forked from OSchip/llvm-project
192 lines
8.0 KiB
Python
192 lines
8.0 KiB
Python
#!/usr/bin/python
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import lldb
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import optparse
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import shlex
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import string
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import sys
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class DumpLineTables:
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command_name = "dump-line-tables"
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short_decription = "Dumps full paths to compile unit files and optionally all line table files."
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description = 'Dumps all line tables from all compile units for any modules specified as arguments. Specifying the --verbose flag will output address ranges for each line entry.'
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usage = "usage: %prog [options] MODULE1 [MODULE2 ...]"
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def create_options(self):
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self.parser = optparse.OptionParser(
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description=self.description,
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prog=self.command_name,
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usage=self.usage)
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self.parser.add_option(
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'-v',
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'--verbose',
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action='store_true',
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dest='verbose',
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help='Display verbose output.',
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default=False)
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def get_short_help(self):
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return self.short_decription
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def get_long_help(self):
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return self.help_string
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def __init__(self, debugger, unused):
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self.create_options()
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self.help_string = self.parser.format_help()
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def __call__(self, debugger, command, exe_ctx, result):
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# Use the Shell Lexer to properly parse up command options just like a
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# shell would
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command_args = shlex.split(command)
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try:
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(options, args) = self.parser.parse_args(command_args)
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except:
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# if you don't handle exceptions, passing an incorrect argument to the OptionParser will cause LLDB to exit
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# (courtesy of OptParse dealing with argument errors by throwing SystemExit)
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result.SetError("option parsing failed")
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return
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# Always get program state from the SBExecutionContext passed in as exe_ctx
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target = exe_ctx.GetTarget()
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if not target.IsValid():
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result.SetError("invalid target")
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return
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for module_path in args:
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module = target.module[module_path]
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if not module:
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result.SetError('no module found that matches "%s".' % (module_path))
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return
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num_cus = module.GetNumCompileUnits()
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print >>result, 'Module: "%s"' % (module.file.fullpath),
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if num_cus == 0:
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print >>result, 'no debug info.'
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continue
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print >>result, 'has %u compile units:' % (num_cus)
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for cu_idx in range(num_cus):
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cu = module.GetCompileUnitAtIndex(cu_idx)
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print >>result, ' Compile Unit: %s' % (cu.file.fullpath)
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for line_idx in range(cu.GetNumLineEntries()):
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line_entry = cu.GetLineEntryAtIndex(line_idx)
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start_file_addr = line_entry.addr.file_addr
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end_file_addr = line_entry.end_addr.file_addr
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# If the two addresses are equal, this line table entry
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# is a termination entry
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if options.verbose:
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if start_file_addr != end_file_addr:
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result.PutCString(
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' [%#x - %#x): %s' %
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(start_file_addr, end_file_addr, line_entry))
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else:
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if start_file_addr == end_file_addr:
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result.PutCString(' %#x: END' %
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(start_file_addr))
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else:
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result.PutCString(
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' %#x: %s' %
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(start_file_addr, line_entry))
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if start_file_addr == end_file_addr:
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result.PutCString("\n")
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class DumpFiles:
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command_name = "dump-files"
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short_description = "Dumps full paths to compile unit files and optionally all line table files."
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usage = "usage: %prog [options] MODULE1 [MODULE2 ...]"
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description = '''This class adds a dump-files command to the LLDB interpreter.
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This command will dump all compile unit file paths found for each source file
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for the binaries specified as arguments in the current target. Specify the
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--support-files or -s option to see all file paths that a compile unit uses in
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its lines tables. This is handy for troubleshooting why breakpoints aren't
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working in IDEs that specify full paths to source files when setting file and
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line breakpoints. Sometimes symlinks cause the debug info to contain the symlink
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path and an IDE will resolve the path to the actual file and use the resolved
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path when setting breakpoints.
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'''
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def create_options(self):
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# Pass add_help_option = False, since this keeps the command in line with lldb commands,
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# and we wire up "help command" to work by providing the long & short help methods below.
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self.parser = optparse.OptionParser(
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description = self.description,
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prog = self.command_name,
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usage = self.usage,
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add_help_option = False)
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self.parser.add_option(
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'-s',
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'--support-files',
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action = 'store_true',
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dest = 'support_files',
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help = 'Dumps full paths to all files used in a compile unit.',
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default = False)
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def get_short_help(self):
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return self.short_description
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def get_long_help(self):
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return self.help_string
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def __init__(self, debugger, unused):
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self.create_options()
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self.help_string = self.parser.format_help()
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def __call__(self, debugger, command, exe_ctx, result):
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# Use the Shell Lexer to properly parse up command options just like a
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# shell would
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command_args = shlex.split(command)
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try:
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(options, args) = self.parser.parse_args(command_args)
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except:
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# if you don't handle exceptions, passing an incorrect argument to the OptionParser will cause LLDB to exit
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# (courtesy of OptParse dealing with argument errors by throwing SystemExit)
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result.SetError("option parsing failed")
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return
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# Always get program state from the SBExecutionContext passed in as exe_ctx
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target = exe_ctx.GetTarget()
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if not target.IsValid():
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result.SetError("invalid target")
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return
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if len(args) == 0:
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result.SetError("one or more executable paths must be specified")
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return
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for module_path in args:
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module = target.module[module_path]
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if not module:
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result.SetError('no module found that matches "%s".' % (module_path))
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return
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num_cus = module.GetNumCompileUnits()
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print >>result, 'Module: "%s"' % (module.file.fullpath),
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if num_cus == 0:
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print >>result, 'no debug info.'
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continue
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print >>result, 'has %u compile units:' % (num_cus)
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for i in range(num_cus):
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cu = module.GetCompileUnitAtIndex(i)
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print >>result, ' Compile Unit: %s' % (cu.file.fullpath)
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if options.support_files:
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num_support_files = cu.GetNumSupportFiles()
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for j in range(num_support_files):
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path = cu.GetSupportFileAtIndex(j).fullpath
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print >>result, ' file[%u]: %s' % (j, path)
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def __lldb_init_module(debugger, dict):
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# This initializer is being run from LLDB in the embedded command interpreter
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# Add any commands contained in this module to LLDB
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debugger.HandleCommand(
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'command script add -c %s.DumpLineTables %s' % (__name__,
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DumpLineTables.command_name))
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debugger.HandleCommand(
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'command script add -c %s.DumpFiles %s' % (__name__, DumpFiles.command_name))
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print 'The "%s" and "%s" commands have been installed.' % (DumpLineTables.command_name,
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DumpFiles.command_name)
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