmd('-data-read-memory-bytes --thread 1 &array') self.expect(r'\^error') @skipIfRemote # We do not currently support remote debugging via the MI. @skipIfWindows # llvm.org/pr24452: Get lldb-mi tests working on Windows @skipIfDarwin # pexpect is known to be unreliable on Darwin @skipIfFreeBSD # llvm.org/pr22411: Failure presumably due to known thread races def test_lldbmi_data_list_register_names(self): """Test that 'lldb-mi --interpreter' works for -data-list-register-names.""" self.spawnLldbMi(args=None) # Load executable self.runCmd("-file-exec-and-symbols %s" % self.myexe) self.expect("\^done") # Run to main self.runCmd("-break-insert -f main") self.expect("\^done,bkpt={number=\"1\"") self.runCmd("-exec-run") self.expect("\^running") self.expect("\*stopped,reason=\"breakpoint-hit\"") # Test -data-list-register-names: try to get all registers self.runCmd("-data-list-register-names") self.expect("\^done,register-names=\[\".+?\",") # Test -data-list-register-names: try to get specified registers self.runCmd("-data-list-register-names 0") self.expect("\^done,register-names=\[\".+?\"\]") @skipIfRemote # We do not currently support remote debugging via the MI. @skipIfWindows # llvm.org/pr24452: Get lldb-mi tests working on Windows @skipIfDarwin # pexpect is known to be unreliable on Darwin @skipIfFreeBSD # llvm.org/pr22411: Failure presumably due to known thread races def test_lldbmi_data_list_register_values(self): """Test that 'lldb-mi --interpreter' works for -data-list-register-values.""" self.spawnLldbMi(args=None) # Load executable self.runCmd("-file-exec-and-symbols %s" % self.myexe) self.expect("\^done") # Run to main self.runCmd("-break-insert -f main") self.expect("\^done,bkpt={number=\"1\"") self.runCmd("-exec-run") self.expect("\^running") self.expect("\*stopped,reason=\"breakpoint-hit\"") # Test -data-list-register-values: try to get all registers self.runCmd("-data-list-register-values x") self.expect( "\^done,register-values=\[{number=\"0\",value=\"0x[0-9a-f]+\"") # Test -data-list-register-values: try to get specified registers self.runCmd("-data-list-register-values x 0") self.expect( "\^done,register-values=\[{number=\"0\",value=\"0x[0-9a-f]+\"}\]") @skipIfRemote # We do not currently support remote debugging via the MI. @skipIfWindows # llvm.org/pr24452: Get lldb-mi tests working on Windows @skipIfDarwin # pexpect is known to be unreliable on Darwin @skipIfFreeBSD # llvm.org/pr22411: Failure presumably due to known thread races def test_lldbmi_data_evaluate_expression(self): """Test that 'lldb-mi --interpreter' works for -data-evaluate-expression.""" self.spawnLldbMi(args=None) # Load executable self.runCmd("-file-exec-and-symbols %s" % self.myexe) self.expect("\^done") line = line_number('main.cpp', '// BP_local_2d_array_test') self.runCmd('-break-insert main.cpp:%d' % line) self.expect("\^done,bkpt={number=\"1\"") self.runCmd("-exec-run") self.expect("\^running") self.expect("\*stopped,reason=\"breakpoint-hit\"") # Check 2d array self.runCmd("-data-evaluate-expression array2d") self.expect( "\^done,value=\"\{\[0\] = \{\[0\] = 1, \[1\] = 2, \[2\] = 3\}, \[1\] = \{\[0\] = 4, \[1\] = 5, \[2\] = 6\}\}\"")