* Optional switch "--with-openssl=<PATH>" to use OpenSSL's
implementations of MD5, SHA-1 and SHA-256. The main benefit is that we get assembler-optimised implementations of MD5 and SHA-1 (though not SHA-256 (at least on x86), unfortunately). OpenSSL's SHA-1 implementation on Intel is twice as fast as ours.
This commit is contained in:
parent
e8475bbd5b
commit
d6f586d0ea
11
configure.ac
11
configure.ac
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@ -143,6 +143,17 @@ AC_SUBST(aterm_lib)
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AC_SUBST(aterm_include)
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AC_SUBST(aterm_bin)
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AC_ARG_WITH(openssl, AC_HELP_STRING([--with-openssl=PATH],
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[prefix of the OpenSSL library]),
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openssl=$withval, openssl=)
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AM_CONDITIONAL(HAVE_OPENSSL, test -n "$openssl")
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if test -n "$openssl"; then
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LDFLAGS="-L$openssl/lib -lcrypto $LDFLAGS"
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CFLAGS="-I$openssl/include $CFLAGS"
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CXXFLAGS="-I$openssl/include $CXXFLAGS"
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AC_DEFINE(HAVE_OPENSSL, 1, [whether to use OpenSSL])
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fi
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AC_ARG_WITH(bzip2, AC_HELP_STRING([--with-bzip2=PATH],
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[prefix of bzip2]),
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bzip2=$withval, bzip2=)
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@ -1,7 +1,11 @@
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lib_LTLIBRARIES = libutil.la
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libutil_la_SOURCES = util.cc util.hh hash.cc hash.hh \
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archive.cc archive.hh aterm.cc aterm.hh \
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archive.cc archive.hh aterm.cc aterm.hh
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if !HAVE_OPENSSL
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libutil_la_SOURCES += \
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md5.c md5.h sha1.c sha1.h sha256.c sha256.h md32_common.h
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endif
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AM_CXXFLAGS = -Wall -I.. ${aterm_include}
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@ -1,10 +1,17 @@
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#include "config.h"
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#include <iostream>
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#ifdef HAVE_OPENSSL
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#include <openssl/md5.h>
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#include <openssl/sha.h>
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#else
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extern "C" {
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#include "md5.h"
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#include "sha1.h"
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#include "sha256.h"
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}
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#endif
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#include "hash.hh"
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#include "archive.hh"
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@ -199,16 +206,16 @@ bool isHash(const string & s)
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union Ctx
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{
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md5_ctx md5;
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sha_ctx sha1;
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MD5_CTX md5;
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SHA_CTX sha1;
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SHA256_CTX sha256;
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};
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static void start(HashType ht, Ctx & ctx)
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{
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if (ht == htMD5) md5_init_ctx(&ctx.md5);
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else if (ht == htSHA1) sha_init(&ctx.sha1);
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if (ht == htMD5) MD5_Init(&ctx.md5);
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else if (ht == htSHA1) SHA1_Init(&ctx.sha1);
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else if (ht == htSHA256) SHA256_Init(&ctx.sha256);
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}
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@ -216,19 +223,16 @@ static void start(HashType ht, Ctx & ctx)
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static void update(HashType ht, Ctx & ctx,
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const unsigned char * bytes, unsigned int len)
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{
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if (ht == htMD5) md5_process_bytes(bytes, len, &ctx.md5);
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else if (ht == htSHA1) sha_update(&ctx.sha1, bytes, len);
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if (ht == htMD5) MD5_Update(&ctx.md5, bytes, len);
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else if (ht == htSHA1) SHA1_Update(&ctx.sha1, bytes, len);
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else if (ht == htSHA256) SHA256_Update(&ctx.sha256, bytes, len);
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}
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static void finish(HashType ht, Ctx & ctx, unsigned char * hash)
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{
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if (ht == htMD5) md5_finish_ctx(&ctx.md5, hash);
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else if (ht == htSHA1) {
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sha_final(&ctx.sha1);
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sha_digest(&ctx.sha1, hash);
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}
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if (ht == htMD5) MD5_Final(hash, &ctx.md5);
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else if (ht == htSHA1) SHA1_Final(hash, &ctx.sha1);
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else if (ht == htSHA256) SHA256_Final(hash, &ctx.sha256);
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}
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@ -56,8 +56,8 @@ static const unsigned char fillbuf[64] = { 0x80, 0 /* , 0, 0, ... */ };
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/* Initialize structure containing state of computation.
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(RFC 1321, 3.3: Step 3) */
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void
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md5_init_ctx (ctx)
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struct md5_ctx *ctx;
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MD5_Init (ctx)
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struct MD5_CTX *ctx;
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{
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ctx->A = 0x67452301;
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ctx->B = 0xefcdab89;
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@ -75,7 +75,7 @@ md5_init_ctx (ctx)
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aligned for a 32 bits value. */
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void *
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md5_read_ctx (ctx, resbuf)
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const struct md5_ctx *ctx;
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const struct MD5_CTX *ctx;
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void *resbuf;
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{
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((md5_uint32 *) resbuf)[0] = SWAP (ctx->A);
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@ -92,9 +92,9 @@ md5_read_ctx (ctx, resbuf)
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IMPORTANT: On some systems it is required that RESBUF is correctly
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aligned for a 32 bits value. */
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void *
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md5_finish_ctx (ctx, resbuf)
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struct md5_ctx *ctx;
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MD5_Final (resbuf, ctx)
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void *resbuf;
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struct MD5_CTX *ctx;
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{
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/* Take yet unprocessed bytes into account. */
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md5_uint32 bytes = ctx->buflen;
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}
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void
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md5_process_bytes (buffer, len, ctx)
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MD5_Update (ctx, buffer, len)
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struct MD5_CTX *ctx;
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const void *buffer;
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size_t len;
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struct md5_ctx *ctx;
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{
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/* When we already have some bits in our internal buffer concatenate
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both inputs first. */
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@ -210,7 +210,7 @@ void
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md5_process_block (buffer, len, ctx)
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const void *buffer;
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size_t len;
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struct md5_ctx *ctx;
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struct MD5_CTX *ctx;
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{
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md5_uint32 correct_words[16];
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const md5_uint32 *words = buffer;
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@ -26,7 +26,7 @@ typedef uint32_t md5_uint32;
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typedef uintptr_t md5_uintptr;
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/* Structure to save state of computation between the single steps. */
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struct md5_ctx
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struct MD5_CTX
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{
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md5_uint32 A;
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md5_uint32 B;
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/* Initialize structure containing state of computation.
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(RFC 1321, 3.3: Step 3) */
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extern void md5_init_ctx __P ((struct md5_ctx *ctx));
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extern void MD5_Init __P ((struct MD5_CTX *ctx));
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/* Starting with the result of former calls of this function (or the
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initialization function update the context for the next LEN bytes
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starting at BUFFER.
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It is necessary that LEN is a multiple of 64!!! */
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extern void md5_process_block __P ((const void *buffer, size_t len,
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struct md5_ctx *ctx));
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struct MD5_CTX *ctx));
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/* Starting with the result of former calls of this function (or the
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initialization function update the context for the next LEN bytes
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starting at BUFFER.
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It is NOT required that LEN is a multiple of 64. */
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extern void md5_process_bytes __P ((const void *buffer, size_t len,
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struct md5_ctx *ctx));
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extern void MD5_Update __P ((struct MD5_CTX *ctx, const void *buffer, size_t len));
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/* Process the remaining bytes in the buffer and put result from CTX
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in first 16 bytes following RESBUF. The result is always in little
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IMPORTANT: On some systems it is required that RESBUF is correctly
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aligned for a 32 bits value. */
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extern void *md5_finish_ctx __P ((struct md5_ctx *ctx, void *resbuf));
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extern void *MD5_Final __P ((void *resbuf, struct MD5_CTX *ctx));
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/* Put result from CTX in first 16 bytes following RESBUF. The result is
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IMPORTANT: On some systems it is required that RESBUF is correctly
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aligned for a 32 bits value. */
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extern void *md5_read_ctx __P ((const struct md5_ctx *ctx, void *resbuf));
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extern void *md5_read_ctx __P ((const struct MD5_CTX *ctx, void *resbuf));
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#endif /* md5.h */
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@ -37,7 +37,7 @@ effort (for example the reengineering of a great many Capstone chips).
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#include <string.h>
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void sha_copy(struct sha_ctx *dest, struct sha_ctx *src)
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void sha_copy(struct SHA_CTX *dest, struct SHA_CTX *src)
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{
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unsigned int i;
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/* Initialize the SHA values */
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void sha_init(struct sha_ctx *ctx)
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void SHA1_Init(struct SHA_CTX *ctx)
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{
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/* Set the h-vars to their initial values */
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ctx->digest[ 0 ] = h0init;
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Note that this function destroys the data area */
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static void sha_transform(struct sha_ctx *ctx, uint32_t *data )
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static void sha_transform(struct SHA_CTX *ctx, uint32_t *data )
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{
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uint32_t A, B, C, D, E; /* Local vars */
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}
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#endif
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static void sha_block(struct sha_ctx *ctx, const unsigned char *block)
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static void sha_block(struct SHA_CTX *ctx, const unsigned char *block)
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{
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uint32_t data[SHA_DATALEN];
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unsigned int i;
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sha_transform(ctx, data);
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}
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void sha_update(struct sha_ctx *ctx, const unsigned char *buffer, uint32_t len)
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void SHA1_Update(struct SHA_CTX *ctx, const unsigned char *buffer, uint32_t len)
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{
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if (ctx->index)
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{ /* Try to fill partial block */
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/* Final wrapup - pad to SHA_DATASIZE-byte boundary with the bit pattern
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1 0* (64-bit count of bits processed, MSB-first) */
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void sha_final(struct sha_ctx *ctx)
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void SHA1_Final(unsigned char *s, struct SHA_CTX *ctx)
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{
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uint32_t data[SHA_DATALEN];
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unsigned int i;
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data[SHA_DATALEN-2] = (ctx->count_h << 9) | (ctx->count_l >> 23);
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data[SHA_DATALEN-1] = (ctx->count_l << 9) | (ctx->index << 3);
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sha_transform(ctx, data);
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sha_digest(ctx, s);
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}
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void sha_digest(struct sha_ctx *ctx, unsigned char *s)
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void sha_digest(struct SHA_CTX *ctx, unsigned char *s)
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{
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unsigned int i;
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@ -11,18 +11,18 @@
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#define SHA_DIGESTLEN 5
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/* The structure for storing SHA info */
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struct sha_ctx {
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struct SHA_CTX {
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uint32_t digest[SHA_DIGESTLEN]; /* Message digest */
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uint32_t count_l, count_h; /* 64-bit block count */
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uint8_t block[SHA_DATASIZE]; /* SHA data buffer */
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unsigned int index; /* index into buffer */
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};
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void sha_init(struct sha_ctx *ctx);
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void sha_update(struct sha_ctx *ctx, const unsigned char *buffer, uint32_t len);
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void sha_final(struct sha_ctx *ctx);
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void sha_digest(struct sha_ctx *ctx, unsigned char *s);
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void sha_copy(struct sha_ctx *dest, struct sha_ctx *src);
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void SHA1_Init(struct SHA_CTX *ctx);
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void SHA1_Update(struct SHA_CTX *ctx, const unsigned char *buffer, uint32_t len);
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void SHA1_Final(unsigned char *s, struct SHA_CTX *ctx);
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void sha_digest(struct SHA_CTX *ctx, unsigned char *s);
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void sha_copy(struct SHA_CTX *dest, struct SHA_CTX *src);
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#endif /* !_SHA_H */
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