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path: root/src/plugins/dpdk/ipsec/ipsec.c
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/*
 * Copyright (c) 2017 Intel and/or its affiliates.
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at:
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
#include <vnet/vnet.h>
#include <vnet/ip/ip.h>
#include <vnet/api_errno.h>
#include <vnet/ipsec/ipsec.h>
#include <vlib/node_funcs.h>

#include <dpdk/device/dpdk.h>
#include <dpdk/buffer.h>
#include <dpdk/ipsec/ipsec.h>

dpdk_crypto_main_t dpdk_crypto_main;

#define EMPTY_STRUCT {0}
#define NUM_CRYPTO_MBUFS 16384

static void
algos_init (u32 n_mains)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *a;

  vec_validate_aligned (dcm->cipher_algs, IPSEC_CRYPTO_N_ALG - 1, 8);

  {
#define _(v,f,str) \
  dcm->cipher_algs[IPSEC_CRYPTO_ALG_##f].name = str; \
  dcm->cipher_algs[IPSEC_CRYPTO_ALG_##f].disabled = n_mains;
    foreach_ipsec_crypto_alg
#undef _
  }

  /* Minimum boundary for ciphers is 4B, required by ESP */
  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_NONE];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_NULL;
  a->boundary = 4;		/* 1 */
  a->key_len = 0;
  a->iv_len = 0;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_CBC_128];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_AES_CBC;
  a->boundary = 16;
  a->key_len = 16;
  a->iv_len = 16;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_CBC_192];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_AES_CBC;
  a->boundary = 16;
  a->key_len = 24;
  a->iv_len = 16;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_CBC_256];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_AES_CBC;
  a->boundary = 16;
  a->key_len = 32;
  a->iv_len = 16;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_CTR_128];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_AES_CTR;
  a->boundary = 4;		/* 1 */
  a->key_len = 16;
  a->iv_len = 8;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_CTR_192];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_AES_CTR;
  a->boundary = 4;		/* 1 */
  a->key_len = 24;
  a->iv_len = 8;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_CTR_256];
  a->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  a->alg = RTE_CRYPTO_CIPHER_AES_CTR;
  a->boundary = 4;		/* 1 */
  a->key_len = 32;
  a->iv_len = 8;

#define AES_GCM_TYPE RTE_CRYPTO_SYM_XFORM_AEAD
#define AES_GCM_ALG RTE_CRYPTO_AEAD_AES_GCM

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_GCM_128];
  a->type = AES_GCM_TYPE;
  a->alg = AES_GCM_ALG;
  a->boundary = 4;		/* 1 */
  a->key_len = 16;
  a->iv_len = 8;
  a->trunc_size = 16;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_GCM_192];
  a->type = AES_GCM_TYPE;
  a->alg = AES_GCM_ALG;
  a->boundary = 4;		/* 1 */
  a->key_len = 24;
  a->iv_len = 8;
  a->trunc_size = 16;

  a = &dcm->cipher_algs[IPSEC_CRYPTO_ALG_AES_GCM_256];
  a->type = AES_GCM_TYPE;
  a->alg = AES_GCM_ALG;
  a->boundary = 4;		/* 1 */
  a->key_len = 32;
  a->iv_len = 8;
  a->trunc_size = 16;

  vec_validate (dcm->auth_algs, IPSEC_INTEG_N_ALG - 1);

  {
#define _(v,f,str) \
  dcm->auth_algs[IPSEC_INTEG_ALG_##f].name = str; \
  dcm->auth_algs[IPSEC_INTEG_ALG_##f].disabled = n_mains;
    foreach_ipsec_integ_alg
#undef _
  }

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_NONE];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_NULL;
  a->key_len = 0;
  a->trunc_size = 0;

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_MD5_96];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_MD5_HMAC;
  a->key_len = 16;
  a->trunc_size = 12;

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_SHA1_96];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_SHA1_HMAC;
  a->key_len = 20;
  a->trunc_size = 12;

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_SHA_256_96];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_SHA256_HMAC;
  a->key_len = 32;
  a->trunc_size = 12;

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_SHA_256_128];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_SHA256_HMAC;
  a->key_len = 32;
  a->trunc_size = 16;

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_SHA_384_192];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_SHA384_HMAC;
  a->key_len = 48;
  a->trunc_size = 24;

  a = &dcm->auth_algs[IPSEC_INTEG_ALG_SHA_512_256];
  a->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  a->alg = RTE_CRYPTO_AUTH_SHA512_HMAC;
  a->key_len = 64;
  a->trunc_size = 32;
}

static u8
cipher_alg_index (const crypto_alg_t * alg)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;

  return (alg - dcm->cipher_algs);
}

static u8
auth_alg_index (const crypto_alg_t * alg)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;

  return (alg - dcm->auth_algs);
}

static crypto_alg_t *
cipher_cap_to_alg (const struct rte_cryptodev_capabilities *cap, u8 key_len)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *alg;

  if (cap->op != RTE_CRYPTO_OP_TYPE_SYMMETRIC)
    return NULL;

  /* *INDENT-OFF* */
  vec_foreach (alg, dcm->cipher_algs)
    {
      if ((cap->sym.xform_type == RTE_CRYPTO_SYM_XFORM_CIPHER) &&
	  (alg->type == RTE_CRYPTO_SYM_XFORM_CIPHER) &&
	  (cap->sym.cipher.algo == alg->alg) &&
	  (alg->key_len == key_len))
	return alg;
      if ((cap->sym.xform_type == RTE_CRYPTO_SYM_XFORM_AEAD) &&
	  (alg->type == RTE_CRYPTO_SYM_XFORM_AEAD) &&
	  (cap->sym.aead.algo == alg->alg) &&
	  (alg->key_len == key_len))
	return alg;
    }
  /* *INDENT-ON* */

  return NULL;
}

static crypto_alg_t *
auth_cap_to_alg (const struct rte_cryptodev_capabilities *cap, u8 trunc_size)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *alg;

  if ((cap->op != RTE_CRYPTO_OP_TYPE_SYMMETRIC) ||
      (cap->sym.xform_type != RTE_CRYPTO_SYM_XFORM_AUTH))
    return NULL;

  /* *INDENT-OFF* */
  vec_foreach (alg, dcm->auth_algs)
    {
      if ((cap->sym.auth.algo == alg->alg) &&
	  (alg->trunc_size == trunc_size))
	return alg;
    }
  /* *INDENT-ON* */

  return NULL;
}

static void
crypto_set_aead_xform (struct rte_crypto_sym_xform *xform,
		       ipsec_sa_t * sa, u8 is_outbound)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *c;

  c = vec_elt_at_index (dcm->cipher_algs, sa->crypto_alg);

  ASSERT (c->type == RTE_CRYPTO_SYM_XFORM_AEAD);

  xform->type = RTE_CRYPTO_SYM_XFORM_AEAD;
  xform->aead.algo = c->alg;
  xform->aead.key.data = sa->crypto_key.data;
  xform->aead.key.length = c->key_len;
  xform->aead.iv.offset =
    crypto_op_get_priv_offset () + offsetof (dpdk_op_priv_t, cb);
  xform->aead.iv.length = 12;
  xform->aead.digest_length = c->trunc_size;
  xform->aead.aad_length = ipsec_sa_is_set_USE_ESN (sa) ? 12 : 8;
  xform->next = NULL;

  if (is_outbound)
    xform->aead.op = RTE_CRYPTO_AEAD_OP_ENCRYPT;
  else
    xform->aead.op = RTE_CRYPTO_AEAD_OP_DECRYPT;
}

static void
crypto_set_cipher_xform (struct rte_crypto_sym_xform *xform,
			 ipsec_sa_t * sa, u8 is_outbound)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *c;

  c = vec_elt_at_index (dcm->cipher_algs, sa->crypto_alg);

  ASSERT (c->type == RTE_CRYPTO_SYM_XFORM_CIPHER);

  xform->type = RTE_CRYPTO_SYM_XFORM_CIPHER;
  xform->cipher.algo = c->alg;
  xform->cipher.key.data = sa->crypto_key.data;
  xform->cipher.key.length = c->key_len;
  xform->cipher.iv.offset =
    crypto_op_get_priv_offset () + offsetof (dpdk_op_priv_t, cb);
  xform->cipher.iv.length = c->iv_len;
  xform->next = NULL;

  if (is_outbound)
    xform->cipher.op = RTE_CRYPTO_CIPHER_OP_ENCRYPT;
  else
    xform->cipher.op = RTE_CRYPTO_CIPHER_OP_DECRYPT;
}

static void
crypto_set_auth_xform (struct rte_crypto_sym_xform *xform,
		       ipsec_sa_t * sa, u8 is_outbound)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *a;

  a = vec_elt_at_index (dcm->auth_algs, sa->integ_alg);

  ASSERT (a->type == RTE_CRYPTO_SYM_XFORM_AUTH);

  xform->type = RTE_CRYPTO_SYM_XFORM_AUTH;
  xform->auth.algo = a->alg;
  xform->auth.key.data = sa->integ_key.data;
  xform->auth.key.length = a->key_len;
  xform->auth.digest_length = a->trunc_size;
  xform->next = NULL;

  if (is_outbound)
    xform->auth.op = RTE_CRYPTO_AUTH_OP_GENERATE;
  else
    xform->auth.op = RTE_CRYPTO_AUTH_OP_VERIFY;
}

clib_error_t *
create_sym_session (struct rte_cryptodev_sym_session **session,
		    u32 sa_idx,
		    crypto_resource_t * res,
		    crypto_worker_main_t * cwm, u8 is_outbound)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  ipsec_main_t *im = &ipsec_main;
  crypto_data_t *data;
  ipsec_sa_t *sa;
  struct rte_crypto_sym_xform cipher_xform = { 0 };
  struct rte_crypto_sym_xform auth_xform = { 0 };
  struct rte_crypto_sym_xform *xfs;
  struct rte_cryptodev_sym_session **s;
  clib_error_t *error = 0;


  sa = pool_elt_at_index (im->sad, sa_idx);

  if ((sa->crypto_alg == IPSEC_CRYPTO_ALG_AES_GCM_128) |
      (sa->crypto_alg == IPSEC_CRYPTO_ALG_AES_GCM_192) |
      (sa->crypto_alg == IPSEC_CRYPTO_ALG_AES_GCM_256))
    {
      crypto_set_aead_xform (&cipher_xform, sa, is_outbound);
      xfs = &cipher_xform;
    }
  else
    {
      crypto_set_cipher_xform (&cipher_xform, sa, is_outbound);
      crypto_set_auth_xform (&auth_xform, sa, is_outbound);

      if (is_outbound)
	{
	  cipher_xform.next = &auth_xform;
	  xfs = &cipher_xform;
	}
      else
	{
	  auth_xform.next = &cipher_xform;
	  xfs = &auth_xform;
	}
    }

  data = vec_elt_at_index (dcm->data, res->numa);
  clib_spinlock_lock_if_init (&data->lockp);

  /*
   * DPDK_VER >= 1708:
   *   Multiple worker/threads share the session for an SA
   *   Single session per SA, initialized for each device driver
   */
  s = (void *) hash_get (data->session_by_sa_index, sa_idx);

  if (!s)
    {
      session[0] = rte_cryptodev_sym_session_create (data->session_h);
      if (!session[0])
	{
	  data->session_h_failed += 1;
	  error = clib_error_return (0, "failed to create session header");
	  goto done;
	}
      hash_set (data->session_by_sa_index, sa_idx, session[0]);
    }
  else
    session[0] = s[0];

  struct rte_mempool **mp;
  mp = vec_elt_at_index (data->session_drv, res->drv_id);
  ASSERT (mp[0] != NULL);

  i32 ret =
    rte_cryptodev_sym_session_init (res->dev_id, session[0], xfs, mp[0]);
  if (ret)
    {
      data->session_drv_failed[res->drv_id] += 1;
      error = clib_error_return (0, "failed to init session for drv %u",
				 res->drv_id);
      goto done;
    }

  add_session_by_drv_and_sa_idx (session[0], data, res->drv_id, sa_idx);

done:
  clib_spinlock_unlock_if_init (&data->lockp);
  return error;
}

static void __attribute__ ((unused)) clear_and_free_obj (void *obj)
{
  struct rte_mempool *mp = rte_mempool_from_obj (obj);

  clib_memset (obj, 0, mp->elt_size);

  rte_mempool_put (mp, obj);
}

/* This is from rte_cryptodev_pmd.h */
static inline void *
get_session_private_data (const struct rte_cryptodev_sym_session *sess,
			  uint8_t driver_id)
{
#if RTE_VERSION < RTE_VERSION_NUM(19, 2, 0, 0)
  return sess->sess_private_data[driver_id];
#else
  if (unlikely (sess->nb_drivers <= driver_id))
    return 0;

  return sess->sess_data[driver_id].data;
#endif
}

/* This is from rte_cryptodev_pmd.h */
static inline void
set_session_private_data (struct rte_cryptodev_sym_session *sess,
			  uint8_t driver_id, void *private_data)
{
#if RTE_VERSION < RTE_VERSION_NUM(19, 2, 0, 0)
  sess->sess_private_data[driver_id] = private_data;
#else
  if (unlikely (sess->nb_drivers <= driver_id))
    return;
  sess->sess_data[driver_id].data = private_data;
#endif
}

static clib_error_t *
dpdk_crypto_session_disposal (crypto_session_disposal_t * v, u64 ts)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_session_disposal_t *s;
  void *drv_session;
  u32 drv_id;
  i32 ret;

  /* *INDENT-OFF* */
  vec_foreach (s, v)
    {
      /* ordered vector by timestamp */
      if (!(s->ts + dcm->session_timeout < ts))
	break;

      vec_foreach_index (drv_id, dcm->drv)
	{
	  drv_session = get_session_private_data (s->session, drv_id);
	  if (!drv_session)
	    continue;

	  /*
	   * Custom clear to avoid finding a dev_id for drv_id:
	   *  ret = rte_cryptodev_sym_session_clear (dev_id, drv_session);
	   *  ASSERT (!ret);
	   */
	  clear_and_free_obj (drv_session);

	  set_session_private_data (s->session, drv_id, NULL);
	}

      if (rte_mempool_from_obj(s->session))
	{
	  ret = rte_cryptodev_sym_session_free (s->session);
	  ASSERT (!ret);
	}
    }
  /* *INDENT-ON* */

  if (s < vec_end (v))
    vec_delete (v, s - v, 0);
  else
    vec_reset_length (v);

  return 0;
}

static clib_error_t *
add_del_sa_session (u32 sa_index, u8 is_add)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_data_t *data;
  struct rte_cryptodev_sym_session *s;
  uword *val;
  u32 drv_id;

  if (is_add)
    return 0;

  /* *INDENT-OFF* */
  vec_foreach (data, dcm->data)
    {
      clib_spinlock_lock_if_init (&data->lockp);
      val = hash_get (data->session_by_sa_index, sa_index);
      if (val)
        {
          s = (struct rte_cryptodev_sym_session *) val[0];
          vec_foreach_index (drv_id, dcm->drv)
            {
              val = (uword*) get_session_by_drv_and_sa_idx (data, drv_id, sa_index);
              if (val)
                add_session_by_drv_and_sa_idx(NULL, data, drv_id, sa_index);
            }

          hash_unset (data->session_by_sa_index, sa_index);

          u64 ts = unix_time_now_nsec ();
          dpdk_crypto_session_disposal (data->session_disposal, ts);

          crypto_session_disposal_t sd;
          sd.ts = ts;
          sd.session = s;

          vec_add1 (data->session_disposal, sd);
        }
      clib_spinlock_unlock_if_init (&data->lockp);
    }
  /* *INDENT-ON* */

  return 0;
}

static clib_error_t *
dpdk_ipsec_check_support (ipsec_sa_t * sa)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;

  if (sa->integ_alg == IPSEC_INTEG_ALG_NONE)
    switch (sa->crypto_alg)
      {
      case IPSEC_CRYPTO_ALG_NONE:
      case IPSEC_CRYPTO_ALG_AES_GCM_128:
      case IPSEC_CRYPTO_ALG_AES_GCM_192:
      case IPSEC_CRYPTO_ALG_AES_GCM_256:
	break;
      default:
	return clib_error_return (0, "unsupported integ-alg %U crypto-alg %U",
				  format_ipsec_integ_alg, sa->integ_alg,
				  format_ipsec_crypto_alg, sa->crypto_alg);
      }

  /* XXX do we need the NONE check? */
  if (sa->crypto_alg != IPSEC_CRYPTO_ALG_NONE &&
      dcm->cipher_algs[sa->crypto_alg].disabled)
    return clib_error_return (0, "disabled crypto-alg %U",
			      format_ipsec_crypto_alg, sa->crypto_alg);

  /* XXX do we need the NONE check? */
  if (sa->integ_alg != IPSEC_INTEG_ALG_NONE &&
      dcm->auth_algs[sa->integ_alg].disabled)
    return clib_error_return (0, "disabled integ-alg %U",
			      format_ipsec_integ_alg, sa->integ_alg);
  return NULL;
}

static void
crypto_parse_capabilities (crypto_dev_t * dev,
			   const struct rte_cryptodev_capabilities *cap,
			   u32 n_mains)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_alg_t *alg;
  u8 len, inc;

  for (; cap->op != RTE_CRYPTO_OP_TYPE_UNDEFINED; cap++)
    {
      /* A single capability maps to multiple cipher/auth algorithms */
      switch (cap->sym.xform_type)
	{
	case RTE_CRYPTO_SYM_XFORM_AEAD:
	case RTE_CRYPTO_SYM_XFORM_CIPHER:
	  inc = cap->sym.cipher.key_size.increment;
	  inc = inc ? inc : 1;
	  for (len = cap->sym.cipher.key_size.min;
	       len <= cap->sym.cipher.key_size.max; len += inc)
	    {
	      alg = cipher_cap_to_alg (cap, len);
	      if (!alg)
		continue;
	      dev->cipher_support[cipher_alg_index (alg)] = 1;
	      alg->resources += vec_len (dev->free_resources);
	      /* At least enough resources to support one algo */
	      dcm->enabled |= (alg->resources >= n_mains);
	    }
	  break;
	case RTE_CRYPTO_SYM_XFORM_AUTH:
	  inc = cap->sym.auth.digest_size.increment;
	  inc = inc ? inc : 1;
	  for (len = cap->sym.auth.digest_size.min;
	       len <= cap->sym.auth.digest_size.max; len += inc)
	    {
	      alg = auth_cap_to_alg (cap, len);
	      if (!alg)
		continue;
	      dev->auth_support[auth_alg_index (alg)] = 1;
	      alg->resources += vec_len (dev->free_resources);
	      /* At least enough resources to support one algo */
	      dcm->enabled |= (alg->resources >= n_mains);
	    }
	  break;
	default:
	  ;
	}
    }
}

static clib_error_t *
crypto_dev_conf (u8 dev, u16 n_qp, u8 numa)
{
  struct rte_cryptodev_config dev_conf = { 0 };
  struct rte_cryptodev_qp_conf qp_conf = { 0 };
  i32 ret;
  u16 qp;
  char *error_str;

  dev_conf.socket_id = numa;
  dev_conf.nb_queue_pairs = n_qp;

  error_str = "failed to configure crypto device %u";
  ret = rte_cryptodev_configure (dev, &dev_conf);
  if (ret < 0)
    return clib_error_return (0, error_str, dev);

  error_str = "failed to setup crypto device %u queue pair %u";
  qp_conf.nb_descriptors = DPDK_CRYPTO_N_QUEUE_DESC;
  for (qp = 0; qp < n_qp; qp++)
    {
#if RTE_VERSION < RTE_VERSION_NUM(19, 2, 0, 0)
      ret = rte_cryptodev_queue_pair_setup (dev, qp, &qp_conf, numa, NULL);
#else
      ret = rte_cryptodev_queue_pair_setup (dev, qp, &qp_conf, numa);
#endif
      if (ret < 0)
	return clib_error_return (0, error_str, dev, qp);
    }

  error_str = "failed to start crypto device %u";
  if (rte_cryptodev_start (dev))
    return clib_error_return (0, error_str, dev);

  return 0;
}

static void
crypto_scan_devs (u32 n_mains)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  struct rte_cryptodev *cryptodev;
  struct rte_cryptodev_info info = { 0 };
  crypto_dev_t *dev;
  crypto_resource_t *res;
  clib_error_t *error;
  u32 i;
  u16 max_res_idx, res_idx, j;
  u8 drv_id;

  vec_validate_init_empty (dcm->dev, rte_cryptodev_count () - 1,
			   (crypto_dev_t) EMPTY_STRUCT);

  for (i = 0; i < rte_cryptodev_count (); i++)
    {
      dev = vec_elt_at_index (dcm->dev, i);

      cryptodev = &rte_cryptodevs[i];
      rte_cryptodev_info_get (i, &info);

      dev->id = i;
      dev->name = cryptodev->data->name;
      dev->numa = rte_cryptodev_socket_id (i);
      dev->features = info.feature_flags;
      dev->max_qp = info.max_nb_queue_pairs;
      drv_id = info.driver_id;
      if (drv_id >= vec_len (dcm->drv))
	vec_validate_init_empty (dcm->drv, drv_id,
				 (crypto_drv_t) EMPTY_STRUCT);
      vec_elt_at_index (dcm->drv, drv_id)->name = info.driver_name;
      dev->drv_id = drv_id;
      vec_add1 (vec_elt_at_index (dcm->drv, drv_id)->devs, i);

      if (!(info.feature_flags & RTE_CRYPTODEV_FF_SYM_OPERATION_CHAINING))
	continue;

      if ((error = crypto_dev_conf (i, dev->max_qp, dev->numa)))
	{
	  clib_error_report (error);
	  continue;
	}

      max_res_idx = dev->max_qp - 1;

      vec_validate (dev->free_resources, max_res_idx);

      res_idx = vec_len (dcm->resource);
      vec_validate_init_empty_aligned (dcm->resource, res_idx + max_res_idx,
				       (crypto_resource_t) EMPTY_STRUCT,
				       CLIB_CACHE_LINE_BYTES);

      for (j = 0; j <= max_res_idx; j++)
	{
	  vec_elt (dev->free_resources, max_res_idx - j) = res_idx + j;
	  res = &dcm->resource[res_idx + j];
	  res->dev_id = i;
	  res->drv_id = drv_id;
	  res->qp_id = j;
	  res->numa = dev->numa;
	  res->thread_idx = (u16) ~ 0;
	}

      crypto_parse_capabilities (dev, info.capabilities, n_mains);
    }
}

void
crypto_auto_placement (void)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_resource_t *res;
  crypto_worker_main_t *cwm;
  crypto_dev_t *dev;
  u32 thread_idx, skip_master;
  u16 res_idx, *idx;
  u8 used;
  u16 i;

  skip_master = vlib_num_workers () > 0;

  /* *INDENT-OFF* */
  vec_foreach (dev, dcm->dev)
    {
      vec_foreach_index (thread_idx, dcm->workers_main)
	{
	  if (vec_len (dev->free_resources) == 0)
	    break;

	  if (thread_idx < skip_master)
	    continue;

	  /* Check thread is not already using the device */
	  vec_foreach (idx, dev->used_resources)
	    if (dcm->resource[idx[0]].thread_idx == thread_idx)
	      continue;

	  cwm = vec_elt_at_index (dcm->workers_main, thread_idx);

	  used = 0;
	  res_idx = vec_pop (dev->free_resources);

	  /* Set device only for supported algos */
	  for (i = 0; i < IPSEC_CRYPTO_N_ALG; i++)
	    if (dev->cipher_support[i] &&
		cwm->cipher_resource_idx[i] == (u16) ~0)
	      {
		dcm->cipher_algs[i].disabled--;
		cwm->cipher_resource_idx[i] = res_idx;
		used = 1;
	      }

	  for (i = 0; i < IPSEC_INTEG_N_ALG; i++)
	    if (dev->auth_support[i] &&
		cwm->auth_resource_idx[i] == (u16) ~0)
	      {
		dcm->auth_algs[i].disabled--;
		cwm->auth_resource_idx[i] = res_idx;
		used = 1;
	      }

	  if (!used)
	    {
	      vec_add1 (dev->free_resources, res_idx);
	      continue;
	    }

	  vec_add1 (dev->used_resources, res_idx);

	  res = vec_elt_at_index (dcm->resource, res_idx);

	  ASSERT (res->thread_idx == (u16) ~0);
	  res->thread_idx = thread_idx;

	  /* Add device to vector of polling resources */
	  vec_add1 (cwm->resource_idx, res_idx);
	}
    }
  /* *INDENT-ON* */
}

static void
crypto_op_init (struct rte_mempool *mempool,
		void *_arg __attribute__ ((unused)),
		void *_obj, unsigned i __attribute__ ((unused)))
{
  struct rte_crypto_op *op = _obj;

  op->sess_type = RTE_CRYPTO_OP_WITH_SESSION;
  op->type = RTE_CRYPTO_OP_TYPE_SYMMETRIC;
  op->status = RTE_CRYPTO_OP_STATUS_NOT_PROCESSED;
  op->phys_addr = rte_mempool_virt2iova (_obj);
  op->mempool = mempool;
}

static clib_error_t *
crypto_create_crypto_op_pool (vlib_main_t * vm, u8 numa)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  dpdk_config_main_t *conf = &dpdk_config_main;
  crypto_data_t *data;
  u8 *pool_name;
  u32 pool_priv_size = sizeof (struct rte_crypto_op_pool_private);
  struct rte_crypto_op_pool_private *priv;
  struct rte_mempool *mp;

  data = vec_elt_at_index (dcm->data, numa);

  /* Already allocated */
  if (data->crypto_op)
    return NULL;

  pool_name = format (0, "crypto_pool_numa%u%c", numa, 0);

  if (conf->num_crypto_mbufs == 0)
    conf->num_crypto_mbufs = NUM_CRYPTO_MBUFS;

  mp = rte_mempool_create ((char *) pool_name, conf->num_crypto_mbufs,
			   crypto_op_len (), 512, pool_priv_size, NULL, NULL,
			   crypto_op_init, NULL, numa, 0);

  vec_free (pool_name);

  if (!mp)
    return clib_error_return (0, "failed to create crypto op mempool");

  /* Initialize mempool private data */
  priv = rte_mempool_get_priv (mp);
  priv->priv_size = pool_priv_size;
  priv->type = RTE_CRYPTO_OP_TYPE_SYMMETRIC;

  data->crypto_op = mp;

  return NULL;
}

static clib_error_t *
crypto_create_session_h_pool (vlib_main_t * vm, u8 numa)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_data_t *data;
  u8 *pool_name;
  struct rte_mempool *mp;
  u32 elt_size;

  data = vec_elt_at_index (dcm->data, numa);

  if (data->session_h)
    return NULL;

  pool_name = format (0, "session_h_pool_numa%u%c", numa, 0);


  elt_size = rte_cryptodev_sym_get_header_session_size ();

#if RTE_VERSION < RTE_VERSION_NUM(19, 2, 0, 0)
  mp = rte_mempool_create ((char *) pool_name, DPDK_CRYPTO_NB_SESS_OBJS,
			   elt_size, 512, 0, NULL, NULL, NULL, NULL, numa, 0);
#else
  /* XXX Experimental tag in DPDK 19.02 */
  mp = rte_cryptodev_sym_session_pool_create ((char *) pool_name,
					      DPDK_CRYPTO_NB_SESS_OBJS,
					      elt_size, 512, 0, numa);
#endif
  vec_free (pool_name);

  if (!mp)
    return clib_error_return (0, "failed to create crypto session mempool");

  data->session_h = mp;

  return NULL;
}

static clib_error_t *
crypto_create_session_drv_pool (vlib_main_t * vm, crypto_dev_t * dev)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_data_t *data;
  u8 *pool_name;
  struct rte_mempool *mp;
  u32 elt_size;
  u8 numa = dev->numa;

  data = vec_elt_at_index (dcm->data, numa);

  vec_validate (data->session_drv, dev->drv_id);
  vec_validate (data->session_drv_failed, dev->drv_id);
  vec_validate_aligned (data->session_by_drv_id_and_sa_index, 32,
			CLIB_CACHE_LINE_BYTES);

  if (data->session_drv[dev->drv_id])
    return NULL;

  pool_name = format (0, "session_drv%u_pool_numa%u%c", dev->drv_id, numa, 0);

  elt_size = rte_cryptodev_sym_get_private_session_size (dev->id);
  mp =
    rte_mempool_create ((char *) pool_name, DPDK_CRYPTO_NB_SESS_OBJS,
			elt_size, 512, 0, NULL, NULL, NULL, NULL, numa, 0);

  vec_free (pool_name);

  if (!mp)
    return clib_error_return (0, "failed to create session drv mempool");

  data->session_drv[dev->drv_id] = mp;
  clib_spinlock_init (&data->lockp);

  return NULL;
}

static clib_error_t *
crypto_create_pools (vlib_main_t * vm)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  clib_error_t *error = NULL;
  crypto_dev_t *dev;

  /* *INDENT-OFF* */
  vec_foreach (dev, dcm->dev)
    {
      vec_validate_aligned (dcm->data, dev->numa, CLIB_CACHE_LINE_BYTES);

      error = crypto_create_crypto_op_pool (vm, dev->numa);
      if (error)
	return error;

      error = crypto_create_session_h_pool (vm, dev->numa);
      if (error)
	return error;

      error = crypto_create_session_drv_pool (vm, dev);
      if (error)
	return error;
    }
  /* *INDENT-ON* */

  return NULL;
}

static void
crypto_disable (void)
{
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  crypto_data_t *data;
  u8 i;

  dcm->enabled = 0;

  /* *INDENT-OFF* */
  vec_foreach (data, dcm->data)
    {
      rte_mempool_free (data->crypto_op);
      rte_mempool_free (data->session_h);

      vec_foreach_index (i, data->session_drv)
	rte_mempool_free (data->session_drv[i]);

      vec_free (data->session_drv);
      clib_spinlock_free (&data->lockp);
    }
  /* *INDENT-ON* */

  vec_free (dcm->data);
  vec_free (dcm->workers_main);
  vec_free (dcm->dev);
  vec_free (dcm->resource);
  vec_free (dcm->cipher_algs);
  vec_free (dcm->auth_algs);
}

static clib_error_t *
dpdk_ipsec_enable_disable (int is_enable)
{
  vlib_main_t *vm = vlib_get_main ();
  vlib_thread_main_t *tm = vlib_get_thread_main ();
  vlib_node_t *node = vlib_get_node_by_name (vm, (u8 *) "dpdk-crypto-input");
  u32 skip_master = vlib_num_workers () > 0;
  u32 n_mains = tm->n_vlib_mains;
  u32 i;

  ASSERT (node);
  for (i = skip_master; i < n_mains; i++)
    vlib_node_set_state (vlib_mains[i], node->index, is_enable != 0 ?
			 VLIB_NODE_STATE_POLLING : VLIB_NODE_STATE_DISABLED);

  return 0;
}

static clib_error_t *
dpdk_ipsec_main_init (vlib_main_t * vm)
{
  ipsec_main_t *im = &ipsec_main;
  dpdk_crypto_main_t *dcm = &dpdk_crypto_main;
  vlib_thread_main_t *tm = vlib_get_thread_main ();
  crypto_worker_main_t *cwm;
  clib_error_t *error = NULL;
  u32 skip_master, n_mains;

  n_mains = tm->n_vlib_mains;
  skip_master = vlib_num_workers () > 0;

  algos_init (n_mains - skip_master);

  crypto_scan_devs (n_mains - skip_master);

  if (!(dcm->enabled))
    {
      clib_warning ("not enough DPDK crypto resources, default to OpenSSL");
      crypto_disable ();
      return 0;
    }

  dcm->session_timeout = 10e9;

  vec_validate_init_empty_aligned (dcm->workers_main, n_mains - 1,
				   (crypto_worker_main_t) EMPTY_STRUCT,
				   CLIB_CACHE_LINE_BYTES);

  /* *INDENT-OFF* */
  vec_foreach (cwm, dcm->workers_main)
    {
      vec_validate_init_empty_aligned (cwm->ops, VLIB_FRAME_SIZE - 1, 0,
				       CLIB_CACHE_LINE_BYTES);
      clib_memset (cwm->cipher_resource_idx, ~0,
	      IPSEC_CRYPTO_N_ALG * sizeof(*cwm->cipher_resource_idx));
      clib_memset (cwm->auth_resource_idx, ~0,
	      IPSEC_INTEG_N_ALG * sizeof(*cwm->auth_resource_idx));
    }
  /* *INDENT-ON* */

  crypto_auto_placement ();

  error = crypto_create_pools (vm);
  if (error)
    {
      clib_error_report (error);
      crypto_disable ();
      return 0;
    }


  u32 idx = ipsec_register_esp_backend (vm, im, "dpdk backend",
					"dpdk-esp4-encrypt",
					"dpdk-esp4-encrypt-tun",
					"dpdk-esp4-decrypt",
					"dpdk-esp4-decrypt",
					"dpdk-esp6-encrypt",
					"dpdk-esp6-encrypt-tun",
					"dpdk-esp6-decrypt",
					"dpdk-esp6-decrypt",
					dpdk_ipsec_check_support,
					add_del_sa_session,
					dpdk_ipsec_enable_disable);
  int rv;
  if (im->esp_current_backend == ~0)
    {
      rv = ipsec_select_esp_backend (im, idx);
      ASSERT (rv == 0);
    }
  return 0;
}

VLIB_MAIN_LOOP_ENTER_FUNCTION (dpdk_ipsec_main_init);

/*
 * fd.io coding-style-patch-verification: ON
 *
 * Local Variables:
 * eval: (c-set-style "gnu")
 * End:
 */