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Add a KUnit test suite for the Poly1305 functions. Most of its test cases are instantiated from hash-test-template.h, which is also used by the SHA-2 tests. A couple additional test cases are also included to test edge cases specific to Poly1305. Acked-by: Ard Biesheuvel <ardb@kernel.org> Link: https://lore.kernel.org/r/20250709200112.258500-5-ebiggers@kernel.org Signed-off-by: Eric Biggers <ebiggers@kernel.org>
148 lines
4.9 KiB
Python
Executable File
148 lines
4.9 KiB
Python
Executable File
#!/usr/bin/env python3
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# SPDX-License-Identifier: GPL-2.0-or-later
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#
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# Script that generates test vectors for the given cryptographic hash function.
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#
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# Copyright 2025 Google LLC
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import hashlib
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import hmac
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import sys
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DATA_LENS = [0, 1, 2, 3, 16, 32, 48, 49, 63, 64, 65, 127, 128, 129, 256, 511,
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513, 1000, 3333, 4096, 4128, 4160, 4224, 16384]
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# Generate the given number of random bytes, using the length itself as the seed
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# for a simple linear congruential generator (LCG). The C test code uses the
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# same LCG with the same seeding strategy to reconstruct the data, ensuring
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# reproducibility without explicitly storing the data in the test vectors.
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def rand_bytes(length):
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seed = length
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out = []
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for _ in range(length):
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seed = (seed * 25214903917 + 11) % 2**48
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out.append((seed >> 16) % 256)
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return bytes(out)
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POLY1305_KEY_SIZE = 32
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# A straightforward, unoptimized implementation of Poly1305.
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# Reference: https://cr.yp.to/mac/poly1305-20050329.pdf
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class Poly1305:
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def __init__(self, key):
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assert len(key) == POLY1305_KEY_SIZE
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self.h = 0
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rclamp = 0x0ffffffc0ffffffc0ffffffc0fffffff
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self.r = int.from_bytes(key[:16], byteorder='little') & rclamp
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self.s = int.from_bytes(key[16:], byteorder='little')
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# Note: this supports partial blocks only at the end.
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def update(self, data):
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for i in range(0, len(data), 16):
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chunk = data[i:i+16]
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c = int.from_bytes(chunk, byteorder='little') + 2**(8 * len(chunk))
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self.h = ((self.h + c) * self.r) % (2**130 - 5)
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return self
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# Note: gen_additional_poly1305_testvecs() relies on this being
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# nondestructive, i.e. not changing any field of self.
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def digest(self):
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m = (self.h + self.s) % 2**128
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return m.to_bytes(16, byteorder='little')
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def hash_init(alg):
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if alg == 'poly1305':
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# Use a fixed random key here, to present Poly1305 as an unkeyed hash.
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# This allows all the test cases for unkeyed hashes to work on Poly1305.
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return Poly1305(rand_bytes(POLY1305_KEY_SIZE))
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return hashlib.new(alg)
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def hash_update(ctx, data):
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ctx.update(data)
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def hash_final(ctx):
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return ctx.digest()
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def compute_hash(alg, data):
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ctx = hash_init(alg)
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hash_update(ctx, data)
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return hash_final(ctx)
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def print_bytes(prefix, value, bytes_per_line):
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for i in range(0, len(value), bytes_per_line):
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line = prefix + ''.join(f'0x{b:02x}, ' for b in value[i:i+bytes_per_line])
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print(f'{line.rstrip()}')
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def print_static_u8_array_definition(name, value):
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print('')
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print(f'static const u8 {name} = {{')
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print_bytes('\t', value, 8)
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print('};')
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def print_c_struct_u8_array_field(name, value):
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print(f'\t\t.{name} = {{')
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print_bytes('\t\t\t', value, 8)
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print('\t\t},')
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def gen_unkeyed_testvecs(alg):
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print('')
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print('static const struct {')
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print('\tsize_t data_len;')
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print(f'\tu8 digest[{alg.upper()}_DIGEST_SIZE];')
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print('} hash_testvecs[] = {')
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for data_len in DATA_LENS:
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data = rand_bytes(data_len)
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print('\t{')
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print(f'\t\t.data_len = {data_len},')
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print_c_struct_u8_array_field('digest', compute_hash(alg, data))
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print('\t},')
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print('};')
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data = rand_bytes(4096)
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ctx = hash_init(alg)
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for data_len in range(len(data) + 1):
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hash_update(ctx, compute_hash(alg, data[:data_len]))
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print_static_u8_array_definition(
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f'hash_testvec_consolidated[{alg.upper()}_DIGEST_SIZE]',
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hash_final(ctx))
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def gen_hmac_testvecs(alg):
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ctx = hmac.new(rand_bytes(32), digestmod=alg)
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data = rand_bytes(4096)
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for data_len in range(len(data) + 1):
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ctx.update(data[:data_len])
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key_len = data_len % 293
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key = rand_bytes(key_len)
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mac = hmac.digest(key, data[:data_len], alg)
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ctx.update(mac)
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print_static_u8_array_definition(
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f'hmac_testvec_consolidated[{alg.upper()}_DIGEST_SIZE]',
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ctx.digest())
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def gen_additional_poly1305_testvecs():
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key = b'\xff' * POLY1305_KEY_SIZE
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data = b''
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ctx = Poly1305(key)
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for _ in range(32):
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for j in range(0, 4097, 16):
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ctx.update(b'\xff' * j)
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data += ctx.digest()
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print_static_u8_array_definition(
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'poly1305_allones_macofmacs[POLY1305_DIGEST_SIZE]',
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Poly1305(key).update(data).digest())
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if len(sys.argv) != 2:
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sys.stderr.write('Usage: gen-hash-testvecs.py ALGORITHM\n')
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sys.stderr.write('ALGORITHM may be any supported by Python hashlib, or poly1305.\n')
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sys.stderr.write('Example: gen-hash-testvecs.py sha512\n')
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sys.exit(1)
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alg = sys.argv[1]
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print('/* SPDX-License-Identifier: GPL-2.0-or-later */')
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print(f'/* This file was generated by: {sys.argv[0]} {" ".join(sys.argv[1:])} */')
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gen_unkeyed_testvecs(alg)
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if alg == 'poly1305':
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gen_additional_poly1305_testvecs()
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else:
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gen_hmac_testvecs(alg)
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