@@ -213,6 +213,89 @@ cn10k_ml_fw_flags_get(struct cn10k_ml_fw *fw)
return FW_LOAD_FLAGS;
}
+static int
+cn10k_ml_fw_load_asim(struct cn10k_ml_fw *fw)
+{
+ struct cn10k_ml_dev *mldev;
+ uint64_t timeout_cycle;
+ uint64_t reg_val64;
+ bool timeout;
+ int ret = 0;
+
+ mldev = fw->mldev;
+
+ /* Reset HEAD and TAIL debug pointer registers */
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_DBG_BUFFER_HEAD_C0);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_DBG_BUFFER_TAIL_C0);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_DBG_BUFFER_HEAD_C1);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_DBG_BUFFER_TAIL_C1);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_EXCEPTION_SP_C0);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_EXCEPTION_SP_C1);
+
+ /* Set ML_MLR_BASE to base IOVA of the ML region in LLC/DRAM. */
+ reg_val64 = rte_eal_get_baseaddr();
+ roc_ml_reg_write64(&mldev->roc, reg_val64, ML_MLR_BASE);
+ plt_ml_dbg("ML_MLR_BASE = 0x%016lx", roc_ml_reg_read64(&mldev->roc, ML_MLR_BASE));
+ roc_ml_reg_save(&mldev->roc, ML_MLR_BASE);
+
+ /* Update FW load completion structure */
+ fw->req->jd.hdr.jce.w1.u64 = PLT_U64_CAST(&fw->req->status);
+ fw->req->jd.hdr.job_type = ML_CN10K_JOB_TYPE_FIRMWARE_LOAD;
+ fw->req->jd.hdr.result = roc_ml_addr_ap2mlip(&mldev->roc, &fw->req->result);
+ fw->req->jd.fw_load.flags = cn10k_ml_fw_flags_get(fw);
+ plt_write64(ML_CN10K_POLL_JOB_START, &fw->req->status);
+ plt_wmb();
+
+ /* Enqueue FW load through scratch registers */
+ timeout = true;
+ timeout_cycle = plt_tsc_cycles() + ML_CN10K_CMD_TIMEOUT * plt_tsc_hz();
+ roc_ml_scratch_enqueue(&mldev->roc, &fw->req->jd);
+
+ plt_rmb();
+ do {
+ if (roc_ml_scratch_is_done_bit_set(&mldev->roc) &&
+ (plt_read64(&fw->req->status) == ML_CN10K_POLL_JOB_FINISH)) {
+ timeout = false;
+ break;
+ }
+ } while (plt_tsc_cycles() < timeout_cycle);
+
+ /* Check firmware load status, clean-up and exit on failure. */
+ if ((!timeout) && (fw->req->result.error_code == 0)) {
+ cn10k_ml_fw_print_info(fw);
+ } else {
+ /* Set ML to disable new jobs */
+ reg_val64 = (ROC_ML_CFG_JD_SIZE | ROC_ML_CFG_MLIP_ENA);
+ roc_ml_reg_write64(&mldev->roc, reg_val64, ML_CFG);
+
+ /* Clear scratch registers */
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_WORK_PTR);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_FW_CTRL);
+
+ if (timeout) {
+ plt_err("Firmware load timeout");
+ ret = -ETIME;
+ } else {
+ plt_err("Firmware load failed");
+ ret = -1;
+ }
+
+ return ret;
+ }
+
+ /* Reset scratch registers */
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_FW_CTRL);
+ roc_ml_reg_write64(&mldev->roc, 0, ML_SCRATCH_WORK_PTR);
+
+ /* Disable job execution, to be enabled in start */
+ reg_val64 = roc_ml_reg_read64(&mldev->roc, ML_CFG);
+ reg_val64 &= ~ROC_ML_CFG_ENA;
+ roc_ml_reg_write64(&mldev->roc, reg_val64, ML_CFG);
+ plt_ml_dbg("ML_CFG => 0x%016lx", roc_ml_reg_read64(&mldev->roc, ML_CFG));
+
+ return ret;
+}
+
static int
cn10k_ml_fw_load_cn10ka(struct cn10k_ml_fw *fw, void *buffer, uint64_t size)
{
@@ -447,16 +530,22 @@ cn10k_ml_fw_load(struct cn10k_ml_dev *mldev)
fw = &mldev->fw;
fw->mldev = mldev;
- /* Read firmware image to a buffer */
- ret = rte_firmware_read(fw->path, &fw_buffer, &fw_size);
- if (ret < 0) {
- plt_err("Can't read firmware data: %s\n", fw->path);
- return ret;
+ if (roc_env_is_emulator() || roc_env_is_hw()) {
+ /* Read firmware image to a buffer */
+ ret = rte_firmware_read(fw->path, &fw_buffer, &fw_size);
+ if (ret < 0) {
+ plt_err("Can't read firmware data: %s\n", fw->path);
+ return ret;
+ }
+
+ /* Reserve memzone for firmware load completion and data */
+ mz_size = sizeof(struct cn10k_ml_req) + fw_size + FW_STACK_BUFFER_SIZE +
+ FW_DEBUG_BUFFER_SIZE + FW_EXCEPTION_BUFFER_SIZE;
+ } else if (roc_env_is_asim()) {
+ /* Reserve memzone for firmware load completion */
+ mz_size = sizeof(struct cn10k_ml_req);
}
- /* Reserve memzone for firmware load completion and data */
- mz_size = sizeof(struct cn10k_ml_req) + fw_size + FW_STACK_BUFFER_SIZE +
- FW_DEBUG_BUFFER_SIZE + FW_EXCEPTION_BUFFER_SIZE;
mz = plt_memzone_reserve_aligned(FW_MEMZONE_NAME, mz_size, 0, ML_CN10K_ALIGN_SIZE);
if (mz == NULL) {
plt_err("plt_memzone_reserve failed : %s", FW_MEMZONE_NAME);
@@ -475,10 +564,16 @@ cn10k_ml_fw_load(struct cn10k_ml_dev *mldev)
roc_ml_mlip_reset(&mldev->roc, true);
/* Load firmware */
- fw->data = PLT_PTR_ADD(mz->addr, sizeof(struct cn10k_ml_req));
- ret = cn10k_ml_fw_load_cn10ka(fw, fw_buffer, fw_size);
- if (fw_buffer != NULL)
- free(fw_buffer);
+ if (roc_env_is_emulator() || roc_env_is_hw()) {
+ fw->data = PLT_PTR_ADD(mz->addr, sizeof(struct cn10k_ml_req));
+ ret = cn10k_ml_fw_load_cn10ka(fw, fw_buffer, fw_size);
+ if (fw_buffer != NULL)
+ free(fw_buffer);
+ } else if (roc_env_is_asim()) {
+ fw->data = NULL;
+ ret = cn10k_ml_fw_load_asim(fw);
+ }
+
if (ret < 0)
cn10k_ml_fw_unload(mldev);