2020-04-27 00:33:21 +02:00
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From 8228c484a1533ff904b276c342adcb6310abe272 Mon Sep 17 00:00:00 2001
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2016-03-30 17:39:19 +02:00
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From: Taahir Ahmed <ahmed.taahir@gmail.com>
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Date: Wed, 30 Mar 2016 11:23:54 -0300
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2018-10-02 22:02:23 +02:00
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Subject: [PATCH] crda: support python 3 in utils/key2pub.py
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2016-03-30 17:39:19 +02:00
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utils/key2pub.py can now be run under either python 2.7 or python 3.x.
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This required some minor syntactical changes as well as switching from
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2020-04-27 00:33:21 +02:00
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M2Crypto to pycryptodomex, since M2Crypto doesn't support python 3.x.
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2016-03-30 17:39:19 +02:00
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In addition, some errors in the generated source file keys-ssl.h are
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fixed:
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* The correct OpenSSL header for BN_ULONG is included.
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* The generated constants are given the 'ull' suffix to prevent
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warnings about constants that are too large.
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[Gustavo: don't call /utils/key2pub.py since that doesn't compute]
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2020-04-27 00:33:21 +02:00
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Use pycryptodomex insdead of pycrypto
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From [1]:
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"PyCryptodome is a fork of PyCrypto, which is not maintained any more
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(the last release dates back to 2013 [2]). It exposes almost the same
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API, but there are a few incompatibilities [3]."
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[1] https://github.com/OP-TEE/optee_os/commit/90ad2450436fdd9fc0d28a3f92f3fbcfd89a38f0
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[2] https://pypi.org/project/pycrypto/#history
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[3] https://pycryptodome.readthedocs.io/en/latest/src/vs_pycrypto.html
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2016-03-30 17:39:19 +02:00
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Signed-off-by: Gustavo Zacarias <gustavo@zacarias.com.ar>
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2018-10-02 22:02:23 +02:00
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[Rebased against crda-4.14]
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Signed-off-by: Peter Seiderer <ps.report@gmx.net>
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2020-04-27 00:33:21 +02:00
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[Romain: Use pycryptodomex]
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Signed-off-by: Romain Naour <romain.naour@gmail.com>
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2018-10-02 22:02:23 +02:00
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---
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2016-03-30 17:39:19 +02:00
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Makefile | 2 +-
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2018-10-02 22:02:23 +02:00
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utils/key2pub.py | 146 ++++++++++++++++++++++++-----------------------
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2016-03-30 17:39:19 +02:00
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2 files changed, 75 insertions(+), 73 deletions(-)
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diff --git a/Makefile b/Makefile
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2018-10-02 22:02:23 +02:00
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index a3ead30..8da38d0 100644
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2016-03-30 17:39:19 +02:00
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--- a/Makefile
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+++ b/Makefile
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@@ -112,7 +112,7 @@ $(REG_BIN):
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keys-%.c: utils/key2pub.py $(wildcard $(PUBKEY_DIR)/*.pem)
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$(NQ) ' GEN ' $@
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$(NQ) ' Trusted pubkeys:' $(wildcard $(PUBKEY_DIR)/*.pem)
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- $(Q)./utils/key2pub.py --$* $(wildcard $(PUBKEY_DIR)/*.pem) $@
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+ $(Q) python utils/key2pub.py --$* $(wildcard $(PUBKEY_DIR)/*.pem) $@
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$(LIBREG): regdb.h reglib.h reglib.c
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$(NQ) ' CC ' $@
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diff --git a/utils/key2pub.py b/utils/key2pub.py
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2020-04-27 00:33:21 +02:00
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index 9bb04cd..8a0ba2a 100755
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2016-03-30 17:39:19 +02:00
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--- a/utils/key2pub.py
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+++ b/utils/key2pub.py
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@@ -1,126 +1,128 @@
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#!/usr/bin/env python
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+import io
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import sys
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try:
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- from M2Crypto import RSA
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-except ImportError, e:
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- sys.stderr.write('ERROR: Failed to import the "M2Crypto" module: %s\n' % e.message)
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- sys.stderr.write('Please install the "M2Crypto" Python module.\n')
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- sys.stderr.write('On Debian GNU/Linux the package is called "python-m2crypto".\n')
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- sys.exit(1)
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+ from Cryptodome.PublicKey import RSA
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+except ImportError as e:
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+ sys.stderr.write('ERROR: Failed to import the "Cryptodome.PublicKey" module: %s\n' % e.message)
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+ sys.stderr.write('Please install the "Cryptodome.PublicKey" Python module.\n')
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+ sys.stderr.write('On Debian GNU/Linux the package is called "python-cryptodomex".\n')
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2016-03-30 17:39:19 +02:00
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+ sys.exit(1)
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+
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+def bitwise_collect(value, radix_bits):
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+ words = []
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+ radix_mask = (1 << radix_bits) - 1
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+ while value != 0:
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+ words.append(value & radix_mask)
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+ value >>= radix_bits
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+ return words
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def print_ssl_64(output, name, val):
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- while val[0] == '\0':
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- val = val[1:]
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- while len(val) % 8:
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- val = '\0' + val
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- vnew = []
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- while len(val):
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- vnew.append((val[0], val[1], val[2], val[3], val[4], val[5], val[6], val[7]))
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- val = val[8:]
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- vnew.reverse()
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- output.write('static BN_ULONG %s[%d] = {\n' % (name, len(vnew)))
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+ # OpenSSL expects 64-bit words given least-significant-word first.
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+ vwords = bitwise_collect(val, 64)
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+
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+ output.write(u'static BN_ULONG {}[] = {{\n'.format(name))
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idx = 0
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- for v1, v2, v3, v4, v5, v6, v7, v8 in vnew:
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+ for vword in vwords:
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if not idx:
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- output.write('\t')
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- output.write('0x%.2x%.2x%.2x%.2x%.2x%.2x%.2x%.2x, ' % (ord(v1), ord(v2), ord(v3), ord(v4), ord(v5), ord(v6), ord(v7), ord(v8)))
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+ output.write(u'\t')
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+ output.write(u'0x{:016x}ULL, '.format(vword))
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idx += 1
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if idx == 2:
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idx = 0
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- output.write('\n')
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+ output.write(u'\n')
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if idx:
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- output.write('\n')
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- output.write('};\n\n')
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+ output.write(u'\n')
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+ output.write(u'};\n\n')
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def print_ssl_32(output, name, val):
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- while val[0] == '\0':
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- val = val[1:]
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- while len(val) % 4:
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- val = '\0' + val
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- vnew = []
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- while len(val):
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- vnew.append((val[0], val[1], val[2], val[3], ))
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- val = val[4:]
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- vnew.reverse()
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- output.write('static BN_ULONG %s[%d] = {\n' % (name, len(vnew)))
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+ # OpenSSL expects 32-bit words given least-significant-word first.
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+ vwords = bitwise_collect(val, 32)
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+
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+ output.write(u'static BN_ULONG {}[] = {{\n'.format(name))
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idx = 0
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- for v1, v2, v3, v4 in vnew:
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+ for vword in vwords:
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if not idx:
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- output.write('\t')
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- output.write('0x%.2x%.2x%.2x%.2x, ' % (ord(v1), ord(v2), ord(v3), ord(v4)))
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+ output.write(u'\t')
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+ output.write(u'0x{:08x}, '.format(vword))
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idx += 1
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if idx == 4:
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idx = 0
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- output.write('\n')
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+ output.write(u'\n')
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if idx:
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- output.write('\n')
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- output.write('};\n\n')
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+ output.write(u'\n')
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+ output.write(u'};\n\n')
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def print_ssl(output, name, val):
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+
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+ output.write(u'#include <stdint.h>\n')
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+ output.write(u'#include <openssl/bn.h>\n')
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+
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import struct
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- output.write('#include <stdint.h>\n')
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if len(struct.pack('@L', 0)) == 8:
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return print_ssl_64(output, name, val)
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else:
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return print_ssl_32(output, name, val)
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def print_ssl_keys(output, n):
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- output.write(r'''
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+ output.write(u'''
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struct pubkey {
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struct bignum_st e, n;
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};
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-#define KEY(data) { \
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- .d = data, \
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- .top = sizeof(data)/sizeof(data[0]), \
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+#define KEY(data) { \\
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+ .d = data, \\
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+ .top = sizeof(data)/sizeof(data[0]), \\
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}
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-#define KEYS(e,n) { KEY(e), KEY(n), }
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+#define KEYS(e,n) { KEY(e), KEY(n), }
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static struct pubkey keys[] = {
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''')
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for n in xrange(n + 1):
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- output.write(' KEYS(e_%d, n_%d),\n' % (n, n))
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- output.write('};\n')
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+ output.write(u' KEYS(e_{0}, n_{0}),\n'.format(n))
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+ output.write(u'};\n')
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pass
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def print_gcrypt(output, name, val):
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- output.write('#include <stdint.h>\n')
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- while val[0] == '\0':
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- val = val[1:]
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- output.write('static const uint8_t %s[%d] = {\n' % (name, len(val)))
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+ # gcrypt expects 8-bit words most-significant-word first
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+ vwords = bitwise_collect(val, 8)
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+ vwords.reverse()
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+
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+ output.write(u'#include <stdint.h>\n')
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+ output.write(u'static const uint8_t %s[%d] = {\n' % (name, len(vwords)))
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idx = 0
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- for v in val:
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+ for vword in vwords:
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if not idx:
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- output.write('\t')
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- output.write('0x%.2x, ' % ord(v))
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+ output.write(u'\t')
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+ output.write(u'0x{:02x}, '.format(vword))
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idx += 1
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if idx == 8:
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idx = 0
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- output.write('\n')
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+ output.write(u'\n')
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if idx:
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- output.write('\n')
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- output.write('};\n\n')
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+ output.write(u'\n')
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+ output.write(u'};\n\n')
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def print_gcrypt_keys(output, n):
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- output.write(r'''
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+ output.write(u'''
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struct key_params {
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const uint8_t *e, *n;
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uint32_t len_e, len_n;
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};
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-#define KEYS(_e, _n) { \
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- .e = _e, .len_e = sizeof(_e), \
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- .n = _n, .len_n = sizeof(_n), \
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+#define KEYS(_e, _n) { \\
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+ .e = _e, .len_e = sizeof(_e), \\
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+ .n = _n, .len_n = sizeof(_n), \\
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}
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2018-10-02 22:02:23 +02:00
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static const struct key_params __attribute__ ((unused)) keys[] = {
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''')
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- for n in xrange(n + 1):
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- output.write(' KEYS(e_%d, n_%d),\n' % (n, n))
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- output.write('};\n')
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-
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+ for n in range(n + 1):
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+ output.write(u' KEYS(e_{0}, n_{0}),\n'.format(n))
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+ output.write(u'};\n')
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+
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modes = {
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'--ssl': (print_ssl, print_ssl_keys),
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@@ -135,21 +137,21 @@ except IndexError:
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mode = None
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if not mode in modes:
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- print 'Usage: %s [%s] input-file... output-file' % (sys.argv[0], '|'.join(modes.keys()))
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+ print('Usage: {} [{}] input-file... output-file'.format(sys.argv[0], '|'.join(modes.keys())))
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sys.exit(2)
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-output = open(outfile, 'w')
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+output = io.open(outfile, 'w')
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# load key
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idx = 0
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for f in files:
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- try:
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- key = RSA.load_pub_key(f)
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- except RSA.RSAError:
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- key = RSA.load_key(f)
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- modes[mode][0](output, 'e_%d' % idx, key.e[4:])
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- modes[mode][0](output, 'n_%d' % idx, key.n[4:])
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+ key_contents = io.open(f, 'rb').read()
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+ key = RSA.importKey(key_contents)
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+
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+ modes[mode][0](output, 'e_{}'.format(idx), key.e)
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+ modes[mode][0](output, 'n_{}'.format(idx), key.n)
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+
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idx += 1
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modes[mode][1](output, idx - 1)
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--
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2020-04-27 00:33:21 +02:00
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2.25.3
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2016-03-30 17:39:19 +02:00
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