// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2017-2021, The Linux Foundation. All rights reserved. */ #include #include #include #include #include #include "cam_mem_mgr.h" #include "cam_sync_api.h" #include "cam_req_mgr_dev.h" #include "cam_trace.h" #include "cam_debug_util.h" #include "cam_packet_util.h" #include "cam_context_utils.h" #include "cam_cdm_util.h" #include "cam_isp_context.h" #include "cam_common_util.h" #include "cam_req_mgr_debug.h" #include "cam_cpas_api.h" static const char isp_dev_name[] = "cam-isp"; static struct cam_isp_ctx_debug isp_ctx_debug; #define INC_HEAD(head, max_entries, ret) \ div_u64_rem(atomic64_add_return(1, head),\ max_entries, (ret)) static int cam_isp_context_dump_requests(void *data, struct cam_smmu_pf_info *pf_info); static int cam_isp_context_hw_recovery(void *priv, void *data); static int __cam_isp_ctx_start_dev_in_ready(struct cam_context *ctx, struct cam_start_stop_dev_cmd *cmd); static const char *__cam_isp_evt_val_to_type( uint32_t evt_id) { switch (evt_id) { case CAM_ISP_CTX_EVENT_SUBMIT: return "SUBMIT"; case CAM_ISP_CTX_EVENT_APPLY: return "APPLY"; case CAM_ISP_CTX_EVENT_EPOCH: return "EPOCH"; case CAM_ISP_CTX_EVENT_RUP: return "RUP"; case CAM_ISP_CTX_EVENT_BUFDONE: return "BUFDONE"; default: return "CAM_ISP_EVENT_INVALID"; } } static void __cam_isp_ctx_update_event_record( struct cam_isp_context *ctx_isp, enum cam_isp_ctx_event event, struct cam_ctx_request *req) { int iterator = 0; ktime_t cur_time; struct cam_isp_ctx_req *req_isp; if (!ctx_isp) { CAM_ERR(CAM_ISP, "Invalid Args"); return; } switch (event) { case CAM_ISP_CTX_EVENT_EPOCH: case CAM_ISP_CTX_EVENT_RUP: case CAM_ISP_CTX_EVENT_BUFDONE: break; case CAM_ISP_CTX_EVENT_SUBMIT: case CAM_ISP_CTX_EVENT_APPLY: if (!req) { CAM_ERR(CAM_ISP, "Invalid arg for event %d", event); return; } break; default: break; } INC_HEAD(&ctx_isp->event_record_head[event], CAM_ISP_CTX_EVENT_RECORD_MAX_ENTRIES, &iterator); cur_time = ktime_get(); if (req) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; ctx_isp->event_record[event][iterator].req_id = req->request_id; req_isp->event_timestamp[event] = cur_time; } else { ctx_isp->event_record[event][iterator].req_id = 0; } ctx_isp->event_record[event][iterator].timestamp = cur_time; } static int __cam_isp_ctx_dump_event_record( struct cam_isp_context *ctx_isp, uintptr_t cpu_addr, size_t buf_len, size_t *offset) { int i, j; int index; size_t remain_len; uint8_t *dst; uint32_t oldest_entry, num_entries; uint32_t min_len; uint64_t *addr, *start; uint64_t state_head; struct timespec64 ts; struct cam_isp_context_dump_header *hdr; struct cam_isp_context_event_record *record; if (!cpu_addr || !buf_len || !offset || !ctx_isp) { CAM_ERR(CAM_ISP, "Invalid args %pK %zu %pK %pK", cpu_addr, buf_len, offset, ctx_isp); return -EINVAL; } for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) { state_head = atomic64_read(&ctx_isp->event_record_head[i]); if (state_head == -1) { return 0; } else if (state_head < CAM_ISP_CTX_EVENT_RECORD_MAX_ENTRIES) { num_entries = state_head + 1; oldest_entry = 0; } else { num_entries = CAM_ISP_CTX_EVENT_RECORD_MAX_ENTRIES; div_u64_rem(state_head + 1, CAM_ISP_CTX_EVENT_RECORD_MAX_ENTRIES, &oldest_entry); } index = oldest_entry; if (buf_len <= *offset) { CAM_WARN(CAM_ISP, "Dump buffer overshoot len %zu offset %zu", buf_len, *offset); return -ENOSPC; } min_len = sizeof(struct cam_isp_context_dump_header) + ((num_entries * CAM_ISP_CTX_DUMP_EVENT_NUM_WORDS) * sizeof(uint64_t)); remain_len = buf_len - *offset; if (remain_len < min_len) { CAM_WARN(CAM_ISP, "Dump buffer exhaust remain %zu min %u", remain_len, min_len); return -ENOSPC; } dst = (uint8_t *)cpu_addr + *offset; hdr = (struct cam_isp_context_dump_header *)dst; scnprintf(hdr->tag, CAM_ISP_CONTEXT_DUMP_TAG_MAX_LEN, "ISP_EVT_%s:", __cam_isp_evt_val_to_type(i)); hdr->word_size = sizeof(uint64_t); addr = (uint64_t *)(dst + sizeof(struct cam_isp_context_dump_header)); start = addr; for (j = 0; j < num_entries; j++) { record = &ctx_isp->event_record[i][index]; ts = ktime_to_timespec64(record->timestamp); *addr++ = record->req_id; *addr++ = ts.tv_sec; *addr++ = ts.tv_nsec/NSEC_PER_USEC; index = (index + 1) % CAM_ISP_CTX_EVENT_RECORD_MAX_ENTRIES; } hdr->size = hdr->word_size * (addr - start); *offset += hdr->size + sizeof(struct cam_isp_context_dump_header); } return 0; } static void __cam_isp_ctx_req_mini_dump(struct cam_ctx_request *req, uint8_t *start_addr, uint8_t *end_addr, unsigned long *bytes_updated) { struct cam_isp_ctx_req_mini_dump *req_md; struct cam_buf_io_cfg *io_cfg; struct cam_isp_ctx_req *req_isp; struct cam_packet *packet = NULL; unsigned long bytes_required = 0; bytes_required = sizeof(*req_md); *bytes_updated = 0; if (start_addr + bytes_required > end_addr) return; req_md = (struct cam_isp_ctx_req_mini_dump *)start_addr; req_isp = (struct cam_isp_ctx_req *)req->req_priv; req_md->num_acked = req_isp->num_acked; req_md->num_deferred_acks = req_isp->num_deferred_acks; req_md->bubble_report = req_isp->bubble_report; req_md->bubble_detected = req_isp->bubble_detected; req_md->reapply = req_isp->reapply; req_md->request_id = req->request_id; *bytes_updated += bytes_required; if (req_isp->num_fence_map_out) { bytes_required = sizeof(struct cam_hw_fence_map_entry) * req_isp->num_fence_map_out; if (start_addr + *bytes_updated + bytes_required > end_addr) return; req_md->map_out = (struct cam_hw_fence_map_entry *) ((uint8_t *)start_addr + *bytes_updated); memcpy(req_md->map_out, req_isp->fence_map_out, bytes_required); req_md->num_fence_map_out = req_isp->num_fence_map_out; *bytes_updated += bytes_required; } if (req_isp->num_fence_map_in) { bytes_required = sizeof(struct cam_hw_fence_map_entry) * req_isp->num_fence_map_in; if (start_addr + *bytes_updated + bytes_required > end_addr) return; req_md->map_in = (struct cam_hw_fence_map_entry *) ((uint8_t *)start_addr + *bytes_updated); memcpy(req_md->map_in, req_isp->fence_map_in, bytes_required); req_md->num_fence_map_in = req_isp->num_fence_map_in; *bytes_updated += bytes_required; } packet = req_isp->hw_update_data.packet; if (packet && packet->num_io_configs) { bytes_required = packet->num_io_configs * sizeof(struct cam_buf_io_cfg); if (start_addr + *bytes_updated + bytes_required > end_addr) return; io_cfg = (struct cam_buf_io_cfg *)((uint32_t *)&packet->payload + packet->io_configs_offset / 4); req_md->io_cfg = (struct cam_buf_io_cfg *)((uint8_t *)start_addr + *bytes_updated); memcpy(req_md->io_cfg, io_cfg, bytes_required); *bytes_updated += bytes_required; req_md->num_io_cfg = packet->num_io_configs; } } static int __cam_isp_ctx_minidump_cb(void *priv, void *args) { struct cam_isp_ctx_mini_dump_info *md; struct cam_isp_context *ctx_isp; struct cam_context *ctx; struct cam_ctx_request *req, *req_temp; struct cam_hw_mini_dump_args *dump_args; uint8_t *start_addr; uint8_t *end_addr; unsigned long total_bytes = 0; unsigned long bytes_updated = 0; uint32_t i; if (!priv || !args) { CAM_ERR(CAM_ISP, "invalid params"); return 0; } dump_args = (struct cam_hw_mini_dump_args *)args; if (dump_args->len < sizeof(*md)) { CAM_ERR(CAM_ISP, "In sufficient size received %lu required size: %zu", dump_args->len, sizeof(*md)); return 0; } ctx = (struct cam_context *)priv; ctx_isp = (struct cam_isp_context *)ctx->ctx_priv; start_addr = (uint8_t *)dump_args->start_addr; end_addr = start_addr + dump_args->len; md = (struct cam_isp_ctx_mini_dump_info *)dump_args->start_addr; md->sof_timestamp_val = ctx_isp->sof_timestamp_val; md->boot_timestamp = ctx_isp->boot_timestamp; md->last_sof_timestamp = ctx_isp->last_sof_timestamp; md->init_timestamp = ctx_isp->init_timestamp; md->frame_id = ctx_isp->frame_id; md->reported_req_id = ctx_isp->reported_req_id; md->last_applied_req_id = ctx_isp->last_applied_req_id; md->last_bufdone_err_apply_req_id = ctx_isp->last_bufdone_err_apply_req_id; md->frame_id_meta = ctx_isp->frame_id_meta; md->substate_activated = ctx_isp->substate_activated; md->ctx_id = ctx->ctx_id; md->subscribe_event = ctx_isp->subscribe_event; md->bubble_frame_cnt = ctx_isp->bubble_frame_cnt; md->isp_device_type = ctx_isp->isp_device_type; md->active_req_cnt = ctx_isp->active_req_cnt; md->trigger_id = ctx_isp->trigger_id; md->rdi_only_context = ctx_isp->rdi_only_context; md->offline_context = ctx_isp->offline_context; md->hw_acquired = ctx_isp->hw_acquired; md->init_received = ctx_isp->init_received; md->split_acquire = ctx_isp->split_acquire; md->use_frame_header_ts = ctx_isp->use_frame_header_ts; md->support_consumed_addr = ctx_isp->support_consumed_addr; md->use_default_apply = ctx_isp->use_default_apply; md->apply_in_progress = atomic_read(&ctx_isp->apply_in_progress); md->process_bubble = atomic_read(&ctx_isp->process_bubble); md->rxd_epoch = atomic_read(&ctx_isp->rxd_epoch); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) { memcpy(md->event_record[i], ctx_isp->event_record[i], sizeof(struct cam_isp_context_event_record) * CAM_ISP_CTX_EVENT_RECORD_MAX_ENTRIES); } total_bytes += sizeof(*md); if (start_addr + total_bytes >= end_addr) goto end; if (!list_empty(&ctx->active_req_list)) { md->active_list = (struct cam_isp_ctx_req_mini_dump *) (start_addr + total_bytes); list_for_each_entry_safe(req, req_temp, &ctx->active_req_list, list) { bytes_updated = 0; __cam_isp_ctx_req_mini_dump(req, (uint8_t *)&md->active_list[md->active_cnt++], end_addr, &bytes_updated); total_bytes += bytes_updated; if ((start_addr + total_bytes >= end_addr)) goto end; } } if (!list_empty(&ctx->wait_req_list)) { md->wait_list = (struct cam_isp_ctx_req_mini_dump *) (start_addr + total_bytes); list_for_each_entry_safe(req, req_temp, &ctx->wait_req_list, list) { bytes_updated = 0; __cam_isp_ctx_req_mini_dump(req, (uint8_t *)&md->wait_list[md->wait_cnt++], end_addr, &bytes_updated); total_bytes += bytes_updated; if ((start_addr + total_bytes >= end_addr)) goto end; } } if (!list_empty(&ctx->pending_req_list)) { md->pending_list = (struct cam_isp_ctx_req_mini_dump *) (start_addr + total_bytes); list_for_each_entry_safe(req, req_temp, &ctx->pending_req_list, list) { bytes_updated = 0; __cam_isp_ctx_req_mini_dump(req, (uint8_t *)&md->pending_list[md->pending_cnt++], end_addr, &bytes_updated); total_bytes += bytes_updated; if ((start_addr + total_bytes >= end_addr)) goto end; } } end: dump_args->bytes_written = total_bytes; return 0; } static void __cam_isp_ctx_update_state_monitor_array( struct cam_isp_context *ctx_isp, enum cam_isp_state_change_trigger trigger_type, uint64_t req_id) { int iterator; INC_HEAD(&ctx_isp->state_monitor_head, CAM_ISP_CTX_STATE_MONITOR_MAX_ENTRIES, &iterator); ctx_isp->cam_isp_ctx_state_monitor[iterator].curr_state = ctx_isp->substate_activated; ctx_isp->cam_isp_ctx_state_monitor[iterator].frame_id = ctx_isp->frame_id; ctx_isp->cam_isp_ctx_state_monitor[iterator].trigger = trigger_type; ctx_isp->cam_isp_ctx_state_monitor[iterator].req_id = req_id; ctx_isp->cam_isp_ctx_state_monitor[iterator].evt_time_stamp = jiffies_to_msecs(jiffies) - ctx_isp->init_timestamp; } static const char *__cam_isp_ctx_substate_val_to_type( enum cam_isp_ctx_activated_substate type) { switch (type) { case CAM_ISP_CTX_ACTIVATED_SOF: return "SOF"; case CAM_ISP_CTX_ACTIVATED_APPLIED: return "APPLIED"; case CAM_ISP_CTX_ACTIVATED_EPOCH: return "EPOCH"; case CAM_ISP_CTX_ACTIVATED_BUBBLE: return "BUBBLE"; case CAM_ISP_CTX_ACTIVATED_BUBBLE_APPLIED: return "BUBBLE_APPLIED"; case CAM_ISP_CTX_ACTIVATED_HW_ERROR: return "HW_ERROR"; case CAM_ISP_CTX_ACTIVATED_HALT: return "HALT"; default: return "INVALID"; } } static const char *__cam_isp_hw_evt_val_to_type( uint32_t evt_id) { switch (evt_id) { case CAM_ISP_STATE_CHANGE_TRIGGER_ERROR: return "ERROR"; case CAM_ISP_STATE_CHANGE_TRIGGER_APPLIED: return "APPLIED"; case CAM_ISP_STATE_CHANGE_TRIGGER_SOF: return "SOF"; case CAM_ISP_STATE_CHANGE_TRIGGER_REG_UPDATE: return "REG_UPDATE"; case CAM_ISP_STATE_CHANGE_TRIGGER_EPOCH: return "EPOCH"; case CAM_ISP_STATE_CHANGE_TRIGGER_EOF: return "EOF"; case CAM_ISP_STATE_CHANGE_TRIGGER_DONE: return "DONE"; case CAM_ISP_STATE_CHANGE_TRIGGER_FLUSH: return "FLUSH"; default: return "CAM_ISP_EVENT_INVALID"; } } static void __cam_isp_ctx_dump_state_monitor_array( struct cam_isp_context *ctx_isp) { int i = 0; int64_t state_head = 0; uint32_t index, num_entries, oldest_entry; state_head = atomic64_read(&ctx_isp->state_monitor_head); if (state_head == -1) { return; } else if (state_head < CAM_ISP_CTX_STATE_MONITOR_MAX_ENTRIES) { num_entries = state_head; oldest_entry = 0; } else { num_entries = CAM_ISP_CTX_STATE_MONITOR_MAX_ENTRIES; div_u64_rem(state_head + 1, CAM_ISP_CTX_STATE_MONITOR_MAX_ENTRIES, &oldest_entry); } CAM_ERR(CAM_ISP, "Dumping state information for preceding requests"); index = oldest_entry; for (i = 0; i < num_entries; i++) { CAM_ERR(CAM_ISP, "Index[%d] time[%d] : Substate[%s] Frame[%lld] ReqId[%llu] evt_type[%s]", index, ctx_isp->cam_isp_ctx_state_monitor[index].evt_time_stamp, __cam_isp_ctx_substate_val_to_type( ctx_isp->cam_isp_ctx_state_monitor[index].curr_state), ctx_isp->cam_isp_ctx_state_monitor[index].frame_id, ctx_isp->cam_isp_ctx_state_monitor[index].req_id, __cam_isp_hw_evt_val_to_type( ctx_isp->cam_isp_ctx_state_monitor[index].trigger)); index = (index + 1) % CAM_ISP_CTX_STATE_MONITOR_MAX_ENTRIES; } } static int cam_isp_context_info_dump(void *context, enum cam_context_dump_id id) { struct cam_context *ctx = (struct cam_context *)context; switch (id) { case CAM_CTX_DUMP_ACQ_INFO: { cam_context_dump_hw_acq_info(ctx); break; } default: CAM_DBG(CAM_ISP, "DUMP id not valid %u", id); break; } return 0; } static int cam_isp_ctx_dump_req( struct cam_isp_ctx_req *req_isp, uintptr_t cpu_addr, size_t buf_len, size_t *offset, bool dump_to_buff) { int i, rc = 0; size_t len = 0; uint32_t *buf_addr; uint32_t *buf_start, *buf_end; size_t remain_len = 0; struct cam_cdm_cmd_buf_dump_info dump_info; for (i = 0; i < req_isp->num_cfg; i++) { rc = cam_packet_util_get_cmd_mem_addr( req_isp->cfg[i].handle, &buf_addr, &len); if (rc) { CAM_ERR_RATE_LIMIT(CAM_ISP, "Failed to get_cmd_mem_addr, rc=%d", rc); } else { if (req_isp->cfg[i].offset >= ((uint32_t)len)) { CAM_ERR(CAM_ISP, "Invalid offset exp %u actual %u", req_isp->cfg[i].offset, (uint32_t)len); return -EINVAL; } remain_len = len - req_isp->cfg[i].offset; if (req_isp->cfg[i].len > ((uint32_t)remain_len)) { CAM_ERR(CAM_ISP, "Invalid len exp %u remain_len %u", req_isp->cfg[i].len, (uint32_t)remain_len); return -EINVAL; } buf_start = (uint32_t *)((uint8_t *) buf_addr + req_isp->cfg[i].offset); buf_end = (uint32_t *)((uint8_t *) buf_start + req_isp->cfg[i].len - 1); if (dump_to_buff) { if (!cpu_addr || !offset || !buf_len) { CAM_ERR(CAM_ISP, "Invalid args"); break; } dump_info.src_start = buf_start; dump_info.src_end = buf_end; dump_info.dst_start = cpu_addr; dump_info.dst_offset = *offset; dump_info.dst_max_size = buf_len; rc = cam_cdm_util_dump_cmd_bufs_v2( &dump_info); *offset = dump_info.dst_offset; if (rc) return rc; } else cam_cdm_util_dump_cmd_buf(buf_start, buf_end); } } return rc; } static int __cam_isp_ctx_enqueue_request_in_order( struct cam_context *ctx, struct cam_ctx_request *req) { struct cam_ctx_request *req_current; struct cam_ctx_request *req_prev; struct list_head temp_list; struct cam_isp_context *ctx_isp; INIT_LIST_HEAD(&temp_list); spin_lock_bh(&ctx->lock); if (list_empty(&ctx->pending_req_list)) { list_add_tail(&req->list, &ctx->pending_req_list); } else { list_for_each_entry_safe_reverse( req_current, req_prev, &ctx->pending_req_list, list) { if (req->request_id < req_current->request_id) { list_del_init(&req_current->list); list_add(&req_current->list, &temp_list); continue; } else if (req->request_id == req_current->request_id) { CAM_WARN(CAM_ISP, "Received duplicated request %lld", req->request_id); } break; } list_add_tail(&req->list, &ctx->pending_req_list); if (!list_empty(&temp_list)) { list_for_each_entry_safe( req_current, req_prev, &temp_list, list) { list_del_init(&req_current->list); list_add_tail(&req_current->list, &ctx->pending_req_list); } } } ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_SUBMIT, req); spin_unlock_bh(&ctx->lock); return 0; } static int __cam_isp_ctx_enqueue_init_request( struct cam_context *ctx, struct cam_ctx_request *req) { int rc = 0; struct cam_ctx_request *req_old; struct cam_isp_ctx_req *req_isp_old; struct cam_isp_ctx_req *req_isp_new; struct cam_isp_prepare_hw_update_data *req_update_old; struct cam_isp_prepare_hw_update_data *req_update_new; struct cam_isp_prepare_hw_update_data *hw_update_data; spin_lock_bh(&ctx->lock); if (list_empty(&ctx->pending_req_list)) { list_add_tail(&req->list, &ctx->pending_req_list); CAM_DBG(CAM_ISP, "INIT packet added req id= %d", req->request_id); goto end; } req_old = list_first_entry(&ctx->pending_req_list, struct cam_ctx_request, list); req_isp_old = (struct cam_isp_ctx_req *) req_old->req_priv; req_isp_new = (struct cam_isp_ctx_req *) req->req_priv; if (req_isp_old->hw_update_data.packet_opcode_type == CAM_ISP_PACKET_INIT_DEV) { if ((req_isp_old->num_cfg + req_isp_new->num_cfg) >= ctx->max_hw_update_entries) { CAM_WARN(CAM_ISP, "Can not merge INIT pkt num_cfgs = %d", (req_isp_old->num_cfg + req_isp_new->num_cfg)); rc = -ENOMEM; } if (req_isp_old->num_fence_map_out != 0 || req_isp_old->num_fence_map_in != 0) { CAM_WARN(CAM_ISP, "Invalid INIT pkt sequence"); rc = -EINVAL; } if (!rc) { memcpy(req_isp_old->fence_map_out, req_isp_new->fence_map_out, sizeof(req_isp_new->fence_map_out[0])* req_isp_new->num_fence_map_out); req_isp_old->num_fence_map_out = req_isp_new->num_fence_map_out; memcpy(req_isp_old->fence_map_in, req_isp_new->fence_map_in, sizeof(req_isp_new->fence_map_in[0])* req_isp_new->num_fence_map_in); req_isp_old->num_fence_map_in = req_isp_new->num_fence_map_in; memcpy(&req_isp_old->cfg[req_isp_old->num_cfg], req_isp_new->cfg, sizeof(req_isp_new->cfg[0]) * req_isp_new->num_cfg); req_isp_old->num_cfg += req_isp_new->num_cfg; memcpy(&req_old->pf_data, &req->pf_data, sizeof(struct cam_hw_mgr_dump_pf_data)); if (req_isp_new->hw_update_data.num_reg_dump_buf) { req_update_new = &req_isp_new->hw_update_data; req_update_old = &req_isp_old->hw_update_data; memcpy(&req_update_old->reg_dump_buf_desc, &req_update_new->reg_dump_buf_desc, sizeof(struct cam_cmd_buf_desc) * req_update_new->num_reg_dump_buf); req_update_old->num_reg_dump_buf = req_update_new->num_reg_dump_buf; } /* Update frame header params for EPCR */ hw_update_data = &req_isp_new->hw_update_data; req_isp_old->hw_update_data.frame_header_res_id = req_isp_new->hw_update_data.frame_header_res_id; req_isp_old->hw_update_data.frame_header_cpu_addr = hw_update_data->frame_header_cpu_addr; req_old->request_id = req->request_id; list_add_tail(&req->list, &ctx->free_req_list); } } else { CAM_WARN(CAM_ISP, "Received Update pkt before INIT pkt. req_id= %lld", req->request_id); rc = -EINVAL; } end: spin_unlock_bh(&ctx->lock); return rc; } static char *__cam_isp_ife_sfe_resource_handle_id_to_type( uint32_t resource_handle) { switch (resource_handle) { /* IFE output ports */ case CAM_ISP_IFE_OUT_RES_FULL: return "IFE_FULL"; case CAM_ISP_IFE_OUT_RES_DS4: return "IFE_DS4"; case CAM_ISP_IFE_OUT_RES_DS16: return "IFE_DS16"; case CAM_ISP_IFE_OUT_RES_RAW_DUMP: return "IFE_RAW_DUMP"; case CAM_ISP_IFE_OUT_RES_FD: return "IFE_FD"; case CAM_ISP_IFE_OUT_RES_PDAF: return "IFE_PDAF"; case CAM_ISP_IFE_OUT_RES_RDI_0: return "IFE_RDI_0"; case CAM_ISP_IFE_OUT_RES_RDI_1: return "IFE_RDI_1"; case CAM_ISP_IFE_OUT_RES_RDI_2: return "IFE_RDI_2"; case CAM_ISP_IFE_OUT_RES_RDI_3: return "IFE_RDI_3"; case CAM_ISP_IFE_OUT_RES_STATS_HDR_BE: return "IFE_STATS_HDR_BE"; case CAM_ISP_IFE_OUT_RES_STATS_HDR_BHIST: return "IFE_STATS_HDR_BHIST"; case CAM_ISP_IFE_OUT_RES_STATS_TL_BG: return "IFE_STATS_TL_BG"; case CAM_ISP_IFE_OUT_RES_STATS_BF: return "IFE_STATS_BF"; case CAM_ISP_IFE_OUT_RES_STATS_AWB_BG: return "IFE_STATS_AWB_BG"; case CAM_ISP_IFE_OUT_RES_STATS_BHIST: return "IFE_STATS_BHIST"; case CAM_ISP_IFE_OUT_RES_STATS_RS: return "IFE_STATS_RS"; case CAM_ISP_IFE_OUT_RES_STATS_CS: return "IFE_STATS_CS"; case CAM_ISP_IFE_OUT_RES_STATS_IHIST: return "IFE_STATS_IHIST"; case CAM_ISP_IFE_OUT_RES_FULL_DISP: return "IFE_FULL_DISP"; case CAM_ISP_IFE_OUT_RES_DS4_DISP: return "IFE_DS4_DISP"; case CAM_ISP_IFE_OUT_RES_DS16_DISP: return "IFE_DS16_DISP"; case CAM_ISP_IFE_OUT_RES_2PD: return "IFE_2PD"; case CAM_ISP_IFE_OUT_RES_LCR: return "IFE_LCR"; case CAM_ISP_IFE_OUT_RES_AWB_BFW: return "IFE_AWB_BFW"; case CAM_ISP_IFE_OUT_RES_PREPROCESS_2PD: return "IFE_PREPROCESS_2PD"; case CAM_ISP_IFE_OUT_RES_STATS_AEC_BE: return "IFE_STATS_AEC_BE"; case CAM_ISP_IFE_OUT_RES_LTM_STATS: return "IFE_LTM_STATS"; case CAM_ISP_IFE_OUT_RES_STATS_GTM_BHIST: return "IFE_STATS_GTM_BHIST"; case CAM_ISP_IFE_LITE_OUT_RES_STATS_BG: return "IFE_STATS_BG"; case CAM_ISP_IFE_LITE_OUT_RES_PREPROCESS_RAW: return "IFE_PREPROCESS_RAW"; case CAM_ISP_IFE_OUT_RES_SPARSE_PD: return "IFE_SPARSE_PD"; case CAM_ISP_IFE_OUT_RES_STATS_CAF: return "IFE_STATS_CAF"; case CAM_ISP_IFE_OUT_RES_STATS_BAYER_RS: return "IFE_STATS_BAYER_RS"; /* SFE output ports */ case CAM_ISP_SFE_OUT_RES_RDI_0: return "SFE_RDI_0"; case CAM_ISP_SFE_OUT_RES_RDI_1: return "SFE_RDI_1"; case CAM_ISP_SFE_OUT_RES_RDI_2: return "SFE_RDI_2"; case CAM_ISP_SFE_OUT_RES_RDI_3: return "SFE_RDI_3"; case CAM_ISP_SFE_OUT_RES_RDI_4: return "SFE_RDI_4"; case CAM_ISP_SFE_OUT_BE_STATS_0: return "SFE_BE_STATS_0"; case CAM_ISP_SFE_OUT_BE_STATS_1: return "SFE_BE_STATS_1"; case CAM_ISP_SFE_OUT_BE_STATS_2: return "SFE_BE_STATS_2"; case CAM_ISP_SFE_OUT_BHIST_STATS_0: return "SFE_BHIST_STATS_0"; case CAM_ISP_SFE_OUT_BHIST_STATS_1: return "SFE_BHIST_STATS_1"; case CAM_ISP_SFE_OUT_BHIST_STATS_2: return "SFE_BHIST_STATS_2"; case CAM_ISP_SFE_OUT_RES_LCR: return "SFE_LCR"; case CAM_ISP_SFE_OUT_RES_RAW_DUMP: return "SFE_PROCESSED_RAW"; case CAM_ISP_SFE_OUT_RES_IR: return "SFE_IR"; case CAM_ISP_SFE_OUT_BAYER_RS_STATS_0: return "SFE_RS_STATS_0"; case CAM_ISP_SFE_OUT_BAYER_RS_STATS_1: return "SFE_RS_STATS_1"; case CAM_ISP_SFE_OUT_BAYER_RS_STATS_2: return "SFE_RS_STATS_2"; /* Handle invalid type */ default: return "Invalid_Resource_Type"; } } static const char *__cam_isp_tfe_resource_handle_id_to_type( uint32_t resource_handle) { switch (resource_handle) { /* TFE output ports */ case CAM_ISP_TFE_OUT_RES_FULL: return "TFE_FULL"; case CAM_ISP_TFE_OUT_RES_RAW_DUMP: return "TFE_RAW_DUMP"; case CAM_ISP_TFE_OUT_RES_PDAF: return "TFE_PDAF"; case CAM_ISP_TFE_OUT_RES_RDI_0: return "TFE_RDI_0"; case CAM_ISP_TFE_OUT_RES_RDI_1: return "TFE_RDI_1"; case CAM_ISP_TFE_OUT_RES_RDI_2: return "TFE_RDI_2"; case CAM_ISP_TFE_OUT_RES_STATS_HDR_BE: return "TFE_STATS_HDR_BE"; case CAM_ISP_TFE_OUT_RES_STATS_HDR_BHIST: return "TFE_STATS_HDR_BHIST"; case CAM_ISP_TFE_OUT_RES_STATS_TL_BG: return "TFE_STATS_TL_BG"; case CAM_ISP_TFE_OUT_RES_STATS_BF: return "TFE_STATS_BF"; case CAM_ISP_TFE_OUT_RES_STATS_AWB_BG: return "TFE_STATS_AWB_BG"; case CAM_ISP_TFE_OUT_RES_STATS_RS: return "TFE_STATS_RS"; case CAM_ISP_TFE_OUT_RES_DS4: return "TFE_DS_4"; case CAM_ISP_TFE_OUT_RES_DS16: return "TFE_DS_16"; case CAM_ISP_TFE_OUT_RES_AI: return "TFE_AI"; /* Handle invalid type */ default: return "Invalid_Resource_Type"; } } static const char *__cam_isp_resource_handle_id_to_type( uint32_t device_type, uint32_t resource_handle) { switch (device_type) { case CAM_IFE_DEVICE_TYPE: return __cam_isp_ife_sfe_resource_handle_id_to_type(resource_handle); case CAM_TFE_DEVICE_TYPE: return __cam_isp_tfe_resource_handle_id_to_type(resource_handle); default: return "INVALID_DEV_TYPE"; } } static uint64_t __cam_isp_ctx_get_event_ts(uint32_t evt_id, void *evt_data) { uint64_t ts = 0; if (!evt_data) return 0; switch (evt_id) { case CAM_ISP_HW_EVENT_ERROR: ts = ((struct cam_isp_hw_error_event_data *)evt_data)-> timestamp; break; case CAM_ISP_HW_EVENT_SOF: ts = ((struct cam_isp_hw_sof_event_data *)evt_data)-> timestamp; break; case CAM_ISP_HW_EVENT_REG_UPDATE: ts = ((struct cam_isp_hw_reg_update_event_data *)evt_data)-> timestamp; break; case CAM_ISP_HW_EVENT_EPOCH: ts = ((struct cam_isp_hw_epoch_event_data *)evt_data)-> timestamp; break; case CAM_ISP_HW_EVENT_EOF: ts = ((struct cam_isp_hw_eof_event_data *)evt_data)-> timestamp; break; case CAM_ISP_HW_EVENT_DONE: break; default: CAM_DBG(CAM_ISP, "Invalid Event Type %d", evt_id); } return ts; } static void __cam_isp_ctx_send_sof_boot_timestamp( struct cam_isp_context *ctx_isp, uint64_t request_id, uint32_t sof_event_status) { struct cam_req_mgr_message req_msg; req_msg.session_hdl = ctx_isp->base->session_hdl; req_msg.u.frame_msg.frame_id = ctx_isp->frame_id; req_msg.u.frame_msg.request_id = request_id; req_msg.u.frame_msg.timestamp = ctx_isp->boot_timestamp; req_msg.u.frame_msg.link_hdl = ctx_isp->base->link_hdl; req_msg.u.frame_msg.sof_status = sof_event_status; req_msg.u.frame_msg.frame_id_meta = ctx_isp->frame_id_meta; CAM_DBG(CAM_ISP, "request id:%lld frame number:%lld boot time stamp:0x%llx status:%u", request_id, ctx_isp->frame_id, ctx_isp->boot_timestamp, sof_event_status); if (cam_req_mgr_notify_message(&req_msg, V4L_EVENT_CAM_REQ_MGR_SOF_BOOT_TS, V4L_EVENT_CAM_REQ_MGR_EVENT)) CAM_ERR(CAM_ISP, "Error in notifying the boot time for req id:%lld", request_id); } static void __cam_isp_ctx_send_sof_timestamp_frame_header( struct cam_isp_context *ctx_isp, uint32_t *frame_header_cpu_addr, uint64_t request_id, uint32_t sof_event_status) { uint32_t *time32 = NULL; uint64_t timestamp = 0; struct cam_req_mgr_message req_msg; time32 = frame_header_cpu_addr; timestamp = (uint64_t) time32[1]; timestamp = timestamp << 24; timestamp |= (uint64_t)(time32[0] >> 8); timestamp = mul_u64_u32_div(timestamp, CAM_IFE_QTIMER_MUL_FACTOR, CAM_IFE_QTIMER_DIV_FACTOR); ctx_isp->sof_timestamp_val = timestamp; req_msg.session_hdl = ctx_isp->base->session_hdl; req_msg.u.frame_msg.frame_id = ctx_isp->frame_id; req_msg.u.frame_msg.request_id = request_id; req_msg.u.frame_msg.timestamp = ctx_isp->sof_timestamp_val; req_msg.u.frame_msg.link_hdl = ctx_isp->base->link_hdl; req_msg.u.frame_msg.sof_status = sof_event_status; CAM_DBG(CAM_ISP, "request id:%lld frame number:%lld SOF time stamp:0x%llx status:%u", request_id, ctx_isp->frame_id, ctx_isp->sof_timestamp_val, sof_event_status); if (cam_req_mgr_notify_message(&req_msg, V4L_EVENT_CAM_REQ_MGR_SOF, V4L_EVENT_CAM_REQ_MGR_EVENT)) CAM_ERR(CAM_ISP, "Error in notifying the sof time for req id:%lld", request_id); } static void __cam_isp_ctx_send_sof_timestamp( struct cam_isp_context *ctx_isp, uint64_t request_id, uint32_t sof_event_status) { struct cam_req_mgr_message req_msg; if ((ctx_isp->use_frame_header_ts) || (request_id == 0)) goto end; req_msg.session_hdl = ctx_isp->base->session_hdl; req_msg.u.frame_msg.frame_id = ctx_isp->frame_id; req_msg.u.frame_msg.request_id = request_id; req_msg.u.frame_msg.timestamp = ctx_isp->sof_timestamp_val; req_msg.u.frame_msg.link_hdl = ctx_isp->base->link_hdl; req_msg.u.frame_msg.sof_status = sof_event_status; req_msg.u.frame_msg.frame_id_meta = ctx_isp->frame_id_meta; CAM_DBG(CAM_ISP, "request id:%lld frame number:%lld SOF time stamp:0x%llx status:%u", request_id, ctx_isp->frame_id, ctx_isp->sof_timestamp_val, sof_event_status); if (cam_req_mgr_notify_message(&req_msg, V4L_EVENT_CAM_REQ_MGR_SOF, V4L_EVENT_CAM_REQ_MGR_EVENT)) CAM_ERR(CAM_ISP, "Error in notifying the sof time for req id:%lld", request_id); end: __cam_isp_ctx_send_sof_boot_timestamp(ctx_isp, request_id, sof_event_status); } static void __cam_isp_ctx_handle_buf_done_fail_log( uint64_t request_id, struct cam_isp_ctx_req *req_isp, uint32_t isp_device_type) { int i; const char *handle_type; if (req_isp->num_fence_map_out >= CAM_ISP_CTX_RES_MAX) { CAM_ERR(CAM_ISP, "Num Resources exceed mMAX %d >= %d ", req_isp->num_fence_map_out, CAM_ISP_CTX_RES_MAX); return; } CAM_WARN_RATE_LIMIT(CAM_ISP, "Prev Req[%lld] : num_out=%d, num_acked=%d, bubble : report=%d, detected=%d", request_id, req_isp->num_fence_map_out, req_isp->num_acked, req_isp->bubble_report, req_isp->bubble_detected); CAM_WARN_RATE_LIMIT(CAM_ISP, "Resource Handles that fail to generate buf_done in prev frame"); for (i = 0; i < req_isp->num_fence_map_out; i++) { if (req_isp->fence_map_out[i].sync_id != -1) { handle_type = __cam_isp_resource_handle_id_to_type( isp_device_type, req_isp->fence_map_out[i].resource_handle); trace_cam_log_event("Buf_done Congestion", handle_type, request_id, req_isp->fence_map_out[i].sync_id); CAM_WARN_RATE_LIMIT(CAM_ISP, "Resource_Handle: [%s][0x%x] Sync_ID: [0x%x]", handle_type, req_isp->fence_map_out[i].resource_handle, req_isp->fence_map_out[i].sync_id); } } } static int __cam_isp_ctx_handle_buf_done_for_req_list( struct cam_isp_context *ctx_isp, struct cam_ctx_request *req) { int rc = 0, i; uint64_t buf_done_req_id; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; req_isp = (struct cam_isp_ctx_req *) req->req_priv; ctx_isp->active_req_cnt--; buf_done_req_id = req->request_id; if (req_isp->bubble_detected && req_isp->bubble_report) { req_isp->num_acked = 0; req_isp->num_deferred_acks = 0; req_isp->bubble_detected = false; list_del_init(&req->list); atomic_set(&ctx_isp->process_bubble, 0); req_isp->cdm_reset_before_apply = false; ctx_isp->bubble_frame_cnt = 0; if (buf_done_req_id <= ctx->last_flush_req) { for (i = 0; i < req_isp->num_fence_map_out; i++) rc = cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, CAM_SYNC_ISP_EVENT_BUBBLE); list_add_tail(&req->list, &ctx->free_req_list); CAM_DBG(CAM_REQ, "Move active request %lld to free list(cnt = %d) [flushed], ctx %u", buf_done_req_id, ctx_isp->active_req_cnt, ctx->ctx_id); ctx_isp->last_bufdone_err_apply_req_id = 0; } else { list_add(&req->list, &ctx->pending_req_list); CAM_DBG(CAM_REQ, "Move active request %lld to pending list(cnt = %d) [bubble recovery], ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } } else { if (!ctx_isp->use_frame_header_ts) { if (ctx_isp->reported_req_id < buf_done_req_id) { ctx_isp->reported_req_id = buf_done_req_id; __cam_isp_ctx_send_sof_timestamp(ctx_isp, buf_done_req_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); } } list_del_init(&req->list); list_add_tail(&req->list, &ctx->free_req_list); req_isp->reapply = false; req_isp->cdm_reset_before_apply = false; req_isp->num_acked = 0; req_isp->num_deferred_acks = 0; /* * Only update the process_bubble and bubble_frame_cnt * when bubble is detected on this req, in case the other * request is processing bubble. */ if (req_isp->bubble_detected) { atomic_set(&ctx_isp->process_bubble, 0); ctx_isp->bubble_frame_cnt = 0; req_isp->bubble_detected = false; } CAM_DBG(CAM_REQ, "Move active request %lld to free list(cnt = %d) [all fences done], ctx %u", buf_done_req_id, ctx_isp->active_req_cnt, ctx->ctx_id); ctx_isp->req_info.last_bufdone_req_id = req->request_id; ctx_isp->last_bufdone_err_apply_req_id = 0; } cam_cpas_notify_event("IFE BufDone", buf_done_req_id); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_DONE, buf_done_req_id); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_BUFDONE, req); return rc; } static int __cam_isp_ctx_handle_buf_done_for_request( struct cam_isp_context *ctx_isp, struct cam_ctx_request *req, struct cam_isp_hw_done_event_data *done, uint32_t bubble_state, struct cam_isp_hw_done_event_data *done_next_req) { int rc = 0; int i, j; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; const char *handle_type; trace_cam_buf_done("ISP", ctx, req); req_isp = (struct cam_isp_ctx_req *) req->req_priv; CAM_DBG(CAM_ISP, "Enter with bubble_state %d, req_bubble_detected %d", bubble_state, req_isp->bubble_detected); done_next_req->num_handles = 0; done_next_req->timestamp = done->timestamp; for (i = 0; i < done->num_handles; i++) { for (j = 0; j < req_isp->num_fence_map_out; j++) { if (done->resource_handle[i] == req_isp->fence_map_out[j].resource_handle) break; } if (j == req_isp->num_fence_map_out) { /* * If not found in current request, it could be * belonging to next request, this can happen if * IRQ delay happens. It is only valid when the * platform doesn't have last consumed address. */ CAM_WARN(CAM_ISP, "BUF_DONE for res %s not found in Req %lld ", __cam_isp_resource_handle_id_to_type( ctx_isp->isp_device_type, done->resource_handle[i]), req->request_id); done_next_req->resource_handle [done_next_req->num_handles++] = done->resource_handle[i]; continue; } if (req_isp->fence_map_out[j].sync_id == -1) { handle_type = __cam_isp_resource_handle_id_to_type( ctx_isp->isp_device_type, req_isp->fence_map_out[i].resource_handle); CAM_WARN(CAM_ISP, "Duplicate BUF_DONE for req %lld : i=%d, j=%d, res=%s", req->request_id, i, j, handle_type); trace_cam_log_event("Duplicate BufDone", handle_type, req->request_id, ctx->ctx_id); done_next_req->resource_handle [done_next_req->num_handles++] = done->resource_handle[i]; continue; } /* Get buf handles from packet and retrieve them from presil framework */ if (cam_presil_mode_enabled()) { rc = cam_presil_retrieve_buffers_from_packet(req_isp->hw_update_data.packet, ctx->img_iommu_hdl, req_isp->fence_map_out[i].resource_handle); if (rc) { CAM_ERR(CAM_ISP, "Failed to retrieve image buffers req_id:%d ctx_id:%d bubble detected:%d rc:%d", req->request_id, ctx->ctx_id, req_isp->bubble_detected, rc); return rc; } } if (!req_isp->bubble_detected) { CAM_DBG(CAM_ISP, "Sync with success: req %lld res 0x%x fd 0x%x, ctx %u", req->request_id, req_isp->fence_map_out[j].resource_handle, req_isp->fence_map_out[j].sync_id, ctx->ctx_id); rc = cam_sync_signal(req_isp->fence_map_out[j].sync_id, CAM_SYNC_STATE_SIGNALED_SUCCESS, CAM_SYNC_COMMON_EVENT_SUCCESS); if (rc) CAM_DBG(CAM_ISP, "Sync failed with rc = %d", rc); } else if (!req_isp->bubble_report) { CAM_DBG(CAM_ISP, "Sync with failure: req %lld res 0x%x fd 0x%x, ctx %u", req->request_id, req_isp->fence_map_out[j].resource_handle, req_isp->fence_map_out[j].sync_id, ctx->ctx_id); rc = cam_sync_signal(req_isp->fence_map_out[j].sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, CAM_SYNC_ISP_EVENT_BUBBLE); if (rc) CAM_ERR(CAM_ISP, "Sync failed with rc = %d", rc); } else { /* * Ignore the buffer done if bubble detect is on * Increment the ack number here, and queue the * request back to pending list whenever all the * buffers are done. */ req_isp->num_acked++; CAM_DBG(CAM_ISP, "buf done with bubble state %d recovery %d", bubble_state, req_isp->bubble_report); continue; } CAM_DBG(CAM_ISP, "req %lld, reset sync id 0x%x ctx %u", req->request_id, req_isp->fence_map_out[j].sync_id, ctx->ctx_id); if (!rc) { req_isp->num_acked++; req_isp->fence_map_out[j].sync_id = -1; } if ((ctx_isp->use_frame_header_ts) && (req_isp->hw_update_data.frame_header_res_id == req_isp->fence_map_out[j].resource_handle)) __cam_isp_ctx_send_sof_timestamp_frame_header( ctx_isp, req_isp->hw_update_data.frame_header_cpu_addr, req->request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); } if (req_isp->num_acked > req_isp->num_fence_map_out) { /* Should not happen */ CAM_ERR(CAM_ISP, "WARNING: req_id %lld num_acked %d > map_out %d, ctx %u", req->request_id, req_isp->num_acked, req_isp->num_fence_map_out, ctx->ctx_id); WARN_ON(req_isp->num_acked > req_isp->num_fence_map_out); } if (req_isp->num_acked != req_isp->num_fence_map_out) return rc; rc = __cam_isp_ctx_handle_buf_done_for_req_list(ctx_isp, req); return rc; } static int __cam_isp_handle_deferred_buf_done( struct cam_isp_context *ctx_isp, struct cam_ctx_request *req, bool bubble_handling, uint32_t status, uint32_t event_cause) { int i, j; int rc = 0; struct cam_isp_ctx_req *req_isp = (struct cam_isp_ctx_req *) req->req_priv; struct cam_context *ctx = ctx_isp->base; CAM_DBG(CAM_ISP, "ctx[%d] : Req %llu : Handling %d deferred buf_dones num_acked=%d, bubble_handling=%d", ctx->ctx_id, req->request_id, req_isp->num_deferred_acks, req_isp->num_acked, bubble_handling); for (i = 0; i < req_isp->num_deferred_acks; i++) { j = req_isp->deferred_fence_map_index[i]; CAM_DBG(CAM_ISP, "ctx[%d] : Sync with status=%d, event_cause=%d: req %lld res 0x%x sync_id 0x%x", ctx->ctx_id, status, event_cause, req->request_id, req_isp->fence_map_out[j].resource_handle, req_isp->fence_map_out[j].sync_id); if (req_isp->fence_map_out[j].sync_id == -1) { CAM_WARN(CAM_ISP, "ctx[%d Deferred buf_done already signalled, req_id=%llu, j=%d, res=0x%x", ctx->ctx_id, req->request_id, j, req_isp->fence_map_out[j].resource_handle); continue; } if (!bubble_handling) { CAM_WARN(CAM_ISP, "ctx[%d] : Req %llu, status=%d res=0x%x should never happen", ctx->ctx_id, req->request_id, status, req_isp->fence_map_out[j].resource_handle); rc = cam_sync_signal(req_isp->fence_map_out[j].sync_id, status, event_cause); if (rc) { CAM_ERR(CAM_ISP, "ctx[%d] : Sync signal for Req %llu, sync_id %d status=%d failed with rc = %d", ctx->ctx_id, req->request_id, req_isp->fence_map_out[j].sync_id, status, rc); } else { req_isp->num_acked++; req_isp->fence_map_out[j].sync_id = -1; } } else { req_isp->num_acked++; } } req_isp->num_deferred_acks = 0; return rc; } static int __cam_isp_ctx_handle_buf_done_for_request_verify_addr( struct cam_isp_context *ctx_isp, struct cam_ctx_request *req, struct cam_isp_hw_done_event_data *done, uint32_t bubble_state, bool verify_consumed_addr, bool defer_buf_done) { int rc = 0; int i, j; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; const char *handle_type; trace_cam_buf_done("ISP", ctx, req); req_isp = (struct cam_isp_ctx_req *) req->req_priv; CAM_DBG(CAM_ISP, "Enter with bubble_state %d, req_bubble_detected %d", bubble_state, req_isp->bubble_detected); for (i = 0; i < done->num_handles; i++) { for (j = 0; j < req_isp->num_fence_map_out; j++) { if (verify_consumed_addr && (done->last_consumed_addr[i] != req_isp->fence_map_out[j].image_buf_addr[0])) continue; if (done->resource_handle[i] == req_isp->fence_map_out[j].resource_handle) break; } if (j == req_isp->num_fence_map_out) { /* * If not found in current request, it could be * belonging to next request, this can happen if * IRQ delay happens. It is only valid when the * platform doesn't have last consumed address. */ CAM_DBG(CAM_ISP, "BUF_DONE for res %s not found in Req %lld ", __cam_isp_resource_handle_id_to_type( ctx_isp->isp_device_type, done->resource_handle[i]), req->request_id); continue; } if (req_isp->fence_map_out[j].sync_id == -1) { handle_type = __cam_isp_resource_handle_id_to_type( ctx_isp->isp_device_type, req_isp->fence_map_out[i].resource_handle); CAM_WARN(CAM_ISP, "Duplicate BUF_DONE for req %lld : i=%d, j=%d, res=%s", req->request_id, i, j, handle_type); trace_cam_log_event("Duplicate BufDone", handle_type, req->request_id, ctx->ctx_id); continue; } /* Get buf handles from packet and retrieve them from presil framework */ if (cam_presil_mode_enabled()) { rc = cam_presil_retrieve_buffers_from_packet(req_isp->hw_update_data.packet, ctx->img_iommu_hdl, req_isp->fence_map_out[i].resource_handle); if (rc) { CAM_ERR(CAM_ISP, "Failed to retrieve image buffers req_id:%d ctx_id:%d bubble detected:%d rc:%d", req->request_id, ctx->ctx_id, req_isp->bubble_detected, rc); return rc; } } if (defer_buf_done) { uint32_t deferred_indx = req_isp->num_deferred_acks; /* * If we are handling this BUF_DONE event for a request * that is still in wait_list, do not signal now, * instead mark it as done and handle it later - * if this request is going into BUBBLE state later * it will automatically be re-applied. If this is not * going into BUBBLE, signal fences later. * Note - we will come here only if the last consumed * address matches with this ports buffer. */ req_isp->deferred_fence_map_index[deferred_indx] = j; req_isp->num_deferred_acks++; CAM_DBG(CAM_ISP, "ctx[%d] : Deferred buf done for %llu with bubble state %d recovery %d", ctx->ctx_id, req->request_id, bubble_state, req_isp->bubble_report); CAM_DBG(CAM_ISP, "ctx[%d] : Deferred info : num_acks=%d, fence_map_index=%d, resource_handle=0x%x, sync_id=%d", ctx->ctx_id, req_isp->num_deferred_acks, j, req_isp->fence_map_out[j].resource_handle, req_isp->fence_map_out[j].sync_id); continue; } else if (!req_isp->bubble_detected) { CAM_DBG(CAM_ISP, "Sync with success: req %lld res 0x%x fd 0x%x, ctx %u", req->request_id, req_isp->fence_map_out[j].resource_handle, req_isp->fence_map_out[j].sync_id, ctx->ctx_id); rc = cam_sync_signal(req_isp->fence_map_out[j].sync_id, CAM_SYNC_STATE_SIGNALED_SUCCESS, CAM_SYNC_COMMON_EVENT_SUCCESS); if (rc) { CAM_ERR(CAM_ISP, "Sync = %u for req = %llu failed with rc = %d", req_isp->fence_map_out[j].sync_id, req->request_id, rc); } else if (req_isp->num_deferred_acks) { /* Process deferred buf_done acks */ __cam_isp_handle_deferred_buf_done(ctx_isp, req, false, CAM_SYNC_STATE_SIGNALED_SUCCESS, CAM_SYNC_COMMON_EVENT_SUCCESS); } /* Reset fence */ req_isp->fence_map_out[j].sync_id = -1; } else if (!req_isp->bubble_report) { CAM_DBG(CAM_ISP, "Sync with failure: req %lld res 0x%x fd 0x%x, ctx %u", req->request_id, req_isp->fence_map_out[j].resource_handle, req_isp->fence_map_out[j].sync_id, ctx->ctx_id); rc = cam_sync_signal(req_isp->fence_map_out[j].sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, CAM_SYNC_ISP_EVENT_BUBBLE); if (rc) { CAM_ERR(CAM_ISP, "Sync = %u for req = %llu failed with rc = %d", req_isp->fence_map_out[j].sync_id, req->request_id, rc); } else if (req_isp->num_deferred_acks) { /* Process deferred buf_done acks */ __cam_isp_handle_deferred_buf_done(ctx_isp, req, false, CAM_SYNC_STATE_SIGNALED_ERROR, CAM_SYNC_ISP_EVENT_BUBBLE); } /* Reset fence */ req_isp->fence_map_out[j].sync_id = -1; } else { /* * Ignore the buffer done if bubble detect is on * Increment the ack number here, and queue the * request back to pending list whenever all the * buffers are done. */ req_isp->num_acked++; CAM_DBG(CAM_ISP, "buf done with bubble state %d recovery %d", bubble_state, req_isp->bubble_report); /* Process deferred buf_done acks */ if (req_isp->num_deferred_acks) __cam_isp_handle_deferred_buf_done(ctx_isp, req, true, CAM_SYNC_STATE_SIGNALED_ERROR, CAM_SYNC_ISP_EVENT_BUBBLE); continue; } CAM_DBG(CAM_ISP, "req %lld, reset sync id 0x%x ctx %u", req->request_id, req_isp->fence_map_out[j].sync_id, ctx->ctx_id); if (!rc) { req_isp->num_acked++; } if ((ctx_isp->use_frame_header_ts) && (req_isp->hw_update_data.frame_header_res_id == req_isp->fence_map_out[j].resource_handle)) __cam_isp_ctx_send_sof_timestamp_frame_header( ctx_isp, req_isp->hw_update_data.frame_header_cpu_addr, req->request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); } if (req_isp->num_acked > req_isp->num_fence_map_out) { /* Should not happen */ CAM_ERR(CAM_ISP, "WARNING: req_id %lld num_acked %d > map_out %d, ctx %u", req->request_id, req_isp->num_acked, req_isp->num_fence_map_out, ctx->ctx_id); } if (req_isp->num_acked != req_isp->num_fence_map_out) return rc; rc = __cam_isp_ctx_handle_buf_done_for_req_list(ctx_isp, req); return rc; } static int __cam_isp_ctx_handle_buf_done( struct cam_isp_context *ctx_isp, struct cam_isp_hw_done_event_data *done, uint32_t bubble_state) { int rc = 0; struct cam_ctx_request *req; struct cam_context *ctx = ctx_isp->base; struct cam_isp_hw_done_event_data done_next_req; if (list_empty(&ctx->active_req_list)) { CAM_WARN(CAM_ISP, "Buf done with no active request"); return 0; } req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); rc = __cam_isp_ctx_handle_buf_done_for_request(ctx_isp, req, done, bubble_state, &done_next_req); if (done_next_req.num_handles) { struct cam_isp_hw_done_event_data unhandled_res; struct cam_ctx_request *next_req = list_last_entry( &ctx->active_req_list, struct cam_ctx_request, list); if (next_req->request_id != req->request_id) { /* * Few resource handles are already signalled in the * current request, lets check if there is another * request waiting for these resources. This can * happen if handling some of next request's buf done * events are happening first before handling current * request's remaining buf dones due to IRQ scheduling. * Lets check only one more request as we will have * maximum of 2 requests in active_list at any time. */ CAM_WARN(CAM_ISP, "Unhandled buf done resources for req %lld, trying next request %lld in active_list", req->request_id, next_req->request_id); __cam_isp_ctx_handle_buf_done_for_request(ctx_isp, next_req, &done_next_req, bubble_state, &unhandled_res); if (unhandled_res.num_handles == 0) CAM_INFO(CAM_ISP, "BUF Done event handed for next request %lld", next_req->request_id); else CAM_ERR(CAM_ISP, "BUF Done not handled for next request %lld", next_req->request_id); } else { CAM_WARN(CAM_ISP, "Req %lld only active request, spurious buf_done rxd", req->request_id); } } return rc; } static void __cam_isp_ctx_buf_done_match_req( struct cam_ctx_request *req, struct cam_isp_hw_done_event_data *done, bool *irq_delay_detected) { int i, j; uint32_t match_count = 0; struct cam_isp_ctx_req *req_isp; req_isp = (struct cam_isp_ctx_req *) req->req_priv; for (i = 0; i < done->num_handles; i++) { for (j = 0; j < req_isp->num_fence_map_out; j++) { if ((done->resource_handle[i] == req_isp->fence_map_out[j].resource_handle) && (done->last_consumed_addr[i] == req_isp->fence_map_out[j].image_buf_addr[0])) { match_count++; break; } } } if (match_count > 0) *irq_delay_detected = true; else *irq_delay_detected = false; CAM_DBG(CAM_ISP, "buf done num handles %d match count %d for next req:%lld", done->num_handles, match_count, req->request_id); CAM_DBG(CAM_ISP, "irq_delay_detected %d", *irq_delay_detected); } static int __cam_isp_ctx_handle_buf_done_verify_addr( struct cam_isp_context *ctx_isp, struct cam_isp_hw_done_event_data *done, uint32_t bubble_state) { int rc = 0; bool irq_delay_detected = false; struct cam_ctx_request *req; struct cam_ctx_request *next_req = NULL; struct cam_context *ctx = ctx_isp->base; bool req_in_wait_list = false; if (list_empty(&ctx->active_req_list)) { if (!list_empty(&ctx->wait_req_list)) { struct cam_isp_ctx_req *req_isp; req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); req_in_wait_list = true; if (ctx_isp->last_applied_req_id != ctx_isp->last_bufdone_err_apply_req_id) { CAM_WARN(CAM_ISP, "Buf done with no active request but with req in wait list, req %llu last apply id:%lld last err id:%lld", req->request_id, ctx_isp->last_applied_req_id, ctx_isp->last_bufdone_err_apply_req_id); ctx_isp->last_bufdone_err_apply_req_id = ctx_isp->last_applied_req_id; } req_isp = (struct cam_isp_ctx_req *) req->req_priv; /* * Verify consumed address for this request to make sure * we are handling the buf_done for the correct * buffer. Also defer actual buf_done handling, i.e * do not signal the fence as this request may go into * Bubble state eventully. */ rc = __cam_isp_ctx_handle_buf_done_for_request_verify_addr( ctx_isp, req, done, bubble_state, true, true); } if (!req_in_wait_list && (ctx_isp->last_applied_req_id != ctx_isp->last_bufdone_err_apply_req_id)) { CAM_WARN(CAM_ISP, "Buf done with no active request bubble_state=%d last_applied_req_id:%lld ", bubble_state, ctx_isp->last_applied_req_id); ctx_isp->last_bufdone_err_apply_req_id = ctx_isp->last_applied_req_id; } return 0; } req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); if (ctx_isp->active_req_cnt > 1) { next_req = list_last_entry( &ctx->active_req_list, struct cam_ctx_request, list); if (next_req->request_id != req->request_id) __cam_isp_ctx_buf_done_match_req(next_req, done, &irq_delay_detected); else CAM_WARN(CAM_ISP, "Req %lld only active request, spurious buf_done rxd", req->request_id); } /* * If irq delay isn't detected, then we need to verify * the consumed address for current req, otherwise, we * can't verify the consumed address. */ rc = __cam_isp_ctx_handle_buf_done_for_request_verify_addr( ctx_isp, req, done, bubble_state, !irq_delay_detected, false); /* * Verify the consumed address for next req all the time, * since the reported buf done event may belong to current * req, then we can't signal this event for next req. */ if (!rc && irq_delay_detected) rc = __cam_isp_ctx_handle_buf_done_for_request_verify_addr( ctx_isp, next_req, done, bubble_state, true, false); return rc; } static int __cam_isp_ctx_handle_buf_done_in_activated_state( struct cam_isp_context *ctx_isp, struct cam_isp_hw_done_event_data *done, uint32_t bubble_state) { int rc = 0; if (ctx_isp->support_consumed_addr) rc = __cam_isp_ctx_handle_buf_done_verify_addr( ctx_isp, done, bubble_state); else rc = __cam_isp_ctx_handle_buf_done( ctx_isp, done, bubble_state); return rc; } static int __cam_isp_ctx_apply_req_offline( void *priv, void *data) { int rc = 0; int64_t prev_applied_req; struct cam_context *ctx = NULL; struct cam_isp_context *ctx_isp = priv; struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_hw_config_args cfg; if (!ctx_isp) { CAM_ERR(CAM_ISP, "Invalid ctx_isp:%pK", ctx); rc = -EINVAL; goto end; } ctx = ctx_isp->base; if (list_empty(&ctx->pending_req_list)) { CAM_DBG(CAM_ISP, "No pending requests to apply"); rc = -EFAULT; goto end; } if ((ctx->state != CAM_CTX_ACTIVATED) || (!atomic_read(&ctx_isp->rxd_epoch)) || (ctx_isp->substate_activated == CAM_ISP_CTX_ACTIVATED_APPLIED)) goto end; if (ctx_isp->active_req_cnt >= 2) goto end; spin_lock_bh(&ctx->lock); req = list_first_entry(&ctx->pending_req_list, struct cam_ctx_request, list); spin_unlock_bh(&ctx->lock); CAM_DBG(CAM_REQ, "Apply request %lld in substate %d ctx %u", req->request_id, ctx_isp->substate_activated, ctx->ctx_id); req_isp = (struct cam_isp_ctx_req *) req->req_priv; memset(&cfg, 0, sizeof(cfg)); cfg.ctxt_to_hw_map = ctx_isp->hw_ctx; cfg.request_id = req->request_id; cfg.hw_update_entries = req_isp->cfg; cfg.num_hw_update_entries = req_isp->num_cfg; cfg.priv = &req_isp->hw_update_data; cfg.init_packet = 0; /* * Offline mode may receive the SOF and REG_UPD earlier than * CDM processing return back, so we set the substate before * apply setting. */ spin_lock_bh(&ctx->lock); atomic_set(&ctx_isp->rxd_epoch, 0); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_APPLIED; prev_applied_req = ctx_isp->last_applied_req_id; ctx_isp->last_applied_req_id = req->request_id; atomic_set(&ctx_isp->apply_in_progress, 1); list_del_init(&req->list); list_add_tail(&req->list, &ctx->wait_req_list); spin_unlock_bh(&ctx->lock); rc = ctx->hw_mgr_intf->hw_config(ctx->hw_mgr_intf->hw_mgr_priv, &cfg); if (rc) { CAM_ERR_RATE_LIMIT(CAM_ISP, "Can not apply the configuration"); spin_lock_bh(&ctx->lock); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; ctx_isp->last_applied_req_id = prev_applied_req; atomic_set(&ctx_isp->apply_in_progress, 0); list_del_init(&req->list); list_add(&req->list, &ctx->pending_req_list); spin_unlock_bh(&ctx->lock); } else { atomic_set(&ctx_isp->apply_in_progress, 0); CAM_DBG(CAM_ISP, "New substate state %d, applied req %lld", CAM_ISP_CTX_ACTIVATED_APPLIED, ctx_isp->last_applied_req_id); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_APPLIED, req->request_id); } end: return rc; } static int __cam_isp_ctx_schedule_apply_req_offline( struct cam_isp_context *ctx_isp) { int rc = 0; struct crm_workq_task *task; task = cam_req_mgr_workq_get_task(ctx_isp->workq); if (!task) { CAM_ERR(CAM_ISP, "No task for worker"); return -ENOMEM; } task->process_cb = __cam_isp_ctx_apply_req_offline; rc = cam_req_mgr_workq_enqueue_task(task, ctx_isp, CRM_TASK_PRIORITY_0); if (rc) CAM_ERR(CAM_ISP, "Failed to schedule task rc:%d", rc); return rc; } static int __cam_isp_ctx_offline_epoch_in_activated_state( struct cam_isp_context *ctx_isp, void *evt_data) { struct cam_context *ctx = ctx_isp->base; struct cam_ctx_request *req, *req_temp; uint64_t request_id = 0; atomic_set(&ctx_isp->rxd_epoch, 1); CAM_DBG(CAM_ISP, "SOF frame %lld ctx %u", ctx_isp->frame_id, ctx->ctx_id); list_for_each_entry_safe(req, req_temp, &ctx->active_req_list, list) { if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; break; } } __cam_isp_ctx_schedule_apply_req_offline(ctx_isp); __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_EPOCH, request_id); return 0; } static int __cam_isp_ctx_reg_upd_in_epoch_bubble_state( struct cam_isp_context *ctx_isp, void *evt_data) { if (ctx_isp->frame_id == 1) CAM_DBG(CAM_ISP, "Reg update in Substate[%s] for early PCR", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); else CAM_WARN_RATE_LIMIT(CAM_ISP, "ctx_id:%d Unexpected reg update in activated Substate[%s] for frame_id:%lld", ctx_isp->base->ctx_id, __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), ctx_isp->frame_id); return 0; } static int __cam_isp_ctx_reg_upd_in_applied_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_ctx_request *req; struct cam_context *ctx = ctx_isp->base; struct cam_isp_ctx_req *req_isp; uint64_t request_id = 0; if (list_empty(&ctx->wait_req_list)) { CAM_ERR(CAM_ISP, "Reg upd ack with no waiting request"); goto end; } req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (req_isp->num_fence_map_out != 0) { list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; request_id = req->request_id; CAM_DBG(CAM_REQ, "move request %lld to active list(cnt = %d), ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_RUP, req); } else { /* no io config, so the request is completed. */ list_add_tail(&req->list, &ctx->free_req_list); CAM_DBG(CAM_ISP, "move active request %lld to free list(cnt = %d), ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } /* * This function only called directly from applied and bubble applied * state so change substate here. */ ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_EPOCH; CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_REG_UPDATE, request_id); end: return rc; } static int __cam_isp_ctx_notify_sof_in_activated_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; uint64_t request_id = 0; struct cam_req_mgr_trigger_notify notify; struct cam_context *ctx = ctx_isp->base; struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; uint64_t last_cdm_done_req = 0; struct cam_isp_hw_epoch_event_data *epoch_done_event_data = (struct cam_isp_hw_epoch_event_data *)evt_data; if (!evt_data) { CAM_ERR(CAM_ISP, "invalid event data"); return -EINVAL; } ctx_isp->frame_id_meta = epoch_done_event_data->frame_id_meta; if (atomic_read(&ctx_isp->process_bubble)) { if (list_empty(&ctx->active_req_list)) { CAM_ERR(CAM_ISP, "No available active req in bubble"); atomic_set(&ctx_isp->process_bubble, 0); ctx_isp->bubble_frame_cnt = 0; rc = -EINVAL; return rc; } if (ctx_isp->last_sof_timestamp == ctx_isp->sof_timestamp_val) { CAM_DBG(CAM_ISP, "Tasklet delay detected! Bubble frame check skipped, sof_timestamp: %lld", ctx_isp->sof_timestamp_val); goto notify_only; } req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (ctx_isp->bubble_frame_cnt >= 1 && req_isp->bubble_detected) { hw_cmd_args.ctxt_to_hw_map = ctx_isp->hw_ctx; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_GET_LAST_CDM_DONE; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd( ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "HW command failed"); return rc; } last_cdm_done_req = isp_hw_cmd_args.u.last_cdm_done; CAM_DBG(CAM_ISP, "last_cdm_done req: %d", last_cdm_done_req); if (last_cdm_done_req >= req->request_id) { CAM_DBG(CAM_ISP, "CDM callback detected for req: %lld, possible buf_done delay, waiting for buf_done", req->request_id); ctx_isp->bubble_frame_cnt = 0; } else { CAM_DBG(CAM_ISP, "CDM callback not happened for req: %lld, possible CDM stuck or workqueue delay", req->request_id); req_isp->num_acked = 0; req_isp->num_deferred_acks = 0; ctx_isp->bubble_frame_cnt = 0; req_isp->bubble_detected = false; req_isp->cdm_reset_before_apply = true; list_del_init(&req->list); list_add(&req->list, &ctx->pending_req_list); atomic_set(&ctx_isp->process_bubble, 0); ctx_isp->active_req_cnt--; CAM_DBG(CAM_REQ, "Move active req: %lld to pending list(cnt = %d) [bubble re-apply],ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } } else if (req_isp->bubble_detected) { ctx_isp->bubble_frame_cnt++; CAM_DBG(CAM_ISP, "Waiting on bufdone for bubble req: %lld, since frame_cnt = %lld", req->request_id, ctx_isp->bubble_frame_cnt); } else { CAM_DBG(CAM_ISP, "Delayed bufdone for req: %lld", req->request_id); } } notify_only: /* * notify reqmgr with sof signal. Note, due to scheduling delay * we can run into situation that two active requests has already * be in the active queue while we try to do the notification. * In this case, we need to skip the current notification. This * helps the state machine to catch up the delay. */ if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger && ctx_isp->active_req_cnt <= 2) { if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; notify.trigger_id = ctx_isp->trigger_id; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld ctx %u", ctx_isp->frame_id, ctx->ctx_id); } list_for_each_entry(req, &ctx->active_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; if ((!req_isp->bubble_detected) && (req->request_id > ctx_isp->reported_req_id)) { request_id = req->request_id; __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, req); break; } } if (ctx_isp->substate_activated == CAM_ISP_CTX_ACTIVATED_BUBBLE) request_id = 0; if (request_id != 0) ctx_isp->reported_req_id = request_id; __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_EPOCH, request_id); } else { CAM_ERR_RATE_LIMIT(CAM_ISP, "Can not notify SOF to CRM for ctx %u", ctx->ctx_id); rc = -EFAULT; } ctx_isp->last_sof_timestamp = ctx_isp->sof_timestamp_val; return 0; } static int __cam_isp_ctx_notify_eof_in_activated_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_req_mgr_trigger_notify notify; struct cam_context *ctx = ctx_isp->base; if (!(ctx_isp->subscribe_event & CAM_TRIGGER_POINT_EOF)) return rc; /* notify reqmgr with eof signal */ if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_EOF; notify.trigger_id = ctx_isp->trigger_id; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM EOF frame %lld ctx %u", ctx_isp->frame_id, ctx->ctx_id); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_EOF, 0); } else { CAM_ERR(CAM_ISP, "Can not notify EOF to CRM for ctx %u", ctx->ctx_id); rc = -EFAULT; } return rc; } static int __cam_isp_ctx_reg_upd_in_hw_error( struct cam_isp_context *ctx_isp, void *evt_data) { ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; return 0; } static int __cam_isp_ctx_sof_in_activated_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; struct cam_ctx_request *req = NULL; struct cam_context *ctx = ctx_isp->base; uint64_t request_id = 0; /* First check if there is a valid request in active list */ list_for_each_entry(req, &ctx->active_req_list, list) { if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; break; } } /* * If nothing in active list, current request might have not moved * from wait to active list. This could happen if REG_UPDATE to sw * is coming immediately after SOF */ if (request_id == 0) { req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); if (req) request_id = req->request_id; } if (!evt_data) { CAM_ERR(CAM_ISP, "in valid sof event data"); return -EINVAL; } ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_SOF, request_id); CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx, ctx %u", ctx_isp->frame_id, ctx_isp->sof_timestamp_val, ctx->ctx_id); return rc; } static int __cam_isp_ctx_reg_upd_in_sof(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_ctx_request *req = NULL; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; if (ctx->state != CAM_CTX_ACTIVATED && ctx_isp->frame_id > 1) { CAM_DBG(CAM_ISP, "invalid RUP"); goto end; } /* * This is for the first update. The initial setting will * cause the reg_upd in the first frame. */ if (!list_empty(&ctx->wait_req_list)) { req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (req_isp->num_fence_map_out == req_isp->num_acked) list_add_tail(&req->list, &ctx->free_req_list); else CAM_ERR(CAM_ISP, "receive rup in unexpected state"); } if (req != NULL) { __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_REG_UPDATE, req->request_id); } end: return rc; } static int __cam_isp_ctx_epoch_in_applied(struct cam_isp_context *ctx_isp, void *evt_data) { uint64_t request_id = 0; uint32_t sof_event_status = CAM_REQ_MGR_SOF_EVENT_SUCCESS; struct cam_req_mgr_trigger_notify notify; struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; struct cam_isp_hw_epoch_event_data *epoch_done_event_data = (struct cam_isp_hw_epoch_event_data *)evt_data; if (!evt_data) { CAM_ERR(CAM_ISP, "invalid event data"); return -EINVAL; } ctx_isp->frame_id_meta = epoch_done_event_data->frame_id_meta; if (list_empty(&ctx->wait_req_list)) { /* * If no wait req in epoch, this is an error case. * The recovery is to go back to sof state */ CAM_ERR(CAM_ISP, "Ctx:%d No wait request", ctx->ctx_id); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; /* Send SOF event as empty frame*/ __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, NULL); goto end; } /* Update state prior to notifying CRM */ ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_BUBBLE; req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); req_isp = (struct cam_isp_ctx_req *)req->req_priv; req_isp->bubble_detected = true; req_isp->reapply = true; req_isp->cdm_reset_before_apply = false; CAM_INFO_RATE_LIMIT(CAM_ISP, "ctx:%d Report Bubble flag %d req id:%lld", ctx->ctx_id, req_isp->bubble_report, req->request_id); if (req_isp->bubble_report && ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_err) { struct cam_req_mgr_error_notify notify; notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.req_id = req->request_id; notify.error = CRM_KMD_ERR_BUBBLE; notify.trigger = 0; if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) notify.trigger = CAM_TRIGGER_POINT_SOF; notify.frame_id = ctx_isp->frame_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; CAM_WARN_RATE_LIMIT(CAM_ISP, "Notify CRM about Bubble req %lld frame %lld, ctx %u", req->request_id, ctx_isp->frame_id, ctx->ctx_id); trace_cam_log_event("Bubble", "Rcvd epoch in applied state", req->request_id, ctx->ctx_id); ctx->ctx_crm_intf->notify_err(¬ify); atomic_set(&ctx_isp->process_bubble, 1); } else { req_isp->bubble_report = 0; CAM_DBG(CAM_ISP, "Skip bubble recovery for req %lld ctx %u", req->request_id, ctx->ctx_id); if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger && ctx_isp->active_req_cnt <= 1) { if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; notify.trigger_id = ctx_isp->trigger_id; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld ctx %u", ctx_isp->frame_id, ctx->ctx_id); } } atomic_set(&ctx_isp->process_bubble, 1); } /* * Always move the request to active list. Let buf done * function handles the rest. */ list_del_init(&req->list); list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; CAM_DBG(CAM_REQ, "move request %lld to active list(cnt = %d), ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); /* * Update the record before req pointer to * other invalid req. */ __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, req); /* * Get the req again from active_req_list in case * the active req cnt is 2. */ list_for_each_entry(req, &ctx->active_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; if ((!req_isp->bubble_report) && (req->request_id > ctx_isp->reported_req_id)) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; CAM_DBG(CAM_ISP, "ctx %d reported_req_id update to %lld", ctx->ctx_id, ctx_isp->reported_req_id); break; } } if ((request_id != 0) && req_isp->bubble_detected) sof_event_status = CAM_REQ_MGR_SOF_EVENT_ERROR; __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, sof_event_status); cam_req_mgr_debug_delay_detect(); trace_cam_delay_detect("ISP", "bubble epoch_in_applied", req->request_id, ctx->ctx_id, ctx->link_hdl, ctx->session_hdl, CAM_DEFAULT_VALUE); end: if (request_id == 0) { req = list_last_entry(&ctx->active_req_list, struct cam_ctx_request, list); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_EPOCH, req->request_id); } else { __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_EPOCH, request_id); } CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); return 0; } static int __cam_isp_ctx_buf_done_in_applied(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_done_event_data *done = (struct cam_isp_hw_done_event_data *) evt_data; rc = __cam_isp_ctx_handle_buf_done_in_activated_state(ctx_isp, done, 0); return rc; } static int __cam_isp_ctx_sof_in_epoch(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_context *ctx = ctx_isp->base; struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; struct cam_ctx_request *req; if (!evt_data) { CAM_ERR(CAM_ISP, "in valid sof event data"); return -EINVAL; } if (atomic_read(&ctx_isp->apply_in_progress)) CAM_INFO(CAM_ISP, "Apply is in progress at the time of SOF"); ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; if (list_empty(&ctx->active_req_list)) ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; else CAM_DBG(CAM_ISP, "Still need to wait for the buf done"); req = list_last_entry(&ctx->active_req_list, struct cam_ctx_request, list); if (req) __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_SOF, req->request_id); if (ctx_isp->frame_id == 1) CAM_INFO(CAM_ISP, "First SOF in EPCR ctx:%d frame_id:%lld next substate %s", ctx->ctx_id, ctx_isp->frame_id, __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); CAM_DBG(CAM_ISP, "SOF in epoch ctx:%d frame_id:%lld next substate:%s", ctx->ctx_id, ctx_isp->frame_id, __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); return rc; } static int __cam_isp_ctx_buf_done_in_epoch(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_done_event_data *done = (struct cam_isp_hw_done_event_data *) evt_data; rc = __cam_isp_ctx_handle_buf_done_in_activated_state(ctx_isp, done, 0); return rc; } static int __cam_isp_ctx_buf_done_in_bubble( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_done_event_data *done = (struct cam_isp_hw_done_event_data *) evt_data; rc = __cam_isp_ctx_handle_buf_done_in_activated_state(ctx_isp, done, 1); return rc; } static int __cam_isp_ctx_epoch_in_bubble_applied( struct cam_isp_context *ctx_isp, void *evt_data) { uint64_t request_id = 0; struct cam_req_mgr_trigger_notify notify; struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; struct cam_isp_hw_epoch_event_data *epoch_done_event_data = (struct cam_isp_hw_epoch_event_data *)evt_data; if (!evt_data) { CAM_ERR(CAM_ISP, "invalid event data"); return -EINVAL; } ctx_isp->frame_id_meta = epoch_done_event_data->frame_id_meta; /* * This means we missed the reg upd ack. So we need to * transition to BUBBLE state again. */ if (list_empty(&ctx->wait_req_list)) { /* * If no pending req in epoch, this is an error case. * Just go back to the bubble state. */ CAM_ERR(CAM_ISP, "ctx:%d No pending request.", ctx->ctx_id); __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, NULL); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_BUBBLE; goto end; } req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); req_isp = (struct cam_isp_ctx_req *)req->req_priv; req_isp->bubble_detected = true; CAM_INFO_RATE_LIMIT(CAM_ISP, "Ctx:%d Report Bubble flag %d req id:%lld", ctx->ctx_id, req_isp->bubble_report, req->request_id); req_isp->reapply = true; req_isp->cdm_reset_before_apply = false; if (req_isp->bubble_report && ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_err) { struct cam_req_mgr_error_notify notify; notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.req_id = req->request_id; notify.error = CRM_KMD_ERR_BUBBLE; notify.trigger = 0; if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) notify.trigger = CAM_TRIGGER_POINT_SOF; notify.frame_id = ctx_isp->frame_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; CAM_WARN_RATE_LIMIT(CAM_REQ, "Notify CRM about Bubble req_id %llu frame %lld, ctx %u", req->request_id, ctx_isp->frame_id, ctx->ctx_id); ctx->ctx_crm_intf->notify_err(¬ify); atomic_set(&ctx_isp->process_bubble, 1); } else { req_isp->bubble_report = 0; CAM_DBG(CAM_ISP, "Skip bubble recovery for req %lld ctx %u", req->request_id, ctx->ctx_id); if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger && ctx_isp->active_req_cnt <= 1) { if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; notify.trigger_id = ctx_isp->trigger_id; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld ctx %u", ctx_isp->frame_id, ctx->ctx_id); } } atomic_set(&ctx_isp->process_bubble, 1); } /* * Always move the request to active list. Let buf done * function handles the rest. */ list_del_init(&req->list); list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; CAM_DBG(CAM_ISP, "move request %lld to active list(cnt = %d) ctx %u", req->request_id, ctx_isp->active_req_cnt); if (!req_isp->bubble_report) { if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_ERROR); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, req); } else { __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, NULL); } } else { __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_EPOCH, NULL); } ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_BUBBLE; CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); cam_req_mgr_debug_delay_detect(); trace_cam_delay_detect("ISP", "bubble epoch_in_bubble_applied", req->request_id, ctx->ctx_id, ctx->link_hdl, ctx->session_hdl, CAM_DEFAULT_VALUE); end: req = list_last_entry(&ctx->active_req_list, struct cam_ctx_request, list); if (req) __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_EPOCH, req->request_id); return 0; } static int __cam_isp_ctx_buf_done_in_bubble_applied( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_done_event_data *done = (struct cam_isp_hw_done_event_data *) evt_data; rc = __cam_isp_ctx_handle_buf_done_in_activated_state(ctx_isp, done, 1); return rc; } static uint32_t get_evt_param(uint32_t error_type) { switch (error_type) { case CAM_ISP_HW_ERROR_OVERFLOW: return CAM_SYNC_ISP_EVENT_OVERFLOW; case CAM_ISP_HW_ERROR_P2I_ERROR: return CAM_SYNC_ISP_EVENT_P2I_ERROR; case CAM_ISP_HW_ERROR_VIOLATION: return CAM_SYNC_ISP_EVENT_VIOLATION; case CAM_ISP_HW_ERROR_BUSIF_OVERFLOW: return CAM_SYNC_ISP_EVENT_BUSIF_OVERFLOW; default: return CAM_SYNC_ISP_EVENT_UNKNOWN; } } static int __cam_isp_ctx_handle_error(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; uint32_t i = 0; bool found = 0; struct cam_ctx_request *req = NULL; struct cam_ctx_request *req_to_report = NULL; struct cam_ctx_request *req_to_dump = NULL; struct cam_ctx_request *req_temp; struct cam_isp_ctx_req *req_isp = NULL; struct cam_isp_ctx_req *req_isp_to_report = NULL; struct cam_req_mgr_error_notify notify = {}; uint64_t error_request_id; struct cam_hw_fence_map_entry *fence_map_out = NULL; struct cam_req_mgr_message req_msg; uint32_t evt_param; struct cam_req_mgr_timer_notify timer; struct cam_context *ctx = ctx_isp->base; struct cam_isp_hw_error_event_data *error_event_data = (struct cam_isp_hw_error_event_data *)evt_data; uint32_t error_type = error_event_data->error_type; CAM_DBG(CAM_ISP, "Enter error_type = %d", error_type); if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_timer) { timer.link_hdl = ctx->link_hdl; timer.dev_hdl = ctx->dev_hdl; timer.state = false; ctx->ctx_crm_intf->notify_timer(&timer); CAM_DBG(CAM_ISP, "Notify CRM to pause timer for ctx %u", ctx->ctx_id); } if ((error_type == CAM_ISP_HW_ERROR_OVERFLOW) || (error_type == CAM_ISP_HW_ERROR_BUSIF_OVERFLOW) || (error_type == CAM_ISP_HW_ERROR_VIOLATION)) { struct cam_hw_cmd_args hw_cmd_args; memset(&hw_cmd_args, 0, sizeof(hw_cmd_args)); hw_cmd_args.ctxt_to_hw_map = ctx->ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_REG_DUMP_ON_ERROR; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "Reg dump on error failed rc: %d", rc); rc = 0; } } evt_param = get_evt_param(error_type); /* * The error is likely caused by first request on the active list. * If active list is empty check wait list (maybe error hit as soon * as RUP and we handle error before RUP. */ if (list_empty(&ctx->active_req_list)) { CAM_DBG(CAM_ISP, "handling error with no active request"); if (list_empty(&ctx->wait_req_list)) { CAM_ERR_RATE_LIMIT(CAM_ISP, "Error with no active/wait request"); goto end; } else { req_to_dump = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); } } else { req_to_dump = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); } req_isp = (struct cam_isp_ctx_req *) req_to_dump->req_priv; if (error_event_data->enable_req_dump) rc = cam_isp_ctx_dump_req(req_isp, 0, 0, NULL, false); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_ERROR, req_to_dump->request_id); list_for_each_entry_safe(req, req_temp, &ctx->active_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (!req_isp->bubble_report) { CAM_ERR(CAM_ISP, "signalled error for req %llu", req->request_id); for (i = 0; i < req_isp->num_fence_map_out; i++) { fence_map_out = &req_isp->fence_map_out[i]; if (req_isp->fence_map_out[i].sync_id != -1) { CAM_DBG(CAM_ISP, "req %llu, Sync fd 0x%x ctx %u", req->request_id, req_isp->fence_map_out[i].sync_id, ctx->ctx_id); rc = cam_sync_signal( fence_map_out->sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, evt_param); fence_map_out->sync_id = -1; } } list_del_init(&req->list); list_add_tail(&req->list, &ctx->free_req_list); ctx_isp->active_req_cnt--; } else { found = 1; break; } } if (found) goto move_to_pending; list_for_each_entry_safe(req, req_temp, &ctx->wait_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (!req_isp->bubble_report) { CAM_ERR(CAM_ISP, "signalled error for req %llu", req->request_id); for (i = 0; i < req_isp->num_fence_map_out; i++) { fence_map_out = &req_isp->fence_map_out[i]; if (req_isp->fence_map_out[i].sync_id != -1) { CAM_DBG(CAM_ISP, "req %llu, Sync fd 0x%x ctx %u", req->request_id, req_isp->fence_map_out[i].sync_id, ctx->ctx_id); rc = cam_sync_signal( fence_map_out->sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, evt_param); fence_map_out->sync_id = -1; } } list_del_init(&req->list); list_add_tail(&req->list, &ctx->free_req_list); } else { found = 1; break; } } move_to_pending: /* * If bubble recovery is enabled on any request we need to move that * request and all the subsequent requests to the pending list. * Note: * We need to traverse the active list in reverse order and add * to head of pending list. * e.g. pending current state: 10, 11 | active current state: 8, 9 * intermittent for loop iteration- pending: 9, 10, 11 | active: 8 * final state - pending: 8, 9, 10, 11 | active: NULL */ if (found) { list_for_each_entry_safe_reverse(req, req_temp, &ctx->active_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; list_del_init(&req->list); list_add(&req->list, &ctx->pending_req_list); ctx_isp->active_req_cnt--; } list_for_each_entry_safe_reverse(req, req_temp, &ctx->wait_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; list_del_init(&req->list); list_add(&req->list, &ctx->pending_req_list); } } end: do { if (list_empty(&ctx->pending_req_list)) { error_request_id = ctx_isp->last_applied_req_id; req_isp = NULL; break; } req = list_first_entry(&ctx->pending_req_list, struct cam_ctx_request, list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; error_request_id = ctx_isp->last_applied_req_id; if (req_isp->bubble_report) { req_to_report = req; req_isp_to_report = req_to_report->req_priv; break; } for (i = 0; i < req_isp->num_fence_map_out; i++) { if (req_isp->fence_map_out[i].sync_id != -1) rc = cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, evt_param); req_isp->fence_map_out[i].sync_id = -1; } list_del_init(&req->list); list_add_tail(&req->list, &ctx->free_req_list); } while (req->request_id < ctx_isp->last_applied_req_id); if (ctx_isp->offline_context) goto exit; if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_err) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.req_id = error_request_id; notify.error = CRM_KMD_ERR_FATAL; if (req_isp_to_report && req_isp_to_report->bubble_report) if (error_event_data->recovery_enabled) notify.error = CRM_KMD_ERR_BUBBLE; CAM_WARN(CAM_ISP, "Notify CRM: req %lld, frame %lld ctx %u, error %d", error_request_id, ctx_isp->frame_id, ctx->ctx_id, notify.error); ctx->ctx_crm_intf->notify_err(¬ify); /* * Need to send error occurred in KMD * This will help UMD to take necessary action * and to dump relevant info */ if (notify.error == CRM_KMD_ERR_FATAL) { req_msg.session_hdl = ctx_isp->base->session_hdl; req_msg.u.err_msg.device_hdl = ctx_isp->base->dev_hdl; if (error_type == CAM_ISP_HW_ERROR_CSID_FATAL) req_msg.u.err_msg.error_type = CAM_REQ_MGR_ERROR_TYPE_FULL_RECOVERY; else { req_msg.u.err_msg.error_type = CAM_REQ_MGR_ERROR_TYPE_RECOVERY; } req_msg.u.err_msg.link_hdl = ctx_isp->base->link_hdl; req_msg.u.err_msg.request_id = error_request_id; req_msg.u.err_msg.resource_size = 0x0; req_msg.u.err_msg.error_code = error_event_data->error_code; if (cam_req_mgr_notify_message(&req_msg, V4L_EVENT_CAM_REQ_MGR_ERROR, V4L_EVENT_CAM_REQ_MGR_EVENT)) CAM_ERR(CAM_ISP, "Error in notifying the error time for req id:%lld ctx %u", ctx_isp->last_applied_req_id, ctx->ctx_id); } ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_HW_ERROR; } else { CAM_ERR_RATE_LIMIT(CAM_ISP, "Can not notify ERRROR to CRM for ctx %u", ctx->ctx_id); rc = -EFAULT; } CAM_DBG(CAM_ISP, "Exit"); exit: return rc; } static int __cam_isp_ctx_fs2_sof_in_sof_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; struct cam_ctx_request *req; struct cam_context *ctx = ctx_isp->base; struct cam_req_mgr_trigger_notify notify; uint64_t request_id = 0; if (!evt_data) { CAM_ERR(CAM_ISP, "in valid sof event data"); return -EINVAL; } ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx", ctx_isp->frame_id, ctx_isp->sof_timestamp_val); if (!(list_empty(&ctx->wait_req_list))) goto end; if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger && ctx_isp->active_req_cnt <= 2) { if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld", ctx_isp->frame_id); } list_for_each_entry(req, &ctx->active_req_list, list) { if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; break; } } __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_SOF, request_id); } else { CAM_ERR_RATE_LIMIT(CAM_ISP, "Can not notify SOF to CRM"); rc = -EFAULT; } end: return rc; } static int __cam_isp_ctx_fs2_buf_done(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_isp_hw_done_event_data *done = (struct cam_isp_hw_done_event_data *) evt_data; struct cam_context *ctx = ctx_isp->base; int prev_active_req_cnt = 0; int curr_req_id = 0; struct cam_ctx_request *req; prev_active_req_cnt = ctx_isp->active_req_cnt; req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); if (req) curr_req_id = req->request_id; rc = __cam_isp_ctx_handle_buf_done_in_activated_state(ctx_isp, done, 0); if (prev_active_req_cnt == ctx_isp->active_req_cnt + 1) { if (list_empty(&ctx->wait_req_list) && list_empty(&ctx->active_req_list)) { CAM_DBG(CAM_ISP, "No request, move to SOF"); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; if (ctx_isp->reported_req_id < curr_req_id) { ctx_isp->reported_req_id = curr_req_id; __cam_isp_ctx_send_sof_timestamp(ctx_isp, curr_req_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); } } } return rc; } static int __cam_isp_ctx_fs2_buf_done_in_epoch(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; rc = __cam_isp_ctx_fs2_buf_done(ctx_isp, evt_data); return rc; } static int __cam_isp_ctx_fs2_buf_done_in_applied( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; rc = __cam_isp_ctx_fs2_buf_done(ctx_isp, evt_data); return rc; } static int __cam_isp_ctx_fs2_reg_upd_in_sof(struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_ctx_request *req = NULL; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; if (ctx->state != CAM_CTX_ACTIVATED && ctx_isp->frame_id > 1) { CAM_DBG(CAM_ISP, "invalid RUP"); goto end; } /* * This is for the first update. The initial setting will * cause the reg_upd in the first frame. */ if (!list_empty(&ctx->wait_req_list)) { req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (req_isp->num_fence_map_out == req_isp->num_acked) list_add_tail(&req->list, &ctx->free_req_list); else CAM_ERR(CAM_ISP, "receive rup in unexpected state"); } if (req != NULL) { __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_REG_UPDATE, req->request_id); } end: return rc; } static int __cam_isp_ctx_fs2_reg_upd_in_applied_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_ctx_request *req = NULL; struct cam_context *ctx = ctx_isp->base; struct cam_isp_ctx_req *req_isp; struct cam_req_mgr_trigger_notify notify; uint64_t request_id = 0; if (list_empty(&ctx->wait_req_list)) { CAM_ERR(CAM_ISP, "Reg upd ack with no waiting request"); goto end; } req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (req_isp->num_fence_map_out != 0) { list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; CAM_DBG(CAM_REQ, "move request %lld to active list(cnt = %d)", req->request_id, ctx_isp->active_req_cnt); } else { /* no io config, so the request is completed. */ list_add_tail(&req->list, &ctx->free_req_list); } /* * This function only called directly from applied and bubble applied * state so change substate here. */ ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_EPOCH; if (req_isp->num_fence_map_out != 1) goto end; if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger && ctx_isp->active_req_cnt <= 2) { list_for_each_entry(req, &ctx->active_req_list, list) { if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; break; } } __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld", ctx_isp->frame_id); } } else { CAM_ERR_RATE_LIMIT(CAM_ISP, "Can not notify SOF to CRM"); rc = -EFAULT; } CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); end: if (req != NULL && !rc) { __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_REG_UPDATE, req->request_id); } return rc; } static struct cam_isp_ctx_irq_ops cam_isp_ctx_activated_state_machine_irq[CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_sof, __cam_isp_ctx_notify_sof_in_activated_state, __cam_isp_ctx_notify_eof_in_activated_state, NULL, }, }, /* APPLIED */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_applied_state, __cam_isp_ctx_epoch_in_applied, __cam_isp_ctx_notify_eof_in_activated_state, __cam_isp_ctx_buf_done_in_applied, }, }, /* EPOCH */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_epoch, __cam_isp_ctx_reg_upd_in_epoch_bubble_state, __cam_isp_ctx_notify_sof_in_activated_state, __cam_isp_ctx_notify_eof_in_activated_state, __cam_isp_ctx_buf_done_in_epoch, }, }, /* BUBBLE */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_epoch_bubble_state, __cam_isp_ctx_notify_sof_in_activated_state, __cam_isp_ctx_notify_eof_in_activated_state, __cam_isp_ctx_buf_done_in_bubble, }, }, /* Bubble Applied */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_applied_state, __cam_isp_ctx_epoch_in_bubble_applied, NULL, __cam_isp_ctx_buf_done_in_bubble_applied, }, }, /* HW ERROR */ { .irq_ops = { NULL, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_hw_error, NULL, NULL, NULL, }, }, /* HALT */ { }, }; static struct cam_isp_ctx_irq_ops cam_isp_ctx_fs2_state_machine_irq[CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_fs2_sof_in_sof_state, __cam_isp_ctx_fs2_reg_upd_in_sof, __cam_isp_ctx_fs2_sof_in_sof_state, __cam_isp_ctx_notify_eof_in_activated_state, NULL, }, }, /* APPLIED */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_fs2_reg_upd_in_applied_state, __cam_isp_ctx_epoch_in_applied, __cam_isp_ctx_notify_eof_in_activated_state, __cam_isp_ctx_fs2_buf_done_in_applied, }, }, /* EPOCH */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_epoch, __cam_isp_ctx_reg_upd_in_epoch_bubble_state, __cam_isp_ctx_notify_sof_in_activated_state, __cam_isp_ctx_notify_eof_in_activated_state, __cam_isp_ctx_fs2_buf_done_in_epoch, }, }, /* BUBBLE */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_epoch_bubble_state, __cam_isp_ctx_notify_sof_in_activated_state, __cam_isp_ctx_notify_eof_in_activated_state, __cam_isp_ctx_buf_done_in_bubble, }, }, /* Bubble Applied */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_applied_state, __cam_isp_ctx_epoch_in_bubble_applied, NULL, __cam_isp_ctx_buf_done_in_bubble_applied, }, }, /* HW ERROR */ { .irq_ops = { NULL, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_hw_error, NULL, NULL, NULL, }, }, /* HALT */ { }, }; static struct cam_isp_ctx_irq_ops cam_isp_ctx_offline_state_machine_irq[CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .irq_ops = { __cam_isp_ctx_handle_error, NULL, NULL, NULL, NULL, NULL, }, }, /* APPLIED */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_applied_state, NULL, NULL, __cam_isp_ctx_buf_done_in_applied, }, }, /* EPOCH */ { .irq_ops = { __cam_isp_ctx_handle_error, NULL, NULL, __cam_isp_ctx_offline_epoch_in_activated_state, NULL, __cam_isp_ctx_buf_done_in_epoch, }, }, /* BUBBLE */ { }, /* Bubble Applied */ { }, /* HW ERROR */ { .irq_ops = { NULL, __cam_isp_ctx_sof_in_activated_state, __cam_isp_ctx_reg_upd_in_hw_error, NULL, NULL, NULL, }, }, /* HALT */ { }, }; static int __cam_isp_ctx_apply_req_in_activated_state( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply, enum cam_isp_ctx_activated_substate next_state) { int rc = 0; struct cam_ctx_request *req; struct cam_ctx_request *active_req = NULL; struct cam_isp_ctx_req *req_isp; struct cam_isp_ctx_req *active_req_isp; struct cam_isp_context *ctx_isp = NULL; struct cam_hw_config_args cfg = {0}; ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; if (apply->re_apply) if (apply->request_id <= ctx_isp->last_applied_req_id) { CAM_INFO_RATE_LIMIT(CAM_ISP, "ctx_id:%d Trying to reapply the same request %llu again", ctx->ctx_id, apply->request_id); return 0; } if (list_empty(&ctx->pending_req_list)) { CAM_ERR_RATE_LIMIT(CAM_ISP, "ctx_id:%d No available request for Apply id %lld", ctx->ctx_id, apply->request_id); rc = -EFAULT; goto end; } /* * When the pipeline has issue, the requests can be queued up in the * pipeline. In this case, we should reject the additional request. * The maximum number of request allowed to be outstanding is 2. * */ if (atomic_read(&ctx_isp->process_bubble)) { CAM_INFO_RATE_LIMIT(CAM_ISP, "ctx_id:%d Processing bubble cannot apply Request Id %llu", ctx->ctx_id, apply->request_id); rc = -EAGAIN; goto end; } spin_lock_bh(&ctx->lock); req = list_first_entry(&ctx->pending_req_list, struct cam_ctx_request, list); spin_unlock_bh(&ctx->lock); /* * Check whether the request id is matching the tip, if not, this means * we are in the middle of the error handling. Need to reject this apply */ if (req->request_id != apply->request_id) { CAM_ERR_RATE_LIMIT(CAM_ISP, "ctx_id:%d Invalid Request Id asking %llu existing %llu", ctx->ctx_id, apply->request_id, req->request_id); rc = -EFAULT; goto end; } CAM_DBG(CAM_REQ, "Apply request %lld in Substate[%s] ctx %u", req->request_id, __cam_isp_ctx_substate_val_to_type(ctx_isp->substate_activated), ctx->ctx_id); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (ctx_isp->active_req_cnt >= 2) { CAM_WARN_RATE_LIMIT(CAM_ISP, "Reject apply request (id %lld) due to congestion(cnt = %d) ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); spin_lock_bh(&ctx->lock); if (!list_empty(&ctx->active_req_list)) active_req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); else CAM_ERR_RATE_LIMIT(CAM_ISP, "WARNING: should not happen (cnt = %d) but active_list empty", ctx_isp->active_req_cnt); spin_unlock_bh(&ctx->lock); if (active_req) { active_req_isp = (struct cam_isp_ctx_req *) active_req->req_priv; __cam_isp_ctx_handle_buf_done_fail_log( active_req->request_id, active_req_isp, ctx_isp->isp_device_type); } rc = -EFAULT; goto end; } req_isp->bubble_report = apply->report_if_bubble; cfg.ctxt_to_hw_map = ctx_isp->hw_ctx; cfg.request_id = req->request_id; cfg.hw_update_entries = req_isp->cfg; cfg.num_hw_update_entries = req_isp->num_cfg; cfg.priv = &req_isp->hw_update_data; cfg.init_packet = 0; cfg.reapply = req_isp->reapply; cfg.cdm_reset_before_apply = req_isp->cdm_reset_before_apply; atomic_set(&ctx_isp->apply_in_progress, 1); rc = ctx->hw_mgr_intf->hw_config(ctx->hw_mgr_intf->hw_mgr_priv, &cfg); if (!rc) { spin_lock_bh(&ctx->lock); ctx_isp->substate_activated = next_state; ctx_isp->last_applied_req_id = apply->request_id; list_del_init(&req->list); list_add_tail(&req->list, &ctx->wait_req_list); CAM_DBG(CAM_ISP, "new substate Substate[%s], applied req %lld", __cam_isp_ctx_substate_val_to_type(next_state), ctx_isp->last_applied_req_id); spin_unlock_bh(&ctx->lock); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_APPLIED, req->request_id); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_APPLY, req); } else if (rc == -EALREADY) { spin_lock_bh(&ctx->lock); req_isp->bubble_detected = true; req_isp->cdm_reset_before_apply = false; atomic_set(&ctx_isp->process_bubble, 1); list_del_init(&req->list); list_add(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; spin_unlock_bh(&ctx->lock); CAM_DBG(CAM_REQ, "move request %lld to active list(cnt = %d), ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } else { CAM_ERR_RATE_LIMIT(CAM_ISP, "ctx_id:%d ,Can not apply (req %lld) the configuration, rc %d", ctx->ctx_id, apply->request_id, rc); } atomic_set(&ctx_isp->apply_in_progress, 0); end: return rc; } static int __cam_isp_ctx_apply_req_in_sof( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_DBG(CAM_ISP, "current Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); rc = __cam_isp_ctx_apply_req_in_activated_state(ctx, apply, CAM_ISP_CTX_ACTIVATED_APPLIED); CAM_DBG(CAM_ISP, "new Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); if (rc) CAM_DBG(CAM_ISP, "Apply failed in Substate[%s], rc %d", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), rc); return rc; } static int __cam_isp_ctx_apply_req_in_epoch( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_DBG(CAM_ISP, "current Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); rc = __cam_isp_ctx_apply_req_in_activated_state(ctx, apply, CAM_ISP_CTX_ACTIVATED_APPLIED); CAM_DBG(CAM_ISP, "new Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); if (rc) CAM_DBG(CAM_ISP, "Apply failed in Substate[%s], rc %d", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), rc); return rc; } static int __cam_isp_ctx_apply_req_in_bubble( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_DBG(CAM_ISP, "current Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); rc = __cam_isp_ctx_apply_req_in_activated_state(ctx, apply, CAM_ISP_CTX_ACTIVATED_BUBBLE_APPLIED); CAM_DBG(CAM_ISP, "new Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); if (rc) CAM_DBG(CAM_ISP, "Apply failed in Substate[%s], rc %d", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), rc); return rc; } static int __cam_isp_ctx_apply_default_req_settings( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_isp_context *isp_ctx = (struct cam_isp_context *) ctx->ctx_priv; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; hw_cmd_args.ctxt_to_hw_map = isp_ctx->hw_ctx; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_PROG_DEFAULT_CFG; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) CAM_ERR(CAM_ISP, "Failed to apply default settings rc %d", rc); else CAM_DBG(CAM_ISP, "Applied default settings rc %d", rc); return rc; } static int __cam_isp_ctx_dump_req_info( struct cam_context *ctx, struct cam_ctx_request *req, uintptr_t cpu_addr, size_t buf_len, size_t *offset) { int i, rc; uint8_t *dst; int32_t *addr, *start; uint32_t min_len; size_t remain_len; struct cam_isp_ctx_req *req_isp; struct cam_isp_context *ctx_isp; struct cam_isp_context_dump_header *hdr; if (!req || !ctx || !offset || !cpu_addr || !buf_len) { CAM_ERR(CAM_ISP, "Invalid parameters %pK %pK %pK %zu", req, ctx, offset, buf_len); return -EINVAL; } req_isp = (struct cam_isp_ctx_req *)req->req_priv; ctx_isp = (struct cam_isp_context *)ctx->ctx_priv; if (buf_len <= *offset) { CAM_WARN(CAM_ISP, "Dump buffer overshoot len %zu offset %zu", buf_len, *offset); return -ENOSPC; } remain_len = buf_len - *offset; min_len = sizeof(struct cam_isp_context_dump_header) + (CAM_ISP_CTX_DUMP_REQUEST_NUM_WORDS * req_isp->num_fence_map_out * sizeof(int32_t)); if (remain_len < min_len) { CAM_WARN(CAM_ISP, "Dump buffer exhaust remain %zu min %u", remain_len, min_len); return -ENOSPC; } dst = (uint8_t *)cpu_addr + *offset; hdr = (struct cam_isp_context_dump_header *)dst; hdr->word_size = sizeof(int32_t); scnprintf(hdr->tag, CAM_ISP_CONTEXT_DUMP_TAG_MAX_LEN, "ISP_OUT_FENCE:"); addr = (int32_t *)(dst + sizeof(struct cam_isp_context_dump_header)); start = addr; for (i = 0; i < req_isp->num_fence_map_out; i++) { *addr++ = req_isp->fence_map_out[i].resource_handle; *addr++ = req_isp->fence_map_out[i].sync_id; } hdr->size = hdr->word_size * (addr - start); *offset += hdr->size + sizeof(struct cam_isp_context_dump_header); rc = cam_isp_ctx_dump_req(req_isp, cpu_addr, buf_len, offset, true); return rc; } static int __cam_isp_ctx_dump_in_top_state( struct cam_context *ctx, struct cam_req_mgr_dump_info *dump_info) { int rc = 0; bool dump_only_event_record = false; size_t buf_len; size_t remain_len; uint8_t *dst; ktime_t cur_time; uint32_t min_len; uint64_t diff; uint64_t *addr, *start; uintptr_t cpu_addr; struct timespec64 ts; struct cam_isp_context *ctx_isp; struct cam_ctx_request *req = NULL; struct cam_isp_ctx_req *req_isp; struct cam_ctx_request *req_temp; struct cam_hw_dump_args dump_args; struct cam_isp_context_dump_header *hdr; spin_lock_bh(&ctx->lock); list_for_each_entry_safe(req, req_temp, &ctx->active_req_list, list) { if (req->request_id == dump_info->req_id) { CAM_INFO(CAM_ISP, "isp dump active list req: %lld", dump_info->req_id); goto hw_dump; } } list_for_each_entry_safe(req, req_temp, &ctx->wait_req_list, list) { if (req->request_id == dump_info->req_id) { CAM_INFO(CAM_ISP, "isp dump wait list req: %lld", dump_info->req_id); goto hw_dump; } } spin_unlock_bh(&ctx->lock); return rc; hw_dump: rc = cam_mem_get_cpu_buf(dump_info->buf_handle, &cpu_addr, &buf_len); if (rc) { CAM_ERR(CAM_ISP, "Invalid handle %u rc %d", dump_info->buf_handle, rc); spin_unlock_bh(&ctx->lock); return rc; } if (buf_len <= dump_info->offset) { spin_unlock_bh(&ctx->lock); CAM_WARN(CAM_ISP, "Dump buffer overshoot len %zu offset %zu", buf_len, dump_info->offset); return -ENOSPC; } remain_len = buf_len - dump_info->offset; min_len = sizeof(struct cam_isp_context_dump_header) + (CAM_ISP_CTX_DUMP_NUM_WORDS * sizeof(uint64_t)); if (remain_len < min_len) { spin_unlock_bh(&ctx->lock); CAM_WARN(CAM_ISP, "Dump buffer exhaust remain %zu min %u", remain_len, min_len); return -ENOSPC; } ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; req_isp = (struct cam_isp_ctx_req *) req->req_priv; cur_time = ktime_get(); diff = ktime_us_delta( req_isp->event_timestamp[CAM_ISP_CTX_EVENT_APPLY], cur_time); if (diff < CAM_ISP_CTX_RESPONSE_TIME_THRESHOLD) { CAM_INFO(CAM_ISP, "req %lld found no error", req->request_id); dump_only_event_record = true; } dst = (uint8_t *)cpu_addr + dump_info->offset; hdr = (struct cam_isp_context_dump_header *)dst; scnprintf(hdr->tag, CAM_ISP_CONTEXT_DUMP_TAG_MAX_LEN, "ISP_CTX_DUMP:"); hdr->word_size = sizeof(uint64_t); addr = (uint64_t *)(dst + sizeof(struct cam_isp_context_dump_header)); start = addr; *addr++ = req->request_id; ts = ktime_to_timespec64( req_isp->event_timestamp[CAM_ISP_CTX_EVENT_APPLY]); *addr++ = ts.tv_sec; *addr++ = ts.tv_nsec/NSEC_PER_USEC; ts = ktime_to_timespec64(cur_time); *addr++ = ts.tv_sec; *addr++ = ts.tv_nsec/NSEC_PER_USEC; hdr->size = hdr->word_size * (addr - start); dump_info->offset += hdr->size + sizeof(struct cam_isp_context_dump_header); rc = __cam_isp_ctx_dump_event_record(ctx_isp, cpu_addr, buf_len, &dump_info->offset); if (rc) { CAM_ERR(CAM_ISP, "Dump event fail %lld", req->request_id); spin_unlock_bh(&ctx->lock); return rc; } if (dump_only_event_record) { spin_unlock_bh(&ctx->lock); return rc; } rc = __cam_isp_ctx_dump_req_info(ctx, req, cpu_addr, buf_len, &dump_info->offset); if (rc) { CAM_ERR(CAM_ISP, "Dump Req info fail %lld", req->request_id); spin_unlock_bh(&ctx->lock); return rc; } spin_unlock_bh(&ctx->lock); if (ctx->hw_mgr_intf->hw_dump) { dump_args.offset = dump_info->offset; dump_args.request_id = dump_info->req_id; dump_args.buf_handle = dump_info->buf_handle; dump_args.ctxt_to_hw_map = ctx_isp->hw_ctx; rc = ctx->hw_mgr_intf->hw_dump( ctx->hw_mgr_intf->hw_mgr_priv, &dump_args); dump_info->offset = dump_args.offset; } return rc; } static int __cam_isp_ctx_flush_req(struct cam_context *ctx, struct list_head *req_list, struct cam_req_mgr_flush_request *flush_req) { int i, rc, tmp = 0; uint32_t cancel_req_id_found = 0; struct cam_ctx_request *req; struct cam_ctx_request *req_temp; struct cam_isp_ctx_req *req_isp; struct list_head flush_list; struct cam_isp_context *ctx_isp = NULL; ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; INIT_LIST_HEAD(&flush_list); if (list_empty(req_list)) { CAM_DBG(CAM_ISP, "request list is empty"); if (flush_req->type == CAM_REQ_MGR_FLUSH_TYPE_CANCEL_REQ) { CAM_ERR(CAM_ISP, "no request to cancel"); return -EINVAL; } else return 0; } CAM_DBG(CAM_REQ, "Flush [%u] in progress for req_id %llu", flush_req->type, flush_req->req_id); list_for_each_entry_safe(req, req_temp, req_list, list) { if (flush_req->type == CAM_REQ_MGR_FLUSH_TYPE_CANCEL_REQ) { if (req->request_id != flush_req->req_id) { continue; } else { list_del_init(&req->list); list_add_tail(&req->list, &flush_list); cancel_req_id_found = 1; __cam_isp_ctx_update_state_monitor_array( ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_FLUSH, req->request_id); break; } } list_del_init(&req->list); list_add_tail(&req->list, &flush_list); __cam_isp_ctx_update_state_monitor_array(ctx_isp, CAM_ISP_STATE_CHANGE_TRIGGER_FLUSH, req->request_id); } if (list_empty(&flush_list)) { /* * Maybe the req isn't sent to KMD since UMD already skip * req in CSL layer. */ CAM_INFO(CAM_ISP, "flush list is empty, flush type %d for req %llu", flush_req->type, flush_req->req_id); return 0; } list_for_each_entry_safe(req, req_temp, &flush_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; for (i = 0; i < req_isp->num_fence_map_out; i++) { if (req_isp->fence_map_out[i].sync_id != -1) { CAM_DBG(CAM_ISP, "Flush req 0x%llx, fence %d", req->request_id, req_isp->fence_map_out[i].sync_id); rc = cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_CANCEL, CAM_SYNC_ISP_EVENT_FLUSH); if (rc) { tmp = req_isp->fence_map_out[i].sync_id; CAM_ERR_RATE_LIMIT(CAM_ISP, "signal fence %d failed", tmp); } req_isp->fence_map_out[i].sync_id = -1; } } req_isp->reapply = false; req_isp->cdm_reset_before_apply = false; list_del_init(&req->list); list_add_tail(&req->list, &ctx->free_req_list); } return 0; } static int __cam_isp_ctx_flush_req_in_top_state( struct cam_context *ctx, struct cam_req_mgr_flush_request *flush_req) { int rc = 0; struct cam_isp_context *ctx_isp; struct cam_isp_stop_args stop_isp; struct cam_hw_stop_args stop_args; struct cam_hw_reset_args reset_args; struct cam_hw_cmd_args hw_cmd_args; struct cam_req_mgr_timer_notify timer; ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_DBG(CAM_ISP, "Flush pending list"); spin_lock_bh(&ctx->lock); rc = __cam_isp_ctx_flush_req(ctx, &ctx->pending_req_list, flush_req); spin_unlock_bh(&ctx->lock); if (flush_req->type == CAM_REQ_MGR_FLUSH_TYPE_ALL) { if (ctx->state <= CAM_CTX_READY) { ctx->state = CAM_CTX_ACQUIRED; goto end; } spin_lock_bh(&ctx->lock); ctx->state = CAM_CTX_FLUSHED; ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_HALT; spin_unlock_bh(&ctx->lock); CAM_INFO(CAM_ISP, "Last request id to flush is %lld, ctx_id:%d", flush_req->req_id, ctx->ctx_id); ctx->last_flush_req = flush_req->req_id; memset(&hw_cmd_args, 0, sizeof(hw_cmd_args)); hw_cmd_args.ctxt_to_hw_map = ctx->ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_REG_DUMP_ON_FLUSH; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "Reg dump on flush failed rc: %d", rc); rc = 0; } stop_args.ctxt_to_hw_map = ctx_isp->hw_ctx; stop_isp.hw_stop_cmd = CAM_ISP_HW_STOP_IMMEDIATELY; stop_isp.stop_only = true; stop_args.args = (void *)&stop_isp; rc = ctx->hw_mgr_intf->hw_stop(ctx->hw_mgr_intf->hw_mgr_priv, &stop_args); if (rc) CAM_ERR(CAM_ISP, "Failed to stop HW in Flush rc: %d", rc); CAM_INFO(CAM_ISP, "Stop HW complete. Reset HW next."); CAM_DBG(CAM_ISP, "Flush wait and active lists"); if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_timer) { timer.link_hdl = ctx->link_hdl; timer.dev_hdl = ctx->dev_hdl; timer.state = false; ctx->ctx_crm_intf->notify_timer(&timer); } spin_lock_bh(&ctx->lock); if (!list_empty(&ctx->wait_req_list)) rc = __cam_isp_ctx_flush_req(ctx, &ctx->wait_req_list, flush_req); if (!list_empty(&ctx->active_req_list)) rc = __cam_isp_ctx_flush_req(ctx, &ctx->active_req_list, flush_req); ctx_isp->active_req_cnt = 0; spin_unlock_bh(&ctx->lock); reset_args.ctxt_to_hw_map = ctx_isp->hw_ctx; rc = ctx->hw_mgr_intf->hw_reset(ctx->hw_mgr_intf->hw_mgr_priv, &reset_args); if (rc) CAM_ERR(CAM_ISP, "Failed to reset HW rc: %d", rc); ctx_isp->init_received = false; } end: ctx_isp->bubble_frame_cnt = 0; atomic_set(&ctx_isp->process_bubble, 0); atomic_set(&ctx_isp->rxd_epoch, 0); return rc; } static int __cam_isp_ctx_flush_req_in_ready( struct cam_context *ctx, struct cam_req_mgr_flush_request *flush_req) { int rc = 0; CAM_DBG(CAM_ISP, "try to flush pending list"); spin_lock_bh(&ctx->lock); rc = __cam_isp_ctx_flush_req(ctx, &ctx->pending_req_list, flush_req); /* if nothing is in pending req list, change state to acquire */ if (list_empty(&ctx->pending_req_list)) ctx->state = CAM_CTX_ACQUIRED; spin_unlock_bh(&ctx->lock); trace_cam_context_state("ISP", ctx); CAM_DBG(CAM_ISP, "Flush request in ready state. next state %d", ctx->state); return rc; } static struct cam_ctx_ops cam_isp_ctx_activated_state_machine[CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_apply_req_in_sof, .notify_frame_skip = __cam_isp_ctx_apply_default_req_settings, }, .irq_ops = NULL, }, /* APPLIED */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* EPOCH */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_apply_req_in_epoch, .notify_frame_skip = __cam_isp_ctx_apply_default_req_settings, }, .irq_ops = NULL, }, /* BUBBLE */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_apply_req_in_bubble, .notify_frame_skip = __cam_isp_ctx_apply_default_req_settings, }, .irq_ops = NULL, }, /* Bubble Applied */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* HW ERROR */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* HALT */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, }; static struct cam_ctx_ops cam_isp_ctx_fs2_state_machine[CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_apply_req_in_sof, }, .irq_ops = NULL, }, /* APPLIED */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* EPOCH */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_apply_req_in_epoch, }, .irq_ops = NULL, }, /* BUBBLE */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_apply_req_in_bubble, }, .irq_ops = NULL, }, /* Bubble Applied */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* HW ERROR */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* HALT */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, }; static int __cam_isp_ctx_rdi_only_sof_in_top_state( struct cam_isp_context *ctx_isp, void *evt_data) { int rc = 0; struct cam_context *ctx = ctx_isp->base; struct cam_req_mgr_trigger_notify notify; struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; uint64_t request_id = 0; if (!evt_data) { CAM_ERR(CAM_ISP, "in valid sof event data"); return -EINVAL; } ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx", ctx_isp->frame_id, ctx_isp->sof_timestamp_val); /* * notify reqmgr with sof signal. Note, due to scheduling delay * we can run into situation that two active requests has already * be in the active queue while we try to do the notification. * In this case, we need to skip the current notification. This * helps the state machine to catch up the delay. */ if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger && ctx_isp->active_req_cnt <= 2) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld", ctx_isp->frame_id); /* * It's possible for rup done to be processed before * SOF, check for first active request shutter here */ if (!list_empty(&ctx->active_req_list)) { struct cam_ctx_request *req = NULL; req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; } } __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); } else { CAM_ERR_RATE_LIMIT(CAM_ISP, "Can not notify SOF to CRM"); } if (list_empty(&ctx->active_req_list)) ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; else CAM_DBG(CAM_ISP, "Still need to wait for the buf done"); CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); return rc; } static int __cam_isp_ctx_rdi_only_sof_in_applied_state( struct cam_isp_context *ctx_isp, void *evt_data) { struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; if (!evt_data) { CAM_ERR(CAM_ISP, "in valid sof event data"); return -EINVAL; } ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx", ctx_isp->frame_id, ctx_isp->sof_timestamp_val); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_BUBBLE_APPLIED; CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); return 0; } static int __cam_isp_ctx_rdi_only_sof_in_bubble_applied( struct cam_isp_context *ctx_isp, void *evt_data) { struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_context *ctx = ctx_isp->base; struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; uint64_t request_id = 0; /* * Sof in bubble applied state means, reg update not received. * before increment frame id and override time stamp value, send * the previous sof time stamp that got captured in the * sof in applied state. */ CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx", ctx_isp->frame_id, ctx_isp->sof_timestamp_val); __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx", ctx_isp->frame_id, ctx_isp->sof_timestamp_val); if (list_empty(&ctx->wait_req_list)) { /* * If no pending req in epoch, this is an error case. * The recovery is to go back to sof state */ CAM_ERR(CAM_ISP, "No wait request"); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; /* Send SOF event as empty frame*/ __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); goto end; } req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); req_isp = (struct cam_isp_ctx_req *)req->req_priv; req_isp->bubble_detected = true; CAM_INFO_RATE_LIMIT(CAM_ISP, "Ctx:%d Report Bubble flag %d req id:%lld", ctx->ctx_id, req_isp->bubble_report, req->request_id); req_isp->reapply = true; req_isp->cdm_reset_before_apply = false; if (req_isp->bubble_report && ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_err) { struct cam_req_mgr_error_notify notify; notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.req_id = req->request_id; notify.error = CRM_KMD_ERR_BUBBLE; notify.trigger = 0; if (ctx_isp->subscribe_event & CAM_TRIGGER_POINT_SOF) notify.trigger = CAM_TRIGGER_POINT_SOF; notify.frame_id = ctx_isp->frame_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; CAM_WARN_RATE_LIMIT(CAM_ISP, "Notify CRM about Bubble req %lld frame %lld ctx %u", req->request_id, ctx_isp->frame_id, ctx->ctx_id); ctx->ctx_crm_intf->notify_err(¬ify); atomic_set(&ctx_isp->process_bubble, 1); } else { req_isp->bubble_report = 0; } /* * Always move the request to active list. Let buf done * function handles the rest. */ list_del_init(&req->list); list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; CAM_DBG(CAM_ISP, "move request %lld to active list(cnt = %d)", req->request_id, ctx_isp->active_req_cnt); if (!req_isp->bubble_report) { if (req->request_id > ctx_isp->reported_req_id) { request_id = req->request_id; ctx_isp->reported_req_id = request_id; __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_ERROR); } else __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); } else __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); /* change the state to bubble, as reg update has not come */ ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_BUBBLE; CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); end: return 0; } static int __cam_isp_ctx_rdi_only_sof_in_bubble_state( struct cam_isp_context *ctx_isp, void *evt_data) { uint32_t i; struct cam_ctx_request *req; struct cam_context *ctx = ctx_isp->base; struct cam_req_mgr_trigger_notify notify; struct cam_isp_hw_sof_event_data *sof_event_data = evt_data; struct cam_isp_ctx_req *req_isp; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; uint64_t request_id = 0; uint64_t last_cdm_done_req = 0; int rc = 0; if (!evt_data) { CAM_ERR(CAM_ISP, "in valid sof event data"); return -EINVAL; } ctx_isp->frame_id++; ctx_isp->sof_timestamp_val = sof_event_data->timestamp; ctx_isp->boot_timestamp = sof_event_data->boot_time; CAM_DBG(CAM_ISP, "frame id: %lld time stamp:0x%llx", ctx_isp->frame_id, ctx_isp->sof_timestamp_val); if (atomic_read(&ctx_isp->process_bubble)) { if (list_empty(&ctx->active_req_list)) { CAM_ERR(CAM_ISP, "No available active req in bubble"); atomic_set(&ctx_isp->process_bubble, 0); return -EINVAL; } if (ctx_isp->last_sof_timestamp == ctx_isp->sof_timestamp_val) { CAM_DBG(CAM_ISP, "Tasklet delay detected! Bubble frame: %lld check skipped, sof_timestamp: %lld, ctx_id: %d", ctx_isp->frame_id, ctx_isp->sof_timestamp_val, ctx->ctx_id); goto end; } req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (req_isp->bubble_detected) { hw_cmd_args.ctxt_to_hw_map = ctx_isp->hw_ctx; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_GET_LAST_CDM_DONE; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd( ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "HW command failed"); return rc; } last_cdm_done_req = isp_hw_cmd_args.u.last_cdm_done; CAM_DBG(CAM_ISP, "last_cdm_done req: %d ctx_id: %d", last_cdm_done_req, ctx->ctx_id); if (last_cdm_done_req >= req->request_id) { CAM_DBG(CAM_ISP, "CDM callback detected for req: %lld, possible buf_done delay, waiting for buf_done", req->request_id); goto end; } else { CAM_WARN(CAM_ISP, "CDM callback not happened for req: %lld, possible CDM stuck or workqueue delay", req->request_id); req_isp->num_acked = 0; req_isp->num_deferred_acks = 0; req_isp->bubble_detected = false; req_isp->cdm_reset_before_apply = true; list_del_init(&req->list); list_add(&req->list, &ctx->pending_req_list); atomic_set(&ctx_isp->process_bubble, 0); ctx_isp->active_req_cnt--; CAM_DBG(CAM_REQ, "Move active req: %lld to pending list(cnt = %d) [bubble re-apply],ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } goto end; } } /* * Signal all active requests with error and move the all the active * requests to free list */ while (!list_empty(&ctx->active_req_list)) { req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; CAM_DBG(CAM_ISP, "signal fence in active list. fence num %d", req_isp->num_fence_map_out); for (i = 0; i < req_isp->num_fence_map_out; i++) if (req_isp->fence_map_out[i].sync_id != -1) { cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_ERROR, CAM_SYNC_ISP_EVENT_BUBBLE); } list_add_tail(&req->list, &ctx->free_req_list); ctx_isp->active_req_cnt--; } end: /* notify reqmgr with sof signal */ if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger) { notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld", ctx_isp->frame_id); } else { CAM_ERR(CAM_ISP, "Can not notify SOF to CRM"); } /* * It is idle frame with out any applied request id, send * request id as zero */ __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); ctx_isp->last_sof_timestamp = ctx_isp->sof_timestamp_val; return 0; } static int __cam_isp_ctx_rdi_only_reg_upd_in_bubble_state( struct cam_isp_context *ctx_isp, void *evt_data) { struct cam_ctx_request *req = NULL; struct cam_context *ctx = ctx_isp->base; req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); CAM_INFO(CAM_ISP, "Received RUP for Bubble Request", req->request_id); return 0; } static int __cam_isp_ctx_rdi_only_reg_upd_in_bubble_applied_state( struct cam_isp_context *ctx_isp, void *evt_data) { struct cam_ctx_request *req = NULL; struct cam_context *ctx = ctx_isp->base; struct cam_isp_ctx_req *req_isp; struct cam_req_mgr_trigger_notify notify; uint64_t request_id = 0; ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_EPOCH; /* notify reqmgr with sof signal*/ if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_trigger) { if (list_empty(&ctx->wait_req_list)) { CAM_ERR(CAM_ISP, "Reg upd ack with no waiting request"); goto error; } req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; request_id = (req_isp->hw_update_data.packet_opcode_type == CAM_ISP_PACKET_INIT_DEV) ? 0 : req->request_id; if (req_isp->num_fence_map_out != 0) { list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; CAM_DBG(CAM_ISP, "move request %lld to active list(cnt = %d)", req->request_id, ctx_isp->active_req_cnt); /* if packet has buffers, set correct request id */ request_id = req->request_id; } else { /* no io config, so the request is completed. */ list_add_tail(&req->list, &ctx->free_req_list); CAM_DBG(CAM_ISP, "move active req %lld to free list(cnt=%d)", req->request_id, ctx_isp->active_req_cnt); } notify.link_hdl = ctx->link_hdl; notify.dev_hdl = ctx->dev_hdl; notify.frame_id = ctx_isp->frame_id; notify.trigger = CAM_TRIGGER_POINT_SOF; notify.req_id = ctx_isp->req_info.last_bufdone_req_id; notify.sof_timestamp_val = ctx_isp->sof_timestamp_val; ctx->ctx_crm_intf->notify_trigger(¬ify); CAM_DBG(CAM_ISP, "Notify CRM SOF frame %lld", ctx_isp->frame_id); } else { CAM_ERR(CAM_ISP, "Can not notify SOF to CRM"); } if (request_id) ctx_isp->reported_req_id = request_id; __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_RUP, req); return 0; error: /* Send SOF event as idle frame*/ __cam_isp_ctx_send_sof_timestamp(ctx_isp, request_id, CAM_REQ_MGR_SOF_EVENT_SUCCESS); __cam_isp_ctx_update_event_record(ctx_isp, CAM_ISP_CTX_EVENT_RUP, NULL); /* * There is no request in the pending list, move the sub state machine * to SOF sub state */ ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; return 0; } static struct cam_isp_ctx_irq_ops cam_isp_ctx_rdi_only_activated_state_machine_irq [CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .irq_ops = { NULL, __cam_isp_ctx_rdi_only_sof_in_top_state, __cam_isp_ctx_reg_upd_in_sof, NULL, NULL, NULL, }, }, /* APPLIED */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_rdi_only_sof_in_applied_state, __cam_isp_ctx_reg_upd_in_applied_state, NULL, NULL, __cam_isp_ctx_buf_done_in_applied, }, }, /* EPOCH */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_rdi_only_sof_in_top_state, NULL, NULL, NULL, __cam_isp_ctx_buf_done_in_epoch, }, }, /* BUBBLE*/ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_rdi_only_sof_in_bubble_state, __cam_isp_ctx_rdi_only_reg_upd_in_bubble_state, NULL, NULL, __cam_isp_ctx_buf_done_in_bubble, }, }, /* BUBBLE APPLIED ie PRE_BUBBLE */ { .irq_ops = { __cam_isp_ctx_handle_error, __cam_isp_ctx_rdi_only_sof_in_bubble_applied, __cam_isp_ctx_rdi_only_reg_upd_in_bubble_applied_state, NULL, NULL, __cam_isp_ctx_buf_done_in_bubble_applied, }, }, /* HW ERROR */ { }, /* HALT */ { }, }; static int __cam_isp_ctx_rdi_only_apply_req_top_state( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_DBG(CAM_ISP, "current Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); rc = __cam_isp_ctx_apply_req_in_activated_state(ctx, apply, CAM_ISP_CTX_ACTIVATED_APPLIED); CAM_DBG(CAM_ISP, "new Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); if (rc) CAM_ERR_RATE_LIMIT(CAM_ISP, "ctx_id:%d Apply failed in Substate[%s], rc %d", ctx->ctx_id, __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), rc); return rc; } static struct cam_ctx_ops cam_isp_ctx_rdi_only_activated_state_machine [CAM_ISP_CTX_ACTIVATED_MAX] = { /* SOF */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_rdi_only_apply_req_top_state, }, .irq_ops = NULL, }, /* APPLIED */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* EPOCH */ { .ioctl_ops = {}, .crm_ops = { .apply_req = __cam_isp_ctx_rdi_only_apply_req_top_state, }, .irq_ops = NULL, }, /* PRE BUBBLE */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* BUBBLE */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* HW ERROR */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* HALT */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, }; static int __cam_isp_ctx_flush_dev_in_top_state(struct cam_context *ctx, struct cam_flush_dev_cmd *cmd) { struct cam_isp_context *ctx_isp = ctx->ctx_priv; struct cam_req_mgr_flush_request flush_req; if (!ctx_isp->offline_context) { CAM_ERR(CAM_ISP, "flush dev only supported in offline context"); return -EINVAL; } flush_req.type = (cmd->flush_type == CAM_FLUSH_TYPE_ALL) ? CAM_REQ_MGR_FLUSH_TYPE_ALL : CAM_REQ_MGR_FLUSH_TYPE_CANCEL_REQ; flush_req.req_id = cmd->req_id; CAM_DBG(CAM_ISP, "offline flush (type:%u, req:%lu)", flush_req.type, flush_req.req_id); switch (ctx->state) { case CAM_CTX_ACQUIRED: case CAM_CTX_ACTIVATED: return __cam_isp_ctx_flush_req_in_top_state(ctx, &flush_req); case CAM_CTX_READY: return __cam_isp_ctx_flush_req_in_ready(ctx, &flush_req); default: CAM_ERR(CAM_ISP, "flush dev in wrong state: %d", ctx->state); return -EINVAL; } if (cmd->flush_type == CAM_FLUSH_TYPE_ALL) cam_req_mgr_workq_flush(ctx_isp->workq); } static void __cam_isp_ctx_free_mem_hw_entries(struct cam_context *ctx) { kfree(ctx->out_map_entries); kfree(ctx->in_map_entries); kfree(ctx->hw_update_entry); ctx->out_map_entries = NULL; ctx->in_map_entries = NULL; ctx->hw_update_entry = NULL; ctx->max_out_map_entries = 0; ctx->max_in_map_entries = 0; ctx->max_hw_update_entries = 0; } static int __cam_isp_ctx_release_hw_in_top_state(struct cam_context *ctx, void *cmd) { int rc = 0; struct cam_hw_release_args rel_arg; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_req_mgr_flush_request flush_req; int i; if (ctx_isp->hw_ctx) { rel_arg.ctxt_to_hw_map = ctx_isp->hw_ctx; ctx->hw_mgr_intf->hw_release(ctx->hw_mgr_intf->hw_mgr_priv, &rel_arg); ctx_isp->hw_ctx = NULL; } else { CAM_ERR(CAM_ISP, "No hw resources acquired for ctx[%u]", ctx->ctx_id); } ctx->last_flush_req = 0; ctx_isp->custom_enabled = false; ctx_isp->use_frame_header_ts = false; ctx_isp->use_default_apply = false; ctx_isp->frame_id = 0; ctx_isp->active_req_cnt = 0; ctx_isp->reported_req_id = 0; ctx_isp->hw_acquired = false; ctx_isp->init_received = false; ctx_isp->support_consumed_addr = false; ctx_isp->req_info.last_bufdone_req_id = 0; atomic64_set(&ctx_isp->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx_isp->event_record_head[i], -1); /* * Ideally, we should never have any active request here. * But we still add some sanity check code here to help the debug */ if (!list_empty(&ctx->active_req_list)) CAM_WARN(CAM_ISP, "Active list is not empty"); /* Flush all the pending request list */ flush_req.type = CAM_REQ_MGR_FLUSH_TYPE_ALL; flush_req.link_hdl = ctx->link_hdl; flush_req.dev_hdl = ctx->dev_hdl; flush_req.req_id = 0; CAM_DBG(CAM_ISP, "try to flush pending list"); spin_lock_bh(&ctx->lock); rc = __cam_isp_ctx_flush_req(ctx, &ctx->pending_req_list, &flush_req); spin_unlock_bh(&ctx->lock); __cam_isp_ctx_free_mem_hw_entries(ctx); cam_req_mgr_workq_destroy(&ctx_isp->workq); ctx->state = CAM_CTX_ACQUIRED; trace_cam_context_state("ISP", ctx); CAM_DBG(CAM_ISP, "Release device success[%u] next state %d", ctx->ctx_id, ctx->state); return rc; } /* top level state machine */ static int __cam_isp_ctx_release_dev_in_top_state(struct cam_context *ctx, struct cam_release_dev_cmd *cmd) { int rc = 0; int i; struct cam_hw_release_args rel_arg; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_req_mgr_flush_request flush_req; if (cmd && ctx_isp->hw_ctx) { CAM_ERR(CAM_ISP, "releasing hw"); __cam_isp_ctx_release_hw_in_top_state(ctx, NULL); } if (ctx_isp->hw_ctx) { rel_arg.ctxt_to_hw_map = ctx_isp->hw_ctx; ctx->hw_mgr_intf->hw_release(ctx->hw_mgr_intf->hw_mgr_priv, &rel_arg); ctx_isp->hw_ctx = NULL; } ctx->session_hdl = -1; ctx->dev_hdl = -1; ctx->link_hdl = -1; ctx->ctx_crm_intf = NULL; ctx->last_flush_req = 0; ctx_isp->frame_id = 0; ctx_isp->active_req_cnt = 0; ctx_isp->reported_req_id = 0; ctx_isp->hw_acquired = false; ctx_isp->init_received = false; ctx_isp->offline_context = false; ctx_isp->rdi_only_context = false; ctx_isp->req_info.last_bufdone_req_id = 0; atomic64_set(&ctx_isp->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx_isp->event_record_head[i], -1); /* * Ideally, we should never have any active request here. * But we still add some sanity check code here to help the debug */ if (!list_empty(&ctx->active_req_list)) CAM_ERR(CAM_ISP, "Active list is not empty"); /* Flush all the pending request list */ flush_req.type = CAM_REQ_MGR_FLUSH_TYPE_ALL; flush_req.link_hdl = ctx->link_hdl; flush_req.dev_hdl = ctx->dev_hdl; flush_req.req_id = 0; CAM_DBG(CAM_ISP, "try to flush pending list"); spin_lock_bh(&ctx->lock); rc = __cam_isp_ctx_flush_req(ctx, &ctx->pending_req_list, &flush_req); spin_unlock_bh(&ctx->lock); __cam_isp_ctx_free_mem_hw_entries(ctx); ctx->state = CAM_CTX_AVAILABLE; trace_cam_context_state("ISP", ctx); CAM_DBG(CAM_ISP, "Release device success[%u] next state %d", ctx->ctx_id, ctx->state); return rc; } static int __cam_isp_ctx_config_dev_in_top_state( struct cam_context *ctx, struct cam_config_dev_cmd *cmd) { int rc = 0, i; struct cam_ctx_request *req = NULL; struct cam_isp_ctx_req *req_isp; struct cam_packet *packet; size_t remain_len = 0; struct cam_hw_prepare_update_args cfg = {0}; struct cam_req_mgr_add_request add_req; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; uint32_t packet_opcode = 0; CAM_DBG(CAM_ISP, "get free request object......"); /* get free request */ spin_lock_bh(&ctx->lock); if (!list_empty(&ctx->free_req_list)) { req = list_first_entry(&ctx->free_req_list, struct cam_ctx_request, list); list_del_init(&req->list); } spin_unlock_bh(&ctx->lock); if (!req) { CAM_ERR(CAM_ISP, "No more request obj free"); return -ENOMEM; } req_isp = (struct cam_isp_ctx_req *) req->req_priv; remain_len = cam_context_parse_config_cmd(ctx, cmd, &packet); if (IS_ERR(packet)) { rc = PTR_ERR(packet); goto free_req; } /* Query the packet opcode */ hw_cmd_args.ctxt_to_hw_map = ctx_isp->hw_ctx; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_GET_PACKET_OPCODE; isp_hw_cmd_args.cmd_data = (void *)packet; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "HW command failed"); goto free_req; } packet_opcode = isp_hw_cmd_args.u.packet_op_code; if ((packet_opcode == CAM_ISP_PACKET_UPDATE_DEV) && (packet->header.request_id <= ctx->last_flush_req)) { CAM_INFO(CAM_ISP, "request %lld has been flushed, reject packet", packet->header.request_id); rc = -EBADR; goto free_req; } cfg.packet = packet; cfg.remain_len = remain_len; cfg.ctxt_to_hw_map = ctx_isp->hw_ctx; cfg.max_hw_update_entries = ctx->max_hw_update_entries; cfg.hw_update_entries = req_isp->cfg; cfg.max_out_map_entries = ctx->max_out_map_entries; cfg.max_in_map_entries = ctx->max_in_map_entries; cfg.out_map_entries = req_isp->fence_map_out; cfg.in_map_entries = req_isp->fence_map_in; cfg.priv = &req_isp->hw_update_data; cfg.pf_data = &(req->pf_data); cfg.num_out_map_entries = 0; cfg.num_in_map_entries = 0; memset(&req_isp->hw_update_data, 0, sizeof(req_isp->hw_update_data)); rc = ctx->hw_mgr_intf->hw_prepare_update( ctx->hw_mgr_intf->hw_mgr_priv, &cfg); if (rc != 0) { CAM_ERR(CAM_ISP, "Prepare config packet failed in HW layer"); rc = -EFAULT; goto free_req; } req_isp->num_cfg = cfg.num_hw_update_entries; req_isp->num_fence_map_out = cfg.num_out_map_entries; req_isp->num_fence_map_in = cfg.num_in_map_entries; req_isp->num_acked = 0; req_isp->num_deferred_acks = 0; req_isp->bubble_detected = false; req_isp->cdm_reset_before_apply = false; req_isp->hw_update_data.packet = packet; for (i = 0; i < req_isp->num_fence_map_out; i++) { rc = cam_sync_get_obj_ref(req_isp->fence_map_out[i].sync_id); if (rc) { CAM_ERR(CAM_ISP, "Can't get ref for fence %d", req_isp->fence_map_out[i].sync_id); goto put_ref; } } CAM_DBG(CAM_ISP, "packet req-id:%lld, opcode:%d, num_entry:%d, num_fence_out: %d, num_fence_in: %d", packet->header.request_id, req_isp->hw_update_data.packet_opcode_type, req_isp->num_cfg, req_isp->num_fence_map_out, req_isp->num_fence_map_in); req->request_id = packet->header.request_id; req->status = 1; if (req_isp->hw_update_data.packet_opcode_type == CAM_ISP_PACKET_INIT_DEV) { if (ctx->state < CAM_CTX_ACTIVATED) { rc = __cam_isp_ctx_enqueue_init_request(ctx, req); if (rc) CAM_ERR(CAM_ISP, "Enqueue INIT pkt failed"); ctx_isp->init_received = true; } else { rc = -EINVAL; CAM_ERR(CAM_ISP, "Recevied INIT pkt in wrong state:%d", ctx->state); } } else { if ((ctx->state == CAM_CTX_FLUSHED) || (ctx->state < CAM_CTX_READY)) { rc = -EINVAL; CAM_ERR(CAM_ISP, "Received update req %lld in wrong state:%d", req->request_id, ctx->state); goto put_ref; } if (ctx_isp->offline_context) { __cam_isp_ctx_enqueue_request_in_order(ctx, req); } else if (ctx->ctx_crm_intf->add_req) { memset(&add_req, 0, sizeof(add_req)); add_req.link_hdl = ctx->link_hdl; add_req.dev_hdl = ctx->dev_hdl; add_req.req_id = req->request_id; rc = ctx->ctx_crm_intf->add_req(&add_req); if (rc) { CAM_ERR(CAM_ISP, "Add req failed: req id=%llu", req->request_id); } else { __cam_isp_ctx_enqueue_request_in_order( ctx, req); } } else { CAM_ERR(CAM_ISP, "Unable to add request: req id=%llu", req->request_id); rc = -ENODEV; } } if (rc) goto put_ref; CAM_DBG(CAM_REQ, "Preprocessing Config req_id %lld successful on ctx %u", req->request_id, ctx->ctx_id); if (ctx_isp->offline_context && atomic_read(&ctx_isp->rxd_epoch)) { __cam_isp_ctx_schedule_apply_req_offline(ctx_isp); } return rc; put_ref: for (--i; i >= 0; i--) { if (cam_sync_put_obj_ref(req_isp->fence_map_out[i].sync_id)) CAM_ERR(CAM_CTXT, "Failed to put ref of fence %d", req_isp->fence_map_out[i].sync_id); } free_req: spin_lock_bh(&ctx->lock); list_add_tail(&req->list, &ctx->free_req_list); spin_unlock_bh(&ctx->lock); return rc; } static int __cam_isp_ctx_allocate_mem_hw_entries( struct cam_context *ctx, struct cam_hw_acquire_args *param) { int rc = 0; uint32_t max_res = 0; uint32_t max_hw_upd_entries = CAM_ISP_CTX_CFG_MAX; struct cam_ctx_request *req; struct cam_ctx_request *temp_req; struct cam_isp_ctx_req *req_isp; size_t num_entries = 0; if (!param->op_params.param_list[0]) max_res = CAM_ISP_CTX_RES_MAX; else { max_res = param->op_params.param_list[0]; if (param->op_flags & CAM_IFE_CTX_SFE_EN) { max_res += param->op_params.param_list[1]; max_hw_upd_entries = CAM_ISP_SFE_CTX_CFG_MAX; } } ctx->max_in_map_entries = max_res; ctx->max_out_map_entries = max_res; ctx->max_hw_update_entries = max_hw_upd_entries; CAM_DBG(CAM_ISP, "Allocate max_entries: 0x%x max_res: 0x%x is_sfe_en: %d", max_hw_upd_entries, max_res, (param->op_flags & CAM_IFE_CTX_SFE_EN)); num_entries = ctx->max_hw_update_entries * CAM_ISP_CTX_REQ_MAX; ctx->hw_update_entry = kcalloc(num_entries, sizeof(struct cam_hw_update_entry), GFP_KERNEL); if (!ctx->hw_update_entry) { CAM_ERR(CAM_CTXT, "%s[%d] no memory", ctx->dev_name, ctx->ctx_id); return -ENOMEM; } num_entries = ctx->max_in_map_entries * CAM_ISP_CTX_REQ_MAX; ctx->in_map_entries = kcalloc(num_entries, sizeof(struct cam_hw_fence_map_entry), GFP_KERNEL); if (!ctx->in_map_entries) { CAM_ERR(CAM_CTXT, "%s[%d] no memory", ctx->dev_name, ctx->ctx_id); rc = -ENOMEM; goto end; } num_entries = ctx->max_out_map_entries * CAM_ISP_CTX_REQ_MAX; ctx->out_map_entries = kcalloc(num_entries, sizeof(struct cam_hw_fence_map_entry), GFP_KERNEL); if (!ctx->out_map_entries) { CAM_ERR(CAM_CTXT, "%s[%d] no memory", ctx->dev_name, ctx->ctx_id); rc = -ENOMEM; goto end; } list_for_each_entry_safe(req, temp_req, &ctx->free_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; req_isp->cfg = &ctx->hw_update_entry[req->index * ctx->max_hw_update_entries]; req_isp->fence_map_in = &ctx->in_map_entries[req->index * ctx->max_in_map_entries]; req_isp->fence_map_out = &ctx->out_map_entries[req->index * ctx->max_out_map_entries]; } return rc; end: __cam_isp_ctx_free_mem_hw_entries(ctx); return rc; } static int __cam_isp_ctx_acquire_dev_in_available(struct cam_context *ctx, struct cam_acquire_dev_cmd *cmd) { int rc = 0; int i; struct cam_hw_acquire_args param; struct cam_isp_resource *isp_res = NULL; struct cam_create_dev_hdl req_hdl_param; struct cam_hw_release_args release; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; if (!ctx->hw_mgr_intf) { CAM_ERR(CAM_ISP, "HW interface is not ready"); rc = -EFAULT; goto end; } CAM_DBG(CAM_ISP, "session_hdl 0x%x, num_resources %d, hdl type %d, res %lld", cmd->session_handle, cmd->num_resources, cmd->handle_type, cmd->resource_hdl); if (cmd->num_resources == CAM_API_COMPAT_CONSTANT) { ctx_isp->split_acquire = true; CAM_DBG(CAM_ISP, "Acquire dev handle"); goto get_dev_handle; } if (cmd->num_resources > CAM_ISP_CTX_RES_MAX) { CAM_ERR(CAM_ISP, "Too much resources in the acquire"); rc = -ENOMEM; goto end; } /* for now we only support user pointer */ if (cmd->handle_type != 1) { CAM_ERR(CAM_ISP, "Only user pointer is supported"); rc = -EINVAL; goto end; } isp_res = kzalloc( sizeof(*isp_res)*cmd->num_resources, GFP_KERNEL); if (!isp_res) { rc = -ENOMEM; goto end; } CAM_DBG(CAM_ISP, "start copy %d resources from user", cmd->num_resources); if (copy_from_user(isp_res, u64_to_user_ptr(cmd->resource_hdl), sizeof(*isp_res)*cmd->num_resources)) { rc = -EFAULT; goto free_res; } memset(¶m, 0, sizeof(param)); param.context_data = ctx; param.event_cb = ctx->irq_cb_intf; param.num_acq = cmd->num_resources; param.acquire_info = (uintptr_t) isp_res; rc = __cam_isp_ctx_allocate_mem_hw_entries(ctx, ¶m); if (rc) { CAM_ERR(CAM_ISP, "Ctx[%d] allocate hw entry fail", ctx->ctx_id); goto free_res; } /* call HW manager to reserve the resource */ rc = ctx->hw_mgr_intf->hw_acquire(ctx->hw_mgr_intf->hw_mgr_priv, ¶m); if (rc != 0) { CAM_ERR(CAM_ISP, "Acquire device failed"); goto free_res; } /* Query the context has rdi only resource */ hw_cmd_args.ctxt_to_hw_map = param.ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_CTX_TYPE; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "HW command failed"); goto free_hw; } if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_RDI) { /* * this context has rdi only resource assign rdi only * state machine */ CAM_DBG(CAM_ISP, "RDI only session Context"); ctx_isp->substate_machine_irq = cam_isp_ctx_rdi_only_activated_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_rdi_only_activated_state_machine; ctx_isp->rdi_only_context = true; } else if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_FS2) { CAM_DBG(CAM_ISP, "FS2 Session has PIX, RD and RDI"); ctx_isp->substate_machine_irq = cam_isp_ctx_fs2_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_fs2_state_machine; } else if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_OFFLINE) { CAM_DBG(CAM_ISP, "offline Session has PIX and RD resources"); ctx_isp->substate_machine_irq = cam_isp_ctx_offline_state_machine_irq; } else { CAM_DBG(CAM_ISP, "Session has PIX or PIX and RDI resources"); ctx_isp->substate_machine_irq = cam_isp_ctx_activated_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_activated_state_machine; } ctx_isp->hw_ctx = param.ctxt_to_hw_map; ctx_isp->hw_acquired = true; ctx_isp->split_acquire = false; ctx->ctxt_to_hw_map = param.ctxt_to_hw_map; atomic64_set(&ctx_isp->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx_isp->event_record_head[i], -1); kfree(isp_res); isp_res = NULL; get_dev_handle: req_hdl_param.session_hdl = cmd->session_handle; /* bridge is not ready for these flags. so false for now */ req_hdl_param.v4l2_sub_dev_flag = 0; req_hdl_param.media_entity_flag = 0; req_hdl_param.ops = ctx->crm_ctx_intf; req_hdl_param.priv = ctx; req_hdl_param.dev_id = CAM_ISP; CAM_DBG(CAM_ISP, "get device handle form bridge"); ctx->dev_hdl = cam_create_device_hdl(&req_hdl_param); if (ctx->dev_hdl <= 0) { rc = -EFAULT; CAM_ERR(CAM_ISP, "Can not create device handle"); goto free_hw; } cmd->dev_handle = ctx->dev_hdl; /* store session information */ ctx->session_hdl = cmd->session_handle; ctx->state = CAM_CTX_ACQUIRED; trace_cam_context_state("ISP", ctx); CAM_DBG(CAM_ISP, "Acquire success on session_hdl 0x%x num_rsrces %d ctx %u", cmd->session_handle, cmd->num_resources, ctx->ctx_id); return rc; free_hw: release.ctxt_to_hw_map = ctx_isp->hw_ctx; if (ctx_isp->hw_acquired) ctx->hw_mgr_intf->hw_release(ctx->hw_mgr_intf->hw_mgr_priv, &release); ctx_isp->hw_ctx = NULL; ctx_isp->hw_acquired = false; free_res: kfree(isp_res); end: return rc; } static int __cam_isp_ctx_acquire_hw_v1(struct cam_context *ctx, void *args) { int rc = 0; int i; struct cam_acquire_hw_cmd_v1 *cmd = (struct cam_acquire_hw_cmd_v1 *)args; struct cam_hw_acquire_args param; struct cam_hw_release_args release; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; struct cam_isp_acquire_hw_info *acquire_hw_info = NULL; if (!ctx->hw_mgr_intf) { CAM_ERR(CAM_ISP, "HW interface is not ready"); rc = -EFAULT; goto end; } CAM_DBG(CAM_ISP, "session_hdl 0x%x, hdl type %d, res %lld", cmd->session_handle, cmd->handle_type, cmd->resource_hdl); /* for now we only support user pointer */ if (cmd->handle_type != 1) { CAM_ERR(CAM_ISP, "Only user pointer is supported"); rc = -EINVAL; goto end; } if (cmd->data_size < sizeof(*acquire_hw_info)) { CAM_ERR(CAM_ISP, "data_size is not a valid value"); goto end; } acquire_hw_info = kzalloc(cmd->data_size, GFP_KERNEL); if (!acquire_hw_info) { rc = -ENOMEM; goto end; } CAM_DBG(CAM_ISP, "start copy resources from user"); if (copy_from_user(acquire_hw_info, (void __user *)cmd->resource_hdl, cmd->data_size)) { rc = -EFAULT; goto free_res; } memset(¶m, 0, sizeof(param)); param.context_data = ctx; param.event_cb = ctx->irq_cb_intf; param.num_acq = CAM_API_COMPAT_CONSTANT; param.acquire_info_size = cmd->data_size; param.acquire_info = (uint64_t) acquire_hw_info; param.mini_dump_cb = __cam_isp_ctx_minidump_cb; rc = __cam_isp_ctx_allocate_mem_hw_entries(ctx, ¶m); if (rc) { CAM_ERR(CAM_ISP, "Ctx[%d] allocate hw entry fail", ctx->ctx_id); goto free_res; } /* call HW manager to reserve the resource */ rc = ctx->hw_mgr_intf->hw_acquire(ctx->hw_mgr_intf->hw_mgr_priv, ¶m); if (rc != 0) { CAM_ERR(CAM_ISP, "Acquire device failed"); goto free_res; } ctx_isp->support_consumed_addr = (param.op_flags & CAM_IFE_CTX_FRAME_HEADER_EN); /* Query the context has rdi only resource */ hw_cmd_args.ctxt_to_hw_map = param.ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_CTX_TYPE; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "HW command failed"); goto free_hw; } if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_RDI) { /* * this context has rdi only resource assign rdi only * state machine */ CAM_DBG(CAM_ISP, "RDI only session Context"); ctx_isp->substate_machine_irq = cam_isp_ctx_rdi_only_activated_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_rdi_only_activated_state_machine; ctx_isp->rdi_only_context = true; } else if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_FS2) { CAM_DBG(CAM_ISP, "FS2 Session has PIX, RD and RDI"); ctx_isp->substate_machine_irq = cam_isp_ctx_fs2_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_fs2_state_machine; } else if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_OFFLINE) { CAM_DBG(CAM_ISP, "Offline session has PIX and RD resources"); ctx_isp->substate_machine_irq = cam_isp_ctx_offline_state_machine_irq; ctx_isp->substate_machine = NULL; } else { CAM_DBG(CAM_ISP, "Session has PIX or PIX and RDI resources"); ctx_isp->substate_machine_irq = cam_isp_ctx_activated_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_activated_state_machine; } ctx_isp->hw_ctx = param.ctxt_to_hw_map; ctx_isp->hw_acquired = true; ctx->ctxt_to_hw_map = param.ctxt_to_hw_map; atomic64_set(&ctx_isp->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx_isp->event_record_head[i], -1); trace_cam_context_state("ISP", ctx); CAM_DBG(CAM_ISP, "Acquire success on session_hdl 0x%xs ctx_type %d ctx_id %u", ctx->session_hdl, isp_hw_cmd_args.u.ctx_type, ctx->ctx_id); kfree(acquire_hw_info); return rc; free_hw: release.ctxt_to_hw_map = ctx_isp->hw_ctx; ctx->hw_mgr_intf->hw_release(ctx->hw_mgr_intf->hw_mgr_priv, &release); ctx_isp->hw_ctx = NULL; ctx_isp->hw_acquired = false; free_res: kfree(acquire_hw_info); end: return rc; } static void cam_req_mgr_process_workq_offline_ife_worker(struct work_struct *w) { cam_req_mgr_process_workq(w); } static int __cam_isp_ctx_acquire_hw_v2(struct cam_context *ctx, void *args) { int rc = 0, i, j; struct cam_acquire_hw_cmd_v2 *cmd = (struct cam_acquire_hw_cmd_v2 *)args; struct cam_hw_acquire_args param; struct cam_hw_release_args release; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; struct cam_isp_acquire_hw_info *acquire_hw_info = NULL; if (!ctx->hw_mgr_intf) { CAM_ERR(CAM_ISP, "HW interface is not ready"); rc = -EFAULT; goto end; } CAM_DBG(CAM_ISP, "session_hdl 0x%x, hdl type %d, res %lld", cmd->session_handle, cmd->handle_type, cmd->resource_hdl); /* for now we only support user pointer */ if (cmd->handle_type != 1) { CAM_ERR(CAM_ISP, "Only user pointer is supported"); rc = -EINVAL; goto end; } if (cmd->data_size < sizeof(*acquire_hw_info)) { CAM_ERR(CAM_ISP, "data_size is not a valid value"); goto end; } acquire_hw_info = kzalloc(cmd->data_size, GFP_KERNEL); if (!acquire_hw_info) { rc = -ENOMEM; goto end; } CAM_DBG(CAM_ISP, "start copy resources from user"); if (copy_from_user(acquire_hw_info, (void __user *)cmd->resource_hdl, cmd->data_size)) { rc = -EFAULT; goto free_res; } memset(¶m, 0, sizeof(param)); param.context_data = ctx; param.event_cb = ctx->irq_cb_intf; param.num_acq = CAM_API_COMPAT_CONSTANT; param.acquire_info_size = cmd->data_size; param.acquire_info = (uint64_t) acquire_hw_info; param.mini_dump_cb = __cam_isp_ctx_minidump_cb; /* call HW manager to reserve the resource */ rc = ctx->hw_mgr_intf->hw_acquire(ctx->hw_mgr_intf->hw_mgr_priv, ¶m); if (rc != 0) { CAM_ERR(CAM_ISP, "Acquire device failed"); goto free_res; } rc = __cam_isp_ctx_allocate_mem_hw_entries(ctx, ¶m); if (rc) { CAM_ERR(CAM_ISP, "Ctx[%d] allocate hw entry fail", ctx->ctx_id); goto free_hw; } /* * Set feature flag if applicable * custom hw is supported only on v2 */ ctx_isp->custom_enabled = (param.op_flags & CAM_IFE_CTX_CUSTOM_EN); ctx_isp->use_frame_header_ts = (param.op_flags & CAM_IFE_CTX_FRAME_HEADER_EN); ctx_isp->use_default_apply = (param.op_flags & CAM_IFE_CTX_APPLY_DEFAULT_CFG); ctx_isp->support_consumed_addr = (param.op_flags & CAM_IFE_CTX_CONSUME_ADDR_EN); ctx_isp->aeb_enabled = (param.op_flags & CAM_IFE_CTX_AEB_EN); /* Query the context has rdi only resource */ hw_cmd_args.ctxt_to_hw_map = param.ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_CTX_TYPE; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "HW command failed"); goto free_hw; } if (param.valid_acquired_hw) { for (i = 0; i < CAM_MAX_ACQ_RES; i++) cmd->hw_info.acquired_hw_id[i] = param.acquired_hw_id[i]; for (i = 0; i < CAM_MAX_ACQ_RES; i++) for (j = 0; j < CAM_MAX_HW_SPLIT; j++) cmd->hw_info.acquired_hw_path[i][j] = param.acquired_hw_path[i][j]; } cmd->hw_info.valid_acquired_hw = param.valid_acquired_hw; cmd->hw_info.valid_acquired_hw = param.valid_acquired_hw; if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_RDI) { /* * this context has rdi only resource assign rdi only * state machine */ CAM_DBG(CAM_ISP, "RDI only session Context"); ctx_isp->substate_machine_irq = cam_isp_ctx_rdi_only_activated_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_rdi_only_activated_state_machine; ctx_isp->rdi_only_context = true; } else if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_FS2) { CAM_DBG(CAM_ISP, "FS2 Session has PIX, RD and RDI"); ctx_isp->substate_machine_irq = cam_isp_ctx_fs2_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_fs2_state_machine; } else if (isp_hw_cmd_args.u.ctx_type == CAM_ISP_CTX_OFFLINE) { CAM_DBG(CAM_ISP, "Offline Session has PIX and RD resources"); ctx_isp->substate_machine_irq = cam_isp_ctx_offline_state_machine_irq; ctx_isp->substate_machine = NULL; ctx_isp->offline_context = true; rc = cam_req_mgr_workq_create("offline_ife", 20, &ctx_isp->workq, CRM_WORKQ_USAGE_IRQ, 0, cam_req_mgr_process_workq_offline_ife_worker); if (rc) CAM_ERR(CAM_ISP, "Failed to create workq for offline IFE rc:%d", rc); } else { CAM_DBG(CAM_ISP, "Session has PIX or PIX and RDI resources"); ctx_isp->substate_machine_irq = cam_isp_ctx_activated_state_machine_irq; ctx_isp->substate_machine = cam_isp_ctx_activated_state_machine; } ctx_isp->hw_ctx = param.ctxt_to_hw_map; ctx_isp->hw_acquired = true; ctx->ctxt_to_hw_map = param.ctxt_to_hw_map; trace_cam_context_state("ISP", ctx); CAM_DBG(CAM_ISP, "Acquire success on session_hdl 0x%xs ctx_type %d ctx_id %u", ctx->session_hdl, isp_hw_cmd_args.u.ctx_type, ctx->ctx_id); kfree(acquire_hw_info); return rc; free_hw: release.ctxt_to_hw_map = ctx_isp->hw_ctx; ctx->hw_mgr_intf->hw_release(ctx->hw_mgr_intf->hw_mgr_priv, &release); ctx_isp->hw_ctx = NULL; ctx_isp->hw_acquired = false; free_res: kfree(acquire_hw_info); end: return rc; } static int __cam_isp_ctx_acquire_hw_in_acquired(struct cam_context *ctx, void *args) { int rc = -EINVAL; uint32_t api_version; if (!ctx || !args) { CAM_ERR(CAM_ISP, "Invalid input pointer"); return rc; } api_version = *((uint32_t *)args); if (api_version == 1) rc = __cam_isp_ctx_acquire_hw_v1(ctx, args); else if (api_version == 2) rc = __cam_isp_ctx_acquire_hw_v2(ctx, args); else CAM_ERR(CAM_ISP, "Unsupported api version %d", api_version); return rc; } static int __cam_isp_ctx_config_dev_in_acquired(struct cam_context *ctx, struct cam_config_dev_cmd *cmd) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; if (!ctx_isp->hw_acquired) { CAM_ERR(CAM_ISP, "HW is not acquired, reject packet"); return -EINVAL; } rc = __cam_isp_ctx_config_dev_in_top_state(ctx, cmd); if (!rc && ((ctx->link_hdl >= 0) || ctx_isp->offline_context)) { ctx->state = CAM_CTX_READY; trace_cam_context_state("ISP", ctx); } CAM_DBG(CAM_ISP, "next state %d", ctx->state); return rc; } static int __cam_isp_ctx_config_dev_in_flushed(struct cam_context *ctx, struct cam_config_dev_cmd *cmd) { int rc = 0; struct cam_start_stop_dev_cmd start_cmd; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; if (!ctx_isp->hw_acquired) { CAM_ERR(CAM_ISP, "HW is not acquired, reject packet"); rc = -EINVAL; goto end; } rc = __cam_isp_ctx_config_dev_in_top_state(ctx, cmd); if (rc) goto end; if (!ctx_isp->init_received) { CAM_WARN(CAM_ISP, "Received update packet in flushed state, skip start"); goto end; } hw_cmd_args.ctxt_to_hw_map = ctx_isp->hw_ctx; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_RESUME_HW; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) { CAM_ERR(CAM_ISP, "Failed to resume HW rc: %d", rc); goto end; } start_cmd.dev_handle = cmd->dev_handle; start_cmd.session_handle = cmd->session_handle; rc = __cam_isp_ctx_start_dev_in_ready(ctx, &start_cmd); if (rc) CAM_ERR(CAM_ISP, "Failed to re-start HW after flush rc: %d", rc); else CAM_INFO(CAM_ISP, "Received init after flush. Re-start HW complete in ctx:%d", ctx->ctx_id); end: CAM_DBG(CAM_ISP, "next state %d sub_state:%d", ctx->state, ctx_isp->substate_activated); return rc; } static int __cam_isp_ctx_link_in_acquired(struct cam_context *ctx, struct cam_req_mgr_core_dev_link_setup *link) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_DBG(CAM_ISP, "Enter........."); ctx->link_hdl = link->link_hdl; ctx->ctx_crm_intf = link->crm_cb; ctx_isp->subscribe_event = CAM_TRIGGER_POINT_SOF | CAM_TRIGGER_POINT_EOF; ctx_isp->trigger_id = link->trigger_id; /* change state only if we had the init config */ if (ctx_isp->init_received) { ctx->state = CAM_CTX_READY; trace_cam_context_state("ISP", ctx); } CAM_DBG(CAM_ISP, "next state %d", ctx->state); return rc; } static int __cam_isp_ctx_unlink_in_acquired(struct cam_context *ctx, struct cam_req_mgr_core_dev_link_setup *unlink) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; ctx->link_hdl = -1; ctx->ctx_crm_intf = NULL; ctx_isp->trigger_id = -1; return rc; } static int __cam_isp_ctx_get_dev_info_in_acquired(struct cam_context *ctx, struct cam_req_mgr_device_info *dev_info) { int rc = 0; dev_info->dev_hdl = ctx->dev_hdl; strlcpy(dev_info->name, CAM_ISP_DEV_NAME, sizeof(dev_info->name)); dev_info->dev_id = CAM_REQ_MGR_DEVICE_IFE; dev_info->p_delay = 1; dev_info->trigger = CAM_TRIGGER_POINT_SOF; dev_info->trigger_on = true; return rc; } static int __cam_isp_ctx_start_dev_in_ready(struct cam_context *ctx, struct cam_start_stop_dev_cmd *cmd) { int rc = 0; int i; struct cam_isp_start_args start_isp; struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; if (cmd->session_handle != ctx->session_hdl || cmd->dev_handle != ctx->dev_hdl) { rc = -EPERM; goto end; } if (list_empty(&ctx->pending_req_list)) { /* should never happen */ CAM_ERR(CAM_ISP, "Start device with empty configuration"); rc = -EFAULT; goto end; } else { req = list_first_entry(&ctx->pending_req_list, struct cam_ctx_request, list); } req_isp = (struct cam_isp_ctx_req *) req->req_priv; if (!ctx_isp->hw_ctx) { CAM_ERR(CAM_ISP, "Wrong hw context pointer."); rc = -EFAULT; goto end; } start_isp.hw_config.ctxt_to_hw_map = ctx_isp->hw_ctx; start_isp.hw_config.request_id = req->request_id; start_isp.hw_config.hw_update_entries = req_isp->cfg; start_isp.hw_config.num_hw_update_entries = req_isp->num_cfg; start_isp.hw_config.priv = &req_isp->hw_update_data; start_isp.hw_config.init_packet = 1; start_isp.hw_config.reapply = 0; start_isp.hw_config.cdm_reset_before_apply = false; ctx_isp->last_applied_req_id = req->request_id; if (ctx->state == CAM_CTX_FLUSHED) start_isp.start_only = true; else start_isp.start_only = false; atomic_set(&ctx_isp->process_bubble, 0); atomic_set(&ctx_isp->rxd_epoch, 0); ctx_isp->frame_id = 0; ctx_isp->active_req_cnt = 0; ctx_isp->reported_req_id = 0; ctx_isp->bubble_frame_cnt = 0; ctx_isp->substate_activated = ctx_isp->rdi_only_context ? CAM_ISP_CTX_ACTIVATED_APPLIED : (req_isp->num_fence_map_out) ? CAM_ISP_CTX_ACTIVATED_EPOCH : CAM_ISP_CTX_ACTIVATED_SOF; atomic64_set(&ctx_isp->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx_isp->event_record_head[i], -1); /* * In case of CSID TPG we might receive SOF and RUP IRQs * before hw_mgr_intf->hw_start has returned. So move * req out of pending list before hw_start and add it * back to pending list if hw_start fails. */ list_del_init(&req->list); if (ctx_isp->offline_context && !req_isp->num_fence_map_out) { list_add_tail(&req->list, &ctx->free_req_list); atomic_set(&ctx_isp->rxd_epoch, 1); CAM_DBG(CAM_REQ, "Move pending req: %lld to free list(cnt: %d) offline ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } else if (ctx_isp->rdi_only_context || !req_isp->num_fence_map_out) { list_add_tail(&req->list, &ctx->wait_req_list); CAM_DBG(CAM_REQ, "Move pending req: %lld to wait list(cnt: %d) ctx %u", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id); } else { list_add_tail(&req->list, &ctx->active_req_list); ctx_isp->active_req_cnt++; CAM_DBG(CAM_REQ, "Move pending req: %lld to active list(cnt: %d) ctx %u offline %d", req->request_id, ctx_isp->active_req_cnt, ctx->ctx_id, ctx_isp->offline_context); } /* * Only place to change state before calling the hw due to * hardware tasklet has higher priority that can cause the * irq handling comes early */ ctx->state = CAM_CTX_ACTIVATED; trace_cam_context_state("ISP", ctx); rc = ctx->hw_mgr_intf->hw_start(ctx->hw_mgr_intf->hw_mgr_priv, &start_isp); if (rc) { /* HW failure. user need to clean up the resource */ CAM_ERR(CAM_ISP, "Start HW failed"); ctx->state = CAM_CTX_READY; if ((rc == -ETIMEDOUT) && (isp_ctx_debug.enable_cdm_cmd_buff_dump)) rc = cam_isp_ctx_dump_req(req_isp, 0, 0, NULL, false); trace_cam_context_state("ISP", ctx); list_del_init(&req->list); list_add(&req->list, &ctx->pending_req_list); goto end; } CAM_DBG(CAM_ISP, "start device success ctx %u", ctx->ctx_id); end: return rc; } static int __cam_isp_ctx_unlink_in_ready(struct cam_context *ctx, struct cam_req_mgr_core_dev_link_setup *unlink) { int rc = 0; ctx->link_hdl = -1; ctx->ctx_crm_intf = NULL; ctx->state = CAM_CTX_ACQUIRED; trace_cam_context_state("ISP", ctx); return rc; } static int __cam_isp_ctx_stop_dev_in_activated_unlock( struct cam_context *ctx, struct cam_start_stop_dev_cmd *stop_cmd) { int rc = 0; uint32_t i; struct cam_hw_stop_args stop; struct cam_ctx_request *req; struct cam_isp_ctx_req *req_isp; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; struct cam_isp_stop_args stop_isp; /* Mask off all the incoming hardware events */ spin_lock_bh(&ctx->lock); ctx_isp->substate_activated = CAM_ISP_CTX_ACTIVATED_HALT; spin_unlock_bh(&ctx->lock); /* stop hw first */ if (ctx_isp->hw_ctx) { stop.ctxt_to_hw_map = ctx_isp->hw_ctx; stop_isp.hw_stop_cmd = CAM_ISP_HW_STOP_IMMEDIATELY; stop_isp.stop_only = false; stop.args = (void *) &stop_isp; ctx->hw_mgr_intf->hw_stop(ctx->hw_mgr_intf->hw_mgr_priv, &stop); } CAM_DBG(CAM_ISP, "next Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); if (ctx->ctx_crm_intf && ctx->ctx_crm_intf->notify_stop) { struct cam_req_mgr_notify_stop notify; notify.link_hdl = ctx->link_hdl; CAM_DBG(CAM_ISP, "Notify CRM about device stop ctx %u link 0x%x", ctx->ctx_id, ctx->link_hdl); ctx->ctx_crm_intf->notify_stop(¬ify); } else if (!ctx_isp->offline_context) CAM_ERR(CAM_ISP, "cb not present"); while (!list_empty(&ctx->pending_req_list)) { req = list_first_entry(&ctx->pending_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; CAM_DBG(CAM_ISP, "signal fence in pending list. fence num %d", req_isp->num_fence_map_out); for (i = 0; i < req_isp->num_fence_map_out; i++) if (req_isp->fence_map_out[i].sync_id != -1) { cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_CANCEL, CAM_SYNC_ISP_EVENT_HW_STOP); } list_add_tail(&req->list, &ctx->free_req_list); } while (!list_empty(&ctx->wait_req_list)) { req = list_first_entry(&ctx->wait_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; CAM_DBG(CAM_ISP, "signal fence in wait list. fence num %d", req_isp->num_fence_map_out); for (i = 0; i < req_isp->num_fence_map_out; i++) if (req_isp->fence_map_out[i].sync_id != -1) { cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_CANCEL, CAM_SYNC_ISP_EVENT_HW_STOP); } list_add_tail(&req->list, &ctx->free_req_list); } while (!list_empty(&ctx->active_req_list)) { req = list_first_entry(&ctx->active_req_list, struct cam_ctx_request, list); list_del_init(&req->list); req_isp = (struct cam_isp_ctx_req *) req->req_priv; CAM_DBG(CAM_ISP, "signal fence in active list. fence num %d", req_isp->num_fence_map_out); for (i = 0; i < req_isp->num_fence_map_out; i++) if (req_isp->fence_map_out[i].sync_id != -1) { cam_sync_signal( req_isp->fence_map_out[i].sync_id, CAM_SYNC_STATE_SIGNALED_CANCEL, CAM_SYNC_ISP_EVENT_HW_STOP); } list_add_tail(&req->list, &ctx->free_req_list); } ctx_isp->frame_id = 0; ctx_isp->active_req_cnt = 0; ctx_isp->reported_req_id = 0; ctx_isp->last_applied_req_id = 0; ctx_isp->req_info.last_bufdone_req_id = 0; ctx_isp->bubble_frame_cnt = 0; atomic_set(&ctx_isp->process_bubble, 0); atomic_set(&ctx_isp->rxd_epoch, 0); atomic64_set(&ctx_isp->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx_isp->event_record_head[i], -1); CAM_DBG(CAM_ISP, "Stop device success next state %d on ctx %u", ctx->state, ctx->ctx_id); if (!stop_cmd) { rc = __cam_isp_ctx_unlink_in_ready(ctx, NULL); if (rc) CAM_ERR(CAM_ISP, "Unlink failed rc=%d", rc); } return rc; } static int __cam_isp_ctx_stop_dev_in_activated(struct cam_context *ctx, struct cam_start_stop_dev_cmd *cmd) { int rc = 0; struct cam_isp_context *ctx_isp = (struct cam_isp_context *)ctx->ctx_priv; __cam_isp_ctx_stop_dev_in_activated_unlock(ctx, cmd); ctx_isp->init_received = false; ctx->state = CAM_CTX_ACQUIRED; trace_cam_context_state("ISP", ctx); return rc; } static int __cam_isp_ctx_release_dev_in_activated(struct cam_context *ctx, struct cam_release_dev_cmd *cmd) { int rc = 0; rc = __cam_isp_ctx_stop_dev_in_activated_unlock(ctx, NULL); if (rc) CAM_ERR(CAM_ISP, "Stop device failed rc=%d", rc); rc = __cam_isp_ctx_release_dev_in_top_state(ctx, cmd); if (rc) CAM_ERR(CAM_ISP, "Release device failed rc=%d", rc); return rc; } static int __cam_isp_ctx_release_hw_in_activated(struct cam_context *ctx, void *cmd) { int rc = 0; rc = __cam_isp_ctx_stop_dev_in_activated_unlock(ctx, NULL); if (rc) CAM_ERR(CAM_ISP, "Stop device failed rc=%d", rc); rc = __cam_isp_ctx_release_hw_in_top_state(ctx, cmd); if (rc) CAM_ERR(CAM_ISP, "Release hw failed rc=%d", rc); return rc; } static int __cam_isp_ctx_link_pause(struct cam_context *ctx) { int rc = 0; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; hw_cmd_args.ctxt_to_hw_map = ctx->ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_PAUSE_HW; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); return rc; } static int __cam_isp_ctx_link_resume(struct cam_context *ctx) { int rc = 0; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; hw_cmd_args.ctxt_to_hw_map = ctx->ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_RESUME_HW; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); return rc; } static int __cam_isp_ctx_handle_sof_freeze_evt( struct cam_context *ctx) { int rc = 0; struct cam_hw_cmd_args hw_cmd_args; struct cam_isp_hw_cmd_args isp_hw_cmd_args; hw_cmd_args.ctxt_to_hw_map = ctx->ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_INTERNAL; isp_hw_cmd_args.cmd_type = CAM_ISP_HW_MGR_CMD_SOF_DEBUG; isp_hw_cmd_args.u.sof_irq_enable = 1; hw_cmd_args.u.internal_args = (void *)&isp_hw_cmd_args; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); return rc; } static int __cam_isp_ctx_trigger_reg_dump( struct cam_context *ctx, struct cam_req_mgr_link_evt_data *link_evt_data) { int rc = 0; struct cam_hw_cmd_args hw_cmd_args; if (ctx->state != CAM_CTX_ACTIVATED) { CAM_WARN(CAM_ISP, "Reg dump on stalled link: 0x%x not supported in state: %d", link_evt_data->link_hdl, ctx->state); return 0; } /* * If RT pipeline is stuck, dump IFE registers on * CRM notification */ hw_cmd_args.ctxt_to_hw_map = ctx->ctxt_to_hw_map; hw_cmd_args.cmd_type = CAM_HW_MGR_CMD_REG_DUMP_ON_ERROR; rc = ctx->hw_mgr_intf->hw_cmd(ctx->hw_mgr_intf->hw_mgr_priv, &hw_cmd_args); if (rc) CAM_ERR(CAM_ISP, "Reg dump on error failed rc: %d", rc); return rc; } static int __cam_isp_ctx_process_evt(struct cam_context *ctx, struct cam_req_mgr_link_evt_data *link_evt_data) { switch (link_evt_data->evt_type) { case CAM_REQ_MGR_LINK_EVT_ERR: /* No handling */ return 0; case CAM_REQ_MGR_LINK_EVT_PAUSE: return __cam_isp_ctx_link_pause(ctx); case CAM_REQ_MGR_LINK_EVT_RESUME: return __cam_isp_ctx_link_resume(ctx); case CAM_REQ_MGR_LINK_EVT_SOF_FREEZE: return __cam_isp_ctx_handle_sof_freeze_evt(ctx); case CAM_REQ_MGR_LINK_EVT_STALLED: return __cam_isp_ctx_trigger_reg_dump(ctx, link_evt_data); default: CAM_WARN(CAM_ISP, "Unsupported event type: 0x%x", link_evt_data->evt_type); return -EINVAL; } } static int __cam_isp_ctx_unlink_in_activated(struct cam_context *ctx, struct cam_req_mgr_core_dev_link_setup *unlink) { int rc = 0; CAM_WARN(CAM_ISP, "Received unlink in activated state. It's unexpected"); rc = __cam_isp_ctx_stop_dev_in_activated_unlock(ctx, NULL); if (rc) CAM_WARN(CAM_ISP, "Stop device failed rc=%d", rc); rc = __cam_isp_ctx_unlink_in_ready(ctx, unlink); if (rc) CAM_ERR(CAM_ISP, "Unlink failed rc=%d", rc); return rc; } static int __cam_isp_ctx_apply_req(struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_ctx_ops *ctx_ops = NULL; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; trace_cam_apply_req("ISP", ctx->ctx_id, apply->request_id, apply->link_hdl); CAM_DBG(CAM_ISP, "Enter: apply req in Substate[%s] request_id:%lld", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), apply->request_id); ctx_ops = &ctx_isp->substate_machine[ctx_isp->substate_activated]; if (ctx_ops->crm_ops.apply_req) { rc = ctx_ops->crm_ops.apply_req(ctx, apply); } else { CAM_WARN_RATE_LIMIT(CAM_ISP, "No handle function in activated Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); rc = -EFAULT; } if (rc) CAM_WARN_RATE_LIMIT(CAM_ISP, "Apply failed in active Substate[%s] rc %d", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), rc); return rc; } static int __cam_isp_ctx_apply_default_settings( struct cam_context *ctx, struct cam_req_mgr_apply_request *apply) { int rc = 0; struct cam_ctx_ops *ctx_ops = NULL; struct cam_isp_context *ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; if (!ctx_isp->use_default_apply) return 0; CAM_DBG(CAM_ISP, "Enter: apply req in Substate %d request _id:%lld", ctx_isp->substate_activated, apply->request_id); ctx_ops = &ctx_isp->substate_machine[ ctx_isp->substate_activated]; if (ctx_ops->crm_ops.notify_frame_skip) { rc = ctx_ops->crm_ops.notify_frame_skip(ctx, apply); } else { CAM_WARN_RATE_LIMIT(CAM_ISP, "No handle function in activated substate %d", ctx_isp->substate_activated); rc = -EFAULT; } if (rc) CAM_WARN_RATE_LIMIT(CAM_ISP, "Apply default failed in active substate %d rc %d", ctx_isp->substate_activated, rc); return rc; } static int __cam_isp_ctx_handle_irq_in_activated(void *context, uint32_t evt_id, void *evt_data) { int rc = 0; struct cam_isp_ctx_irq_ops *irq_ops = NULL; struct cam_context *ctx = (struct cam_context *)context; struct cam_isp_context *ctx_isp = (struct cam_isp_context *)ctx->ctx_priv; spin_lock(&ctx->lock); /* * In case of custom AEB ensure first exposure frame has * not moved forward with its settings without second/third * expoure frame coming in. If this scenario occurs flag as error, * and recover */ if ((ctx_isp->aeb_enabled) && (evt_id == CAM_ISP_HW_EVENT_SOF)) { bool is_secondary_evt = ((struct cam_isp_hw_sof_event_data *)evt_data)->is_secondary_evt; if (is_secondary_evt) { if ((ctx_isp->substate_activated == CAM_ISP_CTX_ACTIVATED_APPLIED) || (ctx_isp->substate_activated == CAM_ISP_CTX_ACTIVATED_BUBBLE_APPLIED)) { CAM_ERR(CAM_ISP, "AEB settings mismatch between exposures - needs a reset"); rc = -EAGAIN; } goto end; } } trace_cam_isp_activated_irq(ctx, ctx_isp->substate_activated, evt_id, __cam_isp_ctx_get_event_ts(evt_id, evt_data)); CAM_DBG(CAM_ISP, "Enter: State %d, Substate[%s], evt id %d", ctx->state, __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated), evt_id); irq_ops = &ctx_isp->substate_machine_irq[ctx_isp->substate_activated]; if (irq_ops->irq_ops[evt_id]) { rc = irq_ops->irq_ops[evt_id](ctx_isp, evt_data); } else { CAM_DBG(CAM_ISP, "No handle function for Substate[%s]", __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); if (isp_ctx_debug.enable_state_monitor_dump) __cam_isp_ctx_dump_state_monitor_array(ctx_isp); } CAM_DBG(CAM_ISP, "Exit: State %d Substate[%s]", ctx->state, __cam_isp_ctx_substate_val_to_type( ctx_isp->substate_activated)); end: spin_unlock(&ctx->lock); return rc; } /* top state machine */ static struct cam_ctx_ops cam_isp_ctx_top_state_machine[CAM_CTX_STATE_MAX] = { /* Uninit */ { .ioctl_ops = {}, .crm_ops = {}, .irq_ops = NULL, }, /* Available */ { .ioctl_ops = { .acquire_dev = __cam_isp_ctx_acquire_dev_in_available, }, .crm_ops = {}, .irq_ops = NULL, }, /* Acquired */ { .ioctl_ops = { .acquire_hw = __cam_isp_ctx_acquire_hw_in_acquired, .release_dev = __cam_isp_ctx_release_dev_in_top_state, .config_dev = __cam_isp_ctx_config_dev_in_acquired, .flush_dev = __cam_isp_ctx_flush_dev_in_top_state, .release_hw = __cam_isp_ctx_release_hw_in_top_state, }, .crm_ops = { .link = __cam_isp_ctx_link_in_acquired, .unlink = __cam_isp_ctx_unlink_in_acquired, .get_dev_info = __cam_isp_ctx_get_dev_info_in_acquired, .flush_req = __cam_isp_ctx_flush_req_in_top_state, .dump_req = __cam_isp_ctx_dump_in_top_state, }, .irq_ops = NULL, .pagefault_ops = cam_isp_context_dump_requests, .dumpinfo_ops = cam_isp_context_info_dump, }, /* Ready */ { .ioctl_ops = { .start_dev = __cam_isp_ctx_start_dev_in_ready, .release_dev = __cam_isp_ctx_release_dev_in_top_state, .config_dev = __cam_isp_ctx_config_dev_in_top_state, .flush_dev = __cam_isp_ctx_flush_dev_in_top_state, .release_hw = __cam_isp_ctx_release_hw_in_top_state, }, .crm_ops = { .unlink = __cam_isp_ctx_unlink_in_ready, .flush_req = __cam_isp_ctx_flush_req_in_ready, .dump_req = __cam_isp_ctx_dump_in_top_state, }, .irq_ops = NULL, .pagefault_ops = cam_isp_context_dump_requests, .dumpinfo_ops = cam_isp_context_info_dump, }, /* Flushed */ { .ioctl_ops = { .stop_dev = __cam_isp_ctx_stop_dev_in_activated, .release_dev = __cam_isp_ctx_release_dev_in_activated, .config_dev = __cam_isp_ctx_config_dev_in_flushed, .release_hw = __cam_isp_ctx_release_hw_in_activated, }, .crm_ops = { .unlink = __cam_isp_ctx_unlink_in_ready, .process_evt = __cam_isp_ctx_process_evt, }, .irq_ops = NULL, .pagefault_ops = cam_isp_context_dump_requests, .dumpinfo_ops = cam_isp_context_info_dump, }, /* Activated */ { .ioctl_ops = { .stop_dev = __cam_isp_ctx_stop_dev_in_activated, .release_dev = __cam_isp_ctx_release_dev_in_activated, .config_dev = __cam_isp_ctx_config_dev_in_top_state, .flush_dev = __cam_isp_ctx_flush_dev_in_top_state, .release_hw = __cam_isp_ctx_release_hw_in_activated, }, .crm_ops = { .unlink = __cam_isp_ctx_unlink_in_activated, .apply_req = __cam_isp_ctx_apply_req, .notify_frame_skip = __cam_isp_ctx_apply_default_settings, .flush_req = __cam_isp_ctx_flush_req_in_top_state, .process_evt = __cam_isp_ctx_process_evt, .dump_req = __cam_isp_ctx_dump_in_top_state, }, .irq_ops = __cam_isp_ctx_handle_irq_in_activated, .pagefault_ops = cam_isp_context_dump_requests, .dumpinfo_ops = cam_isp_context_info_dump, .recovery_ops = cam_isp_context_hw_recovery, }, }; static int cam_isp_context_hw_recovery(void *priv, void *data) { struct cam_context *ctx = priv; int rc = -EPERM; if (ctx->hw_mgr_intf->hw_recovery) rc = ctx->hw_mgr_intf->hw_recovery(ctx->hw_mgr_intf->hw_mgr_priv, data); else CAM_ERR(CAM_ISP, "hw mgr doesn't support recovery"); return rc; } static int cam_isp_context_dump_requests(void *data, struct cam_smmu_pf_info *pf_info) { struct cam_context *ctx = (struct cam_context *)data; struct cam_ctx_request *req = NULL; struct cam_ctx_request *req_temp = NULL; struct cam_isp_ctx_req *req_isp = NULL; struct cam_isp_prepare_hw_update_data *hw_update_data = NULL; struct cam_hw_mgr_dump_pf_data *pf_dbg_entry = NULL; struct cam_req_mgr_message req_msg = {0}; struct cam_isp_context *ctx_isp; uint32_t resource_type = 0; bool mem_found = false, ctx_found = false, send_error = false; int rc = 0; struct cam_isp_context *isp_ctx = (struct cam_isp_context *)ctx->ctx_priv; if (!isp_ctx) { CAM_ERR(CAM_ISP, "Invalid isp ctx"); return -EINVAL; } CAM_INFO(CAM_ISP, "iommu fault handler for isp ctx %d state %d", ctx->ctx_id, ctx->state); list_for_each_entry_safe(req, req_temp, &ctx->active_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; hw_update_data = &req_isp->hw_update_data; pf_dbg_entry = &(req->pf_data); CAM_INFO(CAM_ISP, "Active List: req_id : %lld ", req->request_id); rc = cam_context_dump_pf_info_to_hw(ctx, pf_dbg_entry, &mem_found, &ctx_found, &resource_type, pf_info); if (rc) CAM_ERR(CAM_ISP, "Failed to dump pf info"); if (ctx_found) send_error = true; } CAM_INFO(CAM_ISP, "Iterating over wait_list of isp ctx %d state %d", ctx->ctx_id, ctx->state); list_for_each_entry_safe(req, req_temp, &ctx->wait_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; hw_update_data = &req_isp->hw_update_data; pf_dbg_entry = &(req->pf_data); CAM_INFO(CAM_ISP, "Wait List: req_id : %lld ", req->request_id); rc = cam_context_dump_pf_info_to_hw(ctx, pf_dbg_entry, &mem_found, &ctx_found, &resource_type, pf_info); if (rc) CAM_ERR(CAM_ISP, "Failed to dump pf info"); if (ctx_found) send_error = true; } /* * In certain scenarios we observe both overflow and SMMU pagefault * for a particular request. If overflow is handled before page fault * we need to traverse through pending request list because if * bubble recovery is enabled on any request we move that request * and all the subsequent requests to the pending list while handling * overflow error. */ CAM_INFO(CAM_ISP, "Iterating over pending req list of isp ctx %d state %d", ctx->ctx_id, ctx->state); list_for_each_entry_safe(req, req_temp, &ctx->pending_req_list, list) { req_isp = (struct cam_isp_ctx_req *) req->req_priv; hw_update_data = &req_isp->hw_update_data; pf_dbg_entry = &(req->pf_data); CAM_INFO(CAM_ISP, "Pending List: req_id : %lld ", req->request_id); rc = cam_context_dump_pf_info_to_hw(ctx, pf_dbg_entry, &mem_found, &ctx_found, &resource_type, pf_info); if (rc) CAM_ERR(CAM_ISP, "Failed to dump pf info"); if (ctx_found) send_error = true; } if (resource_type) { ctx_isp = (struct cam_isp_context *) ctx->ctx_priv; CAM_ERR(CAM_ISP, "Page fault on resource:%s (0x%x) ctx id:%d frame id:%d reported id:%lld applied id:%lld", __cam_isp_resource_handle_id_to_type( ctx_isp->isp_device_type, resource_type), resource_type, ctx->ctx_id, ctx_isp->frame_id, ctx_isp->reported_req_id, ctx_isp->last_applied_req_id); } if (send_error) { CAM_INFO(CAM_ISP, "page fault notifying to umd ctx %u session_hdl:%d device_hdl:%d link_hdl:%d", ctx->ctx_id, ctx->session_hdl, ctx->dev_hdl, ctx->link_hdl); req_msg.session_hdl = ctx->session_hdl; req_msg.u.err_msg.device_hdl = ctx->dev_hdl; req_msg.u.err_msg.error_type = CAM_REQ_MGR_ERROR_TYPE_PAGE_FAULT; req_msg.u.err_msg.link_hdl = ctx->link_hdl; req_msg.u.err_msg.request_id = 0; req_msg.u.err_msg.resource_size = 0x0; req_msg.u.err_msg.error_code = CAM_REQ_MGR_ISP_UNREPORTED_ERROR; if (cam_req_mgr_notify_message(&req_msg, V4L_EVENT_CAM_REQ_MGR_ERROR, V4L_EVENT_CAM_REQ_MGR_EVENT)) CAM_ERR(CAM_ISP, "could not send page fault notification ctx %u session_hdl:%d device_hdl:%d link_hdl:%d", ctx->ctx_id, ctx->session_hdl, ctx->dev_hdl, ctx->link_hdl); } return rc; } static int cam_isp_context_debug_register(void) { int rc = 0; struct dentry *dbgfileptr = NULL; dbgfileptr = debugfs_create_dir("camera_isp_ctx", NULL); if (!dbgfileptr) { CAM_ERR(CAM_ISP, "DebugFS could not create directory!"); rc = -ENOENT; goto end; } /* Store parent inode for cleanup in caller */ isp_ctx_debug.dentry = dbgfileptr; debugfs_create_u32("enable_state_monitor_dump", 0644, isp_ctx_debug.dentry, &isp_ctx_debug.enable_state_monitor_dump); debugfs_create_u8("enable_cdm_cmd_buffer_dump", 0644, isp_ctx_debug.dentry, &isp_ctx_debug.enable_cdm_cmd_buff_dump); if (IS_ERR(dbgfileptr)) { if (PTR_ERR(dbgfileptr) == -ENODEV) CAM_WARN(CAM_ISP, "DebugFS not enabled in kernel!"); else rc = PTR_ERR(dbgfileptr); } end: return rc; } int cam_isp_context_init(struct cam_isp_context *ctx, struct cam_context *ctx_base, struct cam_req_mgr_kmd_ops *crm_node_intf, struct cam_hw_mgr_intf *hw_intf, uint32_t ctx_id, uint32_t isp_device_type, int img_iommu_hdl) { int rc = -1; int i; if (!ctx || !ctx_base) { CAM_ERR(CAM_ISP, "Invalid Context"); goto err; } /* ISP context setup */ memset(ctx, 0, sizeof(*ctx)); ctx->base = ctx_base; ctx->frame_id = 0; ctx->custom_enabled = false; ctx->use_frame_header_ts = false; ctx->use_default_apply = false; ctx->active_req_cnt = 0; ctx->reported_req_id = 0; ctx->bubble_frame_cnt = 0; ctx->req_info.last_bufdone_req_id = 0; ctx->hw_ctx = NULL; ctx->substate_activated = CAM_ISP_CTX_ACTIVATED_SOF; ctx->substate_machine = cam_isp_ctx_activated_state_machine; ctx->substate_machine_irq = cam_isp_ctx_activated_state_machine_irq; ctx->init_timestamp = jiffies_to_msecs(jiffies); ctx->isp_device_type = isp_device_type; for (i = 0; i < CAM_ISP_CTX_REQ_MAX; i++) { ctx->req_base[i].req_priv = &ctx->req_isp[i]; ctx->req_isp[i].base = &ctx->req_base[i]; } /* camera context setup */ rc = cam_context_init(ctx_base, isp_dev_name, CAM_ISP, ctx_id, crm_node_intf, hw_intf, ctx->req_base, CAM_ISP_CTX_REQ_MAX, img_iommu_hdl); if (rc) { CAM_ERR(CAM_ISP, "Camera Context Base init failed"); goto err; } /* link camera context with isp context */ ctx_base->state_machine = cam_isp_ctx_top_state_machine; ctx_base->ctx_priv = ctx; /* initializing current state for error logging */ for (i = 0; i < CAM_ISP_CTX_STATE_MONITOR_MAX_ENTRIES; i++) { ctx->cam_isp_ctx_state_monitor[i].curr_state = CAM_ISP_CTX_ACTIVATED_MAX; } atomic64_set(&ctx->state_monitor_head, -1); for (i = 0; i < CAM_ISP_CTX_EVENT_MAX; i++) atomic64_set(&ctx->event_record_head[i], -1); if (!isp_ctx_debug.dentry) cam_isp_context_debug_register(); err: return rc; } int cam_isp_context_deinit(struct cam_isp_context *ctx) { if (ctx->base) cam_context_deinit(ctx->base); if (ctx->substate_activated != CAM_ISP_CTX_ACTIVATED_SOF) CAM_ERR(CAM_ISP, "ISP context Substate[%s] is invalid", __cam_isp_ctx_substate_val_to_type( ctx->substate_activated)); debugfs_remove_recursive(isp_ctx_debug.dentry); isp_ctx_debug.dentry = NULL; memset(ctx, 0, sizeof(*ctx)); return 0; }