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|
/*-
* Copyright (c) 2019-2021 Mellanox Technologies. All rights reserved.
* Copyright (c) 2022 NVIDIA corporation & affiliates.
*
* 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.
*
* THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS `AS IS' AND
* ANY EXPRESS 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 AUTHOR OR 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.
*/
#include "opt_kern_tls.h"
#include "opt_rss.h"
#include "opt_ratelimit.h"
#include <dev/mlx5/mlx5_en/en.h>
#include <dev/mlx5/tls.h>
#include <dev/mlx5/crypto.h>
#include <linux/delay.h>
#include <sys/ktls.h>
#include <opencrypto/cryptodev.h>
#ifdef KERN_TLS
#ifdef RATELIMIT
static if_snd_tag_modify_t mlx5e_tls_rl_snd_tag_modify;
#endif
static if_snd_tag_query_t mlx5e_tls_snd_tag_query;
static if_snd_tag_free_t mlx5e_tls_snd_tag_free;
static const struct if_snd_tag_sw mlx5e_tls_snd_tag_sw = {
.snd_tag_query = mlx5e_tls_snd_tag_query,
.snd_tag_free = mlx5e_tls_snd_tag_free,
.type = IF_SND_TAG_TYPE_TLS
};
#ifdef RATELIMIT
static const struct if_snd_tag_sw mlx5e_tls_rl_snd_tag_sw = {
.snd_tag_modify = mlx5e_tls_rl_snd_tag_modify,
.snd_tag_query = mlx5e_tls_snd_tag_query,
.snd_tag_free = mlx5e_tls_snd_tag_free,
.type = IF_SND_TAG_TYPE_TLS_RATE_LIMIT
};
#endif
MALLOC_DEFINE(M_MLX5E_TLS, "MLX5E_TLS", "MLX5 ethernet HW TLS");
/* software TLS context */
struct mlx5_ifc_sw_tls_cntx_bits {
struct mlx5_ifc_tls_static_params_bits param;
struct mlx5_ifc_tls_progress_params_bits progress;
struct {
uint8_t key_data[8][0x20];
uint8_t key_len[0x20];
} key;
};
CTASSERT(MLX5_ST_SZ_BYTES(sw_tls_cntx) <= sizeof(((struct mlx5e_tls_tag *)0)->crypto_params));
CTASSERT(MLX5_ST_SZ_BYTES(mkc) == sizeof(((struct mlx5e_tx_umr_wqe *)0)->mkc));
static const char *mlx5e_tls_stats_desc[] = {
MLX5E_TLS_STATS(MLX5E_STATS_DESC)
};
static void mlx5e_tls_work(struct work_struct *);
static int
mlx5e_tls_tag_import(void *arg, void **store, int cnt, int domain, int flags)
{
struct mlx5e_tls_tag *ptag;
int i;
for (i = 0; i != cnt; i++) {
ptag = malloc_domainset(sizeof(*ptag), M_MLX5E_TLS,
mlx5_dev_domainset(arg), flags | M_ZERO);
mtx_init(&ptag->mtx, "mlx5-tls-tag-mtx", NULL, MTX_DEF);
INIT_WORK(&ptag->work, mlx5e_tls_work);
store[i] = ptag;
}
return (i);
}
static void
mlx5e_tls_tag_release(void *arg, void **store, int cnt)
{
struct mlx5e_tls_tag *ptag;
struct mlx5e_priv *priv;
struct mlx5e_tls *ptls;
int i;
for (i = 0; i != cnt; i++) {
ptag = store[i];
ptls = ptag->tls;
priv = container_of(ptls, struct mlx5e_priv, tls);
flush_work(&ptag->work);
if (ptag->tisn != 0) {
mlx5_tls_close_tis(priv->mdev, ptag->tisn);
atomic_add_32(&ptls->num_resources, -1U);
}
mtx_destroy(&ptag->mtx);
free(ptag, M_MLX5E_TLS);
}
}
static void
mlx5e_tls_tag_zfree(struct mlx5e_tls_tag *ptag)
{
/* make sure any unhandled taskqueue events are ignored */
ptag->state = MLX5E_TLS_ST_FREED;
/* reset some variables */
ptag->dek_index = 0;
ptag->dek_index_ok = 0;
/* avoid leaking keys */
memset(ptag->crypto_params, 0, sizeof(ptag->crypto_params));
/* update number of TIS contexts */
if (ptag->tisn == 0)
atomic_add_32(&ptag->tls->num_resources, -1U);
/* return tag to UMA */
uma_zfree(ptag->tls->zone, ptag);
}
int
mlx5e_tls_init(struct mlx5e_priv *priv)
{
struct mlx5e_tls *ptls = &priv->tls;
struct sysctl_oid *node;
uint32_t x;
if (MLX5_CAP_GEN(priv->mdev, tls_tx) == 0 ||
MLX5_CAP_GEN(priv->mdev, log_max_dek) == 0)
return (0);
ptls->wq = create_singlethread_workqueue("mlx5-tls-wq");
if (ptls->wq == NULL)
return (ENOMEM);
sysctl_ctx_init(&ptls->ctx);
snprintf(ptls->zname, sizeof(ptls->zname),
"mlx5_%u_tls", device_get_unit(priv->mdev->pdev->dev.bsddev));
ptls->zone = uma_zcache_create(ptls->zname,
sizeof(struct mlx5e_tls_tag), NULL, NULL, NULL, NULL,
mlx5e_tls_tag_import, mlx5e_tls_tag_release, priv->mdev,
UMA_ZONE_UNMANAGED);
/* shared between RX and TX TLS */
ptls->max_resources = 1U << (MLX5_CAP_GEN(priv->mdev, log_max_dek) - 1);
for (x = 0; x != MLX5E_TLS_STATS_NUM; x++)
ptls->stats.arg[x] = counter_u64_alloc(M_WAITOK);
ptls->init = 1;
node = SYSCTL_ADD_NODE(&priv->sysctl_ctx,
SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO,
"tls", CTLFLAG_RW | CTLFLAG_MPSAFE, NULL, "Hardware TLS offload");
if (node == NULL)
return (0);
mlx5e_create_counter_stats(&ptls->ctx,
SYSCTL_CHILDREN(node), "stats",
mlx5e_tls_stats_desc, MLX5E_TLS_STATS_NUM,
ptls->stats.arg);
return (0);
}
void
mlx5e_tls_cleanup(struct mlx5e_priv *priv)
{
struct mlx5e_tls *ptls = &priv->tls;
uint32_t x;
if (ptls->init == 0)
return;
ptls->init = 0;
flush_workqueue(ptls->wq);
sysctl_ctx_free(&ptls->ctx);
uma_zdestroy(ptls->zone);
destroy_workqueue(ptls->wq);
/* check if all resources are freed */
MPASS(priv->tls.num_resources == 0);
for (x = 0; x != MLX5E_TLS_STATS_NUM; x++)
counter_u64_free(ptls->stats.arg[x]);
}
static int
mlx5e_tls_st_init(struct mlx5e_priv *priv, struct mlx5e_tls_tag *ptag)
{
int err;
/* try to open TIS, if not present */
if (ptag->tisn == 0) {
err = mlx5_tls_open_tis(priv->mdev, 0, priv->tdn,
priv->pdn, &ptag->tisn);
if (err) {
MLX5E_TLS_STAT_INC(ptag, tx_error, 1);
return (err);
}
}
MLX5_SET(sw_tls_cntx, ptag->crypto_params, progress.pd, ptag->tisn);
/* try to allocate a DEK context ID */
err = mlx5_encryption_key_create(priv->mdev, priv->pdn,
MLX5_GENERAL_OBJECT_TYPE_ENCRYPTION_KEY_TYPE_TLS,
MLX5_ADDR_OF(sw_tls_cntx, ptag->crypto_params, key.key_data),
MLX5_GET(sw_tls_cntx, ptag->crypto_params, key.key_len),
&ptag->dek_index);
if (err) {
MLX5E_TLS_STAT_INC(ptag, tx_error, 1);
return (err);
}
MLX5_SET(sw_tls_cntx, ptag->crypto_params, param.dek_index, ptag->dek_index);
ptag->dek_index_ok = 1;
MLX5E_TLS_TAG_LOCK(ptag);
if (ptag->state == MLX5E_TLS_ST_INIT)
ptag->state = MLX5E_TLS_ST_SETUP;
MLX5E_TLS_TAG_UNLOCK(ptag);
return (0);
}
static void
mlx5e_tls_work(struct work_struct *work)
{
struct mlx5e_tls_tag *ptag;
struct mlx5e_priv *priv;
ptag = container_of(work, struct mlx5e_tls_tag, work);
priv = container_of(ptag->tls, struct mlx5e_priv, tls);
switch (ptag->state) {
case MLX5E_TLS_ST_INIT:
(void)mlx5e_tls_st_init(priv, ptag);
break;
case MLX5E_TLS_ST_RELEASE:
/* try to destroy DEK context by ID */
if (ptag->dek_index_ok)
(void)mlx5_encryption_key_destroy(priv->mdev, ptag->dek_index);
/* free tag */
mlx5e_tls_tag_zfree(ptag);
break;
default:
break;
}
}
static int
mlx5e_tls_set_params(void *ctx, const struct tls_session_params *en)
{
MLX5_SET(sw_tls_cntx, ctx, param.const_2, 2);
if (en->tls_vminor == TLS_MINOR_VER_TWO)
MLX5_SET(sw_tls_cntx, ctx, param.tls_version, 2); /* v1.2 */
else
MLX5_SET(sw_tls_cntx, ctx, param.tls_version, 3); /* v1.3 */
MLX5_SET(sw_tls_cntx, ctx, param.const_1, 1);
MLX5_SET(sw_tls_cntx, ctx, param.encryption_standard, 1); /* TLS */
/* copy the initial vector in place */
switch (en->iv_len) {
case MLX5_FLD_SZ_BYTES(sw_tls_cntx, param.gcm_iv):
case MLX5_FLD_SZ_BYTES(sw_tls_cntx, param.gcm_iv) +
MLX5_FLD_SZ_BYTES(sw_tls_cntx, param.implicit_iv):
memcpy(MLX5_ADDR_OF(sw_tls_cntx, ctx, param.gcm_iv),
en->iv, en->iv_len);
break;
default:
return (EINVAL);
}
if (en->cipher_key_len <= MLX5_FLD_SZ_BYTES(sw_tls_cntx, key.key_data)) {
memcpy(MLX5_ADDR_OF(sw_tls_cntx, ctx, key.key_data),
en->cipher_key, en->cipher_key_len);
MLX5_SET(sw_tls_cntx, ctx, key.key_len, en->cipher_key_len);
} else {
return (EINVAL);
}
return (0);
}
/* Verify zero default */
CTASSERT(MLX5E_TLS_ST_INIT == 0);
int
mlx5e_tls_snd_tag_alloc(if_t ifp,
union if_snd_tag_alloc_params *params,
struct m_snd_tag **ppmt)
{
union if_snd_tag_alloc_params rl_params;
const struct if_snd_tag_sw *snd_tag_sw;
struct mlx5e_priv *priv;
struct mlx5e_tls_tag *ptag;
const struct tls_session_params *en;
int error;
priv = if_getsoftc(ifp);
if (priv->gone != 0 || priv->tls.init == 0)
return (EOPNOTSUPP);
/* allocate new tag from zone, if any */
ptag = uma_zalloc(priv->tls.zone, M_NOWAIT);
if (ptag == NULL)
return (ENOMEM);
/* sanity check default values */
MPASS(ptag->dek_index == 0);
MPASS(ptag->dek_index_ok == 0);
/* setup TLS tag */
ptag->tls = &priv->tls;
/* check if there is no TIS context */
if (ptag->tisn == 0) {
uint32_t value;
value = atomic_fetchadd_32(&priv->tls.num_resources, 1U);
/* check resource limits */
if (value >= priv->tls.max_resources) {
error = ENOMEM;
goto failure;
}
}
en = ¶ms->tls.tls->params;
/* only TLS v1.2 and v1.3 is currently supported */
if (en->tls_vmajor != TLS_MAJOR_VER_ONE ||
(en->tls_vminor != TLS_MINOR_VER_TWO
#ifdef TLS_MINOR_VER_THREE
&& en->tls_vminor != TLS_MINOR_VER_THREE
#endif
)) {
error = EPROTONOSUPPORT;
goto failure;
}
switch (en->cipher_algorithm) {
case CRYPTO_AES_NIST_GCM_16:
switch (en->cipher_key_len) {
case 128 / 8:
if (en->tls_vminor == TLS_MINOR_VER_TWO) {
if (MLX5_CAP_TLS(priv->mdev, tls_1_2_aes_gcm_128) == 0) {
error = EPROTONOSUPPORT;
goto failure;
}
} else {
if (MLX5_CAP_TLS(priv->mdev, tls_1_3_aes_gcm_128) == 0) {
error = EPROTONOSUPPORT;
goto failure;
}
}
error = mlx5e_tls_set_params(ptag->crypto_params, en);
if (error)
goto failure;
break;
case 256 / 8:
if (en->tls_vminor == TLS_MINOR_VER_TWO) {
if (MLX5_CAP_TLS(priv->mdev, tls_1_2_aes_gcm_256) == 0) {
error = EPROTONOSUPPORT;
goto failure;
}
} else {
if (MLX5_CAP_TLS(priv->mdev, tls_1_3_aes_gcm_256) == 0) {
error = EPROTONOSUPPORT;
goto failure;
}
}
error = mlx5e_tls_set_params(ptag->crypto_params, en);
if (error)
goto failure;
break;
default:
error = EINVAL;
goto failure;
}
break;
default:
error = EPROTONOSUPPORT;
goto failure;
}
memset(&rl_params, 0, sizeof(rl_params));
rl_params.hdr = params->hdr;
switch (params->hdr.type) {
#ifdef RATELIMIT
case IF_SND_TAG_TYPE_TLS_RATE_LIMIT:
rl_params.hdr.type = IF_SND_TAG_TYPE_RATE_LIMIT;
rl_params.rate_limit.max_rate = params->tls_rate_limit.max_rate;
snd_tag_sw = &mlx5e_tls_rl_snd_tag_sw;
break;
#endif
case IF_SND_TAG_TYPE_TLS:
rl_params.hdr.type = IF_SND_TAG_TYPE_UNLIMITED;
snd_tag_sw = &mlx5e_tls_snd_tag_sw;
break;
default:
error = EOPNOTSUPP;
goto failure;
}
error = m_snd_tag_alloc(ifp, &rl_params, &ptag->rl_tag);
if (error)
goto failure;
/* store pointer to mbuf tag */
MPASS(ptag->tag.refcount == 0);
m_snd_tag_init(&ptag->tag, ifp, snd_tag_sw);
*ppmt = &ptag->tag;
/* reset state */
ptag->state = MLX5E_TLS_ST_INIT;
/*
* Try to immediately init the tag. We may fail if the NIC's
* resources are tied up with send tags that are in the work
* queue, waiting to be freed. So if we fail, put ourselves
* on the queue so as to try again after resouces have been freed.
*/
error = mlx5e_tls_st_init(priv, ptag);
if (error != 0) {
queue_work(priv->tls.wq, &ptag->work);
flush_work(&ptag->work);
}
return (0);
failure:
mlx5e_tls_tag_zfree(ptag);
return (error);
}
#ifdef RATELIMIT
static int
mlx5e_tls_rl_snd_tag_modify(struct m_snd_tag *pmt, union if_snd_tag_modify_params *params)
{
union if_snd_tag_modify_params rl_params;
struct mlx5e_tls_tag *ptag =
container_of(pmt, struct mlx5e_tls_tag, tag);
int error;
memset(&rl_params, 0, sizeof(rl_params));
rl_params.rate_limit.max_rate = params->tls_rate_limit.max_rate;
error = ptag->rl_tag->sw->snd_tag_modify(ptag->rl_tag, &rl_params);
return (error);
}
#endif
static int
mlx5e_tls_snd_tag_query(struct m_snd_tag *pmt, union if_snd_tag_query_params *params)
{
struct mlx5e_tls_tag *ptag =
container_of(pmt, struct mlx5e_tls_tag, tag);
return (ptag->rl_tag->sw->snd_tag_query(ptag->rl_tag, params));
}
static void
mlx5e_tls_snd_tag_free(struct m_snd_tag *pmt)
{
struct mlx5e_tls_tag *ptag =
container_of(pmt, struct mlx5e_tls_tag, tag);
struct mlx5e_priv *priv;
m_snd_tag_rele(ptag->rl_tag);
MLX5E_TLS_TAG_LOCK(ptag);
ptag->state = MLX5E_TLS_ST_RELEASE;
MLX5E_TLS_TAG_UNLOCK(ptag);
priv = if_getsoftc(ptag->tag.ifp);
queue_work(priv->tls.wq, &ptag->work);
}
CTASSERT((MLX5_FLD_SZ_BYTES(sw_tls_cntx, param) % 16) == 0);
static void
mlx5e_tls_send_static_parameters(struct mlx5e_sq *sq, struct mlx5e_tls_tag *ptag)
{
const u32 ds_cnt = DIV_ROUND_UP(sizeof(struct mlx5e_tx_umr_wqe) +
MLX5_FLD_SZ_BYTES(sw_tls_cntx, param), MLX5_SEND_WQE_DS);
struct mlx5e_tx_umr_wqe *wqe;
u16 pi;
pi = sq->pc & sq->wq.sz_m1;
wqe = mlx5_wq_cyc_get_wqe(&sq->wq, pi);
memset(wqe, 0, sizeof(*wqe));
wqe->ctrl.opmod_idx_opcode = cpu_to_be32((sq->pc << 8) |
MLX5_OPCODE_UMR | (MLX5_OPCODE_MOD_UMR_TLS_TIS_STATIC_PARAMS << 24));
wqe->ctrl.qpn_ds = cpu_to_be32((sq->sqn << 8) | ds_cnt);
wqe->ctrl.imm = cpu_to_be32(ptag->tisn << 8);
if (mlx5e_do_send_cqe(sq))
wqe->ctrl.fm_ce_se = MLX5_WQE_CTRL_CQ_UPDATE | MLX5_FENCE_MODE_INITIATOR_SMALL;
else
wqe->ctrl.fm_ce_se = MLX5_FENCE_MODE_INITIATOR_SMALL;
/* fill out UMR control segment */
wqe->umr.flags = 0x80; /* inline data */
wqe->umr.bsf_octowords = cpu_to_be16(MLX5_FLD_SZ_BYTES(sw_tls_cntx, param) / 16);
/* copy in the static crypto parameters */
memcpy(wqe + 1, MLX5_ADDR_OF(sw_tls_cntx, ptag->crypto_params, param),
MLX5_FLD_SZ_BYTES(sw_tls_cntx, param));
/* copy data for doorbell */
memcpy(sq->doorbell.d32, &wqe->ctrl, sizeof(sq->doorbell.d32));
sq->mbuf[pi].mbuf = NULL;
sq->mbuf[pi].num_bytes = 0;
sq->mbuf[pi].num_wqebbs = DIV_ROUND_UP(ds_cnt, MLX5_SEND_WQEBB_NUM_DS);
sq->mbuf[pi].mst = m_snd_tag_ref(&ptag->tag);
sq->pc += sq->mbuf[pi].num_wqebbs;
}
CTASSERT(MLX5_FLD_SZ_BYTES(sw_tls_cntx, progress) ==
sizeof(((struct mlx5e_tx_psv_wqe *)0)->psv));
static void
mlx5e_tls_send_progress_parameters(struct mlx5e_sq *sq, struct mlx5e_tls_tag *ptag)
{
const u32 ds_cnt = DIV_ROUND_UP(sizeof(struct mlx5e_tx_psv_wqe),
MLX5_SEND_WQE_DS);
struct mlx5e_tx_psv_wqe *wqe;
u16 pi;
pi = sq->pc & sq->wq.sz_m1;
wqe = mlx5_wq_cyc_get_wqe(&sq->wq, pi);
memset(wqe, 0, sizeof(*wqe));
wqe->ctrl.opmod_idx_opcode = cpu_to_be32((sq->pc << 8) |
MLX5_OPCODE_SET_PSV | (MLX5_OPCODE_MOD_PSV_TLS_TIS_PROGRESS_PARAMS << 24));
wqe->ctrl.qpn_ds = cpu_to_be32((sq->sqn << 8) | ds_cnt);
if (mlx5e_do_send_cqe(sq))
wqe->ctrl.fm_ce_se = MLX5_WQE_CTRL_CQ_UPDATE;
/* copy in the PSV control segment */
memcpy(&wqe->psv, MLX5_ADDR_OF(sw_tls_cntx, ptag->crypto_params, progress),
sizeof(wqe->psv));
/* copy data for doorbell */
memcpy(sq->doorbell.d32, &wqe->ctrl, sizeof(sq->doorbell.d32));
sq->mbuf[pi].mbuf = NULL;
sq->mbuf[pi].num_bytes = 0;
sq->mbuf[pi].num_wqebbs = DIV_ROUND_UP(ds_cnt, MLX5_SEND_WQEBB_NUM_DS);
sq->mbuf[pi].mst = m_snd_tag_ref(&ptag->tag);
sq->pc += sq->mbuf[pi].num_wqebbs;
}
static void
mlx5e_tls_send_nop(struct mlx5e_sq *sq, struct mlx5e_tls_tag *ptag)
{
const u32 ds_cnt = MLX5_SEND_WQEBB_NUM_DS;
struct mlx5e_tx_wqe *wqe;
u16 pi;
pi = sq->pc & sq->wq.sz_m1;
wqe = mlx5_wq_cyc_get_wqe(&sq->wq, pi);
memset(&wqe->ctrl, 0, sizeof(wqe->ctrl));
wqe->ctrl.opmod_idx_opcode = cpu_to_be32((sq->pc << 8) | MLX5_OPCODE_NOP);
wqe->ctrl.qpn_ds = cpu_to_be32((sq->sqn << 8) | ds_cnt);
if (mlx5e_do_send_cqe(sq))
wqe->ctrl.fm_ce_se = MLX5_WQE_CTRL_CQ_UPDATE | MLX5_FENCE_MODE_INITIATOR_SMALL;
else
wqe->ctrl.fm_ce_se = MLX5_FENCE_MODE_INITIATOR_SMALL;
/* Copy data for doorbell */
memcpy(sq->doorbell.d32, &wqe->ctrl, sizeof(sq->doorbell.d32));
sq->mbuf[pi].mbuf = NULL;
sq->mbuf[pi].num_bytes = 0;
sq->mbuf[pi].num_wqebbs = DIV_ROUND_UP(ds_cnt, MLX5_SEND_WQEBB_NUM_DS);
sq->mbuf[pi].mst = m_snd_tag_ref(&ptag->tag);
sq->pc += sq->mbuf[pi].num_wqebbs;
}
#define SBTLS_MBUF_NO_DATA ((struct mbuf *)1)
static struct mbuf *
sbtls_recover_record(struct mbuf *mb, int wait, uint32_t tcp_old, uint32_t *ptcp_seq, bool *pis_start)
{
struct mbuf *mr, *top;
uint32_t offset;
uint32_t delta;
/* check format of incoming mbuf */
if (mb->m_next == NULL ||
(mb->m_next->m_flags & (M_EXTPG | M_EXT)) != (M_EXTPG | M_EXT)) {
top = NULL;
goto done;
}
/* get unmapped data offset */
offset = mtod(mb->m_next, uintptr_t);
/* check if we don't need to re-transmit anything */
if (offset == 0) {
top = SBTLS_MBUF_NO_DATA;
*pis_start = true;
goto done;
}
/* try to get a new packet header */
top = m_gethdr(wait, MT_DATA);
if (top == NULL)
goto done;
mr = m_get(wait, MT_DATA);
if (mr == NULL) {
m_free(top);
top = NULL;
goto done;
}
top->m_next = mr;
mb_dupcl(mr, mb->m_next);
/* the beginning of the TLS record */
mr->m_data = NULL;
/* setup packet header length */
top->m_pkthdr.len = mr->m_len = offset;
top->m_len = 0;
/* check for partial re-transmit */
delta = *ptcp_seq - tcp_old;
if (delta < offset) {
m_adj(top, offset - delta);
offset = delta;
/* continue where we left off */
*pis_start = false;
} else {
*pis_start = true;
}
/*
* Rewind the TCP sequence number by the amount of data
* retransmitted:
*/
*ptcp_seq -= offset;
done:
return (top);
}
static int
mlx5e_sq_tls_populate(struct mbuf *mb, uint64_t *pseq)
{
for (; mb != NULL; mb = mb->m_next) {
if (!(mb->m_flags & M_EXTPG))
continue;
*pseq = mb->m_epg_seqno;
return (1);
}
return (0);
}
int
mlx5e_sq_tls_xmit(struct mlx5e_sq *sq, struct mlx5e_xmit_args *parg, struct mbuf **ppmb)
{
struct mlx5e_tls_tag *ptls_tag;
struct m_snd_tag *ptag;
const struct tcphdr *th;
struct mbuf *mb = *ppmb;
u64 rcd_sn;
u32 header_size;
u32 mb_seq;
if ((mb->m_pkthdr.csum_flags & CSUM_SND_TAG) == 0)
return (MLX5E_TLS_CONTINUE);
ptag = mb->m_pkthdr.snd_tag;
if (
#ifdef RATELIMIT
ptag->sw->type != IF_SND_TAG_TYPE_TLS_RATE_LIMIT &&
#endif
ptag->sw->type != IF_SND_TAG_TYPE_TLS)
return (MLX5E_TLS_CONTINUE);
ptls_tag = container_of(ptag, struct mlx5e_tls_tag, tag);
header_size = mlx5e_get_full_header_size(mb, &th);
if (unlikely(header_size == 0 || th == NULL))
return (MLX5E_TLS_FAILURE);
/*
* Send non-TLS TCP packets AS-IS:
*/
if (header_size == mb->m_pkthdr.len ||
mlx5e_sq_tls_populate(mb, &rcd_sn) == 0) {
parg->tisn = 0;
parg->ihs = header_size;
return (MLX5E_TLS_CONTINUE);
}
mb_seq = ntohl(th->th_seq);
MLX5E_TLS_TAG_LOCK(ptls_tag);
switch (ptls_tag->state) {
case MLX5E_TLS_ST_INIT:
MLX5E_TLS_TAG_UNLOCK(ptls_tag);
return (MLX5E_TLS_FAILURE);
case MLX5E_TLS_ST_SETUP:
ptls_tag->state = MLX5E_TLS_ST_TXRDY;
ptls_tag->expected_seq = ~mb_seq; /* force setup */
default:
MLX5E_TLS_TAG_UNLOCK(ptls_tag);
break;
}
if (unlikely(ptls_tag->expected_seq != mb_seq)) {
bool is_start;
struct mbuf *r_mb;
uint32_t tcp_seq = mb_seq;
r_mb = sbtls_recover_record(mb, M_NOWAIT, ptls_tag->expected_seq, &tcp_seq, &is_start);
if (r_mb == NULL) {
MLX5E_TLS_STAT_INC(ptls_tag, tx_error, 1);
return (MLX5E_TLS_FAILURE);
}
MLX5E_TLS_STAT_INC(ptls_tag, tx_packets_ooo, 1);
/* check if this is the first fragment of a TLS record */
if (is_start) {
/* setup TLS static parameters */
MLX5_SET64(sw_tls_cntx, ptls_tag->crypto_params,
param.initial_record_number, rcd_sn);
/*
* NOTE: The sendqueue should have enough room to
* carry both the static and the progress parameters
* when we get here!
*/
mlx5e_tls_send_static_parameters(sq, ptls_tag);
mlx5e_tls_send_progress_parameters(sq, ptls_tag);
if (r_mb == SBTLS_MBUF_NO_DATA) {
mlx5e_tls_send_nop(sq, ptls_tag);
ptls_tag->expected_seq = mb_seq;
return (MLX5E_TLS_LOOP);
}
}
MLX5E_TLS_STAT_INC(ptls_tag, tx_bytes_ooo, r_mb->m_pkthdr.len);
/* setup transmit arguments */
parg->tisn = ptls_tag->tisn;
parg->mst = &ptls_tag->tag;
/* try to send DUMP data */
if (mlx5e_sq_dump_xmit(sq, parg, &r_mb) != 0) {
m_freem(r_mb);
ptls_tag->expected_seq = tcp_seq;
return (MLX5E_TLS_FAILURE);
} else {
ptls_tag->expected_seq = mb_seq;
return (MLX5E_TLS_LOOP);
}
} else {
MLX5E_TLS_STAT_INC(ptls_tag, tx_packets, 1);
MLX5E_TLS_STAT_INC(ptls_tag, tx_bytes, mb->m_pkthdr.len);
}
ptls_tag->expected_seq += mb->m_pkthdr.len - header_size;
parg->tisn = ptls_tag->tisn;
parg->ihs = header_size;
parg->mst = &ptls_tag->tag;
return (MLX5E_TLS_CONTINUE);
}
#else
int
mlx5e_tls_init(struct mlx5e_priv *priv)
{
return (0);
}
void
mlx5e_tls_cleanup(struct mlx5e_priv *priv)
{
/* NOP */
}
#endif /* KERN_TLS */
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