LCOV - code coverage report
Current view: top level - lib/idxd - idxd.c (source / functions) Hit Total Coverage
Test: ut_cov_unit.info Lines: 0 1217 0.0 %
Date: 2024-12-02 15:14:33 Functions: 0 53 0.0 %

          Line data    Source code
       1             : /*   SPDX-License-Identifier: BSD-3-Clause
       2             :  *   Copyright (C) 2020 Intel Corporation.
       3             :  *   All rights reserved.
       4             :  */
       5             : 
       6             : #include "spdk/stdinc.h"
       7             : 
       8             : #include "spdk/env.h"
       9             : #include "spdk/util.h"
      10             : #include "spdk/memory.h"
      11             : #include "spdk/likely.h"
      12             : 
      13             : #include "spdk/log.h"
      14             : #include "spdk_internal/idxd.h"
      15             : 
      16             : #include "idxd_internal.h"
      17             : 
      18             : #define ALIGN_4K 0x1000
      19             : #define USERSPACE_DRIVER_NAME "user"
      20             : #define KERNEL_DRIVER_NAME "kernel"
      21             : 
      22             : /* The max number of completions processed per poll */
      23             : #define IDXD_MAX_COMPLETIONS      128
      24             : 
      25             : /* The minimum number of entries in batch per flush */
      26             : #define IDXD_MIN_BATCH_FLUSH      32
      27             : 
      28             : #define DATA_BLOCK_SIZE_512 512
      29             : #define DATA_BLOCK_SIZE_520 520
      30             : #define DATA_BLOCK_SIZE_4096 4096
      31             : #define DATA_BLOCK_SIZE_4104 4104
      32             : 
      33             : #define METADATA_SIZE_8 8
      34             : #define METADATA_SIZE_16 16
      35             : 
      36             : static STAILQ_HEAD(, spdk_idxd_impl) g_idxd_impls = STAILQ_HEAD_INITIALIZER(g_idxd_impls);
      37             : static struct spdk_idxd_impl *g_idxd_impl;
      38             : 
      39             : uint32_t
      40           0 : spdk_idxd_get_socket(struct spdk_idxd_device *idxd)
      41             : {
      42           0 :         return idxd->socket_id;
      43             : }
      44             : 
      45             : static inline void
      46           0 : _submit_to_hw(struct spdk_idxd_io_channel *chan, struct idxd_ops *op)
      47             : {
      48           0 :         STAILQ_INSERT_TAIL(&chan->ops_outstanding, op, link);
      49             :         /*
      50             :          * We must barrier before writing the descriptor to ensure that data
      51             :          * has been correctly flushed from the associated data buffers before DMA
      52             :          * operations begin.
      53             :          */
      54           0 :         _spdk_wmb();
      55           0 :         movdir64b(chan->portal + chan->portal_offset, op->desc);
      56           0 :         chan->portal_offset = (chan->portal_offset + chan->idxd->chan_per_device * PORTAL_STRIDE) &
      57             :                               PORTAL_MASK;
      58           0 : }
      59             : 
      60             : inline static int
      61           0 : _vtophys(struct spdk_idxd_io_channel *chan, const void *buf, uint64_t *buf_addr, uint64_t size)
      62             : {
      63           0 :         uint64_t updated_size = size;
      64             : 
      65           0 :         if (chan->pasid_enabled) {
      66             :                 /* We can just use virtual addresses */
      67           0 :                 *buf_addr = (uint64_t)buf;
      68           0 :                 return 0;
      69             :         }
      70             : 
      71           0 :         *buf_addr = spdk_vtophys(buf, &updated_size);
      72             : 
      73           0 :         if (*buf_addr == SPDK_VTOPHYS_ERROR) {
      74           0 :                 SPDK_ERRLOG("Error translating address\n");
      75           0 :                 return -EINVAL;
      76             :         }
      77             : 
      78           0 :         if (updated_size < size) {
      79           0 :                 SPDK_ERRLOG("Error translating size (0x%lx), return size (0x%lx)\n", size, updated_size);
      80           0 :                 return -EINVAL;
      81             :         }
      82             : 
      83           0 :         return 0;
      84           0 : }
      85             : 
      86             : struct idxd_vtophys_iter {
      87             :         const void      *src;
      88             :         void            *dst;
      89             :         uint64_t        len;
      90             : 
      91             :         uint64_t        offset;
      92             : 
      93             :         bool            pasid_enabled;
      94             : };
      95             : 
      96             : static void
      97           0 : idxd_vtophys_iter_init(struct spdk_idxd_io_channel *chan,
      98             :                        struct idxd_vtophys_iter *iter,
      99             :                        const void *src, void *dst, uint64_t len)
     100             : {
     101           0 :         iter->src = src;
     102           0 :         iter->dst = dst;
     103           0 :         iter->len = len;
     104           0 :         iter->offset = 0;
     105           0 :         iter->pasid_enabled = chan->pasid_enabled;
     106           0 : }
     107             : 
     108             : static uint64_t
     109           0 : idxd_vtophys_iter_next(struct idxd_vtophys_iter *iter,
     110             :                        uint64_t *src_phys, uint64_t *dst_phys)
     111             : {
     112             :         uint64_t src_off, dst_off, len;
     113             :         const void *src;
     114             :         void *dst;
     115             : 
     116           0 :         src = iter->src + iter->offset;
     117           0 :         dst = iter->dst + iter->offset;
     118             : 
     119           0 :         if (iter->offset == iter->len) {
     120           0 :                 return 0;
     121             :         }
     122             : 
     123           0 :         if (iter->pasid_enabled) {
     124           0 :                 *src_phys = (uint64_t)src;
     125           0 :                 *dst_phys = (uint64_t)dst;
     126           0 :                 return iter->len;
     127             :         }
     128             : 
     129           0 :         len = iter->len - iter->offset;
     130             : 
     131           0 :         src_off = len;
     132           0 :         *src_phys = spdk_vtophys(src, &src_off);
     133           0 :         if (*src_phys == SPDK_VTOPHYS_ERROR) {
     134           0 :                 SPDK_ERRLOG("Error translating address\n");
     135           0 :                 return SPDK_VTOPHYS_ERROR;
     136             :         }
     137             : 
     138           0 :         dst_off = len;
     139           0 :         *dst_phys = spdk_vtophys(dst, &dst_off);
     140           0 :         if (*dst_phys == SPDK_VTOPHYS_ERROR) {
     141           0 :                 SPDK_ERRLOG("Error translating address\n");
     142           0 :                 return SPDK_VTOPHYS_ERROR;
     143             :         }
     144             : 
     145           0 :         len = spdk_min(src_off, dst_off);
     146           0 :         iter->offset += len;
     147             : 
     148           0 :         return len;
     149           0 : }
     150             : 
     151             : /* helper function for DSA specific spdk_idxd_get_channel() stuff */
     152             : static int
     153           0 : _dsa_alloc_batches(struct spdk_idxd_io_channel *chan, int num_descriptors)
     154             : {
     155             :         struct idxd_batch *batch;
     156             :         struct idxd_hw_desc *desc;
     157             :         struct idxd_ops *op;
     158           0 :         int i, j, num_batches, rc = -1;
     159             : 
     160             :         /* Allocate batches */
     161           0 :         num_batches = num_descriptors;
     162           0 :         chan->batch_base = calloc(num_batches, sizeof(struct idxd_batch));
     163           0 :         if (chan->batch_base == NULL) {
     164           0 :                 SPDK_ERRLOG("Failed to allocate batch pool\n");
     165           0 :                 return -ENOMEM;
     166             :         }
     167           0 :         batch = chan->batch_base;
     168           0 :         for (i = 0 ; i < num_batches ; i++) {
     169           0 :                 batch->size = chan->idxd->batch_size;
     170           0 :                 batch->user_desc = desc = spdk_zmalloc(batch->size * sizeof(struct idxd_hw_desc),
     171             :                                                        0x40, NULL,
     172             :                                                        SPDK_ENV_LCORE_ID_ANY, SPDK_MALLOC_DMA);
     173           0 :                 if (batch->user_desc == NULL) {
     174           0 :                         SPDK_ERRLOG("Failed to allocate batch descriptor memory\n");
     175           0 :                         goto error_user;
     176             :                 }
     177             : 
     178           0 :                 rc = _vtophys(chan, batch->user_desc, &batch->user_desc_addr,
     179           0 :                               batch->size * sizeof(struct idxd_hw_desc));
     180           0 :                 if (rc) {
     181           0 :                         SPDK_ERRLOG("Failed to translate batch descriptor memory\n");
     182           0 :                         goto error_user;
     183             :                 }
     184             : 
     185           0 :                 batch->user_ops = op = spdk_zmalloc(batch->size * sizeof(struct idxd_ops),
     186             :                                                     0x40, NULL,
     187             :                                                     SPDK_ENV_LCORE_ID_ANY, SPDK_MALLOC_DMA);
     188           0 :                 if (batch->user_ops == NULL) {
     189           0 :                         SPDK_ERRLOG("Failed to allocate user completion memory\n");
     190           0 :                         goto error_user;
     191             :                 }
     192             : 
     193           0 :                 for (j = 0; j < batch->size; j++) {
     194           0 :                         rc = _vtophys(chan, &op->hw, &desc->completion_addr, sizeof(struct dsa_hw_comp_record));
     195           0 :                         if (rc) {
     196           0 :                                 SPDK_ERRLOG("Failed to translate batch entry completion memory\n");
     197           0 :                                 goto error_user;
     198             :                         }
     199           0 :                         op++;
     200           0 :                         desc++;
     201           0 :                 }
     202           0 :                 TAILQ_INSERT_TAIL(&chan->batch_pool, batch, link);
     203           0 :                 batch++;
     204           0 :         }
     205           0 :         return 0;
     206             : 
     207             : error_user:
     208           0 :         TAILQ_FOREACH(batch, &chan->batch_pool, link) {
     209           0 :                 spdk_free(batch->user_ops);
     210           0 :                 batch->user_ops = NULL;
     211           0 :                 spdk_free(batch->user_desc);
     212           0 :                 batch->user_desc = NULL;
     213           0 :         }
     214           0 :         return rc;
     215           0 : }
     216             : 
     217             : struct spdk_idxd_io_channel *
     218           0 : spdk_idxd_get_channel(struct spdk_idxd_device *idxd)
     219             : {
     220             :         struct spdk_idxd_io_channel *chan;
     221             :         struct idxd_hw_desc *desc;
     222             :         struct idxd_ops *op;
     223           0 :         int i, num_descriptors, rc = -1;
     224             :         uint32_t comp_rec_size;
     225             : 
     226           0 :         assert(idxd != NULL);
     227             : 
     228           0 :         chan = calloc(1, sizeof(struct spdk_idxd_io_channel));
     229           0 :         if (chan == NULL) {
     230           0 :                 SPDK_ERRLOG("Failed to allocate idxd chan\n");
     231           0 :                 return NULL;
     232             :         }
     233             : 
     234           0 :         chan->idxd = idxd;
     235           0 :         chan->pasid_enabled = idxd->pasid_enabled;
     236           0 :         STAILQ_INIT(&chan->ops_pool);
     237           0 :         TAILQ_INIT(&chan->batch_pool);
     238           0 :         STAILQ_INIT(&chan->ops_outstanding);
     239             : 
     240             :         /* Assign WQ, portal */
     241           0 :         pthread_mutex_lock(&idxd->num_channels_lock);
     242           0 :         if (idxd->num_channels == idxd->chan_per_device) {
     243             :                 /* too many channels sharing this device */
     244           0 :                 pthread_mutex_unlock(&idxd->num_channels_lock);
     245           0 :                 SPDK_ERRLOG("Too many channels sharing this device\n");
     246           0 :                 goto error;
     247             :         }
     248             : 
     249             :         /* Have each channel start at a different offset. */
     250           0 :         chan->portal = idxd->impl->portal_get_addr(idxd);
     251           0 :         chan->portal_offset = (idxd->num_channels * PORTAL_STRIDE) & PORTAL_MASK;
     252           0 :         idxd->num_channels++;
     253             : 
     254           0 :         pthread_mutex_unlock(&idxd->num_channels_lock);
     255             : 
     256             :         /* Allocate descriptors and completions */
     257           0 :         num_descriptors = idxd->total_wq_size / idxd->chan_per_device;
     258           0 :         chan->desc_base = desc = spdk_zmalloc(num_descriptors * sizeof(struct idxd_hw_desc),
     259             :                                               0x40, NULL,
     260             :                                               SPDK_ENV_LCORE_ID_ANY, SPDK_MALLOC_DMA);
     261           0 :         if (chan->desc_base == NULL) {
     262           0 :                 SPDK_ERRLOG("Failed to allocate DSA descriptor memory\n");
     263           0 :                 goto error;
     264             :         }
     265             : 
     266           0 :         chan->ops_base = op = spdk_zmalloc(num_descriptors * sizeof(struct idxd_ops),
     267             :                                            0x40, NULL,
     268             :                                            SPDK_ENV_LCORE_ID_ANY, SPDK_MALLOC_DMA);
     269           0 :         if (chan->ops_base == NULL) {
     270           0 :                 SPDK_ERRLOG("Failed to allocate idxd_ops memory\n");
     271           0 :                 goto error;
     272             :         }
     273             : 
     274           0 :         if (idxd->type == IDXD_DEV_TYPE_DSA) {
     275           0 :                 comp_rec_size = sizeof(struct dsa_hw_comp_record);
     276           0 :                 if (_dsa_alloc_batches(chan, num_descriptors)) {
     277           0 :                         goto error;
     278             :                 }
     279           0 :         } else {
     280           0 :                 comp_rec_size = sizeof(struct iaa_hw_comp_record);
     281             :         }
     282             : 
     283           0 :         for (i = 0; i < num_descriptors; i++) {
     284           0 :                 STAILQ_INSERT_TAIL(&chan->ops_pool, op, link);
     285           0 :                 op->desc = desc;
     286           0 :                 rc = _vtophys(chan, &op->hw, &desc->completion_addr, comp_rec_size);
     287           0 :                 if (rc) {
     288           0 :                         SPDK_ERRLOG("Failed to translate completion memory\n");
     289           0 :                         goto error;
     290             :                 }
     291           0 :                 op++;
     292           0 :                 desc++;
     293           0 :         }
     294             : 
     295           0 :         return chan;
     296             : 
     297             : error:
     298           0 :         spdk_free(chan->ops_base);
     299           0 :         chan->ops_base = NULL;
     300           0 :         spdk_free(chan->desc_base);
     301           0 :         chan->desc_base = NULL;
     302           0 :         free(chan);
     303           0 :         return NULL;
     304           0 : }
     305             : 
     306             : static int idxd_batch_cancel(struct spdk_idxd_io_channel *chan, int status);
     307             : 
     308             : void
     309           0 : spdk_idxd_put_channel(struct spdk_idxd_io_channel *chan)
     310             : {
     311             :         struct idxd_batch *batch;
     312             : 
     313           0 :         assert(chan != NULL);
     314           0 :         assert(chan->idxd != NULL);
     315             : 
     316           0 :         if (chan->batch) {
     317           0 :                 idxd_batch_cancel(chan, -ECANCELED);
     318           0 :         }
     319             : 
     320           0 :         pthread_mutex_lock(&chan->idxd->num_channels_lock);
     321           0 :         assert(chan->idxd->num_channels > 0);
     322           0 :         chan->idxd->num_channels--;
     323           0 :         pthread_mutex_unlock(&chan->idxd->num_channels_lock);
     324             : 
     325           0 :         spdk_free(chan->ops_base);
     326           0 :         spdk_free(chan->desc_base);
     327           0 :         while ((batch = TAILQ_FIRST(&chan->batch_pool))) {
     328           0 :                 TAILQ_REMOVE(&chan->batch_pool, batch, link);
     329           0 :                 spdk_free(batch->user_ops);
     330           0 :                 spdk_free(batch->user_desc);
     331             :         }
     332           0 :         free(chan->batch_base);
     333           0 :         free(chan);
     334           0 : }
     335             : 
     336             : static inline struct spdk_idxd_impl *
     337           0 : idxd_get_impl_by_name(const char *impl_name)
     338             : {
     339             :         struct spdk_idxd_impl *impl;
     340             : 
     341           0 :         assert(impl_name != NULL);
     342           0 :         STAILQ_FOREACH(impl, &g_idxd_impls, link) {
     343           0 :                 if (0 == strcmp(impl_name, impl->name)) {
     344           0 :                         return impl;
     345             :                 }
     346           0 :         }
     347             : 
     348           0 :         return NULL;
     349           0 : }
     350             : 
     351             : int
     352           0 : spdk_idxd_set_config(bool kernel_mode)
     353             : {
     354             :         struct spdk_idxd_impl *tmp;
     355             : 
     356           0 :         if (kernel_mode) {
     357           0 :                 tmp = idxd_get_impl_by_name(KERNEL_DRIVER_NAME);
     358           0 :         } else {
     359           0 :                 tmp = idxd_get_impl_by_name(USERSPACE_DRIVER_NAME);
     360             :         }
     361             : 
     362           0 :         if (g_idxd_impl != NULL && g_idxd_impl != tmp) {
     363           0 :                 SPDK_ERRLOG("Cannot change idxd implementation after devices are initialized\n");
     364           0 :                 assert(false);
     365             :                 return -EALREADY;
     366             :         }
     367           0 :         g_idxd_impl = tmp;
     368             : 
     369           0 :         if (g_idxd_impl == NULL) {
     370           0 :                 SPDK_ERRLOG("Cannot set the idxd implementation with %s mode\n",
     371             :                             kernel_mode ? KERNEL_DRIVER_NAME : USERSPACE_DRIVER_NAME);
     372           0 :                 return -EINVAL;
     373             :         }
     374             : 
     375           0 :         return 0;
     376           0 : }
     377             : 
     378             : static void
     379           0 : idxd_device_destruct(struct spdk_idxd_device *idxd)
     380             : {
     381           0 :         assert(idxd->impl != NULL);
     382             : 
     383           0 :         idxd->impl->destruct(idxd);
     384           0 : }
     385             : 
     386             : int
     387           0 : spdk_idxd_probe(void *cb_ctx, spdk_idxd_attach_cb attach_cb,
     388             :                 spdk_idxd_probe_cb probe_cb)
     389             : {
     390           0 :         if (g_idxd_impl == NULL) {
     391           0 :                 SPDK_ERRLOG("No idxd impl is selected\n");
     392           0 :                 return -1;
     393             :         }
     394             : 
     395           0 :         return g_idxd_impl->probe(cb_ctx, attach_cb, probe_cb);
     396           0 : }
     397             : 
     398             : void
     399           0 : spdk_idxd_detach(struct spdk_idxd_device *idxd)
     400             : {
     401           0 :         assert(idxd != NULL);
     402           0 :         idxd_device_destruct(idxd);
     403           0 : }
     404             : 
     405             : static int
     406           0 : _idxd_prep_command(struct spdk_idxd_io_channel *chan, spdk_idxd_req_cb cb_fn, void *cb_arg,
     407             :                    int flags, struct idxd_hw_desc **_desc, struct idxd_ops **_op)
     408             : {
     409             :         struct idxd_hw_desc *desc;
     410             :         struct idxd_ops *op;
     411             :         uint64_t comp_addr;
     412             : 
     413           0 :         if (!STAILQ_EMPTY(&chan->ops_pool)) {
     414           0 :                 op = *_op = STAILQ_FIRST(&chan->ops_pool);
     415           0 :                 desc = *_desc = op->desc;
     416           0 :                 comp_addr = desc->completion_addr;
     417           0 :                 memset(desc, 0, sizeof(*desc));
     418           0 :                 desc->completion_addr = comp_addr;
     419           0 :                 STAILQ_REMOVE_HEAD(&chan->ops_pool, link);
     420           0 :         } else {
     421             :                 /* The application needs to handle this, violation of flow control */
     422           0 :                 return -EBUSY;
     423             :         }
     424             : 
     425           0 :         flags |= IDXD_FLAG_COMPLETION_ADDR_VALID;
     426           0 :         flags |= IDXD_FLAG_REQUEST_COMPLETION;
     427             : 
     428           0 :         desc->flags = flags;
     429           0 :         op->cb_arg = cb_arg;
     430           0 :         op->cb_fn = cb_fn;
     431           0 :         op->batch = NULL;
     432           0 :         op->parent = NULL;
     433           0 :         op->count = 1;
     434             : 
     435           0 :         return 0;
     436           0 : }
     437             : 
     438             : static int
     439           0 : _idxd_prep_batch_cmd(struct spdk_idxd_io_channel *chan, spdk_idxd_req_cb cb_fn,
     440             :                      void *cb_arg, int flags,
     441             :                      struct idxd_hw_desc **_desc, struct idxd_ops **_op)
     442             : {
     443             :         struct idxd_hw_desc *desc;
     444             :         struct idxd_ops *op;
     445             :         uint64_t comp_addr;
     446             :         struct idxd_batch *batch;
     447             : 
     448           0 :         batch = chan->batch;
     449             : 
     450           0 :         assert(batch != NULL);
     451           0 :         if (batch->index == batch->size) {
     452           0 :                 return -EBUSY;
     453             :         }
     454             : 
     455           0 :         desc = *_desc = &batch->user_desc[batch->index];
     456           0 :         op = *_op = &batch->user_ops[batch->index];
     457             : 
     458           0 :         op->desc = desc;
     459           0 :         SPDK_DEBUGLOG(idxd, "Prep batch %p index %u\n", batch, batch->index);
     460             : 
     461           0 :         batch->index++;
     462             : 
     463           0 :         comp_addr = desc->completion_addr;
     464           0 :         memset(desc, 0, sizeof(*desc));
     465           0 :         desc->completion_addr = comp_addr;
     466           0 :         flags |= IDXD_FLAG_COMPLETION_ADDR_VALID;
     467           0 :         flags |= IDXD_FLAG_REQUEST_COMPLETION;
     468           0 :         desc->flags = flags;
     469           0 :         op->cb_arg = cb_arg;
     470           0 :         op->cb_fn = cb_fn;
     471           0 :         op->batch = batch;
     472           0 :         op->parent = NULL;
     473           0 :         op->count = 1;
     474           0 :         op->crc_dst = NULL;
     475             : 
     476           0 :         return 0;
     477           0 : }
     478             : 
     479             : static struct idxd_batch *
     480           0 : idxd_batch_create(struct spdk_idxd_io_channel *chan)
     481             : {
     482             :         struct idxd_batch *batch;
     483             : 
     484           0 :         assert(chan != NULL);
     485           0 :         assert(chan->batch == NULL);
     486             : 
     487           0 :         if (!TAILQ_EMPTY(&chan->batch_pool)) {
     488           0 :                 batch = TAILQ_FIRST(&chan->batch_pool);
     489           0 :                 batch->index = 0;
     490           0 :                 batch->chan = chan;
     491           0 :                 chan->batch = batch;
     492           0 :                 TAILQ_REMOVE(&chan->batch_pool, batch, link);
     493           0 :         } else {
     494             :                 /* The application needs to handle this. */
     495           0 :                 return NULL;
     496             :         }
     497             : 
     498           0 :         return batch;
     499           0 : }
     500             : 
     501             : static void
     502           0 : _free_batch(struct idxd_batch *batch, struct spdk_idxd_io_channel *chan)
     503             : {
     504           0 :         SPDK_DEBUGLOG(idxd, "Free batch %p\n", batch);
     505           0 :         assert(batch->refcnt == 0);
     506           0 :         batch->index = 0;
     507           0 :         batch->chan = NULL;
     508           0 :         TAILQ_INSERT_TAIL(&chan->batch_pool, batch, link);
     509           0 : }
     510             : 
     511             : static int
     512           0 : idxd_batch_cancel(struct spdk_idxd_io_channel *chan, int status)
     513             : {
     514             :         struct idxd_ops *op;
     515             :         struct idxd_batch *batch;
     516             :         int i;
     517             : 
     518           0 :         assert(chan != NULL);
     519             : 
     520           0 :         batch = chan->batch;
     521           0 :         assert(batch != NULL);
     522             : 
     523           0 :         if (batch->index == UINT16_MAX) {
     524           0 :                 SPDK_ERRLOG("Cannot cancel batch, already submitted to HW.\n");
     525           0 :                 return -EINVAL;
     526             :         }
     527             : 
     528           0 :         chan->batch = NULL;
     529             : 
     530           0 :         for (i = 0; i < batch->index; i++) {
     531           0 :                 op = &batch->user_ops[i];
     532           0 :                 if (op->cb_fn) {
     533           0 :                         op->cb_fn(op->cb_arg, status);
     534           0 :                 }
     535           0 :         }
     536             : 
     537           0 :         _free_batch(batch, chan);
     538             : 
     539           0 :         return 0;
     540           0 : }
     541             : 
     542             : static int
     543           0 : idxd_batch_submit(struct spdk_idxd_io_channel *chan,
     544             :                   spdk_idxd_req_cb cb_fn, void *cb_arg)
     545             : {
     546             :         struct idxd_hw_desc *desc;
     547             :         struct idxd_batch *batch;
     548             :         struct idxd_ops *op;
     549           0 :         int i, rc, flags = 0;
     550             : 
     551           0 :         assert(chan != NULL);
     552             : 
     553           0 :         batch = chan->batch;
     554           0 :         assert(batch != NULL);
     555             : 
     556           0 :         if (batch->index == 0) {
     557           0 :                 return idxd_batch_cancel(chan, 0);
     558             :         }
     559             : 
     560             :         /* Common prep. */
     561           0 :         rc = _idxd_prep_command(chan, cb_fn, cb_arg, flags, &desc, &op);
     562           0 :         if (rc) {
     563           0 :                 return rc;
     564             :         }
     565             : 
     566           0 :         if (batch->index == 1) {
     567             :                 uint64_t completion_addr;
     568             : 
     569             :                 /* If there's only one command, convert it away from a batch. */
     570           0 :                 completion_addr = desc->completion_addr;
     571           0 :                 memcpy(desc, &batch->user_desc[0], sizeof(*desc));
     572           0 :                 desc->completion_addr = completion_addr;
     573           0 :                 op->cb_fn = batch->user_ops[0].cb_fn;
     574           0 :                 op->cb_arg = batch->user_ops[0].cb_arg;
     575           0 :                 op->crc_dst = batch->user_ops[0].crc_dst;
     576           0 :                 _free_batch(batch, chan);
     577           0 :         } else {
     578             :                 /* Command specific. */
     579           0 :                 desc->opcode = IDXD_OPCODE_BATCH;
     580           0 :                 desc->desc_list_addr = batch->user_desc_addr;
     581           0 :                 desc->desc_count = batch->index;
     582           0 :                 assert(batch->index <= batch->size);
     583             : 
     584             :                 /* Add the batch elements completion contexts to the outstanding list to be polled. */
     585           0 :                 for (i = 0 ; i < batch->index; i++) {
     586           0 :                         batch->refcnt++;
     587           0 :                         STAILQ_INSERT_TAIL(&chan->ops_outstanding, (struct idxd_ops *)&batch->user_ops[i],
     588             :                                            link);
     589           0 :                 }
     590           0 :                 batch->index = UINT16_MAX;
     591             :         }
     592             : 
     593           0 :         chan->batch = NULL;
     594             : 
     595             :         /* Submit operation. */
     596           0 :         _submit_to_hw(chan, op);
     597           0 :         SPDK_DEBUGLOG(idxd, "Submitted batch %p\n", batch);
     598             : 
     599           0 :         return 0;
     600           0 : }
     601             : 
     602             : static int
     603           0 : _idxd_setup_batch(struct spdk_idxd_io_channel *chan)
     604             : {
     605             :         struct idxd_batch *batch;
     606             : 
     607           0 :         if (chan->batch == NULL) {
     608           0 :                 batch = idxd_batch_create(chan);
     609           0 :                 if (batch == NULL) {
     610           0 :                         return -EBUSY;
     611             :                 }
     612           0 :         }
     613             : 
     614           0 :         return 0;
     615           0 : }
     616             : 
     617             : static int
     618           0 : _idxd_flush_batch(struct spdk_idxd_io_channel *chan)
     619             : {
     620           0 :         struct idxd_batch *batch = chan->batch;
     621             :         int rc;
     622             : 
     623           0 :         if (batch != NULL && batch->index >= IDXD_MIN_BATCH_FLUSH) {
     624             :                 /* Close out the full batch */
     625           0 :                 rc = idxd_batch_submit(chan, NULL, NULL);
     626           0 :                 if (rc) {
     627           0 :                         assert(rc == -EBUSY);
     628             :                         /*
     629             :                          * Return 0. This will get re-submitted within idxd_process_events where
     630             :                          * if it fails, it will get correctly aborted.
     631             :                          */
     632           0 :                         return 0;
     633             :                 }
     634           0 :         }
     635             : 
     636           0 :         return 0;
     637           0 : }
     638             : 
     639             : static inline void
     640           0 : _update_write_flags(struct spdk_idxd_io_channel *chan, struct idxd_hw_desc *desc)
     641             : {
     642           0 :         desc->flags ^= IDXD_FLAG_CACHE_CONTROL;
     643           0 : }
     644             : 
     645             : int
     646           0 : spdk_idxd_submit_copy(struct spdk_idxd_io_channel *chan,
     647             :                       struct iovec *diov, uint32_t diovcnt,
     648             :                       struct iovec *siov, uint32_t siovcnt,
     649             :                       int flags, spdk_idxd_req_cb cb_fn, void *cb_arg)
     650             : {
     651             :         struct idxd_hw_desc *desc;
     652             :         struct idxd_ops *first_op, *op;
     653             :         void *src, *dst;
     654             :         uint64_t src_addr, dst_addr;
     655             :         int rc, count;
     656             :         uint64_t len, seg_len;
     657             :         struct spdk_ioviter iter;
     658             :         struct idxd_vtophys_iter vtophys_iter;
     659             : 
     660           0 :         assert(chan != NULL);
     661           0 :         assert(diov != NULL);
     662           0 :         assert(siov != NULL);
     663             : 
     664           0 :         rc = _idxd_setup_batch(chan);
     665           0 :         if (rc) {
     666           0 :                 return rc;
     667             :         }
     668             : 
     669           0 :         count = 0;
     670           0 :         first_op = NULL;
     671           0 :         for (len = spdk_ioviter_first(&iter, siov, siovcnt, diov, diovcnt, &src, &dst);
     672           0 :              len > 0;
     673           0 :              len = spdk_ioviter_next(&iter, &src, &dst)) {
     674             : 
     675           0 :                 idxd_vtophys_iter_init(chan, &vtophys_iter, src, dst, len);
     676             : 
     677           0 :                 while (len > 0) {
     678           0 :                         if (first_op == NULL) {
     679           0 :                                 rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
     680           0 :                                 if (rc) {
     681           0 :                                         goto error;
     682             :                                 }
     683             : 
     684           0 :                                 first_op = op;
     685           0 :                         } else {
     686           0 :                                 rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
     687           0 :                                 if (rc) {
     688           0 :                                         goto error;
     689             :                                 }
     690             : 
     691           0 :                                 first_op->count++;
     692           0 :                                 op->parent = first_op;
     693             :                         }
     694             : 
     695           0 :                         count++;
     696             : 
     697           0 :                         src_addr = 0;
     698           0 :                         dst_addr = 0;
     699           0 :                         seg_len = idxd_vtophys_iter_next(&vtophys_iter, &src_addr, &dst_addr);
     700           0 :                         if (seg_len == SPDK_VTOPHYS_ERROR) {
     701           0 :                                 rc = -EFAULT;
     702           0 :                                 goto error;
     703             :                         }
     704             : 
     705           0 :                         desc->opcode = IDXD_OPCODE_MEMMOVE;
     706           0 :                         desc->src_addr = src_addr;
     707           0 :                         desc->dst_addr = dst_addr;
     708           0 :                         desc->xfer_size = seg_len;
     709           0 :                         _update_write_flags(chan, desc);
     710             : 
     711           0 :                         len -= seg_len;
     712             :                 }
     713           0 :         }
     714             : 
     715           0 :         return _idxd_flush_batch(chan);
     716             : 
     717             : error:
     718           0 :         chan->batch->index -= count;
     719           0 :         return rc;
     720           0 : }
     721             : 
     722             : /* Dual-cast copies the same source to two separate destination buffers. */
     723             : int
     724           0 : spdk_idxd_submit_dualcast(struct spdk_idxd_io_channel *chan, void *dst1, void *dst2,
     725             :                           const void *src, uint64_t nbytes, int flags,
     726             :                           spdk_idxd_req_cb cb_fn, void *cb_arg)
     727             : {
     728             :         struct idxd_hw_desc *desc;
     729             :         struct idxd_ops *first_op, *op;
     730             :         uint64_t src_addr, dst1_addr, dst2_addr;
     731             :         int rc, count;
     732             :         uint64_t len;
     733             :         uint64_t outer_seg_len, inner_seg_len;
     734             :         struct idxd_vtophys_iter iter_outer, iter_inner;
     735             : 
     736           0 :         assert(chan != NULL);
     737           0 :         assert(dst1 != NULL);
     738           0 :         assert(dst2 != NULL);
     739           0 :         assert(src != NULL);
     740             : 
     741           0 :         if ((uintptr_t)dst1 & (ALIGN_4K - 1) || (uintptr_t)dst2 & (ALIGN_4K - 1)) {
     742           0 :                 SPDK_ERRLOG("Dualcast requires 4K alignment on dst addresses\n");
     743           0 :                 return -EINVAL;
     744             :         }
     745             : 
     746           0 :         rc = _idxd_setup_batch(chan);
     747           0 :         if (rc) {
     748           0 :                 return rc;
     749             :         }
     750             : 
     751           0 :         idxd_vtophys_iter_init(chan, &iter_outer, src, dst1, nbytes);
     752             : 
     753           0 :         first_op = NULL;
     754           0 :         count = 0;
     755           0 :         while (nbytes > 0) {
     756           0 :                 src_addr = 0;
     757           0 :                 dst1_addr = 0;
     758           0 :                 outer_seg_len = idxd_vtophys_iter_next(&iter_outer, &src_addr, &dst1_addr);
     759           0 :                 if (outer_seg_len == SPDK_VTOPHYS_ERROR) {
     760           0 :                         goto error;
     761             :                 }
     762             : 
     763           0 :                 idxd_vtophys_iter_init(chan, &iter_inner, src, dst2, nbytes);
     764             : 
     765           0 :                 src += outer_seg_len;
     766           0 :                 nbytes -= outer_seg_len;
     767             : 
     768           0 :                 while (outer_seg_len > 0) {
     769           0 :                         if (first_op == NULL) {
     770           0 :                                 rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
     771           0 :                                 if (rc) {
     772           0 :                                         goto error;
     773             :                                 }
     774             : 
     775           0 :                                 first_op = op;
     776           0 :                         } else {
     777           0 :                                 rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
     778           0 :                                 if (rc) {
     779           0 :                                         goto error;
     780             :                                 }
     781             : 
     782           0 :                                 first_op->count++;
     783           0 :                                 op->parent = first_op;
     784             :                         }
     785             : 
     786           0 :                         count++;
     787             : 
     788           0 :                         src_addr = 0;
     789           0 :                         dst2_addr = 0;
     790           0 :                         inner_seg_len = idxd_vtophys_iter_next(&iter_inner, &src_addr, &dst2_addr);
     791           0 :                         if (inner_seg_len == SPDK_VTOPHYS_ERROR) {
     792           0 :                                 rc = -EFAULT;
     793           0 :                                 goto error;
     794             :                         }
     795             : 
     796           0 :                         len = spdk_min(outer_seg_len, inner_seg_len);
     797             : 
     798             :                         /* Command specific. */
     799           0 :                         desc->opcode = IDXD_OPCODE_DUALCAST;
     800           0 :                         desc->src_addr = src_addr;
     801           0 :                         desc->dst_addr = dst1_addr;
     802           0 :                         desc->dest2 = dst2_addr;
     803           0 :                         desc->xfer_size = len;
     804           0 :                         _update_write_flags(chan, desc);
     805             : 
     806           0 :                         dst1_addr += len;
     807           0 :                         outer_seg_len -= len;
     808             :                 }
     809             :         }
     810             : 
     811           0 :         return _idxd_flush_batch(chan);
     812             : 
     813             : error:
     814           0 :         chan->batch->index -= count;
     815           0 :         return rc;
     816           0 : }
     817             : 
     818             : int
     819           0 : spdk_idxd_submit_compare(struct spdk_idxd_io_channel *chan,
     820             :                          struct iovec *siov1, size_t siov1cnt,
     821             :                          struct iovec *siov2, size_t siov2cnt,
     822             :                          int flags, spdk_idxd_req_cb cb_fn, void *cb_arg)
     823             : {
     824             : 
     825             :         struct idxd_hw_desc *desc;
     826             :         struct idxd_ops *first_op, *op;
     827             :         void *src1, *src2;
     828             :         uint64_t src1_addr, src2_addr;
     829             :         int rc, count;
     830             :         uint64_t len, seg_len;
     831             :         struct spdk_ioviter iter;
     832             :         struct idxd_vtophys_iter vtophys_iter;
     833             : 
     834           0 :         assert(chan != NULL);
     835           0 :         assert(siov1 != NULL);
     836           0 :         assert(siov2 != NULL);
     837             : 
     838           0 :         rc = _idxd_setup_batch(chan);
     839           0 :         if (rc) {
     840           0 :                 return rc;
     841             :         }
     842             : 
     843           0 :         count = 0;
     844           0 :         first_op = NULL;
     845           0 :         for (len = spdk_ioviter_first(&iter, siov1, siov1cnt, siov2, siov2cnt, &src1, &src2);
     846           0 :              len > 0;
     847           0 :              len = spdk_ioviter_next(&iter, &src1, &src2)) {
     848             : 
     849           0 :                 idxd_vtophys_iter_init(chan, &vtophys_iter, src1, src2, len);
     850             : 
     851           0 :                 while (len > 0) {
     852           0 :                         if (first_op == NULL) {
     853           0 :                                 rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
     854           0 :                                 if (rc) {
     855           0 :                                         goto error;
     856             :                                 }
     857             : 
     858           0 :                                 first_op = op;
     859           0 :                         } else {
     860           0 :                                 rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
     861           0 :                                 if (rc) {
     862           0 :                                         goto error;
     863             :                                 }
     864             : 
     865           0 :                                 first_op->count++;
     866           0 :                                 op->parent = first_op;
     867             :                         }
     868             : 
     869           0 :                         count++;
     870             : 
     871           0 :                         src1_addr = 0;
     872           0 :                         src2_addr = 0;
     873           0 :                         seg_len = idxd_vtophys_iter_next(&vtophys_iter, &src1_addr, &src2_addr);
     874           0 :                         if (seg_len == SPDK_VTOPHYS_ERROR) {
     875           0 :                                 rc = -EFAULT;
     876           0 :                                 goto error;
     877             :                         }
     878             : 
     879           0 :                         desc->opcode = IDXD_OPCODE_COMPARE;
     880           0 :                         desc->src_addr = src1_addr;
     881           0 :                         desc->src2_addr = src2_addr;
     882           0 :                         desc->xfer_size = seg_len;
     883             : 
     884           0 :                         len -= seg_len;
     885             :                 }
     886           0 :         }
     887             : 
     888           0 :         return _idxd_flush_batch(chan);
     889             : 
     890             : error:
     891           0 :         chan->batch->index -= count;
     892           0 :         return rc;
     893           0 : }
     894             : 
     895             : int
     896           0 : spdk_idxd_submit_fill(struct spdk_idxd_io_channel *chan,
     897             :                       struct iovec *diov, size_t diovcnt,
     898             :                       uint64_t fill_pattern, int flags,
     899             :                       spdk_idxd_req_cb cb_fn, void *cb_arg)
     900             : {
     901             :         struct idxd_hw_desc *desc;
     902             :         struct idxd_ops *first_op, *op;
     903             :         uint64_t dst_addr;
     904             :         int rc, count;
     905             :         uint64_t len, seg_len;
     906             :         void *dst;
     907             :         size_t i;
     908             : 
     909           0 :         assert(chan != NULL);
     910           0 :         assert(diov != NULL);
     911             : 
     912           0 :         rc = _idxd_setup_batch(chan);
     913           0 :         if (rc) {
     914           0 :                 return rc;
     915             :         }
     916             : 
     917           0 :         count = 0;
     918           0 :         first_op = NULL;
     919           0 :         for (i = 0; i < diovcnt; i++) {
     920           0 :                 len = diov[i].iov_len;
     921           0 :                 dst = diov[i].iov_base;
     922             : 
     923           0 :                 while (len > 0) {
     924           0 :                         if (first_op == NULL) {
     925           0 :                                 rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
     926           0 :                                 if (rc) {
     927           0 :                                         goto error;
     928             :                                 }
     929             : 
     930           0 :                                 first_op = op;
     931           0 :                         } else {
     932           0 :                                 rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
     933           0 :                                 if (rc) {
     934           0 :                                         goto error;
     935             :                                 }
     936             : 
     937           0 :                                 first_op->count++;
     938           0 :                                 op->parent = first_op;
     939             :                         }
     940             : 
     941           0 :                         count++;
     942             : 
     943           0 :                         seg_len = len;
     944           0 :                         if (chan->pasid_enabled) {
     945           0 :                                 dst_addr = (uint64_t)dst;
     946           0 :                         } else {
     947           0 :                                 dst_addr = spdk_vtophys(dst, &seg_len);
     948           0 :                                 if (dst_addr == SPDK_VTOPHYS_ERROR) {
     949           0 :                                         SPDK_ERRLOG("Error translating address\n");
     950           0 :                                         rc = -EFAULT;
     951           0 :                                         goto error;
     952             :                                 }
     953             :                         }
     954             : 
     955           0 :                         seg_len = spdk_min(seg_len, len);
     956             : 
     957           0 :                         desc->opcode = IDXD_OPCODE_MEMFILL;
     958           0 :                         desc->pattern = fill_pattern;
     959           0 :                         desc->dst_addr = dst_addr;
     960           0 :                         desc->xfer_size = seg_len;
     961           0 :                         _update_write_flags(chan, desc);
     962             : 
     963           0 :                         len -= seg_len;
     964           0 :                         dst += seg_len;
     965             :                 }
     966           0 :         }
     967             : 
     968           0 :         return _idxd_flush_batch(chan);
     969             : 
     970             : error:
     971           0 :         chan->batch->index -= count;
     972           0 :         return rc;
     973           0 : }
     974             : 
     975             : int
     976           0 : spdk_idxd_submit_crc32c(struct spdk_idxd_io_channel *chan,
     977             :                         struct iovec *siov, size_t siovcnt,
     978             :                         uint32_t seed, uint32_t *crc_dst, int flags,
     979             :                         spdk_idxd_req_cb cb_fn, void *cb_arg)
     980             : {
     981             :         struct idxd_hw_desc *desc;
     982             :         struct idxd_ops *first_op, *op;
     983             :         uint64_t src_addr;
     984             :         int rc, count;
     985             :         uint64_t len, seg_len;
     986             :         void *src;
     987             :         size_t i;
     988           0 :         uint64_t prev_crc = 0;
     989             : 
     990           0 :         assert(chan != NULL);
     991           0 :         assert(siov != NULL);
     992             : 
     993           0 :         rc = _idxd_setup_batch(chan);
     994           0 :         if (rc) {
     995           0 :                 return rc;
     996             :         }
     997             : 
     998           0 :         count = 0;
     999           0 :         op = NULL;
    1000           0 :         first_op = NULL;
    1001           0 :         for (i = 0; i < siovcnt; i++) {
    1002           0 :                 len = siov[i].iov_len;
    1003           0 :                 src = siov[i].iov_base;
    1004             : 
    1005           0 :                 while (len > 0) {
    1006           0 :                         if (first_op == NULL) {
    1007           0 :                                 rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
    1008           0 :                                 if (rc) {
    1009           0 :                                         goto error;
    1010             :                                 }
    1011             : 
    1012           0 :                                 first_op = op;
    1013           0 :                         } else {
    1014           0 :                                 rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
    1015           0 :                                 if (rc) {
    1016           0 :                                         goto error;
    1017             :                                 }
    1018             : 
    1019           0 :                                 first_op->count++;
    1020           0 :                                 op->parent = first_op;
    1021             :                         }
    1022             : 
    1023           0 :                         count++;
    1024             : 
    1025           0 :                         seg_len = len;
    1026           0 :                         if (chan->pasid_enabled) {
    1027           0 :                                 src_addr = (uint64_t)src;
    1028           0 :                         } else {
    1029           0 :                                 src_addr = spdk_vtophys(src, &seg_len);
    1030           0 :                                 if (src_addr == SPDK_VTOPHYS_ERROR) {
    1031           0 :                                         SPDK_ERRLOG("Error translating address\n");
    1032           0 :                                         rc = -EFAULT;
    1033           0 :                                         goto error;
    1034             :                                 }
    1035             :                         }
    1036             : 
    1037           0 :                         seg_len = spdk_min(seg_len, len);
    1038             : 
    1039           0 :                         desc->opcode = IDXD_OPCODE_CRC32C_GEN;
    1040           0 :                         desc->src_addr = src_addr;
    1041           0 :                         if (op == first_op) {
    1042           0 :                                 desc->crc32c.seed = seed;
    1043           0 :                         } else {
    1044           0 :                                 desc->flags |= IDXD_FLAG_FENCE | IDXD_FLAG_CRC_READ_CRC_SEED;
    1045           0 :                                 desc->crc32c.addr = prev_crc;
    1046             :                         }
    1047             : 
    1048           0 :                         desc->xfer_size = seg_len;
    1049           0 :                         prev_crc = desc->completion_addr + offsetof(struct dsa_hw_comp_record, crc32c_val);
    1050             : 
    1051           0 :                         len -= seg_len;
    1052           0 :                         src += seg_len;
    1053             :                 }
    1054           0 :         }
    1055             : 
    1056             :         /* Only the last op copies the crc to the destination */
    1057           0 :         if (op) {
    1058           0 :                 op->crc_dst = crc_dst;
    1059           0 :         }
    1060             : 
    1061           0 :         return _idxd_flush_batch(chan);
    1062             : 
    1063             : error:
    1064           0 :         chan->batch->index -= count;
    1065           0 :         return rc;
    1066           0 : }
    1067             : 
    1068             : int
    1069           0 : spdk_idxd_submit_copy_crc32c(struct spdk_idxd_io_channel *chan,
    1070             :                              struct iovec *diov, size_t diovcnt,
    1071             :                              struct iovec *siov, size_t siovcnt,
    1072             :                              uint32_t seed, uint32_t *crc_dst, int flags,
    1073             :                              spdk_idxd_req_cb cb_fn, void *cb_arg)
    1074             : {
    1075             :         struct idxd_hw_desc *desc;
    1076             :         struct idxd_ops *first_op, *op;
    1077             :         void *src, *dst;
    1078             :         uint64_t src_addr, dst_addr;
    1079             :         int rc, count;
    1080             :         uint64_t len, seg_len;
    1081             :         struct spdk_ioviter iter;
    1082             :         struct idxd_vtophys_iter vtophys_iter;
    1083           0 :         uint64_t prev_crc = 0;
    1084             : 
    1085           0 :         assert(chan != NULL);
    1086           0 :         assert(diov != NULL);
    1087           0 :         assert(siov != NULL);
    1088             : 
    1089           0 :         rc = _idxd_setup_batch(chan);
    1090           0 :         if (rc) {
    1091           0 :                 return rc;
    1092             :         }
    1093             : 
    1094           0 :         count = 0;
    1095           0 :         op = NULL;
    1096           0 :         first_op = NULL;
    1097           0 :         for (len = spdk_ioviter_first(&iter, siov, siovcnt, diov, diovcnt, &src, &dst);
    1098           0 :              len > 0;
    1099           0 :              len = spdk_ioviter_next(&iter, &src, &dst)) {
    1100             : 
    1101             : 
    1102           0 :                 idxd_vtophys_iter_init(chan, &vtophys_iter, src, dst, len);
    1103             : 
    1104           0 :                 while (len > 0) {
    1105           0 :                         if (first_op == NULL) {
    1106           0 :                                 rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
    1107           0 :                                 if (rc) {
    1108           0 :                                         goto error;
    1109             :                                 }
    1110             : 
    1111           0 :                                 first_op = op;
    1112           0 :                         } else {
    1113           0 :                                 rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
    1114           0 :                                 if (rc) {
    1115           0 :                                         goto error;
    1116             :                                 }
    1117             : 
    1118           0 :                                 first_op->count++;
    1119           0 :                                 op->parent = first_op;
    1120             :                         }
    1121             : 
    1122           0 :                         count++;
    1123             : 
    1124           0 :                         src_addr = 0;
    1125           0 :                         dst_addr = 0;
    1126           0 :                         seg_len = idxd_vtophys_iter_next(&vtophys_iter, &src_addr, &dst_addr);
    1127           0 :                         if (seg_len == SPDK_VTOPHYS_ERROR) {
    1128           0 :                                 rc = -EFAULT;
    1129           0 :                                 goto error;
    1130             :                         }
    1131             : 
    1132           0 :                         desc->opcode = IDXD_OPCODE_COPY_CRC;
    1133           0 :                         desc->dst_addr = dst_addr;
    1134           0 :                         desc->src_addr = src_addr;
    1135           0 :                         _update_write_flags(chan, desc);
    1136           0 :                         if (op == first_op) {
    1137           0 :                                 desc->crc32c.seed = seed;
    1138           0 :                         } else {
    1139           0 :                                 desc->flags |= IDXD_FLAG_FENCE | IDXD_FLAG_CRC_READ_CRC_SEED;
    1140           0 :                                 desc->crc32c.addr = prev_crc;
    1141             :                         }
    1142             : 
    1143           0 :                         desc->xfer_size = seg_len;
    1144           0 :                         prev_crc = desc->completion_addr + offsetof(struct dsa_hw_comp_record, crc32c_val);
    1145             : 
    1146           0 :                         len -= seg_len;
    1147             :                 }
    1148           0 :         }
    1149             : 
    1150             :         /* Only the last op copies the crc to the destination */
    1151           0 :         if (op) {
    1152           0 :                 op->crc_dst = crc_dst;
    1153           0 :         }
    1154             : 
    1155           0 :         return _idxd_flush_batch(chan);
    1156             : 
    1157             : error:
    1158           0 :         chan->batch->index -= count;
    1159           0 :         return rc;
    1160           0 : }
    1161             : 
    1162             : static inline int
    1163           0 : _idxd_submit_compress_single(struct spdk_idxd_io_channel *chan, void *dst, const void *src,
    1164             :                              uint64_t nbytes_dst, uint64_t nbytes_src, uint32_t *output_size,
    1165             :                              int flags, spdk_idxd_req_cb cb_fn, void *cb_arg)
    1166             : {
    1167             :         struct idxd_hw_desc *desc;
    1168             :         struct idxd_ops *op;
    1169             :         uint64_t src_addr, dst_addr;
    1170             :         int rc;
    1171             : 
    1172             :         /* Common prep. */
    1173           0 :         rc = _idxd_prep_command(chan, cb_fn, cb_arg, flags, &desc, &op);
    1174           0 :         if (rc) {
    1175           0 :                 return rc;
    1176             :         }
    1177             : 
    1178           0 :         rc = _vtophys(chan, src, &src_addr, nbytes_src);
    1179           0 :         if (rc) {
    1180           0 :                 goto error;
    1181             :         }
    1182             : 
    1183           0 :         rc = _vtophys(chan, dst, &dst_addr, nbytes_dst);
    1184           0 :         if (rc) {
    1185           0 :                 goto error;
    1186             :         }
    1187             : 
    1188             :         /* Command specific. */
    1189           0 :         desc->opcode = IDXD_OPCODE_COMPRESS;
    1190           0 :         desc->src1_addr = src_addr;
    1191           0 :         desc->dst_addr = dst_addr;
    1192           0 :         desc->src1_size = nbytes_src;
    1193           0 :         desc->iaa.max_dst_size = nbytes_dst;
    1194           0 :         desc->iaa.src2_size = sizeof(struct iaa_aecs);
    1195           0 :         desc->iaa.src2_addr = chan->idxd->aecs_addr;
    1196           0 :         desc->flags |= IAA_FLAG_RD_SRC2_AECS;
    1197           0 :         desc->compr_flags = IAA_COMP_FLAGS;
    1198           0 :         op->output_size = output_size;
    1199             : 
    1200           0 :         _submit_to_hw(chan, op);
    1201           0 :         return 0;
    1202             : error:
    1203           0 :         STAILQ_INSERT_TAIL(&chan->ops_pool, op, link);
    1204           0 :         return rc;
    1205           0 : }
    1206             : 
    1207             : int
    1208           0 : spdk_idxd_submit_compress(struct spdk_idxd_io_channel *chan,
    1209             :                           void *dst, uint64_t nbytes,
    1210             :                           struct iovec *siov, uint32_t siovcnt, uint32_t *output_size,
    1211             :                           int flags, spdk_idxd_req_cb cb_fn, void *cb_arg)
    1212             : {
    1213           0 :         assert(chan != NULL);
    1214           0 :         assert(dst != NULL);
    1215           0 :         assert(siov != NULL);
    1216             : 
    1217           0 :         if (siovcnt == 1) {
    1218             :                 /* Simple case - copying one buffer to another */
    1219           0 :                 if (nbytes < siov[0].iov_len) {
    1220           0 :                         return -EINVAL;
    1221             :                 }
    1222             : 
    1223           0 :                 return _idxd_submit_compress_single(chan, dst, siov[0].iov_base,
    1224           0 :                                                     nbytes, siov[0].iov_len,
    1225           0 :                                                     output_size, flags, cb_fn, cb_arg);
    1226             :         }
    1227             :         /* TODO: vectored support */
    1228           0 :         return -EINVAL;
    1229           0 : }
    1230             : 
    1231             : static inline int
    1232           0 : _idxd_submit_decompress_single(struct spdk_idxd_io_channel *chan, void *dst, const void *src,
    1233             :                                uint64_t nbytes_dst, uint64_t nbytes, int flags, spdk_idxd_req_cb cb_fn, void *cb_arg)
    1234             : {
    1235             :         struct idxd_hw_desc *desc;
    1236             :         struct idxd_ops *op;
    1237             :         uint64_t src_addr, dst_addr;
    1238             :         int rc;
    1239             : 
    1240             :         /* Common prep. */
    1241           0 :         rc = _idxd_prep_command(chan, cb_fn, cb_arg, flags, &desc, &op);
    1242           0 :         if (rc) {
    1243           0 :                 return rc;
    1244             :         }
    1245             : 
    1246           0 :         rc = _vtophys(chan, src, &src_addr, nbytes);
    1247           0 :         if (rc) {
    1248           0 :                 goto error;
    1249             :         }
    1250             : 
    1251           0 :         rc = _vtophys(chan, dst, &dst_addr, nbytes_dst);
    1252           0 :         if (rc) {
    1253           0 :                 goto error;
    1254             :         }
    1255             : 
    1256             :         /* Command specific. */
    1257           0 :         desc->opcode = IDXD_OPCODE_DECOMPRESS;
    1258           0 :         desc->src1_addr = src_addr;
    1259           0 :         desc->dst_addr = dst_addr;
    1260           0 :         desc->src1_size = nbytes;
    1261           0 :         desc->iaa.max_dst_size = nbytes_dst;
    1262           0 :         desc->decompr_flags = IAA_DECOMP_FLAGS;
    1263             : 
    1264           0 :         _submit_to_hw(chan, op);
    1265           0 :         return 0;
    1266             : error:
    1267           0 :         STAILQ_INSERT_TAIL(&chan->ops_pool, op, link);
    1268           0 :         return rc;
    1269           0 : }
    1270             : 
    1271             : int
    1272           0 : spdk_idxd_submit_decompress(struct spdk_idxd_io_channel *chan,
    1273             :                             struct iovec *diov, uint32_t diovcnt,
    1274             :                             struct iovec *siov, uint32_t siovcnt,
    1275             :                             int flags, spdk_idxd_req_cb cb_fn, void *cb_arg)
    1276             : {
    1277           0 :         assert(chan != NULL);
    1278           0 :         assert(diov != NULL);
    1279           0 :         assert(siov != NULL);
    1280             : 
    1281           0 :         if (diovcnt == 1 && siovcnt == 1) {
    1282             :                 /* Simple case - copying one buffer to another */
    1283           0 :                 if (diov[0].iov_len < siov[0].iov_len) {
    1284           0 :                         return -EINVAL;
    1285             :                 }
    1286             : 
    1287           0 :                 return _idxd_submit_decompress_single(chan, diov[0].iov_base, siov[0].iov_base,
    1288           0 :                                                       diov[0].iov_len, siov[0].iov_len,
    1289           0 :                                                       flags, cb_fn, cb_arg);
    1290             :         }
    1291             :         /* TODO: vectored support */
    1292           0 :         return -EINVAL;
    1293           0 : }
    1294             : 
    1295             : static inline int
    1296           0 : idxd_get_dif_flags(const struct spdk_dif_ctx *ctx, uint8_t *flags)
    1297             : {
    1298           0 :         uint32_t data_block_size = ctx->block_size - ctx->md_size;
    1299             : 
    1300           0 :         if (flags == NULL) {
    1301           0 :                 SPDK_ERRLOG("Flag should be non-null");
    1302           0 :                 return -EINVAL;
    1303             :         }
    1304             : 
    1305           0 :         assert(ctx->md_interleave);
    1306             : 
    1307           0 :         switch (ctx->guard_interval) {
    1308             :         case DATA_BLOCK_SIZE_512:
    1309           0 :                 *flags = IDXD_DIF_FLAG_DIF_BLOCK_SIZE_512;
    1310           0 :                 break;
    1311             :         case DATA_BLOCK_SIZE_520:
    1312           0 :                 *flags = IDXD_DIF_FLAG_DIF_BLOCK_SIZE_520;
    1313           0 :                 break;
    1314             :         case DATA_BLOCK_SIZE_4096:
    1315           0 :                 *flags = IDXD_DIF_FLAG_DIF_BLOCK_SIZE_4096;
    1316           0 :                 break;
    1317             :         case DATA_BLOCK_SIZE_4104:
    1318           0 :                 *flags = IDXD_DIF_FLAG_DIF_BLOCK_SIZE_4104;
    1319           0 :                 break;
    1320             :         default:
    1321           0 :                 SPDK_ERRLOG("Invalid DIF block size %d\n", data_block_size);
    1322           0 :                 return -EINVAL;
    1323             :         }
    1324             : 
    1325           0 :         return 0;
    1326           0 : }
    1327             : 
    1328             : static inline int
    1329           0 : idxd_get_source_dif_flags(const struct spdk_dif_ctx *ctx, uint8_t *flags)
    1330             : {
    1331           0 :         if (flags == NULL) {
    1332           0 :                 SPDK_ERRLOG("Flag should be non-null");
    1333           0 :                 return -EINVAL;
    1334             :         }
    1335             : 
    1336           0 :         *flags = 0;
    1337             : 
    1338           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_GUARD_CHECK)) {
    1339           0 :                 *flags |= IDXD_DIF_SOURCE_FLAG_GUARD_CHECK_DISABLE;
    1340           0 :         }
    1341             : 
    1342           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_REFTAG_CHECK)) {
    1343           0 :                 *flags |= IDXD_DIF_SOURCE_FLAG_REF_TAG_CHECK_DISABLE;
    1344           0 :         }
    1345             : 
    1346           0 :         switch (ctx->dif_type) {
    1347             :         case SPDK_DIF_TYPE1:
    1348             :         case SPDK_DIF_TYPE2:
    1349             :                 /* If Type 1 or 2 is used, then all DIF checks are disabled when
    1350             :                  * the Application Tag is 0xFFFF.
    1351             :                  */
    1352           0 :                 *flags |= IDXD_DIF_SOURCE_FLAG_APP_TAG_F_DETECT;
    1353           0 :                 break;
    1354             :         case SPDK_DIF_TYPE3:
    1355             :                 /* If Type 3 is used, then all DIF checks are disabled when the
    1356             :                  * Application Tag is 0xFFFF and the Reference Tag is 0xFFFFFFFF
    1357             :                  * (for PI 8 bytes format).
    1358             :                  */
    1359           0 :                 *flags |= IDXD_DIF_SOURCE_FLAG_APP_AND_REF_TAG_F_DETECT;
    1360           0 :                 break;
    1361             :         default:
    1362           0 :                 SPDK_ERRLOG("Invalid DIF type %d\n", ctx->dif_type);
    1363           0 :                 return -EINVAL;
    1364             :         }
    1365             : 
    1366           0 :         return 0;
    1367           0 : }
    1368             : 
    1369             : static inline int
    1370           0 : idxd_get_app_tag_mask(const struct spdk_dif_ctx *ctx, uint16_t *app_tag_mask)
    1371             : {
    1372           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_APPTAG_CHECK)) {
    1373             :                 /* The Source Application Tag Mask may be set to 0xffff
    1374             :                  * to disable application tag checking */
    1375           0 :                 *app_tag_mask = 0xFFFF;
    1376           0 :         } else {
    1377           0 :                 *app_tag_mask = ~ctx->apptag_mask;
    1378             :         }
    1379             : 
    1380           0 :         return 0;
    1381             : }
    1382             : 
    1383             : static inline int
    1384           0 : idxd_validate_dif_common_params(const struct spdk_dif_ctx *ctx)
    1385             : {
    1386           0 :         uint32_t data_block_size = ctx->block_size - ctx->md_size;
    1387             : 
    1388             :         /* Check byte offset from the start of the whole data buffer */
    1389           0 :         if (ctx->data_offset != 0) {
    1390           0 :                 SPDK_ERRLOG("Byte offset from the start of the whole data buffer must be set to 0.");
    1391           0 :                 return -EINVAL;
    1392             :         }
    1393             : 
    1394             :         /* Check seed value for guard computation */
    1395           0 :         if (ctx->guard_seed != 0) {
    1396           0 :                 SPDK_ERRLOG("Seed value for guard computation must be set to 0.");
    1397           0 :                 return -EINVAL;
    1398             :         }
    1399             : 
    1400             :         /* Check for supported metadata sizes */
    1401           0 :         if (ctx->md_size != METADATA_SIZE_8 && ctx->md_size != METADATA_SIZE_16)  {
    1402           0 :                 SPDK_ERRLOG("Metadata size %d is not supported.\n", ctx->md_size);
    1403           0 :                 return -EINVAL;
    1404             :         }
    1405             : 
    1406             :         /* Check for supported DIF PI formats */
    1407           0 :         if (ctx->dif_pi_format != SPDK_DIF_PI_FORMAT_16) {
    1408           0 :                 SPDK_ERRLOG("DIF PI format %d is not supported.\n", ctx->dif_pi_format);
    1409           0 :                 return -EINVAL;
    1410             :         }
    1411             : 
    1412             :         /* Check for supported metadata locations */
    1413           0 :         if (ctx->md_interleave == false) {
    1414           0 :                 SPDK_ERRLOG("Separated metadata location is not supported.\n");
    1415           0 :                 return -EINVAL;
    1416             :         }
    1417             : 
    1418             :         /* Check for supported DIF alignments */
    1419           0 :         if (ctx->md_size == METADATA_SIZE_16 &&
    1420           0 :             (ctx->guard_interval == DATA_BLOCK_SIZE_512 ||
    1421           0 :              ctx->guard_interval == DATA_BLOCK_SIZE_4096)) {
    1422           0 :                 SPDK_ERRLOG("DIF left alignment in metadata is not supported.\n");
    1423           0 :                 return -EINVAL;
    1424             :         }
    1425             : 
    1426             :         /* Check for supported DIF block sizes */
    1427           0 :         if (data_block_size != DATA_BLOCK_SIZE_512 &&
    1428           0 :             data_block_size != DATA_BLOCK_SIZE_4096) {
    1429           0 :                 SPDK_ERRLOG("DIF block size %d is not supported.\n", data_block_size);
    1430           0 :                 return -EINVAL;
    1431             :         }
    1432             : 
    1433           0 :         return 0;
    1434           0 : }
    1435             : 
    1436             : static inline int
    1437           0 : idxd_validate_dif_check_params(const struct spdk_dif_ctx *ctx)
    1438             : {
    1439           0 :         int rc = idxd_validate_dif_common_params(ctx);
    1440           0 :         if (rc) {
    1441           0 :                 return rc;
    1442             :         }
    1443             : 
    1444           0 :         return 0;
    1445           0 : }
    1446             : 
    1447             : static inline int
    1448           0 : idxd_validate_dif_check_buf_align(const struct spdk_dif_ctx *ctx, const uint64_t len)
    1449             : {
    1450             :         /* DSA can only process contiguous memory buffers, multiple of the block size */
    1451           0 :         if (len % ctx->block_size != 0) {
    1452           0 :                 SPDK_ERRLOG("The memory buffer length (%ld) is not a multiple of block size with metadata (%d).\n",
    1453             :                             len, ctx->block_size);
    1454           0 :                 return -EINVAL;
    1455             :         }
    1456             : 
    1457           0 :         return 0;
    1458           0 : }
    1459             : 
    1460             : int
    1461           0 : spdk_idxd_submit_dif_check(struct spdk_idxd_io_channel *chan,
    1462             :                            struct iovec *siov, size_t siovcnt,
    1463             :                            uint32_t num_blocks, const struct spdk_dif_ctx *ctx, int flags,
    1464             :                            spdk_idxd_req_cb cb_fn, void *cb_arg)
    1465             : {
    1466             :         struct idxd_hw_desc *desc;
    1467           0 :         struct idxd_ops *first_op = NULL, *op = NULL;
    1468             :         uint64_t src_seg_addr, src_seg_len;
    1469           0 :         uint32_t num_blocks_done = 0;
    1470           0 :         uint8_t dif_flags = 0, src_dif_flags = 0;
    1471           0 :         uint16_t app_tag_mask = 0;
    1472           0 :         int rc, count = 0;
    1473             :         size_t i;
    1474             : 
    1475           0 :         assert(ctx != NULL);
    1476           0 :         assert(chan != NULL);
    1477           0 :         assert(siov != NULL);
    1478             : 
    1479           0 :         rc = idxd_validate_dif_check_params(ctx);
    1480           0 :         if (rc) {
    1481           0 :                 return rc;
    1482             :         }
    1483             : 
    1484           0 :         rc = idxd_get_dif_flags(ctx, &dif_flags);
    1485           0 :         if (rc) {
    1486           0 :                 return rc;
    1487             :         }
    1488             : 
    1489           0 :         rc = idxd_get_source_dif_flags(ctx, &src_dif_flags);
    1490           0 :         if (rc) {
    1491           0 :                 return rc;
    1492             :         }
    1493             : 
    1494           0 :         rc = idxd_get_app_tag_mask(ctx, &app_tag_mask);
    1495           0 :         if (rc) {
    1496           0 :                 return rc;
    1497             :         }
    1498             : 
    1499           0 :         rc = _idxd_setup_batch(chan);
    1500           0 :         if (rc) {
    1501           0 :                 return rc;
    1502             :         }
    1503             : 
    1504           0 :         for (i = 0; i < siovcnt; i++) {
    1505           0 :                 src_seg_addr = (uint64_t)siov[i].iov_base;
    1506           0 :                 src_seg_len = siov[i].iov_len;
    1507             : 
    1508             :                 /* DSA processes the iovec buffers independently, so the buffers cannot
    1509             :                  * be split (must be multiple of the block size) */
    1510             : 
    1511             :                 /* Validate the memory buffer alignment */
    1512           0 :                 rc = idxd_validate_dif_check_buf_align(ctx, src_seg_len);
    1513           0 :                 if (rc) {
    1514           0 :                         goto error;
    1515             :                 }
    1516             : 
    1517           0 :                 if (first_op == NULL) {
    1518           0 :                         rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
    1519           0 :                         if (rc) {
    1520           0 :                                 goto error;
    1521             :                         }
    1522             : 
    1523           0 :                         first_op = op;
    1524           0 :                 } else {
    1525           0 :                         rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
    1526           0 :                         if (rc) {
    1527           0 :                                 goto error;
    1528             :                         }
    1529             : 
    1530           0 :                         first_op->count++;
    1531           0 :                         op->parent = first_op;
    1532             :                 }
    1533             : 
    1534           0 :                 count++;
    1535             : 
    1536           0 :                 desc->opcode = IDXD_OPCODE_DIF_CHECK;
    1537           0 :                 desc->src_addr = src_seg_addr;
    1538           0 :                 desc->xfer_size = src_seg_len;
    1539           0 :                 desc->dif_chk.flags = dif_flags;
    1540           0 :                 desc->dif_chk.src_flags = src_dif_flags;
    1541           0 :                 desc->dif_chk.app_tag_seed = ctx->app_tag;
    1542           0 :                 desc->dif_chk.app_tag_mask = app_tag_mask;
    1543           0 :                 desc->dif_chk.ref_tag_seed = (uint32_t)ctx->init_ref_tag + num_blocks_done;
    1544             : 
    1545           0 :                 num_blocks_done += (src_seg_len / ctx->block_size);
    1546           0 :         }
    1547             : 
    1548           0 :         return _idxd_flush_batch(chan);
    1549             : 
    1550             : error:
    1551           0 :         chan->batch->index -= count;
    1552           0 :         return rc;
    1553           0 : }
    1554             : 
    1555             : static inline int
    1556           0 : idxd_validate_dif_insert_params(const struct spdk_dif_ctx *ctx)
    1557             : {
    1558           0 :         int rc = idxd_validate_dif_common_params(ctx);
    1559           0 :         if (rc) {
    1560           0 :                 return rc;
    1561             :         }
    1562             : 
    1563             :         /* Check for required DIF flags */
    1564           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_GUARD_CHECK))  {
    1565           0 :                 SPDK_ERRLOG("Guard check flag must be set.\n");
    1566           0 :                 return -EINVAL;
    1567             :         }
    1568             : 
    1569           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_APPTAG_CHECK))  {
    1570           0 :                 SPDK_ERRLOG("Application Tag check flag must be set.\n");
    1571           0 :                 return -EINVAL;
    1572             :         }
    1573             : 
    1574           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_REFTAG_CHECK))  {
    1575           0 :                 SPDK_ERRLOG("Reference Tag check flag must be set.\n");
    1576           0 :                 return -EINVAL;
    1577             :         }
    1578             : 
    1579           0 :         return 0;
    1580           0 : }
    1581             : 
    1582             : static inline int
    1583           0 : idxd_validate_dif_insert_iovecs(const struct spdk_dif_ctx *ctx,
    1584             :                                 const struct iovec *diov, const size_t diovcnt,
    1585             :                                 const struct iovec *siov, const size_t siovcnt)
    1586             : {
    1587           0 :         uint32_t data_block_size = ctx->block_size - ctx->md_size;
    1588             :         size_t src_len, dst_len;
    1589             :         uint32_t num_blocks;
    1590             :         size_t i;
    1591             : 
    1592           0 :         if (diovcnt != siovcnt) {
    1593           0 :                 SPDK_ERRLOG("Invalid number of elements in src (%ld) and dst (%ld) iovecs.\n",
    1594             :                             siovcnt, diovcnt);
    1595           0 :                 return -EINVAL;
    1596             :         }
    1597             : 
    1598           0 :         for (i = 0; i < siovcnt; i++) {
    1599           0 :                 src_len = siov[i].iov_len;
    1600           0 :                 dst_len = diov[i].iov_len;
    1601           0 :                 num_blocks = src_len / data_block_size;
    1602           0 :                 if (src_len != dst_len - num_blocks * ctx->md_size) {
    1603           0 :                         SPDK_ERRLOG("Invalid length of data in src (%ld) and dst (%ld) in iovecs[%ld].\n",
    1604             :                                     src_len, dst_len, i);
    1605           0 :                         return -EINVAL;
    1606             :                 }
    1607           0 :         }
    1608             : 
    1609           0 :         return 0;
    1610           0 : }
    1611             : 
    1612             : static inline int
    1613           0 : idxd_validate_dif_insert_buf_align(const struct spdk_dif_ctx *ctx,
    1614             :                                    const uint64_t src_len, const uint64_t dst_len)
    1615             : {
    1616           0 :         uint32_t data_block_size = ctx->block_size - ctx->md_size;
    1617             : 
    1618             :         /* DSA can only process contiguous memory buffers, multiple of the block size */
    1619           0 :         if (src_len % data_block_size != 0) {
    1620           0 :                 SPDK_ERRLOG("The memory source buffer length (%ld) is not a multiple of block size without metadata (%d).\n",
    1621             :                             src_len, data_block_size);
    1622           0 :                 return -EINVAL;
    1623             :         }
    1624             : 
    1625           0 :         if (dst_len % ctx->block_size != 0) {
    1626           0 :                 SPDK_ERRLOG("The memory destination buffer length (%ld) is not a multiple of block size with metadata (%d).\n",
    1627             :                             dst_len, ctx->block_size);
    1628           0 :                 return -EINVAL;
    1629             :         }
    1630             : 
    1631             :         /* The memory source and destination must hold the same number of blocks. */
    1632           0 :         if (src_len / data_block_size != (dst_len / ctx->block_size)) {
    1633           0 :                 SPDK_ERRLOG("The memory source (%ld) and destination (%ld) must hold the same number of blocks.\n",
    1634             :                             src_len / data_block_size, dst_len / ctx->block_size);
    1635           0 :                 return -EINVAL;
    1636             :         }
    1637             : 
    1638           0 :         return 0;
    1639           0 : }
    1640             : 
    1641             : int
    1642           0 : spdk_idxd_submit_dif_insert(struct spdk_idxd_io_channel *chan,
    1643             :                             struct iovec *diov, size_t diovcnt,
    1644             :                             struct iovec *siov, size_t siovcnt,
    1645             :                             uint32_t num_blocks, const struct spdk_dif_ctx *ctx, int flags,
    1646             :                             spdk_idxd_req_cb cb_fn, void *cb_arg)
    1647             : {
    1648             :         struct idxd_hw_desc *desc;
    1649           0 :         struct idxd_ops *first_op = NULL, *op = NULL;
    1650           0 :         uint32_t data_block_size = ctx->block_size - ctx->md_size;
    1651             :         uint64_t src_seg_addr, src_seg_len;
    1652             :         uint64_t dst_seg_addr, dst_seg_len;
    1653           0 :         uint32_t num_blocks_done = 0;
    1654           0 :         uint8_t dif_flags = 0;
    1655           0 :         int rc, count = 0;
    1656             :         size_t i;
    1657             : 
    1658           0 :         assert(ctx != NULL);
    1659           0 :         assert(chan != NULL);
    1660           0 :         assert(siov != NULL);
    1661             : 
    1662           0 :         rc = idxd_validate_dif_insert_params(ctx);
    1663           0 :         if (rc) {
    1664           0 :                 return rc;
    1665             :         }
    1666             : 
    1667           0 :         rc = idxd_validate_dif_insert_iovecs(ctx, diov, diovcnt, siov, siovcnt);
    1668           0 :         if (rc) {
    1669           0 :                 return rc;
    1670             :         }
    1671             : 
    1672           0 :         rc = idxd_get_dif_flags(ctx, &dif_flags);
    1673           0 :         if (rc) {
    1674           0 :                 return rc;
    1675             :         }
    1676             : 
    1677           0 :         rc = _idxd_setup_batch(chan);
    1678           0 :         if (rc) {
    1679           0 :                 return rc;
    1680             :         }
    1681             : 
    1682           0 :         for (i = 0; i < siovcnt; i++) {
    1683           0 :                 src_seg_addr = (uint64_t)siov[i].iov_base;
    1684           0 :                 src_seg_len = siov[i].iov_len;
    1685           0 :                 dst_seg_addr = (uint64_t)diov[i].iov_base;
    1686           0 :                 dst_seg_len = diov[i].iov_len;
    1687             : 
    1688             :                 /* DSA processes the iovec buffers independently, so the buffers cannot
    1689             :                  * be split (must be multiple of the block size). The destination memory
    1690             :                  * size needs to be same as the source memory size + metadata size */
    1691             : 
    1692           0 :                 rc = idxd_validate_dif_insert_buf_align(ctx, src_seg_len, dst_seg_len);
    1693           0 :                 if (rc) {
    1694           0 :                         goto error;
    1695             :                 }
    1696             : 
    1697           0 :                 if (first_op == NULL) {
    1698           0 :                         rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
    1699           0 :                         if (rc) {
    1700           0 :                                 goto error;
    1701             :                         }
    1702             : 
    1703           0 :                         first_op = op;
    1704           0 :                 } else {
    1705           0 :                         rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
    1706           0 :                         if (rc) {
    1707           0 :                                 goto error;
    1708             :                         }
    1709             : 
    1710           0 :                         first_op->count++;
    1711           0 :                         op->parent = first_op;
    1712             :                 }
    1713             : 
    1714           0 :                 count++;
    1715             : 
    1716           0 :                 desc->opcode = IDXD_OPCODE_DIF_INS;
    1717           0 :                 desc->src_addr = src_seg_addr;
    1718           0 :                 desc->dst_addr = dst_seg_addr;
    1719           0 :                 desc->xfer_size = src_seg_len;
    1720           0 :                 desc->dif_ins.flags = dif_flags;
    1721           0 :                 desc->dif_ins.app_tag_seed = ctx->app_tag;
    1722           0 :                 desc->dif_ins.app_tag_mask = ~ctx->apptag_mask;
    1723           0 :                 desc->dif_ins.ref_tag_seed = (uint32_t)ctx->init_ref_tag + num_blocks_done;
    1724             : 
    1725           0 :                 num_blocks_done += src_seg_len / data_block_size;
    1726           0 :         }
    1727             : 
    1728           0 :         return _idxd_flush_batch(chan);
    1729             : 
    1730             : error:
    1731           0 :         chan->batch->index -= count;
    1732           0 :         return rc;
    1733           0 : }
    1734             : 
    1735             : static inline int
    1736           0 : idxd_validate_dif_strip_buf_align(const struct spdk_dif_ctx *ctx,
    1737             :                                   const uint64_t src_len, const uint64_t dst_len)
    1738             : {
    1739           0 :         uint32_t data_block_size = ctx->block_size - ctx->md_size;
    1740             : 
    1741             :         /* DSA can only process contiguous memory buffers, multiple of the block size. */
    1742           0 :         if (src_len % ctx->block_size != 0) {
    1743           0 :                 SPDK_ERRLOG("The src buffer length (%ld) is not a multiple of block size (%d).\n",
    1744             :                             src_len, ctx->block_size);
    1745           0 :                 return -EINVAL;
    1746             :         }
    1747           0 :         if (dst_len % data_block_size != 0) {
    1748           0 :                 SPDK_ERRLOG("The dst buffer length (%ld) is not a multiple of block size without metadata (%d).\n",
    1749             :                             dst_len, data_block_size);
    1750           0 :                 return -EINVAL;
    1751             :         }
    1752             :         /* The memory source and destination must hold the same number of blocks. */
    1753           0 :         if (src_len / ctx->block_size != dst_len / data_block_size) {
    1754           0 :                 SPDK_ERRLOG("The memory source (%ld) and destination (%ld) must hold the same number of blocks.\n",
    1755             :                             src_len / data_block_size, dst_len / ctx->block_size);
    1756           0 :                 return -EINVAL;
    1757             :         }
    1758           0 :         return 0;
    1759           0 : }
    1760             : 
    1761             : int
    1762           0 : spdk_idxd_submit_dif_strip(struct spdk_idxd_io_channel *chan,
    1763             :                            struct iovec *diov, size_t diovcnt,
    1764             :                            struct iovec *siov, size_t siovcnt,
    1765             :                            uint32_t num_blocks, const struct spdk_dif_ctx *ctx, int flags,
    1766             :                            spdk_idxd_req_cb cb_fn, void *cb_arg)
    1767             : {
    1768             :         struct idxd_hw_desc *desc;
    1769           0 :         struct idxd_ops *first_op = NULL, *op = NULL;
    1770             :         uint64_t src_seg_addr, src_seg_len;
    1771             :         uint64_t dst_seg_addr, dst_seg_len;
    1772           0 :         uint8_t dif_flags = 0, src_dif_flags = 0;
    1773           0 :         uint16_t app_tag_mask = 0;
    1774           0 :         int rc, count = 0;
    1775             :         size_t i;
    1776             : 
    1777           0 :         rc = idxd_validate_dif_common_params(ctx);
    1778           0 :         if (rc) {
    1779           0 :                 return rc;
    1780             :         }
    1781             : 
    1782           0 :         rc = idxd_get_dif_flags(ctx, &dif_flags);
    1783           0 :         if (rc) {
    1784           0 :                 return rc;
    1785             :         }
    1786             : 
    1787           0 :         rc = idxd_get_source_dif_flags(ctx, &src_dif_flags);
    1788           0 :         if (rc) {
    1789           0 :                 return rc;
    1790             :         }
    1791             : 
    1792           0 :         rc = idxd_get_app_tag_mask(ctx, &app_tag_mask);
    1793           0 :         if (rc) {
    1794           0 :                 return rc;
    1795             :         }
    1796             : 
    1797           0 :         rc = _idxd_setup_batch(chan);
    1798           0 :         if (rc) {
    1799           0 :                 return rc;
    1800             :         }
    1801             : 
    1802           0 :         if (diovcnt != siovcnt) {
    1803           0 :                 SPDK_ERRLOG("Mismatched iovcnts: src=%ld, dst=%ld\n",
    1804             :                             siovcnt, diovcnt);
    1805           0 :                 return -EINVAL;
    1806             :         }
    1807             : 
    1808           0 :         for (i = 0; i < siovcnt; i++) {
    1809           0 :                 src_seg_addr = (uint64_t)siov[i].iov_base;
    1810           0 :                 src_seg_len = siov[i].iov_len;
    1811           0 :                 dst_seg_addr = (uint64_t)diov[i].iov_base;
    1812           0 :                 dst_seg_len = diov[i].iov_len;
    1813             : 
    1814             :                 /* DSA processes the iovec buffers independently, so the buffers cannot
    1815             :                  * be split (must be multiple of the block size). The source memory
    1816             :                  * size needs to be same as the destination memory size + metadata size */
    1817             : 
    1818           0 :                 rc = idxd_validate_dif_strip_buf_align(ctx, src_seg_len, dst_seg_len);
    1819           0 :                 if (rc) {
    1820           0 :                         goto error;
    1821             :                 }
    1822             : 
    1823           0 :                 if (first_op == NULL) {
    1824           0 :                         rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
    1825           0 :                         if (rc) {
    1826           0 :                                 goto error;
    1827             :                         }
    1828             : 
    1829           0 :                         first_op = op;
    1830           0 :                 } else {
    1831           0 :                         rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
    1832           0 :                         if (rc) {
    1833           0 :                                 goto error;
    1834             :                         }
    1835             : 
    1836           0 :                         first_op->count++;
    1837           0 :                         op->parent = first_op;
    1838             :                 }
    1839             : 
    1840           0 :                 count++;
    1841             : 
    1842           0 :                 desc->opcode = IDXD_OPCODE_DIF_STRP;
    1843           0 :                 desc->src_addr = src_seg_addr;
    1844           0 :                 desc->dst_addr = dst_seg_addr;
    1845           0 :                 desc->xfer_size = src_seg_len;
    1846           0 :                 desc->dif_strip.flags = dif_flags;
    1847           0 :                 desc->dif_strip.src_flags = src_dif_flags;
    1848           0 :                 desc->dif_strip.app_tag_seed = ctx->app_tag;
    1849           0 :                 desc->dif_strip.app_tag_mask = app_tag_mask;
    1850           0 :                 desc->dif_strip.ref_tag_seed = (uint32_t)ctx->init_ref_tag;
    1851           0 :         }
    1852             : 
    1853           0 :         return _idxd_flush_batch(chan);
    1854             : 
    1855             : error:
    1856           0 :         chan->batch->index -= count;
    1857           0 :         return rc;
    1858           0 : }
    1859             : 
    1860             : static inline int
    1861           0 : idxd_get_dix_flags(const struct spdk_dif_ctx *ctx, uint8_t *flags)
    1862             : {
    1863           0 :         uint32_t data_block_size = ctx->block_size;
    1864             : 
    1865           0 :         assert(!ctx->md_interleave);
    1866             : 
    1867           0 :         if (flags == NULL) {
    1868           0 :                 SPDK_ERRLOG("Flag should be non-null");
    1869           0 :                 return -EINVAL;
    1870             :         }
    1871             : 
    1872           0 :         switch (data_block_size) {
    1873             :         case DATA_BLOCK_SIZE_512:
    1874           0 :                 *flags = IDXD_DIF_FLAG_DIF_BLOCK_SIZE_512;
    1875           0 :                 break;
    1876             :         case DATA_BLOCK_SIZE_4096:
    1877           0 :                 *flags = IDXD_DIF_FLAG_DIF_BLOCK_SIZE_4096;
    1878           0 :                 break;
    1879             :         default:
    1880           0 :                 SPDK_ERRLOG("Invalid DIX block size %d\n", data_block_size);
    1881           0 :                 return -EINVAL;
    1882             :         }
    1883             : 
    1884           0 :         return 0;
    1885           0 : }
    1886             : 
    1887             : static inline int
    1888           0 : idxd_validate_dix_generate_params(const struct spdk_dif_ctx *ctx)
    1889             : {
    1890             :         /* Check for required DIF flags. Intel DSA is able to only generate all DIF fields. */
    1891           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_GUARD_CHECK))  {
    1892           0 :                 SPDK_ERRLOG("Guard check flag must be set.\n");
    1893           0 :                 return -EINVAL;
    1894             :         }
    1895             : 
    1896           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_APPTAG_CHECK))  {
    1897           0 :                 SPDK_ERRLOG("Application Tag check flag must be set.\n");
    1898           0 :                 return -EINVAL;
    1899             :         }
    1900             : 
    1901           0 :         if (!(ctx->dif_flags & SPDK_DIF_FLAGS_REFTAG_CHECK))  {
    1902           0 :                 SPDK_ERRLOG("Reference Tag check flag must be set.\n");
    1903           0 :                 return -EINVAL;
    1904             :         }
    1905             : 
    1906             :         /* Check byte offset from the start of the whole data buffer */
    1907           0 :         if (ctx->data_offset != 0) {
    1908           0 :                 SPDK_ERRLOG("Byte offset from the start of the whole data buffer must be set to 0.");
    1909           0 :                 return -EINVAL;
    1910             :         }
    1911             : 
    1912             :         /* Check seed value for guard computation */
    1913           0 :         if (ctx->guard_seed != 0) {
    1914           0 :                 SPDK_ERRLOG("Seed value for guard computation must be set to 0.");
    1915           0 :                 return -EINVAL;
    1916             :         }
    1917             : 
    1918             :         /* Check for supported metadata sizes */
    1919           0 :         if (ctx->md_size != METADATA_SIZE_8)  {
    1920           0 :                 SPDK_ERRLOG("Metadata size %d is not supported.\n", ctx->md_size);
    1921           0 :                 return -EINVAL;
    1922             :         }
    1923             : 
    1924             :         /* Check for supported DIF PI formats */
    1925           0 :         if (ctx->dif_pi_format != SPDK_DIF_PI_FORMAT_16) {
    1926           0 :                 SPDK_ERRLOG("DIF PI format %d is not supported.\n", ctx->dif_pi_format);
    1927           0 :                 return -EINVAL;
    1928             :         }
    1929             : 
    1930             :         /* Check for supported DIF block sizes */
    1931           0 :         if (ctx->block_size != DATA_BLOCK_SIZE_512 &&
    1932           0 :             ctx->block_size != DATA_BLOCK_SIZE_4096) {
    1933           0 :                 SPDK_ERRLOG("DIF block size %d is not supported.\n", ctx->block_size);
    1934           0 :                 return -EINVAL;
    1935             :         }
    1936             : 
    1937           0 :         return 0;
    1938           0 : }
    1939             : 
    1940             : int
    1941           0 : spdk_idxd_submit_dix_generate(struct spdk_idxd_io_channel *chan, struct iovec *siov,
    1942             :                               size_t siovcnt, struct iovec *mdiov, uint32_t num_blocks,
    1943             :                               const struct spdk_dif_ctx *ctx, int flags,
    1944             :                               spdk_idxd_req_cb cb_fn, void *cb_arg)
    1945             : {
    1946             :         struct idxd_hw_desc *desc;
    1947           0 :         struct idxd_ops *first_op = NULL, *op = NULL;
    1948             :         uint64_t src_seg_addr, src_seg_len;
    1949             :         uint64_t md_seg_addr, md_seg_len;
    1950           0 :         uint32_t num_blocks_done = 0;
    1951           0 :         uint8_t dif_flags = 0;
    1952           0 :         uint16_t app_tag_mask = 0;
    1953           0 :         int rc, count = 0;
    1954             :         size_t i;
    1955             : 
    1956           0 :         rc = idxd_validate_dix_generate_params(ctx);
    1957           0 :         if (rc) {
    1958           0 :                 return rc;
    1959             :         }
    1960             : 
    1961           0 :         rc = idxd_get_dix_flags(ctx, &dif_flags);
    1962           0 :         if (rc) {
    1963           0 :                 return rc;
    1964             :         }
    1965             : 
    1966           0 :         rc = idxd_get_app_tag_mask(ctx, &app_tag_mask);
    1967           0 :         if (rc) {
    1968           0 :                 return rc;
    1969             :         }
    1970             : 
    1971           0 :         rc = _idxd_setup_batch(chan);
    1972           0 :         if (rc) {
    1973           0 :                 return rc;
    1974             :         }
    1975             : 
    1976           0 :         md_seg_len = mdiov->iov_len;
    1977           0 :         md_seg_addr = (uint64_t)mdiov->iov_base;
    1978             : 
    1979           0 :         if (md_seg_len % ctx->md_size != 0) {
    1980           0 :                 SPDK_ERRLOG("The metadata buffer length (%ld) is not a multiple of metadata size.\n",
    1981             :                             md_seg_len);
    1982           0 :                 return -EINVAL;
    1983             :         }
    1984             : 
    1985           0 :         for (i = 0; i < siovcnt; i++) {
    1986           0 :                 src_seg_addr = (uint64_t)siov[i].iov_base;
    1987           0 :                 src_seg_len = siov[i].iov_len;
    1988             : 
    1989           0 :                 if (src_seg_len % ctx->block_size != 0) {
    1990           0 :                         SPDK_ERRLOG("The source buffer length (%ld) is not a multiple of block size (%d).\n",
    1991             :                                     src_seg_len, ctx->block_size);
    1992           0 :                         goto error;
    1993             :                 }
    1994             : 
    1995           0 :                 if (first_op == NULL) {
    1996           0 :                         rc = _idxd_prep_batch_cmd(chan, cb_fn, cb_arg, flags, &desc, &op);
    1997           0 :                         if (rc) {
    1998           0 :                                 goto error;
    1999             :                         }
    2000             : 
    2001           0 :                         first_op = op;
    2002           0 :                 } else {
    2003           0 :                         rc = _idxd_prep_batch_cmd(chan, NULL, NULL, flags, &desc, &op);
    2004           0 :                         if (rc) {
    2005           0 :                                 goto error;
    2006             :                         }
    2007             : 
    2008           0 :                         first_op->count++;
    2009           0 :                         op->parent = first_op;
    2010             :                 }
    2011             : 
    2012           0 :                 count++;
    2013             : 
    2014           0 :                 desc->opcode = IDXD_OPCODE_DIX_GEN;
    2015           0 :                 desc->src_addr = src_seg_addr;
    2016           0 :                 desc->dst_addr = md_seg_addr;
    2017           0 :                 desc->xfer_size = src_seg_len;
    2018           0 :                 desc->dix_gen.flags = dif_flags;
    2019           0 :                 desc->dix_gen.app_tag_seed = ctx->app_tag;
    2020           0 :                 desc->dix_gen.app_tag_mask = ~ctx->apptag_mask;
    2021           0 :                 desc->dix_gen.ref_tag_seed = (uint32_t)ctx->init_ref_tag + num_blocks_done;
    2022             : 
    2023           0 :                 num_blocks_done += src_seg_len / ctx->block_size;
    2024             : 
    2025           0 :                 md_seg_addr = (uint64_t)mdiov->iov_base + (num_blocks_done * ctx->md_size);
    2026           0 :         }
    2027             : 
    2028           0 :         return _idxd_flush_batch(chan);
    2029             : 
    2030             : error:
    2031           0 :         chan->batch->index -= count;
    2032           0 :         return rc;
    2033           0 : }
    2034             : 
    2035             : int
    2036           0 : spdk_idxd_submit_raw_desc(struct spdk_idxd_io_channel *chan,
    2037             :                           struct idxd_hw_desc *_desc,
    2038             :                           spdk_idxd_req_cb cb_fn, void *cb_arg)
    2039             : {
    2040             :         struct idxd_hw_desc *desc;
    2041             :         struct idxd_ops *op;
    2042           0 :         int rc, flags = 0;
    2043             :         uint64_t comp_addr;
    2044             : 
    2045           0 :         assert(chan != NULL);
    2046           0 :         assert(_desc != NULL);
    2047             : 
    2048             :         /* Common prep. */
    2049           0 :         rc = _idxd_prep_command(chan, cb_fn, cb_arg, flags, &desc, &op);
    2050           0 :         if (rc) {
    2051           0 :                 return rc;
    2052             :         }
    2053             : 
    2054             :         /* Command specific. */
    2055           0 :         flags = desc->flags;
    2056           0 :         comp_addr = desc->completion_addr;
    2057           0 :         memcpy(desc, _desc, sizeof(*desc));
    2058           0 :         desc->flags |= flags;
    2059           0 :         desc->completion_addr = comp_addr;
    2060             : 
    2061             :         /* Submit operation. */
    2062           0 :         _submit_to_hw(chan, op);
    2063             : 
    2064           0 :         return 0;
    2065           0 : }
    2066             : 
    2067             : static inline void
    2068           0 : _dump_sw_error_reg(struct spdk_idxd_io_channel *chan)
    2069             : {
    2070           0 :         struct spdk_idxd_device *idxd = chan->idxd;
    2071             : 
    2072           0 :         assert(idxd != NULL);
    2073           0 :         idxd->impl->dump_sw_error(idxd, chan->portal);
    2074           0 : }
    2075             : 
    2076             : /* TODO: more performance experiments. */
    2077             : #define IDXD_COMPLETION(x) ((x) > (0) ? (1) : (0))
    2078             : #define IDXD_FAILURE(x) ((x) > (1) ? (1) : (0))
    2079             : #define IDXD_SW_ERROR(x) ((x) &= (0x1) ? (1) : (0))
    2080             : int
    2081           0 : spdk_idxd_process_events(struct spdk_idxd_io_channel *chan)
    2082             : {
    2083             :         struct idxd_ops *op, *tmp, *parent_op;
    2084           0 :         int status = 0;
    2085           0 :         int rc2, rc = 0;
    2086             :         void *cb_arg;
    2087             :         spdk_idxd_req_cb cb_fn;
    2088             : 
    2089           0 :         assert(chan != NULL);
    2090             : 
    2091           0 :         STAILQ_FOREACH_SAFE(op, &chan->ops_outstanding, link, tmp) {
    2092           0 :                 if (!IDXD_COMPLETION(op->hw.status)) {
    2093             :                         /*
    2094             :                          * oldest locations are at the head of the list so if
    2095             :                          * we've polled a location that hasn't completed, bail
    2096             :                          * now as there are unlikely to be any more completions.
    2097             :                          */
    2098           0 :                         break;
    2099             :                 }
    2100             : 
    2101           0 :                 STAILQ_REMOVE_HEAD(&chan->ops_outstanding, link);
    2102           0 :                 rc++;
    2103             : 
    2104             :                 /* Status is in the same location for both IAA and DSA completion records. */
    2105           0 :                 if (spdk_unlikely(IDXD_FAILURE(op->hw.status))) {
    2106           0 :                         SPDK_ERRLOG("Completion status 0x%x\n", op->hw.status);
    2107           0 :                         status = -EINVAL;
    2108           0 :                         _dump_sw_error_reg(chan);
    2109           0 :                 }
    2110             : 
    2111           0 :                 switch (op->desc->opcode) {
    2112             :                 case IDXD_OPCODE_BATCH:
    2113           0 :                         SPDK_DEBUGLOG(idxd, "Complete batch %p\n", op->batch);
    2114           0 :                         break;
    2115             :                 case IDXD_OPCODE_CRC32C_GEN:
    2116             :                 case IDXD_OPCODE_COPY_CRC:
    2117           0 :                         if (spdk_likely(status == 0 && op->crc_dst != NULL)) {
    2118           0 :                                 *op->crc_dst = op->hw.crc32c_val;
    2119           0 :                                 *op->crc_dst ^= ~0;
    2120           0 :                         }
    2121           0 :                         break;
    2122             :                 case IDXD_OPCODE_COMPARE:
    2123           0 :                         if (spdk_likely(status == 0)) {
    2124           0 :                                 status = op->hw.result;
    2125           0 :                         }
    2126           0 :                         break;
    2127             :                 case IDXD_OPCODE_COMPRESS:
    2128           0 :                         if (spdk_likely(status == 0 && op->output_size != NULL)) {
    2129           0 :                                 *op->output_size = op->iaa_hw.output_size;
    2130           0 :                         }
    2131           0 :                         break;
    2132             :                 case IDXD_OPCODE_DIF_CHECK:
    2133             :                 case IDXD_OPCODE_DIF_STRP:
    2134           0 :                         if (spdk_unlikely(op->hw.status == IDXD_DSA_STATUS_DIF_ERROR)) {
    2135           0 :                                 status = -EIO;
    2136           0 :                         }
    2137           0 :                         break;
    2138             :                 }
    2139             : 
    2140             :                 /* TODO: WHAT IF THIS FAILED!? */
    2141           0 :                 op->hw.status = 0;
    2142             : 
    2143           0 :                 assert(op->count > 0);
    2144           0 :                 op->count--;
    2145             : 
    2146           0 :                 parent_op = op->parent;
    2147           0 :                 if (parent_op != NULL) {
    2148           0 :                         assert(parent_op->count > 0);
    2149           0 :                         parent_op->count--;
    2150             : 
    2151           0 :                         if (parent_op->count == 0) {
    2152           0 :                                 cb_fn = parent_op->cb_fn;
    2153           0 :                                 cb_arg = parent_op->cb_arg;
    2154             : 
    2155           0 :                                 assert(parent_op->batch != NULL);
    2156             : 
    2157             :                                 /*
    2158             :                                  * Now that parent_op count is 0, we can release its ref
    2159             :                                  * to its batch. We have not released the ref to the batch
    2160             :                                  * that the op is pointing to yet, which will be done below.
    2161             :                                  */
    2162           0 :                                 parent_op->batch->refcnt--;
    2163           0 :                                 if (parent_op->batch->refcnt == 0) {
    2164           0 :                                         _free_batch(parent_op->batch, chan);
    2165           0 :                                 }
    2166             : 
    2167           0 :                                 if (cb_fn) {
    2168           0 :                                         cb_fn(cb_arg, status);
    2169           0 :                                 }
    2170           0 :                         }
    2171           0 :                 }
    2172             : 
    2173           0 :                 if (op->count == 0) {
    2174           0 :                         cb_fn = op->cb_fn;
    2175           0 :                         cb_arg = op->cb_arg;
    2176             : 
    2177           0 :                         if (op->batch != NULL) {
    2178           0 :                                 assert(op->batch->refcnt > 0);
    2179           0 :                                 op->batch->refcnt--;
    2180             : 
    2181           0 :                                 if (op->batch->refcnt == 0) {
    2182           0 :                                         _free_batch(op->batch, chan);
    2183           0 :                                 }
    2184           0 :                         } else {
    2185           0 :                                 STAILQ_INSERT_HEAD(&chan->ops_pool, op, link);
    2186             :                         }
    2187             : 
    2188           0 :                         if (cb_fn) {
    2189           0 :                                 cb_fn(cb_arg, status);
    2190           0 :                         }
    2191           0 :                 }
    2192             : 
    2193             :                 /* reset the status */
    2194           0 :                 status = 0;
    2195             :                 /* break the processing loop to prevent from starving the rest of the system */
    2196           0 :                 if (rc > IDXD_MAX_COMPLETIONS) {
    2197           0 :                         break;
    2198             :                 }
    2199           0 :         }
    2200             : 
    2201             :         /* Submit any built-up batch */
    2202           0 :         if (chan->batch) {
    2203           0 :                 rc2 = idxd_batch_submit(chan, NULL, NULL);
    2204           0 :                 if (rc2) {
    2205           0 :                         assert(rc2 == -EBUSY);
    2206           0 :                 }
    2207           0 :         }
    2208             : 
    2209           0 :         return rc;
    2210             : }
    2211             : 
    2212             : void
    2213           0 : idxd_impl_register(struct spdk_idxd_impl *impl)
    2214             : {
    2215           0 :         STAILQ_INSERT_HEAD(&g_idxd_impls, impl, link);
    2216           0 : }
    2217             : 
    2218           0 : SPDK_LOG_REGISTER_COMPONENT(idxd)

Generated by: LCOV version 1.15