| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| yipechai | 3381 | 100.00% | 2 | 100.00% |
| Total | 3381 | 2 |
// SPDX-License-Identifier: MIT /* * Copyright 2025 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * */ #include "ras.h" #include "ras_ta_if.h" #include "ras_psp.h" #include "ras_psp_v13_0.h" /* position of instance value in sub_block_index of * ta_ras_trigger_error_input, the sub block uses lower 12 bits */ #define RAS_TA_INST_MASK 0xfffff000 #define RAS_TA_INST_SHIFT 0xc static const struct ras_psp_ip_func *ras_psp_get_ip_funcs( struct ras_core_context *ras_core, uint32_t ip_version) { switch (ip_version) { case IP_VERSION(13, 0, 6): case IP_VERSION(13, 0, 14): case IP_VERSION(13, 0, 12): return &ras_psp_v13_0; default: RAS_DEV_ERR(ras_core->dev, "psp ip version(0x%x) is not supported!\n", ip_version); break; } return NULL; } static int ras_psp_sync_system_ras_psp_status(struct ras_core_context *ras_core) { struct ras_psp *psp = &ras_core->ras_psp; struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; struct ras_psp_ctx *psp_ctx = &ras_core->ras_psp.psp_ctx; struct ras_psp_sys_status status = {0}; int ret; if (psp->sys_func && psp->sys_func->get_ras_psp_system_status) { ret = psp->sys_func->get_ras_psp_system_status(ras_core, &status); if (ret) return ret; if (status.initialized) { ta_ctx->preload_ras_ta_enabled = true; ta_ctx->ras_ta_initialized = status.initialized; ta_ctx->session_id = status.session_id; } psp_ctx->external_mutex = status.psp_cmd_mutex; } return 0; } static int ras_psp_get_ras_ta_init_param(struct ras_core_context *ras_core, struct ras_ta_init_param *ras_ta_param) { struct ras_psp *psp = &ras_core->ras_psp; if (psp->sys_func && psp->sys_func->get_ras_ta_init_param) return psp->sys_func->get_ras_ta_init_param(ras_core, ras_ta_param); RAS_DEV_ERR(ras_core->dev, "Not config get_ras_ta_init_param API!!\n"); return -EACCES; } static struct gpu_mem_block *ras_psp_get_gpu_mem(struct ras_core_context *ras_core, enum gpu_mem_type mem_type) { struct ras_psp *psp = &ras_core->ras_psp; struct gpu_mem_block *gpu_mem = NULL; int ret; switch (mem_type) { case GPU_MEM_TYPE_RAS_PSP_RING: gpu_mem = &psp->psp_ring.ras_ring_gpu_mem; break; case GPU_MEM_TYPE_RAS_PSP_CMD: gpu_mem = &psp->psp_ctx.psp_cmd_gpu_mem; break; case GPU_MEM_TYPE_RAS_PSP_FENCE: gpu_mem = &psp->psp_ctx.out_fence_gpu_mem; break; case GPU_MEM_TYPE_RAS_TA_FW: gpu_mem = &psp->ta_ctx.fw_gpu_mem; break; case GPU_MEM_TYPE_RAS_TA_CMD: gpu_mem = &psp->ta_ctx.cmd_gpu_mem; break; default: return NULL; } if (!gpu_mem->ref_count) { ret = ras_core_get_gpu_mem(ras_core, mem_type, gpu_mem); if (ret) return NULL; gpu_mem->mem_type = mem_type; } gpu_mem->ref_count++; return gpu_mem; } static int ras_psp_put_gpu_mem(struct ras_core_context *ras_core, struct gpu_mem_block *gpu_mem) { if (!gpu_mem) return 0; gpu_mem->ref_count--; if (gpu_mem->ref_count > 0) { return 0; } else if (gpu_mem->ref_count < 0) { RAS_DEV_WARN(ras_core->dev, "Duplicate free gpu memory %u\n", gpu_mem->mem_type); } else { ras_core_put_gpu_mem(ras_core, gpu_mem->mem_type, gpu_mem); memset(gpu_mem, 0, sizeof(*gpu_mem)); } return 0; } static void __acquire_psp_cmd_lock(struct ras_core_context *ras_core) { struct ras_psp_ctx *psp_ctx = &ras_core->ras_psp.psp_ctx; if (psp_ctx->external_mutex) mutex_lock(psp_ctx->external_mutex); else mutex_lock(&psp_ctx->internal_mutex); } static void __release_psp_cmd_lock(struct ras_core_context *ras_core) { struct ras_psp_ctx *psp_ctx = &ras_core->ras_psp.psp_ctx; if (psp_ctx->external_mutex) mutex_unlock(psp_ctx->external_mutex); else mutex_unlock(&psp_ctx->internal_mutex); } static uint32_t __get_ring_frame_slot(struct ras_core_context *ras_core) { struct ras_psp *psp = &ras_core->ras_psp; uint32_t ras_ring_wptr_dw; ras_ring_wptr_dw = psp->ip_func->psp_ras_ring_wptr_get(ras_core); return div64_u64((ras_ring_wptr_dw << 2), sizeof(struct psp_gfx_rb_frame)); } static int __set_ring_frame_slot(struct ras_core_context *ras_core, uint32_t slot) { struct ras_psp *psp = &ras_core->ras_psp; return psp->ip_func->psp_ras_ring_wptr_set(ras_core, (slot * sizeof(struct psp_gfx_rb_frame)) >> 2); } static int write_frame_to_ras_psp_ring(struct ras_core_context *ras_core, struct psp_gfx_rb_frame *frame) { struct gpu_mem_block *ring_mem; struct psp_gfx_rb_frame *rb_frame; uint32_t max_frame_slot; uint32_t slot_idx; uint32_t write_flush_read_back = 0; int ret = 0; ring_mem = ras_psp_get_gpu_mem(ras_core, GPU_MEM_TYPE_RAS_PSP_RING); if (!ring_mem) return -ENOMEM; max_frame_slot = div64_u64(ring_mem->mem_size, sizeof(struct psp_gfx_rb_frame)); rb_frame = (struct psp_gfx_rb_frame *)ring_mem->mem_cpu_addr; slot_idx = __get_ring_frame_slot(ras_core); if (slot_idx >= max_frame_slot) slot_idx = 0; memcpy(&rb_frame[slot_idx], frame, sizeof(*frame)); /* Do a read to force the write of the frame before writing * write pointer. */ write_flush_read_back = rb_frame[slot_idx].fence_value; if (write_flush_read_back != frame->fence_value) { RAS_DEV_ERR(ras_core->dev, "Failed to submit ring cmd! cmd:0x%x:0x%x, fence:0x%x:0x%x value:%u, expected:%u\n", rb_frame[slot_idx].cmd_buf_addr_hi, rb_frame[slot_idx].cmd_buf_addr_lo, rb_frame[slot_idx].fence_addr_hi, rb_frame[slot_idx].fence_addr_lo, write_flush_read_back, frame->fence_value); ret = -EACCES; goto err; } slot_idx++; if (slot_idx >= max_frame_slot) slot_idx = 0; __set_ring_frame_slot(ras_core, slot_idx); err: ras_psp_put_gpu_mem(ras_core, ring_mem); return ret; } static int send_psp_cmd(struct ras_core_context *ras_core, enum psp_gfx_cmd_id gfx_cmd_id, void *cmd_data, uint32_t cmd_size, struct psp_cmd_resp *resp) { struct ras_psp_ctx *psp_ctx = &ras_core->ras_psp.psp_ctx; struct gpu_mem_block *psp_cmd_buf = NULL; struct gpu_mem_block *psp_fence_buf = NULL; struct psp_gfx_cmd_resp *gfx_cmd; struct psp_gfx_rb_frame rb_frame; int ret = 0; int timeout = 1000; if (!cmd_data || (cmd_size > sizeof(union psp_gfx_commands)) || !resp) { RAS_DEV_ERR(ras_core->dev, "Invalid RAS PSP command, id: %u\n", gfx_cmd_id); return -EINVAL; } __acquire_psp_cmd_lock(ras_core); psp_cmd_buf = ras_psp_get_gpu_mem(ras_core, GPU_MEM_TYPE_RAS_PSP_CMD); if (!psp_cmd_buf) { ret = -ENOMEM; goto exit; } psp_fence_buf = ras_psp_get_gpu_mem(ras_core, GPU_MEM_TYPE_RAS_PSP_FENCE); if (!psp_fence_buf) { ret = -ENOMEM; goto exit; } gfx_cmd = (struct psp_gfx_cmd_resp *)psp_cmd_buf->mem_cpu_addr; memset(gfx_cmd, 0, sizeof(*gfx_cmd)); gfx_cmd->cmd_id = gfx_cmd_id; memcpy(&gfx_cmd->cmd, cmd_data, cmd_size); psp_ctx->in_fence_value++; memset(&rb_frame, 0, sizeof(rb_frame)); rb_frame.cmd_buf_addr_hi = upper_32_bits(psp_cmd_buf->mem_mc_addr); rb_frame.cmd_buf_addr_lo = lower_32_bits(psp_cmd_buf->mem_mc_addr); rb_frame.fence_addr_hi = upper_32_bits(psp_fence_buf->mem_mc_addr); rb_frame.fence_addr_lo = lower_32_bits(psp_fence_buf->mem_mc_addr); rb_frame.fence_value = psp_ctx->in_fence_value; ret = write_frame_to_ras_psp_ring(ras_core, &rb_frame); if (ret) { psp_ctx->in_fence_value--; goto exit; } while (*((uint64_t *)psp_fence_buf->mem_cpu_addr) != psp_ctx->in_fence_value) { if (--timeout == 0) break; /* * Shouldn't wait for timeout when err_event_athub occurs, * because gpu reset thread triggered and lock resource should * be released for psp resume sequence. */ if (ras_core_ras_interrupt_detected(ras_core)) break; msleep(2); } resp->status = gfx_cmd->resp.status; resp->session_id = gfx_cmd->resp.session_id; exit: ras_psp_put_gpu_mem(ras_core, psp_cmd_buf); ras_psp_put_gpu_mem(ras_core, psp_fence_buf); __release_psp_cmd_lock(ras_core); return ret; } static void __check_ras_ta_cmd_resp(struct ras_core_context *ras_core, struct ras_ta_cmd *ras_cmd) { if (ras_cmd->ras_out_message.flags.err_inject_switch_disable_flag) { RAS_DEV_WARN(ras_core->dev, "ECC switch disabled\n"); ras_cmd->ras_status = RAS_TA_STATUS__ERROR_RAS_NOT_AVAILABLE; } else if (ras_cmd->ras_out_message.flags.reg_access_failure_flag) RAS_DEV_WARN(ras_core->dev, "RAS internal register access blocked\n"); switch (ras_cmd->ras_status) { case RAS_TA_STATUS__ERROR_UNSUPPORTED_IP: RAS_DEV_WARN(ras_core->dev, "RAS WARNING: cmd failed due to unsupported ip\n"); break; case RAS_TA_STATUS__ERROR_UNSUPPORTED_ERROR_INJ: RAS_DEV_WARN(ras_core->dev, "RAS WARNING: cmd failed due to unsupported error injection\n"); break; case RAS_TA_STATUS__SUCCESS: break; case RAS_TA_STATUS__TEE_ERROR_ACCESS_DENIED: if (ras_cmd->cmd_id == RAS_TA_CMD_ID__TRIGGER_ERROR) RAS_DEV_WARN(ras_core->dev, "RAS WARNING: Inject error to critical region is not allowed\n"); break; default: RAS_DEV_WARN(ras_core->dev, "RAS WARNING: ras status = 0x%X\n", ras_cmd->ras_status); break; } } static int send_ras_ta_runtime_cmd(struct ras_core_context *ras_core, enum ras_ta_cmd_id cmd_id, void *in, uint32_t in_size, void *out, uint32_t out_size) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; struct gpu_mem_block *cmd_mem; struct ras_ta_cmd *ras_cmd; struct psp_gfx_cmd_invoke_cmd invoke_cmd = {0}; struct psp_cmd_resp resp = {0}; int ret = 0; if (!in || (in_size > sizeof(union ras_ta_cmd_input)) || (cmd_id >= MAX_RAS_TA_CMD_ID)) { RAS_DEV_ERR(ras_core->dev, "Invalid RAS TA command, id: %u\n", cmd_id); return -EINVAL; } ras_psp_sync_system_ras_psp_status(ras_core); cmd_mem = ras_psp_get_gpu_mem(ras_core, GPU_MEM_TYPE_RAS_TA_CMD); if (!cmd_mem) return -ENOMEM; if (!ras_core_down_trylock_gpu_reset_lock(ras_core)) { ret = -EACCES; goto out; } ras_cmd = (struct ras_ta_cmd *)cmd_mem->mem_cpu_addr; mutex_lock(&ta_ctx->ta_mutex); memset(ras_cmd, 0, sizeof(*ras_cmd)); ras_cmd->cmd_id = cmd_id; memcpy(&ras_cmd->ras_in_message, in, in_size); invoke_cmd.ta_cmd_id = cmd_id; invoke_cmd.session_id = ta_ctx->session_id; ret = send_psp_cmd(ras_core, GFX_CMD_ID_INVOKE_CMD, &invoke_cmd, sizeof(invoke_cmd), &resp); /* If err_event_athub occurs error inject was successful, however * return status from TA is no long reliable */ if (ras_core_ras_interrupt_detected(ras_core)) { ret = 0; goto unlock; } if (ret || resp.status) { RAS_DEV_ERR(ras_core->dev, "RAS: Failed to send psp cmd! ret:%d, status:%u\n", ret, resp.status); ret = -ESTRPIPE; goto unlock; } if (ras_cmd->if_version > RAS_TA_HOST_IF_VER) { RAS_DEV_WARN(ras_core->dev, "RAS: Unsupported Interface\n"); ret = -EINVAL; goto unlock; } if (!ras_cmd->ras_status && out && out_size) memcpy(out, &ras_cmd->ras_out_message, out_size); __check_ras_ta_cmd_resp(ras_core, ras_cmd); unlock: mutex_unlock(&ta_ctx->ta_mutex); ras_core_up_gpu_reset_lock(ras_core); out: ras_psp_put_gpu_mem(ras_core, cmd_mem); return ret; } static int trigger_ras_ta_error(struct ras_core_context *ras_core, struct ras_ta_trigger_error_input *info, uint32_t instance_mask) { uint32_t dev_mask = 0; switch (info->block_id) { case RAS_TA_BLOCK__GFX: if (ras_gfx_get_ta_subblock(ras_core, info->inject_error_type, info->sub_block_index, &info->sub_block_index)) return -EINVAL; dev_mask = RAS_GET_MASK(ras_core->dev, GC, instance_mask); break; case RAS_TA_BLOCK__SDMA: dev_mask = RAS_GET_MASK(ras_core->dev, SDMA0, instance_mask); break; case RAS_TA_BLOCK__VCN: case RAS_TA_BLOCK__JPEG: dev_mask = RAS_GET_MASK(ras_core->dev, VCN, instance_mask); break; default: dev_mask = instance_mask; break; } /* reuse sub_block_index for backward compatibility */ dev_mask <<= RAS_TA_INST_SHIFT; dev_mask &= RAS_TA_INST_MASK; info->sub_block_index |= dev_mask; return send_ras_ta_runtime_cmd(ras_core, RAS_TA_CMD_ID__TRIGGER_ERROR, info, sizeof(*info), NULL, 0); } static int send_load_ta_fw_cmd(struct ras_core_context *ras_core, struct ras_ta_ctx *ta_ctx) { struct ras_ta_fw_bin *fw_bin = &ta_ctx->fw_bin; struct gpu_mem_block *fw_mem; struct gpu_mem_block *cmd_mem; struct ras_ta_cmd *ta_cmd; struct ras_ta_init_flags *ta_init_flags; struct psp_gfx_cmd_load_ta psp_load_ta_cmd; struct psp_cmd_resp resp = {0}; struct ras_ta_image_header *fw_hdr = NULL; int ret; fw_mem = ras_psp_get_gpu_mem(ras_core, GPU_MEM_TYPE_RAS_TA_FW); if (!fw_mem) return -ENOMEM; cmd_mem = ras_psp_get_gpu_mem(ras_core, GPU_MEM_TYPE_RAS_TA_CMD); if (!cmd_mem) { ret = -ENOMEM; goto err; } ret = ras_psp_get_ras_ta_init_param(ras_core, &ta_ctx->init_param); if (ret) goto err; if (!ras_core_down_trylock_gpu_reset_lock(ras_core)) { ret = -EACCES; goto err; } /* copy ras ta binary to shared gpu memory */ memcpy(fw_mem->mem_cpu_addr, fw_bin->bin_addr, fw_bin->bin_size); fw_mem->mem_size = fw_bin->bin_size; /* Initialize ras ta startup parameter */ ta_cmd = (struct ras_ta_cmd *)cmd_mem->mem_cpu_addr; ta_init_flags = &ta_cmd->ras_in_message.init_flags; ta_init_flags->poison_mode_en = ta_ctx->init_param.poison_mode_en; ta_init_flags->dgpu_mode = ta_ctx->init_param.dgpu_mode; ta_init_flags->xcc_mask = ta_ctx->init_param.xcc_mask; ta_init_flags->channel_dis_num = ta_ctx->init_param.channel_dis_num; ta_init_flags->nps_mode = ta_ctx->init_param.nps_mode; ta_init_flags->active_umc_mask = ta_ctx->init_param.active_umc_mask; /* Setup load ras ta command */ memset(&psp_load_ta_cmd, 0, sizeof(psp_load_ta_cmd)); psp_load_ta_cmd.app_phy_addr_lo = lower_32_bits(fw_mem->mem_mc_addr); psp_load_ta_cmd.app_phy_addr_hi = upper_32_bits(fw_mem->mem_mc_addr); psp_load_ta_cmd.app_len = fw_mem->mem_size; psp_load_ta_cmd.cmd_buf_phy_addr_lo = lower_32_bits(cmd_mem->mem_mc_addr); psp_load_ta_cmd.cmd_buf_phy_addr_hi = upper_32_bits(cmd_mem->mem_mc_addr); psp_load_ta_cmd.cmd_buf_len = cmd_mem->mem_size; ret = send_psp_cmd(ras_core, GFX_CMD_ID_LOAD_TA, &psp_load_ta_cmd, sizeof(psp_load_ta_cmd), &resp); if (!ret && !resp.status) { /* Read TA version at FW offset 0x60 if TA version not found*/ fw_hdr = (struct ras_ta_image_header *)fw_bin->bin_addr; RAS_DEV_INFO(ras_core->dev, "PSP: RAS TA(version:%X.%X.%X.%X) is loaded.\n", (fw_hdr->image_version >> 24) & 0xFF, (fw_hdr->image_version >> 16) & 0xFF, (fw_hdr->image_version >> 8) & 0xFF, fw_hdr->image_version & 0xFF); ta_ctx->ta_version = fw_hdr->image_version; ta_ctx->session_id = resp.session_id; ta_ctx->ras_ta_initialized = true; } else { RAS_DEV_ERR(ras_core->dev, "Failed to load RAS TA! ret:%d, status:%d\n", ret, resp.status); } ras_core_up_gpu_reset_lock(ras_core); err: ras_psp_put_gpu_mem(ras_core, fw_mem); ras_psp_put_gpu_mem(ras_core, cmd_mem); return ret; } static int load_ras_ta_firmware(struct ras_core_context *ras_core, struct ras_psp_ta_load *ras_ta_load) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; struct ras_ta_fw_bin *fw_bin = &ta_ctx->fw_bin; int ret; fw_bin->bin_addr = ras_ta_load->bin_addr; fw_bin->bin_size = ras_ta_load->bin_size; fw_bin->fw_version = ras_ta_load->fw_version; fw_bin->feature_version = ras_ta_load->feature_version; ret = send_load_ta_fw_cmd(ras_core, ta_ctx); if (!ret) { ras_ta_load->out_session_id = ta_ctx->session_id; ras_ta_load->out_loaded_ta_version = ta_ctx->ta_version; } return ret; } static int unload_ras_ta_firmware(struct ras_core_context *ras_core, struct ras_psp_ta_unload *ras_ta_unload) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; struct psp_gfx_cmd_unload_ta cmd_unload_ta = {0}; struct psp_cmd_resp resp = {0}; int ret; if (!ras_core_down_trylock_gpu_reset_lock(ras_core)) return -EACCES; cmd_unload_ta.session_id = ta_ctx->session_id; ret = send_psp_cmd(ras_core, GFX_CMD_ID_UNLOAD_TA, &cmd_unload_ta, sizeof(cmd_unload_ta), &resp); if (ret || resp.status) { RAS_DEV_ERR(ras_core->dev, "Failed to unload RAS TA! ret:%d, status:%u\n", ret, resp.status); goto unlock; } kfree(ta_ctx->fw_bin.bin_addr); memset(&ta_ctx->fw_bin, 0, sizeof(ta_ctx->fw_bin)); ta_ctx->ta_version = 0; ta_ctx->ras_ta_initialized = false; ta_ctx->session_id = 0; unlock: ras_core_up_gpu_reset_lock(ras_core); return ret; } int ras_psp_load_firmware(struct ras_core_context *ras_core, struct ras_psp_ta_load *ras_ta_load) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; struct ras_psp_ta_unload ras_ta_unload = {0}; int ret; if (ta_ctx->preload_ras_ta_enabled) return 0; if (!ras_ta_load) return -EINVAL; if (ta_ctx->ras_ta_initialized) { ras_ta_unload.ras_session_id = ta_ctx->session_id; ret = unload_ras_ta_firmware(ras_core, &ras_ta_unload); if (ret) return ret; } return load_ras_ta_firmware(ras_core, ras_ta_load); } int ras_psp_unload_firmware(struct ras_core_context *ras_core, struct ras_psp_ta_unload *ras_ta_unload) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; if (ta_ctx->preload_ras_ta_enabled) return 0; if ((!ras_ta_unload) || (ras_ta_unload->ras_session_id != ta_ctx->session_id)) return -EINVAL; return unload_ras_ta_firmware(ras_core, ras_ta_unload); } int ras_psp_trigger_error(struct ras_core_context *ras_core, struct ras_ta_trigger_error_input *info, uint32_t instance_mask) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; if (!ta_ctx->preload_ras_ta_enabled && !ta_ctx->ras_ta_initialized) { RAS_DEV_ERR(ras_core->dev, "RAS: ras firmware not initialized!"); return -ENOEXEC; } if (!info) return -EINVAL; return trigger_ras_ta_error(ras_core, info, instance_mask); } int ras_psp_query_address(struct ras_core_context *ras_core, struct ras_ta_query_address_input *addr_in, struct ras_ta_query_address_output *addr_out) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; if (!ta_ctx->preload_ras_ta_enabled && !ta_ctx->ras_ta_initialized) { RAS_DEV_ERR(ras_core->dev, "RAS: ras firmware not initialized!"); return -ENOEXEC; } if (!addr_in || !addr_out) return -EINVAL; return send_ras_ta_runtime_cmd(ras_core, RAS_TA_CMD_ID__QUERY_ADDRESS, addr_in, sizeof(*addr_in), addr_out, sizeof(*addr_out)); } int ras_psp_sw_init(struct ras_core_context *ras_core) { struct ras_psp *psp = &ras_core->ras_psp; memset(psp, 0, sizeof(*psp)); psp->sys_func = ras_core->config->psp_cfg.psp_sys_fn; if (!psp->sys_func) { RAS_DEV_ERR(ras_core->dev, "RAS psp sys function not configured!\n"); return -EINVAL; } mutex_init(&psp->psp_ctx.internal_mutex); mutex_init(&psp->ta_ctx.ta_mutex); return 0; } int ras_psp_sw_fini(struct ras_core_context *ras_core) { struct ras_psp *psp = &ras_core->ras_psp; mutex_destroy(&psp->psp_ctx.internal_mutex); mutex_destroy(&psp->ta_ctx.ta_mutex); memset(psp, 0, sizeof(*psp)); return 0; } int ras_psp_hw_init(struct ras_core_context *ras_core) { struct ras_psp *psp = &ras_core->ras_psp; psp->psp_ip_version = ras_core->config->psp_ip_version; psp->ip_func = ras_psp_get_ip_funcs(ras_core, psp->psp_ip_version); if (!psp->ip_func) return -EINVAL; /* After GPU reset, the system RAS PSP status may change. * therefore, it is necessary to synchronize the system status again. */ ras_psp_sync_system_ras_psp_status(ras_core); return 0; } int ras_psp_hw_fini(struct ras_core_context *ras_core) { return 0; } bool ras_psp_check_supported_cmd(struct ras_core_context *ras_core, enum ras_ta_cmd_id cmd_id) { struct ras_ta_ctx *ta_ctx = &ras_core->ras_psp.ta_ctx; bool ret = false; if (!ta_ctx->preload_ras_ta_enabled && !ta_ctx->ras_ta_initialized) return false; switch (cmd_id) { case RAS_TA_CMD_ID__QUERY_ADDRESS: /* Currently, querying the address from RAS TA is only supported * when the RAS TA firmware is loaded during driver installation. */ if (ta_ctx->preload_ras_ta_enabled) ret = true; break; case RAS_TA_CMD_ID__TRIGGER_ERROR: ret = true; break; default: ret = false; break; } return ret; }
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