forked from Minki/linux
[CRYPTO] chainiv: Avoid lock spinning where possible
This patch makes chainiv avoid spinning by postponing requests on lock contention if the user allows the use of asynchronous algorithms. If a synchronous algorithm is requested then we behave as before. This should improve IPsec performance on SMP when two CPUs attempt to transmit over the same SA. Currently one of them will spin doing nothing waiting for the other CPU to finish its encryption. This patch makes it postpone the request and get on with other work. If only one CPU is transmitting for a given SA, then we will process the request synchronously as before. Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
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4726204200
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212
crypto/chainiv.c
212
crypto/chainiv.c
@ -16,16 +16,34 @@
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#include <crypto/internal/skcipher.h>
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#include <linux/err.h>
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#include <linux/init.h>
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#include <linux/kernel.h>
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#include <linux/module.h>
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#include <linux/random.h>
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#include <linux/spinlock.h>
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#include <linux/string.h>
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#include <linux/workqueue.h>
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enum {
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CHAINIV_STATE_INUSE = 0,
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};
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struct chainiv_ctx {
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spinlock_t lock;
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char iv[];
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};
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struct async_chainiv_ctx {
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unsigned long state;
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spinlock_t lock;
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int err;
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struct crypto_queue queue;
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struct work_struct postponed;
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char iv[];
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};
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static int chainiv_givencrypt(struct skcipher_givcrypt_request *req)
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{
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struct crypto_ablkcipher *geniv = skcipher_givcrypt_reqtfm(req);
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@ -80,26 +98,187 @@ unlock:
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return chainiv_givencrypt(req);
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}
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static int chainiv_init(struct crypto_tfm *tfm)
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static int chainiv_init_common(struct crypto_tfm *tfm)
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{
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struct crypto_ablkcipher *geniv = __crypto_ablkcipher_cast(tfm);
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struct chainiv_ctx *ctx = crypto_ablkcipher_ctx(geniv);
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spin_lock_init(&ctx->lock);
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tfm->crt_ablkcipher.reqsize = sizeof(struct ablkcipher_request);
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return skcipher_geniv_init(tfm);
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}
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static int chainiv_init(struct crypto_tfm *tfm)
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{
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struct chainiv_ctx *ctx = crypto_tfm_ctx(tfm);
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spin_lock_init(&ctx->lock);
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return chainiv_init_common(tfm);
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}
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static int async_chainiv_schedule_work(struct async_chainiv_ctx *ctx)
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{
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int queued;
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if (!ctx->queue.qlen) {
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smp_mb__before_clear_bit();
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clear_bit(CHAINIV_STATE_INUSE, &ctx->state);
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if (!ctx->queue.qlen ||
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test_and_set_bit(CHAINIV_STATE_INUSE, &ctx->state))
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goto out;
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}
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queued = schedule_work(&ctx->postponed);
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BUG_ON(!queued);
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out:
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return ctx->err;
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}
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static int async_chainiv_postpone_request(struct skcipher_givcrypt_request *req)
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{
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struct crypto_ablkcipher *geniv = skcipher_givcrypt_reqtfm(req);
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struct async_chainiv_ctx *ctx = crypto_ablkcipher_ctx(geniv);
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int err;
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spin_lock_bh(&ctx->lock);
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err = skcipher_enqueue_givcrypt(&ctx->queue, req);
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spin_unlock_bh(&ctx->lock);
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if (test_and_set_bit(CHAINIV_STATE_INUSE, &ctx->state))
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return err;
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ctx->err = err;
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return async_chainiv_schedule_work(ctx);
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}
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static int async_chainiv_givencrypt_tail(struct skcipher_givcrypt_request *req)
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{
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struct crypto_ablkcipher *geniv = skcipher_givcrypt_reqtfm(req);
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struct async_chainiv_ctx *ctx = crypto_ablkcipher_ctx(geniv);
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struct ablkcipher_request *subreq = skcipher_givcrypt_reqctx(req);
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unsigned int ivsize = crypto_ablkcipher_ivsize(geniv);
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memcpy(req->giv, ctx->iv, ivsize);
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memcpy(subreq->info, ctx->iv, ivsize);
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ctx->err = crypto_ablkcipher_encrypt(subreq);
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if (ctx->err)
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goto out;
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memcpy(ctx->iv, subreq->info, ivsize);
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out:
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return async_chainiv_schedule_work(ctx);
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}
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static int async_chainiv_givencrypt(struct skcipher_givcrypt_request *req)
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{
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struct crypto_ablkcipher *geniv = skcipher_givcrypt_reqtfm(req);
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struct async_chainiv_ctx *ctx = crypto_ablkcipher_ctx(geniv);
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struct ablkcipher_request *subreq = skcipher_givcrypt_reqctx(req);
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ablkcipher_request_set_tfm(subreq, skcipher_geniv_cipher(geniv));
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ablkcipher_request_set_callback(subreq, req->creq.base.flags,
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req->creq.base.complete,
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req->creq.base.data);
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ablkcipher_request_set_crypt(subreq, req->creq.src, req->creq.dst,
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req->creq.nbytes, req->creq.info);
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if (test_and_set_bit(CHAINIV_STATE_INUSE, &ctx->state))
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goto postpone;
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if (ctx->queue.qlen) {
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clear_bit(CHAINIV_STATE_INUSE, &ctx->state);
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goto postpone;
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}
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return async_chainiv_givencrypt_tail(req);
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postpone:
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return async_chainiv_postpone_request(req);
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}
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static int async_chainiv_givencrypt_first(struct skcipher_givcrypt_request *req)
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{
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struct crypto_ablkcipher *geniv = skcipher_givcrypt_reqtfm(req);
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struct async_chainiv_ctx *ctx = crypto_ablkcipher_ctx(geniv);
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if (test_and_set_bit(CHAINIV_STATE_INUSE, &ctx->state))
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goto out;
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if (crypto_ablkcipher_crt(geniv)->givencrypt !=
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async_chainiv_givencrypt_first)
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goto unlock;
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crypto_ablkcipher_crt(geniv)->givencrypt = async_chainiv_givencrypt;
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get_random_bytes(ctx->iv, crypto_ablkcipher_ivsize(geniv));
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unlock:
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clear_bit(CHAINIV_STATE_INUSE, &ctx->state);
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out:
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return async_chainiv_givencrypt(req);
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}
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static void async_chainiv_do_postponed(struct work_struct *work)
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{
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struct async_chainiv_ctx *ctx = container_of(work,
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struct async_chainiv_ctx,
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postponed);
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struct skcipher_givcrypt_request *req;
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struct ablkcipher_request *subreq;
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/* Only handle one request at a time to avoid hogging keventd. */
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spin_lock_bh(&ctx->lock);
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req = skcipher_dequeue_givcrypt(&ctx->queue);
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spin_unlock_bh(&ctx->lock);
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if (!req) {
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async_chainiv_schedule_work(ctx);
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return;
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}
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subreq = skcipher_givcrypt_reqctx(req);
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subreq->base.flags |= CRYPTO_TFM_REQ_MAY_SLEEP;
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async_chainiv_givencrypt_tail(req);
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}
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static int async_chainiv_init(struct crypto_tfm *tfm)
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{
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struct async_chainiv_ctx *ctx = crypto_tfm_ctx(tfm);
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spin_lock_init(&ctx->lock);
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crypto_init_queue(&ctx->queue, 100);
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INIT_WORK(&ctx->postponed, async_chainiv_do_postponed);
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return chainiv_init_common(tfm);
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}
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static void async_chainiv_exit(struct crypto_tfm *tfm)
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{
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struct async_chainiv_ctx *ctx = crypto_tfm_ctx(tfm);
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BUG_ON(test_bit(CHAINIV_STATE_INUSE, &ctx->state) || ctx->queue.qlen);
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skcipher_geniv_exit(tfm);
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}
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static struct crypto_template chainiv_tmpl;
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static struct crypto_instance *chainiv_alloc(struct rtattr **tb)
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{
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struct crypto_attr_type *algt;
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struct crypto_instance *inst;
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int err;
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inst = skcipher_geniv_alloc(&chainiv_tmpl, tb, 0,
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CRYPTO_ALG_ASYNC);
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algt = crypto_get_attr_type(tb);
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err = PTR_ERR(algt);
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if (IS_ERR(algt))
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return ERR_PTR(err);
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inst = skcipher_geniv_alloc(&chainiv_tmpl, tb, 0, 0);
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if (IS_ERR(inst))
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goto out;
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@ -108,8 +287,21 @@ static struct crypto_instance *chainiv_alloc(struct rtattr **tb)
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inst->alg.cra_init = chainiv_init;
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inst->alg.cra_exit = skcipher_geniv_exit;
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inst->alg.cra_ctxsize = sizeof(struct chainiv_ctx) +
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inst->alg.cra_ablkcipher.ivsize;
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inst->alg.cra_ctxsize = sizeof(struct chainiv_ctx);
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if (!crypto_requires_sync(algt->type, algt->mask)) {
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inst->alg.cra_flags |= CRYPTO_ALG_ASYNC;
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inst->alg.cra_ablkcipher.givencrypt =
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async_chainiv_givencrypt_first;
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inst->alg.cra_init = async_chainiv_init;
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inst->alg.cra_exit = async_chainiv_exit;
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inst->alg.cra_ctxsize = sizeof(struct async_chainiv_ctx);
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}
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inst->alg.cra_ctxsize += inst->alg.cra_ablkcipher.ivsize;
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out:
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return inst;
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@ -70,6 +70,19 @@ static inline struct crypto_ablkcipher *skcipher_geniv_cipher(
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return crypto_ablkcipher_crt(geniv)->base;
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}
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static inline int skcipher_enqueue_givcrypt(
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struct crypto_queue *queue, struct skcipher_givcrypt_request *request)
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{
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return ablkcipher_enqueue_request(queue, &request->creq);
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}
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static inline struct skcipher_givcrypt_request *skcipher_dequeue_givcrypt(
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struct crypto_queue *queue)
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{
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return container_of(ablkcipher_dequeue_request(queue),
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struct skcipher_givcrypt_request, creq);
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}
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static inline void *skcipher_givcrypt_reqctx(
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struct skcipher_givcrypt_request *req)
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{
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