| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Dikshita Agarwal | 3471 | 64.98% | 22 | 75.86% |
| Vedang Nagar | 1870 | 35.01% | 6 | 20.69% |
| Laurent Pinchart | 1 | 0.02% | 1 | 3.45% |
| Total | 5342 | 29 |
// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2022-2024 Qualcomm Innovation Center, Inc. All rights reserved. */ #include <linux/bitfield.h> #include "iris_hfi_gen2.h" #include "iris_hfi_gen2_packet.h" #define UNSPECIFIED_COLOR_FORMAT 5 #define NUM_SYS_INIT_PACKETS 8 #define SYS_INIT_PKT_SIZE (sizeof(struct iris_hfi_header) + \ NUM_SYS_INIT_PACKETS * (sizeof(struct iris_hfi_packet) + sizeof(u32))) #define SYS_IFPC_PKT_SIZE (sizeof(struct iris_hfi_header) + \ sizeof(struct iris_hfi_packet) + sizeof(u32)) #define SYS_NO_PAYLOAD_PKT_SIZE (sizeof(struct iris_hfi_header) + \ sizeof(struct iris_hfi_packet)) static int iris_hfi_gen2_sys_init(struct iris_core *core) { struct iris_hfi_header *hdr; int ret; hdr = kzalloc(SYS_INIT_PKT_SIZE, GFP_KERNEL); if (!hdr) return -ENOMEM; iris_hfi_gen2_packet_sys_init(core, hdr); ret = iris_hfi_queue_cmd_write_locked(core, hdr, hdr->size); kfree(hdr); return ret; } static int iris_hfi_gen2_sys_image_version(struct iris_core *core) { struct iris_hfi_header *hdr; int ret; hdr = kzalloc(SYS_NO_PAYLOAD_PKT_SIZE, GFP_KERNEL); if (!hdr) return -ENOMEM; iris_hfi_gen2_packet_image_version(core, hdr); ret = iris_hfi_queue_cmd_write_locked(core, hdr, hdr->size); kfree(hdr); return ret; } static int iris_hfi_gen2_sys_interframe_powercollapse(struct iris_core *core) { struct iris_hfi_header *hdr; int ret; hdr = kzalloc(SYS_IFPC_PKT_SIZE, GFP_KERNEL); if (!hdr) return -ENOMEM; iris_hfi_gen2_packet_sys_interframe_powercollapse(core, hdr); ret = iris_hfi_queue_cmd_write_locked(core, hdr, hdr->size); kfree(hdr); return ret; } static int iris_hfi_gen2_sys_pc_prep(struct iris_core *core) { struct iris_hfi_header *hdr; int ret; hdr = kzalloc(SYS_NO_PAYLOAD_PKT_SIZE, GFP_KERNEL); if (!hdr) return -ENOMEM; iris_hfi_gen2_packet_sys_pc_prep(core, hdr); ret = iris_hfi_queue_cmd_write_locked(core, hdr, hdr->size); kfree(hdr); return ret; } static u32 iris_hfi_gen2_get_port(struct iris_inst *inst, u32 plane) { if (inst->domain == DECODER) { switch (plane) { case V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE: return HFI_PORT_BITSTREAM; case V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE: return HFI_PORT_RAW; default: return HFI_PORT_NONE; } } else { switch (plane) { case V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE: return HFI_PORT_RAW; case V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE: return HFI_PORT_BITSTREAM; default: return HFI_PORT_NONE; } } } static u32 iris_hfi_gen2_get_port_from_buf_type(struct iris_inst *inst, enum iris_buffer_type buffer_type) { if (inst->domain == DECODER) { switch (buffer_type) { case BUF_INPUT: case BUF_BIN: case BUF_COMV: case BUF_NON_COMV: case BUF_LINE: return HFI_PORT_BITSTREAM; case BUF_OUTPUT: case BUF_DPB: return HFI_PORT_RAW; case BUF_PERSIST: default: return HFI_PORT_NONE; } } else { switch (buffer_type) { case BUF_INPUT: case BUF_VPSS: return HFI_PORT_RAW; case BUF_OUTPUT: case BUF_BIN: case BUF_COMV: case BUF_NON_COMV: case BUF_LINE: case BUF_SCRATCH_2: return HFI_PORT_BITSTREAM; case BUF_ARP: default: return HFI_PORT_NONE; } } } static int iris_hfi_gen2_session_set_property(struct iris_inst *inst, u32 packet_type, u32 flag, u32 plane, u32 payload_type, void *payload, u32 payload_size) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); iris_hfi_gen2_packet_session_property(inst, packet_type, flag, plane, payload_type, payload, payload_size); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_set_raw_resolution(struct iris_inst *inst, u32 plane) { u32 resolution = inst->fmt_src->fmt.pix_mp.width << 16 | inst->fmt_src->fmt.pix_mp.height; u32 port = iris_hfi_gen2_get_port(inst, plane); return iris_hfi_gen2_session_set_property(inst, HFI_PROP_RAW_RESOLUTION, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_32_PACKED, &resolution, sizeof(u32)); } static int iris_hfi_gen2_set_bitstream_resolution(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, plane); enum hfi_packet_payload_info payload_type; u32 resolution, codec_align; if (inst->domain == DECODER) { resolution = inst->fmt_src->fmt.pix_mp.width << 16 | inst->fmt_src->fmt.pix_mp.height; inst_hfi_gen2->src_subcr_params.bitstream_resolution = resolution; payload_type = HFI_PAYLOAD_U32; } else { codec_align = inst->codec == V4L2_PIX_FMT_HEVC ? 32 : 16; resolution = ALIGN(inst->fmt_dst->fmt.pix_mp.width, codec_align) << 16 | ALIGN(inst->fmt_dst->fmt.pix_mp.height, codec_align); inst_hfi_gen2->dst_subcr_params.bitstream_resolution = resolution; payload_type = HFI_PAYLOAD_32_PACKED; } return iris_hfi_gen2_session_set_property(inst, HFI_PROP_BITSTREAM_RESOLUTION, HFI_HOST_FLAGS_NONE, port, payload_type, &resolution, sizeof(u32)); } static int iris_hfi_gen2_set_crop_offsets(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, plane); u32 bottom_offset, right_offset; u32 left_offset, top_offset; u32 payload[2]; if (inst->domain == DECODER) { if (V4L2_TYPE_IS_OUTPUT(plane)) { bottom_offset = (inst->fmt_src->fmt.pix_mp.height - inst->crop.height); right_offset = (inst->fmt_src->fmt.pix_mp.width - inst->crop.width); left_offset = inst->crop.left; top_offset = inst->crop.top; } else { bottom_offset = (inst->fmt_dst->fmt.pix_mp.height - inst->compose.height); right_offset = (inst->fmt_dst->fmt.pix_mp.width - inst->compose.width); left_offset = inst->compose.left; top_offset = inst->compose.top; } } else { bottom_offset = (inst->fmt_src->fmt.pix_mp.height - inst->crop.height); right_offset = (inst->fmt_src->fmt.pix_mp.width - inst->crop.width); left_offset = inst->crop.left; top_offset = inst->crop.top; } payload[0] = FIELD_PREP(GENMASK(31, 16), left_offset) | top_offset; payload[1] = FIELD_PREP(GENMASK(31, 16), right_offset) | bottom_offset; inst_hfi_gen2->src_subcr_params.crop_offsets[0] = payload[0]; inst_hfi_gen2->src_subcr_params.crop_offsets[1] = payload[1]; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_CROP_OFFSETS, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_64_PACKED, &payload, sizeof(u64)); } static int iris_hfi_gen2_set_bit_depth(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, plane); u32 bitdepth = BIT_DEPTH_8; inst_hfi_gen2->src_subcr_params.bit_depth = bitdepth; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_LUMA_CHROMA_BIT_DEPTH, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32, &bitdepth, sizeof(u32)); } static int iris_hfi_gen2_set_coded_frames(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, plane); u32 coded_frames = 0; if (inst->fw_caps[CODED_FRAMES].value == CODED_FRAMES_PROGRESSIVE) coded_frames = HFI_BITMASK_FRAME_MBS_ONLY_FLAG; inst_hfi_gen2->src_subcr_params.coded_frames = coded_frames; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_CODED_FRAMES, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32, &coded_frames, sizeof(u32)); } static int iris_hfi_gen2_set_min_output_count(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 min_output = inst->buffers[BUF_OUTPUT].min_count; u32 port = iris_hfi_gen2_get_port(inst, plane); inst_hfi_gen2->src_subcr_params.fw_min_count = min_output; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_BUFFER_FW_MIN_OUTPUT_COUNT, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32, &min_output, sizeof(u32)); } static int iris_hfi_gen2_set_picture_order_count(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, plane); u32 poc = 0; inst_hfi_gen2->src_subcr_params.pic_order_cnt = poc; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_PIC_ORDER_CNT_TYPE, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32, &poc, sizeof(u32)); } static int iris_hfi_gen2_set_colorspace(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct v4l2_pix_format_mplane *pixmp = &inst->fmt_src->fmt.pix_mp; u32 video_signal_type_present_flag = 0, color_info; u32 matrix_coeff = HFI_MATRIX_COEFF_RESERVED; u32 video_format = UNSPECIFIED_COLOR_FORMAT; u32 full_range = V4L2_QUANTIZATION_DEFAULT; u32 transfer_char = HFI_TRANSFER_RESERVED; u32 port = iris_hfi_gen2_get_port(inst, plane); u32 colour_description_present_flag = 0; u32 primaries = HFI_PRIMARIES_RESERVED; if (pixmp->colorspace != V4L2_COLORSPACE_DEFAULT || pixmp->ycbcr_enc != V4L2_YCBCR_ENC_DEFAULT || pixmp->xfer_func != V4L2_XFER_FUNC_DEFAULT) { colour_description_present_flag = 1; video_signal_type_present_flag = 1; primaries = iris_hfi_gen2_get_color_primaries(pixmp->colorspace); matrix_coeff = iris_hfi_gen2_get_matrix_coefficients(pixmp->ycbcr_enc); transfer_char = iris_hfi_gen2_get_transfer_char(pixmp->xfer_func); } if (pixmp->quantization != V4L2_QUANTIZATION_DEFAULT) { video_signal_type_present_flag = 1; full_range = pixmp->quantization == V4L2_QUANTIZATION_FULL_RANGE ? 1 : 0; } 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); inst_hfi_gen2->src_subcr_params.color_info = color_info; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_SIGNAL_COLOR_INFO, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_32_PACKED, &color_info, sizeof(u32)); } static int iris_hfi_gen2_set_profile(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE); u32 profile = 0; switch (inst->codec) { case V4L2_PIX_FMT_HEVC: profile = inst->fw_caps[PROFILE_HEVC].value; break; case V4L2_PIX_FMT_VP9: profile = inst->fw_caps[PROFILE_VP9].value; break; case V4L2_PIX_FMT_H264: profile = inst->fw_caps[PROFILE_H264].value; break; } inst_hfi_gen2->src_subcr_params.profile = profile; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_PROFILE, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32_ENUM, &profile, sizeof(u32)); } static int iris_hfi_gen2_set_level(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE); u32 level = 0; switch (inst->codec) { case V4L2_PIX_FMT_HEVC: level = inst->fw_caps[LEVEL_HEVC].value; break; case V4L2_PIX_FMT_VP9: level = inst->fw_caps[LEVEL_VP9].value; break; case V4L2_PIX_FMT_H264: level = inst->fw_caps[LEVEL_H264].value; break; } inst_hfi_gen2->src_subcr_params.level = level; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_LEVEL, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32_ENUM, &level, sizeof(u32)); } static int iris_hfi_gen2_set_colorformat(struct iris_inst *inst, u32 plane) { u32 port = iris_hfi_gen2_get_port(inst, plane); u32 hfi_colorformat, pixelformat; if (inst->domain == DECODER) { pixelformat = inst->fmt_dst->fmt.pix_mp.pixelformat; hfi_colorformat = pixelformat == V4L2_PIX_FMT_NV12 ? HFI_COLOR_FMT_NV12 : 0; } else { pixelformat = inst->fmt_src->fmt.pix_mp.pixelformat; hfi_colorformat = pixelformat == V4L2_PIX_FMT_NV12 ? HFI_COLOR_FMT_NV12 : 0; } return iris_hfi_gen2_session_set_property(inst, HFI_PROP_COLOR_FORMAT, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32_ENUM, &hfi_colorformat, sizeof(u32)); } static int iris_hfi_gen2_set_linear_stride_scanline(struct iris_inst *inst, u32 plane) { u32 pixelformat, stride_y, stride_uv, scanline_y, scanline_uv; u32 port = iris_hfi_gen2_get_port(inst, plane); u32 payload[2]; if (inst->domain == DECODER) { pixelformat = inst->fmt_dst->fmt.pix_mp.pixelformat; stride_y = inst->fmt_dst->fmt.pix_mp.width; scanline_y = inst->fmt_dst->fmt.pix_mp.height; } else { pixelformat = inst->fmt_src->fmt.pix_mp.pixelformat; stride_y = ALIGN(inst->fmt_src->fmt.pix_mp.width, 128); scanline_y = ALIGN(inst->fmt_src->fmt.pix_mp.height, 32); } stride_uv = stride_y; scanline_uv = scanline_y / 2; if (pixelformat != V4L2_PIX_FMT_NV12) return 0; payload[0] = stride_y << 16 | scanline_y; payload[1] = stride_uv << 16 | scanline_uv; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_LINEAR_STRIDE_SCANLINE, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_64_PACKED, &payload, sizeof(u64)); } static int iris_hfi_gen2_set_tier(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 port = iris_hfi_gen2_get_port(inst, V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE); u32 tier = inst->fw_caps[TIER].value; inst_hfi_gen2->src_subcr_params.tier = tier; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_TIER, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_U32_ENUM, &tier, sizeof(u32)); } static int iris_hfi_gen2_set_frame_rate(struct iris_inst *inst, u32 plane) { u32 port = iris_hfi_gen2_get_port(inst, V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE); u32 frame_rate = inst->frame_rate << 16; return iris_hfi_gen2_session_set_property(inst, HFI_PROP_FRAME_RATE, HFI_HOST_FLAGS_NONE, port, HFI_PAYLOAD_Q16, &frame_rate, sizeof(u32)); } static int iris_hfi_gen2_session_set_config_params(struct iris_inst *inst, u32 plane) { const struct iris_platform_data *pdata = inst->core->iris_platform_data; u32 config_params_size = 0, i, j; const u32 *config_params = NULL; int ret; static const struct iris_hfi_prop_type_handle prop_type_handle_arr[] = { {HFI_PROP_RAW_RESOLUTION, iris_hfi_gen2_set_raw_resolution }, {HFI_PROP_BITSTREAM_RESOLUTION, iris_hfi_gen2_set_bitstream_resolution }, {HFI_PROP_CROP_OFFSETS, iris_hfi_gen2_set_crop_offsets }, {HFI_PROP_CODED_FRAMES, iris_hfi_gen2_set_coded_frames }, {HFI_PROP_LUMA_CHROMA_BIT_DEPTH, iris_hfi_gen2_set_bit_depth }, {HFI_PROP_BUFFER_FW_MIN_OUTPUT_COUNT, iris_hfi_gen2_set_min_output_count }, {HFI_PROP_PIC_ORDER_CNT_TYPE, iris_hfi_gen2_set_picture_order_count }, {HFI_PROP_SIGNAL_COLOR_INFO, iris_hfi_gen2_set_colorspace }, {HFI_PROP_PROFILE, iris_hfi_gen2_set_profile }, {HFI_PROP_LEVEL, iris_hfi_gen2_set_level }, {HFI_PROP_COLOR_FORMAT, iris_hfi_gen2_set_colorformat }, {HFI_PROP_LINEAR_STRIDE_SCANLINE, iris_hfi_gen2_set_linear_stride_scanline }, {HFI_PROP_TIER, iris_hfi_gen2_set_tier }, {HFI_PROP_FRAME_RATE, iris_hfi_gen2_set_frame_rate }, }; if (inst->domain == DECODER) { if (V4L2_TYPE_IS_OUTPUT(plane)) { if (inst->codec == V4L2_PIX_FMT_H264) { config_params = pdata->dec_input_config_params_default; config_params_size = pdata->dec_input_config_params_default_size; } else if (inst->codec == V4L2_PIX_FMT_HEVC) { config_params = pdata->dec_input_config_params_hevc; config_params_size = pdata->dec_input_config_params_hevc_size; } else if (inst->codec == V4L2_PIX_FMT_VP9) { config_params = pdata->dec_input_config_params_vp9; config_params_size = pdata->dec_input_config_params_vp9_size; } else { return -EINVAL; } } else { config_params = pdata->dec_output_config_params; config_params_size = pdata->dec_output_config_params_size; } } else { if (V4L2_TYPE_IS_OUTPUT(plane)) { config_params = pdata->enc_input_config_params; config_params_size = pdata->enc_input_config_params_size; } else { config_params = pdata->enc_output_config_params; config_params_size = pdata->enc_output_config_params_size; } } if (!config_params || !config_params_size) return -EINVAL; for (i = 0; i < config_params_size; i++) { for (j = 0; j < ARRAY_SIZE(prop_type_handle_arr); j++) { if (prop_type_handle_arr[j].type == config_params[i]) { ret = prop_type_handle_arr[j].handle(inst, plane); if (ret) return ret; break; } } } return 0; } static int iris_hfi_gen2_session_set_codec(struct iris_inst *inst) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 codec = 0; switch (inst->codec) { case V4L2_PIX_FMT_H264: if (inst->domain == ENCODER) codec = HFI_CODEC_ENCODE_AVC; else codec = HFI_CODEC_DECODE_AVC; break; case V4L2_PIX_FMT_HEVC: if (inst->domain == ENCODER) codec = HFI_CODEC_ENCODE_HEVC; else codec = HFI_CODEC_DECODE_HEVC; break; case V4L2_PIX_FMT_VP9: codec = HFI_CODEC_DECODE_VP9; } iris_hfi_gen2_packet_session_property(inst, HFI_PROP_CODEC, HFI_HOST_FLAGS_NONE, HFI_PORT_NONE, HFI_PAYLOAD_U32_ENUM, &codec, sizeof(u32)); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_set_default_header(struct iris_inst *inst) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 default_header = false; iris_hfi_gen2_packet_session_property(inst, HFI_PROP_DEC_DEFAULT_HEADER, HFI_HOST_FLAGS_NONE, HFI_PORT_BITSTREAM, HFI_PAYLOAD_U32, &default_header, sizeof(u32)); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_open(struct iris_inst *inst) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); int ret; if (inst->state != IRIS_INST_DEINIT) return -EALREADY; inst_hfi_gen2->ipsc_properties_set = false; inst_hfi_gen2->opsc_properties_set = false; inst_hfi_gen2->packet = kzalloc(4096, GFP_KERNEL); if (!inst_hfi_gen2->packet) return -ENOMEM; iris_hfi_gen2_packet_session_command(inst, HFI_CMD_OPEN, HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED, HFI_PORT_NONE, 0, HFI_PAYLOAD_U32, &inst->session_id, sizeof(u32)); ret = iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); if (ret) goto fail_free_packet; ret = iris_hfi_gen2_session_set_codec(inst); if (ret) goto fail_free_packet; if (inst->domain == DECODER) { ret = iris_hfi_gen2_session_set_default_header(inst); if (ret) goto fail_free_packet; } return 0; fail_free_packet: kfree(inst_hfi_gen2->packet); inst_hfi_gen2->packet = NULL; return ret; } static int iris_hfi_gen2_session_close(struct iris_inst *inst) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); int ret; if (!inst_hfi_gen2->packet) return -EINVAL; iris_hfi_gen2_packet_session_command(inst, HFI_CMD_CLOSE, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED | HFI_HOST_FLAGS_NON_DISCARDABLE), HFI_PORT_NONE, inst->session_id, HFI_PAYLOAD_NONE, NULL, 0); ret = iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); kfree(inst_hfi_gen2->packet); inst_hfi_gen2->packet = NULL; return ret; } static int iris_hfi_gen2_session_subscribe_mode(struct iris_inst *inst, u32 cmd, u32 plane, u32 payload_type, void *payload, u32 payload_size) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); iris_hfi_gen2_packet_session_command(inst, cmd, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED), iris_hfi_gen2_get_port(inst, plane), inst->session_id, payload_type, payload, payload_size); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_subscribe_change_param(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct hfi_subscription_params subsc_params; u32 prop_type, payload_size, payload_type; struct iris_core *core = inst->core; const u32 *change_param = NULL; u32 change_param_size = 0; u32 payload[32] = {0}; u32 hfi_port = 0, i; int ret; if (inst->domain == ENCODER) return 0; if ((V4L2_TYPE_IS_OUTPUT(plane) && inst_hfi_gen2->ipsc_properties_set) || (V4L2_TYPE_IS_CAPTURE(plane) && inst_hfi_gen2->opsc_properties_set)) { dev_err(core->dev, "invalid plane\n"); return 0; } switch (inst->codec) { case V4L2_PIX_FMT_H264: change_param = core->iris_platform_data->dec_input_config_params_default; change_param_size = core->iris_platform_data->dec_input_config_params_default_size; break; case V4L2_PIX_FMT_HEVC: change_param = core->iris_platform_data->dec_input_config_params_hevc; change_param_size = core->iris_platform_data->dec_input_config_params_hevc_size; break; case V4L2_PIX_FMT_VP9: change_param = core->iris_platform_data->dec_input_config_params_vp9; change_param_size = core->iris_platform_data->dec_input_config_params_vp9_size; break; } payload[0] = HFI_MODE_PORT_SETTINGS_CHANGE; for (i = 0; i < change_param_size; i++) payload[i + 1] = change_param[i]; ret = iris_hfi_gen2_session_subscribe_mode(inst, HFI_CMD_SUBSCRIBE_MODE, plane, HFI_PAYLOAD_U32_ARRAY, &payload[0], ((change_param_size + 1) * sizeof(u32))); if (ret) return ret; if (V4L2_TYPE_IS_OUTPUT(plane)) { inst_hfi_gen2->ipsc_properties_set = true; } else { hfi_port = iris_hfi_gen2_get_port(inst, V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE); memcpy(&inst_hfi_gen2->dst_subcr_params, &inst_hfi_gen2->src_subcr_params, sizeof(inst_hfi_gen2->src_subcr_params)); subsc_params = inst_hfi_gen2->dst_subcr_params; for (i = 0; i < change_param_size; i++) { payload[0] = 0; payload[1] = 0; payload_size = 0; payload_type = 0; prop_type = change_param[i]; switch (prop_type) { case HFI_PROP_BITSTREAM_RESOLUTION: payload[0] = subsc_params.bitstream_resolution; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_CROP_OFFSETS: payload[0] = subsc_params.crop_offsets[0]; payload[1] = subsc_params.crop_offsets[1]; payload_size = sizeof(u64); payload_type = HFI_PAYLOAD_64_PACKED; break; case HFI_PROP_CODED_FRAMES: payload[0] = subsc_params.coded_frames; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_LUMA_CHROMA_BIT_DEPTH: payload[0] = subsc_params.bit_depth; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_BUFFER_FW_MIN_OUTPUT_COUNT: payload[0] = subsc_params.fw_min_count; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_PIC_ORDER_CNT_TYPE: payload[0] = subsc_params.pic_order_cnt; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_SIGNAL_COLOR_INFO: payload[0] = subsc_params.color_info; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_PROFILE: payload[0] = subsc_params.profile; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_LEVEL: payload[0] = subsc_params.level; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; case HFI_PROP_TIER: payload[0] = subsc_params.tier; payload_size = sizeof(u32); payload_type = HFI_PAYLOAD_U32; break; default: prop_type = 0; ret = -EINVAL; break; } if (prop_type) { ret = iris_hfi_gen2_session_set_property(inst, prop_type, HFI_HOST_FLAGS_NONE, hfi_port, payload_type, &payload, payload_size); if (ret) return ret; } } inst_hfi_gen2->opsc_properties_set = true; } return 0; } static int iris_hfi_gen2_subscribe_property(struct iris_inst *inst, u32 plane) { struct iris_core *core = inst->core; u32 subscribe_prop_size = 0, i; const u32 *subcribe_prop = NULL; u32 payload[32] = {0}; payload[0] = HFI_MODE_PROPERTY; if (inst->domain == ENCODER) return 0; if (V4L2_TYPE_IS_OUTPUT(plane)) { subscribe_prop_size = core->iris_platform_data->dec_input_prop_size; subcribe_prop = core->iris_platform_data->dec_input_prop; } else { switch (inst->codec) { case V4L2_PIX_FMT_H264: subcribe_prop = core->iris_platform_data->dec_output_prop_avc; subscribe_prop_size = core->iris_platform_data->dec_output_prop_avc_size; break; case V4L2_PIX_FMT_HEVC: subcribe_prop = core->iris_platform_data->dec_output_prop_hevc; subscribe_prop_size = core->iris_platform_data->dec_output_prop_hevc_size; break; case V4L2_PIX_FMT_VP9: subcribe_prop = core->iris_platform_data->dec_output_prop_vp9; subscribe_prop_size = core->iris_platform_data->dec_output_prop_vp9_size; break; } } for (i = 0; i < subscribe_prop_size; i++) payload[i + 1] = subcribe_prop[i]; return iris_hfi_gen2_session_subscribe_mode(inst, HFI_CMD_SUBSCRIBE_MODE, plane, HFI_PAYLOAD_U32_ARRAY, &payload[0], (subscribe_prop_size + 1) * sizeof(u32)); } static int iris_hfi_gen2_session_start(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); int ret = 0; ret = iris_hfi_gen2_subscribe_change_param(inst, plane); if (ret) return ret; ret = iris_hfi_gen2_subscribe_property(inst, plane); if (ret) return ret; iris_hfi_gen2_packet_session_command(inst, HFI_CMD_START, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED), iris_hfi_gen2_get_port(inst, plane), inst->session_id, HFI_PAYLOAD_NONE, NULL, 0); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_stop(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); int ret = 0; reinit_completion(&inst->completion); iris_hfi_gen2_packet_session_command(inst, HFI_CMD_STOP, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED | HFI_HOST_FLAGS_NON_DISCARDABLE), iris_hfi_gen2_get_port(inst, plane), inst->session_id, HFI_PAYLOAD_NONE, NULL, 0); ret = iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); if (ret) return ret; return iris_wait_for_session_response(inst, false); } static int iris_hfi_gen2_session_pause(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); iris_hfi_gen2_packet_session_command(inst, HFI_CMD_PAUSE, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED), iris_hfi_gen2_get_port(inst, plane), inst->session_id, HFI_PAYLOAD_NONE, NULL, 0); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_resume_drc(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 payload = HFI_CMD_SETTINGS_CHANGE; iris_hfi_gen2_packet_session_command(inst, HFI_CMD_RESUME, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED), iris_hfi_gen2_get_port(inst, plane), inst->session_id, HFI_PAYLOAD_U32, &payload, sizeof(u32)); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_resume_drain(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); u32 payload = HFI_CMD_DRAIN; iris_hfi_gen2_packet_session_command(inst, HFI_CMD_RESUME, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED), iris_hfi_gen2_get_port(inst, plane), inst->session_id, HFI_PAYLOAD_U32, &payload, sizeof(u32)); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_drain(struct iris_inst *inst, u32 plane) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); if (!V4L2_TYPE_IS_OUTPUT(plane)) return 0; iris_hfi_gen2_packet_session_command(inst, HFI_CMD_DRAIN, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED | HFI_HOST_FLAGS_NON_DISCARDABLE), iris_hfi_gen2_get_port(inst, plane), inst->session_id, HFI_PAYLOAD_NONE, NULL, 0); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static u32 iris_hfi_gen2_buf_type_from_driver(u32 domain, enum iris_buffer_type buffer_type) { switch (buffer_type) { case BUF_INPUT: if (domain == DECODER) return HFI_BUFFER_BITSTREAM; else return HFI_BUFFER_RAW; case BUF_OUTPUT: if (domain == DECODER) return HFI_BUFFER_RAW; else return HFI_BUFFER_BITSTREAM; case BUF_BIN: return HFI_BUFFER_BIN; case BUF_COMV: return HFI_BUFFER_COMV; case BUF_NON_COMV: return HFI_BUFFER_NON_COMV; case BUF_LINE: return HFI_BUFFER_LINE; case BUF_DPB: case BUF_SCRATCH_2: return HFI_BUFFER_DPB; case BUF_PERSIST: return HFI_BUFFER_PERSIST; case BUF_ARP: return HFI_BUFFER_ARP; case BUF_VPSS: return HFI_BUFFER_VPSS; default: return 0; } } static int iris_set_num_comv(struct iris_inst *inst) { struct platform_inst_caps *caps; struct iris_core *core = inst->core; u32 num_comv; caps = core->iris_platform_data->inst_caps; num_comv = caps->num_comv; return core->hfi_ops->session_set_property(inst, HFI_PROP_COMV_BUFFER_COUNT, HFI_HOST_FLAGS_NONE, HFI_PORT_BITSTREAM, HFI_PAYLOAD_U32, &num_comv, sizeof(u32)); } static void iris_hfi_gen2_get_buffer(u32 domain, struct iris_buffer *buffer, struct iris_hfi_buffer *buf) { memset(buf, 0, sizeof(*buf)); buf->type = iris_hfi_gen2_buf_type_from_driver(domain, buffer->type); buf->index = buffer->index; buf->base_address = buffer->device_addr; buf->addr_offset = 0; buf->buffer_size = buffer->buffer_size; if (domain == DECODER && buffer->type == BUF_INPUT) buf->buffer_size = ALIGN(buffer->buffer_size, 256); buf->data_offset = buffer->data_offset; buf->data_size = buffer->data_size; if (buffer->attr & BUF_ATTR_PENDING_RELEASE) buf->flags |= HFI_BUF_HOST_FLAG_RELEASE; buf->flags |= HFI_BUF_HOST_FLAGS_CB_NON_SECURE; buf->timestamp = buffer->timestamp; } static int iris_hfi_gen2_session_queue_buffer(struct iris_inst *inst, struct iris_buffer *buffer) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct iris_hfi_buffer hfi_buffer; u32 port; int ret; iris_hfi_gen2_get_buffer(inst->domain, buffer, &hfi_buffer); if (buffer->type == BUF_COMV) { ret = iris_set_num_comv(inst); if (ret) return ret; } port = iris_hfi_gen2_get_port_from_buf_type(inst, buffer->type); iris_hfi_gen2_packet_session_command(inst, HFI_CMD_BUFFER, HFI_HOST_FLAGS_INTR_REQUIRED, port, inst->session_id, HFI_PAYLOAD_STRUCTURE, &hfi_buffer, sizeof(hfi_buffer)); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static int iris_hfi_gen2_session_release_buffer(struct iris_inst *inst, struct iris_buffer *buffer) { struct iris_inst_hfi_gen2 *inst_hfi_gen2 = to_iris_inst_hfi_gen2(inst); struct iris_hfi_buffer hfi_buffer; u32 port; iris_hfi_gen2_get_buffer(inst->domain, buffer, &hfi_buffer); hfi_buffer.flags |= HFI_BUF_HOST_FLAG_RELEASE; port = iris_hfi_gen2_get_port_from_buf_type(inst, buffer->type); iris_hfi_gen2_packet_session_command(inst, HFI_CMD_BUFFER, (HFI_HOST_FLAGS_RESPONSE_REQUIRED | HFI_HOST_FLAGS_INTR_REQUIRED), port, inst->session_id, HFI_PAYLOAD_STRUCTURE, &hfi_buffer, sizeof(hfi_buffer)); return iris_hfi_queue_cmd_write(inst->core, inst_hfi_gen2->packet, inst_hfi_gen2->packet->size); } static const struct iris_hfi_command_ops iris_hfi_gen2_command_ops = { .sys_init = iris_hfi_gen2_sys_init, .sys_image_version = iris_hfi_gen2_sys_image_version, .sys_interframe_powercollapse = iris_hfi_gen2_sys_interframe_powercollapse, .sys_pc_prep = iris_hfi_gen2_sys_pc_prep, .session_open = iris_hfi_gen2_session_open, .session_set_config_params = iris_hfi_gen2_session_set_config_params, .session_set_property = iris_hfi_gen2_session_set_property, .session_start = iris_hfi_gen2_session_start, .session_queue_buf = iris_hfi_gen2_session_queue_buffer, .session_release_buf = iris_hfi_gen2_session_release_buffer, .session_pause = iris_hfi_gen2_session_pause, .session_resume_drc = iris_hfi_gen2_session_resume_drc, .session_stop = iris_hfi_gen2_session_stop, .session_drain = iris_hfi_gen2_session_drain, .session_resume_drain = iris_hfi_gen2_session_resume_drain, .session_close = iris_hfi_gen2_session_close, }; void iris_hfi_gen2_command_ops_init(struct iris_core *core) { core->hfi_ops = &iris_hfi_gen2_command_ops; } struct iris_inst *iris_hfi_gen2_get_instance(void) { return kzalloc(sizeof(struct iris_inst_hfi_gen2), GFP_KERNEL); }
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