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674a821fbb
Fixes 33192
219 lines
6.4 KiB
Python
Executable File
219 lines
6.4 KiB
Python
Executable File
#!/usr/bin/env python
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# coding=utf-8
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# Copyright 2011-2019, The Tor Project, Inc
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# original version by Arturo Filastò
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# See LICENSE for licensing information
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# This script parses Firefox and OpenSSL sources, and uses this information
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# to generate a ciphers.inc file.
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#
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# It takes two arguments: the location of a firefox source directory, and the
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# location of an openssl source directory.
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# Future imports for Python 2.7, mandatory in 3.0
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from __future__ import division
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from __future__ import print_function
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from __future__ import unicode_literals
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import os
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import re
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import sys
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if len(sys.argv) != 3:
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print("Syntax: get_mozilla_ciphers.py <firefox-source-dir> <openssl-source-dir>", file=sys.stderr)
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sys.exit(1)
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ff_root = sys.argv[1]
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ossl_root = sys.argv[2]
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def ff(s):
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return os.path.join(ff_root, s)
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def ossl(s):
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return os.path.join(ossl_root, s)
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#####
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# Read the cpp file to understand what Ciphers map to what name :
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# Make "ciphers" a map from name used in the javascript to a cipher macro name
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fileA = open(ff('security/manager/ssl/nsNSSComponent.cpp'),'r')
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# The input format is a file containing exactly one section of the form:
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# static CipherPref CipherPrefs[] = {
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# {"name", MACRO_NAME}, // comment
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# ...
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# {NULL, 0}
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# }
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inCipherSection = False
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cipherLines = []
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for line in fileA:
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if line.startswith('static const CipherPref sCipherPrefs[]'):
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# Get the starting boundary of the Cipher Preferences
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inCipherSection = True
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elif inCipherSection:
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line = line.strip()
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if line.startswith('{ nullptr, 0}'):
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# At the ending boundary of the Cipher Prefs
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break
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else:
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cipherLines.append(line)
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fileA.close()
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# Parse the lines and put them into a dict
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ciphers = {}
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cipher_pref = {}
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key_pending = None
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for line in cipherLines:
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m = re.search(r'^{\s*\"([^\"]+)\",\s*(\S+)\s*(?:,\s*(true|false))?\s*}', line)
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if m:
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assert not key_pending
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key,value,enabled = m.groups()
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if enabled == 'true':
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ciphers[key] = value
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cipher_pref[value] = key
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continue
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m = re.search(r'^{\s*\"([^\"]+)\",', line)
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if m:
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assert not key_pending
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key_pending = m.group(1)
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continue
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m = re.search(r'^\s*(\S+)(?:,\s*(true|false))+\s*}', line)
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if m:
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assert key_pending
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key = key_pending
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value,enabled = m.groups()
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key_pending = None
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if enabled == 'true':
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ciphers[key] = value
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cipher_pref[value] = key
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####
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# Now find the correct order for the ciphers
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fileC = open(ff('security/nss/lib/ssl/ssl3con.c'), 'r')
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firefox_ciphers = []
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inEnum=False
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for line in fileC:
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if not inEnum:
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if "ssl3CipherSuiteCfg cipherSuites[" in line:
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inEnum = True
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continue
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if line.startswith("};"):
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break
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m = re.match(r'^\s*\{\s*([A-Z_0-9]+),', line)
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if m:
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firefox_ciphers.append(m.group(1))
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fileC.close()
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#####
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# Read the JS file to understand what ciphers are enabled. The format is
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# pref("name", true/false);
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# Build a map enabled_ciphers from javascript name to "true" or "false",
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# and an (unordered!) list of the macro names for those ciphers that are
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# enabled.
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fileB = open(ff('netwerk/base/security-prefs.js'), 'r')
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enabled_ciphers = {}
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for line in fileB:
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m = re.match(r'pref\(\"([^\"]+)\"\s*,\s*(\S*)\s*\)', line)
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if not m:
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continue
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key, val = m.groups()
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if key.startswith("security.ssl3"):
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enabled_ciphers[key] = val
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fileB.close()
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used_ciphers = []
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for k, v in enabled_ciphers.items():
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if v == "true":
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used_ciphers.append(ciphers[k])
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#oSSLinclude = ('/usr/include/openssl/ssl3.h', '/usr/include/openssl/ssl.h',
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# '/usr/include/openssl/ssl2.h', '/usr/include/openssl/ssl23.h',
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# '/usr/include/openssl/tls1.h')
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oSSLinclude = ['ssl3.h', 'ssl.h'
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'ssl2.h', 'ssl23.h',
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'tls1.h']
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#####
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# This reads the hex code for the ciphers that are used by firefox.
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# sslProtoD is set to a map from macro name to macro value in sslproto.h;
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# cipher_codes is set to an (unordered!) list of these hex values.
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sslProto = open(ff('security/nss/lib/ssl/sslproto.h'), 'r')
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sslProtoD = {}
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for line in sslProto:
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m = re.match('#define\s+(\S+)\s+(\S+)', line)
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if m:
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key, value = m.groups()
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sslProtoD[key] = value
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sslProto.close()
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cipher_codes = []
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for x in used_ciphers:
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cipher_codes.append(sslProtoD[x].lower())
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####
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# Now read through all the openssl include files, and try to find the openssl
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# macro names for those files.
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openssl_macro_by_hex = {}
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all_openssl_macros = {}
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for fl in oSSLinclude:
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fname = ossl("include/openssl/"+fl)
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if not os.path.exists(fname):
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continue
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fp = open(fname, 'r')
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for line in fp.readlines():
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m = re.match('# *define\s+(\S+)\s+(\S+)', line)
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if m:
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value,key = m.groups()
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if key.startswith('0x') and "_CK_" in value:
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key = key.replace('0x0300','0x').lower()
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#print "%s %s" % (key, value)
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openssl_macro_by_hex[key] = value
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all_openssl_macros[value]=key
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fp.close()
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# Now generate the output.
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print("""\
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/* This is an include file used to define the list of ciphers clients should
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* advertise. Before including it, you should define the CIPHER and XCIPHER
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* macros.
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*
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* This file was automatically generated by get_mozilla_ciphers.py.
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*/""")
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# Go in order by the order in CipherPrefs
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for firefox_macro in firefox_ciphers:
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try:
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js_cipher_name = cipher_pref[firefox_macro]
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except KeyError:
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# This one has no javascript preference.
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continue
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# The cipher needs to be enabled in security-prefs.js
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if enabled_ciphers.get(js_cipher_name, 'false') != 'true':
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continue
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hexval = sslProtoD[firefox_macro].lower()
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try:
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openssl_macro = openssl_macro_by_hex[hexval.lower()]
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openssl_macro = openssl_macro.replace("_CK_", "_TXT_")
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if openssl_macro not in all_openssl_macros:
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raise KeyError()
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format = {'hex':hexval, 'macro':openssl_macro, 'note':""}
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except KeyError:
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# openssl doesn't have a macro for this.
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format = {'hex':hexval, 'macro':firefox_macro,
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'note':"/* No openssl macro found for "+hexval+" */\n"}
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res = """\
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%(note)s#ifdef %(macro)s
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CIPHER(%(hex)s, %(macro)s)
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#else
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XCIPHER(%(hex)s, %(macro)s)
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#endif""" % format
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print(res)
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