// SPDX-License-Identifier: GPL-2.0 /* * Copyright 2020-2021 NXP */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "vpu.h" #include "vpu_rpc.h" #include "vpu_defs.h" #include "vpu_helpers.h" #include "vpu_v4l2.h" #include "vpu_cmds.h" #include "vpu_imx8q.h" #include "vpu_malone.h" #define CMD_SIZE 25600 #define MSG_SIZE 25600 #define CODEC_SIZE 0x1000 #define JPEG_SIZE 0x1000 #define SEQ_SIZE 0x1000 #define GOP_SIZE 0x1000 #define PIC_SIZE 0x1000 #define QMETER_SIZE 0x1000 #define DBGLOG_SIZE 0x10000 #define DEBUG_SIZE 0x80000 #define ENG_SIZE 0x1000 #define MALONE_SKIPPED_FRAME_ID 0x555 #define MALONE_ALIGN_MBI 0x800 #define MALONE_DCP_CHUNK_BIT 16 #define MALONE_DCP_SIZE_MAX 0x3000000 #define MALONE_DCP_SIZE_MIN 0x100000 #define MALONE_DCP_FIXED_MB_ALLOC 250 #define CONFIG_SET(val, cfg, pos, mask) \ (*(cfg) |= (((val) << (pos)) & (mask))) //x means source data , y means destination data #define STREAM_CONFIG_FORMAT_SET(x, y) CONFIG_SET(x, y, 0, 0x0000000F) #define STREAM_CONFIG_STRBUFIDX_SET(x, y) CONFIG_SET(x, y, 8, 0x00000300) #define STREAM_CONFIG_NOSEQ_SET(x, y) CONFIG_SET(x, y, 10, 0x00000400) #define STREAM_CONFIG_DEBLOCK_SET(x, y) CONFIG_SET(x, y, 11, 0x00000800) #define STREAM_CONFIG_DERING_SET(x, y) CONFIG_SET(x, y, 12, 0x00001000) #define STREAM_CONFIG_IBWAIT_SET(x, y) CONFIG_SET(x, y, 13, 0x00002000) #define STREAM_CONFIG_FBC_SET(x, y) CONFIG_SET(x, y, 14, 0x00004000) #define STREAM_CONFIG_PLAY_MODE_SET(x, y) CONFIG_SET(x, y, 16, 0x00030000) #define STREAM_CONFIG_ENABLE_DCP_SET(x, y) CONFIG_SET(x, y, 20, 0x00100000) #define STREAM_CONFIG_NUM_STR_BUF_SET(x, y) CONFIG_SET(x, y, 21, 0x00600000) #define STREAM_CONFIG_MALONE_USAGE_SET(x, y) CONFIG_SET(x, y, 23, 0x01800000) #define STREAM_CONFIG_MULTI_VID_SET(x, y) CONFIG_SET(x, y, 25, 0x02000000) #define STREAM_CONFIG_OBFUSC_EN_SET(x, y) CONFIG_SET(x, y, 26, 0x04000000) #define STREAM_CONFIG_RC4_EN_SET(x, y) CONFIG_SET(x, y, 27, 0x08000000) #define STREAM_CONFIG_MCX_SET(x, y) CONFIG_SET(x, y, 28, 0x10000000) #define STREAM_CONFIG_PES_SET(x, y) CONFIG_SET(x, y, 29, 0x20000000) #define STREAM_CONFIG_NUM_DBE_SET(x, y) CONFIG_SET(x, y, 30, 0x40000000) #define STREAM_CONFIG_FS_CTRL_MODE_SET(x, y) CONFIG_SET(x, y, 31, 0x80000000) enum vpu_malone_stream_input_mode { INVALID_MODE = 0, FRAME_LVL, NON_FRAME_LVL }; enum vpu_malone_format { MALONE_FMT_NULL = 0x0, MALONE_FMT_AVC = 0x1, MALONE_FMT_MP2 = 0x2, MALONE_FMT_VC1 = 0x3, MALONE_FMT_AVS = 0x4, MALONE_FMT_ASP = 0x5, MALONE_FMT_JPG = 0x6, MALONE_FMT_RV = 0x7, MALONE_FMT_VP6 = 0x8, MALONE_FMT_SPK = 0x9, MALONE_FMT_VP8 = 0xA, MALONE_FMT_HEVC = 0xB, MALONE_FMT_LAST = MALONE_FMT_HEVC }; enum { VID_API_CMD_NULL = 0x00, VID_API_CMD_PARSE_NEXT_SEQ = 0x01, VID_API_CMD_PARSE_NEXT_I = 0x02, VID_API_CMD_PARSE_NEXT_IP = 0x03, VID_API_CMD_PARSE_NEXT_ANY = 0x04, VID_API_CMD_DEC_PIC = 0x05, VID_API_CMD_UPDATE_ES_WR_PTR = 0x06, VID_API_CMD_UPDATE_ES_RD_PTR = 0x07, VID_API_CMD_UPDATE_UDATA = 0x08, VID_API_CMD_GET_FSINFO = 0x09, VID_API_CMD_SKIP_PIC = 0x0a, VID_API_CMD_DEC_CHUNK = 0x0b, VID_API_CMD_START = 0x10, VID_API_CMD_STOP = 0x11, VID_API_CMD_ABORT = 0x12, VID_API_CMD_RST_BUF = 0x13, VID_API_CMD_FS_RELEASE = 0x15, VID_API_CMD_MEM_REGION_ATTACH = 0x16, VID_API_CMD_MEM_REGION_DETACH = 0x17, VID_API_CMD_MVC_VIEW_SELECT = 0x18, VID_API_CMD_FS_ALLOC = 0x19, VID_API_CMD_DBG_GET_STATUS = 0x1C, VID_API_CMD_DBG_START_LOG = 0x1D, VID_API_CMD_DBG_STOP_LOG = 0x1E, VID_API_CMD_DBG_DUMP_LOG = 0x1F, VID_API_CMD_YUV_READY = 0x20, VID_API_CMD_TS = 0x21, VID_API_CMD_FIRM_RESET = 0x40, VID_API_CMD_SNAPSHOT = 0xAA, VID_API_CMD_ROLL_SNAPSHOT = 0xAB, VID_API_CMD_LOCK_SCHEDULER = 0xAC, VID_API_CMD_UNLOCK_SCHEDULER = 0xAD, VID_API_CMD_CQ_FIFO_DUMP = 0xAE, VID_API_CMD_DBG_FIFO_DUMP = 0xAF, VID_API_CMD_SVC_ILP = 0xBB, VID_API_CMD_FW_STATUS = 0xF0, VID_API_CMD_INVALID = 0xFF }; enum { VID_API_EVENT_NULL = 0x00, VID_API_EVENT_RESET_DONE = 0x01, VID_API_EVENT_SEQ_HDR_FOUND = 0x02, VID_API_EVENT_PIC_HDR_FOUND = 0x03, VID_API_EVENT_PIC_DECODED = 0x04, VID_API_EVENT_FIFO_LOW = 0x05, VID_API_EVENT_FIFO_HIGH = 0x06, VID_API_EVENT_FIFO_EMPTY = 0x07, VID_API_EVENT_FIFO_FULL = 0x08, VID_API_EVENT_BS_ERROR = 0x09, VID_API_EVENT_UDATA_FIFO_UPTD = 0x0A, VID_API_EVENT_RES_CHANGE = 0x0B, VID_API_EVENT_FIFO_OVF = 0x0C, VID_API_EVENT_CHUNK_DECODED = 0x0D, VID_API_EVENT_REQ_FRAME_BUFF = 0x10, VID_API_EVENT_FRAME_BUFF_RDY = 0x11, VID_API_EVENT_REL_FRAME_BUFF = 0x12, VID_API_EVENT_STR_BUF_RST = 0x13, VID_API_EVENT_RET_PING = 0x14, VID_API_EVENT_QMETER = 0x15, VID_API_EVENT_STR_FMT_CHANGE = 0x16, VID_API_EVENT_FIRMWARE_XCPT = 0x17, VID_API_EVENT_START_DONE = 0x18, VID_API_EVENT_STOPPED = 0x19, VID_API_EVENT_ABORT_DONE = 0x1A, VID_API_EVENT_FINISHED = 0x1B, VID_API_EVENT_DBG_STAT_UPDATE = 0x1C, VID_API_EVENT_DBG_LOG_STARTED = 0x1D, VID_API_EVENT_DBG_LOG_STOPPED = 0x1E, VID_API_EVENT_DBG_LOG_UPDATED = 0x1F, VID_API_EVENT_DBG_MSG_DEC = 0x20, VID_API_EVENT_DEC_SC_ERR = 0x21, VID_API_EVENT_CQ_FIFO_DUMP = 0x22, VID_API_EVENT_DBG_FIFO_DUMP = 0x23, VID_API_EVENT_DEC_CHECK_RES = 0x24, VID_API_EVENT_DEC_CFG_INFO = 0x25, VID_API_EVENT_UNSUPPORTED_STREAM = 0x26, VID_API_EVENT_PIC_SKIPPED = 0x27, VID_API_EVENT_STR_SUSPENDED = 0x30, VID_API_EVENT_SNAPSHOT_DONE = 0x40, VID_API_EVENT_FW_STATUS = 0xF0, VID_API_EVENT_INVALID = 0xFF }; struct vpu_malone_buffer_desc { struct vpu_rpc_buffer_desc buffer; u32 low; u32 high; }; struct vpu_malone_str_buffer { u32 wptr; u32 rptr; u32 start; u32 end; u32 lwm; }; struct vpu_malone_picth_info { u32 frame_pitch; }; struct vpu_malone_table_desc { u32 array_base; u32 size; }; struct vpu_malone_dbglog_desc { u32 addr; u32 size; u32 level; u32 reserved; }; struct vpu_malone_frame_buffer { u32 addr; u32 size; }; struct vpu_malone_udata { u32 base; u32 total_size; u32 slot_size; }; struct vpu_malone_buffer_info { u32 stream_input_mode; u32 stream_pic_input_count; u32 stream_pic_parsed_count; u32 stream_buffer_threshold; u32 stream_pic_end_flag; }; struct vpu_malone_encrypt_info { u32 rec4key[8]; u32 obfusc; }; struct malone_iface { u32 exec_base_addr; u32 exec_area_size; struct vpu_malone_buffer_desc cmd_buffer_desc; struct vpu_malone_buffer_desc msg_buffer_desc; u32 cmd_int_enable[VID_API_NUM_STREAMS]; struct vpu_malone_picth_info stream_pitch_info[VID_API_NUM_STREAMS]; u32 stream_config[VID_API_NUM_STREAMS]; struct vpu_malone_table_desc codec_param_tab_desc; struct vpu_malone_table_desc jpeg_param_tab_desc; u32 stream_buffer_desc[VID_API_NUM_STREAMS][VID_API_MAX_BUF_PER_STR]; struct vpu_malone_table_desc seq_info_tab_desc; struct vpu_malone_table_desc pic_info_tab_desc; struct vpu_malone_table_desc gop_info_tab_desc; struct vpu_malone_table_desc qmeter_info_tab_desc; u32 stream_error[VID_API_NUM_STREAMS]; u32 fw_version; u32 fw_offset; u32 max_streams; struct vpu_malone_dbglog_desc dbglog_desc; struct vpu_rpc_buffer_desc api_cmd_buffer_desc[VID_API_NUM_STREAMS]; struct vpu_malone_udata udata_buffer[VID_API_NUM_STREAMS]; struct vpu_malone_buffer_desc debug_buffer_desc; struct vpu_malone_buffer_desc eng_access_buff_desc[VID_API_NUM_STREAMS]; u32 encrypt_info[VID_API_NUM_STREAMS]; struct vpu_rpc_system_config system_cfg; u32 api_version; struct vpu_malone_buffer_info stream_buff_info[VID_API_NUM_STREAMS]; }; struct malone_jpg_params { u32 rotation_angle; u32 horiz_scale_factor; u32 vert_scale_factor; u32 rotation_mode; u32 rgb_mode; u32 chunk_mode; /* 0 ~ 1 */ u32 last_chunk; /* 0 ~ 1 */ u32 chunk_rows; /* 0 ~ 255 */ u32 num_bytes; u32 jpg_crop_x; u32 jpg_crop_y; u32 jpg_crop_width; u32 jpg_crop_height; u32 jpg_mjpeg_mode; u32 jpg_mjpeg_interlaced; }; struct malone_codec_params { u32 disp_imm; u32 fourcc; u32 codec_version; u32 frame_rate; u32 dbglog_enable; u32 bsdma_lwm; u32 bbd_coring; u32 bbd_s_thr_row; u32 bbd_p_thr_row; u32 bbd_s_thr_logo_row; u32 bbd_p_thr_logo_row; u32 bbd_s_thr_col; u32 bbd_p_thr_col; u32 bbd_chr_thr_row; u32 bbd_chr_thr_col; u32 bbd_uv_mid_level; u32 bbd_excl_win_mb_left; u32 bbd_excl_win_mb_right; }; struct malone_padding_scode { u32 scode_type; u32 pixelformat; u32 data[2]; }; struct malone_fmt_mapping { u32 pixelformat; enum vpu_malone_format malone_format; u32 is_disabled; }; struct malone_scode_t { struct vpu_inst *inst; struct vb2_buffer *vb; u32 wptr; u32 need_data; }; struct malone_scode_handler { u32 pixelformat; int (*insert_scode_seq)(struct malone_scode_t *scode); int (*insert_scode_pic)(struct malone_scode_t *scode); }; struct vpu_dec_ctrl { struct malone_codec_params *codec_param; struct malone_jpg_params *jpg; void *seq_mem; void *pic_mem; void *gop_mem; void *qmeter_mem; void *dbglog_mem; struct vpu_malone_str_buffer __iomem *str_buf[VID_API_NUM_STREAMS]; u32 buf_addr[VID_API_NUM_STREAMS]; }; u32 vpu_malone_get_data_size(void) { return sizeof(struct vpu_dec_ctrl); } void vpu_malone_init_rpc(struct vpu_shared_addr *shared, struct vpu_buffer *rpc, dma_addr_t boot_addr) { struct malone_iface *iface; struct vpu_dec_ctrl *hc; unsigned long base_phy_addr; unsigned long phy_addr; unsigned long offset; unsigned int i; if (rpc->phys < boot_addr) return; iface = rpc->virt; base_phy_addr = rpc->phys - boot_addr; hc = shared->priv; shared->iface = iface; shared->boot_addr = boot_addr; iface->exec_base_addr = base_phy_addr; iface->exec_area_size = rpc->length; offset = sizeof(struct malone_iface); phy_addr = base_phy_addr + offset; shared->cmd_desc = &iface->cmd_buffer_desc.buffer; shared->cmd_mem_vir = rpc->virt + offset; iface->cmd_buffer_desc.buffer.start = iface->cmd_buffer_desc.buffer.rptr = iface->cmd_buffer_desc.buffer.wptr = phy_addr; iface->cmd_buffer_desc.buffer.end = iface->cmd_buffer_desc.buffer.start + CMD_SIZE; offset += CMD_SIZE; phy_addr = base_phy_addr + offset; shared->msg_desc = &iface->msg_buffer_desc.buffer; shared->msg_mem_vir = rpc->virt + offset; iface->msg_buffer_desc.buffer.start = iface->msg_buffer_desc.buffer.wptr = iface->msg_buffer_desc.buffer.rptr = phy_addr; iface->msg_buffer_desc.buffer.end = iface->msg_buffer_desc.buffer.start + MSG_SIZE; offset += MSG_SIZE; phy_addr = base_phy_addr + offset; iface->codec_param_tab_desc.array_base = phy_addr; hc->codec_param = rpc->virt + offset; offset += CODEC_SIZE; phy_addr = base_phy_addr + offset; iface->jpeg_param_tab_desc.array_base = phy_addr; hc->jpg = rpc->virt + offset; offset += JPEG_SIZE; phy_addr = base_phy_addr + offset; iface->seq_info_tab_desc.array_base = phy_addr; hc->seq_mem = rpc->virt + offset; offset += SEQ_SIZE; phy_addr = base_phy_addr + offset; iface->pic_info_tab_desc.array_base = phy_addr; hc->pic_mem = rpc->virt + offset; offset += PIC_SIZE; phy_addr = base_phy_addr + offset; iface->gop_info_tab_desc.array_base = phy_addr; hc->gop_mem = rpc->virt + offset; offset += GOP_SIZE; phy_addr = base_phy_addr + offset; iface->qmeter_info_tab_desc.array_base = phy_addr; hc->qmeter_mem = rpc->virt + offset; offset += QMETER_SIZE; phy_addr = base_phy_addr + offset; iface->dbglog_desc.addr = phy_addr; iface->dbglog_desc.size = DBGLOG_SIZE; hc->dbglog_mem = rpc->virt + offset; offset += DBGLOG_SIZE; phy_addr = base_phy_addr + offset; for (i = 0; i < VID_API_NUM_STREAMS; i++) { iface->eng_access_buff_desc[i].buffer.start = iface->eng_access_buff_desc[i].buffer.wptr = iface->eng_access_buff_desc[i].buffer.rptr = phy_addr; iface->eng_access_buff_desc[i].buffer.end = iface->eng_access_buff_desc[i].buffer.start + ENG_SIZE; offset += ENG_SIZE; phy_addr = base_phy_addr + offset; } for (i = 0; i < VID_API_NUM_STREAMS; i++) { iface->encrypt_info[i] = phy_addr; offset += sizeof(struct vpu_malone_encrypt_info); phy_addr = base_phy_addr + offset; } rpc->bytesused = offset; } void vpu_malone_set_log_buf(struct vpu_shared_addr *shared, struct vpu_buffer *log) { struct malone_iface *iface = shared->iface; iface->debug_buffer_desc.buffer.start = iface->debug_buffer_desc.buffer.wptr = iface->debug_buffer_desc.buffer.rptr = log->phys - shared->boot_addr; iface->debug_buffer_desc.buffer.end = iface->debug_buffer_desc.buffer.start + log->length; } static u32 get_str_buffer_offset(u32 instance) { return DEC_MFD_XREG_SLV_BASE + MFD_MCX + MFD_MCX_OFF * instance; } void vpu_malone_set_system_cfg(struct vpu_shared_addr *shared, u32 regs_base, void __iomem *regs, u32 core_id) { struct malone_iface *iface = shared->iface; struct vpu_rpc_system_config *config = &iface->system_cfg; struct vpu_dec_ctrl *hc = shared->priv; int i; vpu_imx8q_set_system_cfg_common(config, regs_base, core_id); for (i = 0; i < VID_API_NUM_STREAMS; i++) { u32 offset = get_str_buffer_offset(i); hc->buf_addr[i] = regs_base + offset; hc->str_buf[i] = regs + offset; } } u32 vpu_malone_get_version(struct vpu_shared_addr *shared) { struct malone_iface *iface = shared->iface; return iface->fw_version; } int vpu_malone_get_stream_buffer_size(struct vpu_shared_addr *shared) { return 0xc00000; } int vpu_malone_config_stream_buffer(struct vpu_shared_addr *shared, u32 instance, struct vpu_buffer *buf) { struct malone_iface *iface = shared->iface; struct vpu_dec_ctrl *hc = shared->priv; struct vpu_malone_str_buffer __iomem *str_buf = hc->str_buf[instance]; writel(buf->phys, &str_buf->start); writel(buf->phys, &str_buf->rptr); writel(buf->phys, &str_buf->wptr); writel(buf->phys + buf->length, &str_buf->end); writel(0x1, &str_buf->lwm); iface->stream_buffer_desc[instance][0] = hc->buf_addr[instance]; return 0; } int vpu_malone_get_stream_buffer_desc(struct vpu_shared_addr *shared, u32 instance, struct vpu_rpc_buffer_desc *desc) { struct vpu_dec_ctrl *hc = shared->priv; struct vpu_malone_str_buffer __iomem *str_buf = hc->str_buf[instance]; if (desc) { desc->wptr = readl(&str_buf->wptr); desc->rptr = readl(&str_buf->rptr); desc->start = readl(&str_buf->start); desc->end = readl(&str_buf->end); } return 0; } static void vpu_malone_update_wptr(struct vpu_malone_str_buffer __iomem *str_buf, u32 wptr) { /*update wptr after data is written*/ mb(); writel(wptr, &str_buf->wptr); } static void vpu_malone_update_rptr(struct vpu_malone_str_buffer __iomem *str_buf, u32 rptr) { /*update rptr after data is read*/ mb(); writel(rptr, &str_buf->rptr); } int vpu_malone_update_stream_buffer(struct vpu_shared_addr *shared, u32 instance, u32 ptr, bool write) { struct vpu_dec_ctrl *hc = shared->priv; struct vpu_malone_str_buffer __iomem *str_buf = hc->str_buf[instance]; if (write) vpu_malone_update_wptr(str_buf, ptr); else vpu_malone_update_rptr(str_buf, ptr); return 0; } static struct malone_fmt_mapping fmt_mappings[] = { {V4L2_PIX_FMT_H264, MALONE_FMT_AVC}, {V4L2_PIX_FMT_H264_MVC, MALONE_FMT_AVC}, {V4L2_PIX_FMT_HEVC, MALONE_FMT_HEVC}, {V4L2_PIX_FMT_VC1_ANNEX_G, MALONE_FMT_VC1}, {V4L2_PIX_FMT_VC1_ANNEX_L, MALONE_FMT_VC1}, {V4L2_PIX_FMT_MPEG2, MALONE_FMT_MP2}, {V4L2_PIX_FMT_MPEG4, MALONE_FMT_ASP}, {V4L2_PIX_FMT_XVID, MALONE_FMT_ASP}, {V4L2_PIX_FMT_H263, MALONE_FMT_ASP}, {V4L2_PIX_FMT_JPEG, MALONE_FMT_JPG}, {V4L2_PIX_FMT_VP8, MALONE_FMT_VP8}, }; static enum vpu_malone_format vpu_malone_format_remap(u32 pixelformat) { u32 i; for (i = 0; i < ARRAY_SIZE(fmt_mappings); i++) { if (fmt_mappings[i].is_disabled) continue; if (pixelformat == fmt_mappings[i].pixelformat) return fmt_mappings[i].malone_format; } return MALONE_FMT_NULL; } bool vpu_malone_check_fmt(enum vpu_core_type type, u32 pixelfmt) { if (!vpu_imx8q_check_fmt(type, pixelfmt)) return false; if (pixelfmt == V4L2_PIX_FMT_NV12M_8L128 || pixelfmt == V4L2_PIX_FMT_NV12M_10BE_8L128) return true; if (vpu_malone_format_remap(pixelfmt) == MALONE_FMT_NULL) return false; return true; } static void vpu_malone_set_stream_cfg(struct vpu_shared_addr *shared, u32 instance, enum vpu_malone_format malone_format) { struct malone_iface *iface = shared->iface; u32 *curr_str_cfg = &iface->stream_config[instance]; *curr_str_cfg = 0; STREAM_CONFIG_FORMAT_SET(malone_format, curr_str_cfg); STREAM_CONFIG_STRBUFIDX_SET(0, curr_str_cfg); STREAM_CONFIG_NOSEQ_SET(0, curr_str_cfg); STREAM_CONFIG_DEBLOCK_SET(0, curr_str_cfg); STREAM_CONFIG_DERING_SET(0, curr_str_cfg); STREAM_CONFIG_PLAY_MODE_SET(0x3, curr_str_cfg); STREAM_CONFIG_FS_CTRL_MODE_SET(0x1, curr_str_cfg); STREAM_CONFIG_ENABLE_DCP_SET(1, curr_str_cfg); STREAM_CONFIG_NUM_STR_BUF_SET(1, curr_str_cfg); STREAM_CONFIG_MALONE_USAGE_SET(1, curr_str_cfg); STREAM_CONFIG_MULTI_VID_SET(0, curr_str_cfg); STREAM_CONFIG_OBFUSC_EN_SET(0, curr_str_cfg); STREAM_CONFIG_RC4_EN_SET(0, curr_str_cfg); STREAM_CONFIG_MCX_SET(1, curr_str_cfg); STREAM_CONFIG_PES_SET(0, curr_str_cfg); STREAM_CONFIG_NUM_DBE_SET(1, curr_str_cfg); } static int vpu_malone_set_params(struct vpu_shared_addr *shared, u32 instance, struct vpu_decode_params *params) { struct malone_iface *iface = shared->iface; struct vpu_dec_ctrl *hc = shared->priv; enum vpu_malone_format malone_format; malone_format = vpu_malone_format_remap(params->codec_format); if (WARN_ON(malone_format == MALONE_FMT_NULL)) return -EINVAL; iface->udata_buffer[instance].base = params->udata.base; iface->udata_buffer[instance].slot_size = params->udata.size; vpu_malone_set_stream_cfg(shared, instance, malone_format); if (malone_format == MALONE_FMT_JPG) { //1:JPGD_MJPEG_MODE_A; 2:JPGD_MJPEG_MODE_B hc->jpg[instance].jpg_mjpeg_mode = 1; //0: JPGD_MJPEG_PROGRESSIVE hc->jpg[instance].jpg_mjpeg_interlaced = 0; } hc->codec_param[instance].disp_imm = params->b_dis_reorder ? 1 : 0; hc->codec_param[instance].dbglog_enable = 0; iface->dbglog_desc.level = 0; if (params->b_non_frame) iface->stream_buff_info[instance].stream_input_mode = NON_FRAME_LVL; else iface->stream_buff_info[instance].stream_input_mode = FRAME_LVL; iface->stream_buff_info[instance].stream_buffer_threshold = 0; iface->stream_buff_info[instance].stream_pic_input_count = 0; return 0; } static bool vpu_malone_is_non_frame_mode(struct vpu_shared_addr *shared, u32 instance) { struct malone_iface *iface = shared->iface; if (iface->stream_buff_info[instance].stream_input_mode == NON_FRAME_LVL) return true; return false; } static int vpu_malone_update_params(struct vpu_shared_addr *shared, u32 instance, struct vpu_decode_params *params) { struct malone_iface *iface = shared->iface; if (params->end_flag) iface->stream_buff_info[instance].stream_pic_end_flag = params->end_flag; params->end_flag = 0; return 0; } int vpu_malone_set_decode_params(struct vpu_shared_addr *shared, u32 instance, struct vpu_decode_params *params, u32 update) { if (!params) return -EINVAL; if (!update) return vpu_malone_set_params(shared, instance, params); else return vpu_malone_update_params(shared, instance, params); } static struct vpu_pair malone_cmds[] = { {VPU_CMD_ID_START, VID_API_CMD_START}, {VPU_CMD_ID_STOP, VID_API_CMD_STOP}, {VPU_CMD_ID_ABORT, VID_API_CMD_ABORT}, {VPU_CMD_ID_RST_BUF, VID_API_CMD_RST_BUF}, {VPU_CMD_ID_SNAPSHOT, VID_API_CMD_SNAPSHOT}, {VPU_CMD_ID_FIRM_RESET, VID_API_CMD_FIRM_RESET}, {VPU_CMD_ID_FS_ALLOC, VID_API_CMD_FS_ALLOC}, {VPU_CMD_ID_FS_RELEASE, VID_API_CMD_FS_RELEASE}, {VPU_CMD_ID_TIMESTAMP, VID_API_CMD_TS}, {VPU_CMD_ID_DEBUG, VID_API_CMD_FW_STATUS}, }; static struct vpu_pair malone_msgs[] = { {VPU_MSG_ID_RESET_DONE, VID_API_EVENT_RESET_DONE}, {VPU_MSG_ID_START_DONE, VID_API_EVENT_START_DONE}, {VPU_MSG_ID_STOP_DONE, VID_API_EVENT_STOPPED}, {VPU_MSG_ID_ABORT_DONE, VID_API_EVENT_ABORT_DONE}, {VPU_MSG_ID_BUF_RST, VID_API_EVENT_STR_BUF_RST}, {VPU_MSG_ID_PIC_EOS, VID_API_EVENT_FINISHED}, {VPU_MSG_ID_SEQ_HDR_FOUND, VID_API_EVENT_SEQ_HDR_FOUND}, {VPU_MSG_ID_RES_CHANGE, VID_API_EVENT_RES_CHANGE}, {VPU_MSG_ID_PIC_HDR_FOUND, VID_API_EVENT_PIC_HDR_FOUND}, {VPU_MSG_ID_PIC_DECODED, VID_API_EVENT_PIC_DECODED}, {VPU_MSG_ID_DEC_DONE, VID_API_EVENT_FRAME_BUFF_RDY}, {VPU_MSG_ID_FRAME_REQ, VID_API_EVENT_REQ_FRAME_BUFF}, {VPU_MSG_ID_FRAME_RELEASE, VID_API_EVENT_REL_FRAME_BUFF}, {VPU_MSG_ID_FIFO_LOW, VID_API_EVENT_FIFO_LOW}, {VPU_MSG_ID_BS_ERROR, VID_API_EVENT_BS_ERROR}, {VPU_MSG_ID_UNSUPPORTED, VID_API_EVENT_UNSUPPORTED_STREAM}, {VPU_MSG_ID_FIRMWARE_XCPT, VID_API_EVENT_FIRMWARE_XCPT}, {VPU_MSG_ID_PIC_SKIPPED, VID_API_EVENT_PIC_SKIPPED}, }; static void vpu_malone_pack_fs_alloc(struct vpu_rpc_event *pkt, struct vpu_fs_info *fs) { const u32 fs_type[] = { [MEM_RES_FRAME] = 0, [MEM_RES_MBI] = 1, [MEM_RES_DCP] = 2, }; pkt->hdr.num = 7; pkt->data[0] = fs->id | (fs->tag << 24); pkt->data[1] = fs->luma_addr; if (fs->type == MEM_RES_FRAME) { /* * if luma_addr equal to chroma_addr, * means luma(plane[0]) and chromau(plane[1]) used the * same fd -- usage of NXP codec2. Need to manually * offset chroma addr. */ if (fs->luma_addr == fs->chroma_addr) fs->chroma_addr = fs->luma_addr + fs->luma_size; pkt->data[2] = fs->luma_addr + fs->luma_size / 2; pkt->data[3] = fs->chroma_addr; pkt->data[4] = fs->chroma_addr + fs->chromau_size / 2; pkt->data[5] = fs->bytesperline; } else { pkt->data[2] = fs->luma_size; pkt->data[3] = 0; pkt->data[4] = 0; pkt->data[5] = 0; } pkt->data[6] = fs_type[fs->type]; } static void vpu_malone_pack_fs_release(struct vpu_rpc_event *pkt, struct vpu_fs_info *fs) { pkt->hdr.num = 1; pkt->data[0] = fs->id | (fs->tag << 24); } static void vpu_malone_pack_timestamp(struct vpu_rpc_event *pkt, struct vpu_ts_info *info) { struct timespec64 ts = ns_to_timespec64(info->timestamp); pkt->hdr.num = 3; pkt->data[0] = ts.tv_sec; pkt->data[1] = ts.tv_nsec; pkt->data[2] = info->size; } int vpu_malone_pack_cmd(struct vpu_rpc_event *pkt, u32 index, u32 id, void *data) { int ret; ret = vpu_find_dst_by_src(malone_cmds, ARRAY_SIZE(malone_cmds), id); if (ret < 0) return ret; pkt->hdr.id = ret; pkt->hdr.num = 0; pkt->hdr.index = index; switch (id) { case VPU_CMD_ID_FS_ALLOC: vpu_malone_pack_fs_alloc(pkt, data); break; case VPU_CMD_ID_FS_RELEASE: vpu_malone_pack_fs_release(pkt, data); break; case VPU_CMD_ID_TIMESTAMP: vpu_malone_pack_timestamp(pkt, data); break; } pkt->hdr.index = index; return 0; } int vpu_malone_convert_msg_id(u32 id) { return vpu_find_src_by_dst(malone_msgs, ARRAY_SIZE(malone_msgs), id); } static void vpu_malone_fill_planes(struct vpu_dec_codec_info *info) { u32 interlaced = info->progressive ? 0 : 1; info->bytesperline[0] = 0; info->sizeimage[0] = vpu_helper_get_plane_size(info->pixfmt, info->decoded_width, info->decoded_height, 0, info->stride, interlaced, &info->bytesperline[0]); info->bytesperline[1] = 0; info->sizeimage[1] = vpu_helper_get_plane_size(info->pixfmt, info->decoded_width, info->decoded_height, 1, info->stride, interlaced, &info->bytesperline[1]); } static void vpu_malone_init_seq_hdr(struct vpu_dec_codec_info *info) { u32 chunks = info->num_dfe_area >> MALONE_DCP_CHUNK_BIT; vpu_malone_fill_planes(info); info->mbi_size = (info->sizeimage[0] + info->sizeimage[1]) >> 2; info->mbi_size = ALIGN(info->mbi_size, MALONE_ALIGN_MBI); info->dcp_size = MALONE_DCP_SIZE_MAX; if (chunks) { u32 mb_num; u32 mb_w; u32 mb_h; mb_w = DIV_ROUND_UP(info->decoded_width, 16); mb_h = DIV_ROUND_UP(info->decoded_height, 16); mb_num = mb_w * mb_h; info->dcp_size = mb_num * MALONE_DCP_FIXED_MB_ALLOC * chunks; info->dcp_size = clamp_t(u32, info->dcp_size, MALONE_DCP_SIZE_MIN, MALONE_DCP_SIZE_MAX); } } static void vpu_malone_unpack_seq_hdr(struct vpu_rpc_event *pkt, struct vpu_dec_codec_info *info) { info->num_ref_frms = pkt->data[0]; info->num_dpb_frms = pkt->data[1]; info->num_dfe_area = pkt->data[2]; info->progressive = pkt->data[3]; info->width = pkt->data[5]; info->height = pkt->data[4]; info->decoded_width = pkt->data[12]; info->decoded_height = pkt->data[11]; info->frame_rate.numerator = 1000; info->frame_rate.denominator = pkt->data[8]; info->dsp_asp_ratio = pkt->data[9]; info->level_idc = pkt->data[10]; info->bit_depth_luma = pkt->data[13]; info->bit_depth_chroma = pkt->data[14]; info->chroma_fmt = pkt->data[15]; info->color_primaries = vpu_color_cvrt_primaries_i2v(pkt->data[16]); info->transfer_chars = vpu_color_cvrt_transfers_i2v(pkt->data[17]); info->matrix_coeffs = vpu_color_cvrt_matrix_i2v(pkt->data[18]); info->full_range = vpu_color_cvrt_full_range_i2v(pkt->data[19]); info->vui_present = pkt->data[20]; info->mvc_num_views = pkt->data[21]; info->offset_x = pkt->data[23]; info->offset_y = pkt->data[25]; info->tag = pkt->data[27]; if (info->bit_depth_luma > 8) info->pixfmt = V4L2_PIX_FMT_NV12M_10BE_8L128; else info->pixfmt = V4L2_PIX_FMT_NV12M_8L128; if (info->frame_rate.numerator && info->frame_rate.denominator) { unsigned long n, d; rational_best_approximation(info->frame_rate.numerator, info->frame_rate.denominator, info->frame_rate.numerator, info->frame_rate.denominator, &n, &d); info->frame_rate.numerator = n; info->frame_rate.denominator = d; } vpu_malone_init_seq_hdr(info); } static void vpu_malone_unpack_pic_info(struct vpu_rpc_event *pkt, struct vpu_dec_pic_info *info) { info->id = pkt->data[7]; info->luma = pkt->data[0]; info->start = pkt->data[10]; info->end = pkt->data[12]; info->pic_size = pkt->data[11]; info->stride = pkt->data[5]; info->consumed_count = pkt->data[13]; if (info->id == MALONE_SKIPPED_FRAME_ID) info->skipped = 1; else info->skipped = 0; } static void vpu_malone_unpack_req_frame(struct vpu_rpc_event *pkt, struct vpu_fs_info *info) { info->type = pkt->data[1]; } static void vpu_malone_unpack_rel_frame(struct vpu_rpc_event *pkt, struct vpu_fs_info *info) { info->id = pkt->data[0]; info->type = pkt->data[1]; info->not_displayed = pkt->data[2]; } static void vpu_malone_unpack_buff_rdy(struct vpu_rpc_event *pkt, struct vpu_dec_pic_info *info) { struct timespec64 ts = { pkt->data[9], pkt->data[10] }; info->id = pkt->data[0]; info->luma = pkt->data[1]; info->stride = pkt->data[3]; if (info->id == MALONE_SKIPPED_FRAME_ID) info->skipped = 1; else info->skipped = 0; info->timestamp = timespec64_to_ns(&ts); } int vpu_malone_unpack_msg_data(struct vpu_rpc_event *pkt, void *data) { if (!pkt || !data) return -EINVAL; switch (pkt->hdr.id) { case VID_API_EVENT_SEQ_HDR_FOUND: vpu_malone_unpack_seq_hdr(pkt, data); break; case VID_API_EVENT_PIC_DECODED: vpu_malone_unpack_pic_info(pkt, data); break; case VID_API_EVENT_REQ_FRAME_BUFF: vpu_malone_unpack_req_frame(pkt, data); break; case VID_API_EVENT_REL_FRAME_BUFF: vpu_malone_unpack_rel_frame(pkt, data); break; case VID_API_EVENT_FRAME_BUFF_RDY: vpu_malone_unpack_buff_rdy(pkt, data); break; } return 0; } static const struct malone_padding_scode padding_scodes[] = { {SCODE_PADDING_EOS, V4L2_PIX_FMT_H264, {0x0B010000, 0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_H264_MVC, {0x0B010000, 0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_HEVC, {0x4A010000, 0x20}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_VC1_ANNEX_G, {0x0a010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_VC1_ANNEX_L, {0x0a010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_MPEG2, {0xCC010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_MPEG4, {0xb1010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_XVID, {0xb1010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_H263, {0xb1010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_VP8, {0x34010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_JPEG, {0xefff0000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_H264, {0x0B010000, 0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_H264_MVC, {0x0B010000, 0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_HEVC, {0x4A010000, 0x20}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_VC1_ANNEX_G, {0x0a010000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_VC1_ANNEX_L, {0x0a010000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_MPEG2, {0xb7010000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_MPEG4, {0xb1010000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_XVID, {0xb1010000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_H263, {0xb1010000, 0x0}}, {SCODE_PADDING_ABORT, V4L2_PIX_FMT_VP8, {0x34010000, 0x0}}, {SCODE_PADDING_EOS, V4L2_PIX_FMT_JPEG, {0x0, 0x0}}, {SCODE_PADDING_BUFFLUSH, V4L2_PIX_FMT_H264, {0x15010000, 0x0}}, {SCODE_PADDING_BUFFLUSH, V4L2_PIX_FMT_H264_MVC, {0x15010000, 0x0}}, }; static const struct malone_padding_scode padding_scode_dft = {0x0, 0x0}; static const struct malone_padding_scode *get_padding_scode(u32 type, u32 fmt) { const struct malone_padding_scode *s; int i; for (i = 0; i < ARRAY_SIZE(padding_scodes); i++) { s = &padding_scodes[i]; if (s->scode_type == type && s->pixelformat == fmt) return s; } if (type != SCODE_PADDING_BUFFLUSH) return &padding_scode_dft; return NULL; } static int vpu_malone_add_padding_scode(struct vpu_buffer *stream_buffer, struct vpu_malone_str_buffer __iomem *str_buf, u32 pixelformat, u32 scode_type) { u32 wptr; int size; int total_size = 0; const struct malone_padding_scode *ps; const u32 padding_size = 4096; int ret; ps = get_padding_scode(scode_type, pixelformat); if (!ps) return -EINVAL; wptr = readl(&str_buf->wptr); if (wptr < stream_buffer->phys || wptr > stream_buffer->phys + stream_buffer->length) return -EINVAL; if (wptr == stream_buffer->phys + stream_buffer->length) wptr = stream_buffer->phys; size = ALIGN(wptr, 4) - wptr; if (size) vpu_helper_memset_stream_buffer(stream_buffer, &wptr, 0, size); total_size += size; size = sizeof(ps->data); ret = vpu_helper_copy_to_stream_buffer(stream_buffer, &wptr, size, (void *)ps->data); if (ret < 0) return -EINVAL; total_size += size; size = padding_size - sizeof(ps->data); vpu_helper_memset_stream_buffer(stream_buffer, &wptr, 0, size); total_size += size; vpu_malone_update_wptr(str_buf, wptr); return total_size; } int vpu_malone_add_scode(struct vpu_shared_addr *shared, u32 instance, struct vpu_buffer *stream_buffer, u32 pixelformat, u32 scode_type) { struct vpu_dec_ctrl *hc = shared->priv; struct vpu_malone_str_buffer __iomem *str_buf = hc->str_buf[instance]; int ret = -EINVAL; switch (scode_type) { case SCODE_PADDING_EOS: case SCODE_PADDING_ABORT: case SCODE_PADDING_BUFFLUSH: ret = vpu_malone_add_padding_scode(stream_buffer, str_buf, pixelformat, scode_type); break; default: break; } return ret; } #define MALONE_PAYLOAD_HEADER_SIZE 16 #define MALONE_CODEC_VERSION_ID 0x1 #define MALONE_CODEC_ID_VC1_SIMPLE 0x10 #define MALONE_CODEC_ID_VC1_MAIN 0x11 #define MALONE_CODEC_ID_ARV8 0x28 #define MALONE_CODEC_ID_ARV9 0x29 #define MALONE_CODEC_ID_VP6 0x36 #define MALONE_CODEC_ID_VP8 0x36 #define MALONE_CODEC_ID_DIVX3 0x38 #define MALONE_CODEC_ID_SPK 0x39 #define MALONE_VP8_IVF_SEQ_HEADER_LEN 32 #define MALONE_VP8_IVF_FRAME_HEADER_LEN 8 #define MALONE_VC1_RCV_CODEC_V1_VERSION 0x85 #define MALONE_VC1_RCV_CODEC_V2_VERSION 0xC5 #define MALONE_VC1_RCV_NUM_FRAMES 0xFF #define MALONE_VC1_RCV_SEQ_EXT_DATA_SIZE 4 #define MALONE_VC1_RCV_SEQ_HEADER_LEN 20 #define MALONE_VC1_RCV_PIC_HEADER_LEN 4 #define MALONE_VC1_NAL_HEADER_LEN 4 #define MALONE_VC1_CONTAIN_NAL(data) (((data) & 0x00FFFFFF) == 0x00010000) static void set_payload_hdr(u8 *dst, u32 scd_type, u32 codec_id, u32 buffer_size, u32 width, u32 height) { unsigned int payload_size; /* payload_size = buffer_size + itself_size(16) - start_code(4) */ payload_size = buffer_size + 12; dst[0] = 0x00; dst[1] = 0x00; dst[2] = 0x01; dst[3] = scd_type; /* length */ dst[4] = ((payload_size >> 16) & 0xff); dst[5] = ((payload_size >> 8) & 0xff); dst[6] = 0x4e; dst[7] = ((payload_size >> 0) & 0xff); /* Codec ID and Version */ dst[8] = codec_id; dst[9] = MALONE_CODEC_VERSION_ID; /* width */ dst[10] = ((width >> 8) & 0xff); dst[11] = ((width >> 0) & 0xff); dst[12] = 0x58; /* height */ dst[13] = ((height >> 8) & 0xff); dst[14] = ((height >> 0) & 0xff); dst[15] = 0x50; } static void set_vp8_ivf_seqhdr(u8 *dst, u32 width, u32 height) { /* 0-3byte signature "DKIF" */ dst[0] = 0x44; dst[1] = 0x4b; dst[2] = 0x49; dst[3] = 0x46; /* 4-5byte version: should be 0*/ dst[4] = 0x00; dst[5] = 0x00; /* 6-7 length of Header */ dst[6] = MALONE_VP8_IVF_SEQ_HEADER_LEN; dst[7] = MALONE_VP8_IVF_SEQ_HEADER_LEN >> 8; /* 8-11 VP8 fourcc */ dst[8] = 0x56; dst[9] = 0x50; dst[10] = 0x38; dst[11] = 0x30; /* 12-13 width in pixels */ dst[12] = width; dst[13] = width >> 8; /* 14-15 height in pixels */ dst[14] = height; dst[15] = height >> 8; /* 16-19 frame rate */ dst[16] = 0xe8; dst[17] = 0x03; dst[18] = 0x00; dst[19] = 0x00; /* 20-23 time scale */ dst[20] = 0x01; dst[21] = 0x00; dst[22] = 0x00; dst[23] = 0x00; /* 24-27 number frames */ dst[24] = 0xdf; dst[25] = 0xf9; dst[26] = 0x09; dst[27] = 0x00; /* 28-31 reserved */ } static void set_vp8_ivf_pichdr(u8 *dst, u32 frame_size) { /* * firmware just parse 64-bit timestamp(8 bytes). * As not transfer timestamp to firmware, use default value(ZERO). * No need to do anything here */ } static void set_vc1_rcv_seqhdr(u8 *dst, u8 *src, u32 width, u32 height) { u32 frames = MALONE_VC1_RCV_NUM_FRAMES; u32 ext_data_size = MALONE_VC1_RCV_SEQ_EXT_DATA_SIZE; /* 0-2 Number of frames, used default value 0xFF */ dst[0] = frames; dst[1] = frames >> 8; dst[2] = frames >> 16; /* 3 RCV version, used V1 */ dst[3] = MALONE_VC1_RCV_CODEC_V1_VERSION; /* 4-7 extension data size */ dst[4] = ext_data_size; dst[5] = ext_data_size >> 8; dst[6] = ext_data_size >> 16; dst[7] = ext_data_size >> 24; /* 8-11 extension data */ dst[8] = src[0]; dst[9] = src[1]; dst[10] = src[2]; dst[11] = src[3]; /* height */ dst[12] = height; dst[13] = (height >> 8) & 0xff; dst[14] = (height >> 16) & 0xff; dst[15] = (height >> 24) & 0xff; /* width */ dst[16] = width; dst[17] = (width >> 8) & 0xff; dst[18] = (width >> 16) & 0xff; dst[19] = (width >> 24) & 0xff; } static void set_vc1_rcv_pichdr(u8 *dst, u32 buffer_size) { dst[0] = buffer_size; dst[1] = buffer_size >> 8; dst[2] = buffer_size >> 16; dst[3] = buffer_size >> 24; } static void create_vc1_nal_pichdr(u8 *dst) { /* need insert nal header: special ID */ dst[0] = 0x0; dst[1] = 0x0; dst[2] = 0x01; dst[3] = 0x0D; } static int vpu_malone_insert_scode_seq(struct malone_scode_t *scode, u32 codec_id, u32 ext_size) { u8 hdr[MALONE_PAYLOAD_HEADER_SIZE]; int ret; set_payload_hdr(hdr, SCODE_SEQUENCE, codec_id, ext_size, scode->inst->out_format.width, scode->inst->out_format.height); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(hdr), hdr); if (ret < 0) return ret; return sizeof(hdr); } static int vpu_malone_insert_scode_pic(struct malone_scode_t *scode, u32 codec_id, u32 ext_size) { u8 hdr[MALONE_PAYLOAD_HEADER_SIZE]; int ret; set_payload_hdr(hdr, SCODE_PICTURE, codec_id, ext_size + vb2_get_plane_payload(scode->vb, 0), scode->inst->out_format.width, scode->inst->out_format.height); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(hdr), hdr); if (ret < 0) return ret; return sizeof(hdr); } static int vpu_malone_insert_scode_vc1_g_pic(struct malone_scode_t *scode) { struct vb2_v4l2_buffer *vbuf; u8 nal_hdr[MALONE_VC1_NAL_HEADER_LEN]; u32 *data = NULL; int ret; vbuf = to_vb2_v4l2_buffer(scode->vb); data = vb2_plane_vaddr(scode->vb, 0); if (vbuf->sequence == 0 || vpu_vb_is_codecconfig(vbuf)) return 0; if (MALONE_VC1_CONTAIN_NAL(*data)) return 0; create_vc1_nal_pichdr(nal_hdr); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(nal_hdr), nal_hdr); if (ret < 0) return ret; return sizeof(nal_hdr); } static int vpu_malone_insert_scode_vc1_l_seq(struct malone_scode_t *scode) { int ret; int size = 0; u8 rcv_seqhdr[MALONE_VC1_RCV_SEQ_HEADER_LEN]; if (scode->inst->total_input_count) return 0; scode->need_data = 0; ret = vpu_malone_insert_scode_seq(scode, MALONE_CODEC_ID_VC1_SIMPLE, sizeof(rcv_seqhdr)); if (ret < 0) return ret; size = ret; set_vc1_rcv_seqhdr(rcv_seqhdr, vb2_plane_vaddr(scode->vb, 0), scode->inst->out_format.width, scode->inst->out_format.height); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(rcv_seqhdr), rcv_seqhdr); if (ret < 0) return ret; size += sizeof(rcv_seqhdr); return size; } static int vpu_malone_insert_scode_vc1_l_pic(struct malone_scode_t *scode) { int ret; int size = 0; u8 rcv_pichdr[MALONE_VC1_RCV_PIC_HEADER_LEN]; ret = vpu_malone_insert_scode_pic(scode, MALONE_CODEC_ID_VC1_SIMPLE, sizeof(rcv_pichdr)); if (ret < 0) return ret; size = ret; set_vc1_rcv_pichdr(rcv_pichdr, vb2_get_plane_payload(scode->vb, 0)); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(rcv_pichdr), rcv_pichdr); if (ret < 0) return ret; size += sizeof(rcv_pichdr); return size; } static int vpu_malone_insert_scode_vp8_seq(struct malone_scode_t *scode) { int ret; int size = 0; u8 ivf_hdr[MALONE_VP8_IVF_SEQ_HEADER_LEN]; ret = vpu_malone_insert_scode_seq(scode, MALONE_CODEC_ID_VP8, sizeof(ivf_hdr)); if (ret < 0) return ret; size = ret; set_vp8_ivf_seqhdr(ivf_hdr, scode->inst->out_format.width, scode->inst->out_format.height); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(ivf_hdr), ivf_hdr); if (ret < 0) return ret; size += sizeof(ivf_hdr); return size; } static int vpu_malone_insert_scode_vp8_pic(struct malone_scode_t *scode) { int ret; int size = 0; u8 ivf_hdr[MALONE_VP8_IVF_FRAME_HEADER_LEN] = {0}; ret = vpu_malone_insert_scode_pic(scode, MALONE_CODEC_ID_VP8, sizeof(ivf_hdr)); if (ret < 0) return ret; size = ret; set_vp8_ivf_pichdr(ivf_hdr, vb2_get_plane_payload(scode->vb, 0)); ret = vpu_helper_copy_to_stream_buffer(&scode->inst->stream_buffer, &scode->wptr, sizeof(ivf_hdr), ivf_hdr); if (ret < 0) return ret; size += sizeof(ivf_hdr); return size; } static const struct malone_scode_handler scode_handlers[] = { { /* fix me, need to swap return operation after gstreamer swap */ .pixelformat = V4L2_PIX_FMT_VC1_ANNEX_L, .insert_scode_seq = vpu_malone_insert_scode_vc1_l_seq, .insert_scode_pic = vpu_malone_insert_scode_vc1_l_pic, }, { .pixelformat = V4L2_PIX_FMT_VC1_ANNEX_G, .insert_scode_pic = vpu_malone_insert_scode_vc1_g_pic, }, { .pixelformat = V4L2_PIX_FMT_VP8, .insert_scode_seq = vpu_malone_insert_scode_vp8_seq, .insert_scode_pic = vpu_malone_insert_scode_vp8_pic, }, }; static const struct malone_scode_handler *get_scode_handler(u32 pixelformat) { int i; for (i = 0; i < ARRAY_SIZE(scode_handlers); i++) { if (scode_handlers[i].pixelformat == pixelformat) return &scode_handlers[i]; } return NULL; } static int vpu_malone_insert_scode(struct malone_scode_t *scode, u32 type) { const struct malone_scode_handler *handler; int ret = 0; if (!scode || !scode->inst || !scode->vb) return 0; scode->need_data = 1; handler = get_scode_handler(scode->inst->out_format.pixfmt); if (!handler) return 0; switch (type) { case SCODE_SEQUENCE: if (handler->insert_scode_seq) ret = handler->insert_scode_seq(scode); break; case SCODE_PICTURE: if (handler->insert_scode_pic) ret = handler->insert_scode_pic(scode); break; default: break; } return ret; } static int vpu_malone_input_frame_data(struct vpu_malone_str_buffer __iomem *str_buf, struct vpu_inst *inst, struct vb2_buffer *vb, u32 disp_imm) { struct malone_scode_t scode; struct vb2_v4l2_buffer *vbuf = to_vb2_v4l2_buffer(vb); u32 wptr = readl(&str_buf->wptr); int size = 0; int ret = 0; /*add scode: SCODE_SEQUENCE, SCODE_PICTURE, SCODE_SLICE*/ scode.inst = inst; scode.vb = vb; scode.wptr = wptr; scode.need_data = 1; if (vbuf->sequence == 0 || vpu_vb_is_codecconfig(vbuf)) ret = vpu_malone_insert_scode(&scode, SCODE_SEQUENCE); if (ret < 0) return -ENOMEM; size += ret; wptr = scode.wptr; if (!scode.need_data) { vpu_malone_update_wptr(str_buf, wptr); return size; } ret = vpu_malone_insert_scode(&scode, SCODE_PICTURE); if (ret < 0) return -ENOMEM; size += ret; wptr = scode.wptr; ret = vpu_helper_copy_to_stream_buffer(&inst->stream_buffer, &wptr, vb2_get_plane_payload(vb, 0), vb2_plane_vaddr(vb, 0)); if (ret < 0) return -ENOMEM; size += vb2_get_plane_payload(vb, 0); vpu_malone_update_wptr(str_buf, wptr); if (disp_imm && !vpu_vb_is_codecconfig(vbuf)) { ret = vpu_malone_add_scode(inst->core->iface, inst->id, &inst->stream_buffer, inst->out_format.pixfmt, SCODE_PADDING_BUFFLUSH); if (ret < 0) return ret; size += ret; } return size; } static int vpu_malone_input_stream_data(struct vpu_malone_str_buffer __iomem *str_buf, struct vpu_inst *inst, struct vb2_buffer *vb) { u32 wptr = readl(&str_buf->wptr); int ret = 0; ret = vpu_helper_copy_to_stream_buffer(&inst->stream_buffer, &wptr, vb2_get_plane_payload(vb, 0), vb2_plane_vaddr(vb, 0)); if (ret < 0) return -ENOMEM; vpu_malone_update_wptr(str_buf, wptr); return ret; } static int vpu_malone_input_ts(struct vpu_inst *inst, s64 timestamp, u32 size) { struct vpu_ts_info info; memset(&info, 0, sizeof(info)); info.timestamp = timestamp; info.size = size; return vpu_session_fill_timestamp(inst, &info); } int vpu_malone_input_frame(struct vpu_shared_addr *shared, struct vpu_inst *inst, struct vb2_buffer *vb) { struct vpu_dec_ctrl *hc = shared->priv; struct vb2_v4l2_buffer *vbuf; struct vpu_malone_str_buffer __iomem *str_buf = hc->str_buf[inst->id]; u32 disp_imm = hc->codec_param[inst->id].disp_imm; u32 size; int ret; if (vpu_malone_is_non_frame_mode(shared, inst->id)) ret = vpu_malone_input_stream_data(str_buf, inst, vb); else ret = vpu_malone_input_frame_data(str_buf, inst, vb, disp_imm); if (ret < 0) return ret; size = ret; /* * if buffer only contain codec data, and the timestamp is invalid, * don't put the invalid timestamp to resync * merge the data to next frame */ vbuf = to_vb2_v4l2_buffer(vb); if (vpu_vb_is_codecconfig(vbuf)) { inst->extra_size += size; return 0; } if (inst->extra_size) { size += inst->extra_size; inst->extra_size = 0; } ret = vpu_malone_input_ts(inst, vb->timestamp, size); if (ret) return ret; return 0; } static bool vpu_malone_check_ready(struct vpu_shared_addr *shared, u32 instance) { struct malone_iface *iface = shared->iface; struct vpu_rpc_buffer_desc *desc = &iface->api_cmd_buffer_desc[instance]; u32 size = desc->end - desc->start; u32 rptr = desc->rptr; u32 wptr = desc->wptr; u32 used; if (!size) return true; used = (wptr + size - rptr) % size; if (used < (size / 2)) return true; return false; } bool vpu_malone_is_ready(struct vpu_shared_addr *shared, u32 instance) { u32 cnt = 0; while (!vpu_malone_check_ready(shared, instance)) { if (cnt > 30) return false; mdelay(1); cnt++; } return true; } int vpu_malone_pre_cmd(struct vpu_shared_addr *shared, u32 instance) { if (!vpu_malone_is_ready(shared, instance)) return -EINVAL; return 0; } int vpu_malone_post_cmd(struct vpu_shared_addr *shared, u32 instance) { struct malone_iface *iface = shared->iface; struct vpu_rpc_buffer_desc *desc = &iface->api_cmd_buffer_desc[instance]; desc->wptr++; if (desc->wptr == desc->end) desc->wptr = desc->start; return 0; } int vpu_malone_init_instance(struct vpu_shared_addr *shared, u32 instance) { struct malone_iface *iface = shared->iface; struct vpu_rpc_buffer_desc *desc = &iface->api_cmd_buffer_desc[instance]; desc->wptr = desc->rptr; if (desc->wptr == desc->end) desc->wptr = desc->start; return 0; } u32 vpu_malone_get_max_instance_count(struct vpu_shared_addr *shared) { struct malone_iface *iface = shared->iface; return iface->max_streams; }