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ipxe/src/crypto/md4.c
Michael Brown 4b7d9a6af0 [libc] Replace linker_assert() with build_assert() 
We currently implement build-time assertions via a mechanism that
generates a call to an undefined external function that will cause the
link to fail unless the compiler can prove that the asserted condition
is true (and thereby eliminate the undefined function call).

This assertion mechanism can be used for conditions that are not
amenable to the use of static_assert(), since static_assert() will not
allow for proofs via dead code elimination.

Add __attribute__((error(...))) to the undefined external function, so
that the error is raised at compile time rather than at link time.
This allows us to provide a more meaningful error message (which will
include the file name and line number, as with any other compile-time
error), and avoids the need for the caller to specify a unique symbol
name for the external function.

Change the name from linker_assert() to build_assert(), since the
assertion now takes place at compile time rather than at link time.

Signed-off-by: Michael Brown <mcb30@ipxe.org>
2024-01-16 13:35:08 +00:00

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/*
* Copyright (C) 2017 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* You can also choose to distribute this program under the terms of
* the Unmodified Binary Distribution Licence (as given in the file
* COPYING.UBDL), provided that you have satisfied its requirements.
*/
FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
/** @file
*
* MD4 algorithm
*
*/
#include <stdint.h>
#include <string.h>
#include <byteswap.h>
#include <assert.h>
#include <ipxe/rotate.h>
#include <ipxe/crypto.h>
#include <ipxe/md4.h>
/** MD4 variables */
struct md4_variables {
/* This layout matches that of struct md4_digest_data,
* allowing for efficient endianness-conversion,
*/
uint32_t a;
uint32_t b;
uint32_t c;
uint32_t d;
uint32_t w[16];
} __attribute__ (( packed ));
/** MD4 shift amounts */
static const uint8_t r[3][4] = {
{ 3, 7, 11, 19 },
{ 3, 5, 9, 13 },
{ 3, 9, 11, 15 },
};
/**
* f(b,c,d,w) for steps 0 to 15
*
* @v v MD4 variables
* @v i Index within round
* @ret f f(b,c,d,w)
*/
static uint32_t md4_f_0_15 ( struct md4_variables *v, unsigned int i ) {
return ( ( ( v->b & v->c ) | ( ~v->b & v->d ) ) + v->w[i] );
}
/**
* f(b,c,d,w) for steps 16 to 31
*
* @v v MD4 variables
* @v i Index within round
* @ret f f(b,c,d,w)
*/
static uint32_t md4_f_16_31 ( struct md4_variables *v, unsigned int i ) {
return ( ( ( v->b & v->c ) | ( v->b & v->d ) | ( v->c & v->d ) ) +
v->w[ ( ( i << 2 ) | ( i >> 2 ) ) % 16 ] );
}
/**
* f(b,c,d,w) for steps 32 to 47
*
* @v v MD4 variables
* @v i Index within round
* @ret f f(b,c,d,w)
*/
static uint32_t md4_f_32_47 ( struct md4_variables *v, unsigned int i ) {
static const uint8_t reverse[16] = {
0, 8, 4, 12, 2, 10, 6, 14, 1, 9, 5, 13, 3, 11, 7, 15
};
return ( ( v->b ^ v->c ^ v->d ) + v->w[reverse[i]] );
}
/** An MD4 step function */
struct md4_step {
/**
* Calculate f(b,c,d,w)
*
* @v v MD4 variables
* @v i Index within round
* @ret f f(b,c,d,w)
*/
uint32_t ( * f ) ( struct md4_variables *v, unsigned int i );
/** Constant */
uint32_t constant;
};
/** MD4 steps */
static struct md4_step md4_steps[4] = {
/** 0 to 15 */
{ .f = md4_f_0_15, .constant = 0x00000000UL },
/** 16 to 31 */
{ .f = md4_f_16_31, .constant = 0x5a827999UL },
/** 32 to 47 */
{ .f = md4_f_32_47, .constant = 0x6ed9eba1UL },
};
/**
* Initialise MD4 algorithm
*
* @v ctx MD4 context
*/
static void md4_init ( void *ctx ) {
struct md4_context *context = ctx;
context->ddd.dd.digest.h[0] = cpu_to_le32 ( 0x67452301 );
context->ddd.dd.digest.h[1] = cpu_to_le32 ( 0xefcdab89 );
context->ddd.dd.digest.h[2] = cpu_to_le32 ( 0x98badcfe );
context->ddd.dd.digest.h[3] = cpu_to_le32 ( 0x10325476 );
context->len = 0;
}
/**
* Calculate MD4 digest of accumulated data
*
* @v context MD4 context
*/
static void md4_digest ( struct md4_context *context ) {
union {
union md4_digest_data_dwords ddd;
struct md4_variables v;
} u;
uint32_t *a = &u.v.a;
uint32_t *b = &u.v.b;
uint32_t *c = &u.v.c;
uint32_t *d = &u.v.d;
uint32_t *w = u.v.w;
uint32_t f;
uint32_t temp;
struct md4_step *step;
unsigned int round;
unsigned int i;
/* Sanity checks */
assert ( ( context->len % sizeof ( context->ddd.dd.data ) ) == 0 );
build_assert ( &u.ddd.dd.digest.h[0] == a );
build_assert ( &u.ddd.dd.digest.h[1] == b );
build_assert ( &u.ddd.dd.digest.h[2] == c );
build_assert ( &u.ddd.dd.digest.h[3] == d );
build_assert ( &u.ddd.dd.data.dword[0] == w );
DBGC ( context, "MD4 digesting:\n" );
DBGC_HDA ( context, 0, &context->ddd.dd.digest,
sizeof ( context->ddd.dd.digest ) );
DBGC_HDA ( context, context->len, &context->ddd.dd.data,
sizeof ( context->ddd.dd.data ) );
/* Convert h[0..3] to host-endian, and initialise a, b, c, d,
* and x[0..15]
*/
for ( i = 0 ; i < ( sizeof ( u.ddd.dword ) /
sizeof ( u.ddd.dword[0] ) ) ; i++ ) {
le32_to_cpus ( &context->ddd.dword[i] );
u.ddd.dword[i] = context->ddd.dword[i];
}
/* Main loop */
for ( i = 0 ; i < 48 ; i++ ) {
round = ( i / 16 );
step = &md4_steps[round];
f = step->f ( &u.v, ( i % 16 ) );
temp = *d;
*d = *c;
*c = *b;
*b = rol32 ( ( *a + f + step->constant ), r[round][ i % 4 ] );
*a = temp;
DBGC2 ( context, "%2d : %08x %08x %08x %08x\n",
i, *a, *b, *c, *d );
}
/* Add chunk to hash and convert back to little-endian */
for ( i = 0 ; i < 4 ; i++ ) {
context->ddd.dd.digest.h[i] =
cpu_to_le32 ( context->ddd.dd.digest.h[i] +
u.ddd.dd.digest.h[i] );
}
DBGC ( context, "MD4 digested:\n" );
DBGC_HDA ( context, 0, &context->ddd.dd.digest,
sizeof ( context->ddd.dd.digest ) );
}
/**
* Accumulate data with MD4 algorithm
*
* @v ctx MD4 context
* @v data Data
* @v len Length of data
*/
static void md4_update ( void *ctx, const void *data, size_t len ) {
struct md4_context *context = ctx;
const uint8_t *byte = data;
size_t offset;
/* Accumulate data a byte at a time, performing the digest
* whenever we fill the data buffer
*/
while ( len-- ) {
offset = ( context->len % sizeof ( context->ddd.dd.data ) );
context->ddd.dd.data.byte[offset] = *(byte++);
context->len++;
if ( ( context->len % sizeof ( context->ddd.dd.data ) ) == 0 )
md4_digest ( context );
}
}
/**
* Generate MD4 digest
*
* @v ctx MD4 context
* @v out Output buffer
*/
static void md4_final ( void *ctx, void *out ) {
struct md4_context *context = ctx;
uint64_t len_bits;
uint8_t pad;
/* Record length before pre-processing */
len_bits = cpu_to_le64 ( ( ( uint64_t ) context->len ) * 8 );
/* Pad with a single "1" bit followed by as many "0" bits as required */
pad = 0x80;
do {
md4_update ( ctx, &pad, sizeof ( pad ) );
pad = 0x00;
} while ( ( context->len % sizeof ( context->ddd.dd.data ) ) !=
offsetof ( typeof ( context->ddd.dd.data ), final.len ) );
/* Append length (in bits) */
md4_update ( ctx, &len_bits, sizeof ( len_bits ) );
assert ( ( context->len % sizeof ( context->ddd.dd.data ) ) == 0 );
/* Copy out final digest */
memcpy ( out, &context->ddd.dd.digest,
sizeof ( context->ddd.dd.digest ) );
}
/** MD4 algorithm */
struct digest_algorithm md4_algorithm = {
.name = "md4",
.ctxsize = sizeof ( struct md4_context ),
.blocksize = sizeof ( union md4_block ),
.digestsize = sizeof ( struct md4_digest ),
.init = md4_init,
.update = md4_update,
.final = md4_final,
};
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