From patchwork Wed Jan 11 20:55:58 2023 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Cristian Dumitrescu X-Patchwork-Id: 121843 X-Patchwork-Delegate: thomas@monjalon.net Return-Path: X-Original-To: patchwork@inbox.dpdk.org Delivered-To: patchwork@inbox.dpdk.org Received: from mails.dpdk.org (mails.dpdk.org [217.70.189.124]) by inbox.dpdk.org (Postfix) with ESMTP id EF12A423AF; Wed, 11 Jan 2023 21:56:20 +0100 (CET) Received: from mails.dpdk.org (localhost [127.0.0.1]) by mails.dpdk.org (Postfix) with ESMTP id ED0B342D27; Wed, 11 Jan 2023 21:56:14 +0100 (CET) Received: from mga12.intel.com (mga12.intel.com [192.55.52.136]) by mails.dpdk.org (Postfix) with ESMTP id 462FF40A7D for ; Wed, 11 Jan 2023 21:56:12 +0100 (CET) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/simple; d=intel.com; i=@intel.com; q=dns/txt; s=Intel; t=1673470572; x=1705006572; h=from:to:cc:subject:date:message-id:in-reply-to: references:mime-version:content-transfer-encoding; bh=9x/amUTJyOpEI6l+weL/iz4LOOW3W0iIEblKH9xRKpI=; b=noGFmheAAmJEgJwxPMZUiW8I+sZrzmc31BOqwnj+s/+Ys4iH2fndhzjb XgAqTSYcsUwNzlgBS/nuhPeSTrZhRglZUMghvNN3fpAV4p0ziNopSs7hm 9evnEvr/Bf7z4jfdvz2sd+i56OsT2KGSxjbcaDu3REh31MZa2yry2uFxs 7a2xS00c1AVV7qYlD1JuDDNbskOy6XaaYef+fcuR/TU4QmKUYMoiwYINX dzWeJKeFaip4miRQdK/rB/Ha5Ux1S4VJlnppxBk6nydp04VDRni+B3Zxj OgxnwF2l7zQLWL1ZdSuxrq+zRpzya+xVdnB+0a+8LWmOlHndQjpYctR/w Q==; X-IronPort-AV: E=McAfee;i="6500,9779,10586"; a="303229765" X-IronPort-AV: E=Sophos;i="5.96,317,1665471600"; d="scan'208";a="303229765" Received: from orsmga003.jf.intel.com ([10.7.209.27]) by fmsmga106.fm.intel.com with ESMTP/TLS/ECDHE-RSA-AES256-GCM-SHA384; 11 Jan 2023 12:56:11 -0800 X-ExtLoop1: 1 X-IronPort-AV: E=McAfee;i="6500,9779,10586"; a="607518831" X-IronPort-AV: E=Sophos;i="5.96,317,1665471600"; d="scan'208";a="607518831" Received: from silpixa00400573.ir.intel.com (HELO silpixa00400573.ger.corp.intel.com) ([10.237.222.53]) by orsmga003.jf.intel.com with ESMTP; 11 Jan 2023 12:56:10 -0800 From: Cristian Dumitrescu To: dev@dpdk.org Cc: Kamalakannan R Subject: [PATCH 01/11] pipeline: add IPsec support Date: Wed, 11 Jan 2023 20:55:58 +0000 Message-Id: <20230111205608.87953-2-cristian.dumitrescu@intel.com> X-Mailer: git-send-email 2.34.1 In-Reply-To: <20230111205608.87953-1-cristian.dumitrescu@intel.com> References: <20230111205608.87953-1-cristian.dumitrescu@intel.com> MIME-Version: 1.0 X-BeenThere: dev@dpdk.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: DPDK patches and discussions List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: dev-bounces@dpdk.org This block is providing IPsec support to the SWX pipeline. The IPsec block is external to the pipeline, so it needs to be explicitly instantiated and connected to a pipeline through the I/O ports. Signed-off-by: Cristian Dumitrescu Signed-off-by: Kamalakannan R --- lib/pipeline/meson.build | 4 +- lib/pipeline/rte_swx_ipsec.c | 1851 ++++++++++++++++++++++++++++++++++ lib/pipeline/rte_swx_ipsec.h | 383 +++++++ lib/pipeline/version.map | 9 + 4 files changed, 2246 insertions(+), 1 deletion(-) create mode 100644 lib/pipeline/rte_swx_ipsec.c create mode 100644 lib/pipeline/rte_swx_ipsec.h diff --git a/lib/pipeline/meson.build b/lib/pipeline/meson.build index 3ca98ed194..aa3fd0c2b8 100644 --- a/lib/pipeline/meson.build +++ b/lib/pipeline/meson.build @@ -11,6 +11,7 @@ sources = files( 'rte_pipeline.c', 'rte_port_in_action.c', 'rte_table_action.c', + 'rte_swx_ipsec.c', 'rte_swx_pipeline.c', 'rte_swx_pipeline_spec.c', 'rte_swx_ctl.c', @@ -19,8 +20,9 @@ headers = files( 'rte_pipeline.h', 'rte_port_in_action.h', 'rte_table_action.h', + 'rte_swx_ipsec.h', 'rte_swx_pipeline.h', 'rte_swx_extern.h', 'rte_swx_ctl.h', ) -deps += ['port', 'table', 'meter', 'sched', 'cryptodev'] +deps += ['port', 'table', 'meter', 'sched', 'cryptodev', 'ipsec'] diff --git a/lib/pipeline/rte_swx_ipsec.c b/lib/pipeline/rte_swx_ipsec.c new file mode 100644 index 0000000000..7ad2ee7227 --- /dev/null +++ b/lib/pipeline/rte_swx_ipsec.c @@ -0,0 +1,1851 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2022 Intel Corporation + */ +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include + +#include "rte_swx_ipsec.h" + +#ifndef RTE_SWX_IPSEC_HUGE_PAGES_DISABLE + +#include + +static void * +env_calloc(size_t size, size_t alignment, int numa_node) +{ + return rte_zmalloc_socket(NULL, size, alignment, numa_node); +} + +static void +env_free(void *start, size_t size __rte_unused) +{ + rte_free(start); +} + +#else + +#include + +static void * +env_calloc(size_t size, size_t alignment __rte_unused, int numa_node) +{ + void *start; + + if (numa_available() == -1) + return NULL; + + start = numa_alloc_onnode(size, numa_node); + if (!start) + return NULL; + + memset(start, 0, size); + return start; +} + +static void +env_free(void *start, size_t size) +{ + if ((numa_available() == -1) || !start) + return; + + numa_free(start, size); +} + +#endif + +#ifndef RTE_SWX_IPSEC_POOL_CACHE_SIZE +#define RTE_SWX_IPSEC_POOL_CACHE_SIZE 256 +#endif + +/* The two crypto device mempools have their size set to the number of SAs. The mempool API requires + * the mempool size to be at least 1.5 times the size of the mempool cache. + */ +#define N_SA_MIN (RTE_SWX_IPSEC_POOL_CACHE_SIZE * 1.5) + +struct ipsec_sa { + struct rte_ipsec_session s; + int valid; +}; + +struct ipsec_pkts_in { + struct rte_mbuf *pkts[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct ipsec_sa *sa[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct rte_ipsec_group groups[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct rte_crypto_op *group_cops[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct rte_crypto_op *cops[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + uint32_t n_cops; +}; + +struct ipsec_pkts_out { + struct rte_crypto_op *cops[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct rte_mbuf *group_pkts[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct rte_ipsec_group groups[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + struct rte_mbuf *pkts[RTE_SWX_IPSEC_BURST_SIZE_MAX]; + uint32_t n_pkts; +}; + +struct rte_swx_ipsec { + /* + * Parameters. + */ + + /* IPsec instance name. */ + char name[RTE_SWX_IPSEC_NAME_SIZE]; + + /* Input packet queue. */ + struct rte_ring *ring_in; + + /* Output packet queue. */ + struct rte_ring *ring_out; + + /* Crypto device ID. */ + uint8_t dev_id; + + /* Crypto device queue pair ID. */ + uint16_t qp_id; + + /* Burst sizes. */ + struct rte_swx_ipsec_burst_size bsz; + + /* SA table size. */ + size_t n_sa_max; + + /* + * Internals. + */ + /* Crypto device buffer pool for sessions. */ + struct rte_mempool *mp_session; + + /* Crypto device bufer pool for session private data. */ + struct rte_mempool *mp_session_priv; + + /* Pre-crypto packets. */ + struct ipsec_pkts_in in; + + /* Post-crypto packets. */ + struct ipsec_pkts_out out; + + /* Crypto device enqueue threshold. */ + uint32_t crypto_wr_threshold; + + /* Packets currently under crypto device processing. */ + uint32_t n_pkts_crypto; + + /* List of free SADB positions. */ + uint32_t *sa_free_id; + + /* Number of elements in the SADB list of free positions. */ + size_t n_sa_free_id; + + /* Allocated memory total size in bytes. */ + size_t total_size; + + /* Flag for registration to the global list of instances. */ + int registered; + + /* + * Table memory. + */ + uint8_t memory[] __rte_cache_aligned; +}; + +static inline struct ipsec_sa * +ipsec_sa_get(struct rte_swx_ipsec *ipsec, uint32_t sa_id) +{ + struct ipsec_sa *sadb = (struct ipsec_sa *)ipsec->memory; + + return &sadb[sa_id & (ipsec->n_sa_max - 1)]; +} + +/* Global list of instances. */ +TAILQ_HEAD(rte_swx_ipsec_list, rte_tailq_entry); + +static struct rte_tailq_elem rte_swx_ipsec_tailq = { + .name = "RTE_SWX_IPSEC", +}; + +EAL_REGISTER_TAILQ(rte_swx_ipsec_tailq) + +struct rte_swx_ipsec * +rte_swx_ipsec_find(const char *name) +{ + struct rte_swx_ipsec_list *ipsec_list; + struct rte_tailq_entry *te = NULL; + + if (!name || + !name[0] || + (strnlen(name, RTE_SWX_IPSEC_NAME_SIZE) == RTE_SWX_IPSEC_NAME_SIZE)) + return NULL; + + ipsec_list = RTE_TAILQ_CAST(rte_swx_ipsec_tailq.head, rte_swx_ipsec_list); + + rte_mcfg_tailq_read_lock(); + + TAILQ_FOREACH(te, ipsec_list, next) { + struct rte_swx_ipsec *ipsec = (struct rte_swx_ipsec *)te->data; + + if (!strncmp(name, ipsec->name, sizeof(ipsec->name))) { + rte_mcfg_tailq_read_unlock(); + return ipsec; + } + } + + rte_mcfg_tailq_read_unlock(); + return NULL; +} + +static int +ipsec_register(struct rte_swx_ipsec *ipsec) +{ + struct rte_swx_ipsec_list *ipsec_list; + struct rte_tailq_entry *te = NULL; + + ipsec_list = RTE_TAILQ_CAST(rte_swx_ipsec_tailq.head, rte_swx_ipsec_list); + + rte_mcfg_tailq_write_lock(); + + TAILQ_FOREACH(te, ipsec_list, next) { + struct rte_swx_ipsec *elem = (struct rte_swx_ipsec *)te->data; + + if (!strncmp(ipsec->name, elem->name, sizeof(ipsec->name))) { + rte_mcfg_tailq_write_unlock(); + return -EEXIST; + } + } + + te = calloc(1, sizeof(struct rte_tailq_entry)); + if (!te) { + rte_mcfg_tailq_write_unlock(); + return -ENOMEM; + } + + te->data = (void *)ipsec; + TAILQ_INSERT_TAIL(ipsec_list, te, next); + rte_mcfg_tailq_write_unlock(); + return 0; +} + +static void +ipsec_unregister(struct rte_swx_ipsec *ipsec) +{ + struct rte_swx_ipsec_list *ipsec_list; + struct rte_tailq_entry *te = NULL; + + ipsec_list = RTE_TAILQ_CAST(rte_swx_ipsec_tailq.head, rte_swx_ipsec_list); + + rte_mcfg_tailq_write_lock(); + + TAILQ_FOREACH(te, ipsec_list, next) { + if (te->data == (void *)ipsec) { + TAILQ_REMOVE(ipsec_list, te, next); + rte_mcfg_tailq_write_unlock(); + free(te); + return; + } + } + + rte_mcfg_tailq_write_unlock(); +} + +static void +ipsec_session_free(struct rte_swx_ipsec *ipsec, struct rte_ipsec_session *s); + +void +rte_swx_ipsec_free(struct rte_swx_ipsec *ipsec) +{ + size_t i; + + if (!ipsec) + return; + + /* Remove the current instance from the global list. */ + if (ipsec->registered) + ipsec_unregister(ipsec); + + /* SADB. */ + for (i = 0; i < ipsec->n_sa_max; i++) { + struct ipsec_sa *sa = ipsec_sa_get(ipsec, i); + + if (!sa->valid) + continue; + + /* SA session. */ + ipsec_session_free(ipsec, &sa->s); + } + + /* Crypto device buffer pools. */ + rte_mempool_free(ipsec->mp_session); + rte_mempool_free(ipsec->mp_session_priv); + + /* IPsec object memory. */ + env_free(ipsec, ipsec->total_size); +} + +int +rte_swx_ipsec_create(struct rte_swx_ipsec **ipsec_out, + const char *name, + struct rte_swx_ipsec_params *params, + int numa_node) +{ + char resource_name[RTE_SWX_IPSEC_NAME_SIZE]; + struct rte_swx_ipsec *ipsec = NULL; + struct rte_ring *ring_in, *ring_out; + struct rte_cryptodev_info dev_info; + size_t n_sa_max, sadb_offset, sadb_size, sa_free_id_offset, sa_free_id_size, total_size, i; + int dev_id, status = 0; + + /* Check input parameters. */ + if (!ipsec_out || + !name || + !name[0] || + (strnlen((name), RTE_SWX_IPSEC_NAME_SIZE) == RTE_SWX_IPSEC_NAME_SIZE) || + !params || + (params->bsz.ring_rd > RTE_SWX_IPSEC_BURST_SIZE_MAX) || + (params->bsz.ring_wr > RTE_SWX_IPSEC_BURST_SIZE_MAX) || + (params->bsz.crypto_wr > RTE_SWX_IPSEC_BURST_SIZE_MAX) || + (params->bsz.crypto_rd > RTE_SWX_IPSEC_BURST_SIZE_MAX) || + !params->n_sa_max) { + status = -EINVAL; + goto error; + } + + ring_in = rte_ring_lookup(params->ring_in_name); + if (!ring_in) { + status = -EINVAL; + goto error; + } + + ring_out = rte_ring_lookup(params->ring_out_name); + if (!ring_out) { + status = -EINVAL; + goto error; + } + + dev_id = rte_cryptodev_get_dev_id(params->crypto_dev_name); + if (dev_id == -1) { + status = -EINVAL; + goto error; + } + + rte_cryptodev_info_get(dev_id, &dev_info); + if (params->crypto_dev_queue_pair_id >= dev_info.max_nb_queue_pairs) { + status = -EINVAL; + goto error; + } + + /* Memory allocation. */ + n_sa_max = rte_align64pow2(RTE_MAX(params->n_sa_max, N_SA_MIN)); + + sadb_offset = sizeof(struct rte_swx_ipsec); + sadb_size = RTE_CACHE_LINE_ROUNDUP(n_sa_max * sizeof(struct ipsec_sa)); + + sa_free_id_offset = sadb_offset + sadb_size; + sa_free_id_size = RTE_CACHE_LINE_ROUNDUP(n_sa_max * sizeof(uint32_t)); + + total_size = sa_free_id_offset + sa_free_id_size; + ipsec = env_calloc(total_size, RTE_CACHE_LINE_SIZE, numa_node); + if (!ipsec) { + status = -ENOMEM; + goto error; + } + + /* Initialization. */ + strcpy(ipsec->name, name); + ipsec->ring_in = ring_in; + ipsec->ring_out = ring_out; + ipsec->dev_id = (uint8_t)dev_id; + ipsec->qp_id = params->crypto_dev_queue_pair_id; + memcpy(&ipsec->bsz, ¶ms->bsz, sizeof(struct rte_swx_ipsec_burst_size)); + ipsec->n_sa_max = n_sa_max; + + ipsec->crypto_wr_threshold = params->bsz.crypto_wr * 3 / 4; + + ipsec->sa_free_id = (uint32_t *)&ipsec->memory[sa_free_id_offset]; + for (i = 0; i < n_sa_max; i++) + ipsec->sa_free_id[i] = n_sa_max - 1 - i; + ipsec->n_sa_free_id = n_sa_max; + + ipsec->total_size = total_size; + + /* Crypto device memory pools. */ + snprintf(resource_name, sizeof(resource_name), "%s_mp", name); + ipsec->mp_session = rte_cryptodev_sym_session_pool_create(resource_name, + n_sa_max, /* number of pool elements */ + 0, /* pool element size */ + RTE_SWX_IPSEC_POOL_CACHE_SIZE, /* pool cache size */ + 0, /* pool element private data size */ + numa_node); + if (!ipsec->mp_session) { + status = -ENOMEM; + goto error; + } + + snprintf(resource_name, sizeof(resource_name), "%s_mp_priv", name); + ipsec->mp_session_priv = rte_mempool_create(resource_name, + n_sa_max, /* number of pool elements */ + rte_cryptodev_sym_get_private_session_size(dev_id), /* pool element size */ + RTE_SWX_IPSEC_POOL_CACHE_SIZE, /* pool cache size */ + 0, /* pool private data size */ + NULL, + NULL, + NULL, + NULL, + numa_node, + 0); /* pool flags */ + if (!ipsec->mp_session_priv) { + status = -ENOMEM; + goto error; + } + + /* Add the current instance to the global list. */ + status = ipsec_register(ipsec); + if (status) + goto error; + + ipsec->registered = 1; + + *ipsec_out = ipsec; + return 0; + +error: + rte_swx_ipsec_free(ipsec); + return status; +} + +static inline int +ipsec_sa_group(struct rte_swx_ipsec *ipsec, int n_pkts) +{ + struct ipsec_sa *sa; + struct rte_ipsec_group *g; + int n_groups, n_pkts_in_group, i; + + sa = ipsec->in.sa[0]; + + g = &ipsec->in.groups[0]; + g->id.ptr = sa; + g->m = &ipsec->in.pkts[0]; + n_pkts_in_group = 1; + n_groups = 1; + + for (i = 1; i < n_pkts; i++) { + struct ipsec_sa *sa_new = ipsec->in.sa[i]; + + /* Same SA => Add the current pkt to the same group. */ + if (sa_new == sa) { + n_pkts_in_group++; + continue; + } + + /* Different SA => Close the current group & add the current pkt to a new group. */ + g->cnt = n_pkts_in_group; + sa = sa_new; + + g++; + g->id.ptr = sa; + g->m = &ipsec->in.pkts[i]; + n_pkts_in_group = 1; + n_groups++; + } + + /* Close the last group. */ + g->cnt = n_pkts_in_group; + + return n_groups; +} + +static inline void +ipsec_crypto_enqueue(struct rte_swx_ipsec *ipsec, uint16_t n_cops) +{ + struct rte_crypto_op **dst0 = ipsec->in.cops, **dst; + struct rte_crypto_op **src = ipsec->in.group_cops; + + uint32_t n_pkts_crypto = ipsec->n_pkts_crypto; + uint32_t n_dst = ipsec->in.n_cops; + uint32_t n_dst_max = ipsec->bsz.crypto_wr; + uint32_t n_dst_avail = n_dst_max - n_dst; + uint32_t n_src = n_cops; + uint32_t i; + + dst = &dst0[n_dst]; + + /* Shortcut: If no elements in DST and enough elements in SRC, then simply use SRC directly + * instead of moving the SRC to DST first and then using DST. + */ + if (!n_dst && n_src >= ipsec->crypto_wr_threshold) { + uint16_t n_ok; + + n_ok = rte_cryptodev_enqueue_burst(ipsec->dev_id, ipsec->qp_id, src, n_src); + ipsec->n_pkts_crypto = n_pkts_crypto + n_ok; + + for (i = n_ok; i < n_src; i++) { + struct rte_crypto_op *cop = src[i]; + struct rte_mbuf *m = cop->sym->m_src; + + rte_pktmbuf_free(m); + } + + return; + } + + /* Move from SRC to DST. Every time DST gets full, send burst from DST. */ + for ( ; n_src >= n_dst_avail; ) { + uint32_t n_ok; + + /* Move from SRC to DST. */ + for (i = 0; i < n_dst_avail; i++) + *dst++ = *src++; + + n_src -= n_dst_avail; + + /* DST full: send burst from DST. */ + n_ok = rte_cryptodev_enqueue_burst(ipsec->dev_id, ipsec->qp_id, dst0, n_dst_max); + n_pkts_crypto += n_ok; + + for (i = n_ok ; i < n_dst_max; i++) { + struct rte_crypto_op *cop = dst0[i]; + struct rte_mbuf *m = cop->sym->m_src; + + rte_pktmbuf_free(m); + } + + /* Next iteration. */ + dst = dst0; + n_dst = 0; + n_dst_avail = n_dst_max; + } + + ipsec->n_pkts_crypto = n_pkts_crypto; + + /* Move from SRC to DST. Not enough elements in SRC to get DST full. */ + for (i = 0; i < n_src; i++) + *dst++ = *src++; + + n_dst += n_src; + + ipsec->in.n_cops = n_dst; +} + +/** + * Packet buffer anatomy: + * + * +----------+---------+--------------------------------------------------------------------------+ + * | Offset | Size | Description | + * | (Byte #) | (Bytes) | | + * +==========+=========+==========================================================================+ + * | 0 | 128 | Meta-data: struct rte_mbuf. | + * | | | The buf_addr field points to the start of the packet section. | + * +----------+---------+--------------------------------------------------------------------------+ + * | 128 | 128 | Meta-data: struct ipsec_mbuf (see below). | + * +----------+---------+--------------------------------------------------------------------------+ + * | 256 | | Packet section. | + * | | | The first packet byte is placed at the offset indicated by the struct | + * | | | rte_mbuf::data_off field relative to the start of the packet section. | + * +----------+---------+--------------------------------------------------------------------------+ + */ +struct ipsec_mbuf { + struct ipsec_sa *sa; + struct rte_crypto_op cop; + struct rte_crypto_sym_op sym_cop; + uint8_t buffer[32]; /* The crypto IV is placed here. */ +}; + +/* Offset from the start of the struct ipsec_mbuf::cop where the crypto IV will be placed. */ +#define IV_OFFSET (sizeof(struct rte_crypto_op) + sizeof(struct rte_crypto_sym_op)) + +#define META_LENGTH sizeof(struct rte_swx_ipsec_input_packet_metadata) + +static inline void +rte_swx_ipsec_pre_crypto(struct rte_swx_ipsec *ipsec) +{ + int n_pkts, n_groups, i; + + /* Read packets from the input ring. */ + n_pkts = rte_ring_sc_dequeue_burst(ipsec->ring_in, + (void **)ipsec->in.pkts, + ipsec->bsz.ring_rd, + NULL); + if (!n_pkts) + return; + + /* Get the SA for each packet. */ + for (i = 0; i < n_pkts; i++) { + struct rte_mbuf *m = ipsec->in.pkts[i]; + struct rte_swx_ipsec_input_packet_metadata *meta; + struct rte_ipv4_hdr *ipv4_hdr; + uint32_t sa_id; + + meta = rte_pktmbuf_mtod(m, struct rte_swx_ipsec_input_packet_metadata *); + ipv4_hdr = rte_pktmbuf_mtod_offset(m, struct rte_ipv4_hdr *, META_LENGTH); + + /* Read the SA ID from the IPsec meta-data placed at the front of the IP packet. */ + sa_id = ntohl(meta->sa_id); + + /* Consume the IPsec meta-data. */ + m->data_off += META_LENGTH; + m->data_len -= META_LENGTH; + m->pkt_len -= META_LENGTH; + + /* Set the fields required by the IPsec library. */ + m->l2_len = 0; + m->l3_len = (ipv4_hdr->version_ihl >> 4 == 4) ? + sizeof(struct rte_ipv4_hdr) : + sizeof(struct rte_ipv6_hdr); + + /* Get the SA. */ + ipsec->in.sa[i] = ipsec_sa_get(ipsec, sa_id); + } + + /* Group packets that share the same SA. */ + n_groups = ipsec_sa_group(ipsec, n_pkts); + + /* Write each group of packets sharing the same SA to the crypto device. */ + for (i = 0; i < n_groups; i++) { + struct rte_ipsec_group *g = &ipsec->in.groups[i]; + struct ipsec_sa *sa = g->id.ptr; + struct rte_ipsec_session *s = &sa->s; + uint32_t j; + uint16_t n_pkts_ok; + + /* Prepare the crypto ops for the current group. */ + for (j = 0; j < g->cnt; j++) { + struct rte_mbuf *m = g->m[j]; + struct ipsec_mbuf *priv = rte_mbuf_to_priv(m); + + priv->sa = sa; + ipsec->in.group_cops[j] = &priv->cop; + } + + n_pkts_ok = rte_ipsec_pkt_crypto_prepare(s, g->m, ipsec->in.group_cops, g->cnt); + + for (j = n_pkts_ok; j < g->cnt; j++) { + struct rte_mbuf *m = g->m[j]; + + rte_pktmbuf_free(m); + } + + /* Write the crypto ops of the current group to the crypto device. */ + ipsec_crypto_enqueue(ipsec, n_pkts_ok); + } +} + +static inline void +ipsec_ring_enqueue(struct rte_swx_ipsec *ipsec, struct rte_ipsec_group *g, uint32_t n_pkts) +{ + struct rte_mbuf **dst0 = ipsec->out.pkts, **dst; + struct rte_mbuf **src = g->m; + + uint32_t n_dst = ipsec->out.n_pkts; + uint32_t n_dst_max = ipsec->bsz.ring_wr; + uint32_t n_dst_avail = n_dst_max - n_dst; + uint32_t n_src = n_pkts; + uint32_t i; + + dst = &dst0[n_dst]; + + /* Move from SRC to DST. Every time DST gets full, send burst from DST. */ + for ( ; n_src >= n_dst_avail; ) { + uint32_t n_ok; + + /* Move from SRC to DST. */ + for (i = 0; i < n_dst_avail; i++) + *dst++ = *src++; + + n_src -= n_dst_avail; + + /* DST full: send burst from DST. */ + n_ok = rte_ring_sp_enqueue_burst(ipsec->ring_out, (void **)dst0, n_dst_max, NULL); + + for (i = n_ok ; i < n_dst_max; i++) { + struct rte_mbuf *m = dst[i]; + + rte_pktmbuf_free(m); + } + + /* Next iteration. */ + dst = dst0; + n_dst = 0; + n_dst_avail = n_dst_max; + } + + /* Move from SRC to DST. Not enough elements in SRC to get DST full. */ + for (i = 0; i < n_src; i++) + *dst++ = *src++; + + n_dst += n_src; + + ipsec->out.n_pkts = n_dst; +} + +static inline void +rte_swx_ipsec_post_crypto(struct rte_swx_ipsec *ipsec) +{ + uint32_t n_pkts_crypto = ipsec->n_pkts_crypto, n_pkts, n_groups, i; + + /* Read the crypto ops from the crypto device. */ + if (!n_pkts_crypto) + return; + + n_pkts = rte_cryptodev_dequeue_burst(ipsec->dev_id, + ipsec->qp_id, + ipsec->out.cops, + ipsec->bsz.crypto_rd); + if (!n_pkts) + return; + + ipsec->n_pkts_crypto = n_pkts_crypto - n_pkts; + + /* Group packets that share the same SA. */ + n_groups = rte_ipsec_pkt_crypto_group((const struct rte_crypto_op **)(uintptr_t)ipsec->out.cops, + ipsec->out.group_pkts, + ipsec->out.groups, + n_pkts); + + /* Peform post-crypto IPsec processing for each group of packets that share the same SA. + * Write each group of packets to the output ring. + */ + for (i = 0, n_pkts = 0; i < n_groups; i++) { + struct rte_ipsec_group *g = &ipsec->out.groups[i]; + struct rte_ipsec_session *s = g->id.ptr; + uint32_t n_pkts_ok, j; + + /* Perform post-crypto IPsec processing for the current group. */ + n_pkts_ok = rte_ipsec_pkt_process(s, g->m, g->cnt); + + for (j = n_pkts_ok; j < g->cnt; j++) { + struct rte_mbuf *m = g->m[j]; + + rte_pktmbuf_free(m); + } + + /* Write the packets of the current group to the output ring. */ + ipsec_ring_enqueue(ipsec, g, n_pkts_ok); + } +} + +void +rte_swx_ipsec_run(struct rte_swx_ipsec *ipsec) +{ + rte_swx_ipsec_pre_crypto(ipsec); + rte_swx_ipsec_post_crypto(ipsec); +} + +/** + * IPsec Control Plane API + */ +struct cipher_alg { + const char *name; + enum rte_crypto_cipher_algorithm alg; + uint32_t iv_size; + uint32_t block_size; + uint32_t key_size; +}; + +struct auth_alg { + const char *name; + enum rte_crypto_auth_algorithm alg; + uint32_t iv_size; + uint32_t digest_size; + uint32_t key_size; +}; + +struct aead_alg { + const char *name; + enum rte_crypto_aead_algorithm alg; + uint32_t iv_size; + uint32_t block_size; + uint32_t digest_size; + uint32_t key_size; + uint32_t aad_size; +}; + +static struct cipher_alg cipher_algs[] = { + [0] = { + .name = "null", + .alg = RTE_CRYPTO_CIPHER_NULL, + .iv_size = 0, + .block_size = 4, + .key_size = 0, + }, + + [1] = { + .name = "aes-cbc-128", + .alg = RTE_CRYPTO_CIPHER_AES_CBC, + .iv_size = 16, + .block_size = 16, + .key_size = 16, + }, + + [2] = { + .name = "aes-cbc-192", + .alg = RTE_CRYPTO_CIPHER_AES_CBC, + .iv_size = 16, + .block_size = 16, + .key_size = 24, + }, + + [3] = { + .name = "aes-cbc-256", + .alg = RTE_CRYPTO_CIPHER_AES_CBC, + .iv_size = 16, + .block_size = 16, + .key_size = 32, + }, + + [4] = { + .name = "aes-ctr-128", + .alg = RTE_CRYPTO_CIPHER_AES_CTR, + .iv_size = 8, + .block_size = 4, + .key_size = 20, + }, + + [5] = { + .name = "aes-ctr-192", + .alg = RTE_CRYPTO_CIPHER_AES_CTR, + .iv_size = 16, + .block_size = 16, + .key_size = 28, + }, + + [6] = { + .name = "aes-ctr-256", + .alg = RTE_CRYPTO_CIPHER_AES_CTR, + .iv_size = 16, + .block_size = 16, + .key_size = 36, + }, + + [7] = { + .name = "3des-cbc", + .alg = RTE_CRYPTO_CIPHER_3DES_CBC, + .iv_size = 8, + .block_size = 8, + .key_size = 24, + }, + + [8] = { + .name = "des-cbc", + .alg = RTE_CRYPTO_CIPHER_DES_CBC, + .iv_size = 8, + .block_size = 8, + .key_size = 8, + }, +}; + +static struct auth_alg auth_algs[] = { + [0] = { + .name = "null", + .alg = RTE_CRYPTO_AUTH_NULL, + .iv_size = 0, + .digest_size = 0, + .key_size = 0, + }, + + [1] = { + .name = "sha1-hmac", + .alg = RTE_CRYPTO_AUTH_SHA1_HMAC, + .iv_size = 0, + .digest_size = 12, + .key_size = 20, + }, + + [2] = { + .name = "sha256-hmac", + .alg = RTE_CRYPTO_AUTH_SHA256_HMAC, + .iv_size = 0, + .digest_size = 16, + .key_size = 32, + }, + + [3] = { + .name = "sha384-hmac", + .alg = RTE_CRYPTO_AUTH_SHA384_HMAC, + .iv_size = 0, + .digest_size = 24, + .key_size = 48, + }, + + [4] = { + .name = "sha512-hmac", + .alg = RTE_CRYPTO_AUTH_SHA512_HMAC, + .iv_size = 0, + .digest_size = 32, + .key_size = 64, + }, + + [5] = { + .name = "aes-gmac", + .alg = RTE_CRYPTO_AUTH_AES_GMAC, + .iv_size = 8, + .digest_size = 16, + .key_size = 20, + }, + + [6] = { + .name = "aes-xcbc-mac-96", + .alg = RTE_CRYPTO_AUTH_AES_XCBC_MAC, + .iv_size = 0, + .digest_size = 12, + .key_size = 16, + }, +}; + +static struct aead_alg aead_algs[] = { + [0] = { + .name = "aes-gcm-128", + .alg = RTE_CRYPTO_AEAD_AES_GCM, + .iv_size = 8, + .block_size = 4, + .key_size = 20, + .digest_size = 16, + .aad_size = 8, + }, + + [1] = { + .name = "aes-gcm-192", + .alg = RTE_CRYPTO_AEAD_AES_GCM, + .iv_size = 8, + .block_size = 4, + .key_size = 28, + .digest_size = 16, + .aad_size = 8, + }, + + [2] = { + .name = "aes-gcm-256", + .alg = RTE_CRYPTO_AEAD_AES_GCM, + .iv_size = 8, + .block_size = 4, + .key_size = 36, + .digest_size = 16, + .aad_size = 8, + }, + + [3] = { + .name = "aes-ccm-128", + .alg = RTE_CRYPTO_AEAD_AES_CCM, + .iv_size = 8, + .block_size = 4, + .key_size = 20, + .digest_size = 16, + .aad_size = 8, + }, + + [4] = { + .name = "aes-ccm-192", + .alg = RTE_CRYPTO_AEAD_AES_CCM, + .iv_size = 8, + .block_size = 4, + .key_size = 28, + .digest_size = 16, + .aad_size = 8, + }, + + [5] = { + .name = "aes-ccm-256", + .alg = RTE_CRYPTO_AEAD_AES_CCM, + .iv_size = 8, + .block_size = 4, + .key_size = 36, + .digest_size = 16, + .aad_size = 8, + }, + + [6] = { + .name = "chacha20-poly1305", + .alg = RTE_CRYPTO_AEAD_CHACHA20_POLY1305, + .iv_size = 12, + .block_size = 64, + .key_size = 36, + .digest_size = 16, + .aad_size = 8, + }, +}; + +static struct cipher_alg * +cipher_alg_find(const char *name) +{ + size_t i; + + for (i = 0; i < RTE_DIM(cipher_algs); i++) { + struct cipher_alg *alg = &cipher_algs[i]; + + if (!strcmp(name, alg->name)) + return alg; + } + + return NULL; +} + +static struct cipher_alg * +cipher_alg_find_by_id(enum rte_crypto_cipher_algorithm alg_id, uint32_t key_size) +{ + size_t i; + + for (i = 0; i < RTE_DIM(cipher_algs); i++) { + struct cipher_alg *alg = &cipher_algs[i]; + + if (alg->alg == alg_id && alg->key_size == key_size) + return alg; + } + + return NULL; +} + +static struct auth_alg * +auth_alg_find(const char *name) +{ + size_t i; + + for (i = 0; i < RTE_DIM(auth_algs); i++) { + struct auth_alg *alg = &auth_algs[i]; + + if (!strcmp(name, alg->name)) + return alg; + } + + return NULL; +} + +static struct auth_alg * +auth_alg_find_by_id(enum rte_crypto_auth_algorithm alg_id, uint32_t key_size) +{ + size_t i; + + for (i = 0; i < RTE_DIM(auth_algs); i++) { + struct auth_alg *alg = &auth_algs[i]; + + if (alg->alg == alg_id && alg->key_size == key_size) + return alg; + } + + return NULL; +} + +static struct aead_alg * +aead_alg_find(const char *name) +{ + size_t i; + + for (i = 0; i < RTE_DIM(aead_algs); i++) { + struct aead_alg *alg = &aead_algs[i]; + + if (!strcmp(name, alg->name)) + return alg; + } + + return NULL; +} + +static struct aead_alg * +aead_alg_find_by_id(enum rte_crypto_aead_algorithm alg_id, uint32_t key_size) +{ + size_t i; + + for (i = 0; i < RTE_DIM(aead_algs); i++) { + struct aead_alg *alg = &aead_algs[i]; + + if (alg->alg == alg_id && alg->key_size == key_size) + return alg; + } + + return NULL; +} + +static int +char_to_hex(char c, uint8_t *val) +{ + if (c >= '0' && c <= '9') { + *val = c - '0'; + return 0; + } + + if (c >= 'A' && c <= 'F') { + *val = c - 'A' + 10; + return 0; + } + + if (c >= 'a' && c <= 'f') { + *val = c - 'a' + 10; + return 0; + } + + return -EINVAL; +} + +static int +hex_string_parse(char *src, uint8_t *dst, uint32_t n_dst_bytes) +{ + uint32_t i; + + /* Check input arguments. */ + if (!src || !src[0] || !dst || !n_dst_bytes) + return -EINVAL; + + /* Skip any leading "0x" or "0X" in the src string. */ + if ((src[0] == '0') && (src[1] == 'x' || src[1] == 'X')) + src += 2; + + /* Convert each group of two hex characters in the src string to one byte in dst array. */ + for (i = 0; i < n_dst_bytes; i++) { + uint8_t a, b; + int status; + + status = char_to_hex(*src, &a); + if (status) + return status; + src++; + + status = char_to_hex(*src, &b); + if (status) + return status; + src++; + + dst[i] = a * 16 + b; + } + + /* Check for the end of the src string. */ + if (*src) + return -EINVAL; + + return 0; +} + +static int +token_is_comment(const char *token) +{ + if ((token[0] == '#') || + (token[0] == ';') || + ((token[0] == '/') && (token[1] == '/'))) + return 1; /* TRUE. */ + + return 0; /* FALSE. */ +} + +#define MAX_TOKENS 64 + +#define CHECK(condition, msg) \ +do { \ + if (!(condition)) { \ + if (errmsg) \ + *errmsg = msg; \ + goto error; \ + } \ +} while (0) + +struct rte_swx_ipsec_sa_params * +rte_swx_ipsec_sa_read(struct rte_swx_ipsec *ipsec __rte_unused, + const char *string, + int *is_blank_or_comment, + const char **errmsg) +{ + char *token_array[MAX_TOKENS], **t; + struct rte_swx_ipsec_sa_params *p = NULL; + char *s0 = NULL, *s; + uint32_t n_tokens = 0; + int blank_or_comment = 0; + + /* Check input arguments. */ + CHECK(string && string[0], "NULL input"); + + /* Memory allocation. */ + s0 = strdup(string); + p = calloc(1, sizeof(struct rte_swx_ipsec_sa_params)); + CHECK(s0 && p, "Not enough memory"); + + /* Parse the string into tokens. */ + for (s = s0; ; ) { + char *token; + + token = strtok_r(s, " \f\n\r\t\v", &s); + if (!token || token_is_comment(token)) + break; + + CHECK(n_tokens < RTE_DIM(token_array), "Too many tokens"); + + token_array[n_tokens] = token; + n_tokens++; + } + + t = token_array; + if (!n_tokens) { + blank_or_comment = 1; + goto error; + } + + /* + * Crypto operation. + */ + if (!strcmp(t[0], "encrypt")) + p->encrypt = 1; + else if (!strcmp(t[0], "decrypt")) + p->encrypt = 0; + else + CHECK(0, "Missing \"encrypt\"/\"decrypt\" keyword"); + + t++; + n_tokens--; + + /* + * Crypto parameters. + */ + CHECK(n_tokens >= 2, "Not enough tokens"); + + if (!strcmp(t[0], "cipher")) { + struct cipher_alg *cipher_alg; + struct auth_alg *auth_alg; + uint32_t key_size; + + p->crypto.is_aead = 0; + + /* cipher. */ + cipher_alg = cipher_alg_find(t[1]); + CHECK(cipher_alg, "Unsupported cipher algorithm"); + + key_size = cipher_alg->key_size; + p->crypto.cipher_auth.cipher.alg = cipher_alg->alg; + p->crypto.cipher_auth.cipher.key_size = key_size; + + t += 2; + n_tokens -= 2; + + if (key_size) { + int status; + + CHECK(n_tokens >= 2, "Not enough tokens"); + CHECK(!strcmp(t[0], "key"), "Missing cipher \"key\" keyword"); + CHECK(key_size <= RTE_DIM(p->crypto.cipher_auth.cipher.key), + "Cipher algorithm key too big"); + + status = hex_string_parse(t[1], p->crypto.cipher_auth.cipher.key, key_size); + CHECK(!status, "Cipher key invalid format"); + + t += 2; + n_tokens -= 2; + } + + /* authentication. */ + CHECK(n_tokens >= 2, "Not enough tokens"); + CHECK(!strcmp(t[0], "auth"), "Missing \"auth\" keyword"); + + auth_alg = auth_alg_find(t[1]); + CHECK(auth_alg, "Unsupported authentication algorithm"); + + key_size = auth_alg->key_size; + p->crypto.cipher_auth.auth.alg = auth_alg->alg; + p->crypto.cipher_auth.auth.key_size = key_size; + + t += 2; + n_tokens -= 2; + + if (key_size) { + int status; + + CHECK(n_tokens >= 2, "Not enough tokens"); + CHECK(!strcmp(t[0], "key"), "Missing authentication \"key\" keyword"); + CHECK(key_size <= RTE_DIM(p->crypto.cipher_auth.auth.key), + "Authentication algorithm key too big"); + + status = hex_string_parse(t[1], p->crypto.cipher_auth.auth.key, key_size); + CHECK(!status, "Authentication key invalid format"); + + t += 2; + n_tokens -= 2; + } + } else if (!strcmp(t[0], "aead")) { + struct aead_alg *alg; + uint32_t key_size; + int status; + + p->crypto.is_aead = 1; + + CHECK(n_tokens >= 4, "Not enough tokens"); + alg = aead_alg_find(t[1]); + CHECK(alg, "Unsupported AEAD algorithm"); + + key_size = alg->key_size; + p->crypto.aead.alg = alg->alg; + p->crypto.aead.key_size = key_size; + + CHECK(!strcmp(t[2], "key"), "Missing AEAD \"key\" keyword"); + CHECK(key_size <= RTE_DIM(p->crypto.aead.key), + "AEAD algorithm key too big"); + + status = hex_string_parse(t[3], p->crypto.aead.key, key_size); + CHECK(!status, "AEAD key invalid format"); + + t += 4; + n_tokens -= 4; + } else + CHECK(0, "Missing \"cipher\"/\"aead\" keyword"); + + /* + * Packet ecapsulation parameters. + */ + CHECK(n_tokens >= 4, "Not enough tokens"); + CHECK(!strcmp(t[0], "esp"), "Missing \"esp\" keyword"); + CHECK(!strcmp(t[1], "spi"), "Missing \"spi\" keyword"); + + p->encap.esp.spi = strtoul(t[2], &t[2], 0); + CHECK(!t[2][0], "ESP SPI field invalid format"); + + t += 3; + n_tokens -= 3; + + if (!strcmp(t[0], "tunnel")) { + p->encap.tunnel_mode = 1; + + CHECK(n_tokens >= 6, "Not enough tokens"); + + if (!strcmp(t[1], "ipv4")) { + uint32_t addr; + + p->encap.tunnel_ipv4 = 1; + + CHECK(!strcmp(t[2], "srcaddr"), "Missing \"srcaddr\" keyword"); + + addr = strtoul(t[3], &t[3], 0); + CHECK(!t[3][0], "Tunnel IPv4 source address invalid format"); + p->encap.tunnel.ipv4.src_addr.s_addr = htonl(addr); + + CHECK(!strcmp(t[4], "dstaddr"), "Missing \"dstaddr\" keyword"); + + addr = strtoul(t[5], &t[5], 0); + CHECK(!t[5][0], "Tunnel IPv4 destination address invalid format"); + p->encap.tunnel.ipv4.dst_addr.s_addr = htonl(addr); + + t += 6; + n_tokens -= 6; + } else if (!strcmp(t[1], "ipv6")) { + int status; + + p->encap.tunnel_ipv4 = 0; + + CHECK(!strcmp(t[2], "srcaddr"), "Missing \"srcaddr\" keyword"); + + status = hex_string_parse(t[3], + p->encap.tunnel.ipv6.src_addr.s6_addr, + 16); + CHECK(!status, "Tunnel IPv6 source address invalid format"); + + CHECK(!strcmp(t[4], "dstaddr"), "Missing \"dstaddr\" keyword"); + + status = hex_string_parse(t[5], + p->encap.tunnel.ipv6.dst_addr.s6_addr, + 16); + CHECK(!status, "Tunnel IPv6 destination address invalid format"); + + t += 6; + n_tokens -= 6; + } else + CHECK(0, "Missing \"ipv4\"/\"ipv6\" keyword"); + } else if (!strcmp(t[0], "transport")) { + p->encap.tunnel_mode = 0; + + t++; + n_tokens--; + } else + CHECK(0, "Missing \"tunnel\"/\"transport\" keyword"); + + /* + * Any other parameters. + */ + CHECK(!n_tokens, "Unexpected trailing tokens"); + + free(s0); + return p; + +error: + free(p); + free(s0); + if (is_blank_or_comment) + *is_blank_or_comment = blank_or_comment; + return NULL; +} + +static void +tunnel_ipv4_header_set(struct rte_ipv4_hdr *h, struct rte_swx_ipsec_sa_params *p) +{ + struct rte_ipv4_hdr ipv4_hdr = { + .version_ihl = 0x45, + .type_of_service = 0, + .total_length = 0, /* Cannot be pre-computed. */ + .packet_id = 0, + .fragment_offset = 0, + .time_to_live = 64, + .next_proto_id = IPPROTO_ESP, + .hdr_checksum = 0, /* Cannot be pre-computed. */ + .src_addr = p->encap.tunnel.ipv4.src_addr.s_addr, + .dst_addr = p->encap.tunnel.ipv4.dst_addr.s_addr, + }; + + memcpy(h, &ipv4_hdr, sizeof(ipv4_hdr)); +} + +static void +tunnel_ipv6_header_set(struct rte_ipv6_hdr *h, struct rte_swx_ipsec_sa_params *p) +{ + struct rte_ipv6_hdr ipv6_hdr = { + .vtc_flow = 0x60000000, + .payload_len = 0, /* Cannot be pre-computed. */ + .proto = IPPROTO_ESP, + .hop_limits = 64, + .src_addr = {0}, + .dst_addr = {0}, + }; + + memcpy(h, &ipv6_hdr, sizeof(ipv6_hdr)); + memcpy(h->src_addr, p->encap.tunnel.ipv6.src_addr.s6_addr, 16); + memcpy(h->dst_addr, p->encap.tunnel.ipv6.dst_addr.s6_addr, 16); +} + +/* IPsec library SA parameters. */ +static struct rte_crypto_sym_xform * +crypto_xform_get(struct rte_swx_ipsec_sa_params *p, + struct rte_crypto_sym_xform *xform, + uint32_t *salt_out) +{ + if (p->crypto.is_aead) { + struct aead_alg *alg; + uint32_t key_size, salt, iv_length; + + alg = aead_alg_find_by_id(p->crypto.aead.alg, p->crypto.aead.key_size); + if (!alg) + return NULL; + + /* salt and salt-related key size adjustment. */ + key_size = p->crypto.aead.key_size - 4; + memcpy(&salt, &p->crypto.aead.key[key_size], 4); + + /* IV length. */ + iv_length = 12; + if (p->crypto.aead.alg == RTE_CRYPTO_AEAD_AES_CCM) + iv_length = 11 ; + + /* xform. */ + xform[0].type = RTE_CRYPTO_SYM_XFORM_AEAD; + xform[0].aead.op = p->encrypt ? + RTE_CRYPTO_AEAD_OP_ENCRYPT : + RTE_CRYPTO_AEAD_OP_DECRYPT; + xform[0].aead.algo = p->crypto.aead.alg; + xform[0].aead.key.data = p->crypto.aead.key; + xform[0].aead.key.length = key_size; + xform[0].aead.iv.offset = IV_OFFSET; + xform[0].aead.iv.length = iv_length; + xform[0].aead.digest_length = alg->digest_size; + xform[0].aead.aad_length = alg->aad_size; + xform[0].next = NULL; + + *salt_out = salt; + return &xform[0]; + } else { + struct cipher_alg *cipher_alg; + struct auth_alg *auth_alg; + uint32_t cipher_key_size, auth_key_size, salt, auth_iv_length; + + cipher_alg = cipher_alg_find_by_id(p->crypto.cipher_auth.cipher.alg, + p->crypto.cipher_auth.cipher.key_size); + if (!cipher_alg) + return NULL; + + auth_alg = auth_alg_find_by_id(p->crypto.cipher_auth.auth.alg, + p->crypto.cipher_auth.auth.key_size); + if (!auth_alg) + return NULL; + + /* salt and salt-related key size adjustment. */ + cipher_key_size = p->crypto.cipher_auth.cipher.key_size; + auth_key_size = p->crypto.cipher_auth.auth.key_size; + + switch (p->crypto.cipher_auth.cipher.alg) { + case RTE_CRYPTO_CIPHER_AES_CBC: + case RTE_CRYPTO_CIPHER_3DES_CBC: + salt = (uint32_t)rand(); + break; + + case RTE_CRYPTO_CIPHER_AES_CTR: + cipher_key_size -= 4; + memcpy(&salt, &p->crypto.cipher_auth.cipher.key[cipher_key_size], 4); + break; + + default: + salt = 0; + } + + if (p->crypto.cipher_auth.auth.alg == RTE_CRYPTO_AUTH_AES_GMAC) { + auth_key_size -= 4; + memcpy(&salt, &p->crypto.cipher_auth.auth.key[auth_key_size], 4); + } + + /* IV length. */ + auth_iv_length = cipher_alg->iv_size; + if (p->crypto.cipher_auth.auth.alg == RTE_CRYPTO_AUTH_AES_GMAC) + auth_iv_length = 12; + + /* xform. */ + if (p->encrypt) { + xform[0].type = RTE_CRYPTO_SYM_XFORM_CIPHER; + xform[0].cipher.op = RTE_CRYPTO_CIPHER_OP_ENCRYPT; + xform[0].cipher.algo = p->crypto.cipher_auth.cipher.alg; + xform[0].cipher.key.data = p->crypto.cipher_auth.cipher.key; + xform[0].cipher.key.length = cipher_key_size; + xform[0].cipher.iv.offset = IV_OFFSET; + xform[0].cipher.iv.length = cipher_alg->iv_size; + xform[0].cipher.dataunit_len = 0; + xform[0].next = &xform[1]; + + xform[1].type = RTE_CRYPTO_SYM_XFORM_AUTH; + xform[1].auth.op = RTE_CRYPTO_AUTH_OP_GENERATE; + xform[1].auth.algo = p->crypto.cipher_auth.auth.alg; + xform[1].auth.key.data = p->crypto.cipher_auth.auth.key; + xform[1].auth.key.length = auth_key_size; + xform[1].auth.iv.offset = IV_OFFSET; + xform[1].auth.iv.length = auth_iv_length; + xform[1].auth.digest_length = auth_alg->digest_size; + xform[1].next = NULL; + } else { + xform[0].type = RTE_CRYPTO_SYM_XFORM_AUTH; + xform[0].auth.op = RTE_CRYPTO_AUTH_OP_VERIFY; + xform[0].auth.algo = p->crypto.cipher_auth.auth.alg; + xform[0].auth.key.data = p->crypto.cipher_auth.auth.key; + xform[0].auth.key.length = auth_key_size; + xform[0].auth.iv.offset = IV_OFFSET; + xform[0].auth.iv.length = auth_iv_length; + xform[0].auth.digest_length = auth_alg->digest_size; + xform[0].next = &xform[1]; + + xform[1].type = RTE_CRYPTO_SYM_XFORM_CIPHER; + xform[1].cipher.op = RTE_CRYPTO_CIPHER_OP_DECRYPT; + xform[1].cipher.algo = p->crypto.cipher_auth.cipher.alg; + xform[1].cipher.key.data = p->crypto.cipher_auth.cipher.key; + xform[1].cipher.key.length = cipher_key_size; + xform[1].cipher.iv.offset = IV_OFFSET; + xform[1].cipher.iv.length = cipher_alg->iv_size; + xform[1].cipher.dataunit_len = 0; + xform[1].next = NULL; + } + + *salt_out = salt; + + if (p->crypto.cipher_auth.auth.alg == RTE_CRYPTO_AUTH_AES_GMAC) { + if (p->encrypt) + return &xform[1]; + + xform[0].next = NULL; + return &xform[0]; + } + + return &xform[0]; + } +} + +static void +ipsec_xform_get(struct rte_swx_ipsec_sa_params *p, + struct rte_security_ipsec_xform *ipsec_xform, + uint32_t salt) +{ + ipsec_xform->spi = p->encap.esp.spi; + + ipsec_xform->salt = salt; + + ipsec_xform->options.esn = 0; + ipsec_xform->options.udp_encap = 0; + ipsec_xform->options.copy_dscp = 1; + ipsec_xform->options.copy_flabel = 0; + ipsec_xform->options.copy_df = 0; + ipsec_xform->options.dec_ttl = 0; + ipsec_xform->options.ecn = 1; + ipsec_xform->options.stats = 0; + ipsec_xform->options.iv_gen_disable = 0; + ipsec_xform->options.tunnel_hdr_verify = 0; + ipsec_xform->options.udp_ports_verify = 0; + ipsec_xform->options.ip_csum_enable = 0; + ipsec_xform->options.l4_csum_enable = 0; + ipsec_xform->options.ip_reassembly_en = 0; + ipsec_xform->options.reserved_opts = 0; + + ipsec_xform->direction = p->encrypt ? + RTE_SECURITY_IPSEC_SA_DIR_EGRESS : + RTE_SECURITY_IPSEC_SA_DIR_INGRESS; + + ipsec_xform->proto = RTE_SECURITY_IPSEC_SA_PROTO_ESP; + + ipsec_xform->mode = p->encap.tunnel_mode ? + RTE_SECURITY_IPSEC_SA_MODE_TUNNEL : + RTE_SECURITY_IPSEC_SA_MODE_TRANSPORT; + + ipsec_xform->tunnel.type = p->encap.tunnel_ipv4 ? + RTE_SECURITY_IPSEC_TUNNEL_IPV4 : + RTE_SECURITY_IPSEC_TUNNEL_IPV6; + + if (p->encap.tunnel_mode) { + if (p->encap.tunnel_ipv4) { + ipsec_xform->tunnel.ipv4.src_ip = p->encap.tunnel.ipv4.src_addr; + ipsec_xform->tunnel.ipv4.dst_ip = p->encap.tunnel.ipv4.dst_addr; + ipsec_xform->tunnel.ipv4.dscp = 0; + ipsec_xform->tunnel.ipv4.df = 0; + ipsec_xform->tunnel.ipv4.ttl = 64; + } else { + ipsec_xform->tunnel.ipv6.src_addr = p->encap.tunnel.ipv6.src_addr; + ipsec_xform->tunnel.ipv6.dst_addr = p->encap.tunnel.ipv6.dst_addr; + ipsec_xform->tunnel.ipv6.dscp = 0; + ipsec_xform->tunnel.ipv6.flabel = 0; + ipsec_xform->tunnel.ipv6.hlimit = 64; + } + } + + ipsec_xform->life.packets_soft_limit = 0; + ipsec_xform->life.bytes_soft_limit = 0; + ipsec_xform->life.packets_hard_limit = 0; + ipsec_xform->life.bytes_hard_limit = 0; + + ipsec_xform->replay_win_sz = 0; + + ipsec_xform->esn.value = 0; + + ipsec_xform->udp.dport = 0; + ipsec_xform->udp.sport = 0; +} + +static int +ipsec_sa_prm_get(struct rte_swx_ipsec_sa_params *p, + struct rte_ipsec_sa_prm *sa_prm, + struct rte_ipv4_hdr *ipv4_hdr, + struct rte_ipv6_hdr *ipv6_hdr, + struct rte_crypto_sym_xform *crypto_xform) +{ + uint32_t salt; + + memset(sa_prm, 0, sizeof(*sa_prm)); /* Better to be safe than sorry. */ + + sa_prm->userdata = 0; /* Not used. */ + + sa_prm->flags = 0; /* Flag RTE_IPSEC_SAFLAG_SQN_ATOM not enabled. */ + + /* + * crypto_xform. + */ + sa_prm->crypto_xform = crypto_xform_get(p, crypto_xform, &salt); + if (!sa_prm->crypto_xform) + return -EINVAL; + + /* + * ipsec_xform. + */ + ipsec_xform_get(p, &sa_prm->ipsec_xform, salt); + + /* + * tunnel / transport. + * + * Currently, the input IP packet type is assumed to be IPv4. To support both IPv4 and IPv6, + * the input packet type should be added to the SA configuration parameters. + */ + if (p->encap.tunnel_mode) { + if (p->encap.tunnel_ipv4) { + sa_prm->tun.hdr_len = sizeof(struct rte_ipv4_hdr); + sa_prm->tun.hdr_l3_off = 0; + sa_prm->tun.next_proto = IPPROTO_IPIP; /* Assume input IP packet type as IPv4. */ + sa_prm->tun.hdr = ipv4_hdr; + } else { + sa_prm->tun.hdr_len = sizeof(struct rte_ipv6_hdr); + sa_prm->tun.hdr_l3_off = 0; + sa_prm->tun.next_proto = IPPROTO_IPIP; /* Assume input IP packet type as IPv4. */ + sa_prm->tun.hdr = ipv6_hdr; + } + } else { + sa_prm->trs.proto = IPPROTO_IPIP; /* Assume input IP packet type as IPv4. */ + } + + return 0; +} + +static int +ipsec_session_create(struct rte_swx_ipsec *ipsec, + struct rte_swx_ipsec_sa_params *p, + struct rte_ipsec_session *s) +{ + struct rte_ipv4_hdr ipv4_hdr; + struct rte_ipv6_hdr ipv6_hdr; + struct rte_crypto_sym_xform crypto_xform[2]; + struct rte_ipsec_sa_prm sa_prm; + struct rte_ipsec_sa *sa = NULL; + struct rte_cryptodev_sym_session *crypto_session = NULL; + int sa_size; + int sa_valid = 0, crypto_session_valid = 0, status = 0; + + tunnel_ipv4_header_set(&ipv4_hdr, p); + tunnel_ipv6_header_set(&ipv6_hdr, p); + + /* IPsec library SA setup. */ + status = ipsec_sa_prm_get(p, &sa_prm, &ipv4_hdr, &ipv6_hdr, crypto_xform); + if (status) + goto error; + + sa_size = rte_ipsec_sa_size(&sa_prm); + if (sa_size < 0) { + status = sa_size; + goto error; + } + if (!sa_size) { + status = -EINVAL; + goto error; + } + + sa = calloc(1, sa_size); + if (!sa) { + status = -ENOMEM; + goto error; + } + + sa_size = rte_ipsec_sa_init(sa, &sa_prm, sa_size); + if (sa_size < 0) { + status = sa_size; + goto error; + } + if (!sa_size) { + status = -EINVAL; + goto error; + } + + sa_valid = 1; + + /* Cryptodev library session setup. */ + crypto_session = rte_cryptodev_sym_session_create(ipsec->mp_session); + if (!crypto_session) { + status = -ENOMEM; + goto error; + } + + status = rte_cryptodev_sym_session_init(ipsec->dev_id, + crypto_session, + sa_prm.crypto_xform, + ipsec->mp_session_priv); + if (status) + goto error; + + crypto_session_valid = 1; + + /* IPsec library session setup. */ + s->sa = sa; + s->type = RTE_SECURITY_ACTION_TYPE_NONE; + s->crypto.ses = crypto_session; + s->crypto.dev_id = ipsec->dev_id; + s->pkt_func.prepare.async = NULL; + s->pkt_func.process = NULL; + + return rte_ipsec_session_prepare(s); + +error: + /* sa. */ + if (sa_valid) + rte_ipsec_sa_fini(sa); + + free(sa); + + /* crypto_session. */ + if (crypto_session_valid) + rte_cryptodev_sym_session_clear(ipsec->dev_id, crypto_session); + + if (crypto_session) + rte_cryptodev_sym_session_free(crypto_session); + + /* s. */ + memset(s, 0, sizeof(*s)); + + return status; +} + +static void +ipsec_session_free(struct rte_swx_ipsec *ipsec, + struct rte_ipsec_session *s) +{ + if (!s) + return; + + /* IPsec library SA. */ + if (s->sa) + rte_ipsec_sa_fini(s->sa); + free(s->sa); + + /* Cryptodev library session. */ + if (s->crypto.ses) { + rte_cryptodev_sym_session_clear(ipsec->dev_id, s->crypto.ses); + rte_cryptodev_sym_session_free(s->crypto.ses); + } + + /* IPsec library session. */ + memset(s, 0, sizeof(*s)); +} + +int +rte_swx_ipsec_sa_add(struct rte_swx_ipsec *ipsec, + struct rte_swx_ipsec_sa_params *sa_params, + uint32_t *id) +{ + struct ipsec_sa *sa; + uint32_t sa_id; + int status; + + /* Check the input parameters. */ + if (!ipsec || !sa_params || !id) + return -EINVAL; + + /* Allocate a free SADB entry. */ + if (!ipsec->n_sa_free_id) + return -ENOSPC; + + sa_id = ipsec->sa_free_id[ipsec->n_sa_free_id - 1]; + ipsec->n_sa_free_id--; + + /* Aquire the SA resources. */ + sa = ipsec_sa_get(ipsec, sa_id); + + status = ipsec_session_create(ipsec, sa_params, &sa->s); + if (status) { + /* Free the allocated SADB entry. */ + ipsec->sa_free_id[ipsec->n_sa_free_id] = sa_id; + ipsec->n_sa_free_id++; + + return status; + } + + /* Validate the new SA. */ + sa->valid = 1; + *id = sa_id; + + return 0; +} + +void +rte_swx_ipsec_sa_delete(struct rte_swx_ipsec *ipsec, + uint32_t sa_id) +{ + struct ipsec_sa *sa; + + /* Check the input parameters. */ + if (!ipsec || (sa_id >= ipsec->n_sa_max)) + return; + + /* Release the SA resources. */ + sa = ipsec_sa_get(ipsec, sa_id); + + ipsec_session_free(ipsec, &sa->s); + + /* Free the SADB entry. */ + ipsec->sa_free_id[ipsec->n_sa_free_id] = sa_id; + ipsec->n_sa_free_id++; + + /* Invalidate the SA. */ + sa->valid = 0; +} diff --git a/lib/pipeline/rte_swx_ipsec.h b/lib/pipeline/rte_swx_ipsec.h new file mode 100644 index 0000000000..c2c638a5d7 --- /dev/null +++ b/lib/pipeline/rte_swx_ipsec.h @@ -0,0 +1,383 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2022 Intel Corporation + */ +#ifndef __INCLUDE_RTE_SWX_IPSEC_H__ +#define __INCLUDE_RTE_SWX_IPSEC_H__ + +#ifdef __cplusplus +extern "C" { +#endif + +/** + * @file + * RTE SWX Internet Protocol Security (IPsec) + * + * This block is used to provide IPsec support to the SWX pipeline. The block is external to the + * pipeline, hence it needs to be explicitly instantiated by the user and connected to a pipeline + * instance using the pipeline I/O ports. + * + * Main features: + * - IPsec inbound (encrypted input packets -> clear text output packets) and outbound (clear text + * input packets -> encrypted output packets) processing support for tunnel and transport modes. + * + * Security Association (SA): + * - Each IPsec block instance has its own set of SAs used to process the input packets. Each SA is + * identified by its unique SA ID. The IPsec inbound and outbound SAs share the same ID space. + * - Each input packet is first mapped to one of the existing SAs by using the SA ID and then + * processed according to the identified SA. The SA ID is read from input packet. The SA ID field + * is typically written by the pipeline before sending the packet to the IPsec block. + * + * Packet format: + * - IPsec block input packet (i.e. pipeline output packet): + * - IPsec block meta-data header: @see struct rte_swx_ipsec_input_packet_metadata. + * - IPv4 header. + * - IPv4 payload: on the inbound path, it includes the encrypted ESP packet. + * - IPsec block output packet (i.e. pipeline input packet): + * - IPv4 header. + * - IPv4 payload: on the outbound path, it includes the encrypted ESP packet. + * + * SA update procedure: + * - To add a new SA, @see function rte_swx_ipsec_sa_add(). + * - To delete an existing SA, @see function rte_swx_ipsec_sa_delete(). + * - To update an existing SA, the control plane has to follow the following steps: + * 1. Add a new SA with potentially a different set of configuration parameters. This step can + * fail, for example when the SA table is full. + * 2. Wait until no more packets are using the old SA. + * 3. Delete the old SA. + */ + +#include +#include +#include + +#include +#include + +/** + * IPsec Setup API + */ + +/** IPsec instance opaque data structure. */ +struct rte_swx_ipsec; + +/** Name size. */ +#ifndef RTE_SWX_IPSEC_NAME_SIZE +#define RTE_SWX_IPSEC_NAME_SIZE 64 +#endif + +/** Maximum burst size. */ +#ifndef RTE_SWX_IPSEC_BURST_SIZE_MAX +#define RTE_SWX_IPSEC_BURST_SIZE_MAX 256 +#endif + +/** IPsec burst sizes. */ +struct rte_swx_ipsec_burst_size { + /** Input ring read burst size. */ + uint32_t ring_rd; + + /** Output ring write burst size. */ + uint32_t ring_wr; + + /** Crypto device request queue write burst size. */ + uint32_t crypto_wr; + + /** Crypto device response queue read burst size. */ + uint32_t crypto_rd; +}; + +/** + * IPsec instance configuration parameters + * + */ +struct rte_swx_ipsec_params { + /** Input packet queue. */ + const char *ring_in_name; + + /** Output packet queue. */ + const char *ring_out_name; + + /** Crypto device name. */ + const char *crypto_dev_name; + + /** Crypto device queue pair ID. */ + uint32_t crypto_dev_queue_pair_id; + + /** Burst size. */ + struct rte_swx_ipsec_burst_size bsz; + + /** Maximum number of SAs. */ + uint32_t n_sa_max; +}; + +/** + * IPsec input packet meta-data + * + */ +struct rte_swx_ipsec_input_packet_metadata { + /* SA ID. */ + uint32_t sa_id; +}; + +/** + * IPsec instance find + * + * @param[in] name + * IPsec instance name. + * @return + * Valid IPsec instance handle if found or NULL otherwise. + */ +__rte_experimental +struct rte_swx_ipsec * +rte_swx_ipsec_find(const char *name); + +/** + * IPsec instance create + * + * @param[out] ipsec + * IPsec instance handle. Must point to valid memory. Contains valid pipeline handle once this + * function returns successfully. + * @param[in] name + * IPsec instance unique name. + * @param[in] params + * IPsec instance configuration parameters. + * @param[in] numa_node + * Non-Uniform Memory Access (NUMA) node. + * @return + * 0 on success or the following error codes otherwise: + * -EINVAL: Invalid argument; + * -ENOMEM: Not enough space/cannot allocate memory; + * -EEXIST: Pipeline with this name already exists. + */ +__rte_experimental +int +rte_swx_ipsec_create(struct rte_swx_ipsec **ipsec, + const char *name, + struct rte_swx_ipsec_params *params, + int numa_node); + +/** + * IPsec instance free + * + * @param[in] ipsec + * IPsec instance handle. + */ +__rte_experimental +void +rte_swx_ipsec_free(struct rte_swx_ipsec *ipsec); + +/** + * IPsec Data Plane API + */ + +/** + * IPsec instance run + * + * @param[in] ipsec + * IPsec instance handle. + */ +__rte_experimental +void +rte_swx_ipsec_run(struct rte_swx_ipsec *ipsec); + +/* + * IPsec Control Plane API + */ + +/** Maximum key size in bytes. */ +#define RTE_SWX_IPSEC_KEY_SIZE_MAX 64 + +/** IPsec SA crypto cipher parameters. */ +struct rte_swx_ipsec_sa_cipher_params { + /** Cipher algorithm. */ + enum rte_crypto_cipher_algorithm alg; + + /** Cipher key. */ + uint8_t key[RTE_SWX_IPSEC_KEY_SIZE_MAX]; + + /** Cipher key size in bytes. */ + uint32_t key_size; +}; + +/** IPsec SA crypto authentication parameters. */ +struct rte_swx_ipsec_sa_authentication_params { + /** Authentication algorithm. */ + enum rte_crypto_auth_algorithm alg; + + /** Authentication key. */ + uint8_t key[RTE_SWX_IPSEC_KEY_SIZE_MAX]; + + /** Authentication key size in bytes. */ + uint32_t key_size; +}; + +/** IPsec SA crypto Authenticated Encryption with Associated Data (AEAD) parameters. */ +struct rte_swx_ipsec_sa_aead_params { + /** AEAD algorithm. */ + enum rte_crypto_aead_algorithm alg; + + /** AEAD key. */ + uint8_t key[RTE_SWX_IPSEC_KEY_SIZE_MAX]; + + /** AEAD key size in bytes. */ + uint32_t key_size; +}; + +/** IPsec protocol encapsulation parameters. */ +struct rte_swx_ipsec_sa_encap_params { + /** Encapsulating Security Payload (ESP) header. */ + struct { + /** Security Parameters Index (SPI) field. */ + uint32_t spi; + } esp; + + /** Tunnel mode when non-zero, transport mode when zero. */ + int tunnel_mode; + + /** Tunnel type: Non-zero for IPv4, zero for IPv6. Valid for tunnel mode only. */ + int tunnel_ipv4; + + /** Tunnel parameters. Valid for tunnel mode only. */ + union { + /** IPv4 header. */ + struct { + /** Source address. */ + struct in_addr src_addr; + + /** Destination address. */ + struct in_addr dst_addr; + } ipv4; + + /** IPv6 header. */ + struct { + /** Source address. */ + struct in6_addr src_addr; + + /** Destination address. */ + struct in6_addr dst_addr; + } ipv6; + } tunnel; +}; + +/** IPsec Security Association (SA) parameters. */ +struct rte_swx_ipsec_sa_params { + /** Crypto operation: encrypt when non-zero, decrypt when zero. */ + int encrypt; + + /** Crypto operation parameters. */ + struct { + RTE_STD_C11 + union { + struct { + /** Crypto cipher operation parameters. */ + struct rte_swx_ipsec_sa_cipher_params cipher; + + /** Crypto authentication operation parameters. */ + struct rte_swx_ipsec_sa_authentication_params auth; + } cipher_auth; + + /** Crypto AEAD operation parameters. */ + struct rte_swx_ipsec_sa_aead_params aead; + }; + + /** Non-zero for AEAD, zero for cipher & authentication. */ + int is_aead; + } crypto; + + /** Packet encasulation parameters. */ + struct rte_swx_ipsec_sa_encap_params encap; +}; + +/** + * IPsec SA add + * + * @param[in] ipsec + * IPsec instance handle. + * @param[in] sa_params + * SA parameters. + * @params[out] sa_id. + * On success, the SA ID. + * @return + * 0 on success or error code otherwise. + */ +__rte_experimental +int +rte_swx_ipsec_sa_add(struct rte_swx_ipsec *ipsec, + struct rte_swx_ipsec_sa_params *sa_params, + uint32_t *sa_id); + +/** + * IPsec SA delete + * + * It is the responibility of the Control Plane to make sure the SA to be deleted is no longer used + * by the Data Plane. + * + * @param[in] ipsec + * IPsec instance handle. + * @params[in] sa_id. + * The SA ID. + */ +__rte_experimental +void +rte_swx_ipsec_sa_delete(struct rte_swx_ipsec *ipsec, + uint32_t sa_id); + +/** + * IPsec SA read from string + * + * IPsec SA syntax: + * + * + * : encrypt + * | decrypt + * ; + * + * + * : + * | + * ; + * + * + * : cipher key + * | cipher + * ; + * + * + * : auth key + * | auth + * ; + * + * + * : aead key + * ; + * + * + * : esp spi tunnel ipv4 srcaddr dstaddr + * | esp spi tunnel ipv6 srcaddr dstaddr + * | esp spi transport + * ; + * + * @param[in] ipsec + * IPsec instance handle. + * @param[in] string + * String containing the SA. + * @param[inout] is_blank_or_comment + * On error, when its input value is not NULL, this argument is set to a non-zero value when + * *string* contains a blank or comment line and to zero otherwise. + * @param[inout] errmsg + * On error, when its input value is not NULL, this argument points to a string with details on + * the detected error. + * @return + * Pointer to valid IPsec SA parameters data structure on success or NULL on error. + */ +__rte_experimental +struct rte_swx_ipsec_sa_params * +rte_swx_ipsec_sa_read(struct rte_swx_ipsec *ipsec, + const char *string, + int *is_blank_or_comment, + const char **errmsg); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/lib/pipeline/version.map b/lib/pipeline/version.map index 184f45a6b7..58e34459c3 100644 --- a/lib/pipeline/version.map +++ b/lib/pipeline/version.map @@ -155,4 +155,13 @@ EXPERIMENTAL { rte_swx_pipeline_build_from_lib; rte_swx_pipeline_codegen; rte_swx_pipeline_find; + + #added in 23.03 + rte_swx_ipsec_create; + rte_swx_ipsec_find; + rte_swx_ipsec_free; + rte_swx_ipsec_run; + rte_swx_ipsec_sa_add; + rte_swx_ipsec_sa_delete; + rte_swx_ipsec_sa_read; };