// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2022-2024 Qualcomm Innovation Center, Inc. All rights reserved. */ #include #include "iris_hfi_gen2.h" #include "iris_hfi_gen2_defines.h" #include "iris_hfi_gen2_packet.h" #include "iris_vdec.h" #include "iris_vpu_buffer.h" #include "iris_vpu_common.h" struct iris_hfi_gen2_core_hfi_range { u32 begin; u32 end; int (*handle)(struct iris_core *core, struct iris_hfi_packet *pkt); }; struct iris_hfi_gen2_inst_hfi_range { u32 begin; u32 end; int (*handle)(struct iris_inst *inst, struct iris_hfi_packet *pkt); }; struct iris_hfi_gen2_packet_handle { enum hfi_buffer_type type; int (*handle)(struct iris_inst *inst, struct iris_hfi_packet *pkt); }; static u32 iris_hfi_gen2_buf_type_to_driver(enum hfi_buffer_type buf_type) { switch (buf_type) { case HFI_BUFFER_BITSTREAM: return BUF_INPUT; case HFI_BUFFER_RAW: return BUF_OUTPUT; case HFI_BUFFER_BIN: return BUF_BIN; case HFI_BUFFER_ARP: return BUF_ARP; case HFI_BUFFER_COMV: return BUF_COMV; case HFI_BUFFER_NON_COMV: return BUF_NON_COMV; case HFI_BUFFER_LINE: return BUF_LINE; case HFI_BUFFER_DPB: return BUF_DPB; case HFI_BUFFER_PERSIST: return BUF_PERSIST; default: return 0; } } static bool iris_hfi_gen2_is_valid_hfi_buffer_type(u32 buffer_type) { switch (buffer_type) { case HFI_BUFFER_BITSTREAM: case HFI_BUFFER_RAW: case HFI_BUFFER_BIN: case HFI_BUFFER_ARP: case HFI_BUFFER_COMV: case HFI_BUFFER_NON_COMV: case HFI_BUFFER_LINE: case HFI_BUFFER_DPB: case HFI_BUFFER_PERSIST: case HFI_BUFFER_VPSS: return true; default: return false; } } static bool iris_hfi_gen2_is_valid_hfi_port(u32 port, u32 buffer_type) { if (port == HFI_PORT_NONE && buffer_type != HFI_BUFFER_PERSIST) return false; if (port != HFI_PORT_BITSTREAM && port != HFI_PORT_RAW) return false; return true; } static int iris_hfi_gen2_get_driver_buffer_flags(struct iris_inst *inst, u32 hfi_flags) { u32 keyframe = HFI_PICTURE_IDR | HFI_PICTURE_I | HFI_PICTURE_CRA | HFI_PICTURE_BLA; struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 driver_flags = 0; if (inst_hfi_gen2->hfi_frame_info.picture_type & keyframe) driver_flags |= V4L2_BUF_FLAG_KEYFRAME; else if (inst_hfi_gen2->hfi_frame_info.picture_type & HFI_PICTURE_P) driver_flags |= V4L2_BUF_FLAG_PFRAME; else if (inst_hfi_gen2->hfi_frame_info.picture_type & HFI_PICTURE_B) driver_flags |= V4L2_BUF_FLAG_BFRAME; if (inst_hfi_gen2->hfi_frame_info.data_corrupt || inst_hfi_gen2->hfi_frame_info.overflow) driver_flags |= V4L2_BUF_FLAG_ERROR; if (hfi_flags & HFI_BUF_FW_FLAG_LAST || hfi_flags & HFI_BUF_FW_FLAG_PSC_LAST) driver_flags |= V4L2_BUF_FLAG_LAST; return driver_flags; } static bool iris_hfi_gen2_validate_packet_payload(struct iris_hfi_packet *pkt) { u32 payload_size = 0; switch (pkt->payload_info) { case HFI_PAYLOAD_U32: case HFI_PAYLOAD_S32: case HFI_PAYLOAD_Q16: case HFI_PAYLOAD_U32_ENUM: case HFI_PAYLOAD_32_PACKED: payload_size = 4; break; case HFI_PAYLOAD_U64: case HFI_PAYLOAD_S64: case HFI_PAYLOAD_64_PACKED: payload_size = 8; break; case HFI_PAYLOAD_STRUCTURE: if (pkt->type == HFI_CMD_BUFFER) payload_size = sizeof(struct iris_hfi_buffer); break; default: payload_size = 0; break; } if (pkt->size < sizeof(struct iris_hfi_packet) + payload_size) return false; return true; } static int iris_hfi_gen2_validate_packet(u8 *response_pkt, u8 *core_resp_pkt) { u8 *response_limit = core_resp_pkt + IFACEQ_CORE_PKT_SIZE; u32 response_pkt_size = *(u32 *)response_pkt; if (!response_pkt_size) return -EINVAL; if (response_pkt_size < sizeof(struct iris_hfi_packet)) return -EINVAL; if (response_pkt + response_pkt_size > response_limit) return -EINVAL; return 0; } static int iris_hfi_gen2_validate_hdr_packet(struct iris_core *core, struct iris_hfi_header *hdr) { struct iris_hfi_packet *packet; int ret; u8 *pkt; u32 i; if (hdr->size < sizeof(*hdr) + sizeof(*packet)) return -EINVAL; pkt = (u8 *)((u8 *)hdr + sizeof(*hdr)); for (i = 0; i < hdr->num_packets; i++) { packet = (struct iris_hfi_packet *)pkt; ret = iris_hfi_gen2_validate_packet(pkt, core->response_packet); if (ret) return ret; pkt += packet->size; } return 0; } static int iris_hfi_gen2_handle_session_info(struct iris_inst *inst, struct iris_hfi_packet *pkt) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct iris_core *core = inst->core; int ret = 0; char *info; switch (pkt->type) { case HFI_INFO_UNSUPPORTED: info = "unsupported"; break; case HFI_INFO_DATA_CORRUPT: info = "data corrupt"; inst_hfi_gen2->hfi_frame_info.data_corrupt = 1; break; case HFI_INFO_BUFFER_OVERFLOW: info = "buffer overflow"; inst_hfi_gen2->hfi_frame_info.overflow = 1; break; case HFI_INFO_HFI_FLAG_DRAIN_LAST: info = "drain last flag"; ret = iris_inst_sub_state_change_drain_last(inst); break; case HFI_INFO_HFI_FLAG_PSC_LAST: info = "drc last flag"; ret = iris_inst_sub_state_change_drc_last(inst); break; default: info = "unknown"; break; } dev_dbg(core->dev, "session info received %#x: %s\n", pkt->type, info); return ret; } static int iris_hfi_gen2_handle_session_error(struct iris_inst *inst, struct iris_hfi_packet *pkt) { struct iris_core *core = inst->core; char *error; switch (pkt->type) { case HFI_ERROR_MAX_SESSIONS: error = "exceeded max sessions"; break; case HFI_ERROR_UNKNOWN_SESSION: error = "unknown session id"; break; case HFI_ERROR_INVALID_STATE: error = "invalid operation for current state"; break; case HFI_ERROR_INSUFFICIENT_RESOURCES: error = "insufficient resources"; break; case HFI_ERROR_BUFFER_NOT_SET: error = "internal buffers not set"; break; case HFI_ERROR_FATAL: error = "fatal error"; break; case HFI_ERROR_STREAM_UNSUPPORTED: error = "unsupported stream"; break; default: error = "unknown"; break; } dev_err(core->dev, "session error received %#x: %s\n", pkt->type, error); iris_vb2_queue_error(inst); iris_inst_change_state(inst, IRIS_INST_ERROR); return 0; } static int iris_hfi_gen2_handle_system_error(struct iris_core *core, struct iris_hfi_packet *pkt) { struct iris_inst *instance; dev_err(core->dev, "received system error of type %#x\n", pkt->type); core->state = IRIS_CORE_ERROR; mutex_lock(&core->lock); list_for_each_entry(instance, &core->instances, list) iris_inst_change_state(instance, IRIS_INST_ERROR); mutex_unlock(&core->lock); schedule_delayed_work(&core->sys_error_handler, msecs_to_jiffies(10)); return 0; } static int iris_hfi_gen2_handle_system_init(struct iris_core *core, struct iris_hfi_packet *pkt) { if (!(pkt->flags & HFI_FW_FLAGS_SUCCESS)) { core->state = IRIS_CORE_ERROR; return 0; } complete(&core->core_init_done); return 0; } static void iris_hfi_gen2_handle_session_close(struct iris_inst *inst, struct iris_hfi_packet *pkt) { if (!(pkt->flags & HFI_FW_FLAGS_SUCCESS)) { iris_inst_change_state(inst, IRIS_INST_ERROR); return; } complete(&inst->completion); } static int iris_hfi_gen2_handle_input_buffer(struct iris_inst *inst, struct iris_hfi_buffer *buffer) { struct v4l2_m2m_ctx *m2m_ctx = inst->m2m_ctx; struct v4l2_m2m_buffer *m2m_buffer, *n; struct iris_buffer *buf; bool found = false; v4l2_m2m_for_each_src_buf_safe(m2m_ctx, m2m_buffer, n) { buf = to_iris_buffer(&m2m_buffer->vb); if (buf->index == buffer->index) { found = true; break; } } if (!found) return -EINVAL; if (!(buf->attr & BUF_ATTR_QUEUED)) return -EINVAL; buf->attr &= ~BUF_ATTR_QUEUED; buf->attr |= BUF_ATTR_DEQUEUED; buf->flags = iris_hfi_gen2_get_driver_buffer_flags(inst, buffer->flags); return 0; } static int iris_hfi_gen2_handle_output_buffer(struct iris_inst *inst, struct iris_hfi_buffer *hfi_buffer) { struct v4l2_m2m_ctx *m2m_ctx = inst->m2m_ctx; struct v4l2_m2m_buffer *m2m_buffer, *n; struct iris_buffer *buf; bool found = false; int ret; if (hfi_buffer->flags & HFI_BUF_FW_FLAG_LAST) { ret = iris_inst_sub_state_change_drain_last(inst); if (ret) return ret; } if (hfi_buffer->flags & HFI_BUF_FW_FLAG_PSC_LAST) { ret = iris_inst_sub_state_change_drc_last(inst); if (ret) return ret; } v4l2_m2m_for_each_dst_buf_safe(m2m_ctx, m2m_buffer, n) { buf = to_iris_buffer(&m2m_buffer->vb); if (buf->index == hfi_buffer->index && buf->device_addr == hfi_buffer->base_address && buf->data_offset == hfi_buffer->data_offset) { found = true; break; } } if (!found) return -EINVAL; if (!(buf->attr & BUF_ATTR_QUEUED)) return -EINVAL; buf->data_offset = hfi_buffer->data_offset; buf->data_size = hfi_buffer->data_size; buf->timestamp = hfi_buffer->timestamp; buf->attr &= ~BUF_ATTR_QUEUED; buf->attr |= BUF_ATTR_DEQUEUED; buf->flags = iris_hfi_gen2_get_driver_buffer_flags(inst, hfi_buffer->flags); return 0; } static void iris_hfi_gen2_handle_dequeue_buffers(struct iris_inst *inst) { struct v4l2_m2m_ctx *m2m_ctx = inst->m2m_ctx; struct v4l2_m2m_buffer *buffer, *n; struct iris_buffer *buf = NULL; v4l2_m2m_for_each_src_buf_safe(m2m_ctx, buffer, n) { buf = to_iris_buffer(&buffer->vb); if (buf->attr & BUF_ATTR_DEQUEUED) { buf->attr &= ~BUF_ATTR_DEQUEUED; if (!(buf->attr & BUF_ATTR_BUFFER_DONE)) { buf->attr |= BUF_ATTR_BUFFER_DONE; iris_vb2_buffer_done(inst, buf); } } } v4l2_m2m_for_each_dst_buf_safe(m2m_ctx, buffer, n) { buf = to_iris_buffer(&buffer->vb); if (buf->attr & BUF_ATTR_DEQUEUED) { buf->attr &= ~BUF_ATTR_DEQUEUED; if (!(buf->attr & BUF_ATTR_BUFFER_DONE)) { buf->attr |= BUF_ATTR_BUFFER_DONE; iris_vb2_buffer_done(inst, buf); } } } } static int iris_hfi_gen2_handle_release_internal_buffer(struct iris_inst *inst, struct iris_hfi_buffer *buffer) { u32 buf_type = iris_hfi_gen2_buf_type_to_driver(buffer->type); struct iris_buffers *buffers = &inst->buffers[buf_type]; struct iris_buffer *buf, *iter; bool found = false; int ret = 0; list_for_each_entry(iter, &buffers->list, list) { if (iter->device_addr == buffer->base_address) { found = true; buf = iter; break; } } if (!found) return -EINVAL; buf->attr &= ~BUF_ATTR_QUEUED; if (buf->attr & BUF_ATTR_PENDING_RELEASE) ret = iris_destroy_internal_buffer(inst, buf); return ret; } static int iris_hfi_gen2_handle_session_stop(struct iris_inst *inst, struct iris_hfi_packet *pkt) { int ret = 0; if (pkt->port == HFI_PORT_RAW) ret = iris_inst_sub_state_change_pause(inst, V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE); else if (pkt->port == HFI_PORT_BITSTREAM) ret = iris_inst_sub_state_change_pause(inst, V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE); complete(&inst->completion); return ret; } static int iris_hfi_gen2_handle_session_buffer(struct iris_inst *inst, struct iris_hfi_packet *pkt) { struct iris_hfi_buffer *buffer; if (pkt->payload_info == HFI_PAYLOAD_NONE) return 0; if (!iris_hfi_gen2_validate_packet_payload(pkt)) { iris_inst_change_state(inst, IRIS_INST_ERROR); return 0; } buffer = (struct iris_hfi_buffer *)((u8 *)pkt + sizeof(*pkt)); if (!iris_hfi_gen2_is_valid_hfi_buffer_type(buffer->type)) return 0; if (!iris_hfi_gen2_is_valid_hfi_port(pkt->port, buffer->type)) return 0; if (buffer->type == HFI_BUFFER_BITSTREAM) return iris_hfi_gen2_handle_input_buffer(inst, buffer); else if (buffer->type == HFI_BUFFER_RAW) return iris_hfi_gen2_handle_output_buffer(inst, buffer); else return iris_hfi_gen2_handle_release_internal_buffer(inst, buffer); } static int iris_hfi_gen2_handle_session_drain(struct iris_inst *inst, struct iris_hfi_packet *pkt) { int ret = 0; if (!(pkt->flags & HFI_FW_FLAGS_SUCCESS)) { iris_inst_change_state(inst, IRIS_INST_ERROR); return 0; } if (inst->sub_state & IRIS_INST_SUB_DRAIN) ret = iris_inst_change_sub_state(inst, 0, IRIS_INST_SUB_INPUT_PAUSE); return ret; } static void iris_hfi_gen2_read_input_subcr_params(struct iris_inst *inst) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct v4l2_pix_format_mplane *pixmp_ip = &inst->fmt_src->fmt.pix_mp; struct v4l2_pix_format_mplane *pixmp_op = &inst->fmt_dst->fmt.pix_mp; u32 primaries, matrix_coeff, transfer_char; struct hfi_subscription_params subsc_params; u32 colour_description_present_flag; u32 video_signal_type_present_flag; struct iris_core *core = inst->core; u32 full_range, width, height; struct vb2_queue *dst_q; struct v4l2_ctrl *ctrl; subsc_params = inst_hfi_gen2->src_subcr_params; width = (subsc_params.bitstream_resolution & HFI_BITMASK_BITSTREAM_WIDTH) >> 16; height = subsc_params.bitstream_resolution & HFI_BITMASK_BITSTREAM_HEIGHT; pixmp_ip->width = width; pixmp_ip->height = height; pixmp_op->width = ALIGN(width, 128); pixmp_op->height = ALIGN(height, 32); pixmp_op->plane_fmt[0].bytesperline = ALIGN(width, 128); pixmp_op->plane_fmt[0].sizeimage = iris_get_buffer_size(inst, BUF_OUTPUT); matrix_coeff = subsc_params.color_info & 0xFF; transfer_char = (subsc_params.color_info & 0xFF00) >> 8; primaries = (subsc_params.color_info & 0xFF0000) >> 16; colour_description_present_flag = (subsc_params.color_info & 0x1000000) >> 24; full_range = (subsc_params.color_info & 0x2000000) >> 25; video_signal_type_present_flag = (subsc_params.color_info & 0x20000000) >> 29; pixmp_op->colorspace = V4L2_COLORSPACE_DEFAULT; pixmp_op->xfer_func = V4L2_XFER_FUNC_DEFAULT; pixmp_op->ycbcr_enc = V4L2_YCBCR_ENC_DEFAULT; pixmp_op->quantization = V4L2_QUANTIZATION_DEFAULT; if (video_signal_type_present_flag) { pixmp_op->quantization = full_range ? V4L2_QUANTIZATION_FULL_RANGE : V4L2_QUANTIZATION_LIM_RANGE; if (colour_description_present_flag) { pixmp_op->colorspace = iris_hfi_get_v4l2_color_primaries(primaries); pixmp_op->xfer_func = iris_hfi_get_v4l2_transfer_char(transfer_char); pixmp_op->ycbcr_enc = iris_hfi_get_v4l2_matrix_coefficients(matrix_coeff); } } pixmp_ip->colorspace = pixmp_op->colorspace; pixmp_ip->xfer_func = pixmp_op->xfer_func; pixmp_ip->ycbcr_enc = pixmp_op->ycbcr_enc; pixmp_ip->quantization = pixmp_op->quantization; inst->crop.top = subsc_params.crop_offsets[0] & 0xFFFF; inst->crop.left = (subsc_params.crop_offsets[0] >> 16) & 0xFFFF; inst->crop.height = pixmp_ip->height - (subsc_params.crop_offsets[1] & 0xFFFF) - inst->crop.top; inst->crop.width = pixmp_ip->width - ((subsc_params.crop_offsets[1] >> 16) & 0xFFFF) - inst->crop.left; inst->fw_caps[PROFILE].value = subsc_params.profile; inst->fw_caps[LEVEL].value = subsc_params.level; inst->fw_caps[POC].value = subsc_params.pic_order_cnt; if (subsc_params.bit_depth != BIT_DEPTH_8 || !(subsc_params.coded_frames & HFI_BITMASK_FRAME_MBS_ONLY_FLAG)) { dev_err(core->dev, "unsupported content, bit depth: %x, pic_struct = %x\n", subsc_params.bit_depth, subsc_params.coded_frames); iris_inst_change_state(inst, IRIS_INST_ERROR); } inst->fw_min_count = subsc_params.fw_min_count; inst->buffers[BUF_OUTPUT].min_count = iris_vpu_buf_count(inst, BUF_OUTPUT); inst->buffers[BUF_OUTPUT].size = pixmp_op->plane_fmt[0].sizeimage; ctrl = v4l2_ctrl_find(&inst->ctrl_handler, V4L2_CID_MIN_BUFFERS_FOR_CAPTURE); if (ctrl) v4l2_ctrl_s_ctrl(ctrl, inst->buffers[BUF_OUTPUT].min_count); dst_q = v4l2_m2m_get_dst_vq(inst->m2m_ctx); dst_q->min_reqbufs_allocation = inst->buffers[BUF_OUTPUT].min_count; } static int iris_hfi_gen2_handle_src_change(struct iris_inst *inst, struct iris_hfi_packet *pkt) { int ret; if (pkt->port != HFI_PORT_BITSTREAM) return 0; ret = iris_inst_sub_state_change_drc(inst); if (ret) return ret; iris_hfi_gen2_read_input_subcr_params(inst); iris_vdec_src_change(inst); return 0; } static int iris_hfi_gen2_handle_session_command(struct iris_inst *inst, struct iris_hfi_packet *pkt) { int ret = 0; switch (pkt->type) { case HFI_CMD_CLOSE: iris_hfi_gen2_handle_session_close(inst, pkt); break; case HFI_CMD_STOP: iris_hfi_gen2_handle_session_stop(inst, pkt); break; case HFI_CMD_BUFFER: ret = iris_hfi_gen2_handle_session_buffer(inst, pkt); break; case HFI_CMD_SETTINGS_CHANGE: ret = iris_hfi_gen2_handle_src_change(inst, pkt); break; case HFI_CMD_DRAIN: ret = iris_hfi_gen2_handle_session_drain(inst, pkt); break; default: break; } return ret; } static int iris_hfi_gen2_handle_session_property(struct iris_inst *inst, struct iris_hfi_packet *pkt) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); if (pkt->port != HFI_PORT_BITSTREAM) return 0; if (pkt->flags & HFI_FW_FLAGS_INFORMATION) return 0; switch (pkt->type) { case HFI_PROP_BITSTREAM_RESOLUTION: inst_hfi_gen2->src_subcr_params.bitstream_resolution = pkt->payload[0]; break; case HFI_PROP_CROP_OFFSETS: inst_hfi_gen2->src_subcr_params.crop_offsets[0] = pkt->payload[0]; inst_hfi_gen2->src_subcr_params.crop_offsets[1] = pkt->payload[1]; break; case HFI_PROP_CODED_FRAMES: inst_hfi_gen2->src_subcr_params.coded_frames = pkt->payload[0]; break; case HFI_PROP_BUFFER_FW_MIN_OUTPUT_COUNT: inst_hfi_gen2->src_subcr_params.fw_min_count = pkt->payload[0]; break; case HFI_PROP_PIC_ORDER_CNT_TYPE: inst_hfi_gen2->src_subcr_params.pic_order_cnt = pkt->payload[0]; break; case HFI_PROP_SIGNAL_COLOR_INFO: inst_hfi_gen2->src_subcr_params.color_info = pkt->payload[0]; break; case HFI_PROP_PROFILE: inst_hfi_gen2->src_subcr_params.profile = pkt->payload[0]; break; case HFI_PROP_LEVEL: inst_hfi_gen2->src_subcr_params.level = pkt->payload[0]; break; case HFI_PROP_PICTURE_TYPE: inst_hfi_gen2->hfi_frame_info.picture_type = pkt->payload[0]; break; case HFI_PROP_NO_OUTPUT: inst_hfi_gen2->hfi_frame_info.no_output = 1; break; case HFI_PROP_QUALITY_MODE: case HFI_PROP_STAGE: case HFI_PROP_PIPE: default: break; } return 0; } static int iris_hfi_gen2_handle_image_version_property(struct iris_core *core, struct iris_hfi_packet *pkt) { u8 *str_image_version = (u8 *)pkt + sizeof(*pkt); u32 req_bytes = pkt->size - sizeof(*pkt); char fw_version[IRIS_FW_VERSION_LENGTH]; u32 i; if (req_bytes < IRIS_FW_VERSION_LENGTH - 1) return -EINVAL; for (i = 0; i < IRIS_FW_VERSION_LENGTH - 1; i++) { if (str_image_version[i] != '\0') fw_version[i] = str_image_version[i]; else fw_version[i] = ' '; } fw_version[i] = '\0'; dev_dbg(core->dev, "firmware version: %s\n", fw_version); return 0; } static int iris_hfi_gen2_handle_system_property(struct iris_core *core, struct iris_hfi_packet *pkt) { switch (pkt->type) { case HFI_PROP_IMAGE_VERSION: return iris_hfi_gen2_handle_image_version_property(core, pkt); default: return 0; } } static int iris_hfi_gen2_handle_system_response(struct iris_core *core, struct iris_hfi_header *hdr) { u8 *start_pkt = (u8 *)((u8 *)hdr + sizeof(*hdr)); struct iris_hfi_packet *packet; u32 i, j; u8 *pkt; int ret; static const struct iris_hfi_gen2_core_hfi_range range[] = { {HFI_SYSTEM_ERROR_BEGIN, HFI_SYSTEM_ERROR_END, iris_hfi_gen2_handle_system_error }, {HFI_PROP_BEGIN, HFI_PROP_END, iris_hfi_gen2_handle_system_property }, {HFI_CMD_BEGIN, HFI_CMD_END, iris_hfi_gen2_handle_system_init }, }; for (i = 0; i < ARRAY_SIZE(range); i++) { pkt = start_pkt; for (j = 0; j < hdr->num_packets; j++) { packet = (struct iris_hfi_packet *)pkt; if (packet->flags & HFI_FW_FLAGS_SYSTEM_ERROR) { ret = iris_hfi_gen2_handle_system_error(core, packet); return ret; } if (packet->type > range[i].begin && packet->type < range[i].end) { ret = range[i].handle(core, packet); if (ret) return ret; if (packet->type > HFI_SYSTEM_ERROR_BEGIN && packet->type < HFI_SYSTEM_ERROR_END) return 0; } pkt += packet->size; } } return 0; } static void iris_hfi_gen2_init_src_change_param(struct iris_inst *inst) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct v4l2_pix_format_mplane *pixmp_ip = &inst->fmt_src->fmt.pix_mp; struct v4l2_pix_format_mplane *pixmp_op = &inst->fmt_dst->fmt.pix_mp; u32 bottom_offset = (pixmp_ip->height - inst->crop.height); u32 right_offset = (pixmp_ip->width - inst->crop.width); struct hfi_subscription_params *subsc_params; u32 primaries, matrix_coeff, transfer_char; u32 colour_description_present_flag = 0; u32 video_signal_type_present_flag = 0; u32 full_range, video_format = 0; u32 left_offset = inst->crop.left; u32 top_offset = inst->crop.top; subsc_params = &inst_hfi_gen2->src_subcr_params; subsc_params->bitstream_resolution = pixmp_ip->width << 16 | pixmp_ip->height; subsc_params->crop_offsets[0] = left_offset << 16 | top_offset; subsc_params->crop_offsets[1] = right_offset << 16 | bottom_offset; subsc_params->fw_min_count = inst->buffers[BUF_OUTPUT].min_count; primaries = iris_hfi_gen2_get_color_primaries(pixmp_op->colorspace); matrix_coeff = iris_hfi_gen2_get_matrix_coefficients(pixmp_op->ycbcr_enc); transfer_char = iris_hfi_gen2_get_transfer_char(pixmp_op->xfer_func); full_range = pixmp_op->quantization == V4L2_QUANTIZATION_FULL_RANGE ? 1 : 0; subsc_params->color_info = iris_hfi_gen2_get_color_info(matrix_coeff, transfer_char, primaries, colour_description_present_flag, full_range, video_format, video_signal_type_present_flag); subsc_params->profile = inst->fw_caps[PROFILE].value; subsc_params->level = inst->fw_caps[LEVEL].value; subsc_params->pic_order_cnt = inst->fw_caps[POC].value; subsc_params->bit_depth = inst->fw_caps[BIT_DEPTH].value; if (inst->fw_caps[CODED_FRAMES].value == CODED_FRAMES_PROGRESSIVE) subsc_params->coded_frames = HFI_BITMASK_FRAME_MBS_ONLY_FLAG; else subsc_params->coded_frames = 0; } static int iris_hfi_gen2_handle_session_response(struct iris_core *core, struct iris_hfi_header *hdr) { u8 *pkt = (u8 *)((u8 *)hdr + sizeof(*hdr)); struct iris_inst_hfi_gen2 *inst_hfi_gen2; struct iris_hfi_packet *packet; struct iris_inst *inst; bool dequeue = false; int ret = 0; u32 i, j; static const struct iris_hfi_gen2_inst_hfi_range range[] = { {HFI_SESSION_ERROR_BEGIN, HFI_SESSION_ERROR_END, iris_hfi_gen2_handle_session_error}, {HFI_INFORMATION_BEGIN, HFI_INFORMATION_END, iris_hfi_gen2_handle_session_info}, {HFI_PROP_BEGIN, HFI_PROP_END, iris_hfi_gen2_handle_session_property}, {HFI_CMD_BEGIN, HFI_CMD_END, iris_hfi_gen2_handle_session_command }, }; inst = iris_get_instance(core, hdr->session_id); if (!inst) return -EINVAL; mutex_lock(&inst->lock); inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); memset(&inst_hfi_gen2->hfi_frame_info, 0, sizeof(struct iris_hfi_frame_info)); for (i = 0; i < hdr->num_packets; i++) { packet = (struct iris_hfi_packet *)pkt; if (packet->type == HFI_CMD_SETTINGS_CHANGE) { if (packet->port == HFI_PORT_BITSTREAM) { iris_hfi_gen2_init_src_change_param(inst); break; } } pkt += packet->size; } pkt = (u8 *)((u8 *)hdr + sizeof(*hdr)); for (i = 0; i < ARRAY_SIZE(range); i++) { pkt = (u8 *)((u8 *)hdr + sizeof(*hdr)); for (j = 0; j < hdr->num_packets; j++) { packet = (struct iris_hfi_packet *)pkt; if (packet->flags & HFI_FW_FLAGS_SESSION_ERROR) iris_hfi_gen2_handle_session_error(inst, packet); if (packet->type > range[i].begin && packet->type < range[i].end) { dequeue |= (packet->type == HFI_CMD_BUFFER); ret = range[i].handle(inst, packet); if (ret) iris_inst_change_state(inst, IRIS_INST_ERROR); } pkt += packet->size; } } if (dequeue) iris_hfi_gen2_handle_dequeue_buffers(inst); mutex_unlock(&inst->lock); return ret; } static int iris_hfi_gen2_handle_response(struct iris_core *core, void *response) { struct iris_hfi_header *hdr = (struct iris_hfi_header *)response; int ret; ret = iris_hfi_gen2_validate_hdr_packet(core, hdr); if (ret) return iris_hfi_gen2_handle_system_error(core, NULL); if (!hdr->session_id) return iris_hfi_gen2_handle_system_response(core, hdr); else return iris_hfi_gen2_handle_session_response(core, hdr); } static void iris_hfi_gen2_flush_debug_queue(struct iris_core *core, u8 *packet) { struct hfi_debug_header *pkt; u8 *log; while (!iris_hfi_queue_dbg_read(core, packet)) { pkt = (struct hfi_debug_header *)packet; if (pkt->size < sizeof(*pkt)) continue; if (pkt->size >= IFACEQ_CORE_PKT_SIZE) continue; packet[pkt->size] = '\0'; log = (u8 *)packet + sizeof(*pkt) + 1; dev_dbg(core->dev, "%s", log); } } static void iris_hfi_gen2_response_handler(struct iris_core *core) { if (iris_vpu_watchdog(core, core->intr_status)) { struct iris_hfi_packet pkt = {.type = HFI_SYS_ERROR_WD_TIMEOUT}; dev_err(core->dev, "cpu watchdog error received\n"); core->state = IRIS_CORE_ERROR; iris_hfi_gen2_handle_system_error(core, &pkt); return; } memset(core->response_packet, 0, sizeof(struct iris_hfi_header)); while (!iris_hfi_queue_msg_read(core, core->response_packet)) { iris_hfi_gen2_handle_response(core, core->response_packet); memset(core->response_packet, 0, sizeof(struct iris_hfi_header)); } iris_hfi_gen2_flush_debug_queue(core, core->response_packet); } static const struct iris_hfi_response_ops iris_hfi_gen2_response_ops = { .hfi_response_handler = iris_hfi_gen2_response_handler, }; void iris_hfi_gen2_response_ops_init(struct iris_core *core) { core->hfi_response_ops = &iris_hfi_gen2_response_ops; }