LCOV - code coverage report
Current view: top level - lib/accel - accel.c (source / functions) Hit Total Coverage
Test: ut_cov_unit.info Lines: 1201 1926 62.4 %
Date: 2024-12-07 05:18:09 Functions: 86 128 67.2 %

          Line data    Source code
       1             : /*   SPDX-License-Identifier: BSD-3-Clause
       2             :  *   Copyright (C) 2020 Intel Corporation.
       3             :  *   Copyright (c) 2022, 2023 NVIDIA CORPORATION & AFFILIATES.
       4             :  *   All rights reserved.
       5             :  */
       6             : 
       7             : #include "spdk/stdinc.h"
       8             : 
       9             : #include "spdk/accel_module.h"
      10             : 
      11             : #include "accel_internal.h"
      12             : 
      13             : #include "spdk/dma.h"
      14             : #include "spdk/env.h"
      15             : #include "spdk/likely.h"
      16             : #include "spdk/log.h"
      17             : #include "spdk/thread.h"
      18             : #include "spdk/json.h"
      19             : #include "spdk/crc32.h"
      20             : #include "spdk/util.h"
      21             : #include "spdk/hexlify.h"
      22             : #include "spdk/string.h"
      23             : 
      24             : /* Accelerator Framework: The following provides a top level
      25             :  * generic API for the accelerator functions defined here. Modules,
      26             :  * such as the one in /module/accel/ioat, supply the implementation
      27             :  * with the exception of the pure software implementation contained
      28             :  * later in this file.
      29             :  */
      30             : 
      31             : #define ALIGN_4K                        0x1000
      32             : #define ACCEL_TASKS_PER_CHANNEL         2048
      33             : #define ACCEL_SMALL_CACHE_SIZE          128
      34             : #define ACCEL_LARGE_CACHE_SIZE          16
      35             : /* Set MSB, so we don't return NULL pointers as buffers */
      36             : #define ACCEL_BUFFER_BASE               ((void *)(1ull << 63))
      37             : #define ACCEL_BUFFER_OFFSET_MASK        ((uintptr_t)ACCEL_BUFFER_BASE - 1)
      38             : 
      39             : #define ACCEL_CRYPTO_TWEAK_MODE_DEFAULT SPDK_ACCEL_CRYPTO_TWEAK_MODE_SIMPLE_LBA
      40             : #define ACCEL_TASKS_IN_SEQUENCE_LIMIT   8
      41             : 
      42             : struct accel_module {
      43             :         struct spdk_accel_module_if     *module;
      44             :         bool                            supports_memory_domains;
      45             : };
      46             : 
      47             : /* Largest context size for all accel modules */
      48             : static size_t g_max_accel_module_size = sizeof(struct spdk_accel_task);
      49             : 
      50             : static struct spdk_accel_module_if *g_accel_module = NULL;
      51             : static spdk_accel_fini_cb g_fini_cb_fn = NULL;
      52             : static void *g_fini_cb_arg = NULL;
      53             : static bool g_modules_started = false;
      54             : static struct spdk_memory_domain *g_accel_domain;
      55             : 
      56             : /* Global list of registered accelerator modules */
      57             : static TAILQ_HEAD(, spdk_accel_module_if) spdk_accel_module_list =
      58             :         TAILQ_HEAD_INITIALIZER(spdk_accel_module_list);
      59             : 
      60             : /* Crypto keyring */
      61             : static TAILQ_HEAD(, spdk_accel_crypto_key) g_keyring = TAILQ_HEAD_INITIALIZER(g_keyring);
      62             : static struct spdk_spinlock g_keyring_spin;
      63             : 
      64             : /* Global array mapping capabilities to modules */
      65             : static struct accel_module g_modules_opc[SPDK_ACCEL_OPC_LAST] = {};
      66             : static char *g_modules_opc_override[SPDK_ACCEL_OPC_LAST] = {};
      67             : TAILQ_HEAD(, spdk_accel_driver) g_accel_drivers = TAILQ_HEAD_INITIALIZER(g_accel_drivers);
      68             : static struct spdk_accel_driver *g_accel_driver;
      69             : static struct spdk_accel_opts g_opts = {
      70             :         .small_cache_size = ACCEL_SMALL_CACHE_SIZE,
      71             :         .large_cache_size = ACCEL_LARGE_CACHE_SIZE,
      72             :         .task_count = ACCEL_TASKS_PER_CHANNEL,
      73             :         .sequence_count = ACCEL_TASKS_PER_CHANNEL,
      74             :         .buf_count = ACCEL_TASKS_PER_CHANNEL,
      75             : };
      76             : static struct accel_stats g_stats;
      77             : static struct spdk_spinlock g_stats_lock;
      78             : 
      79             : static const char *g_opcode_strings[SPDK_ACCEL_OPC_LAST] = {
      80             :         "copy", "fill", "dualcast", "compare", "crc32c", "copy_crc32c",
      81             :         "compress", "decompress", "encrypt", "decrypt", "xor",
      82             :         "dif_verify", "dif_verify_copy", "dif_generate", "dif_generate_copy",
      83             :         "dix_generate", "dix_verify"
      84             : };
      85             : 
      86             : enum accel_sequence_state {
      87             :         ACCEL_SEQUENCE_STATE_INIT,
      88             :         ACCEL_SEQUENCE_STATE_CHECK_VIRTBUF,
      89             :         ACCEL_SEQUENCE_STATE_AWAIT_VIRTBUF,
      90             :         ACCEL_SEQUENCE_STATE_CHECK_BOUNCEBUF,
      91             :         ACCEL_SEQUENCE_STATE_AWAIT_BOUNCEBUF,
      92             :         ACCEL_SEQUENCE_STATE_PULL_DATA,
      93             :         ACCEL_SEQUENCE_STATE_AWAIT_PULL_DATA,
      94             :         ACCEL_SEQUENCE_STATE_EXEC_TASK,
      95             :         ACCEL_SEQUENCE_STATE_AWAIT_TASK,
      96             :         ACCEL_SEQUENCE_STATE_COMPLETE_TASK,
      97             :         ACCEL_SEQUENCE_STATE_NEXT_TASK,
      98             :         ACCEL_SEQUENCE_STATE_PUSH_DATA,
      99             :         ACCEL_SEQUENCE_STATE_AWAIT_PUSH_DATA,
     100             :         ACCEL_SEQUENCE_STATE_DRIVER_EXEC_TASKS,
     101             :         ACCEL_SEQUENCE_STATE_DRIVER_AWAIT_TASKS,
     102             :         ACCEL_SEQUENCE_STATE_DRIVER_COMPLETE_TASKS,
     103             :         ACCEL_SEQUENCE_STATE_ERROR,
     104             :         ACCEL_SEQUENCE_STATE_MAX,
     105             : };
     106             : 
     107             : static const char *g_seq_states[]
     108             : __attribute__((unused)) = {
     109             :         [ACCEL_SEQUENCE_STATE_INIT] = "init",
     110             :         [ACCEL_SEQUENCE_STATE_CHECK_VIRTBUF] = "check-virtbuf",
     111             :         [ACCEL_SEQUENCE_STATE_AWAIT_VIRTBUF] = "await-virtbuf",
     112             :         [ACCEL_SEQUENCE_STATE_CHECK_BOUNCEBUF] = "check-bouncebuf",
     113             :         [ACCEL_SEQUENCE_STATE_AWAIT_BOUNCEBUF] = "await-bouncebuf",
     114             :         [ACCEL_SEQUENCE_STATE_PULL_DATA] = "pull-data",
     115             :         [ACCEL_SEQUENCE_STATE_AWAIT_PULL_DATA] = "await-pull-data",
     116             :         [ACCEL_SEQUENCE_STATE_EXEC_TASK] = "exec-task",
     117             :         [ACCEL_SEQUENCE_STATE_AWAIT_TASK] = "await-task",
     118             :         [ACCEL_SEQUENCE_STATE_COMPLETE_TASK] = "complete-task",
     119             :         [ACCEL_SEQUENCE_STATE_NEXT_TASK] = "next-task",
     120             :         [ACCEL_SEQUENCE_STATE_PUSH_DATA] = "push-data",
     121             :         [ACCEL_SEQUENCE_STATE_AWAIT_PUSH_DATA] = "await-push-data",
     122             :         [ACCEL_SEQUENCE_STATE_DRIVER_EXEC_TASKS] = "driver-exec-tasks",
     123             :         [ACCEL_SEQUENCE_STATE_DRIVER_AWAIT_TASKS] = "driver-await-tasks",
     124             :         [ACCEL_SEQUENCE_STATE_DRIVER_COMPLETE_TASKS] = "driver-complete-tasks",
     125             :         [ACCEL_SEQUENCE_STATE_ERROR] = "error",
     126             :         [ACCEL_SEQUENCE_STATE_MAX] = "",
     127             : };
     128             : 
     129             : #define ACCEL_SEQUENCE_STATE_STRING(s) \
     130             :         (((s) >= ACCEL_SEQUENCE_STATE_INIT && (s) < ACCEL_SEQUENCE_STATE_MAX) \
     131             :          ? g_seq_states[s] : "unknown")
     132             : 
     133             : struct accel_buffer {
     134             :         struct spdk_accel_sequence      *seq;
     135             :         void                            *buf;
     136             :         uint64_t                        len;
     137             :         struct spdk_iobuf_entry         iobuf;
     138             :         spdk_accel_sequence_get_buf_cb  cb_fn;
     139             :         void                            *cb_ctx;
     140             :         SLIST_ENTRY(accel_buffer)       link;
     141             :         struct accel_io_channel         *ch;
     142             : };
     143             : 
     144             : struct accel_io_channel {
     145             :         struct spdk_io_channel                  *module_ch[SPDK_ACCEL_OPC_LAST];
     146             :         struct spdk_io_channel                  *driver_channel;
     147             :         void                                    *task_pool_base;
     148             :         struct spdk_accel_sequence              *seq_pool_base;
     149             :         struct accel_buffer                     *buf_pool_base;
     150             :         struct spdk_accel_task_aux_data         *task_aux_data_base;
     151             :         STAILQ_HEAD(, spdk_accel_task)          task_pool;
     152             :         SLIST_HEAD(, spdk_accel_task_aux_data)  task_aux_data_pool;
     153             :         SLIST_HEAD(, spdk_accel_sequence)       seq_pool;
     154             :         SLIST_HEAD(, accel_buffer)              buf_pool;
     155             :         struct spdk_iobuf_channel               iobuf;
     156             :         struct accel_stats                      stats;
     157             : };
     158             : 
     159             : TAILQ_HEAD(accel_sequence_tasks, spdk_accel_task);
     160             : 
     161             : struct spdk_accel_sequence {
     162             :         struct accel_io_channel                 *ch;
     163             :         struct accel_sequence_tasks             tasks;
     164             :         SLIST_HEAD(, accel_buffer)              bounce_bufs;
     165             :         int                                     status;
     166             :         /* state uses enum accel_sequence_state */
     167             :         uint8_t                                 state;
     168             :         bool                                    in_process_sequence;
     169             :         spdk_accel_completion_cb                cb_fn;
     170             :         void                                    *cb_arg;
     171             :         SLIST_ENTRY(spdk_accel_sequence)        link;
     172             : };
     173             : SPDK_STATIC_ASSERT(sizeof(struct spdk_accel_sequence) == 64, "invalid size");
     174             : 
     175             : #define accel_update_stats(ch, event, v) \
     176             :         do { \
     177             :                 (ch)->stats.event += (v); \
     178             :         } while (0)
     179             : 
     180             : #define accel_update_task_stats(ch, task, event, v) \
     181             :         accel_update_stats(ch, operations[(task)->op_code].event, v)
     182             : 
     183             : static inline void accel_sequence_task_cb(struct spdk_accel_sequence *seq,
     184             :                 struct spdk_accel_task *task, int status);
     185             : 
     186             : static inline void
     187         888 : accel_sequence_set_state(struct spdk_accel_sequence *seq, enum accel_sequence_state state)
     188             : {
     189         888 :         SPDK_DEBUGLOG(accel, "seq=%p, setting state: %s -> %s\n", seq,
     190             :                       ACCEL_SEQUENCE_STATE_STRING(seq->state), ACCEL_SEQUENCE_STATE_STRING(state));
     191         888 :         assert(seq->state != ACCEL_SEQUENCE_STATE_ERROR || state == ACCEL_SEQUENCE_STATE_ERROR);
     192         888 :         seq->state = state;
     193         888 : }
     194             : 
     195             : static void
     196           9 : accel_sequence_set_fail(struct spdk_accel_sequence *seq, int status)
     197             : {
     198           9 :         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_ERROR);
     199           9 :         assert(status != 0);
     200           9 :         seq->status = status;
     201           9 : }
     202             : 
     203             : int
     204          17 : spdk_accel_get_opc_module_name(enum spdk_accel_opcode opcode, const char **module_name)
     205             : {
     206          17 :         if (opcode >= SPDK_ACCEL_OPC_LAST) {
     207             :                 /* invalid opcode */
     208           0 :                 return -EINVAL;
     209             :         }
     210             : 
     211          17 :         if (g_modules_opc[opcode].module) {
     212          17 :                 *module_name = g_modules_opc[opcode].module->name;
     213             :         } else {
     214           0 :                 return -ENOENT;
     215             :         }
     216             : 
     217          17 :         return 0;
     218             : }
     219             : 
     220             : void
     221           0 : _accel_for_each_module(struct module_info *info, _accel_for_each_module_fn fn)
     222             : {
     223             :         struct spdk_accel_module_if *accel_module;
     224             :         enum spdk_accel_opcode opcode;
     225           0 :         int j = 0;
     226             : 
     227           0 :         TAILQ_FOREACH(accel_module, &spdk_accel_module_list, tailq) {
     228           0 :                 for (opcode = 0; opcode < SPDK_ACCEL_OPC_LAST; opcode++) {
     229           0 :                         if (accel_module->supports_opcode(opcode)) {
     230           0 :                                 info->ops[j] = opcode;
     231           0 :                                 j++;
     232             :                         }
     233             :                 }
     234           0 :                 info->name = accel_module->name;
     235           0 :                 info->num_ops = j;
     236           0 :                 fn(info);
     237           0 :                 j = 0;
     238             :         }
     239           0 : }
     240             : 
     241             : const char *
     242           0 : spdk_accel_get_opcode_name(enum spdk_accel_opcode opcode)
     243             : {
     244           0 :         if (opcode < SPDK_ACCEL_OPC_LAST) {
     245           0 :                 return g_opcode_strings[opcode];
     246             :         }
     247             : 
     248           0 :         return NULL;
     249             : }
     250             : 
     251             : int
     252           0 : spdk_accel_assign_opc(enum spdk_accel_opcode opcode, const char *name)
     253             : {
     254             :         char *copy;
     255             : 
     256           0 :         if (g_modules_started == true) {
     257             :                 /* we don't allow re-assignment once things have started */
     258           0 :                 return -EINVAL;
     259             :         }
     260             : 
     261           0 :         if (opcode >= SPDK_ACCEL_OPC_LAST) {
     262             :                 /* invalid opcode */
     263           0 :                 return -EINVAL;
     264             :         }
     265             : 
     266           0 :         copy = strdup(name);
     267           0 :         if (copy == NULL) {
     268           0 :                 return -ENOMEM;
     269             :         }
     270             : 
     271             :         /* module selection will be validated after the framework starts. */
     272           0 :         free(g_modules_opc_override[opcode]);
     273           0 :         g_modules_opc_override[opcode] = copy;
     274             : 
     275           0 :         return 0;
     276             : }
     277             : 
     278             : inline static struct spdk_accel_task *
     279         191 : _get_task(struct accel_io_channel *accel_ch, spdk_accel_completion_cb cb_fn, void *cb_arg)
     280             : {
     281             :         struct spdk_accel_task *accel_task;
     282             : 
     283         191 :         accel_task = STAILQ_FIRST(&accel_ch->task_pool);
     284         191 :         if (spdk_unlikely(accel_task == NULL)) {
     285          11 :                 accel_update_stats(accel_ch, retry.task, 1);
     286          11 :                 return NULL;
     287             :         }
     288             : 
     289         180 :         accel_update_stats(accel_ch, task_outstanding, 1);
     290         180 :         STAILQ_REMOVE_HEAD(&accel_ch->task_pool, link);
     291         180 :         accel_task->link.stqe_next = NULL;
     292             : 
     293         180 :         accel_task->cb_fn = cb_fn;
     294         180 :         accel_task->cb_arg = cb_arg;
     295         180 :         accel_task->accel_ch = accel_ch;
     296         180 :         accel_task->s.iovs = NULL;
     297         180 :         accel_task->d.iovs = NULL;
     298             : 
     299         180 :         return accel_task;
     300             : }
     301             : 
     302             : static void
     303         172 : _put_task(struct accel_io_channel *ch, struct spdk_accel_task *task)
     304             : {
     305         172 :         STAILQ_INSERT_HEAD(&ch->task_pool, task, link);
     306         172 :         accel_update_stats(ch, task_outstanding, -1);
     307         172 : }
     308             : 
     309             : void
     310         122 : spdk_accel_task_complete(struct spdk_accel_task *accel_task, int status)
     311             : {
     312         122 :         struct accel_io_channel         *accel_ch = accel_task->accel_ch;
     313             :         spdk_accel_completion_cb        cb_fn;
     314             :         void                            *cb_arg;
     315             : 
     316         122 :         accel_update_task_stats(accel_ch, accel_task, executed, 1);
     317         122 :         accel_update_task_stats(accel_ch, accel_task, num_bytes, accel_task->nbytes);
     318         122 :         if (spdk_unlikely(status != 0)) {
     319           3 :                 accel_update_task_stats(accel_ch, accel_task, failed, 1);
     320             :         }
     321             : 
     322         122 :         if (accel_task->seq) {
     323         118 :                 accel_sequence_task_cb(accel_task->seq, accel_task, status);
     324         118 :                 return;
     325             :         }
     326             : 
     327           4 :         cb_fn = accel_task->cb_fn;
     328           4 :         cb_arg = accel_task->cb_arg;
     329             : 
     330           4 :         if (accel_task->has_aux) {
     331           2 :                 SLIST_INSERT_HEAD(&accel_ch->task_aux_data_pool, accel_task->aux, link);
     332           2 :                 accel_task->aux = NULL;
     333           2 :                 accel_task->has_aux = false;
     334             :         }
     335             : 
     336             :         /* We should put the accel_task into the list firstly in order to avoid
     337             :          * the accel task list is exhausted when there is recursive call to
     338             :          * allocate accel_task in user's call back function (cb_fn)
     339             :          */
     340           4 :         _put_task(accel_ch, accel_task);
     341             : 
     342           4 :         cb_fn(cb_arg, status);
     343             : }
     344             : 
     345             : static inline int
     346         119 : accel_submit_task(struct accel_io_channel *accel_ch, struct spdk_accel_task *task)
     347             : {
     348         119 :         struct spdk_io_channel *module_ch = accel_ch->module_ch[task->op_code];
     349         119 :         struct spdk_accel_module_if *module = g_modules_opc[task->op_code].module;
     350             :         int rc;
     351             : 
     352         119 :         rc = module->submit_tasks(module_ch, task);
     353         119 :         if (spdk_unlikely(rc != 0)) {
     354           2 :                 accel_update_task_stats(accel_ch, task, failed, 1);
     355             :         }
     356             : 
     357         119 :         return rc;
     358             : }
     359             : 
     360             : static inline uint64_t
     361         141 : accel_get_iovlen(struct iovec *iovs, uint32_t iovcnt)
     362             : {
     363         141 :         uint64_t result = 0;
     364             :         uint32_t i;
     365             : 
     366         313 :         for (i = 0; i < iovcnt; ++i) {
     367         172 :                 result += iovs[i].iov_len;
     368             :         }
     369             : 
     370         141 :         return result;
     371             : }
     372             : 
     373             : #define ACCEL_TASK_ALLOC_AUX_BUF(task)                                          \
     374             : do {                                                                            \
     375             :         (task)->aux = SLIST_FIRST(&(task)->accel_ch->task_aux_data_pool);  \
     376             :         if (spdk_unlikely(!(task)->aux)) {                                   \
     377             :                 SPDK_ERRLOG("Fatal problem, aux data was not allocated\n");   \
     378             :                 _put_task(task->accel_ch, task);                             \
     379             :                 assert(0);                                                      \
     380             :                 return -ENOMEM;                                                 \
     381             :         }                                                                       \
     382             :         SLIST_REMOVE_HEAD(&(task)->accel_ch->task_aux_data_pool, link);               \
     383             :         (task)->has_aux = true;                                                      \
     384             : } while (0)
     385             : 
     386             : /* Accel framework public API for copy function */
     387             : int
     388           2 : spdk_accel_submit_copy(struct spdk_io_channel *ch, void *dst, void *src,
     389             :                        uint64_t nbytes, spdk_accel_completion_cb cb_fn, void *cb_arg)
     390             : {
     391           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     392             :         struct spdk_accel_task *accel_task;
     393             : 
     394           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     395           2 :         if (spdk_unlikely(accel_task == NULL)) {
     396           1 :                 return -ENOMEM;
     397             :         }
     398             : 
     399           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     400             : 
     401           1 :         accel_task->s.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_SRC];
     402           1 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     403           1 :         accel_task->d.iovs[0].iov_base = dst;
     404           1 :         accel_task->d.iovs[0].iov_len = nbytes;
     405           1 :         accel_task->d.iovcnt = 1;
     406           1 :         accel_task->s.iovs[0].iov_base = src;
     407           1 :         accel_task->s.iovs[0].iov_len = nbytes;
     408           1 :         accel_task->s.iovcnt = 1;
     409           1 :         accel_task->nbytes = nbytes;
     410           1 :         accel_task->op_code = SPDK_ACCEL_OPC_COPY;
     411           1 :         accel_task->src_domain = NULL;
     412           1 :         accel_task->dst_domain = NULL;
     413             : 
     414           1 :         return accel_submit_task(accel_ch, accel_task);
     415             : }
     416             : 
     417             : /* Accel framework public API for dual cast copy function */
     418             : int
     419           4 : spdk_accel_submit_dualcast(struct spdk_io_channel *ch, void *dst1,
     420             :                            void *dst2, void *src, uint64_t nbytes,
     421             :                            spdk_accel_completion_cb cb_fn, void *cb_arg)
     422             : {
     423           4 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     424             :         struct spdk_accel_task *accel_task;
     425             : 
     426           4 :         if ((uintptr_t)dst1 & (ALIGN_4K - 1) || (uintptr_t)dst2 & (ALIGN_4K - 1)) {
     427           2 :                 SPDK_ERRLOG("Dualcast requires 4K alignment on dst addresses\n");
     428           2 :                 return -EINVAL;
     429             :         }
     430             : 
     431           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     432           2 :         if (spdk_unlikely(accel_task == NULL)) {
     433           1 :                 return -ENOMEM;
     434             :         }
     435             : 
     436           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     437             : 
     438           1 :         accel_task->s.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_SRC];
     439           1 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     440           1 :         accel_task->d2.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST2];
     441           1 :         accel_task->d.iovs[0].iov_base = dst1;
     442           1 :         accel_task->d.iovs[0].iov_len = nbytes;
     443           1 :         accel_task->d.iovcnt = 1;
     444           1 :         accel_task->d2.iovs[0].iov_base = dst2;
     445           1 :         accel_task->d2.iovs[0].iov_len = nbytes;
     446           1 :         accel_task->d2.iovcnt = 1;
     447           1 :         accel_task->s.iovs[0].iov_base = src;
     448           1 :         accel_task->s.iovs[0].iov_len = nbytes;
     449           1 :         accel_task->s.iovcnt = 1;
     450           1 :         accel_task->nbytes = nbytes;
     451           1 :         accel_task->op_code = SPDK_ACCEL_OPC_DUALCAST;
     452           1 :         accel_task->src_domain = NULL;
     453           1 :         accel_task->dst_domain = NULL;
     454             : 
     455           1 :         return accel_submit_task(accel_ch, accel_task);
     456             : }
     457             : 
     458             : /* Accel framework public API for compare function */
     459             : 
     460             : int
     461           2 : spdk_accel_submit_compare(struct spdk_io_channel *ch, void *src1,
     462             :                           void *src2, uint64_t nbytes, spdk_accel_completion_cb cb_fn,
     463             :                           void *cb_arg)
     464             : {
     465           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     466             :         struct spdk_accel_task *accel_task;
     467             : 
     468           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     469           2 :         if (spdk_unlikely(accel_task == NULL)) {
     470           1 :                 return -ENOMEM;
     471             :         }
     472             : 
     473           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     474             : 
     475           1 :         accel_task->s.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_SRC];
     476           1 :         accel_task->s2.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_SRC2];
     477           1 :         accel_task->s.iovs[0].iov_base = src1;
     478           1 :         accel_task->s.iovs[0].iov_len = nbytes;
     479           1 :         accel_task->s.iovcnt = 1;
     480           1 :         accel_task->s2.iovs[0].iov_base = src2;
     481           1 :         accel_task->s2.iovs[0].iov_len = nbytes;
     482           1 :         accel_task->s2.iovcnt = 1;
     483           1 :         accel_task->nbytes = nbytes;
     484           1 :         accel_task->op_code = SPDK_ACCEL_OPC_COMPARE;
     485           1 :         accel_task->src_domain = NULL;
     486           1 :         accel_task->dst_domain = NULL;
     487             : 
     488           1 :         return accel_submit_task(accel_ch, accel_task);
     489             : }
     490             : 
     491             : /* Accel framework public API for fill function */
     492             : int
     493           2 : spdk_accel_submit_fill(struct spdk_io_channel *ch, void *dst,
     494             :                        uint8_t fill, uint64_t nbytes,
     495             :                        spdk_accel_completion_cb cb_fn, void *cb_arg)
     496             : {
     497           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     498             :         struct spdk_accel_task *accel_task;
     499             : 
     500           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     501           2 :         if (spdk_unlikely(accel_task == NULL)) {
     502           1 :                 return -ENOMEM;
     503             :         }
     504             : 
     505           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     506             : 
     507           1 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     508           1 :         accel_task->d.iovs[0].iov_base = dst;
     509           1 :         accel_task->d.iovs[0].iov_len = nbytes;
     510           1 :         accel_task->d.iovcnt = 1;
     511           1 :         accel_task->nbytes = nbytes;
     512           1 :         memset(&accel_task->fill_pattern, fill, sizeof(uint64_t));
     513           1 :         accel_task->op_code = SPDK_ACCEL_OPC_FILL;
     514           1 :         accel_task->src_domain = NULL;
     515           1 :         accel_task->dst_domain = NULL;
     516             : 
     517           1 :         return accel_submit_task(accel_ch, accel_task);
     518             : }
     519             : 
     520             : /* Accel framework public API for CRC-32C function */
     521             : int
     522           2 : spdk_accel_submit_crc32c(struct spdk_io_channel *ch, uint32_t *crc_dst,
     523             :                          void *src, uint32_t seed, uint64_t nbytes, spdk_accel_completion_cb cb_fn,
     524             :                          void *cb_arg)
     525             : {
     526           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     527             :         struct spdk_accel_task *accel_task;
     528             : 
     529           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     530           2 :         if (spdk_unlikely(accel_task == NULL)) {
     531           1 :                 return -ENOMEM;
     532             :         }
     533             : 
     534           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     535             : 
     536           1 :         accel_task->s.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_SRC];
     537           1 :         accel_task->s.iovs[0].iov_base = src;
     538           1 :         accel_task->s.iovs[0].iov_len = nbytes;
     539           1 :         accel_task->s.iovcnt = 1;
     540           1 :         accel_task->nbytes = nbytes;
     541           1 :         accel_task->crc_dst = crc_dst;
     542           1 :         accel_task->seed = seed;
     543           1 :         accel_task->op_code = SPDK_ACCEL_OPC_CRC32C;
     544           1 :         accel_task->src_domain = NULL;
     545           1 :         accel_task->dst_domain = NULL;
     546             : 
     547           1 :         return accel_submit_task(accel_ch, accel_task);
     548             : }
     549             : 
     550             : /* Accel framework public API for chained CRC-32C function */
     551             : int
     552           1 : spdk_accel_submit_crc32cv(struct spdk_io_channel *ch, uint32_t *crc_dst,
     553             :                           struct iovec *iov, uint32_t iov_cnt, uint32_t seed,
     554             :                           spdk_accel_completion_cb cb_fn, void *cb_arg)
     555             : {
     556           1 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     557             :         struct spdk_accel_task *accel_task;
     558             : 
     559           1 :         if (iov == NULL) {
     560           0 :                 SPDK_ERRLOG("iov should not be NULL");
     561           0 :                 return -EINVAL;
     562             :         }
     563             : 
     564           1 :         if (!iov_cnt) {
     565           0 :                 SPDK_ERRLOG("iovcnt should not be zero value\n");
     566           0 :                 return -EINVAL;
     567             :         }
     568             : 
     569           1 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     570           1 :         if (spdk_unlikely(accel_task == NULL)) {
     571           0 :                 SPDK_ERRLOG("no memory\n");
     572           0 :                 assert(0);
     573             :                 return -ENOMEM;
     574             :         }
     575             : 
     576           1 :         accel_task->s.iovs = iov;
     577           1 :         accel_task->s.iovcnt = iov_cnt;
     578           1 :         accel_task->nbytes = accel_get_iovlen(iov, iov_cnt);
     579           1 :         accel_task->crc_dst = crc_dst;
     580           1 :         accel_task->seed = seed;
     581           1 :         accel_task->op_code = SPDK_ACCEL_OPC_CRC32C;
     582           1 :         accel_task->src_domain = NULL;
     583           1 :         accel_task->dst_domain = NULL;
     584             : 
     585           1 :         return accel_submit_task(accel_ch, accel_task);
     586             : }
     587             : 
     588             : /* Accel framework public API for copy with CRC-32C function */
     589             : int
     590           2 : spdk_accel_submit_copy_crc32c(struct spdk_io_channel *ch, void *dst,
     591             :                               void *src, uint32_t *crc_dst, uint32_t seed, uint64_t nbytes,
     592             :                               spdk_accel_completion_cb cb_fn, void *cb_arg)
     593             : {
     594           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     595             :         struct spdk_accel_task *accel_task;
     596             : 
     597           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     598           2 :         if (spdk_unlikely(accel_task == NULL)) {
     599           1 :                 return -ENOMEM;
     600             :         }
     601             : 
     602           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     603             : 
     604           1 :         accel_task->s.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_SRC];
     605           1 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     606           1 :         accel_task->d.iovs[0].iov_base = dst;
     607           1 :         accel_task->d.iovs[0].iov_len = nbytes;
     608           1 :         accel_task->d.iovcnt = 1;
     609           1 :         accel_task->s.iovs[0].iov_base = src;
     610           1 :         accel_task->s.iovs[0].iov_len = nbytes;
     611           1 :         accel_task->s.iovcnt = 1;
     612           1 :         accel_task->nbytes = nbytes;
     613           1 :         accel_task->crc_dst = crc_dst;
     614           1 :         accel_task->seed = seed;
     615           1 :         accel_task->op_code = SPDK_ACCEL_OPC_COPY_CRC32C;
     616           1 :         accel_task->src_domain = NULL;
     617           1 :         accel_task->dst_domain = NULL;
     618             : 
     619           1 :         return accel_submit_task(accel_ch, accel_task);
     620             : }
     621             : 
     622             : /* Accel framework public API for chained copy + CRC-32C function */
     623             : int
     624           0 : spdk_accel_submit_copy_crc32cv(struct spdk_io_channel *ch, void *dst,
     625             :                                struct iovec *src_iovs, uint32_t iov_cnt, uint32_t *crc_dst,
     626             :                                uint32_t seed, spdk_accel_completion_cb cb_fn, void *cb_arg)
     627             : {
     628           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     629             :         struct spdk_accel_task *accel_task;
     630             :         uint64_t nbytes;
     631             : 
     632           0 :         if (src_iovs == NULL) {
     633           0 :                 SPDK_ERRLOG("iov should not be NULL");
     634           0 :                 return -EINVAL;
     635             :         }
     636             : 
     637           0 :         if (!iov_cnt) {
     638           0 :                 SPDK_ERRLOG("iovcnt should not be zero value\n");
     639           0 :                 return -EINVAL;
     640             :         }
     641             : 
     642           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     643           0 :         if (spdk_unlikely(accel_task == NULL)) {
     644           0 :                 SPDK_ERRLOG("no memory\n");
     645           0 :                 assert(0);
     646             :                 return -ENOMEM;
     647             :         }
     648             : 
     649           0 :         nbytes = accel_get_iovlen(src_iovs, iov_cnt);
     650             : 
     651           0 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     652             : 
     653           0 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     654           0 :         accel_task->d.iovs[0].iov_base = dst;
     655           0 :         accel_task->d.iovs[0].iov_len = nbytes;
     656           0 :         accel_task->d.iovcnt = 1;
     657           0 :         accel_task->s.iovs = src_iovs;
     658           0 :         accel_task->s.iovcnt = iov_cnt;
     659           0 :         accel_task->nbytes = nbytes;
     660           0 :         accel_task->crc_dst = crc_dst;
     661           0 :         accel_task->seed = seed;
     662           0 :         accel_task->op_code = SPDK_ACCEL_OPC_COPY_CRC32C;
     663           0 :         accel_task->src_domain = NULL;
     664           0 :         accel_task->dst_domain = NULL;
     665             : 
     666           0 :         return accel_submit_task(accel_ch, accel_task);
     667             : }
     668             : 
     669             : int
     670           0 : spdk_accel_get_compress_level_range(enum spdk_accel_comp_algo comp_algo,
     671             :                                     uint32_t *min_level, uint32_t *max_level)
     672             : {
     673           0 :         struct spdk_accel_module_if *module = g_modules_opc[SPDK_ACCEL_OPC_COMPRESS].module;
     674             : 
     675           0 :         if (module->get_compress_level_range == NULL) {
     676           0 :                 SPDK_ERRLOG("Module %s doesn't implement callback fn get_compress_level_range.\n", module->name);
     677           0 :                 return -ENOTSUP;
     678             :         }
     679             : 
     680           0 :         return module->get_compress_level_range(comp_algo, min_level, max_level);
     681             : }
     682             : 
     683             : static int
     684          49 : _accel_check_comp_algo(enum spdk_accel_comp_algo comp_algo)
     685             : {
     686          49 :         struct spdk_accel_module_if *module = g_modules_opc[SPDK_ACCEL_OPC_COMPRESS].module;
     687             : 
     688          49 :         if (!module->compress_supports_algo || !module->compress_supports_algo(comp_algo)) {
     689           0 :                 SPDK_ERRLOG("Module %s doesn't support compression algo %d\n", module->name, comp_algo);
     690           0 :                 return -ENOTSUP;
     691             :         }
     692             : 
     693          49 :         return 0;
     694             : }
     695             : 
     696             : int
     697           2 : spdk_accel_submit_compress_ext(struct spdk_io_channel *ch, void *dst, uint64_t nbytes,
     698             :                                struct iovec *src_iovs, size_t src_iovcnt,
     699             :                                enum spdk_accel_comp_algo comp_algo, uint32_t comp_level,
     700             :                                uint32_t *output_size, spdk_accel_completion_cb cb_fn, void *cb_arg)
     701             : {
     702           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     703             :         struct spdk_accel_task *accel_task;
     704             :         int rc;
     705             : 
     706           2 :         rc = _accel_check_comp_algo(comp_algo);
     707           2 :         if (spdk_unlikely(rc != 0)) {
     708           0 :                 return rc;
     709             :         }
     710             : 
     711           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     712           2 :         if (spdk_unlikely(accel_task == NULL)) {
     713           0 :                 return -ENOMEM;
     714             :         }
     715             : 
     716           2 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     717             : 
     718           2 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     719           2 :         accel_task->d.iovs[0].iov_base = dst;
     720           2 :         accel_task->d.iovs[0].iov_len = nbytes;
     721           2 :         accel_task->d.iovcnt = 1;
     722           2 :         accel_task->output_size = output_size;
     723           2 :         accel_task->s.iovs = src_iovs;
     724           2 :         accel_task->s.iovcnt = src_iovcnt;
     725           2 :         accel_task->nbytes = nbytes;
     726           2 :         accel_task->op_code = SPDK_ACCEL_OPC_COMPRESS;
     727           2 :         accel_task->src_domain = NULL;
     728           2 :         accel_task->dst_domain = NULL;
     729           2 :         accel_task->comp.algo = comp_algo;
     730           2 :         accel_task->comp.level = comp_level;
     731             : 
     732           2 :         return accel_submit_task(accel_ch, accel_task);
     733             : }
     734             : 
     735             : int
     736           0 : spdk_accel_submit_decompress_ext(struct spdk_io_channel *ch, struct iovec *dst_iovs,
     737             :                                  size_t dst_iovcnt, struct iovec *src_iovs, size_t src_iovcnt,
     738             :                                  enum spdk_accel_comp_algo decomp_algo, uint32_t *output_size,
     739             :                                  spdk_accel_completion_cb cb_fn, void *cb_arg)
     740             : {
     741           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     742             :         struct spdk_accel_task *accel_task;
     743             :         int rc;
     744             : 
     745           0 :         rc = _accel_check_comp_algo(decomp_algo);
     746           0 :         if (spdk_unlikely(rc != 0)) {
     747           0 :                 return rc;
     748             :         }
     749             : 
     750           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     751           0 :         if (spdk_unlikely(accel_task == NULL)) {
     752           0 :                 return -ENOMEM;
     753             :         }
     754             : 
     755           0 :         accel_task->output_size = output_size;
     756           0 :         accel_task->s.iovs = src_iovs;
     757           0 :         accel_task->s.iovcnt = src_iovcnt;
     758           0 :         accel_task->d.iovs = dst_iovs;
     759           0 :         accel_task->d.iovcnt = dst_iovcnt;
     760           0 :         accel_task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
     761           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DECOMPRESS;
     762           0 :         accel_task->src_domain = NULL;
     763           0 :         accel_task->dst_domain = NULL;
     764           0 :         accel_task->comp.algo = decomp_algo;
     765             : 
     766           0 :         return accel_submit_task(accel_ch, accel_task);
     767             : }
     768             : 
     769             : int
     770           2 : spdk_accel_submit_compress(struct spdk_io_channel *ch, void *dst, uint64_t nbytes,
     771             :                            struct iovec *src_iovs, size_t src_iovcnt, uint32_t *output_size,
     772             :                            spdk_accel_completion_cb cb_fn, void *cb_arg)
     773             : {
     774           2 :         return spdk_accel_submit_compress_ext(ch, dst, nbytes, src_iovs, src_iovcnt,
     775             :                                               SPDK_ACCEL_COMP_ALGO_DEFLATE, 1, output_size, cb_fn, cb_arg);
     776             : }
     777             : 
     778             : int
     779           0 : spdk_accel_submit_decompress(struct spdk_io_channel *ch, struct iovec *dst_iovs,
     780             :                              size_t dst_iovcnt, struct iovec *src_iovs, size_t src_iovcnt,
     781             :                              uint32_t *output_size, spdk_accel_completion_cb cb_fn,
     782             :                              void *cb_arg)
     783             : {
     784           0 :         return spdk_accel_submit_decompress_ext(ch, dst_iovs, dst_iovcnt, src_iovs, src_iovcnt,
     785             :                                                 SPDK_ACCEL_COMP_ALGO_DEFLATE, output_size, cb_fn, cb_arg);
     786             : }
     787             : 
     788             : int
     789           1 : spdk_accel_submit_encrypt(struct spdk_io_channel *ch, struct spdk_accel_crypto_key *key,
     790             :                           struct iovec *dst_iovs, uint32_t dst_iovcnt,
     791             :                           struct iovec *src_iovs, uint32_t src_iovcnt,
     792             :                           uint64_t iv, uint32_t block_size,
     793             :                           spdk_accel_completion_cb cb_fn, void *cb_arg)
     794             : {
     795           1 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     796             :         struct spdk_accel_task *accel_task;
     797             : 
     798           1 :         if (spdk_unlikely(!dst_iovs || !dst_iovcnt || !src_iovs || !src_iovcnt || !key || !block_size)) {
     799           0 :                 return -EINVAL;
     800             :         }
     801             : 
     802           1 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     803           1 :         if (spdk_unlikely(accel_task == NULL)) {
     804           0 :                 return -ENOMEM;
     805             :         }
     806             : 
     807           1 :         accel_task->crypto_key = key;
     808           1 :         accel_task->s.iovs = src_iovs;
     809           1 :         accel_task->s.iovcnt = src_iovcnt;
     810           1 :         accel_task->d.iovs = dst_iovs;
     811           1 :         accel_task->d.iovcnt = dst_iovcnt;
     812           1 :         accel_task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
     813           1 :         accel_task->iv = iv;
     814           1 :         accel_task->block_size = block_size;
     815           1 :         accel_task->op_code = SPDK_ACCEL_OPC_ENCRYPT;
     816           1 :         accel_task->src_domain = NULL;
     817           1 :         accel_task->dst_domain = NULL;
     818             : 
     819           1 :         return accel_submit_task(accel_ch, accel_task);
     820             : }
     821             : 
     822             : int
     823           0 : spdk_accel_submit_decrypt(struct spdk_io_channel *ch, struct spdk_accel_crypto_key *key,
     824             :                           struct iovec *dst_iovs, uint32_t dst_iovcnt,
     825             :                           struct iovec *src_iovs, uint32_t src_iovcnt,
     826             :                           uint64_t iv, uint32_t block_size,
     827             :                           spdk_accel_completion_cb cb_fn, void *cb_arg)
     828             : {
     829           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     830             :         struct spdk_accel_task *accel_task;
     831             : 
     832           0 :         if (spdk_unlikely(!dst_iovs || !dst_iovcnt || !src_iovs || !src_iovcnt || !key || !block_size)) {
     833           0 :                 return -EINVAL;
     834             :         }
     835             : 
     836           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     837           0 :         if (spdk_unlikely(accel_task == NULL)) {
     838           0 :                 return -ENOMEM;
     839             :         }
     840             : 
     841           0 :         accel_task->crypto_key = key;
     842           0 :         accel_task->s.iovs = src_iovs;
     843           0 :         accel_task->s.iovcnt = src_iovcnt;
     844           0 :         accel_task->d.iovs = dst_iovs;
     845           0 :         accel_task->d.iovcnt = dst_iovcnt;
     846           0 :         accel_task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
     847           0 :         accel_task->iv = iv;
     848           0 :         accel_task->block_size = block_size;
     849           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DECRYPT;
     850           0 :         accel_task->src_domain = NULL;
     851           0 :         accel_task->dst_domain = NULL;
     852             : 
     853           0 :         return accel_submit_task(accel_ch, accel_task);
     854             : }
     855             : 
     856             : int
     857           2 : spdk_accel_submit_xor(struct spdk_io_channel *ch, void *dst, void **sources, uint32_t nsrcs,
     858             :                       uint64_t nbytes, spdk_accel_completion_cb cb_fn, void *cb_arg)
     859             : {
     860           2 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     861             :         struct spdk_accel_task *accel_task;
     862             : 
     863           2 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     864           2 :         if (spdk_unlikely(accel_task == NULL)) {
     865           1 :                 return -ENOMEM;
     866             :         }
     867             : 
     868           1 :         ACCEL_TASK_ALLOC_AUX_BUF(accel_task);
     869             : 
     870           1 :         accel_task->d.iovs = &accel_task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
     871           1 :         accel_task->nsrcs.srcs = sources;
     872           1 :         accel_task->nsrcs.cnt = nsrcs;
     873           1 :         accel_task->d.iovs[0].iov_base = dst;
     874           1 :         accel_task->d.iovs[0].iov_len = nbytes;
     875           1 :         accel_task->d.iovcnt = 1;
     876           1 :         accel_task->nbytes = nbytes;
     877           1 :         accel_task->op_code = SPDK_ACCEL_OPC_XOR;
     878           1 :         accel_task->src_domain = NULL;
     879           1 :         accel_task->dst_domain = NULL;
     880             : 
     881           1 :         return accel_submit_task(accel_ch, accel_task);
     882             : }
     883             : 
     884             : int
     885           0 : spdk_accel_submit_dif_verify(struct spdk_io_channel *ch,
     886             :                              struct iovec *iovs, size_t iovcnt, uint32_t num_blocks,
     887             :                              const struct spdk_dif_ctx *ctx, struct spdk_dif_error *err,
     888             :                              spdk_accel_completion_cb cb_fn, void *cb_arg)
     889             : {
     890           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     891             :         struct spdk_accel_task *accel_task;
     892             : 
     893           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     894           0 :         if (accel_task == NULL) {
     895           0 :                 return -ENOMEM;
     896             :         }
     897             : 
     898           0 :         accel_task->s.iovs = iovs;
     899           0 :         accel_task->s.iovcnt = iovcnt;
     900           0 :         accel_task->dif.ctx = ctx;
     901           0 :         accel_task->dif.err = err;
     902           0 :         accel_task->dif.num_blocks = num_blocks;
     903           0 :         accel_task->nbytes = num_blocks * ctx->block_size;
     904           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DIF_VERIFY;
     905           0 :         accel_task->src_domain = NULL;
     906           0 :         accel_task->dst_domain = NULL;
     907             : 
     908           0 :         return accel_submit_task(accel_ch, accel_task);
     909             : }
     910             : 
     911             : int
     912           0 : spdk_accel_submit_dif_generate(struct spdk_io_channel *ch,
     913             :                                struct iovec *iovs, size_t iovcnt, uint32_t num_blocks,
     914             :                                const struct spdk_dif_ctx *ctx,
     915             :                                spdk_accel_completion_cb cb_fn, void *cb_arg)
     916             : {
     917           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     918             :         struct spdk_accel_task *accel_task;
     919             : 
     920           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     921           0 :         if (accel_task == NULL) {
     922           0 :                 return -ENOMEM;
     923             :         }
     924             : 
     925           0 :         accel_task->s.iovs = iovs;
     926           0 :         accel_task->s.iovcnt = iovcnt;
     927           0 :         accel_task->dif.ctx = ctx;
     928           0 :         accel_task->dif.num_blocks = num_blocks;
     929           0 :         accel_task->nbytes = num_blocks * ctx->block_size;
     930           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DIF_GENERATE;
     931           0 :         accel_task->src_domain = NULL;
     932           0 :         accel_task->dst_domain = NULL;
     933             : 
     934           0 :         return accel_submit_task(accel_ch, accel_task);
     935             : }
     936             : 
     937             : int
     938           0 : spdk_accel_submit_dif_generate_copy(struct spdk_io_channel *ch, struct iovec *dst_iovs,
     939             :                                     size_t dst_iovcnt, struct iovec *src_iovs, size_t src_iovcnt,
     940             :                                     uint32_t num_blocks, const struct spdk_dif_ctx *ctx,
     941             :                                     spdk_accel_completion_cb cb_fn, void *cb_arg)
     942             : {
     943           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     944             :         struct spdk_accel_task *accel_task;
     945             : 
     946           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     947           0 :         if (accel_task == NULL) {
     948           0 :                 return -ENOMEM;
     949             :         }
     950             : 
     951           0 :         accel_task->s.iovs = src_iovs;
     952           0 :         accel_task->s.iovcnt = src_iovcnt;
     953           0 :         accel_task->d.iovs = dst_iovs;
     954           0 :         accel_task->d.iovcnt = dst_iovcnt;
     955           0 :         accel_task->dif.ctx = ctx;
     956           0 :         accel_task->dif.num_blocks = num_blocks;
     957           0 :         accel_task->nbytes = num_blocks * ctx->block_size;
     958           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DIF_GENERATE_COPY;
     959           0 :         accel_task->src_domain = NULL;
     960           0 :         accel_task->dst_domain = NULL;
     961             : 
     962           0 :         return accel_submit_task(accel_ch, accel_task);
     963             : }
     964             : 
     965             : int
     966           0 : spdk_accel_submit_dif_verify_copy(struct spdk_io_channel *ch,
     967             :                                   struct iovec *dst_iovs, size_t dst_iovcnt,
     968             :                                   struct iovec *src_iovs, size_t src_iovcnt, uint32_t num_blocks,
     969             :                                   const struct spdk_dif_ctx *ctx, struct spdk_dif_error *err,
     970             :                                   spdk_accel_completion_cb cb_fn, void *cb_arg)
     971             : {
     972           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
     973             :         struct spdk_accel_task *accel_task;
     974             : 
     975           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
     976           0 :         if (accel_task == NULL) {
     977           0 :                 return -ENOMEM;
     978             :         }
     979             : 
     980           0 :         accel_task->s.iovs = src_iovs;
     981           0 :         accel_task->s.iovcnt = src_iovcnt;
     982           0 :         accel_task->d.iovs = dst_iovs;
     983           0 :         accel_task->d.iovcnt = dst_iovcnt;
     984           0 :         accel_task->dif.ctx = ctx;
     985           0 :         accel_task->dif.err = err;
     986           0 :         accel_task->dif.num_blocks = num_blocks;
     987           0 :         accel_task->nbytes = num_blocks * ctx->block_size;
     988           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DIF_VERIFY_COPY;
     989           0 :         accel_task->src_domain = NULL;
     990           0 :         accel_task->dst_domain = NULL;
     991             : 
     992           0 :         return accel_submit_task(accel_ch, accel_task);
     993             : }
     994             : 
     995             : int
     996           0 : spdk_accel_submit_dix_generate(struct spdk_io_channel *ch, struct iovec *iovs,
     997             :                                size_t iovcnt, struct iovec *md_iov, uint32_t num_blocks,
     998             :                                const struct spdk_dif_ctx *ctx, spdk_accel_completion_cb cb_fn,
     999             :                                void *cb_arg)
    1000             : {
    1001           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1002             :         struct spdk_accel_task *accel_task;
    1003             : 
    1004           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
    1005           0 :         if (accel_task == NULL) {
    1006           0 :                 return -ENOMEM;
    1007             :         }
    1008             : 
    1009           0 :         accel_task->s.iovs = iovs;
    1010           0 :         accel_task->s.iovcnt = iovcnt;
    1011           0 :         accel_task->d.iovs = md_iov;
    1012           0 :         accel_task->d.iovcnt = 1;
    1013           0 :         accel_task->dif.ctx = ctx;
    1014           0 :         accel_task->dif.num_blocks = num_blocks;
    1015           0 :         accel_task->nbytes = num_blocks * ctx->block_size;
    1016           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DIX_GENERATE;
    1017           0 :         accel_task->src_domain = NULL;
    1018           0 :         accel_task->dst_domain = NULL;
    1019             : 
    1020           0 :         return accel_submit_task(accel_ch, accel_task);
    1021             : }
    1022             : 
    1023             : int
    1024           0 : spdk_accel_submit_dix_verify(struct spdk_io_channel *ch, struct iovec *iovs,
    1025             :                              size_t iovcnt, struct iovec *md_iov, uint32_t num_blocks,
    1026             :                              const struct spdk_dif_ctx *ctx, struct spdk_dif_error *err,
    1027             :                              spdk_accel_completion_cb cb_fn, void *cb_arg)
    1028             : {
    1029           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1030             :         struct spdk_accel_task *accel_task;
    1031             : 
    1032           0 :         accel_task = _get_task(accel_ch, cb_fn, cb_arg);
    1033           0 :         if (accel_task == NULL) {
    1034           0 :                 return -ENOMEM;
    1035             :         }
    1036             : 
    1037           0 :         accel_task->s.iovs = iovs;
    1038           0 :         accel_task->s.iovcnt = iovcnt;
    1039           0 :         accel_task->d.iovs = md_iov;
    1040           0 :         accel_task->d.iovcnt = 1;
    1041           0 :         accel_task->dif.ctx = ctx;
    1042           0 :         accel_task->dif.err = err;
    1043           0 :         accel_task->dif.num_blocks = num_blocks;
    1044           0 :         accel_task->nbytes = num_blocks * ctx->block_size;
    1045           0 :         accel_task->op_code = SPDK_ACCEL_OPC_DIX_VERIFY;
    1046           0 :         accel_task->src_domain = NULL;
    1047           0 :         accel_task->dst_domain = NULL;
    1048             : 
    1049           0 :         return accel_submit_task(accel_ch, accel_task);
    1050             : }
    1051             : 
    1052             : static inline struct accel_buffer *
    1053          33 : accel_get_buf(struct accel_io_channel *ch, uint64_t len)
    1054             : {
    1055             :         struct accel_buffer *buf;
    1056             : 
    1057          33 :         buf = SLIST_FIRST(&ch->buf_pool);
    1058          33 :         if (spdk_unlikely(buf == NULL)) {
    1059           0 :                 accel_update_stats(ch, retry.bufdesc, 1);
    1060           0 :                 return NULL;
    1061             :         }
    1062             : 
    1063          33 :         SLIST_REMOVE_HEAD(&ch->buf_pool, link);
    1064          33 :         buf->len = len;
    1065          33 :         buf->buf = NULL;
    1066          33 :         buf->seq = NULL;
    1067          33 :         buf->cb_fn = NULL;
    1068             : 
    1069          33 :         return buf;
    1070             : }
    1071             : 
    1072             : static inline void
    1073          33 : accel_put_buf(struct accel_io_channel *ch, struct accel_buffer *buf)
    1074             : {
    1075          33 :         if (buf->buf != NULL) {
    1076          29 :                 spdk_iobuf_put(&ch->iobuf, buf->buf, buf->len);
    1077             :         }
    1078             : 
    1079          33 :         SLIST_INSERT_HEAD(&ch->buf_pool, buf, link);
    1080          33 : }
    1081             : 
    1082             : static inline struct spdk_accel_sequence *
    1083          73 : accel_sequence_get(struct accel_io_channel *ch)
    1084             : {
    1085             :         struct spdk_accel_sequence *seq;
    1086             : 
    1087          73 :         assert(g_opts.task_count >= ch->stats.task_outstanding);
    1088             : 
    1089             :         /* Sequence cannot be allocated if number of available task objects cannot satisfy required limit.
    1090             :          * This is to prevent potential dead lock when few requests are pending task resource and none can
    1091             :          * advance the processing. This solution should work only if there is single async operation after
    1092             :          * sequence obj obtained, so assume that is possible to happen with io buffer allocation now, if
    1093             :          * there are more async operations then solution should be improved. */
    1094          73 :         if (spdk_unlikely(g_opts.task_count - ch->stats.task_outstanding < ACCEL_TASKS_IN_SEQUENCE_LIMIT)) {
    1095           0 :                 return NULL;
    1096             :         }
    1097             : 
    1098          73 :         seq = SLIST_FIRST(&ch->seq_pool);
    1099          73 :         if (spdk_unlikely(seq == NULL)) {
    1100           3 :                 accel_update_stats(ch, retry.sequence, 1);
    1101           3 :                 return NULL;
    1102             :         }
    1103             : 
    1104          70 :         accel_update_stats(ch, sequence_outstanding, 1);
    1105          70 :         SLIST_REMOVE_HEAD(&ch->seq_pool, link);
    1106             : 
    1107          70 :         TAILQ_INIT(&seq->tasks);
    1108          70 :         SLIST_INIT(&seq->bounce_bufs);
    1109             : 
    1110          70 :         seq->ch = ch;
    1111          70 :         seq->status = 0;
    1112          70 :         seq->state = ACCEL_SEQUENCE_STATE_INIT;
    1113          70 :         seq->in_process_sequence = false;
    1114             : 
    1115          70 :         return seq;
    1116             : }
    1117             : 
    1118             : static inline void
    1119          70 : accel_sequence_put(struct spdk_accel_sequence *seq)
    1120             : {
    1121          70 :         struct accel_io_channel *ch = seq->ch;
    1122             :         struct accel_buffer *buf;
    1123             : 
    1124          89 :         while (!SLIST_EMPTY(&seq->bounce_bufs)) {
    1125          19 :                 buf = SLIST_FIRST(&seq->bounce_bufs);
    1126          19 :                 SLIST_REMOVE_HEAD(&seq->bounce_bufs, link);
    1127          19 :                 accel_put_buf(seq->ch, buf);
    1128             :         }
    1129             : 
    1130          70 :         assert(TAILQ_EMPTY(&seq->tasks));
    1131          70 :         seq->ch = NULL;
    1132             : 
    1133          70 :         SLIST_INSERT_HEAD(&ch->seq_pool, seq, link);
    1134          70 :         accel_update_stats(ch, sequence_outstanding, -1);
    1135          70 : }
    1136             : 
    1137             : static inline struct spdk_accel_task *
    1138         171 : accel_sequence_get_task(struct accel_io_channel *ch, struct spdk_accel_sequence *seq,
    1139             :                         spdk_accel_step_cb cb_fn, void *cb_arg)
    1140             : {
    1141             :         struct spdk_accel_task *task;
    1142             : 
    1143         171 :         task = _get_task(ch, NULL, NULL);
    1144         171 :         if (spdk_unlikely(task == NULL)) {
    1145           3 :                 return task;
    1146             :         }
    1147             : 
    1148         168 :         task->step_cb_fn = cb_fn;
    1149         168 :         task->cb_arg = cb_arg;
    1150         168 :         task->seq = seq;
    1151             : 
    1152         168 :         return task;
    1153             : }
    1154             : 
    1155             : int
    1156          48 : spdk_accel_append_copy(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1157             :                        struct iovec *dst_iovs, uint32_t dst_iovcnt,
    1158             :                        struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1159             :                        struct iovec *src_iovs, uint32_t src_iovcnt,
    1160             :                        struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1161             :                        spdk_accel_step_cb cb_fn, void *cb_arg)
    1162             : {
    1163          48 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1164             :         struct spdk_accel_task *task;
    1165          48 :         struct spdk_accel_sequence *seq = *pseq;
    1166             : 
    1167          48 :         if (seq == NULL) {
    1168          17 :                 seq = accel_sequence_get(accel_ch);
    1169          17 :                 if (spdk_unlikely(seq == NULL)) {
    1170           1 :                         return -ENOMEM;
    1171             :                 }
    1172             :         }
    1173             : 
    1174          47 :         assert(seq->ch == accel_ch);
    1175          47 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1176          47 :         if (spdk_unlikely(task == NULL)) {
    1177           1 :                 if (*pseq == NULL) {
    1178           1 :                         accel_sequence_put(seq);
    1179             :                 }
    1180             : 
    1181           1 :                 return -ENOMEM;
    1182             :         }
    1183             : 
    1184          46 :         task->dst_domain = dst_domain;
    1185          46 :         task->dst_domain_ctx = dst_domain_ctx;
    1186          46 :         task->d.iovs = dst_iovs;
    1187          46 :         task->d.iovcnt = dst_iovcnt;
    1188          46 :         task->src_domain = src_domain;
    1189          46 :         task->src_domain_ctx = src_domain_ctx;
    1190          46 :         task->s.iovs = src_iovs;
    1191          46 :         task->s.iovcnt = src_iovcnt;
    1192          46 :         task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
    1193          46 :         task->op_code = SPDK_ACCEL_OPC_COPY;
    1194             : 
    1195          46 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1196          46 :         *pseq = seq;
    1197             : 
    1198          46 :         return 0;
    1199             : }
    1200             : 
    1201             : int
    1202          42 : spdk_accel_append_fill(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1203             :                        void *buf, uint64_t len,
    1204             :                        struct spdk_memory_domain *domain, void *domain_ctx, uint8_t pattern,
    1205             :                        spdk_accel_step_cb cb_fn, void *cb_arg)
    1206             : {
    1207          42 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1208             :         struct spdk_accel_task *task;
    1209          42 :         struct spdk_accel_sequence *seq = *pseq;
    1210             : 
    1211          42 :         if (seq == NULL) {
    1212          24 :                 seq = accel_sequence_get(accel_ch);
    1213          24 :                 if (spdk_unlikely(seq == NULL)) {
    1214           1 :                         return -ENOMEM;
    1215             :                 }
    1216             :         }
    1217             : 
    1218          41 :         assert(seq->ch == accel_ch);
    1219          41 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1220          41 :         if (spdk_unlikely(task == NULL)) {
    1221           1 :                 if (*pseq == NULL) {
    1222           1 :                         accel_sequence_put(seq);
    1223             :                 }
    1224             : 
    1225           1 :                 return -ENOMEM;
    1226             :         }
    1227             : 
    1228          40 :         memset(&task->fill_pattern, pattern, sizeof(uint64_t));
    1229             : 
    1230          40 :         task->aux = SLIST_FIRST(&task->accel_ch->task_aux_data_pool);
    1231          40 :         if (spdk_unlikely(!task->aux)) {
    1232           0 :                 SPDK_ERRLOG("Fatal problem, aux data was not allocated\n");
    1233           0 :                 if (*pseq == NULL) {
    1234           0 :                         accel_sequence_put((seq));
    1235             :                 }
    1236             : 
    1237           0 :                 task->seq = NULL;
    1238           0 :                 _put_task(task->accel_ch, task);
    1239           0 :                 assert(0);
    1240             :                 return -ENOMEM;
    1241             :         }
    1242          40 :         SLIST_REMOVE_HEAD(&task->accel_ch->task_aux_data_pool, link);
    1243          40 :         task->has_aux = true;
    1244             : 
    1245          40 :         task->d.iovs = &task->aux->iovs[SPDK_ACCEL_AUX_IOV_DST];
    1246          40 :         task->d.iovs[0].iov_base = buf;
    1247          40 :         task->d.iovs[0].iov_len = len;
    1248          40 :         task->d.iovcnt = 1;
    1249          40 :         task->nbytes = len;
    1250          40 :         task->src_domain = NULL;
    1251          40 :         task->dst_domain = domain;
    1252          40 :         task->dst_domain_ctx = domain_ctx;
    1253          40 :         task->op_code = SPDK_ACCEL_OPC_FILL;
    1254             : 
    1255          40 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1256          40 :         *pseq = seq;
    1257             : 
    1258          40 :         return 0;
    1259             : }
    1260             : 
    1261             : int
    1262          47 : spdk_accel_append_decompress(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1263             :                              struct iovec *dst_iovs, size_t dst_iovcnt,
    1264             :                              struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1265             :                              struct iovec *src_iovs, size_t src_iovcnt,
    1266             :                              struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1267             :                              spdk_accel_step_cb cb_fn, void *cb_arg)
    1268             : {
    1269          47 :         return spdk_accel_append_decompress_ext(pseq, ch, dst_iovs, dst_iovcnt, dst_domain,
    1270             :                                                 dst_domain_ctx, src_iovs, src_iovcnt, src_domain,
    1271             :                                                 src_domain_ctx, SPDK_ACCEL_COMP_ALGO_DEFLATE,
    1272             :                                                 cb_fn, cb_arg);
    1273             : }
    1274             : 
    1275             : int
    1276          47 : spdk_accel_append_decompress_ext(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1277             :                                  struct iovec *dst_iovs, size_t dst_iovcnt,
    1278             :                                  struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1279             :                                  struct iovec *src_iovs, size_t src_iovcnt,
    1280             :                                  struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1281             :                                  enum spdk_accel_comp_algo decomp_algo,
    1282             :                                  spdk_accel_step_cb cb_fn, void *cb_arg)
    1283             : {
    1284          47 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1285             :         struct spdk_accel_task *task;
    1286          47 :         struct spdk_accel_sequence *seq = *pseq;
    1287             :         int rc;
    1288             : 
    1289          47 :         rc = _accel_check_comp_algo(decomp_algo);
    1290          47 :         if (spdk_unlikely(rc != 0)) {
    1291           0 :                 return rc;
    1292             :         }
    1293             : 
    1294          47 :         if (seq == NULL) {
    1295          21 :                 seq = accel_sequence_get(accel_ch);
    1296          21 :                 if (spdk_unlikely(seq == NULL)) {
    1297           1 :                         return -ENOMEM;
    1298             :                 }
    1299             :         }
    1300             : 
    1301          46 :         assert(seq->ch == accel_ch);
    1302          46 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1303          46 :         if (spdk_unlikely(task == NULL)) {
    1304           1 :                 if (*pseq == NULL) {
    1305           1 :                         accel_sequence_put(seq);
    1306             :                 }
    1307             : 
    1308           1 :                 return -ENOMEM;
    1309             :         }
    1310             : 
    1311             :         /* TODO: support output_size for chaining */
    1312          45 :         task->output_size = NULL;
    1313          45 :         task->dst_domain = dst_domain;
    1314          45 :         task->dst_domain_ctx = dst_domain_ctx;
    1315          45 :         task->d.iovs = dst_iovs;
    1316          45 :         task->d.iovcnt = dst_iovcnt;
    1317          45 :         task->src_domain = src_domain;
    1318          45 :         task->src_domain_ctx = src_domain_ctx;
    1319          45 :         task->s.iovs = src_iovs;
    1320          45 :         task->s.iovcnt = src_iovcnt;
    1321          45 :         task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
    1322          45 :         task->op_code = SPDK_ACCEL_OPC_DECOMPRESS;
    1323          45 :         task->comp.algo = decomp_algo;
    1324             : 
    1325          45 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1326          45 :         *pseq = seq;
    1327             : 
    1328          45 :         return 0;
    1329             : }
    1330             : 
    1331             : int
    1332          11 : spdk_accel_append_encrypt(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1333             :                           struct spdk_accel_crypto_key *key,
    1334             :                           struct iovec *dst_iovs, uint32_t dst_iovcnt,
    1335             :                           struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1336             :                           struct iovec *src_iovs, uint32_t src_iovcnt,
    1337             :                           struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1338             :                           uint64_t iv, uint32_t block_size,
    1339             :                           spdk_accel_step_cb cb_fn, void *cb_arg)
    1340             : {
    1341          11 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1342             :         struct spdk_accel_task *task;
    1343          11 :         struct spdk_accel_sequence *seq = *pseq;
    1344             : 
    1345          11 :         assert(dst_iovs && dst_iovcnt && src_iovs && src_iovcnt && key && block_size);
    1346             : 
    1347          11 :         if (seq == NULL) {
    1348           7 :                 seq = accel_sequence_get(accel_ch);
    1349           7 :                 if (spdk_unlikely(seq == NULL)) {
    1350           0 :                         return -ENOMEM;
    1351             :                 }
    1352             :         }
    1353             : 
    1354          11 :         assert(seq->ch == accel_ch);
    1355          11 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1356          11 :         if (spdk_unlikely(task == NULL)) {
    1357           0 :                 if (*pseq == NULL) {
    1358           0 :                         accel_sequence_put(seq);
    1359             :                 }
    1360             : 
    1361           0 :                 return -ENOMEM;
    1362             :         }
    1363             : 
    1364          11 :         task->crypto_key = key;
    1365          11 :         task->src_domain = src_domain;
    1366          11 :         task->src_domain_ctx = src_domain_ctx;
    1367          11 :         task->s.iovs = src_iovs;
    1368          11 :         task->s.iovcnt = src_iovcnt;
    1369          11 :         task->dst_domain = dst_domain;
    1370          11 :         task->dst_domain_ctx = dst_domain_ctx;
    1371          11 :         task->d.iovs = dst_iovs;
    1372          11 :         task->d.iovcnt = dst_iovcnt;
    1373          11 :         task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
    1374          11 :         task->iv = iv;
    1375          11 :         task->block_size = block_size;
    1376          11 :         task->op_code = SPDK_ACCEL_OPC_ENCRYPT;
    1377             : 
    1378          11 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1379          11 :         *pseq = seq;
    1380             : 
    1381          11 :         return 0;
    1382             : }
    1383             : 
    1384             : int
    1385          12 : spdk_accel_append_decrypt(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1386             :                           struct spdk_accel_crypto_key *key,
    1387             :                           struct iovec *dst_iovs, uint32_t dst_iovcnt,
    1388             :                           struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1389             :                           struct iovec *src_iovs, uint32_t src_iovcnt,
    1390             :                           struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1391             :                           uint64_t iv, uint32_t block_size,
    1392             :                           spdk_accel_step_cb cb_fn, void *cb_arg)
    1393             : {
    1394          12 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1395             :         struct spdk_accel_task *task;
    1396          12 :         struct spdk_accel_sequence *seq = *pseq;
    1397             : 
    1398          12 :         assert(dst_iovs && dst_iovcnt && src_iovs && src_iovcnt && key && block_size);
    1399             : 
    1400          12 :         if (seq == NULL) {
    1401           1 :                 seq = accel_sequence_get(accel_ch);
    1402           1 :                 if (spdk_unlikely(seq == NULL)) {
    1403           0 :                         return -ENOMEM;
    1404             :                 }
    1405             :         }
    1406             : 
    1407          12 :         assert(seq->ch == accel_ch);
    1408          12 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1409          12 :         if (spdk_unlikely(task == NULL)) {
    1410           0 :                 if (*pseq == NULL) {
    1411           0 :                         accel_sequence_put(seq);
    1412             :                 }
    1413             : 
    1414           0 :                 return -ENOMEM;
    1415             :         }
    1416             : 
    1417          12 :         task->crypto_key = key;
    1418          12 :         task->src_domain = src_domain;
    1419          12 :         task->src_domain_ctx = src_domain_ctx;
    1420          12 :         task->s.iovs = src_iovs;
    1421          12 :         task->s.iovcnt = src_iovcnt;
    1422          12 :         task->dst_domain = dst_domain;
    1423          12 :         task->dst_domain_ctx = dst_domain_ctx;
    1424          12 :         task->d.iovs = dst_iovs;
    1425          12 :         task->d.iovcnt = dst_iovcnt;
    1426          12 :         task->nbytes = accel_get_iovlen(src_iovs, src_iovcnt);
    1427          12 :         task->iv = iv;
    1428          12 :         task->block_size = block_size;
    1429          12 :         task->op_code = SPDK_ACCEL_OPC_DECRYPT;
    1430             : 
    1431          12 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1432          12 :         *pseq = seq;
    1433             : 
    1434          12 :         return 0;
    1435             : }
    1436             : 
    1437             : int
    1438           6 : spdk_accel_append_crc32c(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1439             :                          uint32_t *dst, struct iovec *iovs, uint32_t iovcnt,
    1440             :                          struct spdk_memory_domain *domain, void *domain_ctx,
    1441             :                          uint32_t seed, spdk_accel_step_cb cb_fn, void *cb_arg)
    1442             : {
    1443           6 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1444             :         struct spdk_accel_task *task;
    1445           6 :         struct spdk_accel_sequence *seq = *pseq;
    1446             : 
    1447           6 :         if (seq == NULL) {
    1448           2 :                 seq = accel_sequence_get(accel_ch);
    1449           2 :                 if (spdk_unlikely(seq == NULL)) {
    1450           0 :                         return -ENOMEM;
    1451             :                 }
    1452             :         }
    1453             : 
    1454           6 :         assert(seq->ch == accel_ch);
    1455           6 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1456           6 :         if (spdk_unlikely(task == NULL)) {
    1457           0 :                 if (*pseq == NULL) {
    1458           0 :                         accel_sequence_put(seq);
    1459             :                 }
    1460             : 
    1461           0 :                 return -ENOMEM;
    1462             :         }
    1463             : 
    1464           6 :         task->s.iovs = iovs;
    1465           6 :         task->s.iovcnt = iovcnt;
    1466           6 :         task->src_domain = domain;
    1467           6 :         task->src_domain_ctx = domain_ctx;
    1468           6 :         task->nbytes = accel_get_iovlen(iovs, iovcnt);
    1469           6 :         task->crc_dst = dst;
    1470           6 :         task->seed = seed;
    1471           6 :         task->op_code = SPDK_ACCEL_OPC_CRC32C;
    1472           6 :         task->dst_domain = NULL;
    1473             : 
    1474           6 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1475           6 :         *pseq = seq;
    1476             : 
    1477           6 :         return 0;
    1478             : }
    1479             : 
    1480             : int
    1481           0 : spdk_accel_append_dif_verify(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1482             :                              struct iovec *iovs, size_t iovcnt,
    1483             :                              struct spdk_memory_domain *domain, void *domain_ctx,
    1484             :                              uint32_t num_blocks,
    1485             :                              const struct spdk_dif_ctx *ctx, struct spdk_dif_error *err,
    1486             :                              spdk_accel_step_cb cb_fn, void *cb_arg)
    1487             : {
    1488           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1489             :         struct spdk_accel_task *task;
    1490           0 :         struct spdk_accel_sequence *seq = *pseq;
    1491             : 
    1492           0 :         if (seq == NULL) {
    1493           0 :                 seq = accel_sequence_get(accel_ch);
    1494           0 :                 if (spdk_unlikely(seq == NULL)) {
    1495           0 :                         return -ENOMEM;
    1496             :                 }
    1497             :         }
    1498             : 
    1499           0 :         assert(seq->ch == accel_ch);
    1500           0 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1501           0 :         if (spdk_unlikely(task == NULL)) {
    1502           0 :                 if (*pseq == NULL) {
    1503           0 :                         accel_sequence_put(seq);
    1504             :                 }
    1505             : 
    1506           0 :                 return -ENOMEM;
    1507             :         }
    1508             : 
    1509           0 :         task->s.iovs = iovs;
    1510           0 :         task->s.iovcnt = iovcnt;
    1511           0 :         task->src_domain = domain;
    1512           0 :         task->src_domain_ctx = domain_ctx;
    1513           0 :         task->dst_domain = NULL;
    1514           0 :         task->dif.ctx = ctx;
    1515           0 :         task->dif.err = err;
    1516           0 :         task->dif.num_blocks = num_blocks;
    1517           0 :         task->nbytes = num_blocks * ctx->block_size;
    1518           0 :         task->op_code = SPDK_ACCEL_OPC_DIF_VERIFY;
    1519             : 
    1520           0 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1521           0 :         *pseq = seq;
    1522             : 
    1523           0 :         return 0;
    1524             : }
    1525             : 
    1526             : int
    1527           0 : spdk_accel_append_dif_verify_copy(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1528             :                                   struct iovec *dst_iovs, size_t dst_iovcnt,
    1529             :                                   struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1530             :                                   struct iovec *src_iovs, size_t src_iovcnt,
    1531             :                                   struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1532             :                                   uint32_t num_blocks,
    1533             :                                   const struct spdk_dif_ctx *ctx, struct spdk_dif_error *err,
    1534             :                                   spdk_accel_step_cb cb_fn, void *cb_arg)
    1535             : {
    1536           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1537             :         struct spdk_accel_task *task;
    1538           0 :         struct spdk_accel_sequence *seq = *pseq;
    1539             : 
    1540           0 :         if (seq == NULL) {
    1541           0 :                 seq = accel_sequence_get(accel_ch);
    1542           0 :                 if (spdk_unlikely(seq == NULL)) {
    1543           0 :                         return -ENOMEM;
    1544             :                 }
    1545             :         }
    1546             : 
    1547           0 :         assert(seq->ch == accel_ch);
    1548           0 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1549           0 :         if (spdk_unlikely(task == NULL)) {
    1550           0 :                 if (*pseq == NULL) {
    1551           0 :                         accel_sequence_put(seq);
    1552             :                 }
    1553             : 
    1554           0 :                 return -ENOMEM;
    1555             :         }
    1556             : 
    1557           0 :         task->dst_domain = dst_domain;
    1558           0 :         task->dst_domain_ctx = dst_domain_ctx;
    1559           0 :         task->d.iovs = dst_iovs;
    1560           0 :         task->d.iovcnt = dst_iovcnt;
    1561           0 :         task->src_domain = src_domain;
    1562           0 :         task->src_domain_ctx = src_domain_ctx;
    1563           0 :         task->s.iovs = src_iovs;
    1564           0 :         task->s.iovcnt = src_iovcnt;
    1565           0 :         task->dif.ctx = ctx;
    1566           0 :         task->dif.err = err;
    1567           0 :         task->dif.num_blocks = num_blocks;
    1568           0 :         task->nbytes = num_blocks * ctx->block_size;
    1569           0 :         task->op_code = SPDK_ACCEL_OPC_DIF_VERIFY_COPY;
    1570             : 
    1571           0 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1572           0 :         *pseq = seq;
    1573             : 
    1574           0 :         return 0;
    1575             : }
    1576             : 
    1577             : int
    1578           0 : spdk_accel_append_dif_generate(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1579             :                                struct iovec *iovs, size_t iovcnt,
    1580             :                                struct spdk_memory_domain *domain, void *domain_ctx,
    1581             :                                uint32_t num_blocks, const struct spdk_dif_ctx *ctx,
    1582             :                                spdk_accel_step_cb cb_fn, void *cb_arg)
    1583             : {
    1584           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1585             :         struct spdk_accel_task *task;
    1586           0 :         struct spdk_accel_sequence *seq = *pseq;
    1587             : 
    1588           0 :         if (seq == NULL) {
    1589           0 :                 seq = accel_sequence_get(accel_ch);
    1590           0 :                 if (spdk_unlikely(seq == NULL)) {
    1591           0 :                         return -ENOMEM;
    1592             :                 }
    1593             :         }
    1594             : 
    1595           0 :         assert(seq->ch == accel_ch);
    1596           0 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1597           0 :         if (spdk_unlikely(task == NULL)) {
    1598           0 :                 if (*pseq == NULL) {
    1599           0 :                         accel_sequence_put(seq);
    1600             :                 }
    1601             : 
    1602           0 :                 return -ENOMEM;
    1603             :         }
    1604             : 
    1605           0 :         task->s.iovs = iovs;
    1606           0 :         task->s.iovcnt = iovcnt;
    1607           0 :         task->src_domain = domain;
    1608           0 :         task->src_domain_ctx = domain_ctx;
    1609           0 :         task->dst_domain = NULL;
    1610           0 :         task->dif.ctx = ctx;
    1611           0 :         task->dif.num_blocks = num_blocks;
    1612           0 :         task->nbytes = num_blocks * ctx->block_size;
    1613           0 :         task->op_code = SPDK_ACCEL_OPC_DIF_GENERATE;
    1614             : 
    1615           0 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1616           0 :         *pseq = seq;
    1617             : 
    1618           0 :         return 0;
    1619             : }
    1620             : 
    1621             : int
    1622           0 : spdk_accel_append_dif_generate_copy(struct spdk_accel_sequence **pseq, struct spdk_io_channel *ch,
    1623             :                                     struct iovec *dst_iovs, size_t dst_iovcnt,
    1624             :                                     struct spdk_memory_domain *dst_domain, void *dst_domain_ctx,
    1625             :                                     struct iovec *src_iovs, size_t src_iovcnt,
    1626             :                                     struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    1627             :                                     uint32_t num_blocks, const struct spdk_dif_ctx *ctx,
    1628             :                                     spdk_accel_step_cb cb_fn, void *cb_arg)
    1629             : {
    1630           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1631             :         struct spdk_accel_task *task;
    1632           0 :         struct spdk_accel_sequence *seq = *pseq;
    1633             : 
    1634           0 :         if (seq == NULL) {
    1635           0 :                 seq = accel_sequence_get(accel_ch);
    1636           0 :                 if (spdk_unlikely(seq == NULL)) {
    1637           0 :                         return -ENOMEM;
    1638             :                 }
    1639             :         }
    1640             : 
    1641           0 :         assert(seq->ch == accel_ch);
    1642           0 :         task = accel_sequence_get_task(accel_ch, seq, cb_fn, cb_arg);
    1643           0 :         if (spdk_unlikely(task == NULL)) {
    1644           0 :                 if (*pseq == NULL) {
    1645           0 :                         accel_sequence_put(seq);
    1646             :                 }
    1647             : 
    1648           0 :                 return -ENOMEM;
    1649             :         }
    1650             : 
    1651           0 :         task->dst_domain = dst_domain;
    1652           0 :         task->dst_domain_ctx = dst_domain_ctx;
    1653           0 :         task->d.iovs = dst_iovs;
    1654           0 :         task->d.iovcnt = dst_iovcnt;
    1655           0 :         task->src_domain = src_domain;
    1656           0 :         task->src_domain_ctx = src_domain_ctx;
    1657           0 :         task->s.iovs = src_iovs;
    1658           0 :         task->s.iovcnt = src_iovcnt;
    1659           0 :         task->dif.ctx = ctx;
    1660           0 :         task->dif.num_blocks = num_blocks;
    1661           0 :         task->nbytes = num_blocks * ctx->block_size;
    1662           0 :         task->op_code = SPDK_ACCEL_OPC_DIF_GENERATE_COPY;
    1663             : 
    1664           0 :         TAILQ_INSERT_TAIL(&seq->tasks, task, seq_link);
    1665           0 :         *pseq = seq;
    1666             : 
    1667           0 :         return 0;
    1668             : }
    1669             : 
    1670             : int
    1671           4 : spdk_accel_append_dix_generate(struct spdk_accel_sequence **seq, struct spdk_io_channel *ch,
    1672             :                                struct iovec *iovs, size_t iovcnt, struct spdk_memory_domain *domain,
    1673             :                                void *domain_ctx, struct iovec *md_iov,
    1674             :                                struct spdk_memory_domain *md_domain, void *md_domain_ctx,
    1675             :                                uint32_t num_blocks, const struct spdk_dif_ctx *ctx,
    1676             :                                spdk_accel_step_cb cb_fn, void *cb_arg)
    1677             : {
    1678           4 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1679             :         struct spdk_accel_task *task;
    1680           4 :         struct spdk_accel_sequence *pseq = *seq;
    1681             : 
    1682           4 :         if (pseq == NULL) {
    1683           1 :                 pseq = accel_sequence_get(accel_ch);
    1684           1 :                 if (spdk_unlikely(pseq == NULL)) {
    1685           0 :                         return -ENOMEM;
    1686             :                 }
    1687             :         }
    1688             : 
    1689           4 :         assert(pseq->ch == accel_ch);
    1690           4 :         task = accel_sequence_get_task(accel_ch, pseq, cb_fn, cb_arg);
    1691           4 :         if (spdk_unlikely(task == NULL)) {
    1692           0 :                 if (*seq == NULL) {
    1693           0 :                         accel_sequence_put(pseq);
    1694             :                 }
    1695             : 
    1696           0 :                 return -ENOMEM;
    1697             :         }
    1698             : 
    1699           4 :         task->d.iovs = md_iov;
    1700           4 :         task->d.iovcnt = 1;
    1701           4 :         task->dst_domain = md_domain;
    1702           4 :         task->dst_domain_ctx = md_domain_ctx;
    1703           4 :         task->s.iovs = iovs;
    1704           4 :         task->s.iovcnt = iovcnt;
    1705           4 :         task->src_domain = domain;
    1706           4 :         task->src_domain_ctx = domain_ctx;
    1707           4 :         task->dif.ctx = ctx;
    1708           4 :         task->dif.num_blocks = num_blocks;
    1709           4 :         task->nbytes = num_blocks * ctx->block_size;
    1710           4 :         task->op_code = SPDK_ACCEL_OPC_DIX_GENERATE;
    1711             : 
    1712           4 :         TAILQ_INSERT_TAIL(&pseq->tasks, task, seq_link);
    1713           4 :         *seq = pseq;
    1714             : 
    1715           4 :         return 0;
    1716             : }
    1717             : 
    1718             : int
    1719           4 : spdk_accel_append_dix_verify(struct spdk_accel_sequence **seq, struct spdk_io_channel *ch,
    1720             :                              struct iovec *iovs, size_t iovcnt, struct spdk_memory_domain *domain,
    1721             :                              void *domain_ctx, struct iovec *md_iov,
    1722             :                              struct spdk_memory_domain *md_domain, void *md_domain_ctx,
    1723             :                              uint32_t num_blocks, const struct spdk_dif_ctx *ctx,
    1724             :                              struct spdk_dif_error *err, spdk_accel_step_cb cb_fn, void *cb_arg)
    1725             : {
    1726           4 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1727             :         struct spdk_accel_task *task;
    1728           4 :         struct spdk_accel_sequence *pseq = *seq;
    1729             : 
    1730           4 :         if (pseq == NULL) {
    1731           0 :                 pseq = accel_sequence_get(accel_ch);
    1732           0 :                 if (spdk_unlikely(pseq == NULL)) {
    1733           0 :                         return -ENOMEM;
    1734             :                 }
    1735             :         }
    1736             : 
    1737           4 :         assert(pseq->ch == accel_ch);
    1738           4 :         task = accel_sequence_get_task(accel_ch, pseq, cb_fn, cb_arg);
    1739           4 :         if (spdk_unlikely(task == NULL)) {
    1740           0 :                 if (*seq == NULL) {
    1741           0 :                         accel_sequence_put(pseq);
    1742             :                 }
    1743             : 
    1744           0 :                 return -ENOMEM;
    1745             :         }
    1746             : 
    1747           4 :         task->d.iovs = md_iov;
    1748           4 :         task->d.iovcnt = 1;
    1749           4 :         task->dst_domain = md_domain;
    1750           4 :         task->dst_domain_ctx = md_domain_ctx;
    1751           4 :         task->s.iovs = iovs;
    1752           4 :         task->s.iovcnt = iovcnt;
    1753           4 :         task->src_domain = domain;
    1754           4 :         task->src_domain_ctx = domain_ctx;
    1755           4 :         task->dif.ctx = ctx;
    1756           4 :         task->dif.err = err;
    1757           4 :         task->dif.num_blocks = num_blocks;
    1758           4 :         task->nbytes = num_blocks * ctx->block_size;
    1759           4 :         task->op_code = SPDK_ACCEL_OPC_DIX_VERIFY;
    1760             : 
    1761           4 :         TAILQ_INSERT_TAIL(&pseq->tasks, task, seq_link);
    1762           4 :         *seq = pseq;
    1763             : 
    1764           4 :         return 0;
    1765             : }
    1766             : 
    1767             : int
    1768          14 : spdk_accel_get_buf(struct spdk_io_channel *ch, uint64_t len, void **buf,
    1769             :                    struct spdk_memory_domain **domain, void **domain_ctx)
    1770             : {
    1771          14 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1772             :         struct accel_buffer *accel_buf;
    1773             : 
    1774          14 :         accel_buf = accel_get_buf(accel_ch, len);
    1775          14 :         if (spdk_unlikely(accel_buf == NULL)) {
    1776           0 :                 return -ENOMEM;
    1777             :         }
    1778             : 
    1779          14 :         accel_buf->ch = accel_ch;
    1780             : 
    1781             :         /* We always return the same pointer and identify the buffers through domain_ctx */
    1782          14 :         *buf = ACCEL_BUFFER_BASE;
    1783          14 :         *domain_ctx = accel_buf;
    1784          14 :         *domain = g_accel_domain;
    1785             : 
    1786          14 :         return 0;
    1787             : }
    1788             : 
    1789             : void
    1790          14 : spdk_accel_put_buf(struct spdk_io_channel *ch, void *buf,
    1791             :                    struct spdk_memory_domain *domain, void *domain_ctx)
    1792             : {
    1793          14 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    1794          14 :         struct accel_buffer *accel_buf = domain_ctx;
    1795             : 
    1796          14 :         assert(domain == g_accel_domain);
    1797          14 :         assert(buf == ACCEL_BUFFER_BASE);
    1798             : 
    1799          14 :         accel_put_buf(accel_ch, accel_buf);
    1800          14 : }
    1801             : 
    1802             : static void
    1803         168 : accel_sequence_complete_task(struct spdk_accel_sequence *seq, struct spdk_accel_task *task)
    1804             : {
    1805         168 :         struct accel_io_channel *ch = seq->ch;
    1806             :         spdk_accel_step_cb cb_fn;
    1807             :         void *cb_arg;
    1808             : 
    1809         168 :         TAILQ_REMOVE(&seq->tasks, task, seq_link);
    1810         168 :         cb_fn = task->step_cb_fn;
    1811         168 :         cb_arg = task->cb_arg;
    1812         168 :         task->seq = NULL;
    1813         168 :         if (task->has_aux) {
    1814          61 :                 SLIST_INSERT_HEAD(&ch->task_aux_data_pool, task->aux, link);
    1815          61 :                 task->aux = NULL;
    1816          61 :                 task->has_aux = false;
    1817             :         }
    1818             : 
    1819         168 :         _put_task(ch, task);
    1820             : 
    1821         168 :         if (cb_fn != NULL) {
    1822         168 :                 cb_fn(cb_arg);
    1823             :         }
    1824         168 : }
    1825             : 
    1826             : static void
    1827          67 : accel_sequence_complete_tasks(struct spdk_accel_sequence *seq)
    1828             : {
    1829             :         struct spdk_accel_task *task;
    1830             : 
    1831          85 :         while (!TAILQ_EMPTY(&seq->tasks)) {
    1832          18 :                 task = TAILQ_FIRST(&seq->tasks);
    1833          18 :                 accel_sequence_complete_task(seq, task);
    1834             :         }
    1835          67 : }
    1836             : 
    1837             : static void
    1838          65 : accel_sequence_complete(struct spdk_accel_sequence *seq)
    1839             : {
    1840          65 :         spdk_accel_completion_cb cb_fn = seq->cb_fn;
    1841          65 :         void *cb_arg = seq->cb_arg;
    1842          65 :         int status = seq->status;
    1843             : 
    1844          65 :         SPDK_DEBUGLOG(accel, "Completed sequence: %p with status: %d\n", seq, status);
    1845             : 
    1846          65 :         accel_update_stats(seq->ch, sequence_executed, 1);
    1847          65 :         if (spdk_unlikely(status != 0)) {
    1848          10 :                 accel_update_stats(seq->ch, sequence_failed, 1);
    1849             :         }
    1850             : 
    1851             :         /* First notify all users that appended operations to this sequence */
    1852          65 :         accel_sequence_complete_tasks(seq);
    1853          65 :         accel_sequence_put(seq);
    1854             : 
    1855             :         /* Then notify the user that finished the sequence */
    1856          65 :         cb_fn(cb_arg, status);
    1857          65 : }
    1858             : 
    1859             : static void
    1860          28 : accel_update_virt_iov(struct iovec *diov, struct iovec *siov, struct accel_buffer *accel_buf)
    1861             : {
    1862             :         uintptr_t offset;
    1863             : 
    1864          28 :         offset = (uintptr_t)siov->iov_base & ACCEL_BUFFER_OFFSET_MASK;
    1865          28 :         assert(offset < accel_buf->len);
    1866             : 
    1867          28 :         diov->iov_base = (char *)accel_buf->buf + offset;
    1868          28 :         diov->iov_len = siov->iov_len;
    1869          28 : }
    1870             : 
    1871             : static void
    1872          10 : accel_sequence_set_virtbuf(struct spdk_accel_sequence *seq, struct accel_buffer *buf)
    1873             : {
    1874             :         struct spdk_accel_task *task;
    1875             :         struct iovec *iov;
    1876             : 
    1877             :         /* Now that we've allocated the actual data buffer for this accel_buffer, update all tasks
    1878             :          * in a sequence that were using it.
    1879             :          */
    1880          38 :         TAILQ_FOREACH(task, &seq->tasks, seq_link) {
    1881          28 :                 if (task->src_domain == g_accel_domain && task->src_domain_ctx == buf) {
    1882          11 :                         if (!task->has_aux) {
    1883          11 :                                 task->aux = SLIST_FIRST(&task->accel_ch->task_aux_data_pool);
    1884          11 :                                 assert(task->aux && "Can't allocate aux data structure");
    1885          11 :                                 task->has_aux = true;
    1886          11 :                                 SLIST_REMOVE_HEAD(&task->accel_ch->task_aux_data_pool, link);
    1887             :                         }
    1888             : 
    1889          11 :                         iov = &task->aux->iovs[SPDK_ACCEL_AXU_IOV_VIRT_SRC];
    1890          11 :                         assert(task->s.iovcnt == 1);
    1891          11 :                         accel_update_virt_iov(iov, &task->s.iovs[0], buf);
    1892          11 :                         task->src_domain = NULL;
    1893          11 :                         task->s.iovs = iov;
    1894             :                 }
    1895          28 :                 if (task->dst_domain == g_accel_domain && task->dst_domain_ctx == buf) {
    1896          17 :                         if (!task->has_aux) {
    1897           2 :                                 task->aux = SLIST_FIRST(&task->accel_ch->task_aux_data_pool);
    1898           2 :                                 assert(task->aux && "Can't allocate aux data structure");
    1899           2 :                                 task->has_aux = true;
    1900           2 :                                 SLIST_REMOVE_HEAD(&task->accel_ch->task_aux_data_pool, link);
    1901             :                         }
    1902             : 
    1903          17 :                         iov = &task->aux->iovs[SPDK_ACCEL_AXU_IOV_VIRT_DST];
    1904          17 :                         assert(task->d.iovcnt == 1);
    1905          17 :                         accel_update_virt_iov(iov, &task->d.iovs[0], buf);
    1906          17 :                         task->dst_domain = NULL;
    1907          17 :                         task->d.iovs = iov;
    1908             :                 }
    1909             :         }
    1910          10 : }
    1911             : 
    1912             : static void accel_process_sequence(struct spdk_accel_sequence *seq);
    1913             : 
    1914             : static void
    1915           3 : accel_iobuf_get_virtbuf_cb(struct spdk_iobuf_entry *entry, void *buf)
    1916             : {
    1917             :         struct accel_buffer *accel_buf;
    1918             : 
    1919           3 :         accel_buf = SPDK_CONTAINEROF(entry, struct accel_buffer, iobuf);
    1920             : 
    1921           3 :         assert(accel_buf->seq != NULL);
    1922           3 :         assert(accel_buf->buf == NULL);
    1923           3 :         accel_buf->buf = buf;
    1924             : 
    1925           3 :         assert(accel_buf->seq->state == ACCEL_SEQUENCE_STATE_AWAIT_VIRTBUF);
    1926           3 :         accel_sequence_set_state(accel_buf->seq, ACCEL_SEQUENCE_STATE_CHECK_VIRTBUF);
    1927           3 :         accel_sequence_set_virtbuf(accel_buf->seq, accel_buf);
    1928           3 :         accel_process_sequence(accel_buf->seq);
    1929           3 : }
    1930             : 
    1931             : static bool
    1932          29 : accel_sequence_alloc_buf(struct spdk_accel_sequence *seq, struct accel_buffer *buf,
    1933             :                          spdk_iobuf_get_cb cb_fn)
    1934             : {
    1935          29 :         struct accel_io_channel *ch = seq->ch;
    1936             : 
    1937          29 :         assert(buf->seq == NULL);
    1938             : 
    1939          29 :         buf->seq = seq;
    1940             : 
    1941             :         /* Buffer might be already allocated by memory domain translation. */
    1942          29 :         if (buf->buf) {
    1943           0 :                 return true;
    1944             :         }
    1945             : 
    1946          29 :         buf->buf = spdk_iobuf_get(&ch->iobuf, buf->len, &buf->iobuf, cb_fn);
    1947          29 :         if (spdk_unlikely(buf->buf == NULL)) {
    1948           5 :                 accel_update_stats(ch, retry.iobuf, 1);
    1949           5 :                 return false;
    1950             :         }
    1951             : 
    1952          24 :         return true;
    1953             : }
    1954             : 
    1955             : static bool
    1956         113 : accel_sequence_check_virtbuf(struct spdk_accel_sequence *seq, struct spdk_accel_task *task)
    1957             : {
    1958             :         /* If a task doesn't have dst/src (e.g. fill, crc32), its dst/src domain should be set to
    1959             :          * NULL */
    1960         113 :         if (task->src_domain == g_accel_domain) {
    1961           0 :                 if (!accel_sequence_alloc_buf(seq, task->src_domain_ctx,
    1962             :                                               accel_iobuf_get_virtbuf_cb)) {
    1963           0 :                         return false;
    1964             :                 }
    1965             : 
    1966           0 :                 accel_sequence_set_virtbuf(seq, task->src_domain_ctx);
    1967             :         }
    1968             : 
    1969         113 :         if (task->dst_domain == g_accel_domain) {
    1970          10 :                 if (!accel_sequence_alloc_buf(seq, task->dst_domain_ctx,
    1971             :                                               accel_iobuf_get_virtbuf_cb)) {
    1972           3 :                         return false;
    1973             :                 }
    1974             : 
    1975           7 :                 accel_sequence_set_virtbuf(seq, task->dst_domain_ctx);
    1976             :         }
    1977             : 
    1978         110 :         return true;
    1979             : }
    1980             : 
    1981             : static void
    1982           0 : accel_sequence_get_buf_cb(struct spdk_iobuf_entry *entry, void *buf)
    1983             : {
    1984             :         struct accel_buffer *accel_buf;
    1985             : 
    1986           0 :         accel_buf = SPDK_CONTAINEROF(entry, struct accel_buffer, iobuf);
    1987             : 
    1988           0 :         assert(accel_buf->seq != NULL);
    1989           0 :         assert(accel_buf->buf == NULL);
    1990           0 :         accel_buf->buf = buf;
    1991             : 
    1992           0 :         accel_sequence_set_virtbuf(accel_buf->seq, accel_buf);
    1993           0 :         accel_buf->cb_fn(accel_buf->seq, accel_buf->cb_ctx);
    1994           0 : }
    1995             : 
    1996             : bool
    1997           0 : spdk_accel_alloc_sequence_buf(struct spdk_accel_sequence *seq, void *buf,
    1998             :                               struct spdk_memory_domain *domain, void *domain_ctx,
    1999             :                               spdk_accel_sequence_get_buf_cb cb_fn, void *cb_ctx)
    2000             : {
    2001           0 :         struct accel_buffer *accel_buf = domain_ctx;
    2002             : 
    2003           0 :         assert(domain == g_accel_domain);
    2004           0 :         accel_buf->cb_fn = cb_fn;
    2005           0 :         accel_buf->cb_ctx = cb_ctx;
    2006             : 
    2007           0 :         if (!accel_sequence_alloc_buf(seq, accel_buf, accel_sequence_get_buf_cb)) {
    2008           0 :                 return false;
    2009             :         }
    2010             : 
    2011           0 :         accel_sequence_set_virtbuf(seq, accel_buf);
    2012             : 
    2013           0 :         return true;
    2014             : }
    2015             : 
    2016             : struct spdk_accel_task *
    2017          24 : spdk_accel_sequence_first_task(struct spdk_accel_sequence *seq)
    2018             : {
    2019          24 :         return TAILQ_FIRST(&seq->tasks);
    2020             : }
    2021             : 
    2022             : struct spdk_accel_task *
    2023           0 : spdk_accel_sequence_next_task(struct spdk_accel_task *task)
    2024             : {
    2025           0 :         return TAILQ_NEXT(task, seq_link);
    2026             : }
    2027             : 
    2028             : static inline void
    2029          19 : accel_set_bounce_buffer(struct spdk_accel_bounce_buffer *bounce, struct iovec **iovs,
    2030             :                         uint32_t *iovcnt, struct spdk_memory_domain **domain, void **domain_ctx,
    2031             :                         struct accel_buffer *buf)
    2032             : {
    2033          19 :         bounce->orig_iovs = *iovs;
    2034          19 :         bounce->orig_iovcnt = *iovcnt;
    2035          19 :         bounce->orig_domain = *domain;
    2036          19 :         bounce->orig_domain_ctx = *domain_ctx;
    2037          19 :         bounce->iov.iov_base = buf->buf;
    2038          19 :         bounce->iov.iov_len = buf->len;
    2039             : 
    2040          19 :         *iovs = &bounce->iov;
    2041          19 :         *iovcnt = 1;
    2042          19 :         *domain = NULL;
    2043          19 : }
    2044             : 
    2045             : static void
    2046           1 : accel_iobuf_get_src_bounce_cb(struct spdk_iobuf_entry *entry, void *buf)
    2047             : {
    2048             :         struct spdk_accel_task *task;
    2049             :         struct accel_buffer *accel_buf;
    2050             : 
    2051           1 :         accel_buf = SPDK_CONTAINEROF(entry, struct accel_buffer, iobuf);
    2052           1 :         assert(accel_buf->buf == NULL);
    2053           1 :         accel_buf->buf = buf;
    2054             : 
    2055           1 :         task = TAILQ_FIRST(&accel_buf->seq->tasks);
    2056           1 :         assert(task != NULL);
    2057             : 
    2058           1 :         assert(accel_buf->seq->state == ACCEL_SEQUENCE_STATE_AWAIT_BOUNCEBUF);
    2059           1 :         accel_sequence_set_state(accel_buf->seq, ACCEL_SEQUENCE_STATE_CHECK_BOUNCEBUF);
    2060           1 :         assert(task->aux);
    2061           1 :         assert(task->has_aux);
    2062           1 :         accel_set_bounce_buffer(&task->aux->bounce.s, &task->s.iovs, &task->s.iovcnt, &task->src_domain,
    2063             :                                 &task->src_domain_ctx, accel_buf);
    2064           1 :         accel_process_sequence(accel_buf->seq);
    2065           1 : }
    2066             : 
    2067             : static void
    2068           1 : accel_iobuf_get_dst_bounce_cb(struct spdk_iobuf_entry *entry, void *buf)
    2069             : {
    2070             :         struct spdk_accel_task *task;
    2071             :         struct accel_buffer *accel_buf;
    2072             : 
    2073           1 :         accel_buf = SPDK_CONTAINEROF(entry, struct accel_buffer, iobuf);
    2074           1 :         assert(accel_buf->buf == NULL);
    2075           1 :         accel_buf->buf = buf;
    2076             : 
    2077           1 :         task = TAILQ_FIRST(&accel_buf->seq->tasks);
    2078           1 :         assert(task != NULL);
    2079             : 
    2080           1 :         assert(accel_buf->seq->state == ACCEL_SEQUENCE_STATE_AWAIT_BOUNCEBUF);
    2081           1 :         accel_sequence_set_state(accel_buf->seq, ACCEL_SEQUENCE_STATE_CHECK_BOUNCEBUF);
    2082           1 :         assert(task->aux);
    2083           1 :         assert(task->has_aux);
    2084           1 :         accel_set_bounce_buffer(&task->aux->bounce.d, &task->d.iovs, &task->d.iovcnt, &task->dst_domain,
    2085             :                                 &task->dst_domain_ctx, accel_buf);
    2086           1 :         accel_process_sequence(accel_buf->seq);
    2087           1 : }
    2088             : 
    2089             : static int
    2090          97 : accel_sequence_check_bouncebuf(struct spdk_accel_sequence *seq, struct spdk_accel_task *task)
    2091             : {
    2092             :         struct accel_buffer *buf;
    2093             : 
    2094          97 :         if (task->src_domain != NULL) {
    2095             :                 /* By the time we're here, accel buffers should have been allocated */
    2096           9 :                 assert(task->src_domain != g_accel_domain);
    2097             : 
    2098           9 :                 if (!task->has_aux) {
    2099           8 :                         task->aux = SLIST_FIRST(&task->accel_ch->task_aux_data_pool);
    2100           8 :                         if (spdk_unlikely(!task->aux)) {
    2101           0 :                                 SPDK_ERRLOG("Can't allocate aux data structure\n");
    2102           0 :                                 assert(0);
    2103             :                                 return -EAGAIN;
    2104             :                         }
    2105           8 :                         task->has_aux = true;
    2106           8 :                         SLIST_REMOVE_HEAD(&task->accel_ch->task_aux_data_pool, link);
    2107             :                 }
    2108           9 :                 buf = accel_get_buf(seq->ch, accel_get_iovlen(task->s.iovs, task->s.iovcnt));
    2109           9 :                 if (buf == NULL) {
    2110           0 :                         SPDK_ERRLOG("Couldn't allocate buffer descriptor\n");
    2111           0 :                         return -ENOMEM;
    2112             :                 }
    2113             : 
    2114           9 :                 SLIST_INSERT_HEAD(&seq->bounce_bufs, buf, link);
    2115           9 :                 if (!accel_sequence_alloc_buf(seq, buf, accel_iobuf_get_src_bounce_cb)) {
    2116           1 :                         return -EAGAIN;
    2117             :                 }
    2118             : 
    2119           8 :                 accel_set_bounce_buffer(&task->aux->bounce.s, &task->s.iovs, &task->s.iovcnt,
    2120             :                                         &task->src_domain, &task->src_domain_ctx, buf);
    2121             :         }
    2122             : 
    2123          96 :         if (task->dst_domain != NULL) {
    2124             :                 /* By the time we're here, accel buffers should have been allocated */
    2125          10 :                 assert(task->dst_domain != g_accel_domain);
    2126             : 
    2127          10 :                 if (!task->has_aux) {
    2128           0 :                         task->aux = SLIST_FIRST(&task->accel_ch->task_aux_data_pool);
    2129           0 :                         if (spdk_unlikely(!task->aux)) {
    2130           0 :                                 SPDK_ERRLOG("Can't allocate aux data structure\n");
    2131           0 :                                 assert(0);
    2132             :                                 return -EAGAIN;
    2133             :                         }
    2134           0 :                         task->has_aux = true;
    2135           0 :                         SLIST_REMOVE_HEAD(&task->accel_ch->task_aux_data_pool, link);
    2136             :                 }
    2137          10 :                 buf = accel_get_buf(seq->ch, accel_get_iovlen(task->d.iovs, task->d.iovcnt));
    2138          10 :                 if (buf == NULL) {
    2139             :                         /* The src buffer will be released when a sequence is completed */
    2140           0 :                         SPDK_ERRLOG("Couldn't allocate buffer descriptor\n");
    2141           0 :                         return -ENOMEM;
    2142             :                 }
    2143             : 
    2144          10 :                 SLIST_INSERT_HEAD(&seq->bounce_bufs, buf, link);
    2145          10 :                 if (!accel_sequence_alloc_buf(seq, buf, accel_iobuf_get_dst_bounce_cb)) {
    2146           1 :                         return -EAGAIN;
    2147             :                 }
    2148             : 
    2149           9 :                 accel_set_bounce_buffer(&task->aux->bounce.d, &task->d.iovs, &task->d.iovcnt,
    2150             :                                         &task->dst_domain, &task->dst_domain_ctx, buf);
    2151             :         }
    2152             : 
    2153          95 :         return 0;
    2154             : }
    2155             : 
    2156             : static void
    2157           8 : accel_task_pull_data_cb(void *ctx, int status)
    2158             : {
    2159           8 :         struct spdk_accel_sequence *seq = ctx;
    2160             : 
    2161           8 :         assert(seq->state == ACCEL_SEQUENCE_STATE_AWAIT_PULL_DATA);
    2162           8 :         if (spdk_likely(status == 0)) {
    2163           7 :                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_EXEC_TASK);
    2164             :         } else {
    2165           1 :                 accel_sequence_set_fail(seq, status);
    2166             :         }
    2167             : 
    2168           8 :         accel_process_sequence(seq);
    2169           8 : }
    2170             : 
    2171             : static void
    2172           9 : accel_task_pull_data(struct spdk_accel_sequence *seq, struct spdk_accel_task *task)
    2173             : {
    2174             :         int rc;
    2175             : 
    2176           9 :         assert(task->has_aux);
    2177           9 :         assert(task->aux);
    2178           9 :         assert(task->aux->bounce.s.orig_iovs != NULL);
    2179           9 :         assert(task->aux->bounce.s.orig_domain != NULL);
    2180           9 :         assert(task->aux->bounce.s.orig_domain != g_accel_domain);
    2181           9 :         assert(!g_modules_opc[task->op_code].supports_memory_domains);
    2182             : 
    2183          36 :         rc = spdk_memory_domain_pull_data(task->aux->bounce.s.orig_domain,
    2184           9 :                                           task->aux->bounce.s.orig_domain_ctx,
    2185          18 :                                           task->aux->bounce.s.orig_iovs, task->aux->bounce.s.orig_iovcnt,
    2186             :                                           task->s.iovs, task->s.iovcnt,
    2187             :                                           accel_task_pull_data_cb, seq);
    2188           9 :         if (spdk_unlikely(rc != 0)) {
    2189           1 :                 SPDK_ERRLOG("Failed to pull data from memory domain: %s, rc: %d\n",
    2190             :                             spdk_memory_domain_get_dma_device_id(task->aux->bounce.s.orig_domain), rc);
    2191           1 :                 accel_sequence_set_fail(seq, rc);
    2192             :         }
    2193           9 : }
    2194             : 
    2195             : static void
    2196           7 : accel_task_push_data_cb(void *ctx, int status)
    2197             : {
    2198           7 :         struct spdk_accel_sequence *seq = ctx;
    2199             : 
    2200           7 :         assert(seq->state == ACCEL_SEQUENCE_STATE_AWAIT_PUSH_DATA);
    2201           7 :         if (spdk_likely(status == 0)) {
    2202           6 :                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_NEXT_TASK);
    2203             :         } else {
    2204           1 :                 accel_sequence_set_fail(seq, status);
    2205             :         }
    2206             : 
    2207           7 :         accel_process_sequence(seq);
    2208           7 : }
    2209             : 
    2210             : static void
    2211           8 : accel_task_push_data(struct spdk_accel_sequence *seq, struct spdk_accel_task *task)
    2212             : {
    2213             :         int rc;
    2214             : 
    2215           8 :         assert(task->has_aux);
    2216           8 :         assert(task->aux);
    2217           8 :         assert(task->aux->bounce.d.orig_iovs != NULL);
    2218           8 :         assert(task->aux->bounce.d.orig_domain != NULL);
    2219           8 :         assert(task->aux->bounce.d.orig_domain != g_accel_domain);
    2220           8 :         assert(!g_modules_opc[task->op_code].supports_memory_domains);
    2221             : 
    2222          32 :         rc = spdk_memory_domain_push_data(task->aux->bounce.d.orig_domain,
    2223           8 :                                           task->aux->bounce.d.orig_domain_ctx,
    2224          16 :                                           task->aux->bounce.d.orig_iovs, task->aux->bounce.d.orig_iovcnt,
    2225             :                                           task->d.iovs, task->d.iovcnt,
    2226             :                                           accel_task_push_data_cb, seq);
    2227           8 :         if (spdk_unlikely(rc != 0)) {
    2228           1 :                 SPDK_ERRLOG("Failed to push data to memory domain: %s, rc: %d\n",
    2229             :                             spdk_memory_domain_get_dma_device_id(task->aux->bounce.s.orig_domain), rc);
    2230           1 :                 accel_sequence_set_fail(seq, rc);
    2231             :         }
    2232           8 : }
    2233             : 
    2234             : static void
    2235         203 : accel_process_sequence(struct spdk_accel_sequence *seq)
    2236             : {
    2237         203 :         struct accel_io_channel *accel_ch = seq->ch;
    2238             :         struct spdk_accel_task *task;
    2239             :         enum accel_sequence_state state;
    2240             :         int rc;
    2241             : 
    2242             :         /* Prevent recursive calls to this function */
    2243         203 :         if (spdk_unlikely(seq->in_process_sequence)) {
    2244          78 :                 return;
    2245             :         }
    2246         125 :         seq->in_process_sequence = true;
    2247             : 
    2248         125 :         task = TAILQ_FIRST(&seq->tasks);
    2249             :         do {
    2250         467 :                 state = seq->state;
    2251         467 :                 switch (state) {
    2252         115 :                 case ACCEL_SEQUENCE_STATE_INIT:
    2253         115 :                         if (g_accel_driver != NULL) {
    2254          13 :                                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_DRIVER_EXEC_TASKS);
    2255          13 :                                 break;
    2256             :                         }
    2257             :                 /* Fall through */
    2258             :                 case ACCEL_SEQUENCE_STATE_CHECK_VIRTBUF:
    2259         113 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_AWAIT_VIRTBUF);
    2260         113 :                         if (!accel_sequence_check_virtbuf(seq, task)) {
    2261             :                                 /* We couldn't allocate a buffer, wait until one is available */
    2262           3 :                                 break;
    2263             :                         }
    2264         110 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_CHECK_BOUNCEBUF);
    2265             :                 /* Fall through */
    2266         112 :                 case ACCEL_SEQUENCE_STATE_CHECK_BOUNCEBUF:
    2267             :                         /* If a module supports memory domains, we don't need to allocate bounce
    2268             :                          * buffers */
    2269         112 :                         if (g_modules_opc[task->op_code].supports_memory_domains) {
    2270          15 :                                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_EXEC_TASK);
    2271          15 :                                 break;
    2272             :                         }
    2273          97 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_AWAIT_BOUNCEBUF);
    2274          97 :                         rc = accel_sequence_check_bouncebuf(seq, task);
    2275          97 :                         if (spdk_unlikely(rc != 0)) {
    2276             :                                 /* We couldn't allocate a buffer, wait until one is available */
    2277           2 :                                 if (rc == -EAGAIN) {
    2278           2 :                                         break;
    2279             :                                 }
    2280           0 :                                 accel_sequence_set_fail(seq, rc);
    2281           0 :                                 break;
    2282             :                         }
    2283          95 :                         if (task->has_aux && task->s.iovs == &task->aux->bounce.s.iov) {
    2284           9 :                                 assert(task->aux->bounce.s.orig_iovs);
    2285           9 :                                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_PULL_DATA);
    2286           9 :                                 break;
    2287             :                         }
    2288          86 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_EXEC_TASK);
    2289             :                 /* Fall through */
    2290         108 :                 case ACCEL_SEQUENCE_STATE_EXEC_TASK:
    2291         108 :                         SPDK_DEBUGLOG(accel, "Executing %s operation, sequence: %p\n",
    2292             :                                       g_opcode_strings[task->op_code], seq);
    2293             : 
    2294         108 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_AWAIT_TASK);
    2295         108 :                         rc = accel_submit_task(accel_ch, task);
    2296         108 :                         if (spdk_unlikely(rc != 0)) {
    2297           2 :                                 SPDK_ERRLOG("Failed to submit %s operation, sequence: %p\n",
    2298             :                                             g_opcode_strings[task->op_code], seq);
    2299           2 :                                 accel_sequence_set_fail(seq, rc);
    2300             :                         }
    2301         108 :                         break;
    2302           9 :                 case ACCEL_SEQUENCE_STATE_PULL_DATA:
    2303           9 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_AWAIT_PULL_DATA);
    2304           9 :                         accel_task_pull_data(seq, task);
    2305           9 :                         break;
    2306         104 :                 case ACCEL_SEQUENCE_STATE_COMPLETE_TASK:
    2307         104 :                         if (task->has_aux && task->d.iovs == &task->aux->bounce.d.iov) {
    2308           8 :                                 assert(task->aux->bounce.d.orig_iovs);
    2309           8 :                                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_PUSH_DATA);
    2310           8 :                                 break;
    2311             :                         }
    2312          96 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_NEXT_TASK);
    2313          96 :                         break;
    2314           8 :                 case ACCEL_SEQUENCE_STATE_PUSH_DATA:
    2315           8 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_AWAIT_PUSH_DATA);
    2316           8 :                         accel_task_push_data(seq, task);
    2317           8 :                         break;
    2318         102 :                 case ACCEL_SEQUENCE_STATE_NEXT_TASK:
    2319         102 :                         accel_sequence_complete_task(seq, task);
    2320             :                         /* Check if there are any remaining tasks */
    2321         102 :                         task = TAILQ_FIRST(&seq->tasks);
    2322         102 :                         if (task == NULL) {
    2323             :                                 /* Immediately return here to make sure we don't touch the sequence
    2324             :                                  * after it's completed */
    2325          52 :                                 accel_sequence_complete(seq);
    2326          52 :                                 return;
    2327             :                         }
    2328          50 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_INIT);
    2329          50 :                         break;
    2330          13 :                 case ACCEL_SEQUENCE_STATE_DRIVER_EXEC_TASKS:
    2331          13 :                         assert(!TAILQ_EMPTY(&seq->tasks));
    2332             : 
    2333          13 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_DRIVER_AWAIT_TASKS);
    2334          13 :                         rc = g_accel_driver->execute_sequence(accel_ch->driver_channel, seq);
    2335          13 :                         if (spdk_unlikely(rc != 0)) {
    2336           1 :                                 SPDK_ERRLOG("Failed to execute sequence: %p using driver: %s\n",
    2337             :                                             seq, g_accel_driver->name);
    2338           1 :                                 accel_sequence_set_fail(seq, rc);
    2339             :                         }
    2340          13 :                         break;
    2341          11 :                 case ACCEL_SEQUENCE_STATE_DRIVER_COMPLETE_TASKS:
    2342             :                         /* Get the task again, as the driver might have completed some tasks
    2343             :                          * synchronously */
    2344          11 :                         task = TAILQ_FIRST(&seq->tasks);
    2345          11 :                         if (task == NULL) {
    2346             :                                 /* Immediately return here to make sure we don't touch the sequence
    2347             :                                  * after it's completed */
    2348           3 :                                 accel_sequence_complete(seq);
    2349           3 :                                 return;
    2350             :                         }
    2351             :                         /* We don't want to execute the next task through the driver, so we
    2352             :                          * explicitly omit the INIT state here */
    2353           8 :                         accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_CHECK_VIRTBUF);
    2354           8 :                         break;
    2355          10 :                 case ACCEL_SEQUENCE_STATE_ERROR:
    2356             :                         /* Immediately return here to make sure we don't touch the sequence
    2357             :                          * after it's completed */
    2358          10 :                         assert(seq->status != 0);
    2359          10 :                         accel_sequence_complete(seq);
    2360          10 :                         return;
    2361          60 :                 case ACCEL_SEQUENCE_STATE_AWAIT_VIRTBUF:
    2362             :                 case ACCEL_SEQUENCE_STATE_AWAIT_BOUNCEBUF:
    2363             :                 case ACCEL_SEQUENCE_STATE_AWAIT_PULL_DATA:
    2364             :                 case ACCEL_SEQUENCE_STATE_AWAIT_TASK:
    2365             :                 case ACCEL_SEQUENCE_STATE_AWAIT_PUSH_DATA:
    2366             :                 case ACCEL_SEQUENCE_STATE_DRIVER_AWAIT_TASKS:
    2367          60 :                         break;
    2368           0 :                 default:
    2369           0 :                         assert(0 && "bad state");
    2370             :                         break;
    2371             :                 }
    2372         402 :         } while (seq->state != state);
    2373             : 
    2374          60 :         seq->in_process_sequence = false;
    2375             : }
    2376             : 
    2377             : static void
    2378         118 : accel_sequence_task_cb(struct spdk_accel_sequence *seq, struct spdk_accel_task *task, int status)
    2379             : {
    2380         118 :         switch (seq->state) {
    2381         106 :         case ACCEL_SEQUENCE_STATE_AWAIT_TASK:
    2382         106 :                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_COMPLETE_TASK);
    2383         106 :                 if (spdk_unlikely(status != 0)) {
    2384           2 :                         SPDK_ERRLOG("Failed to execute %s operation, sequence: %p\n",
    2385             :                                     g_opcode_strings[task->op_code], seq);
    2386           2 :                         accel_sequence_set_fail(seq, status);
    2387             :                 }
    2388             : 
    2389         106 :                 accel_process_sequence(seq);
    2390         106 :                 break;
    2391          12 :         case ACCEL_SEQUENCE_STATE_DRIVER_AWAIT_TASKS:
    2392          12 :                 assert(g_accel_driver != NULL);
    2393             :                 /* Immediately remove the task from the outstanding list to make sure the next call
    2394             :                  * to spdk_accel_sequence_first_task() doesn't return it */
    2395          12 :                 accel_sequence_complete_task(seq, task);
    2396          12 :                 if (spdk_unlikely(status != 0)) {
    2397           1 :                         SPDK_ERRLOG("Failed to execute %s operation, sequence: %p through "
    2398             :                                     "driver: %s\n", g_opcode_strings[task->op_code], seq,
    2399             :                                     g_accel_driver->name);
    2400             :                         /* Update status without using accel_sequence_set_fail() to avoid changing
    2401             :                          * seq's state to ERROR until driver calls spdk_accel_sequence_continue() */
    2402           1 :                         seq->status = status;
    2403             :                 }
    2404          12 :                 break;
    2405           0 :         default:
    2406           0 :                 assert(0 && "bad state");
    2407             :                 break;
    2408             :         }
    2409         118 : }
    2410             : 
    2411             : void
    2412          12 : spdk_accel_sequence_continue(struct spdk_accel_sequence *seq)
    2413             : {
    2414          12 :         assert(g_accel_driver != NULL);
    2415          12 :         assert(seq->state == ACCEL_SEQUENCE_STATE_DRIVER_AWAIT_TASKS);
    2416             : 
    2417          12 :         if (spdk_likely(seq->status == 0)) {
    2418          11 :                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_DRIVER_COMPLETE_TASKS);
    2419             :         } else {
    2420           1 :                 accel_sequence_set_state(seq, ACCEL_SEQUENCE_STATE_ERROR);
    2421             :         }
    2422             : 
    2423          12 :         accel_process_sequence(seq);
    2424          12 : }
    2425             : 
    2426             : static bool
    2427          43 : accel_compare_iovs(struct iovec *iova, uint32_t iovacnt, struct iovec *iovb, uint32_t iovbcnt)
    2428             : {
    2429             :         /* For now, just do a dumb check that the iovecs arrays are exactly the same */
    2430          43 :         if (iovacnt != iovbcnt) {
    2431           0 :                 return false;
    2432             :         }
    2433             : 
    2434          43 :         return memcmp(iova, iovb, sizeof(*iova) * iovacnt) == 0;
    2435             : }
    2436             : 
    2437             : static bool
    2438          30 : accel_task_set_dstbuf(struct spdk_accel_task *task, struct spdk_accel_task *next)
    2439             : {
    2440             :         struct spdk_accel_task *prev;
    2441             : 
    2442          30 :         switch (task->op_code) {
    2443          24 :         case SPDK_ACCEL_OPC_DECOMPRESS:
    2444             :         case SPDK_ACCEL_OPC_FILL:
    2445             :         case SPDK_ACCEL_OPC_ENCRYPT:
    2446             :         case SPDK_ACCEL_OPC_DECRYPT:
    2447             :         case SPDK_ACCEL_OPC_DIF_GENERATE_COPY:
    2448             :         case SPDK_ACCEL_OPC_DIF_VERIFY_COPY:
    2449          24 :                 if (task->dst_domain != next->src_domain) {
    2450           0 :                         return false;
    2451             :                 }
    2452          24 :                 if (!accel_compare_iovs(task->d.iovs, task->d.iovcnt,
    2453             :                                         next->s.iovs, next->s.iovcnt)) {
    2454           1 :                         return false;
    2455             :                 }
    2456          23 :                 task->d.iovs = next->d.iovs;
    2457          23 :                 task->d.iovcnt = next->d.iovcnt;
    2458          23 :                 task->dst_domain = next->dst_domain;
    2459          23 :                 task->dst_domain_ctx = next->dst_domain_ctx;
    2460          23 :                 break;
    2461           6 :         case SPDK_ACCEL_OPC_CRC32C:
    2462             :         case SPDK_ACCEL_OPC_DIX_GENERATE:
    2463             :         case SPDK_ACCEL_OPC_DIX_VERIFY:
    2464             :                 /* crc32 and dix_generate/verify are special, because they do not have a dst buffer */
    2465           6 :                 if (task->src_domain != next->src_domain) {
    2466           0 :                         return false;
    2467             :                 }
    2468           6 :                 if (!accel_compare_iovs(task->s.iovs, task->s.iovcnt,
    2469             :                                         next->s.iovs, next->s.iovcnt)) {
    2470           1 :                         return false;
    2471             :                 }
    2472             :                 /* We can only change operation's buffer if we can change previous task's buffer */
    2473           5 :                 prev = TAILQ_PREV(task, accel_sequence_tasks, seq_link);
    2474           5 :                 if (prev == NULL) {
    2475           1 :                         return false;
    2476             :                 }
    2477           4 :                 if (!accel_task_set_dstbuf(prev, next)) {
    2478           0 :                         return false;
    2479             :                 }
    2480           4 :                 task->s.iovs = next->d.iovs;
    2481           4 :                 task->s.iovcnt = next->d.iovcnt;
    2482           4 :                 task->src_domain = next->dst_domain;
    2483           4 :                 task->src_domain_ctx = next->dst_domain_ctx;
    2484           4 :                 break;
    2485           0 :         default:
    2486           0 :                 return false;
    2487             :         }
    2488             : 
    2489          27 :         return true;
    2490             : }
    2491             : 
    2492             : static void
    2493          96 : accel_sequence_merge_tasks(struct spdk_accel_sequence *seq, struct spdk_accel_task *task,
    2494             :                            struct spdk_accel_task **next_task)
    2495             : {
    2496          96 :         struct spdk_accel_task *next = *next_task;
    2497             : 
    2498          96 :         switch (task->op_code) {
    2499          15 :         case SPDK_ACCEL_OPC_COPY:
    2500             :                 /* We only allow changing src of operations that actually have a src, e.g. we never
    2501             :                  * do it for fill.  Theoretically, it is possible, but we'd have to be careful to
    2502             :                  * change the src of the operation after fill (which in turn could also be a fill).
    2503             :                  * So, for the sake of simplicity, skip this type of operations for now.
    2504             :                  */
    2505          15 :                 if (next->op_code != SPDK_ACCEL_OPC_DECOMPRESS &&
    2506           9 :                     next->op_code != SPDK_ACCEL_OPC_COPY &&
    2507           8 :                     next->op_code != SPDK_ACCEL_OPC_ENCRYPT &&
    2508           5 :                     next->op_code != SPDK_ACCEL_OPC_DECRYPT &&
    2509           2 :                     next->op_code != SPDK_ACCEL_OPC_COPY_CRC32C &&
    2510           2 :                     next->op_code != SPDK_ACCEL_OPC_DIF_GENERATE_COPY &&
    2511           2 :                     next->op_code != SPDK_ACCEL_OPC_DIF_VERIFY_COPY) {
    2512           2 :                         break;
    2513             :                 }
    2514          13 :                 if (task->dst_domain != next->src_domain) {
    2515           0 :                         break;
    2516             :                 }
    2517          13 :                 if (!accel_compare_iovs(task->d.iovs, task->d.iovcnt,
    2518             :                                         next->s.iovs, next->s.iovcnt)) {
    2519           0 :                         break;
    2520             :                 }
    2521          13 :                 next->s.iovs = task->s.iovs;
    2522          13 :                 next->s.iovcnt = task->s.iovcnt;
    2523          13 :                 next->src_domain = task->src_domain;
    2524          13 :                 next->src_domain_ctx = task->src_domain_ctx;
    2525          13 :                 accel_sequence_complete_task(seq, task);
    2526          13 :                 break;
    2527          81 :         case SPDK_ACCEL_OPC_DECOMPRESS:
    2528             :         case SPDK_ACCEL_OPC_FILL:
    2529             :         case SPDK_ACCEL_OPC_ENCRYPT:
    2530             :         case SPDK_ACCEL_OPC_DECRYPT:
    2531             :         case SPDK_ACCEL_OPC_CRC32C:
    2532             :         case SPDK_ACCEL_OPC_DIF_GENERATE_COPY:
    2533             :         case SPDK_ACCEL_OPC_DIF_VERIFY_COPY:
    2534             :         case SPDK_ACCEL_OPC_DIX_GENERATE:
    2535             :         case SPDK_ACCEL_OPC_DIX_VERIFY:
    2536             :                 /* We can only merge tasks when one of them is a copy */
    2537          81 :                 if (next->op_code != SPDK_ACCEL_OPC_COPY) {
    2538          55 :                         break;
    2539             :                 }
    2540          26 :                 if (!accel_task_set_dstbuf(task, next)) {
    2541           3 :                         break;
    2542             :                 }
    2543             :                 /* We're removing next_task from the tasks queue, so we need to update its pointer,
    2544             :                  * so that the TAILQ_FOREACH_SAFE() loop below works correctly */
    2545          23 :                 *next_task = TAILQ_NEXT(next, seq_link);
    2546          23 :                 accel_sequence_complete_task(seq, next);
    2547          23 :                 break;
    2548           0 :         default:
    2549           0 :                 assert(0 && "bad opcode");
    2550             :                 break;
    2551             :         }
    2552          96 : }
    2553             : 
    2554             : void
    2555          65 : spdk_accel_sequence_finish(struct spdk_accel_sequence *seq,
    2556             :                            spdk_accel_completion_cb cb_fn, void *cb_arg)
    2557             : {
    2558          65 :         struct spdk_accel_task *task, *next;
    2559             : 
    2560             :         /* Try to remove any copy operations if possible */
    2561         161 :         TAILQ_FOREACH_SAFE(task, &seq->tasks, seq_link, next) {
    2562         140 :                 if (next == NULL) {
    2563          44 :                         break;
    2564             :                 }
    2565          96 :                 accel_sequence_merge_tasks(seq, task, &next);
    2566             :         }
    2567             : 
    2568          65 :         seq->cb_fn = cb_fn;
    2569          65 :         seq->cb_arg = cb_arg;
    2570             : 
    2571          65 :         accel_process_sequence(seq);
    2572          65 : }
    2573             : 
    2574             : void
    2575           5 : spdk_accel_sequence_reverse(struct spdk_accel_sequence *seq)
    2576             : {
    2577           5 :         struct accel_sequence_tasks tasks = TAILQ_HEAD_INITIALIZER(tasks);
    2578             :         struct spdk_accel_task *task;
    2579             : 
    2580           5 :         TAILQ_SWAP(&tasks, &seq->tasks, spdk_accel_task, seq_link);
    2581             : 
    2582          17 :         while (!TAILQ_EMPTY(&tasks)) {
    2583          12 :                 task = TAILQ_FIRST(&tasks);
    2584          12 :                 TAILQ_REMOVE(&tasks, task, seq_link);
    2585          12 :                 TAILQ_INSERT_HEAD(&seq->tasks, task, seq_link);
    2586             :         }
    2587           5 : }
    2588             : 
    2589             : void
    2590           3 : spdk_accel_sequence_abort(struct spdk_accel_sequence *seq)
    2591             : {
    2592           3 :         if (seq == NULL) {
    2593           1 :                 return;
    2594             :         }
    2595             : 
    2596           2 :         accel_sequence_complete_tasks(seq);
    2597           2 :         accel_sequence_put(seq);
    2598             : }
    2599             : 
    2600             : struct spdk_memory_domain *
    2601           0 : spdk_accel_get_memory_domain(void)
    2602             : {
    2603           0 :         return g_accel_domain;
    2604             : }
    2605             : 
    2606             : static struct spdk_accel_module_if *
    2607           7 : _module_find_by_name(const char *name)
    2608             : {
    2609           7 :         struct spdk_accel_module_if *accel_module = NULL;
    2610             : 
    2611          16 :         TAILQ_FOREACH(accel_module, &spdk_accel_module_list, tailq) {
    2612          10 :                 if (strcmp(name, accel_module->name) == 0) {
    2613           1 :                         break;
    2614             :                 }
    2615             :         }
    2616             : 
    2617           7 :         return accel_module;
    2618             : }
    2619             : 
    2620             : static inline struct spdk_accel_crypto_key *
    2621           6 : _accel_crypto_key_get(const char *name)
    2622             : {
    2623             :         struct spdk_accel_crypto_key *key;
    2624             : 
    2625           6 :         assert(spdk_spin_held(&g_keyring_spin));
    2626             : 
    2627           6 :         TAILQ_FOREACH(key, &g_keyring, link) {
    2628           4 :                 if (strcmp(name, key->param.key_name) == 0) {
    2629           4 :                         return key;
    2630             :                 }
    2631             :         }
    2632             : 
    2633           2 :         return NULL;
    2634             : }
    2635             : 
    2636             : static void
    2637           2 : accel_crypto_key_free_mem(struct spdk_accel_crypto_key *key)
    2638             : {
    2639           2 :         if (key->param.hex_key) {
    2640           2 :                 spdk_memset_s(key->param.hex_key, key->key_size * 2, 0, key->key_size * 2);
    2641           2 :                 free(key->param.hex_key);
    2642             :         }
    2643           2 :         if (key->param.hex_key2) {
    2644           2 :                 spdk_memset_s(key->param.hex_key2, key->key2_size * 2, 0, key->key2_size * 2);
    2645           2 :                 free(key->param.hex_key2);
    2646             :         }
    2647           2 :         free(key->param.tweak_mode);
    2648           2 :         free(key->param.key_name);
    2649           2 :         free(key->param.cipher);
    2650           2 :         if (key->key) {
    2651           2 :                 spdk_memset_s(key->key, key->key_size, 0, key->key_size);
    2652           2 :                 free(key->key);
    2653             :         }
    2654           2 :         if (key->key2) {
    2655           2 :                 spdk_memset_s(key->key2, key->key2_size, 0, key->key2_size);
    2656           2 :                 free(key->key2);
    2657             :         }
    2658           2 :         free(key);
    2659           2 : }
    2660             : 
    2661             : static void
    2662           2 : accel_crypto_key_destroy_unsafe(struct spdk_accel_crypto_key *key)
    2663             : {
    2664           2 :         assert(key->module_if);
    2665           2 :         assert(key->module_if->crypto_key_deinit);
    2666             : 
    2667           2 :         key->module_if->crypto_key_deinit(key);
    2668           2 :         accel_crypto_key_free_mem(key);
    2669           2 : }
    2670             : 
    2671             : /*
    2672             :  * This function mitigates a timing side channel which could be caused by using strcmp()
    2673             :  * Please refer to chapter "Mitigating Information Leakage Based on Variable Timing" in
    2674             :  * the article [1] for more details
    2675             :  * [1] https://www.intel.com/content/www/us/en/developer/articles/technical/software-security-guidance/secure-coding/mitigate-timing-side-channel-crypto-implementation.html
    2676             :  */
    2677             : static bool
    2678           2 : accel_aes_xts_keys_equal(const char *k1, size_t k1_len, const char *k2, size_t k2_len)
    2679             : {
    2680             :         size_t i;
    2681           2 :         volatile size_t x = k1_len ^ k2_len;
    2682             : 
    2683          34 :         for (i = 0; ((i < k1_len) & (i < k2_len)); i++) {
    2684          32 :                 x |= k1[i] ^ k2[i];
    2685             :         }
    2686             : 
    2687           2 :         return x == 0;
    2688             : }
    2689             : 
    2690             : static const char *g_tweak_modes[] = {
    2691             :         [SPDK_ACCEL_CRYPTO_TWEAK_MODE_SIMPLE_LBA] = "SIMPLE_LBA",
    2692             :         [SPDK_ACCEL_CRYPTO_TWEAK_MODE_JOIN_NEG_LBA_WITH_LBA] = "JOIN_NEG_LBA_WITH_LBA",
    2693             :         [SPDK_ACCEL_CRYPTO_TWEAK_MODE_INCR_512_FULL_LBA] = "INCR_512_FULL_LBA",
    2694             :         [SPDK_ACCEL_CRYPTO_TWEAK_MODE_INCR_512_UPPER_LBA] = "INCR_512_UPPER_LBA",
    2695             : };
    2696             : 
    2697             : static const char *g_ciphers[] = {
    2698             :         [SPDK_ACCEL_CIPHER_AES_CBC] = "AES_CBC",
    2699             :         [SPDK_ACCEL_CIPHER_AES_XTS] = "AES_XTS",
    2700             : };
    2701             : 
    2702             : int
    2703           2 : spdk_accel_crypto_key_create(const struct spdk_accel_crypto_key_create_param *param)
    2704             : {
    2705             :         struct spdk_accel_module_if *module;
    2706             :         struct spdk_accel_crypto_key *key;
    2707             :         size_t hex_key_size, hex_key2_size;
    2708           2 :         bool found = false;
    2709             :         size_t i;
    2710             :         int rc;
    2711             : 
    2712           2 :         if (!param || !param->hex_key || !param->cipher || !param->key_name) {
    2713           0 :                 return -EINVAL;
    2714             :         }
    2715             : 
    2716           2 :         if (g_modules_opc[SPDK_ACCEL_OPC_ENCRYPT].module != g_modules_opc[SPDK_ACCEL_OPC_DECRYPT].module) {
    2717             :                 /* hardly ever possible, but let's check and warn the user */
    2718           0 :                 SPDK_ERRLOG("Different accel modules are used for encryption and decryption\n");
    2719             :         }
    2720           2 :         module = g_modules_opc[SPDK_ACCEL_OPC_ENCRYPT].module;
    2721             : 
    2722           2 :         if (!module) {
    2723           0 :                 SPDK_ERRLOG("No accel module found assigned for crypto operation\n");
    2724           0 :                 return -ENOENT;
    2725             :         }
    2726             : 
    2727           2 :         if (!module->crypto_key_init || !module->crypto_supports_cipher) {
    2728           0 :                 SPDK_ERRLOG("Module %s doesn't support crypto operations\n", module->name);
    2729           0 :                 return -ENOTSUP;
    2730             :         }
    2731             : 
    2732           2 :         key = calloc(1, sizeof(*key));
    2733           2 :         if (!key) {
    2734           0 :                 return -ENOMEM;
    2735             :         }
    2736             : 
    2737           2 :         key->param.key_name = strdup(param->key_name);
    2738           2 :         if (!key->param.key_name) {
    2739           0 :                 rc = -ENOMEM;
    2740           0 :                 goto error;
    2741             :         }
    2742             : 
    2743           4 :         for (i = 0; i < SPDK_COUNTOF(g_ciphers); ++i) {
    2744           4 :                 assert(g_ciphers[i]);
    2745             : 
    2746           4 :                 if (strncmp(param->cipher, g_ciphers[i], strlen(g_ciphers[i])) == 0) {
    2747           2 :                         key->cipher = i;
    2748           2 :                         found = true;
    2749           2 :                         break;
    2750             :                 }
    2751             :         }
    2752             : 
    2753           2 :         if (!found) {
    2754           0 :                 SPDK_ERRLOG("Failed to parse cipher\n");
    2755           0 :                 rc = -EINVAL;
    2756           0 :                 goto error;
    2757             :         }
    2758             : 
    2759           2 :         key->param.cipher = strdup(param->cipher);
    2760           2 :         if (!key->param.cipher) {
    2761           0 :                 rc = -ENOMEM;
    2762           0 :                 goto error;
    2763             :         }
    2764             : 
    2765           2 :         hex_key_size = strnlen(param->hex_key, SPDK_ACCEL_CRYPTO_KEY_MAX_HEX_LENGTH);
    2766           2 :         if (hex_key_size == SPDK_ACCEL_CRYPTO_KEY_MAX_HEX_LENGTH) {
    2767           0 :                 SPDK_ERRLOG("key1 size exceeds max %d\n", SPDK_ACCEL_CRYPTO_KEY_MAX_HEX_LENGTH);
    2768           0 :                 rc = -EINVAL;
    2769           0 :                 goto error;
    2770             :         }
    2771             : 
    2772           2 :         if (hex_key_size == 0) {
    2773           0 :                 SPDK_ERRLOG("key1 size cannot be 0\n");
    2774           0 :                 rc = -EINVAL;
    2775           0 :                 goto error;
    2776             :         }
    2777             : 
    2778           2 :         key->param.hex_key = strdup(param->hex_key);
    2779           2 :         if (!key->param.hex_key) {
    2780           0 :                 rc = -ENOMEM;
    2781           0 :                 goto error;
    2782             :         }
    2783             : 
    2784           2 :         key->key_size = hex_key_size / 2;
    2785           2 :         key->key = spdk_unhexlify(key->param.hex_key);
    2786           2 :         if (!key->key) {
    2787           0 :                 SPDK_ERRLOG("Failed to unhexlify key1\n");
    2788           0 :                 rc = -EINVAL;
    2789           0 :                 goto error;
    2790             :         }
    2791             : 
    2792           2 :         if (param->hex_key2) {
    2793           2 :                 hex_key2_size = strnlen(param->hex_key2, SPDK_ACCEL_CRYPTO_KEY_MAX_HEX_LENGTH);
    2794           2 :                 if (hex_key2_size == SPDK_ACCEL_CRYPTO_KEY_MAX_HEX_LENGTH) {
    2795           0 :                         SPDK_ERRLOG("key2 size exceeds max %d\n", SPDK_ACCEL_CRYPTO_KEY_MAX_HEX_LENGTH);
    2796           0 :                         rc = -EINVAL;
    2797           0 :                         goto error;
    2798             :                 }
    2799             : 
    2800           2 :                 if (hex_key2_size == 0) {
    2801           0 :                         SPDK_ERRLOG("key2 size cannot be 0\n");
    2802           0 :                         rc = -EINVAL;
    2803           0 :                         goto error;
    2804             :                 }
    2805             : 
    2806           2 :                 key->param.hex_key2 = strdup(param->hex_key2);
    2807           2 :                 if (!key->param.hex_key2) {
    2808           0 :                         rc = -ENOMEM;
    2809           0 :                         goto error;
    2810             :                 }
    2811             : 
    2812           2 :                 key->key2_size = hex_key2_size / 2;
    2813           2 :                 key->key2 = spdk_unhexlify(key->param.hex_key2);
    2814           2 :                 if (!key->key2) {
    2815           0 :                         SPDK_ERRLOG("Failed to unhexlify key2\n");
    2816           0 :                         rc = -EINVAL;
    2817           0 :                         goto error;
    2818             :                 }
    2819             :         }
    2820             : 
    2821           2 :         key->tweak_mode = ACCEL_CRYPTO_TWEAK_MODE_DEFAULT;
    2822           2 :         if (param->tweak_mode) {
    2823           0 :                 found = false;
    2824             : 
    2825           0 :                 key->param.tweak_mode = strdup(param->tweak_mode);
    2826           0 :                 if (!key->param.tweak_mode) {
    2827           0 :                         rc = -ENOMEM;
    2828           0 :                         goto error;
    2829             :                 }
    2830             : 
    2831           0 :                 for (i = 0; i < SPDK_COUNTOF(g_tweak_modes); ++i) {
    2832           0 :                         assert(g_tweak_modes[i]);
    2833             : 
    2834           0 :                         if (strncmp(param->tweak_mode, g_tweak_modes[i], strlen(g_tweak_modes[i])) == 0) {
    2835           0 :                                 key->tweak_mode = i;
    2836           0 :                                 found = true;
    2837           0 :                                 break;
    2838             :                         }
    2839             :                 }
    2840             : 
    2841           0 :                 if (!found) {
    2842           0 :                         SPDK_ERRLOG("Failed to parse tweak mode\n");
    2843           0 :                         rc = -EINVAL;
    2844           0 :                         goto error;
    2845             :                 }
    2846             :         }
    2847             : 
    2848           2 :         if ((!module->crypto_supports_tweak_mode && key->tweak_mode != ACCEL_CRYPTO_TWEAK_MODE_DEFAULT) ||
    2849           2 :             (module->crypto_supports_tweak_mode && !module->crypto_supports_tweak_mode(key->tweak_mode))) {
    2850           0 :                 SPDK_ERRLOG("Module %s doesn't support %s tweak mode\n", module->name,
    2851             :                             g_tweak_modes[key->tweak_mode]);
    2852           0 :                 rc = -EINVAL;
    2853           0 :                 goto error;
    2854             :         }
    2855             : 
    2856           2 :         if (!module->crypto_supports_cipher(key->cipher, key->key_size)) {
    2857           0 :                 SPDK_ERRLOG("Module %s doesn't support %s cipher with %zu key size\n", module->name,
    2858             :                             g_ciphers[key->cipher], key->key_size);
    2859           0 :                 rc = -EINVAL;
    2860           0 :                 goto error;
    2861             :         }
    2862             : 
    2863           2 :         if (key->cipher == SPDK_ACCEL_CIPHER_AES_XTS) {
    2864           2 :                 if (!key->key2) {
    2865           0 :                         SPDK_ERRLOG("%s key2 is missing\n", g_ciphers[key->cipher]);
    2866           0 :                         rc = -EINVAL;
    2867           0 :                         goto error;
    2868             :                 }
    2869             : 
    2870           2 :                 if (key->key_size != key->key2_size) {
    2871           0 :                         SPDK_ERRLOG("%s key size %zu is not equal to key2 size %zu\n", g_ciphers[key->cipher],
    2872             :                                     key->key_size,
    2873             :                                     key->key2_size);
    2874           0 :                         rc = -EINVAL;
    2875           0 :                         goto error;
    2876             :                 }
    2877             : 
    2878           2 :                 if (accel_aes_xts_keys_equal(key->key, key->key_size, key->key2, key->key2_size)) {
    2879           0 :                         SPDK_ERRLOG("%s identical keys are not secure\n", g_ciphers[key->cipher]);
    2880           0 :                         rc = -EINVAL;
    2881           0 :                         goto error;
    2882             :                 }
    2883             :         }
    2884             : 
    2885           2 :         if (key->cipher == SPDK_ACCEL_CIPHER_AES_CBC) {
    2886           0 :                 if (key->key2_size) {
    2887           0 :                         SPDK_ERRLOG("%s doesn't use key2\n", g_ciphers[key->cipher]);
    2888           0 :                         rc = -EINVAL;
    2889           0 :                         goto error;
    2890             :                 }
    2891             :         }
    2892             : 
    2893           2 :         key->module_if = module;
    2894             : 
    2895           2 :         spdk_spin_lock(&g_keyring_spin);
    2896           2 :         if (_accel_crypto_key_get(param->key_name)) {
    2897           0 :                 rc = -EEXIST;
    2898             :         } else {
    2899           2 :                 rc = module->crypto_key_init(key);
    2900           2 :                 if (rc) {
    2901           0 :                         SPDK_ERRLOG("Module %s failed to initialize crypto key\n", module->name);
    2902             :                 } else {
    2903           2 :                         TAILQ_INSERT_TAIL(&g_keyring, key, link);
    2904             :                 }
    2905             :         }
    2906           2 :         spdk_spin_unlock(&g_keyring_spin);
    2907             : 
    2908           2 :         if (rc) {
    2909           0 :                 goto error;
    2910             :         }
    2911             : 
    2912           2 :         return 0;
    2913             : 
    2914           0 : error:
    2915           0 :         accel_crypto_key_free_mem(key);
    2916           0 :         return rc;
    2917             : }
    2918             : 
    2919             : int
    2920           2 : spdk_accel_crypto_key_destroy(struct spdk_accel_crypto_key *key)
    2921             : {
    2922           2 :         if (!key || !key->module_if) {
    2923           0 :                 return -EINVAL;
    2924             :         }
    2925             : 
    2926           2 :         spdk_spin_lock(&g_keyring_spin);
    2927           2 :         if (!_accel_crypto_key_get(key->param.key_name)) {
    2928           0 :                 spdk_spin_unlock(&g_keyring_spin);
    2929           0 :                 return -ENOENT;
    2930             :         }
    2931           2 :         TAILQ_REMOVE(&g_keyring, key, link);
    2932           2 :         spdk_spin_unlock(&g_keyring_spin);
    2933             : 
    2934           2 :         accel_crypto_key_destroy_unsafe(key);
    2935             : 
    2936           2 :         return 0;
    2937             : }
    2938             : 
    2939             : struct spdk_accel_crypto_key *
    2940           2 : spdk_accel_crypto_key_get(const char *name)
    2941             : {
    2942             :         struct spdk_accel_crypto_key *key;
    2943             : 
    2944           2 :         spdk_spin_lock(&g_keyring_spin);
    2945           2 :         key = _accel_crypto_key_get(name);
    2946           2 :         spdk_spin_unlock(&g_keyring_spin);
    2947             : 
    2948           2 :         return key;
    2949             : }
    2950             : 
    2951             : /* Helper function when accel modules register with the framework. */
    2952             : void
    2953           5 : spdk_accel_module_list_add(struct spdk_accel_module_if *accel_module)
    2954             : {
    2955             :         struct spdk_accel_module_if *tmp;
    2956             : 
    2957           5 :         if (_module_find_by_name(accel_module->name)) {
    2958           0 :                 SPDK_NOTICELOG("Module %s already registered\n", accel_module->name);
    2959           0 :                 assert(false);
    2960             :                 return;
    2961             :         }
    2962             : 
    2963           8 :         TAILQ_FOREACH(tmp, &spdk_accel_module_list, tailq) {
    2964           5 :                 if (accel_module->priority < tmp->priority) {
    2965           2 :                         break;
    2966             :                 }
    2967             :         }
    2968             : 
    2969           5 :         if (tmp != NULL) {
    2970           2 :                 TAILQ_INSERT_BEFORE(tmp, accel_module, tailq);
    2971             :         } else {
    2972           3 :                 TAILQ_INSERT_TAIL(&spdk_accel_module_list, accel_module, tailq);
    2973             :         }
    2974             : }
    2975             : 
    2976             : /* Framework level channel create callback. */
    2977             : static int
    2978          16 : accel_create_channel(void *io_device, void *ctx_buf)
    2979             : {
    2980          16 :         struct accel_io_channel *accel_ch = ctx_buf;
    2981             :         struct spdk_accel_task *accel_task;
    2982             :         struct spdk_accel_task_aux_data *accel_task_aux;
    2983             :         struct spdk_accel_sequence *seq;
    2984             :         struct accel_buffer *buf;
    2985             :         size_t task_size_aligned;
    2986             :         uint8_t *task_mem;
    2987          16 :         uint32_t i = 0, j;
    2988             :         int rc;
    2989             : 
    2990          16 :         task_size_aligned = SPDK_ALIGN_CEIL(g_max_accel_module_size, SPDK_CACHE_LINE_SIZE);
    2991          16 :         accel_ch->task_pool_base = aligned_alloc(SPDK_CACHE_LINE_SIZE,
    2992          16 :                                    g_opts.task_count * task_size_aligned);
    2993          16 :         if (!accel_ch->task_pool_base) {
    2994           0 :                 return -ENOMEM;
    2995             :         }
    2996          16 :         memset(accel_ch->task_pool_base, 0, g_opts.task_count * task_size_aligned);
    2997             : 
    2998          16 :         accel_ch->seq_pool_base = aligned_alloc(SPDK_CACHE_LINE_SIZE,
    2999          16 :                                                 g_opts.sequence_count * sizeof(struct spdk_accel_sequence));
    3000          16 :         if (accel_ch->seq_pool_base == NULL) {
    3001           0 :                 goto err;
    3002             :         }
    3003          16 :         memset(accel_ch->seq_pool_base, 0, g_opts.sequence_count * sizeof(struct spdk_accel_sequence));
    3004             : 
    3005          16 :         accel_ch->task_aux_data_base = calloc(g_opts.task_count, sizeof(struct spdk_accel_task_aux_data));
    3006          16 :         if (accel_ch->task_aux_data_base == NULL) {
    3007           0 :                 goto err;
    3008             :         }
    3009             : 
    3010          16 :         accel_ch->buf_pool_base = calloc(g_opts.buf_count, sizeof(struct accel_buffer));
    3011          16 :         if (accel_ch->buf_pool_base == NULL) {
    3012           0 :                 goto err;
    3013             :         }
    3014             : 
    3015          16 :         STAILQ_INIT(&accel_ch->task_pool);
    3016          16 :         SLIST_INIT(&accel_ch->task_aux_data_pool);
    3017          16 :         SLIST_INIT(&accel_ch->seq_pool);
    3018          16 :         SLIST_INIT(&accel_ch->buf_pool);
    3019             : 
    3020          16 :         task_mem = accel_ch->task_pool_base;
    3021       32784 :         for (i = 0; i < g_opts.task_count; i++) {
    3022       32768 :                 accel_task = (struct spdk_accel_task *)task_mem;
    3023       32768 :                 accel_task->aux = NULL;
    3024       32768 :                 STAILQ_INSERT_TAIL(&accel_ch->task_pool, accel_task, link);
    3025       32768 :                 task_mem += task_size_aligned;
    3026       32768 :                 accel_task_aux = &accel_ch->task_aux_data_base[i];
    3027       32768 :                 SLIST_INSERT_HEAD(&accel_ch->task_aux_data_pool, accel_task_aux, link);
    3028             :         }
    3029       32784 :         for (i = 0; i < g_opts.sequence_count; i++) {
    3030       32768 :                 seq = &accel_ch->seq_pool_base[i];
    3031       32768 :                 SLIST_INSERT_HEAD(&accel_ch->seq_pool, seq, link);
    3032             :         }
    3033       32784 :         for (i = 0; i < g_opts.buf_count; i++) {
    3034       32768 :                 buf = &accel_ch->buf_pool_base[i];
    3035       32768 :                 SLIST_INSERT_HEAD(&accel_ch->buf_pool, buf, link);
    3036             :         }
    3037             : 
    3038             :         /* Assign modules and get IO channels for each */
    3039         288 :         for (i = 0; i < SPDK_ACCEL_OPC_LAST; i++) {
    3040         272 :                 accel_ch->module_ch[i] = g_modules_opc[i].module->get_io_channel();
    3041             :                 /* This can happen if idxd runs out of channels. */
    3042         272 :                 if (accel_ch->module_ch[i] == NULL) {
    3043           0 :                         SPDK_ERRLOG("Module %s failed to get io channel\n", g_modules_opc[i].module->name);
    3044           0 :                         goto err;
    3045             :                 }
    3046             :         }
    3047             : 
    3048          16 :         if (g_accel_driver != NULL) {
    3049           0 :                 accel_ch->driver_channel = g_accel_driver->get_io_channel();
    3050           0 :                 if (accel_ch->driver_channel == NULL) {
    3051           0 :                         SPDK_ERRLOG("Failed to get driver's IO channel\n");
    3052           0 :                         goto err;
    3053             :                 }
    3054             :         }
    3055             : 
    3056          16 :         rc = spdk_iobuf_channel_init(&accel_ch->iobuf, "accel", g_opts.small_cache_size,
    3057             :                                      g_opts.large_cache_size);
    3058          16 :         if (rc != 0) {
    3059           0 :                 SPDK_ERRLOG("Failed to initialize iobuf accel channel\n");
    3060           0 :                 goto err;
    3061             :         }
    3062             : 
    3063          16 :         return 0;
    3064           0 : err:
    3065           0 :         if (accel_ch->driver_channel != NULL) {
    3066           0 :                 spdk_put_io_channel(accel_ch->driver_channel);
    3067             :         }
    3068           0 :         for (j = 0; j < i; j++) {
    3069           0 :                 spdk_put_io_channel(accel_ch->module_ch[j]);
    3070             :         }
    3071           0 :         free(accel_ch->task_pool_base);
    3072           0 :         free(accel_ch->task_aux_data_base);
    3073           0 :         free(accel_ch->seq_pool_base);
    3074           0 :         free(accel_ch->buf_pool_base);
    3075             : 
    3076           0 :         return -ENOMEM;
    3077             : }
    3078             : 
    3079             : static void
    3080          16 : accel_add_stats(struct accel_stats *total, struct accel_stats *stats)
    3081             : {
    3082             :         int i;
    3083             : 
    3084          16 :         total->sequence_executed += stats->sequence_executed;
    3085          16 :         total->sequence_failed += stats->sequence_failed;
    3086          16 :         total->sequence_outstanding += stats->sequence_outstanding;
    3087          16 :         total->task_outstanding += stats->task_outstanding;
    3088          16 :         total->retry.task += stats->retry.task;
    3089          16 :         total->retry.sequence += stats->retry.sequence;
    3090          16 :         total->retry.iobuf += stats->retry.iobuf;
    3091          16 :         total->retry.bufdesc += stats->retry.bufdesc;
    3092         288 :         for (i = 0; i < SPDK_ACCEL_OPC_LAST; ++i) {
    3093         272 :                 total->operations[i].executed += stats->operations[i].executed;
    3094         272 :                 total->operations[i].failed += stats->operations[i].failed;
    3095         272 :                 total->operations[i].num_bytes += stats->operations[i].num_bytes;
    3096             :         }
    3097          16 : }
    3098             : 
    3099             : /* Framework level channel destroy callback. */
    3100             : static void
    3101          16 : accel_destroy_channel(void *io_device, void *ctx_buf)
    3102             : {
    3103          16 :         struct accel_io_channel *accel_ch = ctx_buf;
    3104             :         int i;
    3105             : 
    3106          16 :         spdk_iobuf_channel_fini(&accel_ch->iobuf);
    3107             : 
    3108          16 :         if (accel_ch->driver_channel != NULL) {
    3109           0 :                 spdk_put_io_channel(accel_ch->driver_channel);
    3110             :         }
    3111             : 
    3112         288 :         for (i = 0; i < SPDK_ACCEL_OPC_LAST; i++) {
    3113         272 :                 assert(accel_ch->module_ch[i] != NULL);
    3114         272 :                 spdk_put_io_channel(accel_ch->module_ch[i]);
    3115         272 :                 accel_ch->module_ch[i] = NULL;
    3116             :         }
    3117             : 
    3118             :         /* Update global stats to make sure channel's stats aren't lost after a channel is gone */
    3119          16 :         spdk_spin_lock(&g_stats_lock);
    3120          16 :         accel_add_stats(&g_stats, &accel_ch->stats);
    3121          16 :         spdk_spin_unlock(&g_stats_lock);
    3122             : 
    3123          16 :         free(accel_ch->task_pool_base);
    3124          16 :         free(accel_ch->task_aux_data_base);
    3125          16 :         free(accel_ch->seq_pool_base);
    3126          16 :         free(accel_ch->buf_pool_base);
    3127          16 : }
    3128             : 
    3129             : struct spdk_io_channel *
    3130          16 : spdk_accel_get_io_channel(void)
    3131             : {
    3132          16 :         return spdk_get_io_channel(&spdk_accel_module_list);
    3133             : }
    3134             : 
    3135             : static int
    3136           2 : accel_module_initialize(void)
    3137             : {
    3138             :         struct spdk_accel_module_if *accel_module, *tmp_module;
    3139           2 :         int rc = 0, module_rc;
    3140             : 
    3141           7 :         TAILQ_FOREACH_SAFE(accel_module, &spdk_accel_module_list, tailq, tmp_module) {
    3142           5 :                 module_rc = accel_module->module_init();
    3143           5 :                 if (module_rc) {
    3144           0 :                         TAILQ_REMOVE(&spdk_accel_module_list, accel_module, tailq);
    3145           0 :                         if (module_rc == -ENODEV) {
    3146           0 :                                 SPDK_NOTICELOG("No devices for module %s, skipping\n", accel_module->name);
    3147           0 :                         } else if (!rc) {
    3148           0 :                                 SPDK_ERRLOG("Module %s initialization failed with %d\n", accel_module->name, module_rc);
    3149           0 :                                 rc = module_rc;
    3150             :                         }
    3151           0 :                         continue;
    3152             :                 }
    3153             : 
    3154           5 :                 SPDK_DEBUGLOG(accel, "Module %s initialized.\n", accel_module->name);
    3155             :         }
    3156             : 
    3157           2 :         return rc;
    3158             : }
    3159             : 
    3160             : static void
    3161          34 : accel_module_init_opcode(enum spdk_accel_opcode opcode)
    3162             : {
    3163          34 :         struct accel_module *module = &g_modules_opc[opcode];
    3164          34 :         struct spdk_accel_module_if *module_if = module->module;
    3165             : 
    3166          34 :         if (module_if->get_memory_domains != NULL) {
    3167           0 :                 module->supports_memory_domains = module_if->get_memory_domains(NULL, 0) > 0;
    3168             :         }
    3169          34 : }
    3170             : 
    3171             : static int
    3172           0 : accel_memory_domain_translate(struct spdk_memory_domain *src_domain, void *src_domain_ctx,
    3173             :                               struct spdk_memory_domain *dst_domain, struct spdk_memory_domain_translation_ctx *dst_domain_ctx,
    3174             :                               void *addr, size_t len, struct spdk_memory_domain_translation_result *result)
    3175             : {
    3176           0 :         struct accel_buffer *buf = src_domain_ctx;
    3177             : 
    3178           0 :         SPDK_DEBUGLOG(accel, "translate addr %p, len %zu\n", addr, len);
    3179             : 
    3180           0 :         assert(g_accel_domain == src_domain);
    3181           0 :         assert(spdk_memory_domain_get_system_domain() == dst_domain);
    3182           0 :         assert(buf->buf == NULL);
    3183           0 :         assert(addr == ACCEL_BUFFER_BASE);
    3184           0 :         assert(len == buf->len);
    3185             : 
    3186           0 :         buf->buf = spdk_iobuf_get(&buf->ch->iobuf, buf->len, NULL, NULL);
    3187           0 :         if (spdk_unlikely(buf->buf == NULL)) {
    3188           0 :                 return -ENOMEM;
    3189             :         }
    3190             : 
    3191           0 :         result->iov_count = 1;
    3192           0 :         result->iov.iov_base = buf->buf;
    3193           0 :         result->iov.iov_len = buf->len;
    3194           0 :         SPDK_DEBUGLOG(accel, "translated addr %p\n", result->iov.iov_base);
    3195           0 :         return 0;
    3196             : }
    3197             : 
    3198             : static void
    3199           0 : accel_memory_domain_invalidate(struct spdk_memory_domain *domain, void *domain_ctx,
    3200             :                                struct iovec *iov, uint32_t iovcnt)
    3201             : {
    3202           0 :         struct accel_buffer *buf = domain_ctx;
    3203             : 
    3204           0 :         SPDK_DEBUGLOG(accel, "invalidate addr %p, len %zu\n", iov[0].iov_base, iov[0].iov_len);
    3205             : 
    3206           0 :         assert(g_accel_domain == domain);
    3207           0 :         assert(iovcnt == 1);
    3208           0 :         assert(buf->buf != NULL);
    3209           0 :         assert(iov[0].iov_base == buf->buf);
    3210           0 :         assert(iov[0].iov_len == buf->len);
    3211             : 
    3212           0 :         spdk_iobuf_put(&buf->ch->iobuf, buf->buf, buf->len);
    3213           0 :         buf->buf = NULL;
    3214           0 : }
    3215             : 
    3216             : int
    3217           2 : spdk_accel_initialize(void)
    3218             : {
    3219             :         enum spdk_accel_opcode op;
    3220           2 :         struct spdk_accel_module_if *accel_module = NULL;
    3221             :         int rc;
    3222             : 
    3223             :         /*
    3224             :          * We need a unique identifier for the accel framework, so use the
    3225             :          * spdk_accel_module_list address for this purpose.
    3226             :          */
    3227           2 :         spdk_io_device_register(&spdk_accel_module_list, accel_create_channel, accel_destroy_channel,
    3228             :                                 sizeof(struct accel_io_channel), "accel");
    3229             : 
    3230           2 :         spdk_spin_init(&g_keyring_spin);
    3231           2 :         spdk_spin_init(&g_stats_lock);
    3232             : 
    3233           2 :         rc = spdk_memory_domain_create(&g_accel_domain, SPDK_DMA_DEVICE_TYPE_ACCEL, NULL,
    3234             :                                        "SPDK_ACCEL_DMA_DEVICE");
    3235           2 :         if (rc != 0) {
    3236           0 :                 SPDK_ERRLOG("Failed to create accel memory domain\n");
    3237           0 :                 return rc;
    3238             :         }
    3239             : 
    3240           2 :         spdk_memory_domain_set_translation(g_accel_domain, accel_memory_domain_translate);
    3241           2 :         spdk_memory_domain_set_invalidate(g_accel_domain, accel_memory_domain_invalidate);
    3242             : 
    3243           2 :         g_modules_started = true;
    3244           2 :         rc = accel_module_initialize();
    3245           2 :         if (rc) {
    3246           0 :                 return rc;
    3247             :         }
    3248             : 
    3249           2 :         if (g_accel_driver != NULL && g_accel_driver->init != NULL) {
    3250           0 :                 rc = g_accel_driver->init();
    3251           0 :                 if (rc != 0) {
    3252           0 :                         SPDK_ERRLOG("Failed to initialize driver %s: %s\n", g_accel_driver->name,
    3253             :                                     spdk_strerror(-rc));
    3254           0 :                         return rc;
    3255             :                 }
    3256             :         }
    3257             : 
    3258             :         /* The module list is order by priority, with the highest priority modules being at the end
    3259             :          * of the list.  The software module should be somewhere at the beginning of the list,
    3260             :          * before all HW modules.
    3261             :          * NOTE: all opcodes must be supported by software in the event that no HW modules are
    3262             :          * initialized to support the operation.
    3263             :          */
    3264           7 :         TAILQ_FOREACH(accel_module, &spdk_accel_module_list, tailq) {
    3265          90 :                 for (op = 0; op < SPDK_ACCEL_OPC_LAST; op++) {
    3266          85 :                         if (accel_module->supports_opcode(op)) {
    3267          85 :                                 g_modules_opc[op].module = accel_module;
    3268          85 :                                 SPDK_DEBUGLOG(accel, "OPC 0x%x now assigned to %s\n", op, accel_module->name);
    3269             :                         }
    3270             :                 }
    3271             : 
    3272           5 :                 if (accel_module->get_ctx_size != NULL) {
    3273           1 :                         g_max_accel_module_size = spdk_max(g_max_accel_module_size,
    3274             :                                                            accel_module->get_ctx_size());
    3275             :                 }
    3276             :         }
    3277             : 
    3278             :         /* Now lets check for overrides and apply all that exist */
    3279          36 :         for (op = 0; op < SPDK_ACCEL_OPC_LAST; op++) {
    3280          34 :                 if (g_modules_opc_override[op] != NULL) {
    3281           0 :                         accel_module = _module_find_by_name(g_modules_opc_override[op]);
    3282           0 :                         if (accel_module == NULL) {
    3283           0 :                                 SPDK_ERRLOG("Invalid module name of %s\n", g_modules_opc_override[op]);
    3284           0 :                                 return -EINVAL;
    3285             :                         }
    3286           0 :                         if (accel_module->supports_opcode(op) == false) {
    3287           0 :                                 SPDK_ERRLOG("Module %s does not support op code %d\n", accel_module->name, op);
    3288           0 :                                 return -EINVAL;
    3289             :                         }
    3290           0 :                         g_modules_opc[op].module = accel_module;
    3291             :                 }
    3292             :         }
    3293             : 
    3294           2 :         if (g_modules_opc[SPDK_ACCEL_OPC_ENCRYPT].module != g_modules_opc[SPDK_ACCEL_OPC_DECRYPT].module) {
    3295           0 :                 SPDK_ERRLOG("Different accel modules are assigned to encrypt and decrypt operations");
    3296           0 :                 return -EINVAL;
    3297             :         }
    3298           2 :         if (g_modules_opc[SPDK_ACCEL_OPC_COMPRESS].module !=
    3299           2 :             g_modules_opc[SPDK_ACCEL_OPC_DECOMPRESS].module) {
    3300           0 :                 SPDK_ERRLOG("Different accel modules are assigned to compress and decompress operations");
    3301           0 :                 return -EINVAL;
    3302             :         }
    3303             : 
    3304          36 :         for (op = 0; op < SPDK_ACCEL_OPC_LAST; op++) {
    3305          34 :                 assert(g_modules_opc[op].module != NULL);
    3306          34 :                 accel_module_init_opcode(op);
    3307             :         }
    3308             : 
    3309           2 :         rc = spdk_iobuf_register_module("accel");
    3310           2 :         if (rc != 0) {
    3311           0 :                 SPDK_ERRLOG("Failed to register accel iobuf module\n");
    3312           0 :                 return rc;
    3313             :         }
    3314             : 
    3315           2 :         return 0;
    3316             : }
    3317             : 
    3318             : static void
    3319           2 : accel_module_finish_cb(void)
    3320             : {
    3321           2 :         spdk_accel_fini_cb cb_fn = g_fini_cb_fn;
    3322             : 
    3323           2 :         cb_fn(g_fini_cb_arg);
    3324           2 :         g_fini_cb_fn = NULL;
    3325           2 :         g_fini_cb_arg = NULL;
    3326           2 : }
    3327             : 
    3328             : static void
    3329           0 : accel_write_overridden_opc(struct spdk_json_write_ctx *w, const char *opc_str,
    3330             :                            const char *module_str)
    3331             : {
    3332           0 :         spdk_json_write_object_begin(w);
    3333           0 :         spdk_json_write_named_string(w, "method", "accel_assign_opc");
    3334           0 :         spdk_json_write_named_object_begin(w, "params");
    3335           0 :         spdk_json_write_named_string(w, "opname", opc_str);
    3336           0 :         spdk_json_write_named_string(w, "module", module_str);
    3337           0 :         spdk_json_write_object_end(w);
    3338           0 :         spdk_json_write_object_end(w);
    3339           0 : }
    3340             : 
    3341             : static void
    3342           0 : __accel_crypto_key_dump_param(struct spdk_json_write_ctx *w, struct spdk_accel_crypto_key *key)
    3343             : {
    3344           0 :         spdk_json_write_named_string(w, "name", key->param.key_name);
    3345           0 :         spdk_json_write_named_string(w, "cipher", key->param.cipher);
    3346           0 :         spdk_json_write_named_string(w, "key", key->param.hex_key);
    3347           0 :         if (key->param.hex_key2) {
    3348           0 :                 spdk_json_write_named_string(w, "key2", key->param.hex_key2);
    3349             :         }
    3350             : 
    3351           0 :         if (key->param.tweak_mode) {
    3352           0 :                 spdk_json_write_named_string(w, "tweak_mode", key->param.tweak_mode);
    3353             :         }
    3354           0 : }
    3355             : 
    3356             : void
    3357           0 : _accel_crypto_key_dump_param(struct spdk_json_write_ctx *w, struct spdk_accel_crypto_key *key)
    3358             : {
    3359           0 :         spdk_json_write_object_begin(w);
    3360           0 :         __accel_crypto_key_dump_param(w, key);
    3361           0 :         spdk_json_write_object_end(w);
    3362           0 : }
    3363             : 
    3364             : static void
    3365           0 : _accel_crypto_key_write_config_json(struct spdk_json_write_ctx *w,
    3366             :                                     struct spdk_accel_crypto_key *key)
    3367             : {
    3368           0 :         spdk_json_write_object_begin(w);
    3369           0 :         spdk_json_write_named_string(w, "method", "accel_crypto_key_create");
    3370           0 :         spdk_json_write_named_object_begin(w, "params");
    3371           0 :         __accel_crypto_key_dump_param(w, key);
    3372           0 :         spdk_json_write_object_end(w);
    3373           0 :         spdk_json_write_object_end(w);
    3374           0 : }
    3375             : 
    3376             : static void
    3377           0 : accel_write_options(struct spdk_json_write_ctx *w)
    3378             : {
    3379           0 :         spdk_json_write_object_begin(w);
    3380           0 :         spdk_json_write_named_string(w, "method", "accel_set_options");
    3381           0 :         spdk_json_write_named_object_begin(w, "params");
    3382           0 :         spdk_json_write_named_uint32(w, "small_cache_size", g_opts.small_cache_size);
    3383           0 :         spdk_json_write_named_uint32(w, "large_cache_size", g_opts.large_cache_size);
    3384           0 :         spdk_json_write_named_uint32(w, "task_count", g_opts.task_count);
    3385           0 :         spdk_json_write_named_uint32(w, "sequence_count", g_opts.sequence_count);
    3386           0 :         spdk_json_write_named_uint32(w, "buf_count", g_opts.buf_count);
    3387           0 :         spdk_json_write_object_end(w);
    3388           0 :         spdk_json_write_object_end(w);
    3389           0 : }
    3390             : 
    3391             : static void
    3392           0 : _accel_crypto_keys_write_config_json(struct spdk_json_write_ctx *w, bool full_dump)
    3393             : {
    3394             :         struct spdk_accel_crypto_key *key;
    3395             : 
    3396           0 :         spdk_spin_lock(&g_keyring_spin);
    3397           0 :         TAILQ_FOREACH(key, &g_keyring, link) {
    3398           0 :                 if (full_dump) {
    3399           0 :                         _accel_crypto_key_write_config_json(w, key);
    3400             :                 } else {
    3401           0 :                         _accel_crypto_key_dump_param(w, key);
    3402             :                 }
    3403             :         }
    3404           0 :         spdk_spin_unlock(&g_keyring_spin);
    3405           0 : }
    3406             : 
    3407             : void
    3408           0 : _accel_crypto_keys_dump_param(struct spdk_json_write_ctx *w)
    3409             : {
    3410           0 :         _accel_crypto_keys_write_config_json(w, false);
    3411           0 : }
    3412             : 
    3413             : void
    3414           0 : spdk_accel_write_config_json(struct spdk_json_write_ctx *w)
    3415             : {
    3416             :         struct spdk_accel_module_if *accel_module;
    3417             :         int i;
    3418             : 
    3419           0 :         spdk_json_write_array_begin(w);
    3420           0 :         accel_write_options(w);
    3421             : 
    3422           0 :         if (g_accel_driver != NULL) {
    3423           0 :                 spdk_json_write_object_begin(w);
    3424           0 :                 spdk_json_write_named_string(w, "method", "accel_set_driver");
    3425           0 :                 spdk_json_write_named_object_begin(w, "params");
    3426           0 :                 spdk_json_write_named_string(w, "name", g_accel_driver->name);
    3427           0 :                 spdk_json_write_object_end(w);
    3428           0 :                 spdk_json_write_object_end(w);
    3429             :         }
    3430             : 
    3431           0 :         TAILQ_FOREACH(accel_module, &spdk_accel_module_list, tailq) {
    3432           0 :                 if (accel_module->write_config_json) {
    3433           0 :                         accel_module->write_config_json(w);
    3434             :                 }
    3435             :         }
    3436           0 :         for (i = 0; i < SPDK_ACCEL_OPC_LAST; i++) {
    3437           0 :                 if (g_modules_opc_override[i]) {
    3438           0 :                         accel_write_overridden_opc(w, g_opcode_strings[i], g_modules_opc_override[i]);
    3439             :                 }
    3440             :         }
    3441             : 
    3442           0 :         _accel_crypto_keys_write_config_json(w, true);
    3443             : 
    3444           0 :         spdk_json_write_array_end(w);
    3445           0 : }
    3446             : 
    3447             : void
    3448           7 : spdk_accel_module_finish(void)
    3449             : {
    3450           7 :         if (!g_accel_module) {
    3451           2 :                 g_accel_module = TAILQ_FIRST(&spdk_accel_module_list);
    3452             :         } else {
    3453           5 :                 g_accel_module = TAILQ_NEXT(g_accel_module, tailq);
    3454             :         }
    3455             : 
    3456           7 :         if (!g_accel_module) {
    3457           2 :                 if (g_accel_driver != NULL && g_accel_driver->fini != NULL) {
    3458           0 :                         g_accel_driver->fini();
    3459             :                 }
    3460             : 
    3461           2 :                 spdk_spin_destroy(&g_keyring_spin);
    3462           2 :                 spdk_spin_destroy(&g_stats_lock);
    3463           2 :                 if (g_accel_domain) {
    3464           2 :                         spdk_memory_domain_destroy(g_accel_domain);
    3465           2 :                         g_accel_domain = NULL;
    3466             :                 }
    3467           2 :                 accel_module_finish_cb();
    3468           2 :                 return;
    3469             :         }
    3470             : 
    3471           5 :         if (g_accel_module->module_fini) {
    3472           1 :                 spdk_thread_send_msg(spdk_get_thread(), g_accel_module->module_fini, NULL);
    3473             :         } else {
    3474           4 :                 spdk_accel_module_finish();
    3475             :         }
    3476             : }
    3477             : 
    3478             : static void
    3479           2 : accel_io_device_unregister_cb(void *io_device)
    3480             : {
    3481             :         struct spdk_accel_crypto_key *key, *key_tmp;
    3482             :         enum spdk_accel_opcode op;
    3483             : 
    3484           2 :         spdk_spin_lock(&g_keyring_spin);
    3485           2 :         TAILQ_FOREACH_SAFE(key, &g_keyring, link, key_tmp) {
    3486           0 :                 accel_crypto_key_destroy_unsafe(key);
    3487             :         }
    3488           2 :         spdk_spin_unlock(&g_keyring_spin);
    3489             : 
    3490          36 :         for (op = 0; op < SPDK_ACCEL_OPC_LAST; op++) {
    3491          34 :                 if (g_modules_opc_override[op] != NULL) {
    3492           0 :                         free(g_modules_opc_override[op]);
    3493           0 :                         g_modules_opc_override[op] = NULL;
    3494             :                 }
    3495          34 :                 g_modules_opc[op].module = NULL;
    3496             :         }
    3497             : 
    3498           2 :         spdk_accel_module_finish();
    3499           2 : }
    3500             : 
    3501             : void
    3502           2 : spdk_accel_finish(spdk_accel_fini_cb cb_fn, void *cb_arg)
    3503             : {
    3504           2 :         assert(cb_fn != NULL);
    3505             : 
    3506           2 :         g_fini_cb_fn = cb_fn;
    3507           2 :         g_fini_cb_arg = cb_arg;
    3508             : 
    3509           2 :         spdk_io_device_unregister(&spdk_accel_module_list, accel_io_device_unregister_cb);
    3510           2 : }
    3511             : 
    3512             : static struct spdk_accel_driver *
    3513           2 : accel_find_driver(const char *name)
    3514             : {
    3515             :         struct spdk_accel_driver *driver;
    3516             : 
    3517           2 :         TAILQ_FOREACH(driver, &g_accel_drivers, tailq) {
    3518           1 :                 if (strcmp(driver->name, name) == 0) {
    3519           1 :                         return driver;
    3520             :                 }
    3521             :         }
    3522             : 
    3523           1 :         return NULL;
    3524             : }
    3525             : 
    3526             : int
    3527           1 : spdk_accel_set_driver(const char *name)
    3528             : {
    3529           1 :         struct spdk_accel_driver *driver = NULL;
    3530             : 
    3531           1 :         if (name != NULL && name[0] != '\0') {
    3532           1 :                 driver = accel_find_driver(name);
    3533           1 :                 if (driver == NULL) {
    3534           0 :                         SPDK_ERRLOG("Couldn't find driver named '%s'\n", name);
    3535           0 :                         return -ENODEV;
    3536             :                 }
    3537             :         }
    3538             : 
    3539           1 :         g_accel_driver = driver;
    3540             : 
    3541           1 :         return 0;
    3542             : }
    3543             : 
    3544             : const char *
    3545           0 : spdk_accel_get_driver_name(void)
    3546             : {
    3547           0 :         if (!g_accel_driver) {
    3548           0 :                 return NULL;
    3549             :         }
    3550             : 
    3551           0 :         return g_accel_driver->name;
    3552             : }
    3553             : 
    3554             : void
    3555           1 : spdk_accel_driver_register(struct spdk_accel_driver *driver)
    3556             : {
    3557           1 :         if (accel_find_driver(driver->name)) {
    3558           0 :                 SPDK_ERRLOG("Driver named '%s' has already been registered\n", driver->name);
    3559           0 :                 assert(0);
    3560             :                 return;
    3561             :         }
    3562             : 
    3563           1 :         TAILQ_INSERT_TAIL(&g_accel_drivers, driver, tailq);
    3564             : }
    3565             : 
    3566             : int
    3567           0 : spdk_accel_set_opts(const struct spdk_accel_opts *opts)
    3568             : {
    3569           0 :         if (!opts) {
    3570           0 :                 SPDK_ERRLOG("opts cannot be NULL\n");
    3571           0 :                 return -1;
    3572             :         }
    3573             : 
    3574           0 :         if (!opts->opts_size) {
    3575           0 :                 SPDK_ERRLOG("opts_size inside opts cannot be zero value\n");
    3576           0 :                 return -1;
    3577             :         }
    3578             : 
    3579           0 :         if (SPDK_GET_FIELD(opts, task_count, g_opts.task_count,
    3580           0 :                            opts->opts_size) < ACCEL_TASKS_IN_SEQUENCE_LIMIT) {
    3581           0 :                 return -EINVAL;
    3582             :         }
    3583             : 
    3584             : #define SET_FIELD(field) \
    3585             :         if (offsetof(struct spdk_accel_opts, field) + sizeof(opts->field) <= opts->opts_size) { \
    3586             :                 g_opts.field = opts->field; \
    3587             :         } \
    3588             : 
    3589           0 :         SET_FIELD(small_cache_size);
    3590           0 :         SET_FIELD(large_cache_size);
    3591           0 :         SET_FIELD(task_count);
    3592           0 :         SET_FIELD(sequence_count);
    3593           0 :         SET_FIELD(buf_count);
    3594             : 
    3595           0 :         g_opts.opts_size = opts->opts_size;
    3596             : 
    3597             : #undef SET_FIELD
    3598             : 
    3599           0 :         return 0;
    3600             : }
    3601             : 
    3602             : void
    3603           0 : spdk_accel_get_opts(struct spdk_accel_opts *opts, size_t opts_size)
    3604             : {
    3605           0 :         if (!opts) {
    3606           0 :                 SPDK_ERRLOG("opts should not be NULL\n");
    3607           0 :                 return;
    3608             :         }
    3609             : 
    3610           0 :         if (!opts_size) {
    3611           0 :                 SPDK_ERRLOG("opts_size should not be zero value\n");
    3612           0 :                 return;
    3613             :         }
    3614             : 
    3615           0 :         opts->opts_size = opts_size;
    3616             : 
    3617             : #define SET_FIELD(field) \
    3618             :         if (offsetof(struct spdk_accel_opts, field) + sizeof(opts->field) <= opts_size) { \
    3619             :                 opts->field = g_opts.field; \
    3620             :         } \
    3621             : 
    3622           0 :         SET_FIELD(small_cache_size);
    3623           0 :         SET_FIELD(large_cache_size);
    3624           0 :         SET_FIELD(task_count);
    3625           0 :         SET_FIELD(sequence_count);
    3626           0 :         SET_FIELD(buf_count);
    3627             : 
    3628             : #undef SET_FIELD
    3629             : 
    3630             :         /* Do not remove this statement, you should always update this statement when you adding a new field,
    3631             :          * and do not forget to add the SET_FIELD statement for your added field. */
    3632             :         SPDK_STATIC_ASSERT(sizeof(struct spdk_accel_opts) == 28, "Incorrect size");
    3633             : }
    3634             : 
    3635             : struct accel_get_stats_ctx {
    3636             :         struct accel_stats      stats;
    3637             :         accel_get_stats_cb      cb_fn;
    3638             :         void                    *cb_arg;
    3639             : };
    3640             : 
    3641             : static void
    3642           0 : accel_get_channel_stats_done(struct spdk_io_channel_iter *iter, int status)
    3643             : {
    3644           0 :         struct accel_get_stats_ctx *ctx = spdk_io_channel_iter_get_ctx(iter);
    3645             : 
    3646           0 :         ctx->cb_fn(&ctx->stats, ctx->cb_arg);
    3647           0 :         free(ctx);
    3648           0 : }
    3649             : 
    3650             : static void
    3651           0 : accel_get_channel_stats(struct spdk_io_channel_iter *iter)
    3652             : {
    3653           0 :         struct spdk_io_channel *ch = spdk_io_channel_iter_get_channel(iter);
    3654           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    3655           0 :         struct accel_get_stats_ctx *ctx = spdk_io_channel_iter_get_ctx(iter);
    3656             : 
    3657           0 :         accel_add_stats(&ctx->stats, &accel_ch->stats);
    3658           0 :         spdk_for_each_channel_continue(iter, 0);
    3659           0 : }
    3660             : 
    3661             : int
    3662           0 : accel_get_stats(accel_get_stats_cb cb_fn, void *cb_arg)
    3663             : {
    3664             :         struct accel_get_stats_ctx *ctx;
    3665             : 
    3666           0 :         ctx = calloc(1, sizeof(*ctx));
    3667           0 :         if (ctx == NULL) {
    3668           0 :                 return -ENOMEM;
    3669             :         }
    3670             : 
    3671           0 :         spdk_spin_lock(&g_stats_lock);
    3672           0 :         accel_add_stats(&ctx->stats, &g_stats);
    3673           0 :         spdk_spin_unlock(&g_stats_lock);
    3674             : 
    3675           0 :         ctx->cb_fn = cb_fn;
    3676           0 :         ctx->cb_arg = cb_arg;
    3677             : 
    3678           0 :         spdk_for_each_channel(&spdk_accel_module_list, accel_get_channel_stats, ctx,
    3679             :                               accel_get_channel_stats_done);
    3680             : 
    3681           0 :         return 0;
    3682             : }
    3683             : 
    3684             : void
    3685           0 : spdk_accel_get_opcode_stats(struct spdk_io_channel *ch, enum spdk_accel_opcode opcode,
    3686             :                             struct spdk_accel_opcode_stats *stats, size_t size)
    3687             : {
    3688           0 :         struct accel_io_channel *accel_ch = spdk_io_channel_get_ctx(ch);
    3689             : 
    3690             : #define FIELD_OK(field) \
    3691             :         offsetof(struct spdk_accel_opcode_stats, field) + sizeof(stats->field) <= size
    3692             : 
    3693             : #define SET_FIELD(field, value) \
    3694             :         if (FIELD_OK(field)) { \
    3695             :                 stats->field = value; \
    3696             :         }
    3697             : 
    3698           0 :         SET_FIELD(executed, accel_ch->stats.operations[opcode].executed);
    3699           0 :         SET_FIELD(failed, accel_ch->stats.operations[opcode].failed);
    3700           0 :         SET_FIELD(num_bytes, accel_ch->stats.operations[opcode].num_bytes);
    3701             : 
    3702             : #undef FIELD_OK
    3703             : #undef SET_FIELD
    3704           0 : }
    3705             : 
    3706             : uint8_t
    3707           0 : spdk_accel_get_buf_align(enum spdk_accel_opcode opcode,
    3708             :                          const struct spdk_accel_operation_exec_ctx *ctx)
    3709             : {
    3710           0 :         struct spdk_accel_module_if *module = g_modules_opc[opcode].module;
    3711           0 :         struct spdk_accel_opcode_info modinfo = {}, drvinfo = {};
    3712             : 
    3713           0 :         if (g_accel_driver != NULL && g_accel_driver->get_operation_info != NULL) {
    3714           0 :                 g_accel_driver->get_operation_info(opcode, ctx, &drvinfo);
    3715             :         }
    3716             : 
    3717           0 :         if (module->get_operation_info != NULL) {
    3718           0 :                 module->get_operation_info(opcode, ctx, &modinfo);
    3719             :         }
    3720             : 
    3721             :         /* If a driver is set, it'll execute most of the operations, while the rest will usually
    3722             :          * fall back to accel_sw, which doesn't have any alignment requirements.  However, to be
    3723             :          * extra safe, return the max(driver, module) if a driver delegates some operations to a
    3724             :          * hardware module. */
    3725           0 :         return spdk_max(modinfo.required_alignment, drvinfo.required_alignment);
    3726             : }
    3727             : 
    3728             : struct spdk_accel_module_if *
    3729           0 : spdk_accel_get_module(const char *name)
    3730             : {
    3731             :         struct spdk_accel_module_if *module;
    3732             : 
    3733           0 :         TAILQ_FOREACH(module, &spdk_accel_module_list, tailq) {
    3734           0 :                 if (strcmp(module->name, name) == 0) {
    3735           0 :                         return module;
    3736             :                 }
    3737             :         }
    3738             : 
    3739           0 :         return NULL;
    3740             : }
    3741             : 
    3742             : int
    3743           0 : spdk_accel_get_opc_memory_domains(enum spdk_accel_opcode opcode,
    3744             :                                   struct spdk_memory_domain **domains,
    3745             :                                   int array_size)
    3746             : {
    3747           0 :         assert(opcode < SPDK_ACCEL_OPC_LAST);
    3748             : 
    3749           0 :         if (g_modules_opc[opcode].module->get_memory_domains) {
    3750           0 :                 return g_modules_opc[opcode].module->get_memory_domains(domains, array_size);
    3751             :         }
    3752             : 
    3753           0 :         return 0;
    3754             : }
    3755             : 
    3756           1 : SPDK_LOG_REGISTER_COMPONENT(accel)

Generated by: LCOV version 1.15