static u32 ddl_decoder_seq_done_callback(struct ddl_context_type *p_ddl_context,
struct ddl_client_context_type *p_ddl)
{
struct ddl_decoder_data_type *p_decoder = &p_ddl->codec_data.decoder;
struct vidc_1080p_seq_hdr_info_type seq_hdr_info;
u32 b_process_further = TRUE;
DDL_MSG_MED("ddl_decoder_seq_done_callback");
if (!p_ddl->b_decoding ||
!DDLCLIENT_STATE_IS(p_ddl, DDL_CLIENT_WAIT_FOR_INITCODECDONE)) {
DDL_MSG_ERROR("STATE-CRITICAL-HDDONE");
ddl_client_fatal_cb(p_ddl);
} else {
p_ddl->e_cmd_state = DDL_CMD_INVALID;
DDL_MSG_LOW("ddl_state_transition: %s ~~>\
DDL_CLIENT_WAIT_FOR_DPB",\
ddl_get_state_string(p_ddl->e_client_state));
p_ddl->e_client_state = DDL_CLIENT_WAIT_FOR_DPB;
DDL_MSG_LOW("HEADER_DONE");
vidc_1080p_get_decode_seq_start_result(&seq_hdr_info);
p_decoder->frame_size.n_width = seq_hdr_info.n_img_size_x;
p_decoder->frame_size.n_height = seq_hdr_info.n_img_size_y;
p_decoder->n_min_dpb_num = seq_hdr_info.n_min_num_dpb;
vidc_sm_get_min_yc_dpb_sizes(
&p_ddl->shared_mem[p_ddl->n_command_channel],
&seq_hdr_info.n_min_luma_dpb_size,
&seq_hdr_info.n_min_chroma_dpb_size);
p_decoder->n_y_cb_cr_size = seq_hdr_info.n_min_luma_dpb_size +
seq_hdr_info.n_min_chroma_dpb_size;
p_decoder->dpb_buf_size.n_size_yuv = p_decoder->n_y_cb_cr_size;
p_decoder->dpb_buf_size.n_size_y =
seq_hdr_info.n_min_luma_dpb_size;
p_decoder->dpb_buf_size.n_size_c =
seq_hdr_info.n_min_chroma_dpb_size;
p_decoder->n_progressive_only = 1 - seq_hdr_info.n_progressive;
if (!seq_hdr_info.n_img_size_x || !seq_hdr_info.n_img_size_y) {
DDL_MSG_ERROR("FATAL:ZeroImageSize");
ddl_client_fatal_cb(p_ddl);
return b_process_further;
}
vidc_sm_get_profile_info(&p_ddl->shared_mem
[p_ddl->n_command_channel],
&seq_hdr_info.n_profile, &seq_hdr_info.n_level);
ddl_get_dec_profile_level(p_decoder, seq_hdr_info.n_profile,
seq_hdr_info.n_level);
ddl_calculate_stride(&p_decoder->frame_size,
!p_decoder->n_progressive_only);
vidc_sm_get_crop_info(
&p_ddl->shared_mem[p_ddl->n_command_channel],
&seq_hdr_info.n_crop_left_offset,
&seq_hdr_info.n_crop_right_offset,
&seq_hdr_info.n_crop_top_offset,
&seq_hdr_info.n_crop_bottom_offset);
seq_hdr_info.n_crop_exists = (seq_hdr_info.n_crop_left_offset ||
seq_hdr_info.n_crop_right_offset ||
seq_hdr_info.n_crop_top_offset ||
seq_hdr_info.n_crop_bottom_offset);
if (seq_hdr_info.n_crop_exists) {
p_decoder->frame_size.n_width -=
seq_hdr_info.n_crop_right_offset +
seq_hdr_info.n_crop_left_offset;
p_decoder->frame_size.n_height -=
seq_hdr_info.n_crop_top_offset +
seq_hdr_info.n_crop_bottom_offset;
}
ddl_set_default_decoder_buffer_req(p_decoder, FALSE);
if (p_decoder->b_header_in_start) {
p_decoder->client_frame_size = p_decoder->frame_size;
p_decoder->client_output_buf_req =
p_decoder->actual_output_buf_req;
if ((p_decoder->frame_size.n_width *
p_decoder->frame_size.n_height) >=
VCD_DDL_WVGA_BUF_SIZE) {
if ((p_decoder->actual_output_buf_req.\
n_actual_count + 2) < 10)
p_decoder->client_output_buf_req.\
n_actual_count = 10;
else
p_decoder->client_output_buf_req.\
n_actual_count += 2;
} else
p_decoder->client_output_buf_req.\
n_actual_count = p_decoder->\
actual_output_buf_req.\
n_actual_count + 5;
p_decoder->client_input_buf_req =
p_decoder->actual_input_buf_req;
p_ddl_context->ddl_callback(VCD_EVT_RESP_START,
VCD_S_SUCCESS, NULL, 0, (u32 *) p_ddl,
p_ddl->p_client_data);
ddl_release_command_channel(p_ddl_context,
p_ddl->n_command_channel);
} else {
u32 b_seq_hdr_only_frame = FALSE;
u32 b_need_reconfig = TRUE;
struct vcd_frame_data_type *p_input_vcd_frm =
&p_ddl->input_frame.vcd_frm;
if ((p_decoder->frame_size.n_width <=
p_decoder->client_frame_size.n_stride) &&
(p_decoder->frame_size.n_height <=
p_decoder->client_frame_size.n_scan_lines) &&
(p_decoder->actual_output_buf_req.n_size <=
p_decoder->client_output_buf_req.n_size) &&
(p_decoder->n_min_dpb_num <= p_decoder->\
client_output_buf_req.n_actual_count))
b_need_reconfig = FALSE;
if (((p_input_vcd_frm->n_flags &
VCD_FRAME_FLAG_CODECCONFIG) &&
(!(p_input_vcd_frm->n_flags &
VCD_FRAME_FLAG_SYNCFRAME))) ||
p_input_vcd_frm->n_data_len ==
seq_hdr_info.n_dec_frm_size) {
b_seq_hdr_only_frame = TRUE;
p_input_vcd_frm->n_offset +=
seq_hdr_info.n_dec_frm_size;
p_input_vcd_frm->n_data_len -=
seq_hdr_info.n_dec_frm_size;
p_input_vcd_frm->n_flags |=
VCD_FRAME_FLAG_CODECCONFIG;
p_ddl->input_frame.b_frm_trans_end =
!b_need_reconfig;
p_ddl_context->ddl_callback(
VCD_EVT_RESP_INPUT_DONE,
VCD_S_SUCCESS, &p_ddl->input_frame,
sizeof(struct ddl_frame_data_type_tag),
(u32 *) p_ddl, p_ddl->p_client_data);
}
if (b_need_reconfig) {
struct ddl_frame_data_type_tag *p_payload =
&p_ddl->input_frame;
u32 n_payload_size =
sizeof(struct ddl_frame_data_type_tag);
p_decoder->client_frame_size =
p_decoder->frame_size;
p_decoder->client_output_buf_req =
p_decoder->actual_output_buf_req;
p_decoder->client_input_buf_req =
p_decoder->actual_input_buf_req;
if (b_seq_hdr_only_frame) {
p_payload = NULL;
n_payload_size = 0;
}
p_ddl_context->ddl_callback(
VCD_EVT_IND_OUTPUT_RECONFIG,
VCD_S_SUCCESS, p_payload,
n_payload_size, (u32 *) p_ddl,
p_ddl->p_client_data);
}
if (!b_need_reconfig && !b_seq_hdr_only_frame) {
if (!ddl_vidc_decode_set_buffers(p_ddl))
b_process_further = FALSE;
else {
DDL_MSG_ERROR("ddl_vidc_decode_set_\
buffers failed");
ddl_client_fatal_cb(p_ddl);
}
} else
ddl_release_command_channel(p_ddl_context,
p_ddl->n_command_channel);
}
}
static u32 ddl_decoder_seq_done_callback(struct ddl_context *ddl_context,
struct ddl_client_context *ddl)
{
struct ddl_decoder_data *decoder = &ddl->codec_data.decoder;
struct vidc_1080p_seq_hdr_info seq_hdr_info;
u32 process_further = true;
DDL_MSG_MED("ddl_decoder_seq_done_callback");
if (!ddl->decoding ||
!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_WAIT_FOR_INITCODECDONE)) {
DDL_MSG_ERROR("STATE-CRITICAL-HDDONE");
ddl_client_fatal_cb(ddl);
} else {
ddl->cmd_state = DDL_CMD_INVALID;
DDL_MSG_LOW("ddl_state_transition: %s ~~>\
DDL_CLIENT_WAIT_FOR_DPB",\
ddl_get_state_string(ddl->client_state));
ddl->client_state = DDL_CLIENT_WAIT_FOR_DPB;
DDL_MSG_LOW("HEADER_DONE");
vidc_1080p_get_decode_seq_start_result(&seq_hdr_info);
decoder->frame_size.width = seq_hdr_info.img_size_x;
decoder->frame_size.height = seq_hdr_info.img_size_y;
decoder->min_dpb_num = seq_hdr_info.min_num_dpb;
vidc_sm_get_min_yc_dpb_sizes(
&ddl->shared_mem[ddl->command_channel],
&seq_hdr_info.min_luma_dpb_size,
&seq_hdr_info.min_chroma_dpb_size);
decoder->y_cb_cr_size = seq_hdr_info.min_luma_dpb_size +
seq_hdr_info.min_chroma_dpb_size;
decoder->dpb_buf_size.size_yuv = decoder->y_cb_cr_size;
decoder->dpb_buf_size.size_y =
seq_hdr_info.min_luma_dpb_size;
decoder->dpb_buf_size.size_c =
seq_hdr_info.min_chroma_dpb_size;
decoder->progressive_only = 1 - seq_hdr_info.progressive;
if (!seq_hdr_info.img_size_x || !seq_hdr_info.img_size_y) {
DDL_MSG_ERROR("FATAL:ZeroImageSize");
ddl_client_fatal_cb(ddl);
return process_further;
}
vidc_sm_get_profile_info(&ddl->shared_mem
[ddl->command_channel],
&seq_hdr_info.profile, &seq_hdr_info.level);
ddl_get_dec_profile_level(decoder, seq_hdr_info.profile,
seq_hdr_info.level);
ddl_calculate_stride(&decoder->frame_size,
!decoder->progressive_only);
vidc_sm_get_crop_info(
&ddl->shared_mem[ddl->command_channel],
&seq_hdr_info.crop_left_offset,
&seq_hdr_info.crop_right_offset,
&seq_hdr_info.crop_top_offset,
&seq_hdr_info.crop_bottom_offset);
seq_hdr_info.crop_exists = (seq_hdr_info.crop_left_offset ||
seq_hdr_info.crop_right_offset ||
seq_hdr_info.crop_top_offset ||
seq_hdr_info.crop_bottom_offset);
if (seq_hdr_info.crop_exists) {
decoder->frame_size.width -=
seq_hdr_info.crop_right_offset +
seq_hdr_info.crop_left_offset;
decoder->frame_size.height -=
seq_hdr_info.crop_top_offset +
seq_hdr_info.crop_bottom_offset;
}
ddl_set_default_decoder_buffer_req(decoder, false);
if (decoder->header_in_start) {
decoder->client_frame_size = decoder->frame_size;
decoder->client_output_buf_req =
decoder->actual_output_buf_req;
if ((decoder->frame_size.width *
decoder->frame_size.height) >=
VCD_DDL_WVGA_BUF_SIZE) {
if ((decoder->actual_output_buf_req.\
actual_count + 2) < 10)
decoder->client_output_buf_req.\
actual_count = 10;
else
decoder->client_output_buf_req.\
actual_count += 2;
} else
decoder->client_output_buf_req.\
actual_count = decoder->\
actual_output_buf_req.\
actual_count + 5;
decoder->client_input_buf_req =
decoder->actual_input_buf_req;
ddl_context->ddl_callback(VCD_EVT_RESP_START,
VCD_S_SUCCESS, NULL, 0, (u32 *) ddl,
ddl->client_data);
ddl_release_command_channel(ddl_context,
ddl->command_channel);
} else {
u32 seq_hdr_only_frame = false;
u32 need_reconfig = true;
struct vcd_frame_data *input_vcd_frm =
&ddl->input_frame.vcd_frm;
if ((decoder->frame_size.width ==
decoder->client_frame_size.width) &&
(decoder->frame_size.height ==
decoder->client_frame_size.height) &&
(decoder->actual_output_buf_req.sz <=
decoder->client_output_buf_req.sz) &&
(decoder->actual_output_buf_req.actual_count <=
decoder->client_output_buf_req.actual_count) &&
(decoder->frame_size.scan_lines ==
decoder->client_frame_size.scan_lines) &&
(decoder->frame_size.stride ==
decoder->client_frame_size.stride))
need_reconfig = false;
if (((input_vcd_frm->flags &
VCD_FRAME_FLAG_CODECCONFIG) &&
(!(input_vcd_frm->flags &
VCD_FRAME_FLAG_SYNCFRAME))) ||
input_vcd_frm->data_len ==
seq_hdr_info.dec_frm_size) {
seq_hdr_only_frame = true;
input_vcd_frm->offset +=
seq_hdr_info.dec_frm_size;
input_vcd_frm->data_len -=
seq_hdr_info.dec_frm_size;
input_vcd_frm->flags |=
VCD_FRAME_FLAG_CODECCONFIG;
ddl->input_frame.frm_trans_end =
!need_reconfig;
ddl_context->ddl_callback(
VCD_EVT_RESP_INPUT_DONE,
VCD_S_SUCCESS, &ddl->input_frame,
sizeof(struct ddl_frame_data_tag),
(u32 *) ddl, ddl->client_data);
}
if (need_reconfig) {
struct ddl_frame_data_tag *payload =
&ddl->input_frame;
u32 payload_size =
sizeof(struct ddl_frame_data_tag);
decoder->client_frame_size =
decoder->frame_size;
decoder->client_output_buf_req =
decoder->actual_output_buf_req;
decoder->client_input_buf_req =
decoder->actual_input_buf_req;
if (seq_hdr_only_frame) {
payload = NULL;
payload_size = 0;
}
ddl_context->ddl_callback(
VCD_EVT_IND_OUTPUT_RECONFIG,
VCD_S_SUCCESS, payload,
payload_size, (u32 *) ddl,
ddl->client_data);
}
if (!need_reconfig && !seq_hdr_only_frame) {
if (!ddl_vidc_decode_set_buffers(ddl))
process_further = false;
else {
DDL_MSG_ERROR("ddl_vidc_decode_set_\
buffers failed");
ddl_client_fatal_cb(ddl);
}
} else
ddl_release_command_channel(ddl_context,
ddl->command_channel);
}
}
static u32 ddl_decoder_seq_done_callback(struct ddl_context *ddl_context,
struct ddl_client_context *ddl)
{
struct ddl_decoder_data *decoder = &ddl->codec_data.decoder;
struct vidc_1080p_seq_hdr_info seq_hdr_info;
u32 process_further = true;
struct ddl_profile_info_type disp_profile_info;
/*HTC_START Fix Klocwork issue*/
seq_hdr_info.profile = 0;
seq_hdr_info.level = 0;
/*HTC_END*/
DDL_MSG_MED("ddl_decoder_seq_done_callback");
if (!ddl->decoding ||
!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_WAIT_FOR_INITCODECDONE)) {
DDL_MSG_ERROR("STATE-CRITICAL-HDDONE");
ddl_client_fatal_cb(ddl);
} else {
if (vidc_msg_timing)
ddl_calc_core_proc_time(__func__, DEC_OP_TIME);
ddl->cmd_state = DDL_CMD_INVALID;
DDL_MSG_LOW("ddl_state_transition: %s ~~>"
"DDL_CLIENT_WAIT_FOR_DPB",
ddl_get_state_string(ddl->client_state));
ddl->client_state = DDL_CLIENT_WAIT_FOR_DPB;
DDL_MSG_LOW("HEADER_DONE");
vidc_1080p_get_decode_seq_start_result(&seq_hdr_info);
parse_hdr_size_data(ddl, &seq_hdr_info);
if (!seq_hdr_info.img_size_x || !seq_hdr_info.img_size_y) {
DDL_MSG_ERROR("FATAL:ZeroImageSize");
ddl_client_fatal_cb(ddl);
return process_further;
}
vidc_sm_get_profile_info(&ddl->shared_mem
[ddl->command_channel], &disp_profile_info);
disp_profile_info.pic_profile = seq_hdr_info.profile;
disp_profile_info.pic_level = seq_hdr_info.level;
ddl_get_dec_profile_level(decoder, seq_hdr_info.profile,
seq_hdr_info.level);
switch (decoder->codec.codec) {
case VCD_CODEC_H264:
if (decoder->profile.profile == VCD_PROFILE_H264_HIGH ||
decoder->profile.profile ==
VCD_PROFILE_UNKNOWN) {
if ((disp_profile_info.chroma_format_idc >
VIDC_1080P_IDCFORMAT_420) ||
(disp_profile_info.bit_depth_luma_minus8
|| disp_profile_info.
bit_depth_chroma_minus8)) {
DDL_MSG_ERROR("Unsupported H.264 "
"feature: IDC "
"format : %d, Bitdepth: %d",
disp_profile_info.
chroma_format_idc,
(disp_profile_info.
bit_depth_luma_minus8
|| disp_profile_info.
bit_depth_chroma_minus8));
ddl_client_fatal_cb(ddl);
return process_further;
}
}
break;
case VCD_CODEC_MPEG4:
case VCD_CODEC_DIVX_4:
case VCD_CODEC_DIVX_5:
case VCD_CODEC_DIVX_6:
case VCD_CODEC_XVID:
if (seq_hdr_info.data_partition)
if ((seq_hdr_info.img_size_x *
seq_hdr_info.img_size_y) > (720 * 576)) {
DDL_MSG_ERROR("Unsupported DP clip");
ddl_client_fatal_cb(ddl);
return process_further;
}
break;
default:
break;
}
ddl_calculate_stride(&decoder->frame_size,
!decoder->progressive_only);
decoder->frame_size.scan_lines =
DDL_ALIGN(decoder->frame_size.height, DDL_TILE_ALIGN_HEIGHT);
decoder->frame_size.stride =
DDL_ALIGN(decoder->frame_size.width, DDL_TILE_ALIGN_WIDTH);
parse_hdr_crop_data(ddl, &seq_hdr_info);
if (decoder->codec.codec == VCD_CODEC_H264 &&
seq_hdr_info.level > VIDC_1080P_H264_LEVEL4) {
DDL_MSG_ERROR("WARNING: H264MaxLevelExceeded : %d",
seq_hdr_info.level);
}
ddl_set_default_decoder_buffer_req(decoder, false);
if (decoder->header_in_start) {
if (!(decoder->cont_mode) ||
(decoder->min_dpb_num >
decoder->client_output_buf_req.min_count) ||
(decoder->actual_output_buf_req.sz >
decoder->client_output_buf_req.sz)) {
decoder->client_frame_size =
decoder->frame_size;
decoder->client_output_buf_req =
decoder->actual_output_buf_req;
decoder->client_input_buf_req =
decoder->actual_input_buf_req;
}
ddl_context->ddl_callback(VCD_EVT_RESP_START,
VCD_S_SUCCESS, NULL, 0, (u32 *) ddl,
ddl->client_data);
ddl_release_command_channel(ddl_context,
ddl->command_channel);
} else {
u32 seq_hdr_only_frame = false;
u32 need_reconfig = false;
struct vcd_frame_data *input_vcd_frm =
&ddl->input_frame.vcd_frm;
need_reconfig = ddl_check_reconfig(ddl);
DDL_MSG_HIGH("%s : need_reconfig = %u\n", __func__,
need_reconfig);
if (input_vcd_frm->flags &
VCD_FRAME_FLAG_EOS) {
need_reconfig = false;
}
if (((input_vcd_frm->flags &
VCD_FRAME_FLAG_CODECCONFIG) &&
(!(input_vcd_frm->flags &
VCD_FRAME_FLAG_SYNCFRAME))) ||
input_vcd_frm->data_len <=
seq_hdr_info.dec_frm_size) {
seq_hdr_only_frame = true;
input_vcd_frm->offset +=
seq_hdr_info.dec_frm_size;
input_vcd_frm->data_len = 0;
input_vcd_frm->flags |=
VCD_FRAME_FLAG_CODECCONFIG;
ddl->input_frame.frm_trans_end =
!need_reconfig;
ddl_context->ddl_callback(
VCD_EVT_RESP_INPUT_DONE,
VCD_S_SUCCESS, &ddl->input_frame,
sizeof(struct ddl_frame_data_tag),
(u32 *) ddl, ddl->client_data);
} else {
if (decoder->codec.codec ==
VCD_CODEC_VC1_RCV) {
vidc_sm_set_start_byte_number(
&ddl->shared_mem
[ddl->command_channel],
seq_hdr_info.dec_frm_size);
}
}
if (need_reconfig) {
struct ddl_frame_data_tag *payload =
&ddl->input_frame;
u32 payload_size =
sizeof(struct ddl_frame_data_tag);
decoder->client_frame_size =
decoder->frame_size;
decoder->client_output_buf_req =
decoder->actual_output_buf_req;
decoder->client_input_buf_req =
decoder->actual_input_buf_req;
if (seq_hdr_only_frame) {
payload = NULL;
payload_size = 0;
}
DDL_MSG_HIGH("%s : sending port reconfig\n",
__func__);
ddl_context->ddl_callback(
VCD_EVT_IND_OUTPUT_RECONFIG,
VCD_S_SUCCESS, payload,
payload_size, (u32 *) ddl,
ddl->client_data);
}
if (!need_reconfig && !seq_hdr_only_frame) {
if (!ddl_vidc_decode_set_buffers(ddl))
process_further = false;
else {
DDL_MSG_ERROR("ddl_vidc_decode_set_"
"buffers failed");
ddl_client_fatal_cb(ddl);
}
} else
ddl_release_command_channel(ddl_context,
ddl->command_channel);
}
}
return process_further;
}
static u32 ddl_decoder_seq_done_callback(struct ddl_context *ddl_context,
struct ddl_client_context *ddl)
{
struct ddl_decoder_data *decoder = &ddl->codec_data.decoder;
struct vidc_1080p_seq_hdr_info seq_hdr_info;
u32 process_further = true;
DDL_MSG_MED("ddl_decoder_seq_done_callback");
if (!ddl->decoding ||
!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_WAIT_FOR_INITCODECDONE)) {
DDL_MSG_ERROR("STATE-CRITICAL-HDDONE");
ddl_client_fatal_cb(ddl);
} else {
ddl->cmd_state = DDL_CMD_INVALID;
DDL_MSG_LOW("ddl_state_transition: %s ~~>"
"DDL_CLIENT_WAIT_FOR_DPB",
ddl_get_state_string(ddl->client_state));
ddl->client_state = DDL_CLIENT_WAIT_FOR_DPB;
DDL_MSG_LOW("HEADER_DONE");
vidc_1080p_get_decode_seq_start_result(&seq_hdr_info);
parse_hdr_size_data(ddl, &seq_hdr_info);
if (!seq_hdr_info.img_size_x || !seq_hdr_info.img_size_y) {
DDL_MSG_ERROR("FATAL:ZeroImageSize");
ddl_client_fatal_cb(ddl);
return process_further;
}
vidc_sm_get_profile_info(&ddl->shared_mem
[ddl->command_channel],
&seq_hdr_info.profile, &seq_hdr_info.level);
ddl_get_dec_profile_level(decoder, seq_hdr_info.profile,
seq_hdr_info.level);
ddl_calculate_stride(&decoder->frame_size,
!decoder->progressive_only);
decoder->frame_size.scan_lines =
DDL_ALIGN(decoder->frame_size.height, DDL_TILE_ALIGN_HEIGHT);
decoder->frame_size.stride =
DDL_ALIGN(decoder->frame_size.width, DDL_TILE_ALIGN_WIDTH);
parse_hdr_crop_data(ddl, &seq_hdr_info);
if (decoder->codec.codec == VCD_CODEC_H264 &&
seq_hdr_info.level > VIDC_1080P_H264_LEVEL4) {
DDL_MSG_ERROR("WARNING: H264MaxLevelExceeded : %d",
seq_hdr_info.level);
}
ddl_set_default_decoder_buffer_req(decoder, false);
if (decoder->header_in_start) {
decoder->client_frame_size = decoder->frame_size;
decoder->client_output_buf_req =
decoder->actual_output_buf_req;
if ((decoder->frame_size.width *
decoder->frame_size.height) >=
VCD_DDL_WVGA_BUF_SIZE) {
if ((decoder->actual_output_buf_req.\
actual_count + 2) < 10)
decoder->client_output_buf_req.\
actual_count = 10;
else
decoder->client_output_buf_req.\
actual_count += 2;
} else
decoder->client_output_buf_req.\
actual_count = decoder->\
actual_output_buf_req.\
actual_count + 5;
decoder->client_input_buf_req =
decoder->actual_input_buf_req;
ddl_context->ddl_callback(VCD_EVT_RESP_START,
VCD_S_SUCCESS, NULL, 0, (u32 *) ddl,
ddl->client_data);
ddl_release_command_channel(ddl_context,
ddl->command_channel);
} else {
u32 seq_hdr_only_frame = false;
u32 need_reconfig = true;
struct vcd_frame_data *input_vcd_frm =
&ddl->input_frame.vcd_frm;
if ((input_vcd_frm->flags &
VCD_FRAME_FLAG_EOS) ||
((decoder->frame_size.width ==
decoder->client_frame_size.width) &&
(decoder->frame_size.height ==
decoder->client_frame_size.height) &&
(decoder->actual_output_buf_req.sz <=
decoder->client_output_buf_req.sz) &&
(decoder->actual_output_buf_req.actual_count ==
decoder->client_output_buf_req.actual_count) &&
(decoder->frame_size.scan_lines ==
decoder->client_frame_size.scan_lines) &&
(decoder->frame_size.stride ==
decoder->client_frame_size.stride)))
need_reconfig = false;
if (((input_vcd_frm->flags &
VCD_FRAME_FLAG_CODECCONFIG) &&
(!(input_vcd_frm->flags &
VCD_FRAME_FLAG_SYNCFRAME))) ||
input_vcd_frm->data_len <=
seq_hdr_info.dec_frm_size) {
seq_hdr_only_frame = true;
input_vcd_frm->offset +=
seq_hdr_info.dec_frm_size;
input_vcd_frm->data_len = 0;
input_vcd_frm->flags |=
VCD_FRAME_FLAG_CODECCONFIG;
ddl->input_frame.frm_trans_end =
!need_reconfig;
ddl_context->ddl_callback(
VCD_EVT_RESP_INPUT_DONE,
VCD_S_SUCCESS, &ddl->input_frame,
sizeof(struct ddl_frame_data_tag),
(u32 *) ddl, ddl->client_data);
} else {
if (decoder->codec.codec ==
VCD_CODEC_VC1_RCV) {
vidc_sm_set_start_byte_number(
&ddl->shared_mem
[ddl->command_channel],
seq_hdr_info.dec_frm_size);
}
}
if (need_reconfig) {
struct ddl_frame_data_tag *payload =
&ddl->input_frame;
u32 payload_size =
sizeof(struct ddl_frame_data_tag);
decoder->client_frame_size =
decoder->frame_size;
decoder->client_output_buf_req =
decoder->actual_output_buf_req;
decoder->client_input_buf_req =
decoder->actual_input_buf_req;
if (seq_hdr_only_frame) {
payload = NULL;
payload_size = 0;
}
ddl_context->ddl_callback(
VCD_EVT_IND_OUTPUT_RECONFIG,
VCD_S_SUCCESS, payload,
payload_size, (u32 *) ddl,
ddl->client_data);
}
if (!need_reconfig && !seq_hdr_only_frame) {
if (!ddl_vidc_decode_set_buffers(ddl))
process_further = false;
else {
DDL_MSG_ERROR("ddl_vidc_decode_set_"
"buffers failed");
ddl_client_fatal_cb(ddl);
}
} else
ddl_release_command_channel(ddl_context,
ddl->command_channel);
}
}
return process_further;
}