crypto: lrw - add interface for parallelized cipher implementions
Export gf128mul table initialization routines and add lrw_crypt() function that can be used by cipher implementations that can benefit from parallelized cipher operations. Signed-off-by: Jussi Kivilinna <jussi.kivilinna@mbnet.fi> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
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crypto/lrw.c
106
crypto/lrw.c
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@ -3,7 +3,7 @@
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*
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* Copyright (c) 2006 Rik Snel <rsnel@cube.dyndns.org>
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*
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* Based om ecb.c
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* Based on ecb.c
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* Copyright (c) 2006 Herbert Xu <herbert@gondor.apana.org.au>
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*
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* This program is free software; you can redistribute it and/or modify it
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@ -16,6 +16,7 @@
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* http://www.mail-archive.com/stds-p1619@listserv.ieee.org/msg00173.html
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*
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* The test vectors are included in the testing module tcrypt.[ch] */
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#include <crypto/algapi.h>
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#include <linux/err.h>
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#include <linux/init.h>
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@ -26,23 +27,7 @@
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#include <crypto/b128ops.h>
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#include <crypto/gf128mul.h>
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#define LRW_BLOCK_SIZE 16
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struct lrw_table_ctx {
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/* optimizes multiplying a random (non incrementing, as at the
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* start of a new sector) value with key2, we could also have
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* used 4k optimization tables or no optimization at all. In the
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* latter case we would have to store key2 here */
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struct gf128mul_64k *table;
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/* stores:
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* key2*{ 0,0,...0,0,0,0,1 }, key2*{ 0,0,...0,0,0,1,1 },
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* key2*{ 0,0,...0,0,1,1,1 }, key2*{ 0,0,...0,1,1,1,1 }
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* key2*{ 0,0,...1,1,1,1,1 }, etc
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* needed for optimized multiplication of incrementing values
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* with key2 */
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be128 mulinc[128];
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};
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#include <crypto/lrw.h>
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struct priv {
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struct crypto_cipher *child;
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@ -60,7 +45,7 @@ static inline void setbit128_bbe(void *b, int bit)
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), b);
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}
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static int lrw_init_table(struct lrw_table_ctx *ctx, const u8 *tweak)
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int lrw_init_table(struct lrw_table_ctx *ctx, const u8 *tweak)
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{
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be128 tmp = { 0 };
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int i;
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@ -82,12 +67,14 @@ static int lrw_init_table(struct lrw_table_ctx *ctx, const u8 *tweak)
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return 0;
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}
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EXPORT_SYMBOL_GPL(lrw_init_table);
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static void lrw_free_table(struct lrw_table_ctx *ctx)
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void lrw_free_table(struct lrw_table_ctx *ctx)
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{
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if (ctx->table)
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gf128mul_free_64k(ctx->table);
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}
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EXPORT_SYMBOL_GPL(lrw_free_table);
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static int setkey(struct crypto_tfm *parent, const u8 *key,
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unsigned int keylen)
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@ -227,6 +214,85 @@ static int decrypt(struct blkcipher_desc *desc, struct scatterlist *dst,
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crypto_cipher_alg(ctx->child)->cia_decrypt);
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}
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int lrw_crypt(struct blkcipher_desc *desc, struct scatterlist *sdst,
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struct scatterlist *ssrc, unsigned int nbytes,
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struct lrw_crypt_req *req)
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{
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const unsigned int bsize = LRW_BLOCK_SIZE;
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const unsigned int max_blks = req->tbuflen / bsize;
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struct lrw_table_ctx *ctx = req->table_ctx;
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struct blkcipher_walk walk;
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unsigned int nblocks;
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be128 *iv, *src, *dst, *t;
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be128 *t_buf = req->tbuf;
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int err, i;
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BUG_ON(max_blks < 1);
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blkcipher_walk_init(&walk, sdst, ssrc, nbytes);
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err = blkcipher_walk_virt(desc, &walk);
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nbytes = walk.nbytes;
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if (!nbytes)
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return err;
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nblocks = min(walk.nbytes / bsize, max_blks);
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src = (be128 *)walk.src.virt.addr;
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dst = (be128 *)walk.dst.virt.addr;
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/* calculate first value of T */
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iv = (be128 *)walk.iv;
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t_buf[0] = *iv;
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/* T <- I*Key2 */
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gf128mul_64k_bbe(&t_buf[0], ctx->table);
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i = 0;
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goto first;
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for (;;) {
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do {
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for (i = 0; i < nblocks; i++) {
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/* T <- I*Key2, using the optimization
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* discussed in the specification */
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be128_xor(&t_buf[i], t,
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&ctx->mulinc[get_index128(iv)]);
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inc(iv);
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first:
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t = &t_buf[i];
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/* PP <- T xor P */
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be128_xor(dst + i, t, src + i);
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}
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/* CC <- E(Key2,PP) */
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req->crypt_fn(req->crypt_ctx, (u8 *)dst,
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nblocks * bsize);
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/* C <- T xor CC */
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for (i = 0; i < nblocks; i++)
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be128_xor(dst + i, dst + i, &t_buf[i]);
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src += nblocks;
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dst += nblocks;
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nbytes -= nblocks * bsize;
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nblocks = min(nbytes / bsize, max_blks);
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} while (nblocks > 0);
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err = blkcipher_walk_done(desc, &walk, nbytes);
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nbytes = walk.nbytes;
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if (!nbytes)
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break;
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nblocks = min(nbytes / bsize, max_blks);
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src = (be128 *)walk.src.virt.addr;
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dst = (be128 *)walk.dst.virt.addr;
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}
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return err;
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}
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EXPORT_SYMBOL_GPL(lrw_crypt);
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static int init_tfm(struct crypto_tfm *tfm)
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{
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struct crypto_cipher *cipher;
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@ -0,0 +1,43 @@
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#ifndef _CRYPTO_LRW_H
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#define _CRYPTO_LRW_H
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#include <crypto/b128ops.h>
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struct scatterlist;
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struct gf128mul_64k;
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struct blkcipher_desc;
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#define LRW_BLOCK_SIZE 16
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struct lrw_table_ctx {
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/* optimizes multiplying a random (non incrementing, as at the
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* start of a new sector) value with key2, we could also have
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* used 4k optimization tables or no optimization at all. In the
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* latter case we would have to store key2 here */
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struct gf128mul_64k *table;
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/* stores:
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* key2*{ 0,0,...0,0,0,0,1 }, key2*{ 0,0,...0,0,0,1,1 },
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* key2*{ 0,0,...0,0,1,1,1 }, key2*{ 0,0,...0,1,1,1,1 }
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* key2*{ 0,0,...1,1,1,1,1 }, etc
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* needed for optimized multiplication of incrementing values
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* with key2 */
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be128 mulinc[128];
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};
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int lrw_init_table(struct lrw_table_ctx *ctx, const u8 *tweak);
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void lrw_free_table(struct lrw_table_ctx *ctx);
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struct lrw_crypt_req {
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be128 *tbuf;
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unsigned int tbuflen;
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struct lrw_table_ctx *table_ctx;
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void *crypt_ctx;
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void (*crypt_fn)(void *ctx, u8 *blks, unsigned int nbytes);
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};
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int lrw_crypt(struct blkcipher_desc *desc, struct scatterlist *dst,
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struct scatterlist *src, unsigned int nbytes,
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struct lrw_crypt_req *req);
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#endif /* _CRYPTO_LRW_H */
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