e_afalg.c 24.6 KB
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/* ====================================================================
 * Copyright (c) 1999-2016 The OpenSSL Project.  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in
 *    the documentation and/or other materials provided with the
 *    distribution.
 *
 * 3. All advertising materials mentioning features or use of this
 *    software must display the following acknowledgment:
 *    "This product includes software developed by the OpenSSL Project
 *    for use in the OpenSSL Toolkit. (http://www.OpenSSL.org/)"
 *
 * 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to
 *    endorse or promote products derived from this software without
 *    prior written permission. For written permission, please contact
 *    openssl-core@OpenSSL.org.
 *
 * 5. Products derived from this software may not be called "OpenSSL"
 *    nor may "OpenSSL" appear in their names without prior written
 *    permission of the OpenSSL Project.
 *
 * 6. Redistributions of any form whatsoever must retain the following
 *    acknowledgment:
 *    "This product includes software developed by the OpenSSL Project
 *    for use in the OpenSSL Toolkit (http://www.OpenSSL.org/)"
 *
 * THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY
 * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE OpenSSL PROJECT OR
 * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
 * OF THE POSSIBILITY OF SUCH DAMAGE.
 * ====================================================================
 *
 * This product includes cryptographic software written by Eric Young
 * (eay@cryptsoft.com).  This product includes software written by Tim
 * Hudson (tjh@cryptsoft.com).
 *
 */

/* Required for vmsplice */
#define _GNU_SOURCE
#include <stdio.h>
#include <string.h>
#include <unistd.h>

#include <openssl/engine.h>
#include <openssl/async.h>

#include <linux/version.h>
#define K_MAJ   4
#define K_MIN1  1
#define K_MIN2  0
#if LINUX_VERSION_CODE <= KERNEL_VERSION(K_MAJ, K_MIN1, K_MIN2)
# warning "AFALG ENGINE requires Kernel Headers >= 4.1.0"
# warning "Skipping Compilation of AFALG engine"
#else

# include <linux/if_alg.h>
# include <sys/socket.h>
# include <fcntl.h>
# include <sys/utsname.h>

# include <linux/aio_abi.h>
# include <sys/syscall.h>
# include <errno.h>

# include "e_afalg.h"

# define AFALG_LIB_NAME "AFALG"
# include "e_afalg_err.h"

# ifndef SOL_ALG
#  define SOL_ALG 279
# endif

# ifdef ALG_ZERO_COPY
#  ifndef SPLICE_F_GIFT
#   define SPLICE_F_GIFT    (0x08)
#  endif
# endif

# define ALG_AES_IV_LEN 16
# define ALG_IV_LEN(len) (sizeof(struct af_alg_iv) + (len))
# define ALG_OP_TYPE     unsigned int
# define ALG_OP_LEN      (sizeof(ALG_OP_TYPE))

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#define ALG_MAX_SALG_NAME       64
#define ALG_MAX_SALG_TYPE       14

# ifdef OPENSSL_NO_DYNAMIC_ENGINE
void engine_load_afalg_internal(void);
# endif

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/* Local Linkage Functions */
static int afalg_init_aio(afalg_aio *aio);
static int afalg_fin_cipher_aio(afalg_aio *ptr, int sfd,
                                unsigned char *buf, size_t len);
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static int afalg_create_sk(afalg_ctx *actx, const char *ciphertype,
                                const char *ciphername);
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static int afalg_destroy(ENGINE *e);
static int afalg_init(ENGINE *e);
static int afalg_finish(ENGINE *e);
const EVP_CIPHER *afalg_aes_128_cbc(void);
static int afalg_ciphers(ENGINE *e, const EVP_CIPHER **cipher,
                         const int **nids, int nid);
static int afalg_cipher_init(EVP_CIPHER_CTX *ctx, const unsigned char *key,
                             const unsigned char *iv, int enc);
static int afalg_do_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out,
                           const unsigned char *in, size_t inl);
static int afalg_cipher_cleanup(EVP_CIPHER_CTX *ctx);
static int afalg_chk_platform(void);

/* Engine Id and Name */
static const char *engine_afalg_id = "afalg";
static const char *engine_afalg_name = "AFLAG engine support";

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static int afalg_cipher_nids[] = {
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    NID_aes_128_cbc
};

static EVP_CIPHER *_hidden_aes_128_cbc = NULL;

static inline int io_setup(unsigned n, aio_context_t *ctx)
{
    return syscall(__NR_io_setup, n, ctx);
}

static inline int eventfd(int n)
{
    return syscall(__NR_eventfd, n);
}

static inline int io_destroy(aio_context_t ctx)
{
    return syscall(__NR_io_destroy, ctx);
}

static inline int io_read(aio_context_t ctx, long n, struct iocb **iocb)
{
    return syscall(__NR_io_submit, ctx, n, iocb);
}

static inline int io_getevents(aio_context_t ctx, long min, long max,
                               struct io_event *events,
                               struct timespec *timeout)
{
    return syscall(__NR_io_getevents, ctx, min, max, events, timeout);
}

static void afalg_waitfd_cleanup(ASYNC_WAIT_CTX *ctx, const void *key,
                                 OSSL_ASYNC_FD waitfd, void *custom)
{
    close(waitfd);
}

static int afalg_setup_async_event_notification(afalg_aio *aio)
{
    ASYNC_JOB *job;
    ASYNC_WAIT_CTX *waitctx;
    void *custom = NULL;
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    int ret;
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    if ((job = ASYNC_get_current_job()) != NULL) {
        /* Async mode */
        waitctx = ASYNC_get_wait_ctx(job);
        if (waitctx == NULL) {
            ALG_WARN("%s: ASYNC_get_wait_ctx error", __func__);
            return 0;
        }
        /* Get waitfd from ASYNC_WAIT_CTX if it is alreday set */
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        ret = ASYNC_WAIT_CTX_get_fd(waitctx, engine_afalg_id,
                                    &aio->efd, &custom);
        if (ret == 0) {
            /*
             * waitfd is not set in ASYNC_WAIT_CTX, create a new one
             * and set it. efd will be signaled when AIO operation completes
             */
            aio->efd = eventfd(0);
            if (aio->efd == -1) {
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                ALG_PERR("%s: Failed to get eventfd : ", __func__);
                AFALGerr(AFALG_F_AFALG_SETUP_ASYNC_EVENT_NOTIFICATION,
                         AFALG_R_EVENTFD_FAILED);
                return 0;
            }
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            ret = ASYNC_WAIT_CTX_set_wait_fd(waitctx, engine_afalg_id,
                                             aio->efd, custom,
                                             afalg_waitfd_cleanup);
            if (ret == 0) {
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                ALG_WARN("%s: Failed to set wait fd", __func__);
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                close(aio->efd);
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                return 0;
            }
            /* make fd non-blocking in async mode */
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            if (fcntl(aio->efd, F_SETFL, O_NONBLOCK) != 0) {
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                ALG_WARN("%s: Failed to set event fd as NONBLOCKING",
                         __func__);
            }
        }
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        aio->mode = MODE_ASYNC;
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    } else {
        /* Sync mode */
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        aio->efd = eventfd(0);
        if (aio->efd == -1) {
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            ALG_PERR("%s: Failed to get eventfd : ", __func__);
            AFALGerr(AFALG_F_AFALG_SETUP_ASYNC_EVENT_NOTIFICATION,
                     AFALG_R_EVENTFD_FAILED);
            return 0;
        }
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        aio->mode = MODE_SYNC;
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    }
    return 1;
}

int afalg_init_aio(afalg_aio *aio)
{
    int r = -1;

    /* Initialise for AIO */
    aio->aio_ctx = 0;
    r = io_setup(MAX_INFLIGHTS, &aio->aio_ctx);
    if (r < 0) {
        ALG_PERR("%s: io_setup error : ", __func__);
        AFALGerr(AFALG_F_AFALG_INIT_AIO, AFALG_R_IO_SETUP_FAILED);
        return 0;
    }

    memset(aio->cbt, 0, sizeof(aio->cbt));
    aio->efd = -1;
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    aio->mode = MODE_UNINIT;
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    return 1;
}

int afalg_fin_cipher_aio(afalg_aio *aio, int sfd, unsigned char *buf,
                         size_t len)
{
    int r;
    int retry = 0;
    unsigned int done = 0;
    struct iocb *cb;
    struct timespec timeout;
    struct io_event events[MAX_INFLIGHTS];
    u_int64_t eval = 0;

    timeout.tv_sec = 0;
    timeout.tv_nsec = 0;

    /* if efd has not been initialised yet do it here */
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    if (aio->mode == MODE_UNINIT) {
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        r = afalg_setup_async_event_notification(aio);
        if (r == 0)
            return 0;
    }

    cb = &(aio->cbt[0 % MAX_INFLIGHTS]);
    memset(cb, '\0', sizeof(*cb));
    cb->aio_fildes = sfd;
    cb->aio_lio_opcode = IOCB_CMD_PREAD;
    cb->aio_buf = (unsigned long)buf;
    cb->aio_offset = 0;
    cb->aio_data = 0;
    cb->aio_nbytes = len;
    cb->aio_flags = IOCB_FLAG_RESFD;
    cb->aio_resfd = aio->efd;

    /*
     * Perform AIO read on AFALG socket, this in turn performs an async
     * crypto operation in kernel space
     */
    r = io_read(aio->aio_ctx, 1, &cb);
    if (r < 0) {
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        ALG_PWARN("%s: io_read failed : ", __func__);
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        return 0;
    }

    do {
        /* While AIO read is being performed pause job */
        ASYNC_pause_job();

        /* Check for completion of AIO read */
        r = read(aio->efd, &eval, sizeof(eval));
        if (r < 0) {
            if (errno == EAGAIN || errno == EWOULDBLOCK)
                continue;
            ALG_PERR("%s: read failed for event fd : ", __func__);
            return 0;
        } else if (r == 0 || eval <= 0) {
            ALG_WARN("%s: eventfd read %d bytes, eval = %lu\n", __func__, r,
                     eval);
        }
        if (eval > 0) {

            /* Get results of AIO read */
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            r = io_getevents(aio->aio_ctx, 1, MAX_INFLIGHTS,
                             events, &timeout);
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            if (r > 0) {
                /*
                 * events.res indicates the actual status of the operation.
                 * Handle the error condition first.
                 */
                if (events[0].res < 0) {
                    /*
                     * Underlying operation cannot be completed at the time
                     * of previous submission. Resubmit for the operation.
                     */
                    if (events[0].res == -EBUSY && retry++ < 3) {
                        r = io_read(aio->aio_ctx, 1, &cb);
                        if (r < 0) {
                            ALG_PERR("%s: retry %d for io_read failed : ",
                                     __func__, retry);
                            return 0;
                        }
                        continue;
                    } else {
                        /*
                         * Retries exceed for -EBUSY or unrecoverable error
                         * condition for this instance of operation.
                         */
                        ALG_WARN
                            ("%s: Crypto Operation failed with code %lld\n",
                             __func__, events[0].res);
                        return 0;
                    }
                }
                /* Operation successful. */
                done = 1;
            } else if (r < 0) {
                ALG_PERR("%s: io_getevents failed : ", __func__);
                return 0;
            } else {
                ALG_WARN("%s: io_geteventd read 0 bytes\n", __func__);
            }
        }
    } while (!done);

    return 1;
}

static inline void afalg_set_op_sk(struct cmsghdr *cmsg,
                                   const unsigned int op)
{
    cmsg->cmsg_level = SOL_ALG;
    cmsg->cmsg_type = ALG_SET_OP;
    cmsg->cmsg_len = CMSG_LEN(ALG_OP_LEN);
    *CMSG_DATA(cmsg) = (char)op;
}

static void afalg_set_iv_sk(struct cmsghdr *cmsg, const unsigned char *iv,
                            const unsigned int len)
{
    struct af_alg_iv *aiv;

    cmsg->cmsg_level = SOL_ALG;
    cmsg->cmsg_type = ALG_SET_IV;
    cmsg->cmsg_len = CMSG_LEN(ALG_IV_LEN(len));
    aiv = (struct af_alg_iv *)CMSG_DATA(cmsg);
    aiv->ivlen = len;
    memcpy(aiv->iv, iv, len);
}

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static inline int afalg_set_key(afalg_ctx *actx, const unsigned char *key,
                                const int klen)
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{
    int ret;
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    ret = setsockopt(actx->bfd, SOL_ALG, ALG_SET_KEY, key, klen);
    if (ret < 0) {
        ALG_PERR("%s: Failed to set socket option : ", __func__);
        AFALGerr(AFALG_F_AFALG_SET_KEY, AFALG_R_SOCKET_SET_KEY_FAILED);
        return 0;
    }

    return 1;
}

static int afalg_create_sk(afalg_ctx *actx, const char *ciphertype,
                                const char *ciphername)
{
    struct sockaddr_alg sa;
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    actx->bfd = actx->sfd = -1;
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    int r = -1;
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    memset(&sa, 0, sizeof(sa));
    sa.salg_family = AF_ALG;
    strncpy((char *) sa.salg_type, ciphertype, ALG_MAX_SALG_TYPE);
    sa.salg_type[ALG_MAX_SALG_TYPE-1] = '\0';
    strncpy((char *) sa.salg_name, ciphername, ALG_MAX_SALG_NAME);
    sa.salg_name[ALG_MAX_SALG_NAME-1] = '\0';

    actx->bfd = socket(AF_ALG, SOCK_SEQPACKET, 0);
    if (actx->bfd == -1) {
        ALG_PERR("%s: Failed to open socket : ", __func__);
        AFALGerr(AFALG_F_AFALG_CREATE_SK, AFALG_R_SOCKET_CREATE_FAILED);
        goto err;
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    }

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    r = bind(actx->bfd, (struct sockaddr *)&sa, sizeof(sa));
    if (r < 0) {
        ALG_PERR("%s: Failed to bind socket : ", __func__);
        AFALGerr(AFALG_F_AFALG_CREATE_SK, AFALG_R_SOCKET_BIND_FAILED);
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        goto err;
    }

    actx->sfd = accept(actx->bfd, NULL, 0);
    if (actx->sfd < 0) {
        ALG_PERR("%s: Socket Accept Failed : ", __func__);
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        AFALGerr(AFALG_F_AFALG_CREATE_SK, AFALG_R_SOCKET_ACCEPT_FAILED);
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        goto err;
    }

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    return 1;
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 err:
    if (actx->bfd >= 0)
        close(actx->bfd);
    if (actx->sfd >= 0)
        close(actx->sfd);
    actx->bfd = actx->sfd = -1;
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    return 0;
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}

static int afalg_start_cipher_sk(afalg_ctx *actx, const unsigned char *in,
                                 size_t inl, const unsigned char *iv,
                                 unsigned int enc)
{
    struct msghdr msg = { 0 };
    struct cmsghdr *cmsg;
    struct iovec iov;
    ssize_t sbytes;
# ifdef ALG_ZERO_COPY
    int ret;
# endif
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    char cbuf[CMSG_SPACE(ALG_IV_LEN(ALG_AES_IV_LEN)) + CMSG_SPACE(ALG_OP_LEN)];
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    memset(cbuf, 0, sizeof(cbuf));
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    msg.msg_control = cbuf;
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    msg.msg_controllen = sizeof(cbuf);
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    /*
     * cipher direction (i.e. encrypt or decrypt) and iv are sent to the
     * kernel as part of sendmsg()'s ancillary data
     */
    cmsg = CMSG_FIRSTHDR(&msg);
    afalg_set_op_sk(cmsg, enc);
    cmsg = CMSG_NXTHDR(&msg, cmsg);
    afalg_set_iv_sk(cmsg, iv, ALG_AES_IV_LEN);

    /* iov that describes input data */
    iov.iov_base = (unsigned char *)in;
    iov.iov_len = inl;

    msg.msg_flags = MSG_MORE;

# ifdef ALG_ZERO_COPY
    /*
     * ZERO_COPY mode
     * Works best when buffer is 4k aligned
     * OPENS: out of place processing (i.e. out != in)
     */

    /* Input data is not sent as part of call to sendmsg() */
    msg.msg_iovlen = 0;
    msg.msg_iov = NULL;

    /* Sendmsg() sends iv and cipher direction to the kernel */
    sbytes = sendmsg(actx->sfd, &msg, 0);
    if (sbytes < 0) {
        ALG_PERR("%s: sendmsg failed for zero copy cipher operation : ",
                 __func__);
        return 0;
    }

    /*
     * vmsplice and splice are used to pin the user space input buffer for
     * kernel space processing avoiding copys from user to kernel space
     */
    ret = vmsplice(actx->zc_pipe[1], &iov, 1, SPLICE_F_GIFT);
    if (ret < 0) {
        ALG_PERR("%s: vmsplice failed : ", __func__);
        return 0;
    }

    ret = splice(actx->zc_pipe[0], NULL, actx->sfd, NULL, inl, 0);
    if (ret < 0) {
        ALG_PERR("%s: splice failed : ", __func__);
        return 0;
    }
# else
    msg.msg_iovlen = 1;
    msg.msg_iov = &iov;

    /* Sendmsg() sends iv, cipher direction and input data to the kernel */
    sbytes = sendmsg(actx->sfd, &msg, 0);
    if (sbytes < 0) {
        ALG_PERR("%s: sendmsg failed for cipher operation : ", __func__);
        return 0;
    }

    if (sbytes != (ssize_t) inl) {
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        ALG_WARN("Cipher operation send bytes %zd != inlen %zd\n", sbytes,
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                inl);
        return 0;
    }
# endif

    return 1;
}

static int afalg_cipher_init(EVP_CIPHER_CTX *ctx, const unsigned char *key,
                             const unsigned char *iv, int enc)
{
    int ciphertype;
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    int ret;
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    afalg_ctx *actx;
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    char ciphername[ALG_MAX_SALG_NAME];
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    if (ctx == NULL || key == NULL) {
        ALG_WARN("%s: Null Parameter\n", __func__);
        return 0;
    }

    if (EVP_CIPHER_CTX_cipher(ctx) == NULL) {
        ALG_WARN("%s: Cipher object NULL\n", __func__);
        return 0;
    }

    actx = EVP_CIPHER_CTX_cipher_data(ctx);
    if (actx == NULL) {
        ALG_WARN("%s: Cipher data NULL\n", __func__);
        return 0;
    }

    ciphertype = EVP_CIPHER_CTX_nid(ctx);
    switch (ciphertype) {
    case NID_aes_128_cbc:
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        strncpy(ciphername, "cbc(aes)", ALG_MAX_SALG_NAME);
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        break;
    default:
        ALG_WARN("%s: Unsupported Cipher type %d\n", __func__, ciphertype);
        return 0;
    }
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    ciphername[ALG_MAX_SALG_NAME-1]='\0';
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    if (ALG_AES_IV_LEN != EVP_CIPHER_CTX_iv_length(ctx)) {
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        ALG_WARN("%s: Unsupported IV length :%d\n", __func__,
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                EVP_CIPHER_CTX_iv_length(ctx));
        return 0;
    }

    /* Setup AFALG socket for crypto processing */
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    ret = afalg_create_sk(actx, "skcipher", ciphername);
    if (ret < 1)
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        return 0;
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    ret = afalg_set_key(actx, key, EVP_CIPHER_CTX_key_length(ctx));
    if (ret < 1)
        goto err;
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    /* Setup AIO ctx to allow async AFALG crypto processing */
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    if (afalg_init_aio(&actx->aio) == 0)
        goto err;

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# ifdef ALG_ZERO_COPY
    pipe(actx->zc_pipe);
# endif

    actx->init_done = MAGIC_INIT_NUM;

    return 1;
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err:
    close(actx->sfd);
    close(actx->bfd);
    return 0;
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}

static int afalg_do_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out,
                           const unsigned char *in, size_t inl)
{
    afalg_ctx *actx;
    int ret;
    char nxtiv[ALG_AES_IV_LEN] = { 0 };

    if (ctx == NULL || out == NULL || in == NULL) {
        ALG_WARN("NULL parameter passed to function %s\n", __func__);
        return 0;
    }

    actx = (afalg_ctx *) EVP_CIPHER_CTX_cipher_data(ctx);
    if (actx == NULL || actx->init_done != MAGIC_INIT_NUM) {
        ALG_WARN("%s afalg ctx passed\n",
                 ctx == NULL ? "NULL" : "Uninitialised");
        return 0;
    }

    /*
     * set iv now for decrypt operation as the input buffer can be
     * overwritten for inplace operation where in = out.
     */
    if (EVP_CIPHER_CTX_encrypting(ctx) == 0) {
        memcpy(nxtiv, in + (inl - ALG_AES_IV_LEN), ALG_AES_IV_LEN);
    }

    /* Send input data to kernel space */
    ret = afalg_start_cipher_sk(actx, (unsigned char *)in, inl,
                                EVP_CIPHER_CTX_iv(ctx),
                                EVP_CIPHER_CTX_encrypting(ctx));
    if (ret < 1) {
        return 0;
    }

    /* Perform async crypto operation in kernel space */
    ret = afalg_fin_cipher_aio(&actx->aio, actx->sfd, out, inl);
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    if (ret < 1)
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        return 0;

    if (EVP_CIPHER_CTX_encrypting(ctx)) {
        memcpy(EVP_CIPHER_CTX_iv_noconst(ctx), out + (inl - ALG_AES_IV_LEN),
               ALG_AES_IV_LEN);
    } else {
        memcpy(EVP_CIPHER_CTX_iv_noconst(ctx), nxtiv, ALG_AES_IV_LEN);
    }

    return 1;
}

static int afalg_cipher_cleanup(EVP_CIPHER_CTX *ctx)
{
    afalg_ctx *actx;

    if (ctx == NULL) {
        ALG_WARN("NULL parameter passed to function %s\n", __func__);
        return 0;
    }

    actx = (afalg_ctx *) EVP_CIPHER_CTX_cipher_data(ctx);
    if (actx == NULL || actx->init_done != MAGIC_INIT_NUM) {
        ALG_WARN("%s afalg ctx passed\n",
                 ctx == NULL ? "NULL" : "Uninitialised");
        return 0;
    }

    close(actx->sfd);
    close(actx->bfd);
# ifdef ALG_ZERO_COPY
    close(actx->zc_pipe[0]);
    close(actx->zc_pipe[1]);
# endif
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    /* close efd in sync mode, async mode is closed in afalg_waitfd_cleanup() */
    if (actx->aio.mode == MODE_SYNC)
        close(actx->aio.efd);
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    io_destroy(actx->aio.aio_ctx);

    return 1;
}

const EVP_CIPHER *afalg_aes_128_cbc(void)
{
    if (_hidden_aes_128_cbc == NULL
        && ((_hidden_aes_128_cbc =
             EVP_CIPHER_meth_new(NID_aes_128_cbc,
                                 AES_BLOCK_SIZE,
                                 AES_KEY_SIZE_128)) == NULL
            || !EVP_CIPHER_meth_set_iv_length(_hidden_aes_128_cbc, AES_IV_LEN)
            || !EVP_CIPHER_meth_set_flags(_hidden_aes_128_cbc,
                                          EVP_CIPH_CBC_MODE |
                                          EVP_CIPH_FLAG_DEFAULT_ASN1)
            || !EVP_CIPHER_meth_set_init(_hidden_aes_128_cbc,
                                         afalg_cipher_init)
            || !EVP_CIPHER_meth_set_do_cipher(_hidden_aes_128_cbc,
                                              afalg_do_cipher)
            || !EVP_CIPHER_meth_set_cleanup(_hidden_aes_128_cbc,
                                            afalg_cipher_cleanup)
            || !EVP_CIPHER_meth_set_impl_ctx_size(_hidden_aes_128_cbc,
                                                  sizeof(afalg_ctx)))) {
        EVP_CIPHER_meth_free(_hidden_aes_128_cbc);
        _hidden_aes_128_cbc = NULL;
    }
    return _hidden_aes_128_cbc;
}

static int afalg_ciphers(ENGINE *e, const EVP_CIPHER **cipher,
                         const int **nids, int nid)
{
    int r = 1;

    if (cipher == NULL) {
        *nids = afalg_cipher_nids;
        return (sizeof(afalg_cipher_nids) / sizeof(afalg_cipher_nids[0]));
    }

    switch (nid) {
    case NID_aes_128_cbc:
        *cipher = afalg_aes_128_cbc();
        break;
    default:
        *cipher = NULL;
        r = 0;
    }

    return r;
}

static int bind_afalg(ENGINE *e)
{
    /* Ensure the afalg error handling is set up */
    ERR_load_AFALG_strings();

    if (!ENGINE_set_id(e, engine_afalg_id)
        || !ENGINE_set_name(e, engine_afalg_name)
        || !ENGINE_set_destroy_function(e, afalg_destroy)
        || !ENGINE_set_init_function(e, afalg_init)
        || !ENGINE_set_finish_function(e, afalg_finish)) {
        AFALGerr(AFALG_F_BIND_AFALG, AFALG_R_INIT_FAILED);
        return 0;
    }

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    /*
     * Create _hidden_aes_128_cbc by calling afalg_aes_128_cbc
     * now, as bind_aflag can only be called by one thread at a
     * time.
     */
    if (afalg_aes_128_cbc() == NULL) {
        AFALGerr(AFALG_F_BIND_AFALG, AFALG_R_INIT_FAILED);
        return 0;
    }

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    if (!ENGINE_set_ciphers(e, afalg_ciphers)) {
        AFALGerr(AFALG_F_BIND_AFALG, AFALG_R_INIT_FAILED);
        return 0;
    }

    return 1;
}

# ifndef OPENSSL_NO_DYNAMIC_ENGINE
static int bind_helper(ENGINE *e, const char *id)
{
    if (id && (strcmp(id, engine_afalg_id) != 0))
        return 0;

    if (!afalg_chk_platform())
        return 0;

    if (!bind_afalg(e))
        return 0;
    return 1;
}

IMPLEMENT_DYNAMIC_CHECK_FN()
    IMPLEMENT_DYNAMIC_BIND_FN(bind_helper)
# endif
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static int afalg_chk_platform(void)
{
    int ret;
    int i;
    int kver[3] = { -1, -1, -1 };
    char *str;
    struct utsname ut;

    ret = uname(&ut);
    if (ret != 0) {
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        AFALGerr(AFALG_F_AFALG_CHK_PLATFORM,
                 AFALG_R_FAILED_TO_GET_PLATFORM_INFO);
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        return 0;
    }

    str = strtok(ut.release, ".");
    for (i = 0; i < 3 && str != NULL; i++) {
        kver[i] = atoi(str);
        str = strtok(NULL, ".");
    }

    if (KERNEL_VERSION(kver[0], kver[1], kver[2])
        < KERNEL_VERSION(K_MAJ, K_MIN1, K_MIN2)) {
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        ALG_ERR("ASYNC AFALG not supported this kernel(%d.%d.%d)\n",
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                 kver[0], kver[1], kver[2]);
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        ALG_ERR("ASYNC AFALG requires kernel version %d.%d.%d or later\n",
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                 K_MAJ, K_MIN1, K_MIN2);
        AFALGerr(AFALG_F_AFALG_CHK_PLATFORM,
                 AFALG_R_KERNEL_DOES_NOT_SUPPORT_ASYNC_AFALG);
        return 0;
    }

    return 1;
}

# ifdef OPENSSL_NO_DYNAMIC_ENGINE
static ENGINE *engine_afalg(void)
{
    ENGINE *ret = ENGINE_new();
    if (ret == NULL)
        return NULL;
    if (!bind_afalg(ret)) {
        ENGINE_free(ret);
        return NULL;
    }
    return ret;
}

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void engine_load_afalg_internal(void)
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{
    ENGINE *toadd;

    if (!afalg_chk_platform())
        return;

    toadd = engine_afalg();
    if (toadd == NULL)
        return;
    ENGINE_add(toadd);
    ENGINE_free(toadd);
    ERR_clear_error();
}
# endif

static int afalg_init(ENGINE *e)
{
    return 1;
}

static int afalg_finish(ENGINE *e)
{
    return 1;
}

static int afalg_destroy(ENGINE *e)
{
    ERR_unload_AFALG_strings();
    return 1;
}

#endif                          /* KERNEL VERSION */