| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Lizhi Hou | 5833 | 100.00% | 24 | 100.00% |
| Total | 5833 | 24 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2023-2024, Advanced Micro Devices, Inc. */ #include <drm/amdxdna_accel.h> #include <drm/drm_cache.h> #include <drm/drm_device.h> #include <drm/drm_gem.h> #include <drm/drm_gem_shmem_helper.h> #include <drm/drm_print.h> #include <drm/gpu_scheduler.h> #include <linux/bitfield.h> #include <linux/errno.h> #include <linux/pci.h> #include <linux/types.h> #include <linux/xarray.h> #include "aie2_msg_priv.h" #include "aie2_pci.h" #include "amdxdna_ctx.h" #include "amdxdna_gem.h" #include "amdxdna_mailbox.h" #include "amdxdna_mailbox_helper.h" #include "amdxdna_pci_drv.h" #define DECLARE_AIE2_MSG(name, op) \ DECLARE_XDNA_MSG_COMMON(name, op, MAX_AIE2_STATUS_CODE) #define EXEC_MSG_OPS(xdna) ((xdna)->dev_handle->exec_msg_ops) static int aie2_send_mgmt_msg_wait(struct amdxdna_dev_hdl *ndev, struct xdna_mailbox_msg *msg) { struct amdxdna_dev *xdna = ndev->xdna; struct xdna_notify *hdl = msg->handle; int ret; if (!ndev->mgmt_chann) return -ENODEV; drm_WARN_ON(&xdna->ddev, xdna->rpm_on && !mutex_is_locked(&xdna->dev_lock)); ret = xdna_send_msg_wait(xdna, ndev->mgmt_chann, msg); if (ret == -ETIME) { xdna_mailbox_stop_channel(ndev->mgmt_chann); xdna_mailbox_destroy_channel(ndev->mgmt_chann); ndev->mgmt_chann = NULL; } if (!ret && *hdl->status != AIE2_STATUS_SUCCESS) { XDNA_ERR(xdna, "command opcode 0x%x failed, status 0x%x", msg->opcode, *hdl->data); ret = -EINVAL; } return ret; } int aie2_suspend_fw(struct amdxdna_dev_hdl *ndev) { DECLARE_AIE2_MSG(suspend, MSG_OP_SUSPEND); return aie2_send_mgmt_msg_wait(ndev, &msg); } int aie2_resume_fw(struct amdxdna_dev_hdl *ndev) { DECLARE_AIE2_MSG(suspend, MSG_OP_RESUME); return aie2_send_mgmt_msg_wait(ndev, &msg); } int aie2_set_runtime_cfg(struct amdxdna_dev_hdl *ndev, u32 type, u64 value) { DECLARE_AIE2_MSG(set_runtime_cfg, MSG_OP_SET_RUNTIME_CONFIG); int ret; req.type = type; req.value = value; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) { XDNA_ERR(ndev->xdna, "Failed to set runtime config, ret %d", ret); return ret; } return 0; } int aie2_get_runtime_cfg(struct amdxdna_dev_hdl *ndev, u32 type, u64 *value) { DECLARE_AIE2_MSG(get_runtime_cfg, MSG_OP_GET_RUNTIME_CONFIG); int ret; req.type = type; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) { XDNA_ERR(ndev->xdna, "Failed to get runtime config, ret %d", ret); return ret; } *value = resp.value; return 0; } int aie2_assign_mgmt_pasid(struct amdxdna_dev_hdl *ndev, u16 pasid) { DECLARE_AIE2_MSG(assign_mgmt_pasid, MSG_OP_ASSIGN_MGMT_PASID); req.pasid = pasid; return aie2_send_mgmt_msg_wait(ndev, &msg); } int aie2_query_aie_version(struct amdxdna_dev_hdl *ndev, struct aie_version *version) { DECLARE_AIE2_MSG(aie_version_info, MSG_OP_QUERY_AIE_VERSION); struct amdxdna_dev *xdna = ndev->xdna; int ret; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) return ret; XDNA_DBG(xdna, "Query AIE version - major: %u minor: %u completed", resp.major, resp.minor); version->major = resp.major; version->minor = resp.minor; return 0; } int aie2_query_aie_metadata(struct amdxdna_dev_hdl *ndev, struct aie_metadata *metadata) { DECLARE_AIE2_MSG(aie_tile_info, MSG_OP_QUERY_AIE_TILE_INFO); int ret; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) return ret; metadata->size = resp.info.size; metadata->cols = resp.info.cols; metadata->rows = resp.info.rows; metadata->version.major = resp.info.major; metadata->version.minor = resp.info.minor; metadata->core.row_count = resp.info.core_rows; metadata->core.row_start = resp.info.core_row_start; metadata->core.dma_channel_count = resp.info.core_dma_channels; metadata->core.lock_count = resp.info.core_locks; metadata->core.event_reg_count = resp.info.core_events; metadata->mem.row_count = resp.info.mem_rows; metadata->mem.row_start = resp.info.mem_row_start; metadata->mem.dma_channel_count = resp.info.mem_dma_channels; metadata->mem.lock_count = resp.info.mem_locks; metadata->mem.event_reg_count = resp.info.mem_events; metadata->shim.row_count = resp.info.shim_rows; metadata->shim.row_start = resp.info.shim_row_start; metadata->shim.dma_channel_count = resp.info.shim_dma_channels; metadata->shim.lock_count = resp.info.shim_locks; metadata->shim.event_reg_count = resp.info.shim_events; return 0; } int aie2_query_firmware_version(struct amdxdna_dev_hdl *ndev, struct amdxdna_fw_ver *fw_ver) { DECLARE_AIE2_MSG(firmware_version, MSG_OP_GET_FIRMWARE_VERSION); int ret; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) return ret; fw_ver->major = resp.major; fw_ver->minor = resp.minor; fw_ver->sub = resp.sub; fw_ver->build = resp.build; return 0; } int aie2_create_context(struct amdxdna_dev_hdl *ndev, struct amdxdna_hwctx *hwctx) { DECLARE_AIE2_MSG(create_ctx, MSG_OP_CREATE_CONTEXT); struct amdxdna_dev *xdna = ndev->xdna; struct xdna_mailbox_chann_res x2i; struct xdna_mailbox_chann_res i2x; struct cq_pair *cq_pair; u32 intr_reg; int ret; req.aie_type = 1; req.start_col = hwctx->start_col; req.num_col = hwctx->num_col; req.num_cq_pairs_requested = 1; req.pasid = hwctx->client->pasid; req.context_priority = 2; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) return ret; hwctx->fw_ctx_id = resp.context_id; WARN_ONCE(hwctx->fw_ctx_id == -1, "Unexpected context id"); if (ndev->force_preempt_enabled) { ret = aie2_runtime_cfg(ndev, AIE2_RT_CFG_FORCE_PREEMPT, &hwctx->fw_ctx_id); if (ret) { XDNA_ERR(xdna, "failed to enable force preempt %d", ret); return ret; } } cq_pair = &resp.cq_pair[0]; x2i.mb_head_ptr_reg = AIE2_MBOX_OFF(ndev, cq_pair->x2i_q.head_addr); x2i.mb_tail_ptr_reg = AIE2_MBOX_OFF(ndev, cq_pair->x2i_q.tail_addr); x2i.rb_start_addr = AIE2_SRAM_OFF(ndev, cq_pair->x2i_q.buf_addr); x2i.rb_size = cq_pair->x2i_q.buf_size; i2x.mb_head_ptr_reg = AIE2_MBOX_OFF(ndev, cq_pair->i2x_q.head_addr); i2x.mb_tail_ptr_reg = AIE2_MBOX_OFF(ndev, cq_pair->i2x_q.tail_addr); i2x.rb_start_addr = AIE2_SRAM_OFF(ndev, cq_pair->i2x_q.buf_addr); i2x.rb_size = cq_pair->i2x_q.buf_size; ret = pci_irq_vector(to_pci_dev(xdna->ddev.dev), resp.msix_id); if (ret == -EINVAL) { XDNA_ERR(xdna, "not able to create channel"); goto out_destroy_context; } intr_reg = i2x.mb_head_ptr_reg + 4; hwctx->priv->mbox_chann = xdna_mailbox_create_channel(ndev->mbox, &x2i, &i2x, intr_reg, ret); if (!hwctx->priv->mbox_chann) { XDNA_ERR(xdna, "not able to create channel"); ret = -EINVAL; goto out_destroy_context; } ndev->hwctx_num++; XDNA_DBG(xdna, "%s mailbox channel irq: %d, msix_id: %d", hwctx->name, ret, resp.msix_id); XDNA_DBG(xdna, "%s created fw ctx %d pasid %d", hwctx->name, hwctx->fw_ctx_id, hwctx->client->pasid); return 0; out_destroy_context: aie2_destroy_context(ndev, hwctx); return ret; } int aie2_destroy_context(struct amdxdna_dev_hdl *ndev, struct amdxdna_hwctx *hwctx) { DECLARE_AIE2_MSG(destroy_ctx, MSG_OP_DESTROY_CONTEXT); struct amdxdna_dev *xdna = ndev->xdna; int ret; if (hwctx->fw_ctx_id == -1) return 0; xdna_mailbox_stop_channel(hwctx->priv->mbox_chann); req.context_id = hwctx->fw_ctx_id; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) XDNA_WARN(xdna, "%s destroy context failed, ret %d", hwctx->name, ret); xdna_mailbox_destroy_channel(hwctx->priv->mbox_chann); XDNA_DBG(xdna, "%s destroyed fw ctx %d", hwctx->name, hwctx->fw_ctx_id); hwctx->priv->mbox_chann = NULL; hwctx->fw_ctx_id = -1; ndev->hwctx_num--; return ret; } int aie2_map_host_buf(struct amdxdna_dev_hdl *ndev, u32 context_id, u64 addr, u64 size) { DECLARE_AIE2_MSG(map_host_buffer, MSG_OP_MAP_HOST_BUFFER); struct amdxdna_dev *xdna = ndev->xdna; int ret; req.context_id = context_id; req.buf_addr = addr; req.buf_size = size; ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) return ret; XDNA_DBG(xdna, "fw ctx %d map host buf addr 0x%llx size 0x%llx", context_id, addr, size); return 0; } static int amdxdna_hwctx_col_map(struct amdxdna_hwctx *hwctx, void *arg) { u32 *bitmap = arg; *bitmap |= GENMASK(hwctx->start_col + hwctx->num_col - 1, hwctx->start_col); return 0; } int aie2_query_status(struct amdxdna_dev_hdl *ndev, char __user *buf, u32 size, u32 *cols_filled) { DECLARE_AIE2_MSG(aie_column_info, MSG_OP_QUERY_COL_STATUS); struct amdxdna_dev *xdna = ndev->xdna; struct amdxdna_client *client; dma_addr_t dma_addr; u32 aie_bitmap = 0; u8 *buff_addr; int ret; buff_addr = dma_alloc_noncoherent(xdna->ddev.dev, size, &dma_addr, DMA_FROM_DEVICE, GFP_KERNEL); if (!buff_addr) return -ENOMEM; /* Go through each hardware context and mark the AIE columns that are active */ list_for_each_entry(client, &xdna->client_list, node) amdxdna_hwctx_walk(client, &aie_bitmap, amdxdna_hwctx_col_map); *cols_filled = 0; req.dump_buff_addr = dma_addr; req.dump_buff_size = size; req.num_cols = hweight32(aie_bitmap); req.aie_bitmap = aie_bitmap; drm_clflush_virt_range(buff_addr, size); /* device can access */ ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) { XDNA_ERR(xdna, "Error during NPU query, status %d", ret); goto fail; } XDNA_DBG(xdna, "Query NPU status completed"); if (size < resp.size) { ret = -EINVAL; XDNA_ERR(xdna, "Bad buffer size. Available: %u. Needs: %u", size, resp.size); goto fail; } if (copy_to_user(buf, buff_addr, resp.size)) { ret = -EFAULT; XDNA_ERR(xdna, "Failed to copy NPU status to user space"); goto fail; } *cols_filled = aie_bitmap; fail: dma_free_noncoherent(xdna->ddev.dev, size, buff_addr, dma_addr, DMA_FROM_DEVICE); return ret; } int aie2_query_telemetry(struct amdxdna_dev_hdl *ndev, char __user *buf, u32 size, struct amdxdna_drm_query_telemetry_header *header) { DECLARE_AIE2_MSG(get_telemetry, MSG_OP_GET_TELEMETRY); struct amdxdna_dev *xdna = ndev->xdna; dma_addr_t dma_addr; u8 *addr; int ret; if (header->type >= MAX_TELEMETRY_TYPE) return -EINVAL; addr = dma_alloc_noncoherent(xdna->ddev.dev, size, &dma_addr, DMA_FROM_DEVICE, GFP_KERNEL); if (!addr) return -ENOMEM; req.buf_addr = dma_addr; req.buf_size = size; req.type = header->type; drm_clflush_virt_range(addr, size); /* device can access */ ret = aie2_send_mgmt_msg_wait(ndev, &msg); if (ret) { XDNA_ERR(xdna, "Query telemetry failed, status %d", ret); goto free_buf; } if (size < resp.size) { ret = -EINVAL; XDNA_ERR(xdna, "Bad buffer size. Available: %u. Needs: %u", size, resp.size); goto free_buf; } if (copy_to_user(buf, addr, resp.size)) { ret = -EFAULT; XDNA_ERR(xdna, "Failed to copy telemetry to user space"); goto free_buf; } header->major = resp.major; header->minor = resp.minor; free_buf: dma_free_noncoherent(xdna->ddev.dev, size, addr, dma_addr, DMA_FROM_DEVICE); return ret; } int aie2_register_asyn_event_msg(struct amdxdna_dev_hdl *ndev, dma_addr_t addr, u32 size, void *handle, int (*cb)(void*, void __iomem *, size_t)) { struct async_event_msg_req req = { 0 }; struct xdna_mailbox_msg msg = { .send_data = (u8 *)&req, .send_size = sizeof(req), .handle = handle, .opcode = MSG_OP_REGISTER_ASYNC_EVENT_MSG, .notify_cb = cb, }; req.buf_addr = addr; req.buf_size = size; XDNA_DBG(ndev->xdna, "Register addr 0x%llx size 0x%x", addr, size); return xdna_mailbox_send_msg(ndev->mgmt_chann, &msg, TX_TIMEOUT); } int aie2_config_cu(struct amdxdna_hwctx *hwctx, int (*notify_cb)(void *, void __iomem *, size_t)) { struct mailbox_channel *chann = hwctx->priv->mbox_chann; struct amdxdna_dev *xdna = hwctx->client->xdna; u32 shift = xdna->dev_info->dev_mem_buf_shift; struct config_cu_req req = { 0 }; struct xdna_mailbox_msg msg; struct drm_gem_object *gobj; struct amdxdna_gem_obj *abo; int i; if (!chann) return -ENODEV; if (hwctx->cus->num_cus > MAX_NUM_CUS) { XDNA_DBG(xdna, "Exceed maximum CU %d", MAX_NUM_CUS); return -EINVAL; } for (i = 0; i < hwctx->cus->num_cus; i++) { struct amdxdna_cu_config *cu = &hwctx->cus->cu_configs[i]; if (XDNA_MBZ_DBG(xdna, cu->pad, sizeof(cu->pad))) return -EINVAL; gobj = drm_gem_object_lookup(hwctx->client->filp, cu->cu_bo); if (!gobj) { XDNA_ERR(xdna, "Lookup GEM object failed"); return -EINVAL; } abo = to_xdna_obj(gobj); if (abo->type != AMDXDNA_BO_DEV) { drm_gem_object_put(gobj); XDNA_ERR(xdna, "Invalid BO type"); return -EINVAL; } req.cfgs[i] = FIELD_PREP(AIE2_MSG_CFG_CU_PDI_ADDR, abo->mem.dev_addr >> shift); req.cfgs[i] |= FIELD_PREP(AIE2_MSG_CFG_CU_FUNC, cu->cu_func); XDNA_DBG(xdna, "CU %d full addr 0x%llx, cfg 0x%x", i, abo->mem.dev_addr, req.cfgs[i]); drm_gem_object_put(gobj); } req.num_cus = hwctx->cus->num_cus; msg.send_data = (u8 *)&req; msg.send_size = sizeof(req); msg.handle = hwctx; msg.opcode = MSG_OP_CONFIG_CU; msg.notify_cb = notify_cb; return xdna_mailbox_send_msg(chann, &msg, TX_TIMEOUT); } static int aie2_init_exec_cu_req(struct amdxdna_gem_obj *cmd_bo, void *req, size_t *size, u32 *msg_op) { struct execute_buffer_req *cu_req = req; u32 cmd_len; void *cmd; cmd = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); if (cmd_len > sizeof(cu_req->payload)) return -EINVAL; cu_req->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (cu_req->cu_idx == INVALID_CU_IDX) return -EINVAL; memcpy(cu_req->payload, cmd, cmd_len); *size = sizeof(*cu_req); *msg_op = MSG_OP_EXECUTE_BUFFER_CF; return 0; } static int aie2_init_exec_dpu_req(struct amdxdna_gem_obj *cmd_bo, void *req, size_t *size, u32 *msg_op) { struct exec_dpu_req *dpu_req = req; struct amdxdna_cmd_start_npu *sn; u32 cmd_len; sn = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); if (cmd_len - sizeof(*sn) > sizeof(dpu_req->payload)) return -EINVAL; dpu_req->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (dpu_req->cu_idx == INVALID_CU_IDX) return -EINVAL; dpu_req->inst_buf_addr = sn->buffer; dpu_req->inst_size = sn->buffer_size; dpu_req->inst_prop_cnt = sn->prop_count; memcpy(dpu_req->payload, sn->prop_args, cmd_len - sizeof(*sn)); *size = sizeof(*dpu_req); *msg_op = MSG_OP_EXEC_DPU; return 0; } static void aie2_init_exec_chain_req(void *req, u64 slot_addr, size_t size, u32 cmd_cnt) { struct cmd_chain_req *chain_req = req; chain_req->buf_addr = slot_addr; chain_req->buf_size = size; chain_req->count = cmd_cnt; } static void aie2_init_npu_chain_req(void *req, u64 slot_addr, size_t size, u32 cmd_cnt) { struct cmd_chain_npu_req *npu_chain_req = req; npu_chain_req->flags = 0; npu_chain_req->reserved = 0; npu_chain_req->buf_addr = slot_addr; npu_chain_req->buf_size = size; npu_chain_req->count = cmd_cnt; } static int aie2_cmdlist_fill_cf(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { struct cmd_chain_slot_execbuf_cf *cf_slot = slot; u32 cmd_len; void *cmd; cmd = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); if (*size < sizeof(*cf_slot) + cmd_len) return -EINVAL; cf_slot->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (cf_slot->cu_idx == INVALID_CU_IDX) return -EINVAL; cf_slot->arg_cnt = cmd_len / sizeof(u32); memcpy(cf_slot->args, cmd, cmd_len); /* Accurate slot size to hint firmware to do necessary copy */ *size = sizeof(*cf_slot) + cmd_len; return 0; } static int aie2_cmdlist_fill_dpu(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { struct cmd_chain_slot_dpu *dpu_slot = slot; struct amdxdna_cmd_start_npu *sn; u32 cmd_len; u32 arg_sz; sn = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); arg_sz = cmd_len - sizeof(*sn); if (cmd_len < sizeof(*sn) || arg_sz > MAX_DPU_ARGS_SIZE) return -EINVAL; if (*size < sizeof(*dpu_slot) + arg_sz) return -EINVAL; dpu_slot->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (dpu_slot->cu_idx == INVALID_CU_IDX) return -EINVAL; dpu_slot->inst_buf_addr = sn->buffer; dpu_slot->inst_size = sn->buffer_size; dpu_slot->inst_prop_cnt = sn->prop_count; dpu_slot->arg_cnt = arg_sz / sizeof(u32); memcpy(dpu_slot->args, sn->prop_args, arg_sz); /* Accurate slot size to hint firmware to do necessary copy */ *size = sizeof(*dpu_slot) + arg_sz; return 0; } static int aie2_cmdlist_unsupp(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { return -EOPNOTSUPP; } static u32 aie2_get_chain_msg_op(u32 cmd_op) { switch (cmd_op) { case ERT_START_CU: return MSG_OP_CHAIN_EXEC_BUFFER_CF; case ERT_START_NPU: return MSG_OP_CHAIN_EXEC_DPU; default: break; } return MSG_OP_MAX_OPCODE; } static struct aie2_exec_msg_ops legacy_exec_message_ops = { .init_cu_req = aie2_init_exec_cu_req, .init_dpu_req = aie2_init_exec_dpu_req, .init_chain_req = aie2_init_exec_chain_req, .fill_cf_slot = aie2_cmdlist_fill_cf, .fill_dpu_slot = aie2_cmdlist_fill_dpu, .fill_preempt_slot = aie2_cmdlist_unsupp, .fill_elf_slot = aie2_cmdlist_unsupp, .get_chain_msg_op = aie2_get_chain_msg_op, }; static int aie2_cmdlist_fill_npu_cf(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { struct cmd_chain_slot_npu *npu_slot = slot; u32 cmd_len; void *cmd; cmd = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); if (*size < sizeof(*npu_slot) + cmd_len) return -EINVAL; npu_slot->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (npu_slot->cu_idx == INVALID_CU_IDX) return -EINVAL; memset(npu_slot, 0, sizeof(*npu_slot)); npu_slot->type = EXEC_NPU_TYPE_NON_ELF; npu_slot->arg_cnt = cmd_len / sizeof(u32); memcpy(npu_slot->args, cmd, cmd_len); *size = sizeof(*npu_slot) + cmd_len; return 0; } static int aie2_cmdlist_fill_npu_dpu(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { struct cmd_chain_slot_npu *npu_slot = slot; struct amdxdna_cmd_start_npu *sn; u32 cmd_len; u32 arg_sz; sn = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); arg_sz = cmd_len - sizeof(*sn); if (cmd_len < sizeof(*sn) || arg_sz > MAX_NPU_ARGS_SIZE) return -EINVAL; if (*size < sizeof(*npu_slot) + arg_sz) return -EINVAL; npu_slot->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (npu_slot->cu_idx == INVALID_CU_IDX) return -EINVAL; memset(npu_slot, 0, sizeof(*npu_slot)); npu_slot->type = EXEC_NPU_TYPE_PARTIAL_ELF; npu_slot->inst_buf_addr = sn->buffer; npu_slot->inst_size = sn->buffer_size; npu_slot->inst_prop_cnt = sn->prop_count; npu_slot->arg_cnt = arg_sz / sizeof(u32); memcpy(npu_slot->args, sn->prop_args, arg_sz); *size = sizeof(*npu_slot) + arg_sz; return 0; } static int aie2_cmdlist_fill_npu_preempt(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { struct cmd_chain_slot_npu *npu_slot = slot; struct amdxdna_cmd_preempt_data *pd; u32 cmd_len; u32 arg_sz; pd = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); arg_sz = cmd_len - sizeof(*pd); if (cmd_len < sizeof(*pd) || arg_sz > MAX_NPU_ARGS_SIZE) return -EINVAL; if (*size < sizeof(*npu_slot) + arg_sz) return -EINVAL; npu_slot->cu_idx = amdxdna_cmd_get_cu_idx(cmd_bo); if (npu_slot->cu_idx == INVALID_CU_IDX) return -EINVAL; memset(npu_slot, 0, sizeof(*npu_slot)); npu_slot->type = EXEC_NPU_TYPE_PREEMPT; npu_slot->inst_buf_addr = pd->inst_buf; npu_slot->save_buf_addr = pd->save_buf; npu_slot->restore_buf_addr = pd->restore_buf; npu_slot->inst_size = pd->inst_size; npu_slot->save_size = pd->save_size; npu_slot->restore_size = pd->restore_size; npu_slot->inst_prop_cnt = pd->inst_prop_cnt; npu_slot->arg_cnt = arg_sz / sizeof(u32); memcpy(npu_slot->args, pd->prop_args, arg_sz); *size = sizeof(*npu_slot) + arg_sz; return 0; } static int aie2_cmdlist_fill_npu_elf(struct amdxdna_gem_obj *cmd_bo, void *slot, size_t *size) { struct cmd_chain_slot_npu *npu_slot = slot; struct amdxdna_cmd_preempt_data *pd; u32 cmd_len; u32 arg_sz; pd = amdxdna_cmd_get_payload(cmd_bo, &cmd_len); arg_sz = cmd_len - sizeof(*pd); if (cmd_len < sizeof(*pd) || arg_sz > MAX_NPU_ARGS_SIZE) return -EINVAL; if (*size < sizeof(*npu_slot) + arg_sz) return -EINVAL; memset(npu_slot, 0, sizeof(*npu_slot)); npu_slot->type = EXEC_NPU_TYPE_ELF; npu_slot->inst_buf_addr = pd->inst_buf; npu_slot->save_buf_addr = pd->save_buf; npu_slot->restore_buf_addr = pd->restore_buf; npu_slot->inst_size = pd->inst_size; npu_slot->save_size = pd->save_size; npu_slot->restore_size = pd->restore_size; npu_slot->inst_prop_cnt = pd->inst_prop_cnt; npu_slot->arg_cnt = 1; npu_slot->args[0] = AIE2_EXEC_BUFFER_KERNEL_OP_TXN; *size = struct_size(npu_slot, args, npu_slot->arg_cnt); return 0; } static u32 aie2_get_npu_chain_msg_op(u32 cmd_op) { return MSG_OP_CHAIN_EXEC_NPU; } static struct aie2_exec_msg_ops npu_exec_message_ops = { .init_cu_req = aie2_init_exec_cu_req, .init_dpu_req = aie2_init_exec_dpu_req, .init_chain_req = aie2_init_npu_chain_req, .fill_cf_slot = aie2_cmdlist_fill_npu_cf, .fill_dpu_slot = aie2_cmdlist_fill_npu_dpu, .fill_preempt_slot = aie2_cmdlist_fill_npu_preempt, .fill_elf_slot = aie2_cmdlist_fill_npu_elf, .get_chain_msg_op = aie2_get_npu_chain_msg_op, }; static int aie2_init_exec_req(void *req, struct amdxdna_gem_obj *cmd_abo, size_t *size, u32 *msg_op) { struct amdxdna_dev *xdna = cmd_abo->client->xdna; int ret; u32 op; op = amdxdna_cmd_get_op(cmd_abo); switch (op) { case ERT_START_CU: ret = EXEC_MSG_OPS(xdna)->init_cu_req(cmd_abo, req, size, msg_op); if (ret) { XDNA_DBG(xdna, "Init CU req failed ret %d", ret); return ret; } break; case ERT_START_NPU: ret = EXEC_MSG_OPS(xdna)->init_dpu_req(cmd_abo, req, size, msg_op); if (ret) { XDNA_DBG(xdna, "Init DPU req failed ret %d", ret); return ret; } break; default: XDNA_ERR(xdna, "Unsupported op %d", op); ret = -EOPNOTSUPP; break; } return ret; } static int aie2_cmdlist_fill_slot(void *slot, struct amdxdna_gem_obj *cmd_abo, size_t *size, u32 *cmd_op) { struct amdxdna_dev *xdna = cmd_abo->client->xdna; int ret; u32 op; op = amdxdna_cmd_get_op(cmd_abo); if (*cmd_op == ERT_INVALID_CMD) *cmd_op = op; else if (op != *cmd_op) return -EINVAL; switch (op) { case ERT_START_CU: ret = EXEC_MSG_OPS(xdna)->fill_cf_slot(cmd_abo, slot, size); break; case ERT_START_NPU: ret = EXEC_MSG_OPS(xdna)->fill_dpu_slot(cmd_abo, slot, size); break; case ERT_START_NPU_PREEMPT: if (!AIE2_FEATURE_ON(xdna->dev_handle, AIE2_PREEMPT)) return -EOPNOTSUPP; ret = EXEC_MSG_OPS(xdna)->fill_preempt_slot(cmd_abo, slot, size); break; case ERT_START_NPU_PREEMPT_ELF: if (!AIE2_FEATURE_ON(xdna->dev_handle, AIE2_PREEMPT)) return -EOPNOTSUPP; ret = EXEC_MSG_OPS(xdna)->fill_elf_slot(cmd_abo, slot, size); break; default: XDNA_INFO(xdna, "Unsupported op %d", op); ret = -EOPNOTSUPP; break; } return ret; } void aie2_msg_init(struct amdxdna_dev_hdl *ndev) { if (AIE2_FEATURE_ON(ndev, AIE2_NPU_COMMAND)) ndev->exec_msg_ops = &npu_exec_message_ops; else ndev->exec_msg_ops = &legacy_exec_message_ops; } static inline struct amdxdna_gem_obj * aie2_cmdlist_get_cmd_buf(struct amdxdna_sched_job *job) { int idx = get_job_idx(job->seq); return job->hwctx->priv->cmd_buf[idx]; } int aie2_execbuf(struct amdxdna_hwctx *hwctx, struct amdxdna_sched_job *job, int (*notify_cb)(void *, void __iomem *, size_t)) { struct mailbox_channel *chann = hwctx->priv->mbox_chann; struct amdxdna_dev *xdna = hwctx->client->xdna; struct amdxdna_gem_obj *cmd_abo = job->cmd_bo; struct xdna_mailbox_msg msg; union exec_req req; int ret; if (!chann) return -ENODEV; ret = aie2_init_exec_req(&req, cmd_abo, &msg.send_size, &msg.opcode); if (ret) return ret; msg.handle = job; msg.notify_cb = notify_cb; msg.send_data = (u8 *)&req; print_hex_dump_debug("cmd: ", DUMP_PREFIX_OFFSET, 16, 4, &req, 0x40, false); ret = xdna_mailbox_send_msg(chann, &msg, TX_TIMEOUT); if (ret) { XDNA_ERR(xdna, "Send message failed"); return ret; } return 0; } int aie2_cmdlist_multi_execbuf(struct amdxdna_hwctx *hwctx, struct amdxdna_sched_job *job, int (*notify_cb)(void *, void __iomem *, size_t)) { struct amdxdna_gem_obj *cmdbuf_abo = aie2_cmdlist_get_cmd_buf(job); struct mailbox_channel *chann = hwctx->priv->mbox_chann; struct amdxdna_client *client = hwctx->client; struct amdxdna_gem_obj *cmd_abo = job->cmd_bo; struct amdxdna_dev *xdna = client->xdna; struct amdxdna_cmd_chain *payload; struct xdna_mailbox_msg msg; union exec_chain_req req; u32 payload_len; u32 offset = 0; size_t size; int ret; u32 op; u32 i; op = amdxdna_cmd_get_op(cmd_abo); payload = amdxdna_cmd_get_payload(cmd_abo, &payload_len); if (op != ERT_CMD_CHAIN || !payload || payload_len < struct_size(payload, data, payload->command_count)) return -EINVAL; op = ERT_INVALID_CMD; for (i = 0; i < payload->command_count; i++) { u32 boh = (u32)(payload->data[i]); struct amdxdna_gem_obj *abo; abo = amdxdna_gem_get_obj(client, boh, AMDXDNA_BO_CMD); if (!abo) { XDNA_ERR(xdna, "Failed to find cmd BO %d", boh); return -ENOENT; } size = cmdbuf_abo->mem.size - offset; ret = aie2_cmdlist_fill_slot(cmdbuf_abo->mem.kva + offset, abo, &size, &op); amdxdna_gem_put_obj(abo); if (ret) return ret; offset += size; } msg.opcode = EXEC_MSG_OPS(xdna)->get_chain_msg_op(op); if (msg.opcode == MSG_OP_MAX_OPCODE) return -EOPNOTSUPP; /* The offset is the accumulated total size of the cmd buffer */ EXEC_MSG_OPS(xdna)->init_chain_req(&req, cmdbuf_abo->mem.dev_addr, offset, payload->command_count); drm_clflush_virt_range(cmdbuf_abo->mem.kva, offset); msg.handle = job; msg.notify_cb = notify_cb; msg.send_data = (u8 *)&req; msg.send_size = sizeof(req); ret = xdna_mailbox_send_msg(chann, &msg, TX_TIMEOUT); if (ret) { XDNA_ERR(xdna, "Send message failed"); return ret; } return 0; } int aie2_cmdlist_single_execbuf(struct amdxdna_hwctx *hwctx, struct amdxdna_sched_job *job, int (*notify_cb)(void *, void __iomem *, size_t)) { struct amdxdna_gem_obj *cmdbuf_abo = aie2_cmdlist_get_cmd_buf(job); struct mailbox_channel *chann = hwctx->priv->mbox_chann; struct amdxdna_dev *xdna = hwctx->client->xdna; struct amdxdna_gem_obj *cmd_abo = job->cmd_bo; struct xdna_mailbox_msg msg; union exec_chain_req req; u32 op = ERT_INVALID_CMD; size_t size; int ret; size = cmdbuf_abo->mem.size; ret = aie2_cmdlist_fill_slot(cmdbuf_abo->mem.kva, cmd_abo, &size, &op); if (ret) return ret; msg.opcode = EXEC_MSG_OPS(xdna)->get_chain_msg_op(op); if (msg.opcode == MSG_OP_MAX_OPCODE) return -EOPNOTSUPP; EXEC_MSG_OPS(xdna)->init_chain_req(&req, cmdbuf_abo->mem.dev_addr, size, 1); drm_clflush_virt_range(cmdbuf_abo->mem.kva, size); msg.handle = job; msg.notify_cb = notify_cb; msg.send_data = (u8 *)&req; msg.send_size = sizeof(req); ret = xdna_mailbox_send_msg(chann, &msg, TX_TIMEOUT); if (ret) { XDNA_ERR(hwctx->client->xdna, "Send message failed"); return ret; } return 0; } int aie2_sync_bo(struct amdxdna_hwctx *hwctx, struct amdxdna_sched_job *job, int (*notify_cb)(void *, void __iomem *, size_t)) { struct mailbox_channel *chann = hwctx->priv->mbox_chann; struct amdxdna_gem_obj *abo = to_xdna_obj(job->bos[0]); struct amdxdna_dev *xdna = hwctx->client->xdna; struct xdna_mailbox_msg msg; struct sync_bo_req req; int ret = 0; req.src_addr = 0; req.dst_addr = amdxdna_dev_bo_offset(abo); req.size = abo->mem.size; /* Device to Host */ req.type = FIELD_PREP(AIE2_MSG_SYNC_BO_SRC_TYPE, SYNC_BO_DEV_MEM) | FIELD_PREP(AIE2_MSG_SYNC_BO_DST_TYPE, SYNC_BO_HOST_MEM); XDNA_DBG(xdna, "sync %d bytes src(0x%llx) to dst(0x%llx) completed", req.size, req.src_addr, req.dst_addr); msg.handle = job; msg.notify_cb = notify_cb; msg.send_data = (u8 *)&req; msg.send_size = sizeof(req); msg.opcode = MSG_OP_SYNC_BO; ret = xdna_mailbox_send_msg(chann, &msg, TX_TIMEOUT); if (ret) { XDNA_ERR(xdna, "Send message failed"); return ret; } return 0; } int aie2_config_debug_bo(struct amdxdna_hwctx *hwctx, struct amdxdna_sched_job *job, int (*notify_cb)(void *, void __iomem *, size_t)) { struct mailbox_channel *chann = hwctx->priv->mbox_chann; struct amdxdna_gem_obj *abo = to_xdna_obj(job->bos[0]); struct amdxdna_dev *xdna = hwctx->client->xdna; struct config_debug_bo_req req; struct xdna_mailbox_msg msg; if (job->drv_cmd->opcode == ATTACH_DEBUG_BO) req.config = DEBUG_BO_REGISTER; else req.config = DEBUG_BO_UNREGISTER; req.offset = amdxdna_dev_bo_offset(abo); req.size = abo->mem.size; XDNA_DBG(xdna, "offset 0x%llx size 0x%llx config %d", req.offset, req.size, req.config); msg.handle = job; msg.notify_cb = notify_cb; msg.send_data = (u8 *)&req; msg.send_size = sizeof(req); msg.opcode = MSG_OP_CONFIG_DEBUG_BO; return xdna_mailbox_send_msg(chann, &msg, TX_TIMEOUT); }
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