u32 ddl_open(u32 **ddl_handle, u32 decoding)
{
struct ddl_context *ddl_context;
struct ddl_client_context *ddl;
void *ptr;
u32 status;
DDL_MSG_HIGH("ddl_open");
if (!ddl_handle) {
DDL_MSG_ERROR("ddl_open:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_open:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
status = ddl_client_transact(DDL_GET_CLIENT, &ddl);
if (status) {
DDL_MSG_ERROR("ddl_open:Client_trasac_failed");
return status;
}
ptr = ddl_pmem_alloc(&ddl->shared_mem[0],
DDL_FW_AUX_HOST_CMD_SPACE_SIZE, sizeof(u32));
if (!ptr)
status = VCD_ERR_ALLOC_FAIL;
if (!status && ddl_context->frame_channel_depth
== VCD_DUAL_FRAME_COMMAND_CHANNEL) {
ptr = ddl_pmem_alloc(&ddl->shared_mem[1],
DDL_FW_AUX_HOST_CMD_SPACE_SIZE, sizeof(u32));
if (!ptr) {
ddl_pmem_free(&ddl->shared_mem[0]);
status = VCD_ERR_ALLOC_FAIL;
}
}
if (!status) {
memset(ddl->shared_mem[0].align_virtual_addr, 0,
DDL_FW_AUX_HOST_CMD_SPACE_SIZE);
if (ddl_context->frame_channel_depth ==
VCD_DUAL_FRAME_COMMAND_CHANNEL) {
memset(ddl->shared_mem[1].align_virtual_addr, 0,
DDL_FW_AUX_HOST_CMD_SPACE_SIZE);
}
DDL_MSG_LOW("ddl_state_transition: %s ~~> DDL_CLIENT_OPEN",
ddl_get_state_string(ddl->client_state));
ddl->client_state = DDL_CLIENT_OPEN;
ddl->codec_data.hdr.decoding = decoding;
ddl->decoding = decoding;
ddl_set_default_meta_data_hdr(ddl);
ddl_set_initial_default_values(ddl);
*ddl_handle = (u32 *) ddl;
} else {
ddl_pmem_free(&ddl->shared_mem[0]);
if (ddl_context->frame_channel_depth
== VCD_DUAL_FRAME_COMMAND_CHANNEL)
ddl_pmem_free(&ddl->shared_mem[1]);
ddl_client_transact(DDL_FREE_CLIENT, &ddl);
}
return status;
}
u32 ddl_encode_start(u32 *ddl_handle, void *client_data)
{
struct ddl_client_context *ddl =
(struct ddl_client_context *) ddl_handle;
struct ddl_context *ddl_context;
struct ddl_encoder_data *encoder;
void *ptr;
u32 status = VCD_S_SUCCESS;
DDL_MSG_HIGH("ddl_encode_start");
#ifdef DDL_PROFILE
if (first_time < 2) {
ddl_reset_time_variables(1);
first_time++;
}
ddl_get_core_start_time(1);
#endif
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (!ddl || ddl->decoding) {
DDL_MSG_ERROR("ddl_enc_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_OPEN)) {
DDL_MSG_ERROR("ddl_enc_start:Not_opened");
return VCD_ERR_ILLEGAL_OP;
}
if (!ddl_encoder_ready_to_start(ddl)) {
DDL_MSG_ERROR("ddl_enc_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
encoder = &ddl->codec_data.encoder;
status = ddl_allocate_enc_hw_buffers(ddl);
if (status)
return status;
#ifdef DDL_BUF_LOG
ddl_list_buffers(ddl);
#endif
ptr = ddl_pmem_alloc(&encoder->seq_header,
DDL_ENC_SEQHEADER_SIZE, DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ptr) {
ddl_free_enc_hw_buffers(ddl);
DDL_MSG_ERROR("ddl_enc_start:Seq_hdr_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
if (!ddl_take_command_channel(ddl_context, ddl, client_data))
return VCD_ERR_BUSY;
ddl_vidc_channel_set(ddl);
return status;
}
static u32 vcd_fw_prepare(struct ddl_buf_addr *fw_details,
const unsigned char fw_array[],
const unsigned int fw_array_size, u32 change_endian)
{
u32 *buffer;
ddl_pmem_alloc(fw_details, fw_array_size,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!fw_details->virtual_base_addr)
return false;
fw_details->buffer_size = fw_array_size / 4;
buffer = fw_details->align_virtual_addr;
memcpy(buffer, fw_array, fw_array_size);
if (change_endian)
vcd_fw_change_endian((unsigned char *)buffer, fw_array_size);
return true;
}
u32 ddl_encode_start(u32 *ddl_handle, void *client_data)
{
struct ddl_client_context *ddl =
(struct ddl_client_context *) ddl_handle;
struct ddl_context *ddl_context;
struct ddl_encoder_data *encoder;
void *ptr;
u32 status = VCD_S_SUCCESS;
DDL_MSG_HIGH("ddl_encode_start");
if (first_time < 2) {
ddl_reset_core_time_variables(ENC_OP_TIME);
first_time++;
}
ddl_set_core_start_time(__func__, ENC_OP_TIME);
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (!ddl || ddl->decoding) {
DDL_MSG_ERROR("ddl_enc_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_OPEN)) {
DDL_MSG_ERROR("ddl_enc_start:Not_opened");
return VCD_ERR_ILLEGAL_OP;
}
if (!ddl_encoder_ready_to_start(ddl)) {
DDL_MSG_ERROR("ddl_enc_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
encoder = &ddl->codec_data.encoder;
if (DDL_IS_LTR_ENABLED(encoder)) {
DDL_MSG_HIGH("LTR enabled, mode %u count %u",
(u32)encoder->ltr_control.ltrmode.ltr_mode,
(u32)encoder->ltr_control.ltr_count);
status = ddl_allocate_ltr_list(&encoder->ltr_control);
if (status) {
DDL_MSG_ERROR("%s: allocate ltr list failed",
__func__);
return status;
} else {
ddl_clear_ltr_list(&encoder->ltr_control, false);
}
encoder->num_references_for_p_frame = 2;
encoder->ltr_control.callback_reqd = false;
encoder->ltr_control.curr_ltr_id = (u32)DDL_LTR_FRAME_START_ID;
DDL_MSG_HIGH("num_ref_for_p_frames %u, curr_ltr_id = %u",
(u32)encoder->num_references_for_p_frame,
(u32)encoder->ltr_control.curr_ltr_id);
}
status = ddl_allocate_enc_hw_buffers(ddl);
if (status)
return status;
#ifdef DDL_BUF_LOG
ddl_list_buffers(ddl);
#endif
encoder->seq_header.mem_type = DDL_MM_MEM;
ptr = ddl_pmem_alloc(&encoder->seq_header,
DDL_ENC_SEQHEADER_SIZE, DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ptr) {
ddl_free_enc_hw_buffers(ddl);
DDL_MSG_ERROR("ddl_enc_start:Seq_hdr_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
msm_ion_do_cache_op(ddl_context->video_ion_client,
encoder->seq_header.alloc_handle,
encoder->seq_header.virtual_base_addr,
encoder->seq_header.buffer_size,
ION_IOC_CLEAN_INV_CACHES);
if (encoder->slice_delivery_info.enable) {
DDL_MSG_LOW("%s: slice mode allocate memory for struct\n",
__func__);
ptr = ddl_pmem_alloc(&encoder->batch_frame.slice_batch_in,
DDL_ENC_SLICE_BATCH_INPSTRUCT_SIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (ptr) {
ptr = ddl_pmem_alloc(
&encoder->batch_frame.slice_batch_out,
DDL_ENC_SLICE_BATCH_OUTSTRUCT_SIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
}
if (!ptr) {
ddl_pmem_free(&encoder->batch_frame.slice_batch_in);
ddl_pmem_free(&encoder->batch_frame.slice_batch_out);
ddl_free_enc_hw_buffers(ddl);
ddl_pmem_free(&encoder->seq_header);
DDL_MSG_ERROR("ddlEncStart:SeqHdrAllocFailed");
return VCD_ERR_ALLOC_FAIL;
}
}
if (!ddl_take_command_channel(ddl_context, ddl, client_data))
return VCD_ERR_BUSY;
ddl_vidc_channel_set(ddl);
return status;
}
u32 ddl_device_init(struct ddl_init_config *ddl_init_config,
void *client_data)
{
struct ddl_context *ddl_context;
u32 status = VCD_S_SUCCESS;
void *ptr = NULL;
DDL_MSG_HIGH("ddl_device_init");
if ((!ddl_init_config) || (!ddl_init_config->ddl_callback) ||
(!ddl_init_config->core_virtual_base_addr)) {
DDL_MSG_ERROR("ddl_dev_init:Bad_argument");
return VCD_ERR_ILLEGAL_PARM;
}
ddl_context = ddl_get_context();
if (DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_dev_init:Multiple_init");
return VCD_ERR_ILLEGAL_OP;
}
if (!DDL_IS_IDLE(ddl_context)) {
DDL_MSG_ERROR("ddl_dev_init:Ddl_busy");
return VCD_ERR_BUSY;
}
memset(ddl_context, 0, sizeof(struct ddl_context));
DDL_BUSY(ddl_context);
if (res_trk_get_enable_ion()) {
DDL_MSG_LOW("ddl_dev_init:ION framework enabled");
ddl_context->video_ion_client =
res_trk_get_ion_client();
if (!ddl_context->video_ion_client) {
DDL_MSG_ERROR("ION client create failed");
return VCD_ERR_ILLEGAL_OP;
}
}
ddl_context->ddl_callback = ddl_init_config->ddl_callback;
if (ddl_init_config->interrupt_clr)
ddl_context->interrupt_clr =
ddl_init_config->interrupt_clr;
ddl_context->core_virtual_base_addr =
ddl_init_config->core_virtual_base_addr;
ddl_context->client_data = client_data;
ddl_context->ddl_hw_response.arg1 = DDL_INVALID_INTR_STATUS;
ddl_context->frame_channel_depth = VCD_FRAME_COMMAND_DEPTH;
DDL_MSG_LOW("%s() : virtual address of core(%x)\n", __func__,
(u32) ddl_init_config->core_virtual_base_addr);
vidc_1080p_set_device_base_addr(
ddl_context->core_virtual_base_addr);
ddl_context->cmd_state = DDL_CMD_INVALID;
ddl_client_transact(DDL_INIT_CLIENTS, NULL);
ddl_context->fw_memory_size =
DDL_FW_INST_GLOBAL_CONTEXT_SPACE_SIZE;
if (res_trk_get_firmware_addr(&ddl_context->dram_base_a)) {
DDL_MSG_ERROR("firmware allocation failed");
ptr = NULL;
} else {
ptr = (void *)ddl_context->dram_base_a.virtual_base_addr;
}
if (!ptr) {
DDL_MSG_ERROR("Memory Aocation Failed for FW Base");
status = VCD_ERR_ALLOC_FAIL;
} else {
DDL_MSG_LOW("%s() : physical address of base(%x)\n",
__func__, (u32) ddl_context->dram_base_a.\
align_physical_addr);
ddl_context->dram_base_b.align_physical_addr =
ddl_context->dram_base_a.align_physical_addr;
ddl_context->dram_base_b.align_virtual_addr =
ddl_context->dram_base_a.align_virtual_addr;
}
if (!status) {
if (res_trk_get_enable_sec_metadata()) {
ddl_context->metadata_shared_input.mem_type =
DDL_CMD_MEM;
} else {
ddl_context->metadata_shared_input.mem_type =
DDL_FW_MEM;
}
ptr = ddl_pmem_alloc(&ddl_context->metadata_shared_input,
DDL_METADATA_TOTAL_INPUTBUFSIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ptr) {
DDL_MSG_ERROR("ddl_device_init: metadata alloc fail");
status = VCD_ERR_ALLOC_FAIL;
}
}
if (!status && !ddl_fw_init(&ddl_context->dram_base_a)) {
DDL_MSG_ERROR("ddl_dev_init:fw_init_failed");
status = VCD_ERR_ALLOC_FAIL;
}
if (!status) {
ddl_context->cmd_state = DDL_CMD_DMA_INIT;
ddl_vidc_core_init(ddl_context);
} else {
ddl_release_context_buffers(ddl_context);
DDL_IDLE(ddl_context);
}
return status;
}
u32 ddl_decode_start(u32 *ddl_handle,
struct vcd_sequence_hdr *header, void *client_data)
{
struct ddl_client_context *ddl =
(struct ddl_client_context *)ddl_handle;
struct ddl_context *ddl_context;
struct ddl_decoder_data *decoder;
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
VIDC_LOGERR_STRING("ddl_dec_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
VIDC_LOGERR_STRING("ddl_dec_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (!ddl || !ddl->decoding) {
VIDC_LOGERR_STRING("ddl_dec_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_OPEN)) {
VIDC_LOGERR_STRING("ddl_dec_start:Not_in_opened_state");
return VCD_ERR_ILLEGAL_OP;
}
if ((header) &&
((!header->sequence_header_len) ||
(!header->sequence_header)
)
) {
VIDC_LOGERR_STRING("ddl_dec_start:Bad_param_seq_header");
return VCD_ERR_ILLEGAL_PARM;
}
if (!ddl_decoder_ready_to_start(ddl, header)) {
VIDC_LOGERR_STRING("ddl_dec_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
DDL_BUSY(ddl_context);
decoder = &ddl->codec_data.decoder;
if (header) {
decoder->header_in_start = true;
decoder->decode_config = *header;
} else {
decoder->header_in_start = false;
decoder->decode_config.sequence_header_len = 0;
}
if (decoder->codec.codec == VCD_CODEC_H264) {
ddl_pmem_alloc(&decoder->h264Vsp_temp_buffer,
DDL_DECODE_H264_VSPTEMP_BUFSIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!decoder->h264Vsp_temp_buffer.virtual_base_addr) {
DDL_IDLE(ddl_context);
VIDC_LOGERR_STRING
("ddl_dec_start:H264Sps_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
}
ddl_context->current_ddl = ddl;
ddl_context->client_data = client_data;
ddl_channel_set(ddl);
return VCD_S_SUCCESS;
}
u32 ddl_encode_start(u32 *ddl_handle, void *client_data)
{
struct ddl_client_context *ddl =
(struct ddl_client_context *)ddl_handle;
struct ddl_context *ddl_context;
struct ddl_encoder_data *encoder;
u32 dpb_size;
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
VIDC_LOGERR_STRING("ddl_enc_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
VIDC_LOGERR_STRING("ddl_enc_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (!ddl || ddl->decoding) {
VIDC_LOGERR_STRING("ddl_enc_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_OPEN)) {
VIDC_LOGERR_STRING("ddl_enc_start:Not_opened");
return VCD_ERR_ILLEGAL_OP;
}
if (!ddl_encoder_ready_to_start(ddl)) {
VIDC_LOGERR_STRING("ddl_enc_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
encoder = &ddl->codec_data.encoder;
dpb_size = ddl_get_yuv_buffer_size(&encoder->frame_size,
&encoder->re_con_buf_format, false,
encoder->codec.codec);
dpb_size *= DDL_ENC_NUM_DPB_BUFFERS;
ddl_pmem_alloc(&encoder->enc_dpb_addr,
dpb_size, DDL_TILE_BUFFER_ALIGN_BYTES);
if (!encoder->enc_dpb_addr.virtual_base_addr) {
VIDC_LOGERR_STRING("ddl_enc_start:Dpb_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
if ((encoder->codec.codec == VCD_CODEC_MPEG4 &&
!encoder->short_header.short_header) ||
encoder->codec.codec == VCD_CODEC_H264) {
ddl_pmem_alloc(&encoder->seq_header,
DDL_ENC_SEQHEADER_SIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!encoder->seq_header.virtual_base_addr) {
ddl_pmem_free(&encoder->enc_dpb_addr);
VIDC_LOGERR_STRING
("ddl_enc_start:Seq_hdr_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
} else {
encoder->seq_header.buffer_size = 0;
encoder->seq_header.virtual_base_addr = 0;
}
DDL_BUSY(ddl_context);
ddl_context->current_ddl = ddl;
ddl_context->client_data = client_data;
ddl_channel_set(ddl);
return VCD_S_SUCCESS;
}
u32 ddl_device_init(struct ddl_init_config *ddl_init_config,
void *client_data)
{
struct ddl_context *ddl_context;
u32 status = VCD_S_SUCCESS;
if ((!ddl_init_config) ||
(!ddl_init_config->ddl_callback) ||
(!ddl_init_config->core_virtual_base_addr)
) {
VIDC_LOGERR_STRING("ddl_dev_init:Bad_argument");
return VCD_ERR_ILLEGAL_PARM;
}
ddl_context = ddl_get_context();
if (DDL_IS_INITIALIZED(ddl_context)) {
VIDC_LOGERR_STRING("ddl_dev_init:Multiple_init");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
VIDC_LOGERR_STRING("ddl_dev_init:Ddl_busy");
return VCD_ERR_BUSY;
}
DDL_MEMSET(ddl_context, 0, sizeof(struct ddl_context));
DDL_BUSY(ddl_context);
ddl_context->ddl_callback = ddl_init_config->ddl_callback;
ddl_context->interrupt_clr = ddl_init_config->interrupt_clr;
ddl_context->core_virtual_base_addr =
ddl_init_config->core_virtual_base_addr;
ddl_context->client_data = client_data;
vidc_720p_set_device_virtual_base(ddl_context->
core_virtual_base_addr);
ddl_context->current_ddl = NULL;
ddl_move_command_state(ddl_context, DDL_CMD_INVALID);
ddl_client_transact(DDL_INIT_CLIENTS, NULL);
ddl_pmem_alloc(&ddl_context->context_buf_addr,
DDL_CONTEXT_MEMORY, DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ddl_context->context_buf_addr.virtual_base_addr) {
VIDC_LOGERR_STRING("ddl_dev_init:Context_alloc_fail");
status = VCD_ERR_ALLOC_FAIL;
}
if (!status) {
ddl_pmem_alloc(&ddl_context->db_line_buffer,
DDL_DB_LINE_BUF_SIZE,
DDL_TILE_BUFFER_ALIGN_BYTES);
if (!ddl_context->db_line_buffer.virtual_base_addr) {
VIDC_LOGERR_STRING("ddl_dev_init:Line_buf_alloc_fail");
status = VCD_ERR_ALLOC_FAIL;
}
}
if (!status) {
ddl_pmem_alloc(&ddl_context->data_partition_tempbuf,
DDL_MPEG4_DATA_PARTITION_BUF_SIZE,
DDL_TILE_BUFFER_ALIGN_BYTES);
if (ddl_context->data_partition_tempbuf.virtual_base_addr \
== NULL) {
VIDC_LOGERR_STRING
("ddl_dev_init:Data_partition_buf_alloc_fail");
status = VCD_ERR_ALLOC_FAIL;
}
}
if (!status) {
ddl_pmem_alloc(&ddl_context->metadata_shared_input,
DDL_METADATA_TOTAL_INPUTBUFSIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ddl_context->metadata_shared_input.virtual_base_addr) {
VIDC_LOGERR_STRING
("ddl_dev_init:metadata_shared_input_alloc_fail");
status = VCD_ERR_ALLOC_FAIL;
}
}
if (!status) {
ddl_pmem_alloc(&ddl_context->dbg_core_dump, \
DDL_DBG_CORE_DUMP_SIZE, \
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ddl_context->dbg_core_dump.virtual_base_addr) {
VIDC_LOGERR_STRING
("ddl_dev_init:dbg_core_dump_alloc_failed");
status = VCD_ERR_ALLOC_FAIL;
}
ddl_context->enable_dbg_core_dump = 0;
}
if (!status && !vcd_fw_init()) {
VIDC_LOGERR_STRING("ddl_dev_init:fw_init_failed");
status = VCD_ERR_ALLOC_FAIL;
}
if (status) {
ddl_release_context_buffers(ddl_context);
DDL_IDLE(ddl_context);
return status;
}
ddl_move_command_state(ddl_context, DDL_CMD_DMA_INIT);
ddl_core_init(ddl_context);
return status;
}
u32 ddl_encode_start(u32 *ddl_handle, void *client_data)
{
struct ddl_client_context *ddl =
(struct ddl_client_context *) ddl_handle;
struct ddl_context *ddl_context;
struct ddl_encoder_data *encoder;
void *ptr;
u32 status = VCD_S_SUCCESS;
DDL_MSG_HIGH("ddl_encode_start");
if (vidc_msg_timing) {
if (first_time < 2) {
ddl_reset_core_time_variables(ENC_OP_TIME);
first_time++;
}
ddl_set_core_start_time(__func__, ENC_OP_TIME);
}
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (!ddl || ddl->decoding) {
DDL_MSG_ERROR("ddl_enc_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_OPEN)) {
DDL_MSG_ERROR("ddl_enc_start:Not_opened");
return VCD_ERR_ILLEGAL_OP;
}
if (!ddl_encoder_ready_to_start(ddl)) {
DDL_MSG_ERROR("ddl_enc_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
encoder = &ddl->codec_data.encoder;
status = ddl_allocate_enc_hw_buffers(ddl);
if (status)
return status;
#ifdef DDL_BUF_LOG
ddl_list_buffers(ddl);
#endif
#ifdef CONFIG_MSM_MULTIMEDIA_USE_ION
encoder->seq_header.mem_type = DDL_MM_MEM;
#endif
ptr = ddl_pmem_alloc(&encoder->seq_header,
DDL_ENC_SEQHEADER_SIZE, DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ptr) {
ddl_free_enc_hw_buffers(ddl);
DDL_MSG_ERROR("ddl_enc_start:Seq_hdr_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
if (encoder->slice_delivery_info.enable) {
DDL_MSG_LOW("%s: slice mode allocate memory for struct\n",
__func__);
ptr = ddl_pmem_alloc(&encoder->batch_frame.slice_batch_in,
DDL_ENC_SLICE_BATCH_INPSTRUCT_SIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (ptr) {
ptr = ddl_pmem_alloc(
&encoder->batch_frame.slice_batch_out,
DDL_ENC_SLICE_BATCH_OUTSTRUCT_SIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
}
if (!ptr) {
ddl_pmem_free(&encoder->batch_frame.slice_batch_in);
ddl_pmem_free(&encoder->batch_frame.slice_batch_out);
ddl_free_enc_hw_buffers(ddl);
ddl_pmem_free(&encoder->seq_header);
DDL_MSG_ERROR("ddlEncStart:SeqHdrAllocFailed");
return VCD_ERR_ALLOC_FAIL;
}
}
if (!ddl_take_command_channel(ddl_context, ddl, client_data))
return VCD_ERR_BUSY;
ddl_vidc_channel_set(ddl);
return status;
}
u32 ddl_encode_start(u32 *ddl_handle, void *client_data)
{
struct ddl_client_context *ddl =
(struct ddl_client_context *) ddl_handle;
struct ddl_context *ddl_context;
struct ddl_encoder_data *encoder;
void *ptr;
u32 status = VCD_S_SUCCESS;
DDL_MSG_HIGH("ddl_encode_start");
if (vidc_msg_timing) {
if (first_time < 2) {
ddl_reset_core_time_variables(ENC_OP_TIME);
first_time++;
}
ddl_set_core_start_time(__func__, ENC_OP_TIME);
}
ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(ddl_context)) {
DDL_MSG_ERROR("ddl_enc_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (!ddl || ddl->decoding) {
DDL_MSG_ERROR("ddl_enc_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(ddl, DDL_CLIENT_OPEN)) {
DDL_MSG_ERROR("ddl_enc_start:Not_opened");
return VCD_ERR_ILLEGAL_OP;
}
if (!ddl_encoder_ready_to_start(ddl)) {
DDL_MSG_ERROR("ddl_enc_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
encoder = &ddl->codec_data.encoder;
status = ddl_allocate_enc_hw_buffers(ddl);
if (status)
return status;
#ifdef DDL_BUF_LOG
ddl_list_buffers(ddl);
#endif
if ((encoder->codec.codec == VCD_CODEC_MPEG4 &&
!encoder->short_header.short_header) ||
encoder->codec.codec == VCD_CODEC_H264) {
ptr = ddl_pmem_alloc(&encoder->seq_header,
DDL_ENC_SEQHEADER_SIZE, DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ptr) {
ddl_free_enc_hw_buffers(ddl);
DDL_MSG_ERROR("ddl_enc_start:Seq_hdr_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
} else {
encoder->seq_header.buffer_size = 0;
encoder->seq_header.virtual_base_addr = 0;
encoder->seq_header.align_physical_addr = 0;
encoder->seq_header.align_virtual_addr = 0;
}
if (!ddl_take_command_channel(ddl_context, ddl, client_data))
return VCD_ERR_BUSY;
ddl_vidc_channel_set(ddl);
return status;
}
u32 ddl_device_init(struct ddl_init_config *ddl_init_config,
void *client_data)
{
struct ddl_context *ddl_context;
u32 status = VCD_S_SUCCESS;
void *ptr;
DDL_MSG_HIGH("ddl_device_init");
if ((!ddl_init_config) || (!ddl_init_config->ddl_callback) ||
(!ddl_init_config->core_virtual_base_addr)) {
DDL_MSG_ERROR("ddl_dev_init:Bad_argument");
return VCD_ERR_ILLEGAL_PARM;
}
ddl_context = ddl_get_context();
if (DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_dev_init:Multiple_init");
return VCD_ERR_ILLEGAL_OP;
}
if (!DDL_IS_IDLE(ddl_context)) {
DDL_MSG_ERROR("ddl_dev_init:Ddl_busy");
return VCD_ERR_BUSY;
}
memset(ddl_context, 0, sizeof(struct ddl_context));
DDL_BUSY(ddl_context);
ddl_context->ddl_callback = ddl_init_config->ddl_callback;
if (ddl_init_config->interrupt_clr)
ddl_context->interrupt_clr =
ddl_init_config->interrupt_clr;
ddl_context->core_virtual_base_addr =
ddl_init_config->core_virtual_base_addr;
ddl_context->client_data = client_data;
ddl_context->ddl_hw_response.arg1 = DDL_INVALID_INTR_STATUS;
ddl_context->frame_channel_depth = VCD_FRAME_COMMAND_DEPTH;
DDL_MSG_LOW("%s() : virtual address of core(%x)\n", __func__,
(u32) ddl_init_config->core_virtual_base_addr);
vidc_1080p_set_device_base_addr(
ddl_context->core_virtual_base_addr);
ddl_context->cmd_state = DDL_CMD_INVALID;
ddl_client_transact(DDL_INIT_CLIENTS, NULL);
ddl_context->fw_memory_size =
DDL_FW_INST_GLOBAL_CONTEXT_SPACE_SIZE;
ptr = ddl_pmem_alloc(&ddl_context->dram_base_a,
ddl_context->fw_memory_size, DDL_KILO_BYTE(128));
if (!ptr) {
DDL_MSG_ERROR("Memory Aocation Failed for FW Base");
status = VCD_ERR_ALLOC_FAIL;
} else {
DDL_MSG_LOW("%s() : physical address of base(%x)\n",
__func__, (u32) ddl_context->dram_base_a.\
align_physical_addr);
ddl_context->dram_base_b.align_physical_addr =
ddl_context->dram_base_a.align_physical_addr;
ddl_context->dram_base_b.align_virtual_addr =
ddl_context->dram_base_a.align_virtual_addr;
}
if (!status && !ddl_fw_init(&ddl_context->dram_base_a)) {
DDL_MSG_ERROR("ddl_dev_init:fw_init_failed");
status = VCD_ERR_ALLOC_FAIL;
}
if (!status) {
ddl_context->cmd_state = DDL_CMD_DMA_INIT;
ddl_vidc_core_init(ddl_context);
} else {
ddl_release_context_buffers(ddl_context);
DDL_IDLE(ddl_context);
}
return status;
}
u32 ddl_decode_start(u32 *ddl_handle,
struct vcd_sequence_hdr_type *p_header, void *p_client_data)
{
struct ddl_client_context_type *p_ddl =
(struct ddl_client_context_type *)ddl_handle;
struct ddl_context_type *p_ddl_context;
struct ddl_decoder_data_type *p_decoder;
p_ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(p_ddl_context)) {
VIDC_LOGERR_STRING("ddl_dec_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(p_ddl_context)) {
VIDC_LOGERR_STRING("ddl_dec_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (NULL == p_ddl || FALSE == p_ddl->b_decoding) {
VIDC_LOGERR_STRING("ddl_dec_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(p_ddl, DDL_CLIENT_OPEN)) {
VIDC_LOGERR_STRING("ddl_dec_start:Not_in_opened_state");
return VCD_ERR_ILLEGAL_OP;
}
if ((NULL != p_header) &&
((0 == p_header->n_sequence_header_len) ||
(NULL == p_header->p_sequence_header)
)
) {
VIDC_LOGERR_STRING("ddl_dec_start:Bad_param_seq_header");
return VCD_ERR_ILLEGAL_PARM;
}
if (FALSE == ddl_decoder_ready_to_start(p_ddl, p_header)) {
VIDC_LOGERR_STRING("ddl_dec_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
DDL_BUSY(p_ddl_context);
p_decoder = &p_ddl->codec_data.decoder;
if (p_header) {
p_decoder->b_header_in_start = TRUE;
p_decoder->decode_config = *p_header;
} else {
p_decoder->b_header_in_start = FALSE;
p_decoder->decode_config.n_sequence_header_len = 0;
}
if (p_decoder->codec_type.e_codec == VCD_CODEC_H264) {
ddl_pmem_alloc(&p_decoder->h264Vsp_temp_buffer,
DDL_DECODE_H264_VSPTEMP_BUFSIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (p_decoder->h264Vsp_temp_buffer.p_virtual_base_addr
== NULL) {
DDL_IDLE(p_ddl_context);
VIDC_LOGERR_STRING
("ddl_dec_start:H264Sps_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
}
p_ddl_context->p_current_ddl = p_ddl;
p_ddl_context->p_client_data = p_client_data;
ddl_channel_set(p_ddl);
return VCD_S_SUCCESS;
}
u32 ddl_encode_start(u32 *ddl_handle, void *p_client_data)
{
struct ddl_client_context_type *p_ddl =
(struct ddl_client_context_type *)ddl_handle;
struct ddl_context_type *p_ddl_context;
struct ddl_encoder_data_type *p_encoder;
u32 n_dpb_size;
p_ddl_context = ddl_get_context();
if (!DDL_IS_INITIALIZED(p_ddl_context)) {
VIDC_LOGERR_STRING("ddl_enc_start:Not_inited");
return VCD_ERR_ILLEGAL_OP;
}
if (DDL_IS_BUSY(p_ddl_context)) {
VIDC_LOGERR_STRING("ddl_enc_start:Ddl_busy");
return VCD_ERR_BUSY;
}
if (NULL == p_ddl || TRUE == p_ddl->b_decoding) {
VIDC_LOGERR_STRING("ddl_enc_start:Bad_handle");
return VCD_ERR_BAD_HANDLE;
}
if (!DDLCLIENT_STATE_IS(p_ddl, DDL_CLIENT_OPEN)) {
VIDC_LOGERR_STRING("ddl_enc_start:Not_opened");
return VCD_ERR_ILLEGAL_OP;
}
if (FALSE == ddl_encoder_ready_to_start(p_ddl)) {
VIDC_LOGERR_STRING("ddl_enc_start:Err_param_settings");
return VCD_ERR_ILLEGAL_OP;
}
p_encoder = &p_ddl->codec_data.encoder;
n_dpb_size = ddl_get_yuv_buffer_size(&p_encoder->frame_size,
&p_encoder->re_con_buf_format, FALSE);
n_dpb_size *= DDL_ENC_NUM_DPB_BUFFERS;
ddl_pmem_alloc(&p_encoder->enc_dpb_addr,
n_dpb_size, DDL_TILE_BUFFER_ALIGN_BYTES);
if (NULL == p_encoder->enc_dpb_addr.p_virtual_base_addr) {
VIDC_LOGERR_STRING("ddl_enc_start:Dpb_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
if ((VCD_CODEC_MPEG4 == p_encoder->codec_type.e_codec &&
FALSE == p_encoder->short_header.b_short_header) ||
VCD_CODEC_H264 == p_encoder->codec_type.e_codec) {
ddl_pmem_alloc(&p_encoder->seq_header,
DDL_ENC_SEQHEADER_SIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (NULL == p_encoder->seq_header.p_virtual_base_addr) {
ddl_pmem_free(p_encoder->enc_dpb_addr);
VIDC_LOGERR_STRING
("ddl_enc_start:Seq_hdr_alloc_failed");
return VCD_ERR_ALLOC_FAIL;
}
} else {
p_encoder->seq_header.n_buffer_size = 0;
p_encoder->seq_header.p_virtual_base_addr = 0;
}
DDL_BUSY(p_ddl_context);
p_ddl_context->p_current_ddl = p_ddl;
p_ddl_context->p_client_data = p_client_data;
ddl_channel_set(p_ddl);
return VCD_S_SUCCESS;
}
u32 ddl_device_init(struct ddl_init_config *ddl_init_config,
void *client_data)
{
struct ddl_context *ddl_context;
struct res_trk_firmware_addr firmware_addr;
u32 status = VCD_S_SUCCESS, memorytype = PMEM_MEMTYPE;
void *ptr = NULL;
DDL_MSG_HIGH("ddl_device_init");
if ((!ddl_init_config) || (!ddl_init_config->ddl_callback) ||
(!ddl_init_config->core_virtual_base_addr)) {
DDL_MSG_ERROR("ddl_dev_init:Bad_argument");
return VCD_ERR_ILLEGAL_PARM;
}
ddl_context = ddl_get_context();
if (DDL_IS_INITIALIZED(ddl_context)) {
DDL_MSG_ERROR("ddl_dev_init:Multiple_init");
return VCD_ERR_ILLEGAL_OP;
}
if (!DDL_IS_IDLE(ddl_context)) {
DDL_MSG_ERROR("ddl_dev_init:Ddl_busy");
return VCD_ERR_BUSY;
}
memset(ddl_context, 0, sizeof(struct ddl_context));
DDL_BUSY(ddl_context);
ddl_context->ddl_callback = ddl_init_config->ddl_callback;
if (ddl_init_config->interrupt_clr)
ddl_context->interrupt_clr =
ddl_init_config->interrupt_clr;
ddl_context->core_virtual_base_addr =
ddl_init_config->core_virtual_base_addr;
ddl_context->client_data = client_data;
ddl_context->ddl_hw_response.arg1 = DDL_INVALID_INTR_STATUS;
ddl_context->frame_channel_depth = VCD_FRAME_COMMAND_DEPTH;
DDL_MSG_LOW("%s() : virtual address of core(%x)\n", __func__,
(u32) ddl_init_config->core_virtual_base_addr);
vidc_1080p_set_device_base_addr(
ddl_context->core_virtual_base_addr);
ddl_context->cmd_state = DDL_CMD_INVALID;
ddl_client_transact(DDL_INIT_CLIENTS, NULL);
ddl_context->fw_memory_size =
DDL_FW_INST_GLOBAL_CONTEXT_SPACE_SIZE;
if (memorytype == PMEM_MEMTYPE_SMI) {
ptr = ddl_pmem_alloc(&ddl_context->dram_base_a,
ddl_context->fw_memory_size, DDL_KILO_BYTE(128));
} else {
if (!res_trk_get_firmware_addr(&firmware_addr) &&
firmware_addr.buf_size >= ddl_context->fw_memory_size) {
if (DDL_ADDR_IS_ALIGNED(firmware_addr.device_addr,
DDL_KILO_BYTE(128))) {
ptr = (void *) firmware_addr.base_addr;
ddl_context->dram_base_a.physical_base_addr =
ddl_context->dram_base_a.align_physical_addr =
(u8 *)firmware_addr.device_addr;
ddl_context->dram_base_a.align_virtual_addr =
ddl_context->dram_base_a.virtual_base_addr =
firmware_addr.base_addr;
ddl_context->dram_base_a.buffer_size =
ddl_context->fw_memory_size;
} else {
DDL_MSG_ERROR("firmware base not aligned %p",
(void *)firmware_addr.device_addr);
}
}
}
if (!ptr) {
DDL_MSG_ERROR("Memory Aocation Failed for FW Base");
status = VCD_ERR_ALLOC_FAIL;
} else {
DDL_MSG_LOW("%s() : physical address of base(%x)\n",
__func__, (u32) ddl_context->dram_base_a.\
align_physical_addr);
ddl_context->dram_base_b.align_physical_addr =
ddl_context->dram_base_a.align_physical_addr;
ddl_context->dram_base_b.align_virtual_addr =
ddl_context->dram_base_a.align_virtual_addr;
}
if (!status) {
ptr = ddl_pmem_alloc(&ddl_context->metadata_shared_input,
DDL_METADATA_TOTAL_INPUTBUFSIZE,
DDL_LINEAR_BUFFER_ALIGN_BYTES);
if (!ptr) {
DDL_MSG_ERROR("ddl_device_init: metadata alloc fail");
status = VCD_ERR_ALLOC_FAIL;
}
}
if (!status && !ddl_fw_init(&ddl_context->dram_base_a)) {
DDL_MSG_ERROR("ddl_dev_init:fw_init_failed");
status = VCD_ERR_ALLOC_FAIL;
}
if (!status && memorytype == PMEM_MEMTYPE_EBI1)
clean_caches((unsigned long)firmware_addr.base_addr,
firmware_addr.buf_size, firmware_addr.device_addr);
if (!status) {
ddl_context->cmd_state = DDL_CMD_DMA_INIT;
ddl_vidc_core_init(ddl_context);
} else {
ddl_release_context_buffers(ddl_context);
DDL_IDLE(ddl_context);
}
return status;
}