mirror of
https://github.com/klzgrad/naiveproxy.git
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98 lines
3.0 KiB
Python
98 lines
3.0 KiB
Python
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# Copyright 2016 The Chromium Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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import os
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import struct
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import sys
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def Main(args):
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if len(args) < 4:
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print >> sys.stderr, "Usage: %s output.hmap Foo.framework header1.h..." %\
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(args[0])
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return 1
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(out, framework, all_headers) = args[1], args[2], args[3:]
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framework_name = os.path.basename(framework).split('.')[0]
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all_headers = map(os.path.abspath, all_headers)
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filelist = {}
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for header in all_headers:
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filename = os.path.basename(header)
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filelist[filename] = header
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filelist[os.path.join(framework_name, filename)] = header
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WriteHmap(out, filelist)
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return 0
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def NextGreaterPowerOf2(x):
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return 2**(x).bit_length()
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def WriteHmap(output_name, filelist):
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"""Generates a header map based on |filelist|.
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Per Mark Mentovai:
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A header map is structured essentially as a hash table, keyed by names used
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in #includes, and providing pathnames to the actual files.
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The implementation below and the comment above comes from inspecting:
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http://www.opensource.apple.com/source/distcc/distcc-2503/distcc_dist/include_server/headermap.py?txt
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while also looking at the implementation in clang in:
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https://llvm.org/svn/llvm-project/cfe/trunk/lib/Lex/HeaderMap.cpp
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"""
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magic = 1751998832
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version = 1
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_reserved = 0
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count = len(filelist)
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capacity = NextGreaterPowerOf2(count)
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strings_offset = 24 + (12 * capacity)
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max_value_length = len(max(filelist.items(), key=lambda (k,v):len(v))[1])
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out = open(output_name, 'wb')
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out.write(struct.pack('<LHHLLLL', magic, version, _reserved, strings_offset,
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count, capacity, max_value_length))
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# Create empty hashmap buckets.
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buckets = [None] * capacity
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for file, path in filelist.items():
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key = 0
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for c in file:
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key += ord(c.lower()) * 13
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# Fill next empty bucket.
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while buckets[key & capacity - 1] is not None:
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key = key + 1
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buckets[key & capacity - 1] = (file, path)
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next_offset = 1
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for bucket in buckets:
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if bucket is None:
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out.write(struct.pack('<LLL', 0, 0, 0))
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else:
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(file, path) = bucket
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key_offset = next_offset
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prefix_offset = key_offset + len(file) + 1
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suffix_offset = prefix_offset + len(os.path.dirname(path) + os.sep) + 1
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next_offset = suffix_offset + len(os.path.basename(path)) + 1
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out.write(struct.pack('<LLL', key_offset, prefix_offset, suffix_offset))
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# Pad byte since next offset starts at 1.
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out.write(struct.pack('<x'))
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for bucket in buckets:
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if bucket is not None:
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(file, path) = bucket
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out.write(struct.pack('<%ds' % len(file), file))
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out.write(struct.pack('<s', '\0'))
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base = os.path.dirname(path) + os.sep
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out.write(struct.pack('<%ds' % len(base), base))
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out.write(struct.pack('<s', '\0'))
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path = os.path.basename(path)
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out.write(struct.pack('<%ds' % len(path), path))
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out.write(struct.pack('<s', '\0'))
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if __name__ == '__main__':
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sys.exit(Main(sys.argv))
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