gecko/toolkit/crashreporter/tools/symbolstore.py
Ted Mielczarek e747f876bd bug 661908 - create a virtualenv as part of configure. r=khuey
--HG--
extra : rebase_source : c0d8d3a37a03425cdb3c0713ceda3007bddb1496
2012-04-25 13:37:16 -04:00

765 lines
31 KiB
Python
Executable File

#!/bin/env python
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
#
# Usage: symbolstore.py <params> <dump_syms path> <symbol store path>
# <debug info files or dirs>
# Runs dump_syms on each debug info file specified on the command line,
# then places the resulting symbol file in the proper directory
# structure in the symbol store path. Accepts multiple files
# on the command line, so can be called as part of a pipe using
# find <dir> | xargs symbolstore.pl <dump_syms> <storepath>
# But really, you might just want to pass it <dir>.
#
# Parameters accepted:
# -c : Copy debug info files to the same directory structure
# as sym files
# -a "<archs>" : Run dump_syms -a <arch> for each space separated
# cpu architecture in <archs> (only on OS X)
# -s <srcdir> : Use <srcdir> as the top source directory to
# generate relative filenames.
import sys
import platform
import os
import re
import shutil
import textwrap
from subprocess import call, Popen, PIPE, STDOUT
from optparse import OptionParser
# Utility classes
class VCSFileInfo:
""" A base class for version-controlled file information. Ensures that the
following attributes are generated only once (successfully):
self.root
self.clean_root
self.revision
self.filename
The attributes are generated by a single call to the GetRoot,
GetRevision, and GetFilename methods. Those methods are explicitly not
implemented here and must be implemented in derived classes. """
def __init__(self, file):
if not file:
raise ValueError
self.file = file
def __getattr__(self, name):
""" __getattr__ is only called for attributes that are not set on self,
so setting self.[attr] will prevent future calls to the GetRoot,
GetRevision, and GetFilename methods. We don't set the values on
failure on the off chance that a future call might succeed. """
if name == "root":
root = self.GetRoot()
if root:
self.root = root
return root
elif name == "clean_root":
clean_root = self.GetCleanRoot()
if clean_root:
self.clean_root = clean_root
return clean_root
elif name == "revision":
revision = self.GetRevision()
if revision:
self.revision = revision
return revision
elif name == "filename":
filename = self.GetFilename()
if filename:
self.filename = filename
return filename
raise AttributeError
def GetRoot(self):
""" This method should return the unmodified root for the file or 'None'
on failure. """
raise NotImplementedError
def GetCleanRoot(self):
""" This method should return the repository root for the file or 'None'
on failure. """
raise NotImplementedErrors
def GetRevision(self):
""" This method should return the revision number for the file or 'None'
on failure. """
raise NotImplementedError
def GetFilename(self):
""" This method should return the repository-specific filename for the
file or 'None' on failure. """
raise NotImplementedError
class CVSFileInfo(VCSFileInfo):
""" A class to maintiain version information for files in a CVS repository.
Derived from VCSFileInfo. """
def __init__(self, file, srcdir):
VCSFileInfo.__init__(self, file)
self.srcdir = srcdir
def GetRoot(self):
(path, filename) = os.path.split(self.file)
root = os.path.join(path, "CVS", "Root")
if not os.path.isfile(root):
return None
f = open(root, "r")
root_name = f.readline().strip()
f.close()
if root_name:
return root_name
print >> sys.stderr, "Failed to get CVS Root for %s" % filename
return None
def GetCleanRoot(self):
parts = self.root.split('@')
if len(parts) > 1:
# we don't want the extra colon
return parts[1].replace(":","")
return self.root.replace(":","")
def GetRevision(self):
(path, filename) = os.path.split(self.file)
entries = os.path.join(path, "CVS", "Entries")
if not os.path.isfile(entries):
return None
f = open(entries, "r")
for line in f:
parts = line.split("/")
if len(parts) > 1 and parts[1] == filename:
return parts[2]
print >> sys.stderr, "Failed to get CVS Revision for %s" % filename
return None
def GetFilename(self):
file = self.file
if self.revision and self.clean_root:
if self.srcdir:
# strip the base path off
# but we actually want the last dir in srcdir
file = os.path.normpath(file)
# the lower() is to handle win32+vc8, where
# the source filenames come out all lowercase,
# but the srcdir can be mixed case
if file.lower().startswith(self.srcdir.lower()):
file = file[len(self.srcdir):]
(head, tail) = os.path.split(self.srcdir)
if tail == "":
tail = os.path.basename(head)
file = tail + file
return "cvs:%s:%s:%s" % (self.clean_root, file, self.revision)
return file
# This regex separates protocol and optional username/password from a url.
# For instance, all the following urls will be transformed into
# 'foo.com/bar':
#
# http://foo.com/bar
# svn+ssh://user@foo.com/bar
# svn+ssh://user:pass@foo.com/bar
#
# This is used by both SVN and HG
rootRegex = re.compile(r'^\S+?:/+(?:[^\s/]*@)?(\S+)$')
class SVNFileInfo(VCSFileInfo):
url = None
repo = None
svndata = {}
def __init__(self, file):
""" We only want to run subversion's info tool once so pull all the data
here. """
VCSFileInfo.__init__(self, file)
if os.path.isfile(file):
command = os.popen("svn info %s" % file, "r")
for line in command:
# The last line of the output is usually '\n'
if line.strip() == '':
continue
# Split into a key/value pair on the first colon
key, value = line.split(':', 1)
if key in ["Repository Root", "Revision", "URL"]:
self.svndata[key] = value.strip()
exitStatus = command.close()
if exitStatus:
print >> sys.stderr, "Failed to get SVN info for %s" % file
def GetRoot(self):
key = "Repository Root"
if key in self.svndata:
match = rootRegex.match(self.svndata[key])
if match:
return match.group(1)
print >> sys.stderr, "Failed to get SVN Root for %s" % self.file
return None
# File bug to get this teased out from the current GetRoot, this is temporary
def GetCleanRoot(self):
return self.root
def GetRevision(self):
key = "Revision"
if key in self.svndata:
return self.svndata[key]
print >> sys.stderr, "Failed to get SVN Revision for %s" % self.file
return None
def GetFilename(self):
if self.root and self.revision:
if "URL" in self.svndata and "Repository Root" in self.svndata:
url, repo = self.svndata["URL"], self.svndata["Repository Root"]
file = url[len(repo) + 1:]
return "svn:%s:%s:%s" % (self.root, file, self.revision)
print >> sys.stderr, "Failed to get SVN Filename for %s" % self.file
return self.file
def read_output(*args):
(stdout, _) = Popen(args=args, stdout=PIPE).communicate()
return stdout.rstrip()
class HGRepoInfo:
# HG info is per-repo, so cache it in a static
# member var
repos = {}
def __init__(self, path, rev, cleanroot):
self.path = path
self.rev = rev
self.cleanroot = cleanroot
class HGFileInfo(VCSFileInfo):
def __init__(self, file, srcdir):
VCSFileInfo.__init__(self, file)
# we should only have to collect this info once per-repo
if not srcdir in HGRepoInfo.repos:
rev = read_output('hg', '-R', srcdir,
'parent', '--template={node|short}')
path = read_output('hg', '-R', srcdir,
'showconfig', 'paths.default')
if path == '':
hg_root = os.environ.get("SRCSRV_ROOT")
if hg_root:
path = hg_root
else:
print >> sys.stderr, "Failed to get HG Repo for %s" % srcdir
cleanroot = None
if path != '': # not there?
match = rootRegex.match(path)
if match:
cleanroot = match.group(1)
if cleanroot.endswith('/'):
cleanroot = cleanroot[:-1]
if cleanroot is None:
print >> sys.stderr, textwrap.dedent("""\
Could not determine repo info for %s. This is either not a clone of the web-based
repository, or you have not specified SRCSRV_ROOT, or the clone is corrupt.""") % srcdir
sys.exit(1)
HGRepoInfo.repos[srcdir] = HGRepoInfo(path, rev, cleanroot)
self.repo = HGRepoInfo.repos[srcdir]
self.file = file
self.srcdir = srcdir
def GetRoot(self):
return self.repo.path
def GetCleanRoot(self):
return self.repo.cleanroot
def GetRevision(self):
return self.repo.rev
def GetFilename(self):
file = self.file
if self.revision and self.clean_root:
if self.srcdir:
# strip the base path off
file = os.path.normpath(file)
if IsInDir(file, self.srcdir):
file = file[len(self.srcdir):]
if file.startswith('/') or file.startswith('\\'):
file = file[1:]
return "hg:%s:%s:%s" % (self.clean_root, file, self.revision)
return file
# Utility functions
# A cache of files for which VCS info has already been determined. Used to
# prevent extra filesystem activity or process launching.
vcsFileInfoCache = {}
def IsInDir(file, dir):
# the lower() is to handle win32+vc8, where
# the source filenames come out all lowercase,
# but the srcdir can be mixed case
return os.path.abspath(file).lower().startswith(os.path.abspath(dir).lower())
def GetVCSFilename(file, srcdirs):
"""Given a full path to a file, and the top source directory,
look for version control information about this file, and return
a tuple containing
1) a specially formatted filename that contains the VCS type,
VCS location, relative filename, and revision number, formatted like:
vcs:vcs location:filename:revision
For example:
cvs:cvs.mozilla.org/cvsroot:mozilla/browser/app/nsBrowserApp.cpp:1.36
2) the unmodified root information if it exists"""
(path, filename) = os.path.split(file)
if path == '' or filename == '':
return (file, None)
fileInfo = None
root = ''
if file in vcsFileInfoCache:
# Already cached this info, use it.
fileInfo = vcsFileInfoCache[file]
else:
for srcdir in srcdirs:
if os.path.isdir(os.path.join(path, "CVS")):
fileInfo = CVSFileInfo(file, srcdir)
if fileInfo:
root = fileInfo.root
elif os.path.isdir(os.path.join(path, ".svn")) or \
os.path.isdir(os.path.join(path, "_svn")):
fileInfo = SVNFileInfo(file);
elif os.path.isdir(os.path.join(srcdir, '.hg')) and \
IsInDir(file, srcdir):
fileInfo = HGFileInfo(file, srcdir)
if fileInfo:
vcsFileInfoCache[file] = fileInfo
break
if fileInfo:
file = fileInfo.filename
root = fileInfo.root
# we want forward slashes on win32 paths
return (file.replace("\\", "/"), root)
def GetPlatformSpecificDumper(**kwargs):
"""This function simply returns a instance of a subclass of Dumper
that is appropriate for the current platform."""
# Python 2.5 has a bug where platform.system() returns 'Microsoft'.
# Remove this when we no longer support Python 2.5.
return {'Windows': Dumper_Win32,
'Microsoft': Dumper_Win32,
'Linux': Dumper_Linux,
'Sunos5': Dumper_Solaris,
'Darwin': Dumper_Mac}[platform.system()](**kwargs)
def SourceIndex(fileStream, outputPath, vcs_root):
"""Takes a list of files, writes info to a data block in a .stream file"""
# Creates a .pdb.stream file in the mozilla\objdir to be used for source indexing
# Create the srcsrv data block that indexes the pdb file
result = True
pdbStreamFile = open(outputPath, "w")
pdbStreamFile.write('''SRCSRV: ini ------------------------------------------------\r\nVERSION=2\r\nINDEXVERSION=2\r\nVERCTRL=http\r\nSRCSRV: variables ------------------------------------------\r\nHGSERVER=''')
pdbStreamFile.write(vcs_root)
pdbStreamFile.write('''\r\nSRCSRVVERCTRL=http\r\nHTTP_EXTRACT_TARGET=%hgserver%/raw-file/%var3%/%var2%\r\nSRCSRVTRG=%http_extract_target%\r\nSRCSRV: source files ---------------------------------------\r\n''')
pdbStreamFile.write(fileStream) # can't do string interpolation because the source server also uses this and so there are % in the above
pdbStreamFile.write("SRCSRV: end ------------------------------------------------\r\n\n")
pdbStreamFile.close()
return result
class Dumper:
"""This class can dump symbols from a file with debug info, and
store the output in a directory structure that is valid for use as
a Breakpad symbol server. Requires a path to a dump_syms binary--
|dump_syms| and a directory to store symbols in--|symbol_path|.
Optionally takes a list of processor architectures to process from
each debug file--|archs|, the full path to the top source
directory--|srcdir|, for generating relative source file names,
and an option to copy debug info files alongside the dumped
symbol files--|copy_debug|, mostly useful for creating a
Microsoft Symbol Server from the resulting output.
You don't want to use this directly if you intend to call
ProcessDir. Instead, call GetPlatformSpecificDumper to
get an instance of a subclass."""
def __init__(self, dump_syms, symbol_path,
archs=None, srcdirs=None, copy_debug=False, vcsinfo=False, srcsrv=False):
# popen likes absolute paths, at least on windows
self.dump_syms = os.path.abspath(dump_syms)
self.symbol_path = symbol_path
if archs is None:
# makes the loop logic simpler
self.archs = ['']
else:
self.archs = ['-a %s' % a for a in archs.split()]
if srcdirs is not None:
self.srcdirs = [os.path.normpath(a) for a in srcdirs]
else:
self.srcdirs = None
self.copy_debug = copy_debug
self.vcsinfo = vcsinfo
self.srcsrv = srcsrv
# subclasses override this
def ShouldProcess(self, file):
return False
# and can override this
def ShouldSkipDir(self, dir):
return False
def RunFileCommand(self, file):
"""Utility function, returns the output of file(1)"""
try:
# we use -L to read the targets of symlinks,
# and -b to print just the content, not the filename
return os.popen("file -Lb " + file).read()
except:
return ""
# This is a no-op except on Win32
def FixFilenameCase(self, file):
return file
# This is a no-op except on Win32
def SourceServerIndexing(self, debug_file, guid, sourceFileStream, vcs_root):
return ""
# subclasses override this if they want to support this
def CopyDebug(self, file, debug_file, guid):
pass
def Process(self, file_or_dir):
"Process a file or all the (valid) files in a directory."
if os.path.isdir(file_or_dir) and not self.ShouldSkipDir(file_or_dir):
return self.ProcessDir(file_or_dir)
elif os.path.isfile(file_or_dir):
return self.ProcessFile(file_or_dir)
# maybe it doesn't exist?
return False
def ProcessDir(self, dir):
"""Process all the valid files in this directory. Valid files
are determined by calling ShouldProcess."""
result = True
for root, dirs, files in os.walk(dir):
for d in dirs[:]:
if self.ShouldSkipDir(d):
dirs.remove(d)
for f in files:
fullpath = os.path.join(root, f)
if self.ShouldProcess(fullpath):
if not self.ProcessFile(fullpath):
result = False
return result
def ProcessFile(self, file):
"""Dump symbols from this file into a symbol file, stored
in the proper directory structure in |symbol_path|."""
print >> sys.stderr, "Processing file: %s" % file
result = False
sourceFileStream = ''
# tries to get the vcs root from the .mozconfig first - if it's not set
# the tinderbox vcs path will be assigned further down
vcs_root = os.environ.get("SRCSRV_ROOT")
for arch in self.archs:
try:
cmd = os.popen("%s %s %s" % (self.dump_syms, arch, file), "r")
module_line = cmd.next()
if module_line.startswith("MODULE"):
# MODULE os cpu guid debug_file
(guid, debug_file) = (module_line.split())[3:5]
# strip off .pdb extensions, and append .sym
sym_file = re.sub("\.pdb$", "", debug_file) + ".sym"
# we do want forward slashes here
rel_path = os.path.join(debug_file,
guid,
sym_file).replace("\\", "/")
full_path = os.path.normpath(os.path.join(self.symbol_path,
rel_path))
try:
os.makedirs(os.path.dirname(full_path))
except OSError: # already exists
pass
f = open(full_path, "w")
f.write(module_line)
# now process the rest of the output
for line in cmd:
if line.startswith("FILE"):
# FILE index filename
(x, index, filename) = line.split(None, 2)
if sys.platform == "sunos5":
for srcdir in self.srcdirs:
start = filename.find(self.srcdir)
if start != -1:
filename = filename[start:]
break
filename = self.FixFilenameCase(filename.rstrip())
sourcepath = filename
if self.vcsinfo:
(filename, rootname) = GetVCSFilename(filename, self.srcdirs)
# sets vcs_root in case the loop through files were to end on an empty rootname
if vcs_root is None:
if rootname:
vcs_root = rootname
# gather up files with hg for indexing
if filename.startswith("hg"):
(ver, checkout, source_file, revision) = filename.split(":", 3)
sourceFileStream += sourcepath + "*" + source_file + '*' + revision + "\r\n"
f.write("FILE %s %s\n" % (index, filename))
else:
# pass through all other lines unchanged
f.write(line)
# we want to return true only if at least one line is not a MODULE or FILE line
result = True
f.close()
cmd.close()
# we output relative paths so callers can get a list of what
# was generated
print rel_path
if self.srcsrv and vcs_root:
# add source server indexing to the pdb file
self.SourceServerIndexing(file, guid, sourceFileStream, vcs_root)
if self.copy_debug:
self.CopyDebug(file, debug_file, guid)
except StopIteration:
pass
except:
print >> sys.stderr, "Unexpected error: ", sys.exc_info()[0]
raise
return result
# Platform-specific subclasses. For the most part, these just have
# logic to determine what files to extract symbols from.
class Dumper_Win32(Dumper):
fixedFilenameCaseCache = {}
def ShouldProcess(self, file):
"""This function will allow processing of pdb files that have dll
or exe files with the same base name next to them."""
if file.endswith(".pdb"):
(path,ext) = os.path.splitext(file)
if os.path.isfile(path + ".exe") or os.path.isfile(path + ".dll"):
return True
return False
def FixFilenameCase(self, file):
"""Recent versions of Visual C++ put filenames into
PDB files as all lowercase. If the file exists
on the local filesystem, fix it."""
# Use a cached version if we have one.
if file in self.fixedFilenameCaseCache:
return self.fixedFilenameCaseCache[file]
result = file
(path, filename) = os.path.split(file)
if os.path.isdir(path):
lc_filename = filename.lower()
for f in os.listdir(path):
if f.lower() == lc_filename:
result = os.path.join(path, f)
break
# Cache the corrected version to avoid future filesystem hits.
self.fixedFilenameCaseCache[file] = result
return result
def CopyDebug(self, file, debug_file, guid):
rel_path = os.path.join(debug_file,
guid,
debug_file).replace("\\", "/")
full_path = os.path.normpath(os.path.join(self.symbol_path,
rel_path))
shutil.copyfile(file, full_path)
# try compressing it
compressed_file = os.path.splitext(full_path)[0] + ".pd_"
# ignore makecab's output
success = call(["makecab.exe", "/D", "CompressionType=LZX", "/D", "CompressionMemory=21",
full_path, compressed_file], stdout=open("NUL:","w"), stderr=STDOUT)
if success == 0 and os.path.exists(compressed_file):
os.unlink(full_path)
print os.path.splitext(rel_path)[0] + ".pd_"
else:
print rel_path
def SourceServerIndexing(self, debug_file, guid, sourceFileStream, vcs_root):
# Creates a .pdb.stream file in the mozilla\objdir to be used for source indexing
debug_file = os.path.abspath(debug_file)
streamFilename = debug_file + ".stream"
stream_output_path = os.path.abspath(streamFilename)
# Call SourceIndex to create the .stream file
result = SourceIndex(sourceFileStream, stream_output_path, vcs_root)
if self.copy_debug:
pdbstr_path = os.environ.get("PDBSTR_PATH")
pdbstr = os.path.normpath(pdbstr_path)
call([pdbstr, "-w", "-p:" + os.path.basename(debug_file),
"-i:" + os.path.basename(streamFilename), "-s:srcsrv"],
cwd=os.path.dirname(stream_output_path))
# clean up all the .stream files when done
os.remove(stream_output_path)
return result
class Dumper_Linux(Dumper):
objcopy = os.environ['OBJCOPY'] if 'OBJCOPY' in os.environ else 'objcopy'
def ShouldProcess(self, file):
"""This function will allow processing of files that are
executable, or end with the .so extension, and additionally
file(1) reports as being ELF files. It expects to find the file
command in PATH."""
if file.endswith(".so") or os.access(file, os.X_OK):
return self.RunFileCommand(file).startswith("ELF")
return False
def CopyDebug(self, file, debug_file, guid):
# We want to strip out the debug info, and add a
# .gnu_debuglink section to the object, so the debugger can
# actually load our debug info later.
file_dbg = file + ".dbg"
if call([self.objcopy, '--only-keep-debug', file, file_dbg]) == 0 and \
call([self.objcopy, '--add-gnu-debuglink=%s' % file_dbg, file]) == 0:
rel_path = os.path.join(debug_file,
guid,
debug_file + ".dbg")
full_path = os.path.normpath(os.path.join(self.symbol_path,
rel_path))
shutil.move(file_dbg, full_path)
# gzip the shipped debug files
os.system("gzip %s" % full_path)
print rel_path + ".gz"
else:
if os.path.isfile(file_dbg):
os.unlink(file_dbg)
class Dumper_Solaris(Dumper):
def RunFileCommand(self, file):
"""Utility function, returns the output of file(1)"""
try:
output = os.popen("file " + file).read()
return output.split('\t')[1];
except:
return ""
def ShouldProcess(self, file):
"""This function will allow processing of files that are
executable, or end with the .so extension, and additionally
file(1) reports as being ELF files. It expects to find the file
command in PATH."""
if file.endswith(".so") or os.access(file, os.X_OK):
return self.RunFileCommand(file).startswith("ELF")
return False
class Dumper_Mac(Dumper):
def ShouldProcess(self, file):
"""This function will allow processing of files that are
executable, or end with the .dylib extension, and additionally
file(1) reports as being Mach-O files. It expects to find the file
command in PATH."""
if file.endswith(".dylib") or os.access(file, os.X_OK):
return self.RunFileCommand(file).startswith("Mach-O")
return False
def ShouldSkipDir(self, dir):
"""We create .dSYM bundles on the fly, but if someone runs
buildsymbols twice, we should skip any bundles we created
previously, otherwise we'll recurse into them and try to
dump the inner bits again."""
if dir.endswith(".dSYM"):
return True
return False
def ProcessFile(self, file):
"""dump_syms on Mac needs to be run on a dSYM bundle produced
by dsymutil(1), so run dsymutil here and pass the bundle name
down to the superclass method instead."""
dsymbundle = file + ".dSYM"
if os.path.exists(dsymbundle):
shutil.rmtree(dsymbundle)
# dsymutil takes --arch=foo instead of -a foo like everything else
os.system("dsymutil %s %s >/dev/null" % (' '.join([a.replace('-a ', '--arch=') for a in self.archs]),
file))
if not os.path.exists(dsymbundle):
# dsymutil won't produce a .dSYM for files without symbols
return False
res = Dumper.ProcessFile(self, dsymbundle)
# CopyDebug will already have been run from Dumper.ProcessFile
shutil.rmtree(dsymbundle)
# fallback for DWARF-less binaries
if not res:
print >> sys.stderr, "Couldn't read DWARF symbols in: %s" % dsymbundle
res = Dumper.ProcessFile(self, file)
return res
def CopyDebug(self, file, debug_file, guid):
"""ProcessFile has already produced a dSYM bundle, so we should just
copy that to the destination directory. However, we'll package it
into a .tar.bz2 because the debug symbols are pretty huge, and
also because it's a bundle, so it's a directory. |file| here is the
dSYM bundle, and |debug_file| is the original filename."""
rel_path = os.path.join(debug_file,
guid,
os.path.basename(file) + ".tar.bz2")
full_path = os.path.abspath(os.path.join(self.symbol_path,
rel_path))
success = call(["tar", "cjf", full_path, os.path.basename(file)],
cwd=os.path.dirname(file),
stdout=open("/dev/null","w"), stderr=STDOUT)
if success == 0 and os.path.exists(full_path):
print rel_path
# Entry point if called as a standalone program
def main():
parser = OptionParser(usage="usage: %prog [options] <dump_syms binary> <symbol store path> <debug info files>")
parser.add_option("-c", "--copy",
action="store_true", dest="copy_debug", default=False,
help="Copy debug info files into the same directory structure as symbol files")
parser.add_option("-a", "--archs",
action="store", dest="archs",
help="Run dump_syms -a <arch> for each space separated cpu architecture in ARCHS (only on OS X)")
parser.add_option("-s", "--srcdir",
action="append", dest="srcdir", default=[],
help="Use SRCDIR to determine relative paths to source files")
parser.add_option("-v", "--vcs-info",
action="store_true", dest="vcsinfo",
help="Try to retrieve VCS info for each FILE listed in the output")
parser.add_option("-i", "--source-index",
action="store_true", dest="srcsrv", default=False,
help="Add source index information to debug files, making them suitable for use in a source server.")
(options, args) = parser.parse_args()
#check to see if the pdbstr.exe exists
if options.srcsrv:
pdbstr = os.environ.get("PDBSTR_PATH")
if not os.path.exists(pdbstr):
print >> sys.stderr, "Invalid path to pdbstr.exe - please set/check PDBSTR_PATH.\n"
sys.exit(1)
if len(args) < 3:
parser.error("not enough arguments")
exit(1)
dumper = GetPlatformSpecificDumper(dump_syms=args[0],
symbol_path=args[1],
copy_debug=options.copy_debug,
archs=options.archs,
srcdirs=options.srcdir,
vcsinfo=options.vcsinfo,
srcsrv=options.srcsrv)
for arg in args[2:]:
dumper.Process(arg)
# run main if run directly
if __name__ == "__main__":
main()