Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Hugues Fruchet | 1820 | 99.89% | 3 | 75.00% |
Benjamin Gaignard | 2 | 0.11% | 1 | 25.00% |
Total | 1822 | 4 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) STMicroelectronics SA 2013 * Author: Hugues Fruchet <hugues.fruchet@st.com> for STMicroelectronics. */ #include <linux/slab.h> #include "delta.h" #include "delta-ipc.h" #include "delta-mjpeg.h" #include "delta-mjpeg-fw.h" #define DELTA_MJPEG_MAX_RESO DELTA_MAX_RESO struct delta_mjpeg_ctx { /* jpeg header */ struct mjpeg_header header_struct; struct mjpeg_header *header; /* ipc */ void *ipc_hdl; struct delta_buf *ipc_buf; /* decoded output frame */ struct delta_frame *out_frame; unsigned char str[3000]; }; #define to_ctx(ctx) ((struct delta_mjpeg_ctx *)(ctx)->priv) static char *ipc_open_param_str(struct jpeg_video_decode_init_params_t *p, char *str, unsigned int len) { char *b = str; if (!p) return ""; b += snprintf(b, len, "jpeg_video_decode_init_params_t\n" "circular_buffer_begin_addr_p 0x%x\n" "circular_buffer_end_addr_p 0x%x\n", p->circular_buffer_begin_addr_p, p->circular_buffer_end_addr_p); return str; } static char *ipc_decode_param_str(struct jpeg_decode_params_t *p, char *str, unsigned int len) { char *b = str; if (!p) return ""; b += snprintf(b, len, "jpeg_decode_params_t\n" "picture_start_addr_p 0x%x\n" "picture_end_addr_p 0x%x\n" "decoding_mode %d\n" "display_buffer_addr.display_decimated_luma_p 0x%x\n" "display_buffer_addr.display_decimated_chroma_p 0x%x\n" "main_aux_enable %d\n" "additional_flags 0x%x\n" "field_flag %x\n" "is_jpeg_image %x\n", p->picture_start_addr_p, p->picture_end_addr_p, p->decoding_mode, p->display_buffer_addr.display_decimated_luma_p, p->display_buffer_addr.display_decimated_chroma_p, p->main_aux_enable, p->additional_flags, p->field_flag, p->is_jpeg_image); return str; } static inline bool is_stream_error(enum jpeg_decoding_error_t err) { switch (err) { case JPEG_DECODER_UNDEFINED_HUFF_TABLE: case JPEG_DECODER_BAD_RESTART_MARKER: case JPEG_DECODER_BAD_SOS_SPECTRAL: case JPEG_DECODER_BAD_SOS_SUCCESSIVE: case JPEG_DECODER_BAD_HEADER_LENGTH: case JPEG_DECODER_BAD_COUNT_VALUE: case JPEG_DECODER_BAD_DHT_MARKER: case JPEG_DECODER_BAD_INDEX_VALUE: case JPEG_DECODER_BAD_NUMBER_HUFFMAN_TABLES: case JPEG_DECODER_BAD_QUANT_TABLE_LENGTH: case JPEG_DECODER_BAD_NUMBER_QUANT_TABLES: case JPEG_DECODER_BAD_COMPONENT_COUNT: return true; default: return false; } } static inline const char *err_str(enum jpeg_decoding_error_t err) { switch (err) { case JPEG_DECODER_NO_ERROR: return "JPEG_DECODER_NO_ERROR"; case JPEG_DECODER_UNDEFINED_HUFF_TABLE: return "JPEG_DECODER_UNDEFINED_HUFF_TABLE"; case JPEG_DECODER_UNSUPPORTED_MARKER: return "JPEG_DECODER_UNSUPPORTED_MARKER"; case JPEG_DECODER_UNABLE_ALLOCATE_MEMORY: return "JPEG_DECODER_UNABLE_ALLOCATE_MEMORY"; case JPEG_DECODER_NON_SUPPORTED_SAMP_FACTORS: return "JPEG_DECODER_NON_SUPPORTED_SAMP_FACTORS"; case JPEG_DECODER_BAD_PARAMETER: return "JPEG_DECODER_BAD_PARAMETER"; case JPEG_DECODER_DECODE_ERROR: return "JPEG_DECODER_DECODE_ERROR"; case JPEG_DECODER_BAD_RESTART_MARKER: return "JPEG_DECODER_BAD_RESTART_MARKER"; case JPEG_DECODER_UNSUPPORTED_COLORSPACE: return "JPEG_DECODER_UNSUPPORTED_COLORSPACE"; case JPEG_DECODER_BAD_SOS_SPECTRAL: return "JPEG_DECODER_BAD_SOS_SPECTRAL"; case JPEG_DECODER_BAD_SOS_SUCCESSIVE: return "JPEG_DECODER_BAD_SOS_SUCCESSIVE"; case JPEG_DECODER_BAD_HEADER_LENGTH: return "JPEG_DECODER_BAD_HEADER_LENGTH"; case JPEG_DECODER_BAD_COUNT_VALUE: return "JPEG_DECODER_BAD_COUNT_VALUE"; case JPEG_DECODER_BAD_DHT_MARKER: return "JPEG_DECODER_BAD_DHT_MARKER"; case JPEG_DECODER_BAD_INDEX_VALUE: return "JPEG_DECODER_BAD_INDEX_VALUE"; case JPEG_DECODER_BAD_NUMBER_HUFFMAN_TABLES: return "JPEG_DECODER_BAD_NUMBER_HUFFMAN_TABLES"; case JPEG_DECODER_BAD_QUANT_TABLE_LENGTH: return "JPEG_DECODER_BAD_QUANT_TABLE_LENGTH"; case JPEG_DECODER_BAD_NUMBER_QUANT_TABLES: return "JPEG_DECODER_BAD_NUMBER_QUANT_TABLES"; case JPEG_DECODER_BAD_COMPONENT_COUNT: return "JPEG_DECODER_BAD_COMPONENT_COUNT"; case JPEG_DECODER_DIVIDE_BY_ZERO_ERROR: return "JPEG_DECODER_DIVIDE_BY_ZERO_ERROR"; case JPEG_DECODER_NOT_JPG_IMAGE: return "JPEG_DECODER_NOT_JPG_IMAGE"; case JPEG_DECODER_UNSUPPORTED_ROTATION_ANGLE: return "JPEG_DECODER_UNSUPPORTED_ROTATION_ANGLE"; case JPEG_DECODER_UNSUPPORTED_SCALING: return "JPEG_DECODER_UNSUPPORTED_SCALING"; case JPEG_DECODER_INSUFFICIENT_OUTPUTBUFFER_SIZE: return "JPEG_DECODER_INSUFFICIENT_OUTPUTBUFFER_SIZE"; case JPEG_DECODER_BAD_HWCFG_GP_VERSION_VALUE: return "JPEG_DECODER_BAD_HWCFG_GP_VERSION_VALUE"; case JPEG_DECODER_BAD_VALUE_FROM_RED: return "JPEG_DECODER_BAD_VALUE_FROM_RED"; case JPEG_DECODER_BAD_SUBREGION_PARAMETERS: return "JPEG_DECODER_BAD_SUBREGION_PARAMETERS"; case JPEG_DECODER_PROGRESSIVE_DECODE_NOT_SUPPORTED: return "JPEG_DECODER_PROGRESSIVE_DECODE_NOT_SUPPORTED"; case JPEG_DECODER_ERROR_TASK_TIMEOUT: return "JPEG_DECODER_ERROR_TASK_TIMEOUT"; case JPEG_DECODER_ERROR_FEATURE_NOT_SUPPORTED: return "JPEG_DECODER_ERROR_FEATURE_NOT_SUPPORTED"; default: return "!unknown MJPEG error!"; } } static bool delta_mjpeg_check_status(struct delta_ctx *pctx, struct jpeg_decode_return_params_t *status) { struct delta_dev *delta = pctx->dev; bool dump = false; if (status->error_code == JPEG_DECODER_NO_ERROR) goto out; if (is_stream_error(status->error_code)) { dev_warn_ratelimited(delta->dev, "%s firmware: stream error @ frame %d (%s)\n", pctx->name, pctx->decoded_frames, err_str(status->error_code)); pctx->stream_errors++; } else { dev_warn_ratelimited(delta->dev, "%s firmware: decode error @ frame %d (%s)\n", pctx->name, pctx->decoded_frames, err_str(status->error_code)); pctx->decode_errors++; dump = true; } out: dev_dbg(delta->dev, "%s firmware: decoding time(us)=%d\n", pctx->name, status->decode_time_in_us); return dump; } static int delta_mjpeg_ipc_open(struct delta_ctx *pctx) { struct delta_dev *delta = pctx->dev; struct delta_mjpeg_ctx *ctx = to_ctx(pctx); int ret = 0; struct jpeg_video_decode_init_params_t params_struct; struct jpeg_video_decode_init_params_t *params = ¶ms_struct; struct delta_buf *ipc_buf; u32 ipc_buf_size; struct delta_ipc_param ipc_param; void *hdl; memset(params, 0, sizeof(*params)); params->circular_buffer_begin_addr_p = 0x00000000; params->circular_buffer_end_addr_p = 0xffffffff; dev_vdbg(delta->dev, "%s %s\n", pctx->name, ipc_open_param_str(params, ctx->str, sizeof(ctx->str))); ipc_param.size = sizeof(*params); ipc_param.data = params; ipc_buf_size = sizeof(struct jpeg_decode_params_t) + sizeof(struct jpeg_decode_return_params_t); ret = delta_ipc_open(pctx, "JPEG_DECODER_HW0", &ipc_param, ipc_buf_size, &ipc_buf, &hdl); if (ret) { dev_err(delta->dev, "%s dumping command %s\n", pctx->name, ipc_open_param_str(params, ctx->str, sizeof(ctx->str))); return ret; } ctx->ipc_buf = ipc_buf; ctx->ipc_hdl = hdl; return 0; } static int delta_mjpeg_ipc_decode(struct delta_ctx *pctx, struct delta_au *au) { struct delta_dev *delta = pctx->dev; struct delta_mjpeg_ctx *ctx = to_ctx(pctx); int ret = 0; struct jpeg_decode_params_t *params = ctx->ipc_buf->vaddr; struct jpeg_decode_return_params_t *status = ctx->ipc_buf->vaddr + sizeof(*params); struct delta_frame *frame; struct delta_ipc_param ipc_param, ipc_status; ret = delta_get_free_frame(pctx, &frame); if (ret) return ret; memset(params, 0, sizeof(*params)); params->picture_start_addr_p = (u32)(au->paddr); params->picture_end_addr_p = (u32)(au->paddr + au->size - 1); /* * !WARNING! * the NV12 decoded frame is only available * on decimated output when enabling flag * "JPEG_ADDITIONAL_FLAG_420MB"... * the non decimated output gives YUV422SP */ params->main_aux_enable = JPEG_DISP_AUX_EN; params->additional_flags = JPEG_ADDITIONAL_FLAG_420MB; params->horizontal_decimation_factor = JPEG_HDEC_1; params->vertical_decimation_factor = JPEG_VDEC_1; params->decoding_mode = JPEG_NORMAL_DECODE; params->display_buffer_addr.struct_size = sizeof(struct jpeg_display_buffer_address_t); params->display_buffer_addr.display_decimated_luma_p = (u32)frame->paddr; params->display_buffer_addr.display_decimated_chroma_p = (u32)(frame->paddr + frame->info.aligned_width * frame->info.aligned_height); dev_vdbg(delta->dev, "%s %s\n", pctx->name, ipc_decode_param_str(params, ctx->str, sizeof(ctx->str))); /* status */ memset(status, 0, sizeof(*status)); status->error_code = JPEG_DECODER_NO_ERROR; ipc_param.size = sizeof(*params); ipc_param.data = params; ipc_status.size = sizeof(*status); ipc_status.data = status; ret = delta_ipc_decode(ctx->ipc_hdl, &ipc_param, &ipc_status); if (ret) { dev_err(delta->dev, "%s dumping command %s\n", pctx->name, ipc_decode_param_str(params, ctx->str, sizeof(ctx->str))); return ret; } pctx->decoded_frames++; /* check firmware decoding status */ if (delta_mjpeg_check_status(pctx, status)) { dev_err(delta->dev, "%s dumping command %s\n", pctx->name, ipc_decode_param_str(params, ctx->str, sizeof(ctx->str))); } frame->field = V4L2_FIELD_NONE; frame->flags = V4L2_BUF_FLAG_KEYFRAME; frame->state |= DELTA_FRAME_DEC; ctx->out_frame = frame; return 0; } static int delta_mjpeg_open(struct delta_ctx *pctx) { struct delta_mjpeg_ctx *ctx; ctx = kzalloc(sizeof(*ctx), GFP_KERNEL); if (!ctx) return -ENOMEM; pctx->priv = ctx; return 0; } static int delta_mjpeg_close(struct delta_ctx *pctx) { struct delta_mjpeg_ctx *ctx = to_ctx(pctx); if (ctx->ipc_hdl) { delta_ipc_close(ctx->ipc_hdl); ctx->ipc_hdl = NULL; } kfree(ctx); return 0; } static int delta_mjpeg_get_streaminfo(struct delta_ctx *pctx, struct delta_streaminfo *streaminfo) { struct delta_mjpeg_ctx *ctx = to_ctx(pctx); if (!ctx->header) goto nodata; streaminfo->streamformat = V4L2_PIX_FMT_MJPEG; streaminfo->width = ctx->header->frame_width; streaminfo->height = ctx->header->frame_height; /* progressive stream */ streaminfo->field = V4L2_FIELD_NONE; streaminfo->dpb = 1; return 0; nodata: return -ENODATA; } static int delta_mjpeg_decode(struct delta_ctx *pctx, struct delta_au *pau) { struct delta_dev *delta = pctx->dev; struct delta_mjpeg_ctx *ctx = to_ctx(pctx); int ret; struct delta_au au = *pau; unsigned int data_offset = 0; struct mjpeg_header *header = &ctx->header_struct; if (!ctx->header) { ret = delta_mjpeg_read_header(pctx, au.vaddr, au.size, header, &data_offset); if (ret) { pctx->stream_errors++; goto err; } if (header->frame_width * header->frame_height > DELTA_MJPEG_MAX_RESO) { dev_err(delta->dev, "%s stream resolution too large: %dx%d > %d pixels budget\n", pctx->name, header->frame_width, header->frame_height, DELTA_MJPEG_MAX_RESO); ret = -EINVAL; goto err; } ctx->header = header; goto out; } if (!ctx->ipc_hdl) { ret = delta_mjpeg_ipc_open(pctx); if (ret) goto err; } ret = delta_mjpeg_read_header(pctx, au.vaddr, au.size, ctx->header, &data_offset); if (ret) { pctx->stream_errors++; goto err; } au.paddr += data_offset; au.vaddr += data_offset; ret = delta_mjpeg_ipc_decode(pctx, &au); if (ret) goto err; out: return 0; err: return ret; } static int delta_mjpeg_get_frame(struct delta_ctx *pctx, struct delta_frame **frame) { struct delta_mjpeg_ctx *ctx = to_ctx(pctx); if (!ctx->out_frame) return -ENODATA; *frame = ctx->out_frame; ctx->out_frame = NULL; return 0; } const struct delta_dec mjpegdec = { .name = "MJPEG", .streamformat = V4L2_PIX_FMT_MJPEG, .pixelformat = V4L2_PIX_FMT_NV12, .open = delta_mjpeg_open, .close = delta_mjpeg_close, .get_streaminfo = delta_mjpeg_get_streaminfo, .get_frameinfo = delta_get_frameinfo_default, .decode = delta_mjpeg_decode, .get_frame = delta_mjpeg_get_frame, .recycle = delta_recycle_default, };
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