From 5f8de423f190bbb79a62f804151bc24824fa32d8 Mon Sep 17 00:00:00 2001
From: "Matt A. Tobin" <mattatobin@localhost.localdomain>
Date: Fri, 2 Feb 2018 04:16:08 -0500
Subject: Add m-esr52 at 52.6.0

---
 python/eme/gen-eme-voucher.py | 633 ++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 633 insertions(+)
 create mode 100644 python/eme/gen-eme-voucher.py

(limited to 'python/eme')

diff --git a/python/eme/gen-eme-voucher.py b/python/eme/gen-eme-voucher.py
new file mode 100644
index 000000000..299bc7146
--- /dev/null
+++ b/python/eme/gen-eme-voucher.py
@@ -0,0 +1,633 @@
+#!/usr/bin/env python2.7
+#
+# Copyright 2014 Adobe Systems Incorporated. All Rights Reserved.
+#
+# Adobe permits you to use, modify, and distribute this file in accordance
+# with the terms of the Mozilla Public License, v 2.0 accompanying it.  If
+# a copy of the MPL was not distributed with this file, You can obtain one
+# at http://mozilla.org/MPL/2.0/.
+#
+# Creates an Adobe Access signed voucher for x32/x64 windows executables
+#   Notes: This is currently python2.7 due to mozilla build system requirements
+
+from __future__ import print_function
+
+import argparse, bitstring, pprint, hashlib, os, subprocess, sys, tempfile, macholib, macholib.MachO
+from pyasn1.codec.der import encoder as der_encoder
+from pyasn1.type import univ, namedtype, namedval, constraint
+
+
+# Defined in WinNT.h from the Windows SDK
+IMAGE_SCN_MEM_EXECUTE = 0x20000000
+IMAGE_REL_BASED_HIGHLOW = 3
+IMAGE_REL_BASED_DIR64 = 10
+
+
+# CodeSectionDigest ::= SEQUENCE {
+#   offset				INTEGER --  section's file offset in the signed binary
+#   digestAlgorithm		OBJECT IDENTIFIER -- algorithm identifier for the hash value below. For now only supports SHA256.
+#   digestValue			OCTET STRING -- hash value of the TEXT segment.
+# }
+class CodeSectionDigest(univ.Sequence):
+	componentType = namedtype.NamedTypes(
+		namedtype.NamedType('offset', univ.Integer()),
+		namedtype.NamedType('digestAlgorithm', univ.ObjectIdentifier()),
+		namedtype.NamedType('digest', univ.OctetString()))
+
+
+# CodeSegmentDigest ::= SEQUENCE {
+#    offset				INTEGER -- TEXT segment's file offset in the signed binary
+#    codeSectionDigests			SET OF CodeSectionDigests
+# }
+
+class SetOfCodeSectionDigest(univ.SetOf):
+	componentType = CodeSectionDigest()
+
+
+class CodeSegmentDigest(univ.Sequence):
+	componentType = namedtype.NamedTypes(
+		namedtype.NamedType('offset', univ.Integer()),
+		namedtype.NamedType('codeSectionDigests', SetOfCodeSectionDigest()))
+
+
+# ArchitectureDigest ::= SEQUENCE {
+# 	cpuType                ENUMERATED CpuType
+# 	cpuSubType				ENUMERATED CpuSubType
+# 	CodeSegmentDigests		SET OF CodeSegmentDigests
+# }
+class SetOfCodeSegmentDigest(univ.SetOf):
+	componentType = CodeSegmentDigest()
+
+
+class CPUType(univ.Enumerated):
+	namedValues = namedval.NamedValues(
+		('IMAGE_FILE_MACHINE_I386', 0x14c),
+		('IMAGE_FILE_MACHINE_AMD64',0x8664 ),
+		('MACHO_CPU_TYPE_I386',0x7 ),
+		('MACHO_CPU_TYPE_X86_64',0x1000007 ),
+	)
+	subtypeSpec = univ.Enumerated.subtypeSpec + \
+				  constraint.SingleValueConstraint(0x14c, 0x8664, 0x7, 0x1000007)
+
+
+class CPUSubType(univ.Enumerated):
+	namedValues = namedval.NamedValues(
+		('IMAGE_UNUSED', 0x0),
+		('CPU_SUBTYPE_X86_ALL', 0x3),
+		('CPU_SUBTYPE_X86_64_ALL', 0x80000003)
+	)
+	subtypeSpec = univ.Enumerated.subtypeSpec + \
+				  constraint.SingleValueConstraint(0, 0x3, 0x80000003)
+
+
+class ArchitectureDigest(univ.Sequence):
+	componentType = namedtype.NamedTypes(
+		namedtype.NamedType('cpuType', CPUType()),
+		namedtype.NamedType('cpuSubType', CPUSubType()),
+		namedtype.NamedType('CodeSegmentDigests', SetOfCodeSegmentDigest())
+	)
+
+
+# ApplicationDigest ::= SEQUENCE {
+#   version    INTEGER
+#   digests    SET OF ArchitectureDigest
+# }
+class SetOfArchitectureDigest(univ.SetOf):
+	componentType = ArchitectureDigest()
+
+
+class ApplicationDigest(univ.Sequence):
+	componentType = namedtype.NamedTypes(
+		namedtype.NamedType('version', univ.Integer()),
+		namedtype.NamedType('digests', SetOfArchitectureDigest())
+	)
+
+
+def meets_requirements(items, requirements):
+	for r in requirements:
+		for n, v in r.items():
+			if n not in items or items[n] != v: return False
+	return True
+
+
+# return total number of bytes read from items_in excluding leaves
+# TODO: research replacing this with the python built-in struct module
+def parse_items(stream, items_in, items_out):
+	bits_read = 0
+	total_bits_read = 0
+
+	for item in items_in:
+		name = item[0]
+		t = item[1]
+		bits = 1 if ":" not in t else int(t[t.index(":") + 1:])
+
+		if ":" in t and t.find("bytes") >= 0:
+			bits = bits * 8
+
+		if len(item) == 2:
+			items_out[name] = stream.read(t)
+			bits_read += bits
+			total_bits_read += bits
+		elif len(item) == 3 or len(item) == 4:
+			requirements = list(filter(lambda x: isinstance(x, dict), item[2]))
+			sub_items = list(filter(lambda x: isinstance(x, tuple), item[2]))
+
+			if not meets_requirements(items_out, requirements): continue
+
+			# has sub-items based on length
+			items_out[name] = stream.read(t)
+			bits_read += bits
+			total_bits_read += bits
+
+			if len(item) == 4:
+				bit_length = items_out[name] * 8
+
+				if bit_length > 0:
+					sub_read, sub_total_read = parse_items(stream, sub_items, items_out)
+					bit_length -= sub_read
+					total_bits_read += sub_total_read
+
+					if bit_length > 0:
+						items_out[item[3]] = stream.read('bits:' + str(bit_length))
+						bits_read += bit_length
+						total_bits_read += bit_length
+		else:
+			raise Exception("unrecognized item" + pprint.pformat(item))
+
+	return bits_read, total_bits_read
+
+
+# macho stuff
+# Constant for the magic field of the mach_header (32-bit architectures)
+MH_MAGIC =0xfeedface	# the mach magic number
+MH_CIGAM =0xcefaedfe	# NXSwapInt(MH_MAGIC)
+
+MH_MAGIC_64 =0xfeedfacf	# the the 64-bit mach magic number
+MH_CIGAM_64 =0xcffaedfe	# NXSwapInt(MH_MAGIC_64)
+
+FAT_CIGAM = 0xbebafeca
+FAT_MAGIC =	0xcafebabe
+
+LC_SEGMENT = 0x1
+LC_SEGMENT_64	= 0x19	# 64-bit segment of this file to be
+
+
+
+# TODO: perhaps switch to pefile module when it officially supports python3
+class SectionHeader:
+	def __init__(self, stream):
+		items = [
+			('Name', 'bytes:8'),
+			('VirtualSize', 'uintle:32'),
+			('VirtualAddress', 'uintle:32'),
+			('SizeOfRawData', 'uintle:32'),
+			('PointerToRawData', 'uintle:32'),
+			('PointerToRelocations', 'uintle:32'),
+			('PointerToLineNumber', 'uintle:32'),
+			('NumberOfRelocations', 'uintle:16'),
+			('NumberOfLineNumbers', 'uintle:16'),
+			('Characteristics', 'uintle:32')
+		]
+		self.items = dict()
+		self.relocs = dict()
+
+		_, self.bits_read = parse_items(stream, items, self.items)
+
+		self.sectionName = self.items['Name'].decode('utf-8')
+		self.offset = self.items['PointerToRawData']
+
+COFF_DATA_DIRECTORY_TYPES = [
+	"Export Table",
+	"Import Table",
+	"Resource Table",
+	"Exception Table",
+	"Certificate Tble",
+	"Base Relocation Table",
+	"Debug",
+	"Architecture",
+	"Global Ptr",
+	"TLS Table",
+	"Load Config Table",
+	"Bound Import",
+	"IAT",
+	"Delay Import Descriptor",
+	"CLR Runtime Header",
+	"Reserved",
+]
+
+
+def chained_safe_get(obj, names, default=None):
+	if obj is None: return default
+
+	for n in names:
+		if n in obj:
+			obj = obj[n]
+		else:
+			return default
+
+	return obj
+
+
+class OptionalHeader:
+	def __init__(self, stream, size):
+		self.items = {}
+		items = []
+
+		if size:
+			items += [
+				('Magic', 'uintle:16'),
+				('MajorLinkerVersion', 'uintle:8'),
+				('MinorLinkerVersion', 'uintle:8'),
+				('SizeOfCode', 'uintle:32'),
+				('SizeOfInitializedData', 'uintle:32'),
+				('SizeOfUninitializedData', 'uintle:32'),
+				('AddressOfEntryPoint', 'uintle:32'),
+				('BaseOfCode', 'uintle:32'),
+			]
+
+			_, self.bits_read = parse_items(stream, items, self.items)
+
+			items = []
+			if self.items['Magic'] == 0x10b:  # PE32
+				items += [('BaseOfData', 'uintle:32')]
+
+			address_size = 'uintle:64' if self.items['Magic'] == 0x20b else 'uintle:32'
+
+			items += [
+				('ImageBase', address_size),
+				('SectionAlignment', 'uintle:32'),
+				('FileAlignment', 'uintle:32'),
+				('MajorOperatingSystemVersion', 'uintle:16'),
+				('MinorOperatingSystemVersion', 'uintle:16'),
+				('MajorImageVersion', 'uintle:16'),
+				('MinorImageVersion', 'uintle:16'),
+				('MajorSubsystemVersion', 'uintle:16'),
+				('MinorSubsystemVersion', 'uintle:16'),
+				('Win32VersionValue', 'uintle:32'),
+				('SizeOfImage', 'uintle:32'),
+				('SizeOfHeaders', 'uintle:32'),
+				('CheckSum', 'uintle:32'),
+				('Subsystem', 'uintle:16'),
+				('DllCharacteristics', 'uintle:16'),
+				('SizeOfStackReserve', address_size),
+				('SizeOfStackCommit', address_size),
+				('SizeOfHeapReserve', address_size),
+				('SizeOfHeapCommit', address_size),
+				('LoaderFlags', 'uintle:32'),
+				('NumberOfRvaAndSizes', 'uintle:32'),
+			]
+
+		if size > 28:
+			_, bits_read = parse_items(stream, items, self.items)
+			self.bits_read += bits_read
+
+		if 'NumberOfRvaAndSizes' in self.items:
+			index = 0
+			self.items['Data Directories'] = dict()
+			while self.bits_read / 8 < size:
+				d = self.items['Data Directories'][COFF_DATA_DIRECTORY_TYPES[index]] = dict()
+
+				_, bits_read = parse_items(stream, [('VirtualAddress', 'uintle:32'), ('Size', 'uintle:32')], d)
+				self.bits_read += bits_read
+				index += 1
+
+
+class COFFFileHeader:
+	def __init__(self, stream):
+		self.items = {}
+		self.section_headers = []
+
+		items = [
+			('Machine', 'uintle:16'),
+			('NumberOfSections', 'uintle:16'),
+			('TimeDateStamp', 'uintle:32'),
+			('PointerToSymbolTable', 'uintle:32'),
+			('NumberOfSymbols', 'uintle:32'),
+			('SizeOfOptionalHeader', 'uintle:16'),
+			('Characteristics', 'uintle:16')
+		]
+		_, self.bits_read = parse_items(stream, items, self.items)
+
+		self.OptionalHeader = OptionalHeader(stream, self.items['SizeOfOptionalHeader'])
+		self.bits_read += self.OptionalHeader.bits_read
+
+		# start reading section headers
+		num_sections = self.items['NumberOfSections']
+
+		while num_sections > 0 :
+			section_header = SectionHeader(stream)
+			self.bits_read += section_header.bits_read
+			self.section_headers.append(section_header)
+			num_sections -= 1
+
+		self.section_headers.sort(key=lambda header: header.offset)
+
+		# Read Relocations
+		self.process_relocs(stream)
+
+	def process_relocs(self, stream):
+		reloc_table = chained_safe_get(self.OptionalHeader.items, ['Data Directories', 'Base Relocation Table'])
+		if reloc_table is None: return
+
+		orig_pos = stream.bitpos
+		_, stream.bytepos = self.get_rva_section(reloc_table['VirtualAddress'])
+		end_pos = stream.bitpos + reloc_table['Size'] * 8
+
+		while stream.bitpos < end_pos:
+			page_rva = stream.read('uintle:32')
+			block_size = stream.read('uintle:32')
+
+			for i in range(0, int((block_size - 8) / 2)):
+				data = stream.read('uintle:16')
+				typ = data >> 12
+				offset = data & 0xFFF
+
+				if offset == 0 and i > 0: continue
+
+				assert(typ == IMAGE_REL_BASED_HIGHLOW or typ == IMAGE_REL_BASED_DIR64)
+
+				cur_pos = stream.bitpos
+				sh, value_bytepos = self.get_rva_section(page_rva + offset)
+				stream.bytepos = value_bytepos
+				value = stream.read('uintle:32' if typ == IMAGE_REL_BASED_HIGHLOW else 'uintle:64')
+
+				# remove BaseAddress
+				value -= self.OptionalHeader.items['ImageBase']
+
+				bit_size = (4 if typ == IMAGE_REL_BASED_HIGHLOW else 8) * 8
+				stream.overwrite(bitstring.BitArray(uint=value, length=bit_size), pos=value_bytepos * 8)
+				stream.pos = cur_pos
+
+		stream.bitpos = orig_pos
+
+	def get_rva_section(self, rva):
+		for sh in self.section_headers:
+			if rva < sh.items['VirtualAddress'] or rva >= sh.items['VirtualAddress'] + sh.items['VirtualSize']:
+				continue
+
+			file_pointer = rva - sh.items['VirtualAddress'] + sh.items['PointerToRawData']
+			return sh, file_pointer
+
+		raise Exception('Could not match RVA to section')
+
+
+def create_temp_file(suffix=""):
+	fd, path = tempfile.mkstemp(suffix=suffix)
+	os.close(fd)
+	return path
+
+
+class ExpandPath(argparse.Action):
+	def __call__(self, parser, namespace, values, option_string=None):
+		setattr(namespace, self.dest, os.path.abspath(os.path.expanduser(values)))
+
+
+# this does a naming trick since windows doesn't allow multiple usernames for the same server
+def get_password(service_name, user_name):
+	try:
+		import keyring
+
+		# windows doesn't allow multiple usernames for the same server, argh
+		if sys.platform == "win32":
+			password = keyring.get_password(service_name + "-" + user_name, user_name)
+		else:
+			password = keyring.get_password(service_name, user_name)
+
+		return password
+	except:
+	    # This allows for manual testing where you do not wish to cache the password on the system
+		print("Missing keyring module...getting password manually")
+
+	return None
+
+
+def openssl_cmd(app_args, args, password_in, password_out):
+	password = get_password(app_args.password_service, app_args.password_user) if (password_in or password_out) else None
+	env = None
+	args = [app_args.openssl_path] + args
+
+	if password is not None:
+		env = os.environ.copy()
+		env["COFF_PW"] = password
+
+		if password_in: args += ["-passin", "env:COFF_PW"]
+		if password_out: args += ["-passout", "env:COFF_PW", "-password", "env:COFF_PW"]
+
+	subprocess.check_call(args, env=env)
+
+
+def processMachoBinary(filename):
+
+	outDict = dict()
+	outDict['result'] = False
+
+	setOfArchDigests = SetOfArchitectureDigest()
+	archDigestIdx = 0
+
+	parsedMacho = macholib.MachO.MachO(filename)
+
+	for header in parsedMacho.headers :
+		arch_digest = ArchitectureDigest()
+		lc_segment = LC_SEGMENT
+
+		arch_digest.setComponentByName('cpuType', CPUType(header.header.cputype))
+		arch_digest.setComponentByName('cpuSubType', CPUSubType(header.header.cpusubtype))
+
+		if header.header.cputype == 0x1000007:
+			lc_segment = LC_SEGMENT_64
+
+
+
+		segment_commands = list(filter(lambda x: x[0].cmd == lc_segment, header.commands))
+		text_segment_commands = list(filter(lambda x: x[1].segname.decode("utf-8").startswith("__TEXT"), segment_commands))
+
+
+		code_segment_digests = SetOfCodeSegmentDigest()
+		code_segment_idx = 0
+
+		for text_command in text_segment_commands:
+
+			codeSegmentDigest = CodeSegmentDigest()
+			codeSegmentDigest.setComponentByName('offset', text_command[1].fileoff)
+
+			sectionDigestIdx = 0
+			set_of_digest = SetOfCodeSectionDigest()
+			for section in text_command[2]:
+				digester = hashlib.sha256()
+				digester.update(section.section_data)
+				digest = digester.digest()
+
+				code_section_digest = CodeSectionDigest()
+				code_section_digest.setComponentByName('offset', section.offset)
+				code_section_digest.setComponentByName('digestAlgorithm', univ.ObjectIdentifier('2.16.840.1.101.3.4.2.1'))
+				code_section_digest.setComponentByName('digest', univ.OctetString(digest))
+
+				set_of_digest.setComponentByPosition(sectionDigestIdx, code_section_digest)
+				sectionDigestIdx += 1
+
+
+			codeSegmentDigest.setComponentByName('codeSectionDigests', set_of_digest)
+
+			code_segment_digests.setComponentByPosition(code_segment_idx, codeSegmentDigest)
+
+			code_segment_idx += 1
+
+		arch_digest.setComponentByName('CodeSegmentDigests', code_segment_digests)
+		setOfArchDigests.setComponentByPosition(archDigestIdx, arch_digest)
+		archDigestIdx += 1
+
+		outDict['result'] = True
+
+	if outDict['result']:
+		appDigest = ApplicationDigest()
+		appDigest.setComponentByName('version', 1)
+		appDigest.setComponentByName('digests', setOfArchDigests)
+		outDict['digest'] = appDigest
+
+
+	return outDict
+
+
+
+def processCOFFBinary(stream):
+
+	outDict = dict()
+	outDict['result'] = False
+
+	# find the COFF header.
+	# skip forward past the MSDOS stub header to 0x3c.
+	stream.bytepos = 0x3c
+
+	# read 4 bytes, this is the file offset of the PE signature.
+	pe_sig_offset = stream.read('uintle:32')
+	stream.bytepos = pe_sig_offset
+
+	# read 4 bytes, make sure it's a PE signature.
+	signature = stream.read('uintle:32')
+	if signature != 0x00004550:
+		return outDict
+
+	# after signature is the actual COFF file header.
+	coff_header = COFFFileHeader(stream)
+
+	arch_digest = ArchitectureDigest()
+	if coff_header.items['Machine'] == 0x14c:
+		arch_digest.setComponentByName('cpuType', CPUType('IMAGE_FILE_MACHINE_I386'))
+	elif coff_header.items['Machine'] == 0x8664:
+		arch_digest.setComponentByName('cpuType', CPUType('IMAGE_FILE_MACHINE_AMD64'))
+
+	arch_digest.setComponentByName('cpuSubType', CPUSubType('IMAGE_UNUSED'))
+
+	text_section_headers = list(filter(lambda x: (x.items['Characteristics'] & IMAGE_SCN_MEM_EXECUTE) == IMAGE_SCN_MEM_EXECUTE, coff_header.section_headers))
+
+	code_segment_digests = SetOfCodeSegmentDigest()
+	code_segment_idx = 0
+	for code_sect_header in text_section_headers:
+		stream.bytepos = code_sect_header.offset
+		code_sect_bytes = stream.read('bytes:' + str(code_sect_header.items['VirtualSize']))
+
+		digester = hashlib.sha256()
+		digester.update(code_sect_bytes)
+		digest = digester.digest()
+
+		# with open('segment_' + str(code_sect_header.offset) + ".bin", 'wb') as f:
+		#   f.write(code_sect_bytes)
+
+		code_section_digest = CodeSectionDigest()
+		code_section_digest.setComponentByName('offset', code_sect_header.offset)
+		code_section_digest.setComponentByName('digestAlgorithm', univ.ObjectIdentifier('2.16.840.1.101.3.4.2.1'))
+		code_section_digest.setComponentByName('digest', univ.OctetString(digest))
+
+		set_of_digest = SetOfCodeSectionDigest()
+		set_of_digest.setComponentByPosition(0, code_section_digest)
+
+		codeSegmentDigest = CodeSegmentDigest()
+		codeSegmentDigest.setComponentByName('offset', code_sect_header.offset)
+		codeSegmentDigest.setComponentByName('codeSectionDigests', set_of_digest)
+
+		code_segment_digests.setComponentByPosition(code_segment_idx, codeSegmentDigest)
+		code_segment_idx += 1
+
+	arch_digest.setComponentByName('CodeSegmentDigests', code_segment_digests)
+
+	setOfArchDigests = SetOfArchitectureDigest()
+	setOfArchDigests.setComponentByPosition(0, arch_digest)
+
+	appDigest = ApplicationDigest()
+
+	appDigest.setComponentByName('version', 1)
+	appDigest.setComponentByName('digests', setOfArchDigests)
+
+	outDict['result'] = True
+	outDict['digest'] = appDigest
+
+	return outDict
+
+def main():
+	parser = argparse.ArgumentParser(description='PE/COFF Signer')
+	parser.add_argument('-input', action=ExpandPath, required=True, help="File to parse.")
+	parser.add_argument('-output', action=ExpandPath, required=True, help="File to write to.")
+	parser.add_argument('-openssl_path', action=ExpandPath, help="Path to OpenSSL to create signed voucher")
+	parser.add_argument('-signer_pfx', action=ExpandPath, help="Path to certificate to use to sign voucher.  Must contain full certificate chain.")
+	parser.add_argument('-password_service', help="Name of Keyring/Wallet service/host")
+	parser.add_argument('-password_user', help="Name of Keyring/Wallet user name")
+	parser.add_argument('-verbose', action='store_true', help="Verbose output.")
+	app_args = parser.parse_args()
+
+	# to simplify relocation handling we use a mutable BitStream so we can remove
+	# the BaseAddress from each relocation
+	stream = bitstring.BitStream(filename=app_args.input)
+
+
+	dict = processCOFFBinary(stream)
+
+	if dict['result'] == False:
+		dict = processMachoBinary(app_args.input)
+
+
+
+	if dict['result'] == False:
+		raise Exception("Invalid File")
+
+	binaryDigest = der_encoder.encode(dict['digest'])
+
+	with open(app_args.output, 'wb') as f:
+		f.write(binaryDigest)
+
+	# sign with openssl if specified
+	if app_args.openssl_path is not None:
+		assert app_args.signer_pfx is not None
+
+		out_base, out_ext = os.path.splitext(app_args.output)
+		signed_path = out_base + ".signed" + out_ext
+
+		# http://stackoverflow.com/questions/12507277/how-to-fix-unable-to-write-random-state-in-openssl
+		temp_files = []
+		if sys.platform == "win32" and "RANDFILE" not in os.environ:
+			temp_file = create_temp_file()
+			temp_files += [temp_file]
+			os.environ["RANDFILE"] = temp_file
+
+		try:
+			# create PEM from PFX
+			pfx_pem_path = create_temp_file(".pem")
+			temp_files += [pfx_pem_path]
+			print("Extracting PEM from PFX to:" + pfx_pem_path)
+			openssl_cmd(app_args, ["pkcs12", "-in", app_args.signer_pfx, "-out", pfx_pem_path], True, True)
+
+			# extract CA certs
+			pfx_cert_path = create_temp_file(".cert")
+			temp_files += [pfx_cert_path]
+			print("Extracting cert from PFX to:" + pfx_cert_path)
+			openssl_cmd(app_args, ["pkcs12", "-in", app_args.signer_pfx, "-cacerts", "-nokeys", "-out", pfx_cert_path], True, False)
+
+			# we embed the public keychain for client validation
+			openssl_cmd(app_args, ["cms", "-sign", "-nodetach", "-md", "sha256", "-binary", "-in", app_args.output, "-outform", "der", "-out", signed_path, "-signer", pfx_pem_path, "-certfile", pfx_cert_path], True, False)
+		finally:
+			for t in temp_files:
+				if "RANDFILE" in os.environ and t == os.environ["RANDFILE"]:
+					del os.environ["RANDFILE"]
+				os.unlink(t)
+
+if __name__ == '__main__':
+	main()
-- 
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