doca-docs/pe__single__task__comp__cb__sample_8c_source.html

 /*

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  *

  * Redistribution and use in source and binary forms, with or without modification, are permitted

  * provided that the following conditions are met:

  *     * Redistributions of source code must retain the above copyright notice, this list of

  *       conditions and the following disclaimer.

  *     * Redistributions in binary form must reproduce the above copyright notice, this list of

  *       conditions and the following disclaimer in the documentation and/or other materials

  *       provided with the distribution.

  *     * Neither the name of the NVIDIA CORPORATION nor the names of its contributors may be used

  *       to endorse or promote products derived from this software without specific prior written

  *       permission.

  *

  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR

  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND

  * FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL NVIDIA CORPORATION BE LIABLE

  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,

  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;

  * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,

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 #include <stdio.h>

 #include <stdlib.h>

 #include <stdint.h>


 #include <doca_mmap.h>

 #include <doca_buf.h>

 #include <doca_buf_inventory.h>

 #include <doca_ctx.h>

 #include <doca_dma.h>

 #include <doca_types.h>

 #include <doca_log.h>

 #include <doca_pe.h>


 #include <samples/common.h>

 #include "pe_common.h"


 DOCA_LOG_REGISTER(PE_SINGLE_TASK_COMP_CB::SAMPLE);


 #define EXIT_ON_FAILURE(_expression_) \

     { \

         doca_error_t _status_ = _expression_; \

 \

         if (_status_ != DOCA_SUCCESS) { \

             DOCA_LOG_ERR("%s failed with status %s", __func__, doca_error_get_descr(_status_)); \

             return _status_; \

         } \

     }


 #define NUM_TASKS (16)

 #define DMA_BUFFER_SIZE (1024)

 #define BUFFER_SIZE (DMA_BUFFER_SIZE * 2 * NUM_TASKS)

 #define BUF_INVENTORY_SIZE (NUM_TASKS * 2)


 struct pe_single_task_comp_cb_sample_state {

     struct pe_sample_state_base base;


     struct doca_dma *dma;

     struct doca_ctx *dma_ctx;

     struct doca_dma_task_memcpy *tasks[NUM_TASKS];

 };


 /*

  * DMA Memcpy task callback

  * This callback handles both success and error flow.

  * Using 2 callbacks increases performance because the success callback does not need to retrieve / check the status.

  * Using 1 callback reduces the code size.

  *

  * @dma_task [in]: task

  * @task_user_data [in]: doca_data from the task

  * @ctx_user_data [in]: doca_data from the context

  */

 static void dma_memcpy_task_callback(struct doca_dma_task_memcpy *dma_task,

                      union doca_data task_user_data,

                      union doca_data ctx_user_data)

 {

     struct pe_single_task_comp_cb_sample_state *state =

         (struct pe_single_task_comp_cb_sample_state *)ctx_user_data.ptr;

     doca_error_t status = doca_task_get_status(doca_dma_task_memcpy_as_task(dma_task));


     state->base.num_completed_tasks++;


     if (status == DOCA_SUCCESS) {

         uint8_t expected_value = (uint8_t)task_user_data.u64;


         (void)process_completed_dma_memcpy_task(dma_task, expected_value);

     } else {

         DOCA_LOG_ERR("Task failed with status %s", doca_error_get_descr(status));

     }


     /* The task is no longer required, therefore it can be freed */

     (void)dma_task_free(dma_task);

 }


 doca_error_t create_dma(struct pe_single_task_comp_cb_sample_state *state)

 {

     union doca_data ctx_user_data = {0};


     DOCA_LOG_INFO("Creating DMA");


     EXIT_ON_FAILURE(doca_dma_create(state->base.device, &state->dma));

     state->dma_ctx = doca_dma_as_ctx(state->dma);


     /* A context can only be connected to one PE (PE can run multiple contexts) */

     EXIT_ON_FAILURE(doca_pe_connect_ctx(state->base.pe, state->dma_ctx));


     ctx_user_data.ptr = state;

     EXIT_ON_FAILURE(doca_ctx_set_user_data(state->dma_ctx, ctx_user_data));


     /* The set conf uses the same callback for success and error */

     EXIT_ON_FAILURE(doca_dma_task_memcpy_set_conf(state->dma,

                               dma_memcpy_task_callback,

                               dma_memcpy_task_callback,

                               NUM_TASKS));


     return DOCA_SUCCESS;

 }


 void cleanup(struct pe_single_task_comp_cb_sample_state *state)

 {

     /* A context must be stopped before it is destroyed */

     if (state->dma_ctx != NULL)

         (void)doca_ctx_stop(state->dma_ctx);


     /* All contexts must be destroyed before PE is destroyed. Context destroy disconnects it from the PE */

     if (state->dma != NULL)

         (void)doca_dma_destroy(state->dma);


     pe_sample_base_cleanup(&state->base);

 }


 doca_error_t run(struct pe_single_task_comp_cb_sample_state *state)

 {

     memset(state, 0, sizeof(*state));


     state->base.buffer_size = BUFFER_SIZE;

     state->base.buf_inventory_size = BUF_INVENTORY_SIZE;


     EXIT_ON_FAILURE(allocate_buffer(&state->base));

     EXIT_ON_FAILURE(open_device(&state->base));

     EXIT_ON_FAILURE(create_mmap(&state->base));

     EXIT_ON_FAILURE(create_buf_inventory(&state->base));

     EXIT_ON_FAILURE(create_pe(&state->base));

     EXIT_ON_FAILURE(create_dma(state));

     EXIT_ON_FAILURE(doca_ctx_start(state->dma_ctx));

     EXIT_ON_FAILURE(allocate_dma_tasks(&state->base, state->dma, NUM_TASKS, DMA_BUFFER_SIZE, state->tasks));

     EXIT_ON_FAILURE(submit_dma_tasks(NUM_TASKS, state->tasks));

     EXIT_ON_FAILURE(poll_for_completion(&state->base, NUM_TASKS));


     return DOCA_SUCCESS;

 }


 doca_error_t run_pe_single_task_comp_cb_sample(void)

 {

     struct pe_single_task_comp_cb_sample_state state;

     doca_error_t status = run(&state);


     cleanup(&state);


     return status;

 }

NULL
#define NULL
Definition: __stddef_null.h:26

allocate_buffer
static doca_error_t allocate_buffer(struct cache_invalidate_sample_state *state)
Definition: cache_invalidate_sample.c:103

create_buf_inventory
static doca_error_t create_buf_inventory(struct cache_invalidate_sample_state *state)
Definition: cache_invalidate_sample.c:174

poll_for_completion
static doca_error_t poll_for_completion(struct cache_invalidate_sample_state *state)
Definition: cache_invalidate_sample.c:430

create_pe
static doca_error_t create_pe(struct cache_invalidate_sample_state *state)
Definition: cache_invalidate_sample.c:190

doca_buf.h

doca_buf_inventory.h

doca_ctx.h

doca_dma.h

doca_log.h

doca_mmap.h

doca_pe.h

doca_types.h

create_mmap
static doca_error_t create_mmap(struct doca_dev *doca_device, unsigned int mmap_permissions, void *memrange_addr, size_t memrange_len, struct doca_mmap **mmap, doca_dpa_dev_mmap_t *dpa_mmap_handle)
Definition: dpa_all_to_all_core.c:438

doca_ctx_start
DOCA_STABLE doca_error_t doca_ctx_start(struct doca_ctx *ctx)
Finalizes all configurations, and starts the DOCA CTX.

doca_ctx_set_user_data
DOCA_STABLE doca_error_t doca_ctx_set_user_data(struct doca_ctx *ctx, union doca_data user_data)
set user data to context

doca_ctx_stop
DOCA_STABLE doca_error_t doca_ctx_stop(struct doca_ctx *ctx)
Stops the context allowing reconfiguration.

doca_dma_task_memcpy_as_task
DOCA_STABLE struct doca_task * doca_dma_task_memcpy_as_task(struct doca_dma_task_memcpy *task)
This method converts a memcpy task to doca_task.

doca_dma_as_ctx
DOCA_STABLE struct doca_ctx * doca_dma_as_ctx(struct doca_dma *dma)

doca_dma_task_memcpy_set_conf
DOCA_STABLE doca_error_t doca_dma_task_memcpy_set_conf(struct doca_dma *dma, doca_dma_task_memcpy_completion_cb_t task_completion_cb, doca_dma_task_memcpy_completion_cb_t task_error_cb, uint32_t num_memcpy_tasks)
This method sets the DMA memcpy tasks configuration.

doca_dma_create
DOCA_STABLE doca_error_t doca_dma_create(struct doca_dev *dev, struct doca_dma **dma)

doca_dma_destroy
DOCA_STABLE doca_error_t doca_dma_destroy(struct doca_dma *dma)

doca_error_t
enum doca_error doca_error_t
DOCA API return codes.

doca_error_get_descr
DOCA_STABLE const char * doca_error_get_descr(doca_error_t error)
Returns the description string of an error code.

DOCA_SUCCESS
@ DOCA_SUCCESS
Definition: doca_error.h:38

DOCA_LOG_ERR
#define DOCA_LOG_ERR(format,...)
Generates an ERROR application log message.
Definition: doca_log.h:466

DOCA_LOG_INFO
#define DOCA_LOG_INFO(format,...)
Generates an INFO application log message.
Definition: doca_log.h:486

doca_task_get_status
DOCA_STABLE doca_error_t doca_task_get_status(const struct doca_task *task)
Get task status.

doca_pe_connect_ctx
DOCA_STABLE doca_error_t doca_pe_connect_ctx(struct doca_pe *pe, struct doca_ctx *ctx)
This method connects a context to a progress engine.

storage::open_device
doca_dev * open_device(std::string const &identifier)
Definition: doca_utils.cpp:43

pe_sample_base_cleanup
void pe_sample_base_cleanup(struct pe_sample_state_base *state)
Definition: pe_common.c:311

dma_task_free
doca_error_t dma_task_free(struct doca_dma_task_memcpy *dma_task)
Definition: pe_common.c:108

submit_dma_tasks
doca_error_t submit_dma_tasks(uint32_t num_tasks, struct doca_dma_task_memcpy **tasks)
Definition: pe_common.c:211

allocate_dma_tasks
doca_error_t allocate_dma_tasks(struct pe_sample_state_base *state, struct doca_dma *dma, uint32_t num_tasks, size_t dma_buffer_size, struct doca_dma_task_memcpy **tasks)
Definition: pe_common.c:155

process_completed_dma_memcpy_task
doca_error_t process_completed_dma_memcpy_task(struct doca_dma_task_memcpy *dma_task, uint8_t expected_value)
Definition: pe_common.c:66

pe_common.h

EXIT_ON_FAILURE
#define EXIT_ON_FAILURE(_expression_)
Definition: pe_single_task_comp_cb_sample.c:56

cleanup
void cleanup(struct pe_single_task_comp_cb_sample_state *state)
Definition: pe_single_task_comp_cb_sample.c:161

BUF_INVENTORY_SIZE
#define BUF_INVENTORY_SIZE
Definition: pe_single_task_comp_cb_sample.c:69

BUFFER_SIZE
#define BUFFER_SIZE
Definition: pe_single_task_comp_cb_sample.c:68

create_dma
doca_error_t create_dma(struct pe_single_task_comp_cb_sample_state *state)
Definition: pe_single_task_comp_cb_sample.c:124

dma_memcpy_task_callback
static void dma_memcpy_task_callback(struct doca_dma_task_memcpy *dma_task, union doca_data task_user_data, union doca_data ctx_user_data)
Definition: pe_single_task_comp_cb_sample.c:92

run
doca_error_t run(struct pe_single_task_comp_cb_sample_state *state)
Definition: pe_single_task_comp_cb_sample.c:182

NUM_TASKS
#define NUM_TASKS
Definition: pe_single_task_comp_cb_sample.c:66

DMA_BUFFER_SIZE
#define DMA_BUFFER_SIZE
Definition: pe_single_task_comp_cb_sample.c:67

run_pe_single_task_comp_cb_sample
doca_error_t run_pe_single_task_comp_cb_sample(void)
Definition: pe_single_task_comp_cb_sample.c:208

DOCA_LOG_REGISTER
DOCA_LOG_REGISTER(PE_SINGLE_TASK_COMP_CB::SAMPLE)

common.h

stdint.h

pe_sample_state_base
Definition: pe_common.h:35

pe_sample_state_base::device
struct doca_dev * device
Definition: pe_common.h:39

pe_sample_state_base::buf_inventory_size
size_t buf_inventory_size
Definition: pe_common.h:45

pe_sample_state_base::pe
struct doca_pe * pe
Definition: pe_common.h:42

pe_sample_state_base::buffer_size
size_t buffer_size
Definition: pe_common.h:44

pe_sample_state_base::num_completed_tasks
uint32_t num_completed_tasks
Definition: pe_common.h:56

pe_single_task_comp_cb_sample_state
Definition: pe_single_task_comp_cb_sample.c:74

pe_single_task_comp_cb_sample_state::base
struct pe_sample_state_base base
Definition: pe_single_task_comp_cb_sample.c:75

pe_single_task_comp_cb_sample_state::dma_ctx
struct doca_ctx * dma_ctx
Definition: pe_single_task_comp_cb_sample.c:78

pe_single_task_comp_cb_sample_state::tasks
struct doca_dma_task_memcpy * tasks[NUM_TASKS]
Definition: pe_single_task_comp_cb_sample.c:79

pe_single_task_comp_cb_sample_state::dma
struct doca_dma * dma
Definition: pe_single_task_comp_cb_sample.c:77

doca_data
Convenience type for representing opaque data.
Definition: doca_types.h:56

doca_data::u64
uint64_t u64
Definition: doca_types.h:58

doca_data::ptr
void * ptr
Definition: doca_types.h:57