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Wed, 18 Aug 2021 07:13:11 -0700 (PDT) Received: from localhost.localdomain ([49.207.214.181]) by smtp.gmail.com with ESMTPSA id e8sm8084343pgg.31.2021.08.18.07.13.07 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Wed, 18 Aug 2021 07:13:10 -0700 (PDT) From: sidraya.bj@pathpartnertech.com To: gregkh@linuxfoundation.org, linux-staging@lists.linux.dev, linux-kernel@vger.kernel.org Cc: prashanth.ka@pathpartnertech.com, praneeth@ti.com, mchehab@kernel.org, linux-media@vger.kernel.org, praveen.ap@pathpartnertech.com, Sidraya Subject: [PATCH 23/30] v4l:vxd-dec:Decoder Component Date: Wed, 18 Aug 2021 19:40:30 +0530 Message-Id: <20210818141037.19990-24-sidraya.bj@pathpartnertech.com> X-Mailer: git-send-email 2.17.1 In-Reply-To: <20210818141037.19990-1-sidraya.bj@pathpartnertech.com> References: <20210818141037.19990-1-sidraya.bj@pathpartnertech.com> Content-Type: text/plain; charset="US-ASCII" Precedence: bulk List-ID: X-Mailing-List: linux-kernel@vger.kernel.org From: Sidraya Decoder component is responsible for managing decoder state machine and resource allocation, firmware message preparation and firmware response processing Signed-off-by: Sunita Nadampalli Signed-off-by: Sidraya --- MAINTAINERS | 2 + drivers/staging/media/vxd/decoder/decoder.c | 4622 +++++++++++++++++++ drivers/staging/media/vxd/decoder/decoder.h | 375 ++ 3 files changed, 4999 insertions(+) create mode 100644 drivers/staging/media/vxd/decoder/decoder.c create mode 100644 drivers/staging/media/vxd/decoder/decoder.h diff --git a/MAINTAINERS b/MAINTAINERS index fa5c69d71c3e..7c7c008efd97 100644 --- a/MAINTAINERS +++ b/MAINTAINERS @@ -19573,6 +19573,8 @@ F: drivers/staging/media/vxd/decoder/core.c F: drivers/staging/media/vxd/decoder/core.h F: drivers/staging/media/vxd/decoder/dec_resources.c F: drivers/staging/media/vxd/decoder/dec_resources.h +F: drivers/staging/media/vxd/decoder/decoder.c +F: drivers/staging/media/vxd/decoder/decoder.h F: drivers/staging/media/vxd/decoder/fw_interface.h F: drivers/staging/media/vxd/decoder/h264_idx.h F: drivers/staging/media/vxd/decoder/h264_secure_parser.c diff --git a/drivers/staging/media/vxd/decoder/decoder.c b/drivers/staging/media/vxd/decoder/decoder.c new file mode 100644 index 000000000000..f695cf9c4433 --- /dev/null +++ b/drivers/staging/media/vxd/decoder/decoder.c @@ -0,0 +1,4622 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * VXD Decoder Component function implementations + * + * Copyright (c) Imagination Technologies Ltd. + * Copyright (c) 2021 Texas Instruments Incorporated - http://www.ti.com/ + * + * Authors: + * Sunita Nadampalli + * + * Re-written for upstream + * Sidraya Jayagond + * Prashanth Kumar Amai + */ + +#include "decoder.h" +#include "dec_resources.h" +#include "dq.h" +#include "hw_control.h" +#include "h264fw_data.h" +#include "idgen_api.h" +#include "img_errors.h" +#ifdef HAS_JPEG +#include "jpegfw_data.h" +#endif +#include "lst.h" +#include "pool_api.h" +#include "resource.h" +#include "translation_api.h" +#include "vdecdd_utils.h" +#include "vdec_mmu_wrapper.h" +#include "vxd_dec.h" + +#define CORE_NUM_DECODE_SLOTS 2 + +#define MAX_PLATFORM_SUPPORTED_HEIGHT 65536 +#define MAX_PLATFORM_SUPPORTED_WIDTH 65536 + +#define MAX_CONCURRENT_STREAMS 16 + +/* Maximum number of unique picture ids within stream. */ +#define DECODER_MAX_PICT_ID GET_STREAM_PICTURE_ID(((1ULL << 32) - 1ULL)) + +/* Maximum number of concurrent pictures within stream. */ +#define DECODER_MAX_CONCURRENT_PICT 0x100 + +static inline unsigned int get_next_picture_id(unsigned int cur_pict_id) +{ + return(cur_pict_id == FWIF_BIT_MASK(FWIF_NUMBITS_STREAM_PICTURE_ID) ? + 1 : cur_pict_id + 1); +} + +static inline unsigned int get_prev_picture_id(unsigned int cur_pict_id) +{ + return(cur_pict_id == 1 ? + FWIF_BIT_MASK(FWIF_NUMBITS_STREAM_PICTURE_ID) : + cur_pict_id - 1); +} + +#define H264_SGM_BUFFER_BYTES_PER_MB 1 +#define H264_SGM_MAX_MBS 3600 + +#define CONTEXT_BUFF_SIZE (72) + +/* + * Number of bits in transaction ID used to represent + * picture number in stream. + */ +#define FWIF_NUMBITS_STREAM_PICTURE_ID 16 +/* + * Number of bits in transaction ID used to represent + * picture number in core. + */ +#define FWIF_NUMBITS_CORE_PICTURE_ID 4 +/* + * Number of bits in transaction ID used to represent + * stream id. + */ +#define FWIF_NUMBITS_STREAM_ID 8 +/* Number of bits in transaction ID used to represent core id. */ +#define FWIF_NUMBITS_CORE_ID 4 + +/* Offset in transaction ID to picture number in stream. */ +#define FWIF_OFFSET_STREAM_PICTURE_ID 0 +/* Offset in transaction ID to picture number in core. */ +#define FWIF_OFFSET_CORE_PICTURE_ID (FWIF_OFFSET_STREAM_PICTURE_ID + \ + FWIF_NUMBITS_STREAM_PICTURE_ID) +/* Offset in transaction ID to stream id. */ +#define FWIF_OFFSET_STREAM_ID (FWIF_OFFSET_CORE_PICTURE_ID + \ + FWIF_NUMBITS_CORE_PICTURE_ID) +/* Offset in transaction ID to core id. */ +#define FWIF_OFFSET_CORE_ID (FWIF_OFFSET_STREAM_ID + \ + FWIF_NUMBITS_STREAM_ID) + +/* Maximum number of unique picture ids within stream. */ +#define DECODER_MAX_PICT_ID GET_STREAM_PICTURE_ID(((1ULL << 32) - 1ULL)) + +/* Maximum number of concurrent pictures within stream. */ +#define DECODER_MAX_CONCURRENT_PICT 0x100 + +#define CREATE_TRANSACTION_ID(core_id, stream_id, core_pic, stream_pic) \ + (SET_CORE_ID((core_id)) | SET_STREAM_ID((stream_id)) | \ + SET_CORE_PICTURE_ID((core_pic)) | SET_STREAM_PICTURE_ID((stream_pic))) + +static inline struct dec_core_ctx *decoder_str_ctx_to_core_ctx(struct dec_str_ctx *decstrctx) +{ + if (decstrctx && decstrctx->decctx) + return decstrctx->decctx->dec_core_ctx; + + else + return NULL; +} + +static const struct vdecdd_dd_devconfig def_dev_cfg = { + CORE_NUM_DECODE_SLOTS, /* ui32NumSlotsPerPipe; */ +}; + +/* + * This array defines names of the VDEC standards. + * Shall be in sync with #VDEC_eVidStd + * @brief Names of the VDEC standards + */ +static unsigned char *vid_std_names[] = { + "VDEC_STD_UNDEFINED", + "VDEC_STD_MPEG2", + "VDEC_STD_MPEG4", + "VDEC_STD_H263", + "VDEC_STD_H264", + "VDEC_STD_VC1", + "VDEC_STD_AVS", + "VDEC_STD_REAL", + "VDEC_STD_JPEG", + "VDEC_STD_VP6", + "VDEC_STD_VP8", + "VDEC_STD_SORENSON", + "VDEC_STD_HEVC" +}; + +#ifdef ERROR_RECOVERY_SIMULATION +extern int fw_error_value; +#endif + +/* + * @Function decoder_set_device_config + */ +static int decoder_set_device_config(const struct vdecdd_dd_devconfig **dd_dev_config) +{ + struct vdecdd_dd_devconfig *local_dev_cfg; + + VDEC_ASSERT(dd_dev_config); + + /* Allocate device configuration structure */ + local_dev_cfg = kzalloc(sizeof(*local_dev_cfg), GFP_KERNEL); + VDEC_ASSERT(local_dev_cfg); + if (!local_dev_cfg) + return IMG_ERROR_OUT_OF_MEMORY; + + /* Set the default device configuration */ + *local_dev_cfg = def_dev_cfg; + + *dd_dev_config = local_dev_cfg; + + return IMG_SUCCESS; +} + +/* + * @Function decoder_set_feature_flags + * @Description + * This function sets the features flags from the core properties. + * @Input p : Pointer to core properties. + * @Input core_feat_flags : Pointer to core feature flags word. + */ +static void decoder_set_feature_flags(struct vxd_coreprops *core_props, + unsigned int *core_feat_flags, + unsigned int *pipe_feat_flags) +{ + unsigned char pipe_minus_one; + + VDEC_ASSERT(core_props); + VDEC_ASSERT(core_feat_flags); + VDEC_ASSERT(pipe_feat_flags); + + for (pipe_minus_one = 0; pipe_minus_one < core_props->num_pixel_pipes; + pipe_minus_one++) { + *core_feat_flags |= pipe_feat_flags[pipe_minus_one] |= + core_props->h264[pipe_minus_one] ? + VDECDD_COREFEATURE_H264 : 0; +#ifdef HAS_JPEG + *core_feat_flags |= pipe_feat_flags[pipe_minus_one] |= + core_props->jpeg[pipe_minus_one] ? + VDECDD_COREFEATURE_JPEG : 0; +#endif +#ifdef HAS_HEVC + *core_feat_flags |= pipe_feat_flags[pipe_minus_one] |= + core_props->hevc[pipe_minus_one] ? + VDECDD_COREFEATURE_HEVC : 0; +#endif + } +} + +/* + * @Function decoder_stream_get_context + * @Description + * This function returns the stream context structure for the given + * stream handle. + * @Return struct dec_str_ctx : This function returns a pointer + * to the stream + * context structure or NULL if not found. + */ +static struct dec_str_ctx *decoder_stream_get_context(void *dec_str_context) +{ + return (struct dec_str_ctx *)dec_str_context; +} + +/* + * @Function decoder_core_enumerate + * @Description + * This function enumerates a decoder core and returns its handle. + * Usage: before calls to other DECODE_Core or DECODE_Stream functions. + * @Input dec_context : Pointer to Decoder context. + * @Input dev_cfg : Device configuration. + * @Return This function returns either IMG_SUCCESS or an + * error code. + */ +static int decoder_core_enumerate(struct dec_ctx *dec_context, + const struct vdecdd_dd_devconfig *dev_cfg, + unsigned int *num_pipes) +{ + struct dec_core_ctx *dec_core_ctx_local; + unsigned int ret; + unsigned int ptd_align = DEV_MMU_PAGE_ALIGNMENT; + + /* Create the core. */ + dec_core_ctx_local = kzalloc(sizeof(*dec_core_ctx_local), GFP_KERNEL); + if (!dec_core_ctx_local) + return IMG_ERROR_OUT_OF_MEMORY; + + dec_core_ctx_local->dec_ctx = (struct dec_ctx *)dec_context; + + /* Initialise the hwctrl block here */ + ret = hwctrl_initialise(dec_core_ctx_local, dec_context->user_data, + dev_cfg, &dec_core_ctx_local->core_props, + &dec_core_ctx_local->hw_ctx); + if (ret != IMG_SUCCESS) + goto error; + + decoder_set_feature_flags(&dec_core_ctx_local->core_props, + &dec_core_ctx_local->core_features, + dec_core_ctx_local->pipe_features); + + /* Perform device setup for master core. */ + if (num_pipes) + *num_pipes = dec_core_ctx_local->core_props.num_pixel_pipes; + + /* DEVA PVDEC FW requires PTD to be 64k aligned. */ + ptd_align = 0x10000; + + /* Create a device MMU context. */ + ret = mmu_device_create(dec_core_ctx_local->core_props.mmu_type, + ptd_align, &dec_context->mmu_dev_handle); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + dec_core_ctx_local->enumerated = TRUE; + + dec_context->dec_core_ctx = dec_core_ctx_local; + + return IMG_SUCCESS; + +error: + if (dec_core_ctx_local) { + unsigned int deinit_result = IMG_SUCCESS; + + /* Destroy a device MMU context. */ + if (dec_context->mmu_dev_handle) { + deinit_result = + mmu_device_destroy(dec_context->mmu_dev_handle); + VDEC_ASSERT(deinit_result == IMG_SUCCESS); + if (deinit_result != IMG_SUCCESS) + pr_warn("MMU_DeviceDestroy() failed to tidy-up after error"); + } + + kfree(dec_core_ctx_local); + dec_core_ctx_local = NULL; + } + + return ret; +} + +/* + * @Function decoder_initialise + */ +int decoder_initialise(void *user_init_data, unsigned int int_heap_id, + struct vdecdd_dd_devconfig *dd_device_config, + unsigned int *num_pipes, + void **dec_ctx_handle) +{ + struct dec_ctx *dec_context = (struct dec_ctx *)*dec_ctx_handle; + int ret; + + if (!dec_context) { + dec_context = kzalloc(sizeof(*dec_context), GFP_KERNEL); + VDEC_ASSERT(dec_context); + if (!dec_context) + return IMG_ERROR_OUT_OF_MEMORY; + + *dec_ctx_handle = dec_context; + } + + /* Determine which standards are supported. */ + memset(&dec_context->sup_stds, 0x0, sizeof(dec_context->sup_stds[VDEC_STD_MAX])); + + dec_context->sup_stds[VDEC_STD_H264] = TRUE; +#ifdef HAS_HEVC + dec_context->sup_stds[VDEC_STD_HEVC] = TRUE; +#endif + if (!dec_context->inited) { + /* Check and store input parameters. */ + dec_context->user_data = user_init_data; + dec_context->dev_handle = + ((struct vdecdd_dddev_context *)user_init_data)->dev_handle; + + /* Initialise the context lists. */ + lst_init(&dec_context->str_list); + + /* Make sure POOL API is initialised */ + ret = pool_init(); + if (ret != IMG_SUCCESS) + goto pool_init_error; + + ret = decoder_set_device_config(&dec_context->dev_cfg); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + dec_context->internal_heap_id = int_heap_id; + + /* Enumerate the master core. */ + ret = decoder_core_enumerate(dec_context, dec_context->dev_cfg, + &dec_context->num_pipes); + if (ret != IMG_SUCCESS) + goto error; + + if (dd_device_config) + *dd_device_config = *dec_context->dev_cfg; + + if (num_pipes) + *num_pipes = dec_context->num_pipes; + + dec_context->inited = TRUE; + } + + return IMG_SUCCESS; + +error: + pool_deinit(); + +pool_init_error: + if (dec_context->dev_cfg) { + kfree((void *)dec_context->dev_cfg); + dec_context->dev_cfg = NULL; + } + + kfree(*dec_ctx_handle); + *dec_ctx_handle = NULL; + + return ret; +} + +/* + * @Function decoder_supported_features + */ +int decoder_supported_features(void *dec_ctx, struct vdec_features *features) +{ + struct dec_ctx *dec_context = (struct dec_ctx *)dec_ctx; + struct dec_core_ctx *dec_core_ctx_local; + + /* Check input parameters. */ + VDEC_ASSERT(dec_context); + VDEC_ASSERT(features); + if (!dec_context || !features) { + pr_err("Invalid parameters!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + /* Ensure that Decoder component is initialised. */ + VDEC_ASSERT(dec_context->inited); + + /* Loop over all cores checking for support. */ + dec_core_ctx_local = dec_context->dec_core_ctx; + VDEC_ASSERT(dec_core_ctx_local); + + /* + * Determine whether the required core attribute + * is present to support requested feature + */ + features->h264 |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_H264) ? TRUE : FALSE; + features->mpeg2 |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_MPEG2) ? TRUE : FALSE; + features->mpeg4 |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_MPEG4) ? TRUE : FALSE; + features->vc1 |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_VC1) ? TRUE : FALSE; + features->avs |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_AVS) ? TRUE : FALSE; + features->real |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_REAL) ? TRUE : FALSE; + features->jpeg |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_JPEG) ? TRUE : FALSE; + features->vp6 |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_VP6) ? TRUE : FALSE; + features->vp8 |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_VP8) ? TRUE : FALSE; + features->hd |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_HD_DECODE) ? TRUE : FALSE; + features->rotation |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_ROTATION) ? TRUE : FALSE; + features->scaling |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_SCALING) ? TRUE : FALSE; + features->hevc |= (dec_core_ctx_local->core_features & + VDECDD_COREFEATURE_HEVC) ? TRUE : FALSE; + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_get_status + */ +int decoder_stream_get_status(void *dec_str_ctx_handle, + struct vdecdd_decstr_status *dec_str_st) +{ + struct dec_str_ctx *dec_str_ctx; + struct dec_decoded_pict *decoded_pict; + struct dec_core_ctx *dec_core_ctx; + unsigned int item; + + VDEC_ASSERT(dec_str_st); + if (!dec_str_st) { + pr_err("Invalid decoder streams status pointer!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + dec_str_ctx = decoder_stream_get_context(dec_str_ctx_handle); + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx) { + pr_err("Invalid decoder stream context handle!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + /* Obtain the state of each core. */ + dec_core_ctx = decoder_str_ctx_to_core_ctx(dec_str_ctx); + VDEC_ASSERT(dec_core_ctx); + + /* + * Obtain the display and release list of first unprocessed + * picture in decoded list + */ + dec_str_ctx->dec_str_st.display_pics = 0; + dec_str_ctx->dec_str_st.release_pics = 0; + decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + while (decoded_pict) { + /* if this is the first unprocessed picture */ + if (!decoded_pict->processed) { + unsigned int idx; + struct vdecfw_buffer_control *buf_ctrl; + + VDEC_ASSERT(decoded_pict->pict_ref_res); + buf_ctrl = + (struct vdecfw_buffer_control *)decoded_pict->pict_ref_res->fw_ctrlbuf.cpu_virt; + VDEC_ASSERT(buf_ctrl); + + /* Get display pictures */ + idx = decoded_pict->disp_idx; + item = dec_str_ctx->dec_str_st.display_pics; + while (idx < buf_ctrl->display_list_length && + item < VDECFW_MAX_NUM_PICTURES) { + dec_str_ctx->dec_str_st.next_display_items[item] = + buf_ctrl->display_list[idx]; + dec_str_ctx->dec_str_st.next_display_item_parent[item] = + decoded_pict->transaction_id; + idx++; + item++; + } + dec_str_ctx->dec_str_st.display_pics = item; + + /* Get release pictures */ + idx = decoded_pict->rel_idx; + item = dec_str_ctx->dec_str_st.release_pics; + while (idx < buf_ctrl->release_list_length && + item < VDECFW_MAX_NUM_PICTURES) { + dec_str_ctx->dec_str_st.next_release_items[item] = + buf_ctrl->release_list[idx]; + dec_str_ctx->dec_str_st.next_release_item_parent[item] = + decoded_pict->transaction_id; + idx++; + item++; + } + dec_str_ctx->dec_str_st.release_pics = item; + break; + } + + if (decoded_pict != dq_last(&dec_str_ctx->str_decd_pict_list)) + decoded_pict = dq_next(decoded_pict); + else + decoded_pict = NULL; + } + + /* Get list of held decoded pictures */ + item = 0; + decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + while (decoded_pict) { + dec_str_ctx->dec_str_st.decoded_picts[item] = + decoded_pict->transaction_id; + item++; + + if (decoded_pict != dq_last(&dec_str_ctx->str_decd_pict_list)) + decoded_pict = dq_next(decoded_pict); + else + decoded_pict = NULL; + } + + VDEC_ASSERT(item == dec_str_ctx->dec_str_st.num_pict_decoded); + *dec_str_st = dec_str_ctx->dec_str_st; + + return IMG_SUCCESS; +} + +/* + * @Function decoder_deinitialise + */ +int decoder_deinitialise(void *dec_ctx) +{ + struct dec_ctx *dec_context = (struct dec_ctx *)dec_ctx; + int ret; + /* Remove and free all core context structures */ + struct dec_decpict *dec_pict; + + if (dec_context && dec_context->inited) { + struct dec_core_ctx *dec_core_ctx_local = + dec_context->dec_core_ctx; + + if (!dec_core_ctx_local) { + pr_warn("%s %d NULL Decoder context passed", __func__, __LINE__); + VDEC_ASSERT(0); + return -EFAULT; + } + + /* Stream list should be empty. */ + if (!lst_empty(&dec_context->str_list)) + pr_warn("%s %d stream list should be empty", __func__, __LINE__); + + /* + * All cores should now be idle since there are no + * connections/streams. + */ + ret = hwctrl_peekheadpiclist(dec_core_ctx_local->hw_ctx, &dec_pict); + VDEC_ASSERT(ret != IMG_SUCCESS); + + /* Destroy a device MMU context. */ + ret = mmu_device_destroy(dec_context->mmu_dev_handle); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + /* Remove and free core context structure */ + dec_core_ctx_local = dec_context->dec_core_ctx; + VDEC_ASSERT(dec_core_ctx_local); + + hwctrl_deinitialise(dec_core_ctx_local->hw_ctx); + + kfree(dec_core_ctx_local); + dec_core_ctx_local = NULL; + + VDEC_ASSERT(dec_context->dev_cfg); + if (dec_context->dev_cfg) + kfree((void *)dec_context->dev_cfg); + + dec_context->user_data = NULL; + + pool_deinit(); + + dec_context->inited = FALSE; + + kfree(dec_context); + } else { + pr_err("Decoder has not been initialised so cannot be de-initialised"); + return IMG_ERROR_NOT_INITIALISED; + } + + pr_debug("Decoder deinitialise successfully\n"); + return IMG_SUCCESS; +} + +/* + * @Function decoder_picture_destroy + * @Description + * Free the picture container and optionally release image buffer back to + * client. + * Default is to decrement the reference count held by this picture. + */ +static int decoder_picture_destroy(struct dec_str_ctx *dec_str_ctx, + unsigned int pict_id, + unsigned char release_image) +{ + struct vdecdd_picture *picture; + int ret; + + VDEC_ASSERT(dec_str_ctx); + + ret = idgen_gethandle(dec_str_ctx->pict_idgen, pict_id, (void **)&picture); + if (ret == IMG_SUCCESS) { + VDEC_ASSERT(picture); + ret = idgen_freeid(dec_str_ctx->pict_idgen, pict_id); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + if (picture->dec_pict_info) { + /* Destroy the picture */ + kfree(picture->dec_pict_info); + picture->dec_pict_info = NULL; + } + + /* Return unused picture and internal resources */ + if (picture->disp_pict_buf.pict_buf) { + if (release_image) + resource_item_release + (&picture->disp_pict_buf.pict_buf->ddbuf_info.ref_count); + else + resource_item_return + (&picture->disp_pict_buf.pict_buf->ddbuf_info.ref_count); + + memset(&picture->disp_pict_buf, 0, sizeof(picture->disp_pict_buf)); + } + + if (picture->pict_res_int) { + resource_item_return(&picture->pict_res_int->ref_cnt); + picture->pict_res_int = NULL; + } + + kfree(picture); + picture = NULL; + } else { + VDEC_ASSERT(ret == IMG_SUCCESS); + return ret; + } + + return IMG_SUCCESS; +} + +/* + * @Function decoder_decoded_picture_destroy + */ +static int +decoder_decoded_picture_destroy(struct dec_str_ctx *dec_str_ctx, + struct dec_decoded_pict *decoded_pict, + unsigned char release_image) +{ + int ret; + + VDEC_ASSERT(dec_str_ctx); + VDEC_ASSERT(decoded_pict); + + if (decoded_pict->pict) { + VDEC_ASSERT(decoded_pict->pict->pict_id == + GET_STREAM_PICTURE_ID(decoded_pict->transaction_id)); + + ret = decoder_picture_destroy(dec_str_ctx, decoded_pict->pict->pict_id, + release_image); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + decoded_pict->pict = NULL; + } + + dq_remove(decoded_pict); + dec_str_ctx->dec_str_st.num_pict_decoded--; + + resource_item_return(&decoded_pict->pict_ref_res->ref_cnt); + +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] COMPLETE", + GET_STREAM_ID(decoded_pict->transaction_id), + decoded_pict->transaction_id); +#endif + + kfree(decoded_pict->first_fld_fwmsg); + decoded_pict->first_fld_fwmsg = NULL; + + kfree(decoded_pict->second_fld_fwmsg); + decoded_pict->second_fld_fwmsg = NULL; + + kfree(decoded_pict); + decoded_pict = NULL; + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_decode_resource_destroy + */ +static int decoder_stream_decode_resource_destroy(void *item, void *free_cb_param) +{ + struct dec_pictdec_res *pict_dec_res = item; + struct dec_str_ctx *dec_str_ctx_local = + (struct dec_str_ctx *)free_cb_param; + int ret; + + VDEC_ASSERT(pict_dec_res); + VDEC_ASSERT(resource_item_isavailable(&pict_dec_res->ref_cnt)); + + /* Free memory (device-based) to store fw contexts for stream. */ + ret = mmu_free_mem(dec_str_ctx_local->mmu_str_handle, &pict_dec_res->fw_ctx_buf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + if (pict_dec_res->h264_sgm_buf.hndl_memory) { + /* Free memory (device-based) to store SGM. */ + ret = mmu_free_mem(dec_str_ctx_local->mmu_str_handle, &pict_dec_res->h264_sgm_buf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + + kfree(pict_dec_res); + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_release_buffers + */ +int decoder_stream_release_buffers(void *dec_str_ctx_handle) +{ + struct dec_str_ctx *dec_str_ctx; + struct dec_decoded_pict *decoded_pict; + int ret; + + dec_str_ctx = decoder_stream_get_context(dec_str_ctx_handle); + + /* Decoding queue should be empty since we are stopped */ + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx) { + pr_err("Invalid decoder stream context handle!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + VDEC_ASSERT(lst_empty(&dec_str_ctx->pend_strunit_list)); + + /* Destroy all pictures in the decoded list */ + decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + while (decoded_pict) { + ret = decoder_decoded_picture_destroy(dec_str_ctx, decoded_pict, TRUE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + } + + /* if and only if the output buffers were used for reference. */ + if (dec_str_ctx->last_be_pict_dec_res) { + /* + * Clear the firmware context so that reference pictures + * are no longer referred to. + */ + memset(dec_str_ctx->last_be_pict_dec_res->fw_ctx_buf.cpu_virt, 0, + dec_str_ctx->last_be_pict_dec_res->fw_ctx_buf.buf_size); + } + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_reference_resource_destroy + */ +static int decoder_stream_reference_resource_destroy(void *item, void *free_cb_param) +{ + struct dec_pictref_res *pict_ref_res = item; + struct dec_str_ctx *dec_str_ctx_local = + (struct dec_str_ctx *)free_cb_param; + int ret; + + VDEC_ASSERT(pict_ref_res); + VDEC_ASSERT(resource_item_isavailable(&pict_ref_res->ref_cnt)); + + /* Free memory (device-based) to store fw contexts for stream */ + ret = mmu_free_mem(dec_str_ctx_local->mmu_str_handle, &pict_ref_res->fw_ctrlbuf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + kfree(pict_ref_res); + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_destroy + */ +int decoder_stream_destroy(void *dec_str_context, unsigned char abort) +{ + struct dec_str_ctx *dec_str_ctx_local; + struct dec_str_unit *dec_str_unit_local; + struct dec_decoded_pict *decoded_pict_local; + unsigned int i; + int ret; + unsigned int pict_id; + void **res_handle_local; + + /* Required for getting segments from decode picture to free */ + struct dec_decpict_seg *dec_pict_seg_local; + struct dec_ctx *dec_context; + struct dec_core_ctx *dec_core_ctx_local; + + /* Get the Decoder stream context. */ + dec_str_ctx_local = decoder_stream_get_context(dec_str_context); + + VDEC_ASSERT(dec_str_ctx_local); + if (!dec_str_ctx_local) { + pr_err("Invalid decoder stream context handle!"); + return FALSE; + } + VDEC_ASSERT(dec_str_ctx_local->decctx); + + /* Decrement the stream count */ + dec_str_ctx_local->decctx->str_cnt--; + + /* + * Ensure that there are no pictures for this stream outstanding + * on any decoder cores. + * This should not be removed, it is important to see it if + * it ever happens. + * In practice we see it many times with Application Timeout. + */ + if (!abort) + VDEC_ASSERT(lst_empty(&dec_str_ctx_local->pend_strunit_list)); + + /* + * At this point all resources for the stream are guaranteed to + * not be used and no further hardware interrupts will be received. + */ + + /* Destroy all stream units submitted for processing. */ + dec_str_unit_local = + lst_removehead(&dec_str_ctx_local->pend_strunit_list); + while (dec_str_unit_local) { + /* If the unit was submitted for decoding (picture)... */ + if (dec_str_unit_local->dec_pict) { + /* + * Explicitly remove picture from core decode queue + * and destroy. + */ + struct dec_core_ctx *dec_core_ctx_local = + decoder_str_ctx_to_core_ctx(dec_str_ctx_local); + VDEC_ASSERT(dec_core_ctx_local); + + res_handle_local = &dec_str_ctx_local->resources; + + if (!dec_core_ctx_local) { + VDEC_ASSERT(0); + return -EINVAL; + } + + hwctrl_removefrom_piclist(dec_core_ctx_local->hw_ctx, + dec_str_unit_local->dec_pict); + + /* Free decoder picture */ + kfree(dec_str_unit_local->dec_pict->first_fld_fwmsg); + dec_str_unit_local->dec_pict->first_fld_fwmsg = NULL; + + kfree(dec_str_unit_local->dec_pict->second_fld_fwmsg); + dec_str_unit_local->dec_pict->second_fld_fwmsg = NULL; + + dec_res_picture_detach(res_handle_local, dec_str_unit_local->dec_pict); + + /* Free all the segments of the picture */ + dec_pict_seg_local = + lst_removehead(&dec_str_unit_local->dec_pict->dec_pict_seg_list); + while (dec_pict_seg_local) { + if (dec_pict_seg_local->internal_seg) { + VDEC_ASSERT(dec_pict_seg_local->bstr_seg); + kfree(dec_pict_seg_local->bstr_seg); + dec_pict_seg_local->bstr_seg = NULL; + } + + kfree(dec_pict_seg_local); + dec_pict_seg_local = NULL; + + dec_pict_seg_local = + lst_removehead + (&dec_str_unit_local->dec_pict->dec_pict_seg_list); + } + + VDEC_ASSERT(dec_str_unit_local->dec_pict->dec_str_ctx == dec_str_ctx_local); + + dec_str_ctx_local->dec_str_st.num_pict_decoding--; + pict_id = + GET_STREAM_PICTURE_ID(dec_str_unit_local->dec_pict->transaction_id); + + ret = decoder_picture_destroy(dec_str_ctx_local, pict_id, TRUE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + kfree(dec_str_unit_local->dec_pict); + dec_str_unit_local->dec_pict = NULL; + } + + /* Free the picture container */ + kfree(dec_str_unit_local); + dec_str_unit_local = NULL; + + dec_str_unit_local = lst_removehead(&dec_str_ctx_local->pend_strunit_list); + } + + /* Destroy all pictures in the decoded list */ + decoded_pict_local = dq_first(&dec_str_ctx_local->str_decd_pict_list); + while (decoded_pict_local) { + ret = decoder_decoded_picture_destroy(dec_str_ctx_local, + decoded_pict_local, + TRUE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + decoded_pict_local = dq_first(&dec_str_ctx_local->str_decd_pict_list); + } + + /* Ensure all picture queues are empty */ + VDEC_ASSERT(lst_empty(&dec_str_ctx_local->pend_strunit_list)); + VDEC_ASSERT(dq_empty(&dec_str_ctx_local->str_decd_pict_list)); + + /* Free memory to store stream context buffer. */ + ret = mmu_free_mem(dec_str_ctx_local->mmu_str_handle, + &dec_str_ctx_local->pvdec_fw_ctx_buf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + /* Release any fw contexts held by stream. */ + if (dec_str_ctx_local->prev_fe_pict_dec_res) + resource_item_return(&dec_str_ctx_local->prev_fe_pict_dec_res->ref_cnt); + + if (dec_str_ctx_local->cur_fe_pict_dec_res) + resource_item_return(&dec_str_ctx_local->cur_fe_pict_dec_res->ref_cnt); + + if (dec_str_ctx_local->last_be_pict_dec_res) + resource_item_return(&dec_str_ctx_local->last_be_pict_dec_res->ref_cnt); + + /* + * Remove the device resources used for decoding and the two + * added to hold the last on front and back-end for stream. + */ + for (i = 0; i < dec_str_ctx_local->num_dec_res + 2; i++) { + ret = resource_list_empty(&dec_str_ctx_local->dec_res_lst, FALSE, + decoder_stream_decode_resource_destroy, + dec_str_ctx_local); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + VDEC_ASSERT(lst_empty(&dec_str_ctx_local->dec_res_lst)); + + /* Remove all stream decode resources. */ + ret = resource_list_empty(&dec_str_ctx_local->ref_res_lst, FALSE, + decoder_stream_reference_resource_destroy, + dec_str_ctx_local); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + VDEC_ASSERT(lst_empty(&dec_str_ctx_local->ref_res_lst)); + + idgen_destroycontext(dec_str_ctx_local->pict_idgen); + + dec_context = dec_str_ctx_local->decctx; + dec_core_ctx_local = decoder_str_ctx_to_core_ctx(dec_str_ctx_local); + + VDEC_ASSERT(dec_context); + VDEC_ASSERT(dec_core_ctx_local); + + res_handle_local = &dec_str_ctx_local->resources; + + if (*res_handle_local) { + ret = dec_res_destroy(dec_str_ctx_local->mmu_str_handle, *res_handle_local); + if (ret != IMG_SUCCESS) + pr_warn("resourceS_Destroy() failed to tidy-up after error"); + + *res_handle_local = NULL; + } + + lst_remove(&dec_str_ctx_local->decctx->str_list, dec_str_ctx_local); + + kfree(dec_str_ctx_local); + dec_str_ctx_local = NULL; + + pr_debug("%s successfully", __func__); + return IMG_SUCCESS; +} + +/* + * @Function decoder_init_avail_slots + */ +static int decoder_init_avail_slots(struct dec_str_ctx *dec_str_context) +{ + VDEC_ASSERT(dec_str_context); + + switch (dec_str_context->config.vid_std) { + case VDEC_STD_H264: + /* + * only first pipe can be master when decoding H264 in + * multipipe mode (FW restriction) + */ + dec_str_context->avail_slots = + dec_str_context->decctx->dev_cfg->num_slots_per_pipe * + dec_str_context->decctx->num_pipes; + break; + + default: + /* all pipes by default */ + dec_str_context->avail_slots = + dec_str_context->decctx->dev_cfg->num_slots_per_pipe; + break; + } + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_decode_resource_create + */ +static int decoder_stream_decode_resource_create(struct dec_str_ctx *dec_str_context) +{ + struct dec_pictdec_res *pict_dec_res; + int ret; + unsigned int mem_heap_id; + enum sys_emem_attrib mem_attribs; + + unsigned char fw_ctx_buf = FALSE; + + /* Validate input arguments */ + if (!dec_str_context || !dec_str_context->decctx || + !dec_str_context->decctx->dev_cfg) { + VDEC_ASSERT(0); + return -EINVAL; + } + + mem_heap_id = dec_str_context->decctx->internal_heap_id; + mem_attribs = (enum sys_emem_attrib)(SYS_MEMATTRIB_UNCACHED | SYS_MEMATTRIB_WRITECOMBINE); + mem_attribs |= (enum sys_emem_attrib)SYS_MEMATTRIB_INTERNAL; + + /* Allocate the firmware context buffer info structure. */ + pict_dec_res = kzalloc(sizeof(*pict_dec_res), GFP_KERNEL); + VDEC_ASSERT(pict_dec_res); + if (!pict_dec_res) + return IMG_ERROR_OUT_OF_MEMORY; + + /* + * Allocate the firmware context buffer to contain + * data required for subsequent picture. + */ +#ifdef DEBUG_DECODER_DRIVER + pr_info("%s:%d calling MMU_StreamMalloc", __func__, __LINE__); +#endif + + ret = mmu_stream_alloc(dec_str_context->mmu_str_handle, + MMU_HEAP_STREAM_BUFFERS, mem_heap_id, + (enum sys_emem_attrib)(mem_attribs | SYS_MEMATTRIB_CPU_READ | + SYS_MEMATTRIB_CPU_WRITE), + sizeof(union dec_fw_contexts), + DEV_MMU_PAGE_ALIGNMENT, + &pict_dec_res->fw_ctx_buf); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto err_out_of_memory; + + fw_ctx_buf = TRUE; + + /* + * Clear the context data in preparation for first time + * use by the firmware. + */ + memset(pict_dec_res->fw_ctx_buf.cpu_virt, 0, pict_dec_res->fw_ctx_buf.buf_size); + + switch (dec_str_context->config.vid_std) { + case VDEC_STD_H264: + /* Allocate the SGM buffer */ +#ifdef DEBUG_DECODER_DRIVER + pr_info("%s:%d calling MMU_StreamMalloc", __func__, __LINE__); +#endif + ret = mmu_stream_alloc + (dec_str_context->mmu_str_handle, + MMU_HEAP_STREAM_BUFFERS, mem_heap_id, + (enum sys_emem_attrib)(mem_attribs | SYS_MEMATTRIB_CPU_WRITE), + H264_SGM_BUFFER_BYTES_PER_MB * + H264_SGM_MAX_MBS, + DEV_MMU_PAGE_ALIGNMENT, + &pict_dec_res->h264_sgm_buf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto err_out_of_memory; + + /* Clear the SGM data. */ + memset(pict_dec_res->h264_sgm_buf.cpu_virt, 0, pict_dec_res->h264_sgm_buf.buf_size); + break; + + default: + break; + } + + pict_dec_res->ref_cnt = 1; + + ret = resource_list_add_img(&dec_str_context->dec_res_lst, pict_dec_res, 0, + &pict_dec_res->ref_cnt); + + if (ret != IMG_SUCCESS) { + pr_warn("[USERSID=0x%08X] Failed to add resource", + dec_str_context->config.user_str_id); + } + + return IMG_SUCCESS; + +err_out_of_memory: + if (pict_dec_res) { + if (fw_ctx_buf) + mmu_free_mem(dec_str_context->mmu_str_handle, &pict_dec_res->fw_ctx_buf); + + kfree(pict_dec_res); + pict_dec_res = NULL; + } + + pr_err("[USERSID=0x%08X] Failed to allocate device memory for stream decode resources", + dec_str_context->config.user_str_id); + + return IMG_ERROR_OUT_OF_MEMORY; +} + +/* + * @Function decoder_stream_create + */ +int decoder_stream_create(void *dec_ctx_arg, + struct vdec_str_configdata str_cfg, + unsigned int km_str_id, void **mmu_str_handle, + void *vxd_dec_ctx, void *str_user_int_data, + void **dec_str_ctx_arg, void *decoder_cb, + void *query_cb) +{ + struct dec_ctx *dec_context = (struct dec_ctx *)dec_ctx_arg; + struct dec_str_ctx *dec_str_ctx = NULL; + unsigned int i; + int ret; + unsigned int mem_heap_id; + enum sys_emem_attrib mem_attribs; + struct dec_core_ctx *dec_core_ctx_local; + + /* Check input parameters. */ + VDEC_ASSERT(dec_ctx_arg); + if (!dec_ctx_arg) { + pr_err("Invalid parameters!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + if (dec_context->str_cnt >= MAX_CONCURRENT_STREAMS) { + pr_err("Device has too many concurrent streams. Number of Concurrent streams allowed: %d.", + MAX_CONCURRENT_STREAMS); + return IMG_ERROR_DEVICE_UNAVAILABLE; + } + + mem_heap_id = dec_context->internal_heap_id; + mem_attribs = (enum sys_emem_attrib)(SYS_MEMATTRIB_UNCACHED | SYS_MEMATTRIB_WRITECOMBINE); + mem_attribs |= (enum sys_emem_attrib)SYS_MEMATTRIB_INTERNAL; + + /* Allocate Decoder Stream Context */ + dec_str_ctx = kzalloc(sizeof(*dec_str_ctx), GFP_KERNEL); + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx) + return IMG_ERROR_OUT_OF_MEMORY; + + /* Increment the stream counter */ + dec_context->str_cnt++; + + /* + * Initialise the context structure to NULL. Any non-zero + * default values should be set at this point. + */ + dec_str_ctx->config = str_cfg; + dec_str_ctx->vxd_dec_ctx = vxd_dec_ctx; + dec_str_ctx->usr_int_data = str_user_int_data; + dec_str_ctx->decctx = dec_context; + + decoder_init_avail_slots(dec_str_ctx); + + dec_str_ctx->next_dec_pict_id = 1; + dec_str_ctx->next_pict_id_expected = 1; + + dec_str_ctx->km_str_id = km_str_id; + VDEC_ASSERT(dec_str_ctx->km_str_id > 0); + + lst_init(&dec_str_ctx->pend_strunit_list); + dq_init(&dec_str_ctx->str_decd_pict_list); + lst_init(&dec_str_ctx->ref_res_lst); + lst_init(&dec_str_ctx->dec_res_lst); + + ret = idgen_createcontext(DECODER_MAX_PICT_ID + 1, + DECODER_MAX_CONCURRENT_PICT, + TRUE, + &dec_str_ctx->pict_idgen); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + /* Create an MMU context for this stream. */ + ret = mmu_stream_create(dec_context->mmu_dev_handle, + dec_str_ctx->km_str_id, + dec_str_ctx->vxd_dec_ctx, + &dec_str_ctx->mmu_str_handle); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + dec_core_ctx_local = dec_context->dec_core_ctx; + + VDEC_ASSERT(dec_core_ctx_local); + + /* Create core resources */ + ret = dec_res_create(dec_str_ctx->mmu_str_handle, + &dec_core_ctx_local->core_props, + dec_context->dev_cfg->num_slots_per_pipe * + dec_context->num_pipes, + dec_context->internal_heap_id, + &dec_str_ctx->resources); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + /* Allocate the PVDEC firmware context buffer */ +#ifdef DEBUG_DECODER_DRIVER + pr_info("%s:%d calling MMU_StreamMalloc", __func__, __LINE__); +#endif + ret = mmu_stream_alloc(dec_str_ctx->mmu_str_handle, MMU_HEAP_STREAM_BUFFERS, + mem_heap_id, + (enum sys_emem_attrib)(mem_attribs | SYS_MEMATTRIB_CPU_WRITE), + CONTEXT_BUFF_SIZE, + DEV_MMU_PAGE_ALIGNMENT, + &dec_str_ctx->pvdec_fw_ctx_buf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + /* + * Clear the context data in preparation for + * first time use by the firmware. + */ + memset(dec_str_ctx->pvdec_fw_ctx_buf.cpu_virt, 0, dec_str_ctx->pvdec_fw_ctx_buf.buf_size); + + /* + * Create enough device resources to hold last context on + * front and back-end for stream. + */ + dec_str_ctx->num_dec_res = + dec_str_ctx->decctx->dev_cfg->num_slots_per_pipe * + dec_str_ctx->decctx->num_pipes; + for (i = 0; i < dec_str_ctx->num_dec_res + 2; i++) { + ret = decoder_stream_decode_resource_create(dec_str_ctx); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + } + + dec_str_ctx->str_processed_cb = (strunit_processed_cb)decoder_cb; + + dec_str_ctx->core_query_cb = (core_gen_cb)query_cb; + + lst_add(&dec_context->str_list, dec_str_ctx); + + *dec_str_ctx_arg = (void *)dec_str_ctx; + *mmu_str_handle = dec_str_ctx->mmu_str_handle; + + return IMG_SUCCESS; + + /* Roll back in case of errors. */ +error: + decoder_stream_destroy((void *)dec_str_ctx, FALSE); + + return ret; +} + +/* + * @Function decoder_get_decoded_pict + */ +static struct dec_decoded_pict *decoder_get_decoded_pict(unsigned int transaction_id, + struct dq_linkage_t *dq_list) +{ + struct dec_decoded_pict *decoded_pict; + void *item = NULL; + + VDEC_ASSERT(dq_list); + + decoded_pict = dq_first(dq_list); + while (decoded_pict) { + if (decoded_pict->transaction_id == transaction_id) { + item = decoded_pict; + break; + } + + if (decoded_pict != dq_last(dq_list)) + decoded_pict = dq_next(decoded_pict); + else + decoded_pict = NULL; + } + + return item; +} + +/* + * @Function decoder_get_decoded_pict_of_stream + */ +static struct dec_decoded_pict *decoder_get_decoded_pict_of_stream(unsigned int pict_id, + struct dq_linkage_t *dq_list) +{ + struct dec_decoded_pict *decoded_pict; + void *item = NULL; + + VDEC_ASSERT(dq_list); + + decoded_pict = dq_first(dq_list); + while (decoded_pict) { + if (GET_STREAM_PICTURE_ID(decoded_pict->transaction_id) == pict_id) { + item = decoded_pict; + break; + } + + if (decoded_pict != dq_last(dq_list)) + decoded_pict = dq_next(decoded_pict); + else + decoded_pict = NULL; + } + return item; +} + +/* + * @Function decoder_get_next_decpict_contiguous + */ +static struct +dec_decoded_pict *decoder_get_next_decpict_contiguous(struct dec_decoded_pict *decoded_pict, + unsigned int next_dec_pict_id, + struct dq_linkage_t *str_decoded_pict_list) +{ + struct dec_decoded_pict *next_dec_pict = NULL; + struct dec_decoded_pict *result_dec_pict = NULL; + + VDEC_ASSERT(str_decoded_pict_list); + if (!str_decoded_pict_list) { + pr_err("Invalid parameter"); + return NULL; + } + + if (decoded_pict) { + if (decoded_pict != dq_last(str_decoded_pict_list)) { + next_dec_pict = dq_next(decoded_pict); + if (!next_dec_pict) { + VDEC_ASSERT(0); + return NULL; + } + + if (next_dec_pict->pict) { + /* + * If we have no holes in the decoded list + * (i.e. next decoded picture is next in + * bitstream decode order). + */ + if (HAS_X_REACHED_Y(next_dec_pict_id, next_dec_pict->pict->pict_id, + 1 << FWIF_NUMBITS_STREAM_PICTURE_ID, + unsigned int)) { + result_dec_pict = next_dec_pict; + } + } + } + } + + return result_dec_pict; +} + +/* + * @Function decoder_next_picture + * @Description + * Returns the next unprocessed picture or NULL if the next picture is not + * next in bitstream decode order or there are no more decoded pictures in the + * list. + + * @Input psCurrentDecodedPicture : Pointer to current decoded picture. + + * @Input ui32NextDecPictId : Picture ID of next picture in decode + * order. + + * @Input psStrDecdPictList : Pointer to decoded picture list. + + * @Return DECODER_sDecodedPict * : Pointer to next decoded picture to + * process. + */ +static struct dec_decoded_pict *decoder_next_picture(struct dec_decoded_pict *cur_decoded_pict, + unsigned int next_dec_pict_d, + struct dq_linkage_t *str_decodec_pict_list) +{ + struct dec_decoded_pict *ret = NULL; + + VDEC_ASSERT(str_decodec_pict_list); + if (!str_decodec_pict_list) + return NULL; + + if (!cur_decoded_pict) + cur_decoded_pict = dq_first(str_decodec_pict_list); + + if (cur_decoded_pict && !cur_decoded_pict->process_failed) { + /* Search for picture ID greater than picture in list */ + do { + if (!cur_decoded_pict->processed) { + /* + * Return the current one because it has not + * been processed + */ + ret = cur_decoded_pict; + break; + } + /* + * Obtain a pointer to the next picture in bitstream + * decode order. + */ + cur_decoded_pict = decoder_get_next_decpict_contiguous + (cur_decoded_pict, + next_dec_pict_d, + str_decodec_pict_list); + } while (cur_decoded_pict && + !cur_decoded_pict->process_failed); + } + return ret; +} + +/* + * @Function decoder_picture_display + */ +static int decoder_picture_display(struct dec_str_ctx *dec_str_ctx, + unsigned int pict_id, unsigned char last) +{ + struct vdecdd_picture *picture; + int ret; + static unsigned int display_num; + + VDEC_ASSERT(dec_str_ctx); + + ret = idgen_gethandle(dec_str_ctx->pict_idgen, pict_id, (void **)&picture); + if (ret == IMG_SUCCESS) { + struct vdecdd_ddbuf_mapinfo *pict_buf; + + /* validate pointers */ + if (!picture || !picture->dec_pict_info) { + VDEC_ASSERT(0); + return -EIO; + } + + pict_buf = picture->disp_pict_buf.pict_buf; + VDEC_ASSERT(pict_buf); + + /* + * Indicate whether there are more pictures + * coming for display. + */ + picture->dec_pict_info->last_in_seq = last; + + /* Set decode order id */ + picture->dec_pict_info->decode_id = pict_id; + + /* Return the picture to the client for display */ + dec_str_ctx->dec_str_st.total_pict_displayed++; + resource_item_use(&pict_buf->ddbuf_info.ref_count); + display_num++; +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] DISPLAY(%d): PIC_ID[%d]", + dec_str_ctx->config.user_str_id, display_num, pict_id); +#endif + + VDEC_ASSERT(dec_str_ctx->decctx); + ret = dec_str_ctx->str_processed_cb(dec_str_ctx->usr_int_data, + VXD_CB_PICT_DISPLAY, + picture); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + /* + * All handles will be freed after actually + * displaying the picture. + * Reset them to NULL here to avoid any confusion. + */ + memset(&picture->dec_pict_sup_data, 0, sizeof(picture->dec_pict_sup_data)); + } else { + pr_warn("[USERSID=0x%08X] ERROR: DISPLAY PICTURE HAS AN EXPIRED ID", + dec_str_ctx->config.user_str_id); + VDEC_ASSERT(ret == IMG_SUCCESS); + } + + return IMG_SUCCESS; +} + +#ifdef ERROR_CONCEALMENT +/* + * @Function decoder_get_pict_processing_info + */ +static unsigned char decoder_get_pict_processing_info(struct dec_core_ctx *dec_corectx, + struct dec_str_ctx *dec_strctx, + struct bspp_pict_hdr_info *pict_hdr_info, + struct dec_decoded_pict *decoded_pict, + struct dec_decpict *dec_pict, + unsigned int *pict_last_mb) +{ + int ret = IMG_SUCCESS; + unsigned char pipe_minus1; + struct hwctrl_state last_state; + unsigned int width_in_mb; + unsigned int height_in_mb; + unsigned int i; + + memset(&last_state, 0, sizeof(last_state)); + + VDEC_ASSERT(pict_hdr_info); + width_in_mb = (pict_hdr_info->coded_frame_size.width + + (VDEC_MB_DIMENSION - 1)) / VDEC_MB_DIMENSION; + height_in_mb = (pict_hdr_info->coded_frame_size.height + + (VDEC_MB_DIMENSION - 1)) / VDEC_MB_DIMENSION; + + VDEC_ASSERT(pict_last_mb); + *pict_last_mb = width_in_mb * height_in_mb; + VDEC_ASSERT(decoded_pict); + + if (decoded_pict->first_fld_fwmsg->pict_attrs.pict_attrs.dwrfired || + decoded_pict->second_fld_fwmsg->pict_attrs.pict_attrs.dwrfired || + decoded_pict->first_fld_fwmsg->pict_attrs.pict_attrs.mmufault || + decoded_pict->second_fld_fwmsg->pict_attrs.pict_attrs.mmufault) { + struct dec_pict_attrs *pict_attrs = &decoded_pict->first_fld_fwmsg->pict_attrs; + unsigned char be_found = FALSE; + unsigned int mbs_dropped = 0; + unsigned int mbs_recovered = 0; + unsigned int no_be_wdt = 0; + unsigned int max_y = 0; + unsigned int row_drop = 0; + + VDEC_ASSERT(dec_corectx); + /* Obtain the last available core status - + * cached before clocks where switched off + */ + ret = hwctrl_getcore_cached_status(dec_corectx->hw_ctx, &last_state); + if (ret != IMG_SUCCESS) + return FALSE; + + /* Try to determine pipe where the last picture was decoded on (BE) */ + for (pipe_minus1 = 0; pipe_minus1 < VDEC_MAX_PIXEL_PIPES; pipe_minus1++) { + for (i = VDECFW_CHECKPOINT_BE_END; i >= VDECFW_CHECKPOINT_BE_START; i--) { + struct vxd_pipestate *pipe_state = + &last_state.core_state.fw_state.pipe_state[pipe_minus1]; + + if (!pipe_state->is_pipe_present) + continue; + + if (pipe_state->acheck_point[i] == decoded_pict->transaction_id) { + row_drop += width_in_mb - pipe_state->be_mb.x; + if (pipe_state->be_mb.y > max_y) + max_y = pipe_state->be_mb.y; + + if (pipe_state->be_mbs_dropped > mbs_dropped) + mbs_dropped = pipe_state->be_mbs_dropped; + + if (pipe_state->be_mbs_recovered > mbs_recovered) + mbs_recovered = pipe_state->be_mbs_recovered; + + no_be_wdt += pipe_state->be_errored_slices; + be_found = TRUE; + } + } + if (be_found) + /* No need to check FE as we already have an info from BE */ + continue; + + /* If not found, we probbaly stuck on FE ? */ + for (i = VDECFW_CHECKPOINT_FE_END; i >= VDECFW_CHECKPOINT_FE_START; i--) { + struct vxd_pipestate *pipe_state = + &last_state.core_state.fw_state.pipe_state[pipe_minus1]; + + if (!pipe_state->is_pipe_present) + continue; + + if (pipe_state->acheck_point[i] == decoded_pict->transaction_id) { + /* Mark all MBs as dropped */ + pict_attrs->mbs_dropped = *pict_last_mb; + pict_attrs->mbs_recovered = 0; + return TRUE; + } + } + } + + if (be_found) { + /* Calculate last macroblock number processed on BE */ + unsigned int num_mb_processed = (max_y * width_in_mb) - row_drop; + + /* Sanity check, as HW may signal MbYX position + * beyond picture for corrupted streams + */ + if (num_mb_processed > (*pict_last_mb)) + num_mb_processed = (*pict_last_mb); /* trim */ + + if (((*pict_last_mb) - num_mb_processed) > mbs_dropped) + mbs_dropped = (*pict_last_mb) - num_mb_processed; + + pict_attrs->mbs_dropped = mbs_dropped; + pict_attrs->mbs_recovered = num_mb_processed; + pict_attrs->no_be_wdt = no_be_wdt; + return TRUE; + } + return FALSE; + } + /* Picture was decoded without DWR, so we have already the required info */ + return TRUE; +} +#endif + +/* + * @Function decoder_picture_release + */ +static int decoder_picture_release(struct dec_str_ctx *dec_str_ctx, + unsigned int pict_id, + unsigned char displayed, + unsigned char merged) +{ + struct vdecdd_picture *picture; + int ret; + + /* validate input arguments */ + if (!dec_str_ctx) { + VDEC_ASSERT(0); + return -EINVAL; + } + + ret = idgen_gethandle(dec_str_ctx->pict_idgen, pict_id, (void **)&picture); + if (ret == IMG_SUCCESS) { + if (!picture || !picture->dec_pict_info) { + VDEC_ASSERT(0); + return -EINVAL; + } + + /* Set decode order id */ + picture->dec_pict_info->decode_id = pict_id; + + VDEC_ASSERT(dec_str_ctx->decctx); + + pr_debug("Decoder picture released pict_id = %d\n", pict_id); + ret = dec_str_ctx->str_processed_cb(dec_str_ctx->usr_int_data, + VXD_CB_PICT_RELEASE, + picture); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + /* + * All handles will be freed after actually displaying + * the picture. Reset them to NULL here to avoid any + * confusion. + */ + memset(&picture->dec_pict_sup_data, 0, sizeof(picture->dec_pict_sup_data)); + } else { + pr_err("[USERSID=0x%08X] ERROR: RELEASE PICTURE HAS AN EXPIRED ID", + dec_str_ctx->config.user_str_id); + VDEC_ASSERT(ret == IMG_SUCCESS); + } + + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_flush_process_dpb_h264 + */ +static int +decoder_stream_flush_process_dpb_h264(struct dec_str_ctx *dec_str_ctx, + struct dec_decoded_pict *decoded_pict, + unsigned char discard_refs) +{ + int ret; + + struct h264fw_context_data *ctx_data = + (struct h264fw_context_data *)dec_str_ctx->last_be_pict_dec_res->fw_ctx_buf.cpu_virt; + unsigned char found = TRUE; + unsigned int i; + int min_cnt; + int min_cnt_idx; + unsigned int num_display_pics = 0; + unsigned int num_pics_displayed = 0; + struct dec_decoded_pict *display_pict = NULL; + unsigned int last_disp_pict_tid; + unsigned int pict_id; + + /* Determine how many display pictures reside in the DPB */ + if (ctx_data->dpb_size > H264FW_MAX_DPB_SIZE || ctx_data->dpb_size <= 0) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] Incorrect DPB size: %d", + dec_str_ctx->config.user_str_id, ctx_data->dpb_size); +#endif + ctx_data->dpb_size = H264FW_MAX_DPB_SIZE; + } + for (i = 0; i < ctx_data->dpb_size; i++) { + if (ctx_data->dpb[i].transaction_id) + if (ctx_data->dpb[i].needed_for_output) + num_display_pics++; + } + + last_disp_pict_tid = ctx_data->last_displayed_pic_data[0].transaction_id; + /* Check for picture stuck outside the dpb */ + if (last_disp_pict_tid) { + VDEC_ASSERT(last_disp_pict_tid != 0xffffffff); + + display_pict = decoder_get_decoded_pict(last_disp_pict_tid, + &dec_str_ctx->str_decd_pict_list); + + if (display_pict && display_pict->pict && + display_pict->pict->dec_pict_info) { + if (FLAG_IS_SET(ctx_data->prev_display_flags, + VDECFW_BUFFLAG_DISPLAY_FIELD_CODED)) { + if (!FLAG_IS_SET(ctx_data->prev_display_flags, + VDECFW_BUFFLAG_DISPLAY_SINGLE_FIELD)) + display_pict->pict->dec_pict_info->buf_type = + IMG_BUFFERTYPE_PAIR; + else + display_pict->pict->dec_pict_info->buf_type = + FLAG_IS_SET + (ctx_data->prev_display_flags, + VDECFW_BUFFLAG_DISPLAY_BOTTOM_FIELD) ? + IMG_BUFFERTYPE_FIELD_BOTTOM : + IMG_BUFFERTYPE_FIELD_TOP; + } else { + display_pict->pict->dec_pict_info->buf_type = + IMG_BUFFERTYPE_FRAME; + } + } else { + VDEC_ASSERT(display_pict); + VDEC_ASSERT(display_pict && display_pict->pict); + VDEC_ASSERT(display_pict && display_pict->pict && + display_pict->pict->dec_pict_info); + } + + if (display_pict && !display_pict->displayed) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] DISPLAY", + dec_str_ctx->config.user_str_id, + last_disp_pict_tid); +#endif + display_pict->displayed = TRUE; + ret = decoder_picture_display + (dec_str_ctx, GET_STREAM_PICTURE_ID(last_disp_pict_tid), + TRUE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + } + + while (found) { + min_cnt = ((unsigned int)(1 << 31)) - 1; + min_cnt_idx = -1; + found = FALSE; + + /* Loop over the DPB to find the first in order */ + for (i = 0; i < ctx_data->dpb_size; i++) { + if (ctx_data->dpb[i].transaction_id && + (ctx_data->dpb[i].needed_for_output || + discard_refs)) { + if (ctx_data->dpb[i].top_field_order_count < + min_cnt) { + min_cnt = + ctx_data->dpb[i].top_field_order_count; + min_cnt_idx = i; + found = TRUE; + } + } + } + + if (found) { + unsigned int umin_cnt_tid = ctx_data->dpb[min_cnt_idx].transaction_id; + + if (ctx_data->dpb[min_cnt_idx].needed_for_output) { + VDEC_ASSERT(umin_cnt_tid != 0xffffffff); + display_pict = + decoder_get_decoded_pict(umin_cnt_tid, + &dec_str_ctx->str_decd_pict_list); + + if ((display_pict && display_pict->pict && + display_pict->pict->dec_pict_info) && + FLAG_IS_SET(ctx_data->dpb[min_cnt_idx].display_flags, + VDECFW_BUFFLAG_DISPLAY_FIELD_CODED)) { + if (!FLAG_IS_SET(ctx_data->dpb[min_cnt_idx].display_flags, + VDECFW_BUFFLAG_DISPLAY_SINGLE_FIELD)) + display_pict->pict->dec_pict_info->buf_type = + IMG_BUFFERTYPE_PAIR; + else + display_pict->pict->dec_pict_info->buf_type = + FLAG_IS_SET + (ctx_data->dpb + [min_cnt_idx].display_flags, + VDECFW_BUFFLAG_DISPLAY_BOTTOM_FIELD) + ? + IMG_BUFFERTYPE_FIELD_BOTTOM : + IMG_BUFFERTYPE_FIELD_TOP; + display_pict->pict->dec_pict_info->view_id = + ctx_data->dpb[min_cnt_idx].view_id; + } else if ((display_pict && display_pict->pict && + display_pict->pict->dec_pict_info) && + (!FLAG_IS_SET(ctx_data->dpb[min_cnt_idx].display_flags, + VDECFW_BUFFLAG_DISPLAY_FIELD_CODED))){ + display_pict->pict->dec_pict_info->buf_type = + IMG_BUFFERTYPE_FRAME; + display_pict->pict->dec_pict_info->view_id = + ctx_data->dpb[min_cnt_idx].view_id; + } else { + VDEC_ASSERT(display_pict); + VDEC_ASSERT(display_pict && display_pict->pict); + VDEC_ASSERT(display_pict && display_pict->pict && + display_pict->pict->dec_pict_info); + } + + if (display_pict && !display_pict->displayed) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] DISPLAY", + dec_str_ctx->config.user_str_id, + umin_cnt_tid); +#endif + display_pict->displayed = TRUE; + num_pics_displayed++; + ret = decoder_picture_display + (dec_str_ctx, + GET_STREAM_PICTURE_ID(umin_cnt_tid), + num_pics_displayed == num_display_pics ? + TRUE : FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + ctx_data->dpb[min_cnt_idx].needed_for_output = FALSE; + } + + if (discard_refs) { + decoded_pict = + decoder_get_decoded_pict(umin_cnt_tid, + &dec_str_ctx->str_decd_pict_list); + if (decoded_pict) { + /* Signal releasing this picture to upper layers. */ + pict_id = + GET_STREAM_PICTURE_ID(decoded_pict->transaction_id); + decoder_picture_release(dec_str_ctx, + pict_id, + decoded_pict->displayed, + decoded_pict->merged); + /* Destroy the decoded picture. */ + ret = decoder_decoded_picture_destroy(dec_str_ctx, + decoded_pict, FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + ctx_data->dpb[min_cnt_idx].transaction_id = 0; + } + } + } + + VDEC_ASSERT(num_pics_displayed == num_display_pics); + + return IMG_SUCCESS; +} + +#ifdef HAS_HEVC +/* + * decoder_StreamFlushProcessDPB_HEVC + */ +static int decoder_stream_flush_process_dpb_hevc(struct dec_str_ctx *decstr_ctx, + struct dec_decoded_pict *decoded_pict, + unsigned char discard_refs) +{ + int result; + struct hevcfw_ctx_data *ctx = + (struct hevcfw_ctx_data *)decstr_ctx->last_be_pict_dec_res->fw_ctx_buf.cpu_virt; + struct hevcfw_decoded_picture_buffer *dpb; + unsigned char found = TRUE; + unsigned char idx; + int min_poc_val; + signed char dpb_idx; + unsigned char num_display_pics = 0; + unsigned char num_pics_displayed = 0; + struct dec_decoded_pict *display_pict = NULL; + + /* + * Update the fw context for analysing the dpb in order + * to display or release any outstanding picture + */ + dpb = &ctx->dpb; + + /* Determine how many display pictures reside in the DPB. */ + for (idx = 0; idx < HEVCFW_MAX_DPB_SIZE; ++idx) { + struct hevcfw_picture_in_dpb *dpb_pic = &dpb->pictures[idx]; + + if (dpb_pic->valid && dpb_pic->needed_for_output) + ++num_display_pics; + } + + while (found) { + struct hevcfw_picture_in_dpb *dpb_pic; + + min_poc_val = 0x7fffffff; + dpb_idx = HEVCFW_DPB_IDX_INVALID; + found = FALSE; + + /* Loop over the DPB to find the first in order */ + for (idx = 0; idx < HEVCFW_MAX_DPB_SIZE; ++idx) { + dpb_pic = &dpb->pictures[idx]; + if (dpb_pic->valid && (dpb_pic->needed_for_output || discard_refs)) { + if (dpb_pic->picture.pic_order_cnt_val < min_poc_val) { + min_poc_val = dpb_pic->picture.pic_order_cnt_val; + dpb_idx = idx; + found = TRUE; + } + } + } + + if (!found) + break; + + dpb_pic = &dpb->pictures[dpb_idx]; + + if (dpb_pic->needed_for_output) { + unsigned int str_pic_id = GET_STREAM_PICTURE_ID + (dpb_pic->picture.transaction_id); + + VDEC_ASSERT(dpb_pic->picture.transaction_id != 0xffffffff); + display_pict = decoder_get_decoded_pict(dpb_pic->picture.transaction_id, + &decstr_ctx->str_decd_pict_list); + + if (display_pict && display_pict->pict && + display_pict->pict->dec_pict_info) { + display_pict->pict->dec_pict_info->buf_type = IMG_BUFFERTYPE_FRAME; + } else { + VDEC_ASSERT(display_pict); + VDEC_ASSERT(display_pict && display_pict->pict); + VDEC_ASSERT(display_pict && display_pict->pict && + display_pict->pict->dec_pict_info); + + dpb_pic->valid = FALSE; + continue; + } + + if (!display_pict->displayed) { + display_pict->displayed = TRUE; + ++num_pics_displayed; + result = decoder_picture_display(decstr_ctx, str_pic_id, + num_pics_displayed == + num_display_pics); + VDEC_ASSERT(result == IMG_SUCCESS); + if (result != IMG_SUCCESS) + return result; + } + dpb_pic->needed_for_output = FALSE; + } + + if (discard_refs) { + decoded_pict = decoder_get_decoded_pict(dpb_pic->picture.transaction_id, + &decstr_ctx->str_decd_pict_list); + + if (decoded_pict) { + /* Signal releasing this picture to upper layers. */ + decoder_picture_release(decstr_ctx, + GET_STREAM_PICTURE_ID + (decoded_pict->transaction_id), + decoded_pict->displayed, + decoded_pict->merged); + /* Destroy the decoded picture. */ + result = decoder_decoded_picture_destroy(decstr_ctx, decoded_pict, + FALSE); + VDEC_ASSERT(result == IMG_SUCCESS); + if (result != IMG_SUCCESS) + return result; + } + dpb_pic->valid = FALSE; + } + } + + VDEC_ASSERT(num_pics_displayed == num_display_pics); + + return IMG_SUCCESS; +} +#endif + +/* + * @Function decoder_stream_flush_process_dpb + * @Description + * Process DPB fetched from firmware, display and release relevant pictures. + */ +static int decoder_stream_flush_process_dpb(struct dec_str_ctx *dec_str_ctx, + struct dec_decoded_pict *decoded_pict, + unsigned char discard_refs) +{ + int ret = 0; + /* Get oldest reference to display. */ + decoded_pict = dq_last(&dec_str_ctx->str_decd_pict_list); + if (decoded_pict) { + switch (dec_str_ctx->config.vid_std) { + case VDEC_STD_H264: + ret = decoder_stream_flush_process_dpb_h264(dec_str_ctx, decoded_pict, + discard_refs); + + break; +#ifdef HAS_HEVC + case VDEC_STD_HEVC: + decoder_stream_flush_process_dpb_hevc(dec_str_ctx, + decoded_pict, discard_refs); +#endif + break; + + default: + break; + } + } + + return ret; +} + +int decoder_stream_flush(void *dec_str_ctx_arg, unsigned char discard_refs) +{ + struct dec_str_ctx *dec_str_ctx; + struct dec_str_unit *dec_str_unit; + struct dec_decoded_pict *decoded_pict; + int ret = 0; + + dec_str_ctx = decoder_stream_get_context(dec_str_ctx_arg); + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx) { + pr_err("Invalid decoder stream context handle!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + /* + * Since the stream should be stopped before flushing + * there should be no pictures in the stream list. + */ + dec_str_unit = lst_first(&dec_str_ctx->pend_strunit_list); + while (dec_str_unit) { + VDEC_ASSERT(dec_str_unit->str_unit->str_unit_type != + VDECDD_STRUNIT_PICTURE_START); + dec_str_unit = lst_next(dec_str_unit); + } + + decoded_pict = dq_last(&dec_str_ctx->str_decd_pict_list); + + ret = decoder_stream_flush_process_dpb(dec_str_ctx, decoded_pict, + discard_refs); + if (ret != IMG_SUCCESS) + return ret; + + if (discard_refs) { + while (!dq_empty(&dec_str_ctx->str_decd_pict_list)) { + struct dec_decoded_pict *non_decoded_pict = + dq_first(&dec_str_ctx->str_decd_pict_list); + + if (!non_decoded_pict) { + VDEC_ASSERT(0); + return -EINVAL; + } + +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] Decoded picture list contains item ID:0x%08x when DPB is empty", + dec_str_ctx->config.user_str_id, + non_decoded_pict->transaction_id); +#endif + + /* release the buffers back to vxd_decoder */ + decoder_picture_release(dec_str_ctx, GET_STREAM_PICTURE_ID + (non_decoded_pict->transaction_id), FALSE, + FALSE); + + ret = decoder_decoded_picture_destroy(dec_str_ctx, non_decoded_pict, FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + VDEC_ASSERT(dq_empty(&dec_str_ctx->str_decd_pict_list)); + + if (dec_str_ctx->last_be_pict_dec_res) + /* + * Clear the firmware context so that reference + * pictures are no longer referred to. + */ + memset(dec_str_ctx->last_be_pict_dec_res->fw_ctx_buf.cpu_virt, 0, + dec_str_ctx->last_be_pict_dec_res->fw_ctx_buf.buf_size); + } + + pr_debug("Decoder stream flushed successfully\n"); + return IMG_SUCCESS; +} + +/* + * @Function decoder_stream_prepare_ctx + */ +int decoder_stream_prepare_ctx(void *dec_str_ctx_arg, unsigned char flush_dpb) +{ + struct dec_str_ctx *dec_str_ctx = + decoder_stream_get_context(dec_str_ctx_arg); + int ret; + + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx) + return IMG_ERROR_INVALID_PARAMETERS; + +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] Preparing stream context after seek", + dec_str_ctx->config.user_str_id, + dec_str_ctx->last_fe_transaction_id); +#endif + + if (flush_dpb) { + ret = decoder_stream_flush(dec_str_ctx, TRUE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + + /* Reset front-end temporary pointers */ + if (dec_str_ctx->prev_fe_pict_dec_res) { + resource_item_return(&dec_str_ctx->prev_fe_pict_dec_res->ref_cnt); + dec_str_ctx->prev_fe_pict_dec_res = NULL; + } + if (dec_str_ctx->cur_fe_pict_dec_res) { + resource_item_return(&dec_str_ctx->cur_fe_pict_dec_res->ref_cnt); + dec_str_ctx->cur_fe_pict_dec_res = NULL; + } + + return IMG_SUCCESS; +} + +/* + * @Function decoder_get_load + */ +int decoder_get_load(void *dec_str_ctx_arg, unsigned int *avail_slots) +{ + struct dec_str_ctx *dec_str_ctx = + decoder_stream_get_context(dec_str_ctx_arg); + struct dec_core_ctx *dec_core_ctx_local = NULL; + + /* Check input parameters. */ + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx || !avail_slots) { + pr_err("Invalid parameters!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + dec_core_ctx_local = decoder_str_ctx_to_core_ctx(dec_str_ctx); + if (!dec_core_ctx_local) { + VDEC_ASSERT(0); + return -EIO; + } + + if (dec_core_ctx_local->busy) + *avail_slots = 0; + else + *avail_slots = dec_str_ctx->avail_slots; + + return IMG_SUCCESS; +} + +static int decoder_check_ref_errors(struct dec_str_ctx *dec_str_ctx, + struct vdecfw_buffer_control *buf_ctrl, + struct vdecdd_picture *picture) +{ + struct dec_decoded_pict *ref_pict; + unsigned int i; + + if (!dec_str_ctx) { + VDEC_ASSERT(0); + return IMG_ERROR_INVALID_PARAMETERS; + } + + if (!buf_ctrl || !picture) { + pr_err("[USERSID=0x%08X] Invalid parameters for checking reference lists.", + dec_str_ctx->config.user_str_id); + VDEC_ASSERT(0); + return IMG_ERROR_INVALID_PARAMETERS; + } + + for (i = 0; i < VDECFW_MAX_NUM_PICTURES && buf_ctrl->ref_list[i]; + i++) { + ref_pict = decoder_get_decoded_pict_of_stream + (GET_STREAM_PICTURE_ID(buf_ctrl->ref_list[i]), + &dec_str_ctx->str_decd_pict_list); + if (ref_pict && ref_pict->pict && ref_pict->pict->dec_pict_info && + ref_pict->pict->dec_pict_info->err_flags) { + picture->dec_pict_info->err_flags |= + VDEC_ERROR_CORRUPTED_REFERENCE; + pr_warn("Picture decoded using corrupted reference: 0x%08X 0x%08X", + ref_pict->transaction_id, + ref_pict->pict->dec_pict_info->err_flags); + } + } + + return IMG_SUCCESS; +} + +static void decoder_clean_bitstr_segments(struct lst_t *decpict_seglist) +{ + struct dec_decpict_seg *dec_pict_seg; + + while (NULL != (dec_pict_seg = lst_removehead(decpict_seglist))) { + if (dec_pict_seg->internal_seg) { + VDEC_ASSERT(dec_pict_seg->bstr_seg); + kfree(dec_pict_seg->bstr_seg); + dec_pict_seg->bstr_seg = NULL; + } + kfree(dec_pict_seg); + } +} + +static int decoder_wrap_bitstr_segments(struct lst_t *bitstr_seglist, + struct lst_t *decpict_seglist, + unsigned int user_str_id) +{ + /* Required for attaching segments to the decode picture */ + struct bspp_bitstr_seg *bit_str_seg; + struct dec_decpict_seg *dec_pict_seg; + + VDEC_ASSERT(bitstr_seglist); + VDEC_ASSERT(decpict_seglist); + + /* Add the segments to the Decode Picture */ + bit_str_seg = lst_first(bitstr_seglist); + while (bit_str_seg) { + dec_pict_seg = kzalloc(sizeof(*dec_pict_seg), GFP_KERNEL); + VDEC_ASSERT(dec_pict_seg); + if (!dec_pict_seg) + return IMG_ERROR_OUT_OF_MEMORY; + + dec_pict_seg->bstr_seg = bit_str_seg; + dec_pict_seg->internal_seg = FALSE; + lst_add(decpict_seglist, dec_pict_seg); + + bit_str_seg = lst_next(bit_str_seg); + } + return IMG_SUCCESS; +} + +/* + * @Function decoder_picture_decode + */ +static int decoder_picture_decode(struct dec_str_ctx *dec_str_ctx, + struct vdecdd_str_unit *str_unit, + struct dec_decpict **dec_pict_ptr) +{ + struct vdecdd_picture *picture; + struct dec_core_ctx *dec_core_ctx; + struct dec_decpict *dec_pict; + int ret = IMG_SUCCESS; + struct decoder_regsoffsets regs_offsets; + + /* Validate input arguments */ + if (!dec_str_ctx || !str_unit || !str_unit->pict_hdr_info || !dec_pict_ptr) { + VDEC_ASSERT(0); + return -EIO; + } + + picture = (struct vdecdd_picture *)str_unit->dd_pict_data; + dec_core_ctx = decoder_str_ctx_to_core_ctx(dec_str_ctx); + + if (!picture || !dec_core_ctx) { + VDEC_ASSERT(0); + return IMG_ERROR_INVALID_PARAMETERS; + } + + /* Ensure this is a new picture */ + VDEC_ASSERT(!dec_str_ctx->cur_pict); + VDEC_ASSERT(str_unit->str_unit_type == VDECDD_STRUNIT_PICTURE_START); + + dec_core_ctx->cum_pics++; + + /* Allocate a unique id to the picture */ + ret = idgen_allocid(dec_str_ctx->pict_idgen, picture, &picture->pict_id); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + /* Allocate the decoded picture information structure. */ + picture->dec_pict_info = kzalloc(sizeof(*picture->dec_pict_info), GFP_KERNEL); + VDEC_ASSERT(picture->dec_pict_info); + if (!picture->dec_pict_info) + return IMG_ERROR_OUT_OF_MEMORY; + + /* Extract decoded information from the stream unit */ + picture->dec_pict_info->err_flags = str_unit->err_flags; + picture->dec_pict_info->first_fld_tag_container.pict_tag_param = + (unsigned long)(str_unit->str_unit_tag); + picture->dec_pict_info->op_config = picture->op_config; + picture->dec_pict_info->rend_info = picture->disp_pict_buf.rend_info; + picture->dec_pict_info->disp_info = str_unit->pict_hdr_info->disp_info; + + /* Extract aux picture information from the stream unit */ + picture->dec_pict_aux_info.seq_hdr_id = + str_unit->seq_hdr_info->sequ_hdr_id; + picture->dec_pict_aux_info.pps_id = + str_unit->pict_hdr_info->pict_aux_data.id; + picture->dec_pict_aux_info.second_pps_id = + str_unit->pict_hdr_info->second_pict_aux_data.id; + + /* Create a new decoder picture container. */ + dec_pict = kzalloc(sizeof(*dec_pict), GFP_KERNEL); + VDEC_ASSERT(dec_pict); + if (!dec_pict) { + ret = IMG_ERROR_OUT_OF_MEMORY; + goto error_dec_pict; + } + + /* Attach decoder/picture context information. */ + dec_pict->dec_str_ctx = dec_str_ctx; + + /* + * Construct the transaction Id. + * This consists of stream and core number in addition to picture + * number in stream and a 4-bit value representing the picture number + * in core. + */ + dec_pict->transaction_id = + CREATE_TRANSACTION_ID(0, dec_str_ctx->km_str_id, dec_core_ctx->cum_pics, + picture->pict_id); + + /* Add picture to core decode list */ + dec_str_ctx->dec_str_st.num_pict_decoding++; + + /* Fake a FW message to process when decoded. */ + dec_pict->first_fld_fwmsg = kzalloc(sizeof(*dec_pict->first_fld_fwmsg), GFP_KERNEL); + VDEC_ASSERT(dec_pict->first_fld_fwmsg); + if (!dec_pict->first_fld_fwmsg) { + ret = IMG_ERROR_OUT_OF_MEMORY; + goto error_fw_msg; + } + + dec_pict->second_fld_fwmsg = + kzalloc(sizeof(*dec_pict->second_fld_fwmsg), GFP_KERNEL); + VDEC_ASSERT(dec_pict->second_fld_fwmsg); + if (!dec_pict->second_fld_fwmsg) { + ret = IMG_ERROR_OUT_OF_MEMORY; + goto error_fw_msg; + } + + /* Add the segments to the Decode Picture */ + ret = decoder_wrap_bitstr_segments(&str_unit->bstr_seg_list, + &dec_pict->dec_pict_seg_list, + dec_str_ctx->config.user_str_id); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error_segments; + + /* + * Shuffle the current and previous + * Hold a reference to the last context on the FE + */ + if (dec_str_ctx->prev_fe_pict_dec_res) { + /* Return previous last FW context. */ + resource_item_return(&dec_str_ctx->prev_fe_pict_dec_res->ref_cnt); + + if (resource_item_isavailable(&dec_str_ctx->prev_fe_pict_dec_res->ref_cnt)) { + resource_list_remove(&dec_str_ctx->dec_res_lst, + dec_str_ctx->prev_fe_pict_dec_res); + + resource_list_add_img(&dec_str_ctx->dec_res_lst, + dec_str_ctx->prev_fe_pict_dec_res, 0, + &dec_str_ctx->prev_fe_pict_dec_res->ref_cnt); + } + } + + dec_str_ctx->prev_fe_pict_dec_res = dec_str_ctx->cur_fe_pict_dec_res; + dec_pict->prev_pict_dec_res = dec_str_ctx->prev_fe_pict_dec_res; + + /* Get a new stream decode resource bundle for current picture. */ + dec_pict->cur_pict_dec_res = resource_list_get_avail(&dec_str_ctx->dec_res_lst); + VDEC_ASSERT(dec_pict->cur_pict_dec_res); + if (!dec_pict->cur_pict_dec_res) { + ret = IMG_ERROR_UNEXPECTED_STATE; + goto error_dec_res; + } + + if (dec_str_ctx->config.vid_std == VDEC_STD_H264) { + /* Copy any SGM for current picture. */ + if (str_unit->pict_hdr_info->pict_sgm_data.id != + BSPP_INVALID) { + VDEC_ASSERT(str_unit->pict_hdr_info->pict_sgm_data.size <= + dec_pict->cur_pict_dec_res->h264_sgm_buf.buf_size); + /* Updated in translation_api */ + memcpy(dec_pict->cur_pict_dec_res->h264_sgm_buf.cpu_virt, + str_unit->pict_hdr_info->pict_sgm_data.pic_data, + str_unit->pict_hdr_info->pict_sgm_data.size); + } + } + + dec_pict->cur_pict_dec_res->transaction_id = dec_pict->transaction_id; + dec_str_ctx->cur_fe_pict_dec_res = dec_pict->cur_pict_dec_res; + resource_item_use(&dec_str_ctx->cur_fe_pict_dec_res->ref_cnt); + + /* Get a new control buffer */ + dec_pict->pict_ref_res = + resource_list_get_avail(&dec_str_ctx->ref_res_lst); + VDEC_ASSERT(dec_pict->pict_ref_res); + if (!dec_pict->pict_ref_res) { + ret = IMG_ERROR_UNEXPECTED_STATE; + goto error_ref_res; + } + + VDEC_ASSERT(dec_str_ctx->decctx); + VDEC_ASSERT(dec_str_ctx->decctx->dev_cfg); + + dec_pict->str_pvdec_fw_ctxbuf = &dec_str_ctx->pvdec_fw_ctx_buf; + dec_pict->pict_hdr_info = str_unit->pict_hdr_info; + + /* Obtain (core) resources for the picture */ + ret = dec_res_picture_attach(&dec_str_ctx->resources, + dec_str_ctx->config.vid_std, dec_pict); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error_res_attach; + + /* Clear fw context data for re-use */ + memset(dec_pict->cur_pict_dec_res->fw_ctx_buf.cpu_virt, 0, + dec_pict->cur_pict_dec_res->fw_ctx_buf.buf_size); + + /* + * Clear the control data in case the picture is discarded before + * being prepared by firmware. + */ + memset(dec_pict->pict_ref_res->fw_ctrlbuf.cpu_virt, 0, + dec_pict->pict_ref_res->fw_ctrlbuf.buf_size); + + ret = hwctrl_getregsoffset(dec_core_ctx->hw_ctx, ®s_offsets); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error_other; + + ret = translation_ctrl_alloc_prepare(&dec_str_ctx->config, str_unit, + dec_pict, + &dec_core_ctx->core_props, + ®s_offsets); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error_other; + + ret = hwctrl_picture_submitbatch(dec_core_ctx->hw_ctx, dec_pict, + dec_str_ctx->vxd_dec_ctx); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error_other; + + VDEC_ASSERT(dec_str_ctx->avail_slots > 0); + dec_str_ctx->avail_slots--; + + VDEC_ASSERT(!dec_core_ctx->busy); + dec_core_ctx->busy = TRUE; + /* Store this transaction ID in stream context */ + dec_str_ctx->last_fe_transaction_id = dec_pict->transaction_id; + dec_str_ctx->cur_pict = (struct dec_decpict *)dec_pict; + + dec_str_ctx->dec_str_st.features = str_unit->features; + + if (str_unit->eop) + dec_pict->eop_found = TRUE; + + *dec_pict_ptr = dec_pict; + + return IMG_SUCCESS; + + /* Roll back in case of errors. */ +error_other: + dec_res_picture_detach(&dec_str_ctx->resources, dec_pict); +error_res_attach: +error_ref_res: +error_dec_res: +error_segments: + decoder_clean_bitstr_segments(&dec_pict->dec_pict_seg_list); + kfree(dec_pict->first_fld_fwmsg); + kfree(dec_pict->second_fld_fwmsg); +error_fw_msg: + kfree(dec_pict); +error_dec_pict: + kfree(picture->dec_pict_info); + + return ret; +} + +/* + * @Function decoder_stream_reference_resource_create + */ +static int +decoder_stream_reference_resource_create(struct dec_str_ctx *dec_str_ctx) +{ + struct dec_pictref_res *pict_ref_res; + int ret; + unsigned int mem_heap_id; + enum sys_emem_attrib mem_attribs; + + if (!dec_str_ctx || !dec_str_ctx->decctx) { + VDEC_ASSERT(0); + return -EINVAL; + } + + mem_heap_id = dec_str_ctx->decctx->internal_heap_id; + mem_attribs = (enum sys_emem_attrib)(SYS_MEMATTRIB_UNCACHED | SYS_MEMATTRIB_WRITECOMBINE); + mem_attribs |= (enum sys_emem_attrib)SYS_MEMATTRIB_INTERNAL; + + /* Allocate the firmware context buffer info structure. */ + pict_ref_res = kzalloc(sizeof(*pict_ref_res), GFP_KERNEL); + VDEC_ASSERT(pict_ref_res); + if (!pict_ref_res) + return IMG_ERROR_OUT_OF_MEMORY; + + /* + * Allocate the firmware context buffer to contain data required for + * subsequent picture. + */ + +#ifdef DEBUG_DECODER_DRIVER + pr_info("%s:%d calling MMU_StreamMalloc", __func__, __LINE__); +#endif + ret = mmu_stream_alloc(dec_str_ctx->mmu_str_handle, MMU_HEAP_STREAM_BUFFERS, mem_heap_id, + (enum sys_emem_attrib)(mem_attribs | SYS_MEMATTRIB_CPU_READ | + SYS_MEMATTRIB_CPU_WRITE), + sizeof(struct vdecfw_buffer_control), + DEV_MMU_PAGE_ALIGNMENT, + &pict_ref_res->fw_ctrlbuf); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto err_out_of_memory; + + /* + * Clear the context data in preparation for first time use by + * the firmware. + */ + memset(pict_ref_res->fw_ctrlbuf.cpu_virt, 0, pict_ref_res->fw_ctrlbuf.buf_size); + + pict_ref_res->ref_cnt = 1; + + ret = resource_list_add_img(&dec_str_ctx->ref_res_lst, pict_ref_res, 0, + &pict_ref_res->ref_cnt); + if (ret != IMG_SUCCESS) { + pr_err("[USERSID=0x%08X] Failed to add resource", dec_str_ctx->config.user_str_id); + return ret; + } + + return IMG_SUCCESS; + +err_out_of_memory: + + kfree(pict_ref_res); + pict_ref_res = NULL; + + pr_err("[USERSID=0x%08X] Failed to allocate device memory for stream reference resources", + dec_str_ctx->config.user_str_id); + + return IMG_ERROR_OUT_OF_MEMORY; +} + +/* + * @Function decoder_picture_finalize + */ +static int decoder_picture_finalize(struct dec_str_ctx *dec_str_ctx, + struct vdecdd_str_unit *str_unit) +{ + struct dec_decpict *dec_pict; + struct dec_core_ctx *dec_core_ctx = NULL; + + VDEC_ASSERT(dec_str_ctx); + + dec_pict = dec_str_ctx->cur_pict; + if (!dec_pict) { + pr_err("[USERSID=0x%08X] Unable to get the current picture from Decoder context", + dec_str_ctx->config.user_str_id); + return IMG_ERROR_GENERIC_FAILURE; + } + + dec_core_ctx = decoder_str_ctx_to_core_ctx(dec_str_ctx); + + if (!dec_core_ctx || !dec_core_ctx->busy) { + VDEC_ASSERT(0); + return -EINVAL; + } + + dec_core_ctx->busy = FALSE; + + /* Picture data are now complete, nullify pointer */ + dec_str_ctx->cur_pict = NULL; + + return IMG_SUCCESS; +} + +/* + * @Function decoder_submit_fragment + */ +static int decoder_submit_fragment(struct dec_str_ctx *dec_str_context, + struct vdecdd_str_unit *str_unit, + unsigned char eop) +{ + struct dec_core_ctx *dec_core_context = NULL; + struct lst_t dec_fragment_seg_list; + struct dec_decpict_seg *dec_pict_seg; + struct dec_pict_fragment *pict_fragment; + int ret = IMG_SUCCESS; + + if (!dec_str_context) { + VDEC_ASSERT(0); + return IMG_ERROR_GENERIC_FAILURE; + } + + if (!dec_str_context->cur_pict) { + pr_err("[USERSID=0x%08X] Unable to get the current picture from Decoder context", + dec_str_context->config.user_str_id); + VDEC_ASSERT(0); + return IMG_ERROR_GENERIC_FAILURE; + } + + dec_core_context = decoder_str_ctx_to_core_ctx(dec_str_context); + if (!dec_core_context) { + VDEC_ASSERT(0); + return IMG_ERROR_GENERIC_FAILURE; + } + + pict_fragment = kzalloc(sizeof(*pict_fragment), GFP_KERNEL); + VDEC_ASSERT(pict_fragment); + if (!pict_fragment) + return IMG_ERROR_OUT_OF_MEMORY; + + lst_init(&dec_fragment_seg_list); + + /* Add the segments to the temporary list */ + ret = decoder_wrap_bitstr_segments(&str_unit->bstr_seg_list, + &dec_fragment_seg_list, + dec_str_context->config.user_str_id); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + /* Prepare ctr alloc for the fragment */ + ret = translation_fragment_prepare(dec_str_context->cur_pict, + &dec_fragment_seg_list, eop, + pict_fragment); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + /* + * Move segments of the fragment from the temporary list to the picture + * segment list + */ + dec_pict_seg = lst_removehead(&dec_fragment_seg_list); + while (dec_pict_seg) { + lst_add(&dec_str_context->cur_pict->dec_pict_seg_list, + dec_pict_seg); + dec_pict_seg = lst_removehead(&dec_fragment_seg_list); + } + + /* Submit fragment */ + ret = hwctrl_picture_submit_fragment(dec_core_context->hw_ctx, + pict_fragment, + dec_str_context->cur_pict, + dec_str_context->vxd_dec_ctx); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + goto error; + + lst_add(&dec_str_context->cur_pict->fragment_list, pict_fragment); + + if (eop) + dec_str_context->cur_pict->eop_found = TRUE; + +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] FRAGMENT", + dec_str_context->config.user_str_id, + dec_str_context->last_fe_transaction_id); +#endif + + return IMG_SUCCESS; +error: + kfree(pict_fragment); + + return ret; +} + +/* + * @Function decoder_stream_process_unit + */ +int decoder_stream_process_unit(void *dec_str_ctx_arg, + struct vdecdd_str_unit *str_unit) +{ + struct dec_str_ctx *dec_str_ctx = + decoder_stream_get_context(dec_str_ctx_arg); + + struct dec_str_unit *dec_str_unit; + struct dec_decpict *dec_pict = NULL; + unsigned char processed = FALSE; + int ret; + + VDEC_ASSERT(dec_str_ctx); + VDEC_ASSERT(str_unit); + + if (!dec_str_ctx || !str_unit) { + pr_err("Invalid decoder stream context handle!\n"); + return IMG_ERROR_INVALID_PARAMETERS; + } + pr_debug("%s : stream unit type = %d\n" + , __func__, str_unit->str_unit_type); + /* Process the stream unit */ + switch (str_unit->str_unit_type) { + case VDECDD_STRUNIT_SEQUENCE_END: + case VDECDD_STRUNIT_ANONYMOUS: + case VDECDD_STRUNIT_CLOSED_GOP: + case VDECDD_STRUNIT_PICTURE_PORTENT: + case VDECDD_STRUNIT_FENCE: + /* Nothing more to do so mark the stream unit as processed */ + processed = TRUE; + break; + + case VDECDD_STRUNIT_STOP: + if (dec_str_ctx->cur_pict && !dec_str_ctx->cur_pict->eop_found) { + ret = decoder_submit_fragment(dec_str_ctx, str_unit, TRUE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + ret = decoder_picture_finalize(dec_str_ctx, str_unit); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] FORCED END", + dec_str_ctx->config.user_str_id, + dec_str_ctx->last_fe_transaction_id); +#endif + } + + processed = TRUE; + break; + + case VDECDD_STRUNIT_SEQUENCE_START: + { + unsigned int max_num_activ_pict = 0; + + VDEC_ASSERT(str_unit->seq_hdr_info); + /* + * Determine how many decoded pictures can be held for + * reference in the decoder for this stream. + */ + ret = vdecddutils_ref_pict_get_maxnum(&dec_str_ctx->config, + &str_unit->seq_hdr_info->com_sequ_hdr_info, + &max_num_activ_pict); + if (ret != IMG_SUCCESS) + return ret; + + /* Double for field coding */ + max_num_activ_pict *= 2; + + /* + * Ensure that there are enough resource to have pictures + * filling all slots on all cores. + */ + max_num_activ_pict += + dec_str_ctx->decctx->dev_cfg->num_slots_per_pipe * + dec_str_ctx->decctx->num_pipes; + + /* Increase decoder stream resources if necessary. */ + while (dec_str_ctx->num_ref_res < max_num_activ_pict) { + ret = decoder_stream_reference_resource_create(dec_str_ctx); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + dec_str_ctx->num_ref_res++; + } + + /* Nothing more to do so mark the stream unit as processed */ + processed = TRUE; + break; + } + + case VDECDD_STRUNIT_PICTURE_START: + if (str_unit->decode) { + /* Prepare and submit picture to decode. */ + ret = decoder_picture_decode(dec_str_ctx, str_unit, &dec_pict); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] START", + dec_str_ctx->config.user_str_id, + dec_str_ctx->last_fe_transaction_id); +#endif + } else { + processed = TRUE; + } + break; + + case VDECDD_STRUNIT_PICTURE_END: + if (str_unit->decode) { + ret = decoder_picture_finalize(dec_str_ctx, str_unit); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] END", + dec_str_ctx->config.user_str_id, + dec_str_ctx->last_fe_transaction_id); +#endif + } else { + processed = TRUE; + } + break; + + default: + VDEC_ASSERT(FALSE); + break; + } + + /* + * If this or any preceding stream unit(s) could not be + * completely processed, add this unit to the queue. + */ + if (!processed) { + /* Add unit to stream decode list */ + dec_str_unit = kzalloc(sizeof(*dec_str_unit), GFP_KERNEL); + VDEC_ASSERT(dec_str_unit); + if (!dec_str_unit) + return IMG_ERROR_OUT_OF_MEMORY; + + dec_str_unit->str_unit = str_unit; + + /* make PICTURE_START owner of dec_pict */ + if (dec_pict) { + VDEC_ASSERT(str_unit->str_unit_type == VDECDD_STRUNIT_PICTURE_START); + dec_str_unit->dec_pict = dec_pict; + } + + lst_add(&dec_str_ctx->pend_strunit_list, dec_str_unit); + } else { + /* + * If there is nothing being decoded for this stream, + * immediately handle the unit (non-picture so doesn't need + * decoding). Report that this unit has been processed. + */ + VDEC_ASSERT(dec_str_ctx->decctx); + ret = dec_str_ctx->str_processed_cb(dec_str_ctx->usr_int_data, + VXD_CB_STRUNIT_PROCESSED, + str_unit); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + + return IMG_SUCCESS; +} + +static int +decoder_get_required_core_features(const struct vdec_str_configdata *str_cfg, + const struct vdec_str_opconfig *op_cfg, + unsigned int *features) +{ + unsigned int features_local = 0; + + VDEC_ASSERT(str_cfg); + VDEC_ASSERT(features); + + /* Check Video Standard. */ + switch (str_cfg->vid_std) { + case VDEC_STD_H264: + features_local = VDECDD_COREFEATURE_H264; + break; +#ifdef HAS_JPEG + case VDEC_STD_JPEG: + features_local = VDECDD_COREFEATURE_JPEG; + break; +#endif +#ifdef HAS_HEVC + case VDEC_STD_HEVC: + features_local = VDECDD_COREFEATURE_HEVC; + break; +#endif + default: + VDEC_ASSERT(FALSE); + break; + } + + *features = features_local; + + return IMG_SUCCESS; +} + +/* + * @Function decoder_is_supported_by_atleast_onepipe + */ +static unsigned char decoder_is_supported_by_atleast_onepipe(unsigned char *features, + unsigned int num_pipes) +{ + unsigned int i; + + VDEC_ASSERT(features); + VDEC_ASSERT(num_pipes <= VDEC_MAX_PIXEL_PIPES); + + for (i = 0; i < num_pipes; i++) { + if (features[i]) + return TRUE; + } + + return FALSE; +} + +/* + * @Function decoder_check_support + */ +int decoder_check_support(void *dec_ctx_arg, + const struct vdec_str_configdata *str_cfg, + const struct vdec_str_opconfig *str_op_cfg, + const struct vdecdd_ddpict_buf *disp_pict_buf, + const struct vdec_pict_rendinfo *req_pict_rendinfo, + const struct vdec_comsequ_hdrinfo *comseq_hdrinfo, + const struct bspp_pict_hdr_info *pict_hdrinfo, + const struct vdec_comsequ_hdrinfo *prev_comseq_hdrinfo, + const struct bspp_pict_hdr_info *prev_pict_hdrinfo, + unsigned char non_cfg_req, + struct vdec_unsupp_flags *unsupported, + unsigned int *features) +{ + struct dec_ctx *dec_ctx = (struct dec_ctx *)dec_ctx_arg; + struct dec_core_ctx *dec_core_ctx; + struct vxd_coreprops *core_props; + const struct vdec_pict_rendinfo *disp_pict_rendinfo = NULL; + int ret = IMG_ERROR_NOT_SUPPORTED; + + /* Ensure input parameters are valid. */ + VDEC_ASSERT(dec_ctx_arg); + VDEC_ASSERT(str_cfg); + VDEC_ASSERT(unsupported); + + if (!dec_ctx_arg || !str_cfg || !unsupported) { + pr_err("Invalid parameters!"); + return IMG_ERROR_INVALID_PARAMETERS; + } + + if (disp_pict_buf) + disp_pict_rendinfo = &disp_pict_buf->rend_info; + + /* + * Validate compatibility between the supplied configuration/state + * and the master core only at the moment (assumed to have superset + * of features). + * Some features may not be present on any slave cores which might + * cause poor utilisation of hardware. + */ + memset(unsupported, 0, sizeof(*unsupported)); + + dec_core_ctx = dec_ctx->dec_core_ctx; + VDEC_ASSERT(dec_core_ctx); + + core_props = &dec_core_ctx->core_props; + VDEC_ASSERT(core_props); + + /* Check that the video standard is supported */ + switch (str_cfg->vid_std) { + case VDEC_STD_H264: + if (!decoder_is_supported_by_atleast_onepipe(core_props->h264, + core_props->num_pixel_pipes)) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: VIDEO STANDARD (H.264)", + str_cfg->user_str_id); + unsupported->str_cfg |= + VDECDD_UNSUPPORTED_STRCONFIG_STD; + } + + if (comseq_hdrinfo && (H264_PROFILE_MVC_HIGH == + comseq_hdrinfo->codec_profile || H264_PROFILE_MVC_STEREO == + comseq_hdrinfo->codec_profile) && comseq_hdrinfo->num_views > + VDEC_H264_MVC_MAX_VIEWS) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[SW]: NUMBER OF VIEWS", + str_cfg->user_str_id); + unsupported->seq_hdr |= VDECDD_UNSUPPORTED_SEQUHDR_NUM_OF_VIEWS; + } + break; +#ifdef HAS_HEVC + case VDEC_STD_HEVC: + if (!decoder_is_supported_by_atleast_onepipe(core_props->hevc, + core_props->num_pixel_pipes)) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: VIDEO STANDARD (HEVC)", + str_cfg->user_str_id); + unsupported->str_cfg |= VDECDD_UNSUPPORTED_STRCONFIG_STD; + } + if (pict_hdrinfo && pict_hdrinfo->hevc_pict_hdr_info.range_ext_present) + if ((pict_hdrinfo->hevc_pict_hdr_info.is_full_range_ext && + !decoder_is_supported_by_atleast_onepipe(core_props->hevc_range_ext, + core_props->num_pixel_pipes)) || + (!pict_hdrinfo->hevc_pict_hdr_info.is_full_range_ext && + core_props->vidstd_props[str_cfg->vid_std].max_chroma_format == + PIXEL_FORMAT_420)) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: HEVC RANGE EXTENSIONS", + str_cfg->user_str_id); + unsupported->pict_hdr |= VDECDD_UNSUPPORTED_PICTHDR_HEVC_RANGE_EXT; + } + break; +#endif +#ifdef HAS_JPEG + case VDEC_STD_JPEG: + if (!decoder_is_supported_by_atleast_onepipe(core_props->jpeg, + core_props->num_pixel_pipes)) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: VIDEO STANDARD (JPEG)", + str_cfg->user_str_id); + unsupported->str_cfg |= + VDECDD_UNSUPPORTED_STRCONFIG_STD; + } + break; +#endif + default: + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: VIDEO STANDARD (UNKNOWN)", + str_cfg->user_str_id); + unsupported->str_cfg |= + VDECDD_UNSUPPORTED_STRCONFIG_STD; + break; + } + + if (str_op_cfg) { + /* + * Ensure that each display feature is supported by the + * hardware. + */ + if (comseq_hdrinfo) { + /* Validate display pixel format */ + if (non_cfg_req && prev_comseq_hdrinfo && + vdec_size_nz(prev_comseq_hdrinfo->frame_size) && + prev_comseq_hdrinfo->pixel_info.chroma_fmt_idc == + str_op_cfg->pixel_info.chroma_fmt_idc && + comseq_hdrinfo->pixel_info.chroma_fmt_idc != + prev_comseq_hdrinfo->pixel_info.chroma_fmt_idc) { + /* + * If this is a non-configuration request and + * it looks like a new sequence with + * sub-sampling change, just indicate output + * format mismatch without any error messages. + */ + unsupported->str_opcfg |= VDECDD_UNSUPPORTED_OUTPUTCONFIG_PIXFORMAT; + } else { + switch (str_op_cfg->pixel_info.chroma_fmt_idc) { + case PIXEL_FORMAT_420: + if (comseq_hdrinfo->pixel_info.chroma_fmt_idc == + PIXEL_FORMAT_MONO) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: TRANSFORM PIXEL FORMAT FROM 400 TO 420", + str_cfg->user_str_id); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTCONFIG_PIXFORMAT; + } + break; + + case PIXEL_FORMAT_422: + if (comseq_hdrinfo->pixel_info.chroma_fmt_idc == + PIXEL_FORMAT_420 && + str_op_cfg->pixel_info.num_planes > 1) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: REQUESTED NUMBER OF PLANES FOR 422 UPSAMPLING", + str_cfg->user_str_id); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTCONFIG_PIXFORMAT; + } else if (comseq_hdrinfo->pixel_info.chroma_fmt_idc == + PIXEL_FORMAT_MONO) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: TRANSFORM PIXEL FORMAT FROM 400 TO 422", + str_cfg->user_str_id); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTCONFIG_PIXFORMAT; + } + break; + + default: + break; + } + } + } + + if (str_op_cfg->pixel_info.bitdepth_y > + core_props->vidstd_props[str_cfg->vid_std].max_luma_bitdepth || + str_op_cfg->pixel_info.bitdepth_y < 8 || + str_op_cfg->pixel_info.bitdepth_y == 9) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: DISPLAY PICTURE LUMA BIT DEPTH %d [RANGE: 8->%d for %s]", + str_cfg->user_str_id, + str_op_cfg->pixel_info.bitdepth_y, + core_props->vidstd_props[str_cfg->vid_std].max_luma_bitdepth, + vid_std_names[str_cfg->vid_std]); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTCONFIG_PIXFORMAT; + } + + if (str_op_cfg->pixel_info.chroma_fmt_idc != + PIXEL_FORMAT_MONO && + (str_op_cfg->pixel_info.bitdepth_c > + core_props->vidstd_props[str_cfg->vid_std].max_chroma_bitdepth || + str_op_cfg->pixel_info.bitdepth_c < 8 || + str_op_cfg->pixel_info.bitdepth_c == 9)) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: DISPLAY PICTURE CHROMA BIT DEPTH %d [RANGE: 8->%d for %s]", + str_cfg->user_str_id, + str_op_cfg->pixel_info.bitdepth_c, + core_props->vidstd_props[str_cfg->vid_std].max_chroma_bitdepth, + vid_std_names[str_cfg->vid_std]); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTCONFIG_PIXFORMAT; + } + +#ifdef HAS_JPEG + /* Validate display configuration against existing stream configuration.*/ + if (str_cfg->vid_std == VDEC_STD_JPEG) { + if (str_op_cfg->force_oold) { + pr_err("[USERSID=0x%08X] UNSUPPORTED[HW]: OOLD WITH JPEG\n", + str_cfg->user_str_id); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTCONFIG_X_WITH_JPEG; + } + } +#endif + } + + if (disp_pict_rendinfo) { + unsigned int stride_alignment = VDEC_VXD_EXT_STRIDE_ALIGNMENT_DEFAULT; + + if (req_pict_rendinfo) { + /* + * Picture size declared in buffer must be at least as + * large as that required by bitstream/output config. + */ + if (!vdec_size_ge(disp_pict_rendinfo->rend_pict_size, + req_pict_rendinfo->rend_pict_size)) { + pr_warn("[USERSID=0x%08X] Picture size of output picture buffer [%d x %d] is not large enough for sequence [%d x %d]", + str_cfg->user_str_id, + disp_pict_rendinfo->rend_pict_size.width, + disp_pict_rendinfo->rend_pict_size.height, + req_pict_rendinfo->rend_pict_size.width, + req_pict_rendinfo->rend_pict_size.height); + unsupported->str_opcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_PICTURE_SIZE; + } + + /* + * Size of each plane must be at least as large + * as that required. + */ + if (disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].size < + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].size) { + pr_warn("[USERSID=0x%08X] Y plane of output picture buffer [%d bytes] is not large enough for bitstream/config [%d bytes]", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].size, + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].size); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_Y_SIZE; + } + + /* + * Stride of each plane must be at least as large as that + * required. + */ + if (disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].stride < + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].stride) { + pr_warn("[USERSID=0x%08X] Y stride of output picture buffer [%d bytes] is not large enough for bitstream/config [%d bytes]", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].stride, + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].stride); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_Y_STRIDE; + } + + /* + * Size of each plane must be at least + * as large as that required. + */ + if (disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].size < + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].size) { + pr_warn("[USERSID=0x%08X] UV plane of output picture buffer [%d bytes] is not large enough for bitstream/config [%d bytes]", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].size, + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].size); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_UV_SIZE; + } + + /* + * Stride of each plane must be at least + * as large as that required. + */ + if (disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].stride < + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].stride) { + pr_warn("[USERSID=0x%08X] UV stride of output picture buffer [%d bytes] is not large enough for bitstream/config [%d bytes]", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].stride, + req_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].stride); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_UV_STRIDE; + } + + if ((req_pict_rendinfo->stride_alignment & + (VDEC_VXD_EXT_STRIDE_ALIGNMENT_DEFAULT - 1)) != 0) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: STRIDE ALIGNMENT [%d] must be a multiple of %d bytes", + str_cfg->user_str_id, + req_pict_rendinfo->stride_alignment, + VDEC_VXD_EXT_STRIDE_ALIGNMENT_DEFAULT); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_64BYTE_STRIDE; + } + + if (req_pict_rendinfo->stride_alignment > 0) + stride_alignment = req_pict_rendinfo->stride_alignment; + } + + if ((disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].stride % + stride_alignment) != 0) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: Y STRIDE [%d] must be a multiple of %d bytes", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_Y].stride, + stride_alignment); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_64BYTE_STRIDE; + } + + if ((disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].stride % + stride_alignment) != 0) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: UV STRIDE [%d] must be a multiple of %d bytes", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_UV].stride, + stride_alignment); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_64BYTE_STRIDE; + } + + if ((disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_V].stride % + stride_alignment) != 0) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: V STRIDE [%d] must be a multiple of %d bytes", + str_cfg->user_str_id, + disp_pict_rendinfo->plane_info[VDEC_PLANE_VIDEO_V].stride, + stride_alignment); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_64BYTE_STRIDE; + } + + if (req_pict_rendinfo) { + if (str_op_cfg) { + if (str_cfg->vid_std != VDEC_STD_JPEG) { + if (str_op_cfg->pixel_info.num_planes <= 2) + /* + * V plane only required when chroma is + * separated. + */ + VDEC_ASSERT(req_pict_rendinfo->plane_info + [VDEC_PLANE_VIDEO_V].size == 0); + + if (str_op_cfg->pixel_info.num_planes <= 3) + /* Alpha planes should not be required. */ + VDEC_ASSERT(req_pict_rendinfo->plane_info + [VDEC_PLANE_VIDEO_A].size == 0); + } + } + + /* Size of buffer must be at least as large as that required. */ + if (disp_pict_rendinfo->rendered_size < + req_pict_rendinfo->rendered_size) { + pr_warn("[USERSID=0x%08X] Output picture buffer [%d bytes] is not large enough for bitstream/config [%d bytes]", + str_cfg->user_str_id, + disp_pict_rendinfo->rendered_size, + req_pict_rendinfo->rendered_size); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_BUFFER_SIZE; + } + } + + if (str_op_cfg) { + if (comseq_hdrinfo) { + if (vdec_size_lt(disp_pict_rendinfo->rend_pict_size, + comseq_hdrinfo->max_frame_size)) { + pr_warn("[USERSID=0x%08X] Buffers [%d x %d] must be large enough to contain the maximum frame size [%d x %d] when not scaling", + str_cfg->user_str_id, + disp_pict_rendinfo->rend_pict_size.width, + disp_pict_rendinfo->rend_pict_size.height, + comseq_hdrinfo->max_frame_size.width, + comseq_hdrinfo->max_frame_size.height); + unsupported->op_bufcfg |= + VDECDD_UNSUPPORTED_OUTPUTBUFCONFIG_PICTURE_SIZE; + } + } + } + } + + if (comseq_hdrinfo) { + unsigned int max_width = + vdec_size_min(core_props->vidstd_props[str_cfg->vid_std].max_width, + MAX_PLATFORM_SUPPORTED_WIDTH); + + unsigned int max_height = + vdec_size_min(core_props->vidstd_props[str_cfg->vid_std].max_height, + MAX_PLATFORM_SUPPORTED_HEIGHT); + + if (comseq_hdrinfo->max_frame_size.width > max_width || + comseq_hdrinfo->max_frame_size.height > max_height) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: FRAME WIDTH %dpx or HEIGHT %dpx are over maximum allowed value [%d, %d]", + str_cfg->user_str_id, + comseq_hdrinfo->max_frame_size.width, + comseq_hdrinfo->max_frame_size.height, + max_width, max_height); + unsupported->seq_hdr |= + VDECDD_UNSUPPORTED_SEQUHDR_SIZE; + } + + if (comseq_hdrinfo->pixel_info.bitdepth_y > + core_props->vidstd_props[str_cfg->vid_std].max_luma_bitdepth || + comseq_hdrinfo->pixel_info.bitdepth_y < 8 || + comseq_hdrinfo->pixel_info.bitdepth_y == 9) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PICTURE LUMA BIT DEPTH %d [RANGE: 8->%d for %s]", + str_cfg->user_str_id, + comseq_hdrinfo->pixel_info.bitdepth_y, + core_props->vidstd_props[str_cfg->vid_std].max_luma_bitdepth, + vid_std_names[str_cfg->vid_std]); + unsupported->seq_hdr |= + VDECDD_UNSUPPORTED_SEQUHDR_PIXFORMAT_BIT_DEPTH; + } + + if (comseq_hdrinfo->pixel_info.chroma_fmt_idc != + PIXEL_FORMAT_MONO && + (comseq_hdrinfo->pixel_info.bitdepth_c > + core_props->vidstd_props[str_cfg->vid_std].max_chroma_bitdepth || + comseq_hdrinfo->pixel_info.bitdepth_c < 8 || + comseq_hdrinfo->pixel_info.bitdepth_c == 9)) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PICTURE CHROMA BIT DEPTH %d [RANGE: 8->%d for %s]", + str_cfg->user_str_id, + comseq_hdrinfo->pixel_info.bitdepth_c, + core_props->vidstd_props[str_cfg->vid_std].max_chroma_bitdepth, + vid_std_names[str_cfg->vid_std]); + unsupported->seq_hdr |= + VDECDD_UNSUPPORTED_SEQUHDR_PIXFORMAT_BIT_DEPTH; + } + + if (comseq_hdrinfo->pixel_info.chroma_fmt_idc != + PIXEL_FORMAT_MONO && + comseq_hdrinfo->pixel_info.bitdepth_y != + comseq_hdrinfo->pixel_info.bitdepth_c) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PICTURE MIXED BIT DEPTH [%d vs %d]", + str_cfg->user_str_id, + comseq_hdrinfo->pixel_info.bitdepth_y, + comseq_hdrinfo->pixel_info.bitdepth_c); + unsupported->seq_hdr |= + VDECDD_UNSUPPORTED_SEQUHDR_PIXFORMAT_BIT_DEPTH; + } + + if (comseq_hdrinfo->pixel_info.chroma_fmt_idc > + core_props->vidstd_props[str_cfg->vid_std].max_chroma_format) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PIXEL FORMAT IDC %s [for %s]", + str_cfg->user_str_id, + comseq_hdrinfo->pixel_info.chroma_fmt_idc < + ARRAY_SIZE + (pix_fmt_idc_names) ? (unsigned char *) + pix_fmt_idc_names[comseq_hdrinfo->pixel_info.chroma_fmt_idc] : + (unsigned char *)"Invalid", + vid_std_names[str_cfg->vid_std]); + unsupported->seq_hdr |= + VDECDD_UNSUPPORTED_SEQUHDR_PIXEL_FORMAT; + } + + if (comseq_hdrinfo->pixel_info.chroma_fmt_idc == + PIXEL_FORMAT_INVALID) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[SW]: UNKNOWN CODED PIXEL FORMAT", + str_cfg->user_str_id); + unsupported->seq_hdr |= + VDECDD_UNSUPPORTED_SEQUHDR_PIXEL_FORMAT; + } + } + + if (pict_hdrinfo && comseq_hdrinfo) { + unsigned int coded_cmd_width; + unsigned int coded_cmd_height; + unsigned int min_width = core_props->vidstd_props[str_cfg->vid_std].min_width; + unsigned int min_height = + ALIGN(core_props->vidstd_props[str_cfg->vid_std].min_height, + (pict_hdrinfo->field) ? + 2 * VDEC_MB_DIMENSION : VDEC_MB_DIMENSION); + unsigned int pict_size_in_mbs; + unsigned int max_height = core_props->vidstd_props[str_cfg->vid_std].max_height; + unsigned int max_width = core_props->vidstd_props[str_cfg->vid_std].max_width; + unsigned int max_mbs = core_props->vidstd_props[str_cfg->vid_std].max_macroblocks; + +#ifdef HAS_JPEG + /* For JPEG, max picture size of four plane images is 16k*16k. */ + if (str_cfg->vid_std == VDEC_STD_JPEG) { + if (comseq_hdrinfo->pixel_info.num_planes >= 4) { + max_width = (max_width > 16 * 1024) ? 16 * 1024 : max_width; + max_height = (max_height > 16 * 1024) ? 16 * 1024 : max_height; + } + } +#endif + + coded_cmd_width = + ALIGN(pict_hdrinfo->coded_frame_size.width, VDEC_MB_DIMENSION); + coded_cmd_height = + ALIGN(pict_hdrinfo->coded_frame_size.height, + pict_hdrinfo->field ? + 2 * VDEC_MB_DIMENSION : VDEC_MB_DIMENSION); + + pict_size_in_mbs = (coded_cmd_width * coded_cmd_height) / + (VDEC_MB_DIMENSION * VDEC_MB_DIMENSION); + + if ((str_cfg->vid_std == VDEC_STD_H264 && + max_mbs && pict_size_in_mbs > max_mbs) || + coded_cmd_width > max_width || + coded_cmd_height > max_height) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PICTURE SIZE %d x %d [MAX: %d x %d or %d MBs]", + str_cfg->user_str_id, + coded_cmd_width, coded_cmd_height, + max_width, max_height, max_mbs); + unsupported->pict_hdr |= VDECDD_UNSUPPORTED_PICTHDR_RESOLUTION; + } + + if (pict_hdrinfo->coded_frame_size.width < min_width || + pict_hdrinfo->coded_frame_size.height < min_height) { +#ifdef USE_STRICT_MIN_PIC_SIZE_CHECK + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PICTURE SIZE %d x %d [MIN: %d x %d]", + str_cfg->user_str_id, + pict_hdrinfo->coded_frame_size.width, + pict_hdrinfo->coded_frame_size.height, + min_width, min_height); + unsupported->pict_hdr |= VDECDD_UNSUPPORTED_PICTHDR_RESOLUTION; +#else /* ndef USE_STRICT_MIN_PIC_SIZE_CHECK */ + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: CODED PICTURE SIZE %d x %d [MIN: %d x %d]", + str_cfg->user_str_id, + pict_hdrinfo->coded_frame_size.width, + pict_hdrinfo->coded_frame_size.height, + min_width, min_height); +#endif /* ndef USE_STRICT_MIN_PIC_SIZE_CHECK */ + } + + if (pict_hdrinfo->pict_sgm_data.id != + BSPP_INVALID && pict_hdrinfo->coded_frame_size.width > 1280) { + pr_warn("[USERSID=0x%08X] UNSUPPORTED[HW]: SGM & coded frame width > 1280", + str_cfg->user_str_id); + unsupported->pict_hdr |= + VDECDD_UNSUPPORTED_PICTHDR_OVERSIZED_SGM; + } + + if (pict_hdrinfo->discontinuous_mbs) + pr_info("Stream has Discontinuous Macroblocks"); + + decoder_get_required_core_features(str_cfg, str_op_cfg, features); + } + + if (unsupported->str_cfg == 0 && unsupported->str_opcfg == 0 && + unsupported->op_bufcfg == 0 && unsupported->pict_hdr == 0) + ret = IMG_SUCCESS; + + return ret; +} + +/* + * @Function decoder_picture_decoded + */ +static int decoder_picture_decoded(struct dec_str_ctx *dec_str_ctx, + struct dec_core_ctx *dec_core_ctx, + struct vdecdd_picture *picture, + struct dec_decpict *dec_pict, + struct bspp_pict_hdr_info *pict_hdrinfo, + struct vdecdd_str_unit *str_unit) +{ + struct dec_fwmsg *first_fld_fwmsg; + struct dec_fwmsg *second_fld_fwmsg; + struct dec_pictref_res *pict_ref_res; + unsigned int transaction_id; + struct dec_decoded_pict *decoded_pict; + struct dec_decoded_pict *next_decoded_pict; + struct vdecdd_ddbuf_mapinfo *pict_buf; + struct dec_decoded_pict *prev_decoded_pict; + struct vdecfw_buffer_control *buf_control; + struct vdec_comsequ_hdrinfo *comseq_hdrinfo; + unsigned int res_limit = 0; + unsigned int dec_pict_num = 0; + unsigned int req_pict_num = 0; + struct dec_decoded_pict *aux_decoded_pict; + struct dec_decoded_pict *displayed_decoded_pict = NULL; + int ret; + unsigned int pict_id; + struct vdec_pict_tag_container *fld_tag_container; +#ifdef ERROR_CONCEALMENT + unsigned int first_field_err_level = 0; + unsigned int second_field_err_level = 0; + unsigned int pict_last_mb = 0; +#endif + struct vxd_dec_ctx *ctx; + unsigned int error_flag = 0; + + VDEC_ASSERT(dec_str_ctx); + VDEC_ASSERT(str_unit); + VDEC_ASSERT(dec_pict); + + first_fld_fwmsg = dec_pict->first_fld_fwmsg; + second_fld_fwmsg = dec_pict->second_fld_fwmsg; + pict_ref_res = dec_pict->pict_ref_res; + transaction_id = dec_pict->transaction_id; + + VDEC_ASSERT(picture); + pict_buf = picture->disp_pict_buf.pict_buf; + VDEC_ASSERT(pict_buf); + comseq_hdrinfo = &pict_buf->ddstr_context->comseq_hdr_info; + + /* Create a container for decoded picture. */ + decoded_pict = kzalloc(sizeof(*decoded_pict), GFP_KERNEL); + VDEC_ASSERT(decoded_pict); + if (!decoded_pict) + return IMG_ERROR_OUT_OF_MEMORY; + + decoded_pict->pict = picture; + decoded_pict->first_fld_fwmsg = first_fld_fwmsg; + decoded_pict->second_fld_fwmsg = second_fld_fwmsg; + decoded_pict->pict_ref_res = pict_ref_res; + decoded_pict->transaction_id = transaction_id; + + /* Populate the decoded picture information structure. */ + picture->dec_pict_info->pict_state = VDEC_PICT_STATE_DECODED; + + memcpy(&picture->dec_pict_info->first_fld_tag_container.pict_hwcrc, + &first_fld_fwmsg->pict_hwcrc, + sizeof(picture->dec_pict_info->first_fld_tag_container.pict_hwcrc)); + + memcpy(&picture->dec_pict_info->second_fld_tag_container.pict_hwcrc, + &second_fld_fwmsg->pict_hwcrc, + sizeof(picture->dec_pict_info->second_fld_tag_container.pict_hwcrc)); + + buf_control = + (struct vdecfw_buffer_control *)decoded_pict->pict_ref_res->fw_ctrlbuf.cpu_virt; + if (buf_control->second_field_of_pair) { + /* Search the first field and fill the second_fld_tag_container */ + unsigned int prev_dec_pict_id = + get_prev_picture_id(GET_STREAM_PICTURE_ID(decoded_pict->transaction_id)); + prev_decoded_pict = + decoder_get_decoded_pict_of_stream(prev_dec_pict_id, + &dec_str_ctx->str_decd_pict_list); + + if (prev_decoded_pict) { + memcpy(&picture->dec_pict_info->second_fld_tag_container.pict_hwcrc, + &prev_decoded_pict->first_fld_fwmsg->pict_hwcrc, + sizeof + (picture->dec_pict_info->second_fld_tag_container.pict_hwcrc)); + } else { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Failed to find decoded picture to attach second_fld_tag_container", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + } + prev_decoded_pict = NULL; + } + + /* Report any issues in decoding */ + if (decoded_pict->pict->dec_pict_info->err_flags) + pr_warn("[USERSID=0x%08X] [PID=0x%08X] BSPP reported errors [flags: 0x%08X]", + dec_str_ctx->config.user_str_id, + decoded_pict->pict->pict_id, + decoded_pict->pict->dec_pict_info->err_flags); + + if ((decoded_pict->first_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_FEERROR_ENTDECERROR)) || + (decoded_pict->second_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_FEERROR_ENTDECERROR))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Front-end HW processing terminated prematurely due to an error.", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + picture->dec_pict_info->err_flags |= VDEC_ERROR_FEHW_DECODE; + } + + if ((decoded_pict->first_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_FEERROR_SRERROR)) || + (decoded_pict->second_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_FEERROR_SRERROR))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] HW Shift Register access returned an error during FEHW parsing.", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + picture->dec_pict_info->err_flags |= VDEC_ERROR_SR_ERROR; + } + + if ((decoded_pict->first_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_FEERROR_HWWDT)) || + (decoded_pict->second_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_FEERROR_HWWDT))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Front-end HW processing timed-out.", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + picture->dec_pict_info->err_flags |= VDEC_ERROR_FEHW_TIMEOUT; + } + + if ((decoded_pict->first_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_MISSING_REFERENCES)) || + (decoded_pict->second_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_MISSING_REFERENCES))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] There are missing references for the current frame. May have corruption", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + /* + * This is not a serious error, indicate host app to drop the + * frame as may have corruption. + */ + picture->dec_pict_info->err_flags |= + VDEC_ERROR_MISSING_REFERENCES; + } + + if ((decoded_pict->first_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_MMCO_ERROR)) || + (decoded_pict->second_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_MMCO_ERROR))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] MMCO error accured when processing the current frame. May have corruption", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + + /* + * This is not a serious error, indicate host app to drop + * the frame as may have corruption. + */ + picture->dec_pict_info->err_flags |= VDEC_ERROR_MMCO; + } + + if ((decoded_pict->first_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_MBS_DROPPED_ERROR)) || + (decoded_pict->second_fld_fwmsg->pict_attrs.fe_err & + FLAG_MASK(VDECFW_MSGFLAG_DECODED_MBS_DROPPED_ERROR))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Some macroblocks were dropped when processing the current frame. May have corruption", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + + /* + * This is not a serious error, indicate host app to + * drop the frame as may have corruption. + */ + picture->dec_pict_info->err_flags |= VDEC_ERROR_MBS_DROPPED; + } + + if (decoded_pict->first_fld_fwmsg->pict_attrs.no_be_wdt > 0) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Back-end HW processing timed-out. Aborted slices %d", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id, + decoded_pict->first_fld_fwmsg->pict_attrs.no_be_wdt); + picture->dec_pict_info->err_flags |= VDEC_ERROR_BEHW_TIMEOUT; + } + + if (decoded_pict->second_fld_fwmsg->pict_attrs.no_be_wdt > 0) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Back-end HW processing timed-out. Aborted slices %d", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id, + decoded_pict->second_fld_fwmsg->pict_attrs.no_be_wdt); + picture->dec_pict_info->err_flags |= VDEC_ERROR_BEHW_TIMEOUT; + } + +#ifdef ERROR_CONCEALMENT + /* Estimate error level in percentage */ + if (decoder_get_pict_processing_info(dec_core_ctx, dec_str_ctx, pict_hdrinfo, + decoded_pict, dec_pict, &pict_last_mb) == TRUE) { + if (pict_last_mb) { + first_field_err_level = 100 - ((100 * (pict_last_mb - + decoded_pict->first_fld_fwmsg->pict_attrs.mbs_dropped + + decoded_pict->first_fld_fwmsg->pict_attrs.mbs_recovered)) / + pict_last_mb); + + second_field_err_level = 100 - ((100 * (pict_last_mb - + decoded_pict->second_fld_fwmsg->pict_attrs.mbs_dropped + + decoded_pict->second_fld_fwmsg->pict_attrs.mbs_recovered)) / + pict_last_mb); + } + + /* does not work properly with discontinuous mbs */ + if (!pict_hdrinfo->discontinuous_mbs) + picture->dec_pict_info->err_level = first_field_err_level > + second_field_err_level ? + first_field_err_level : second_field_err_level; + + VDEC_ASSERT(picture->dec_pict_info->err_level <= 100); + if (picture->dec_pict_info->err_level) + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Picture error level: %d(%%)", + dec_str_ctx->config.user_str_id, decoded_pict->transaction_id, + picture->dec_pict_info->err_level); + } +#endif + + if (decoded_pict->first_fld_fwmsg->pict_attrs.pict_attrs.dwrfired || + decoded_pict->second_fld_fwmsg->pict_attrs.pict_attrs.dwrfired) { + pr_warn("[USERSID=0x%08X] VXD Device Reset (Lockup).", + dec_str_ctx->config.user_str_id); + picture->dec_pict_info->err_flags |= + VDEC_ERROR_SERVICE_TIMER_EXPIRY; + } + + if (decoded_pict->first_fld_fwmsg->pict_attrs.pict_attrs.mmufault || + decoded_pict->second_fld_fwmsg->pict_attrs.pict_attrs.mmufault) { + pr_warn("[USERSID=0x%08X] VXD Device Reset (MMU fault).", + dec_str_ctx->config.user_str_id); + picture->dec_pict_info->err_flags |= VDEC_ERROR_MMU_FAULT; + } + + if (decoded_pict->first_fld_fwmsg->pict_attrs.pict_attrs.deverror || + decoded_pict->second_fld_fwmsg->pict_attrs.pict_attrs.deverror) { + pr_warn("[USERSID=0x%08X] VXD Device Error (e.g. firmware load failed).", + dec_str_ctx->config.user_str_id); + picture->dec_pict_info->err_flags |= VDEC_ERROR_DEVICE; + } + + /* + * Assigned error flag from the decoder error flag for error recovery. + */ + error_flag = picture->dec_pict_info->err_flags; + /* + * Loop over references, for each one find the related picture + * on the decPictList, and propagate errors if needed + */ + ret = + decoder_check_ref_errors(dec_str_ctx, (struct vdecfw_buffer_control *) + decoded_pict->pict_ref_res->fw_ctrlbuf.cpu_virt, + picture); + VDEC_ASSERT(ret == IMG_SUCCESS); + + if (dec_str_ctx->config.vid_std == VDEC_STD_H264) { + /* Attach the supplementary data to the decoded picture. */ + picture->dec_pict_sup_data.raw_vui_data = + pict_hdrinfo->h264_pict_hdr_info.raw_vui_data; + pict_hdrinfo->h264_pict_hdr_info.raw_vui_data = NULL; + + picture->dec_pict_sup_data.raw_sei_list_first_fld = + pict_hdrinfo->h264_pict_hdr_info.raw_sei_data_list_first_field; + pict_hdrinfo->h264_pict_hdr_info.raw_sei_data_list_first_field = NULL; + + picture->dec_pict_sup_data.raw_sei_list_second_fld = + pict_hdrinfo->h264_pict_hdr_info.raw_sei_data_list_second_field; + pict_hdrinfo->h264_pict_hdr_info.raw_sei_data_list_second_field = NULL; + + picture->dec_pict_sup_data.h264_pict_supl_data.nal_ref_idc = + pict_hdrinfo->h264_pict_hdr_info.nal_ref_idc; + + picture->dec_pict_sup_data.h264_pict_supl_data.frame_num = + pict_hdrinfo->h264_pict_hdr_info.frame_num; + } + +#ifdef HAS_HEVC + if (dec_str_ctx->config.vid_std == VDEC_STD_HEVC) { + /* Attach the supplementary data to the decoded picture. */ + picture->dec_pict_sup_data.raw_vui_data = + pict_hdrinfo->hevc_pict_hdr_info.raw_vui_data; + + pict_hdrinfo->hevc_pict_hdr_info.raw_vui_data = NULL; + + picture->dec_pict_sup_data.raw_sei_list_first_fld = + pict_hdrinfo->hevc_pict_hdr_info.raw_sei_datalist_firstfield; + + pict_hdrinfo->hevc_pict_hdr_info.raw_sei_datalist_firstfield = NULL; + + picture->dec_pict_sup_data.raw_sei_list_second_fld = + pict_hdrinfo->hevc_pict_hdr_info.raw_sei_datalist_secondfield; + + pict_hdrinfo->hevc_pict_hdr_info.raw_sei_datalist_secondfield = NULL; + + picture->dec_pict_sup_data.hevc_pict_supl_data.pic_order_cnt = + buf_control->hevc_data.pic_order_count; + } +#endif + + if (!((buf_control->dec_pict_type == IMG_BUFFERTYPE_PAIR && + VDECFW_PICMGMT_FIELD_CODED_PICTURE_EXECUTED(buf_control->picmgmt_flags)) || + FLAG_IS_SET(buf_control->picmgmt_flags, VDECFW_PICMGMTFLAG_PICTURE_EXECUTED))) { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Picture management was not executed for this picture; forcing display.", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + decoded_pict->force_display = TRUE; + } + + dec_str_ctx->dec_str_st.total_pict_finished++; + + /* + * Use NextPictIdExpected to do this check. ui32NextPictId could be + * different from what expected at this point because we failed to + * process a picture the last time run this function (this is still + * an error (unless doing multi-core) but not the error reported here. + */ + if (picture->pict_id != dec_str_ctx->next_pict_id_expected) { + pr_warn("[USERSID=0x%08X] ERROR: MISSING DECODED PICTURE (%d)", + dec_str_ctx->config.user_str_id, + dec_str_ctx->next_dec_pict_id); + } + + dec_str_ctx->next_dec_pict_id = + get_next_picture_id(GET_STREAM_PICTURE_ID(decoded_pict->transaction_id)); + dec_str_ctx->next_pict_id_expected = dec_str_ctx->next_dec_pict_id; + + /* Add the picture itself to the decoded list */ + next_decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + while (next_decoded_pict && + !HAS_X_REACHED_Y(GET_STREAM_PICTURE_ID(next_decoded_pict->transaction_id), + picture->pict_id, + 1 << FWIF_NUMBITS_STREAM_PICTURE_ID, unsigned int)) { + if (next_decoded_pict != + dq_last(&dec_str_ctx->str_decd_pict_list)) + next_decoded_pict = dq_next(next_decoded_pict); + else + next_decoded_pict = NULL; + } + + if (next_decoded_pict) + dq_addbefore(next_decoded_pict, decoded_pict); + else + dq_addtail(&dec_str_ctx->str_decd_pict_list, decoded_pict); + + dec_str_ctx->dec_str_st.num_pict_decoded++; + + pr_debug("%s : number of picture decoded = %d\n" + , __func__, dec_str_ctx->dec_str_st.num_pict_decoded); + /* Process the decoded pictures in the encoded order */ + decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + VDEC_ASSERT(decoded_pict); + if (!decoded_pict) + return IMG_ERROR_UNEXPECTED_STATE; + + ret = dec_str_ctx->str_processed_cb((void *)dec_str_ctx->usr_int_data, + VXD_CB_PICT_DECODED, (void *)picture); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + /* + * Loop on the unprocessed pictures until we failed to process one + * or we have processed them all + */ + for (next_decoded_pict = decoder_next_picture(decoded_pict, + dec_str_ctx->next_dec_pict_id, + &dec_str_ctx->str_decd_pict_list); + next_decoded_pict; + next_decoded_pict = decoder_next_picture(decoded_pict, + dec_str_ctx->next_dec_pict_id, + &dec_str_ctx->str_decd_pict_list)) { + unsigned int i = 0; + struct dec_decoded_pict *display_pict = NULL; + struct dec_decoded_pict *release_pict = NULL; + unsigned char last_to_display_for_seq = FALSE; + + /* + * next_decoded_pict is used to temporarily store decoded_pict + * so that we can clear the bProcessFailed flag before + * returning + */ + decoded_pict = next_decoded_pict; + if (!decoded_pict->force_display) { + struct vdecfw_buffer_control *buf_ctrl = NULL; + + buf_ctrl = (struct vdecfw_buffer_control *) + decoded_pict->pict_ref_res->fw_ctrlbuf.cpu_virt; + + if (buf_ctrl->real_data.width && buf_ctrl->real_data.height) { + /* + * Firmware sets image size as it is in + * bitstream. + */ + picture->dec_pict_info->disp_info.disp_region.width = + buf_ctrl->real_data.width; + picture->dec_pict_info->disp_info.disp_region.height = + buf_ctrl->real_data.height; + picture->dec_pict_info->disp_info.disp_region.top_offset = 0; + picture->dec_pict_info->disp_info.disp_region.left_offset = 0; + + picture->dec_pict_info->rend_info.rend_pict_size.width = + picture->dec_pict_info->disp_info.disp_region.width; + picture->dec_pict_info->rend_info.rend_pict_size.height = + picture->dec_pict_info->disp_info.disp_region.height; + + /* + * Update encoded size with values coded in + * bitstream,so golden image can be loaded + * correctly + */ + picture->dec_pict_info->disp_info.enc_disp_region.width = + buf_ctrl->real_data.width; + picture->dec_pict_info->disp_info.enc_disp_region.height = + buf_ctrl->real_data.height; + } + + decoded_pict->pict->dec_pict_info->timestamp = + buf_ctrl->real_data.timestamp; + decoded_pict->pict->dec_pict_info->disp_info.top_fld_first = + buf_ctrl->top_field_first; + decoded_pict->pict->dec_pict_info->disp_info.top_fld_first = + buf_ctrl->top_field_first; + + decoded_pict->pict->dec_pict_info->id_for_hwcrc_chk = + GET_STREAM_PICTURE_ID(decoded_pict->transaction_id) - 1; + decoded_pict->pict->dec_pict_info->id_for_hwcrc_chk += + dec_str_ctx->dec_str_st.flds_as_frm_decodes; + + if (buf_ctrl->dec_pict_type == IMG_BUFFERTYPE_PAIR && + !buf_ctrl->second_field_of_pair) + dec_str_ctx->dec_str_st.flds_as_frm_decodes++; + + if (buf_ctrl->second_field_of_pair) { + /* + * Second field of pair is always complementary + * type to the eFirstPictTagType of the + * previous picture + */ + unsigned int prev_dec_pict_id = + get_prev_picture_id(GET_STREAM_PICTURE_ID(decoded_pict->transaction_id)); + + prev_decoded_pict = + decoder_get_decoded_pict_of_stream + (prev_dec_pict_id, + &dec_str_ctx->str_decd_pict_list); + if (prev_decoded_pict) { + fld_tag_container = + &prev_decoded_pict->pict->dec_pict_info->second_fld_tag_container; + fld_tag_container->pict_tag_param = + decoded_pict->pict->dec_pict_info->first_fld_tag_container.pict_tag_param; + + /* + * Copy the first field info in the + * proper place + */ + memcpy(&fld_tag_container->pict_hwcrc, + &first_fld_fwmsg->pict_hwcrc, + sizeof(fld_tag_container->pict_hwcrc)); + + /* + * Attach the raw SEI data list for a + * second field to a picture. + */ + prev_decoded_pict->pict->dec_pict_sup_data.raw_sei_list_second_fld = + decoded_pict->pict->dec_pict_sup_data.raw_sei_list_first_fld; + + prev_decoded_pict->pict->dec_pict_info->disp_info.top_fld_first = + buf_ctrl->top_field_first; + + /* Mark this picture as merged fields. */ + prev_decoded_pict->pict->dec_pict_sup_data.merged_flds = + TRUE; + /* Mark the picture that was merged to the previous one. */ + decoded_pict->merged = TRUE; + } else { + pr_warn("[USERSID=0x%08X] [TID 0x%08X] Failed to find decoded picture to attach tag", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); + } + } else { + /* + * Not Second-field-of-pair picture tag + * correlates its Tag to the its type by + * setting the eFirstPictTagType in the + * following way + */ + decoded_pict->pict->dec_pict_info->first_fld_tag_container.pict_type + = + buf_ctrl->dec_pict_type; + memcpy(&picture->dec_pict_info->first_fld_tag_container.pict_hwcrc, + &first_fld_fwmsg->pict_hwcrc, + sizeof + (picture->dec_pict_info->first_fld_tag_container.pict_hwcrc)); + } + + /* + * Update the id of the next picture to process. It has + * to be update always (even if we fail to process) + * This has to be a global flag because it will be + * passed in both decoder_NextPicture (and then to + * DECODER_NextDecPictContiguous inside it) + * and to the corner case check below + */ + dec_str_ctx->next_dec_pict_id = + get_next_picture_id(GET_STREAM_PICTURE_ID + (decoded_pict->transaction_id)); + /* + * Display all the picture in the list that have been + * decoded and signalled by the fw to be displayed + */ + for (i = decoded_pict->disp_idx; + i < buf_ctrl->display_list_length && + !decoded_pict->process_failed; + i++, decoded_pict->disp_idx++) { + /* + * Display picture if it has been decoded + * (i.e. in decoded list). + */ + display_pict = decoder_get_decoded_pict + (buf_ctrl->display_list[i], + &dec_str_ctx->str_decd_pict_list); + if (display_pict) { + if (FLAG_IS_SET(buf_ctrl->display_flags[i], + VDECFW_BUFFLAG_DISPLAY_FIELD_CODED) && + (!FLAG_IS_SET + (buf_ctrl->display_flags[i], + VDECFW_BUFFLAG_DISPLAY_SINGLE_FIELD))) { + display_pict->pict->dec_pict_info->buf_type = + IMG_BUFFERTYPE_PAIR; + if (FLAG_IS_SET + (buf_ctrl->display_flags[i], + VDECFW_BUFFLAG_DISPLAY_INTERLACED_FIELDS)) + display_pict->pict->dec_pict_info->interlaced_flds = + TRUE; + } else if (FLAG_IS_SET + (buf_ctrl->display_flags[i], + VDECFW_BUFFLAG_DISPLAY_FIELD_CODED) && + FLAG_IS_SET + (buf_ctrl->display_flags[i], + VDECFW_BUFFLAG_DISPLAY_SINGLE_FIELD)) { + display_pict->pict->dec_pict_info->buf_type = + FLAG_IS_SET + (buf_ctrl->display_flags[i], + VDECFW_BUFFLAG_DISPLAY_BOTTOM_FIELD) ? + IMG_BUFFERTYPE_FIELD_BOTTOM : + IMG_BUFFERTYPE_FIELD_TOP; + } else { + display_pict->pict->dec_pict_info->buf_type = + IMG_BUFFERTYPE_FRAME; + } + + display_pict->pict->dec_pict_info->view_id = + buf_ctrl->display_view_ids[i]; + + /* + * When no reference pictures are left to + * display and this is the last display + * picture in response to the last decoded + * picture, signal. + */ + if (decoded_pict->pict->last_pict_in_seq && + i == (buf_ctrl->display_list_length - 1)) + last_to_display_for_seq = TRUE; + + if (!display_pict->displayed) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] DISPLAY", + dec_str_ctx->config.user_str_id, + buf_ctrl->display_list[i]); +#endif + display_pict->displayed = TRUE; + pict_id = GET_STREAM_PICTURE_ID + (buf_ctrl->display_list[i]); + + ret = decoder_picture_display + (dec_str_ctx, pict_id, + last_to_display_for_seq); + } + } else { + /* + * In single core scenario should + * not come here. + */ + pr_warn("[USERSID=0x%08X] Failed to find decoded picture [TID = 0x%08X] to send for display", + dec_str_ctx->config.user_str_id, + buf_ctrl->display_list[i]); + } + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + + /* Release all unused pictures (firmware request) */ + for (i = decoded_pict->rel_idx; + i < buf_ctrl->release_list_length && + !decoded_pict->process_failed; + i++, decoded_pict->rel_idx++) { + release_pict = decoder_get_decoded_pict + (buf_ctrl->release_list[i], + &dec_str_ctx->str_decd_pict_list); + if (release_pict) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] RELEASE( ): PIC_ID[%d]", + dec_str_ctx->config.user_str_id, + release_pict->pict->pict_id); +#endif + /* + * Signal releasing this picture to upper + * layers. + */ + decoder_picture_release(dec_str_ctx, + GET_STREAM_PICTURE_ID + (buf_ctrl->release_list[i]), + release_pict->displayed, + release_pict->merged); + if (release_pict->processed) { + /* + * If the decoded picture has been + * processed, destroy now. + */ + ret = decoder_decoded_picture_destroy(dec_str_ctx, + release_pict, + FALSE); + } else { + /* + * If the decoded picture is not + * processed just destroy the + * containing picture. + */ + pict_id = GET_STREAM_PICTURE_ID + (buf_ctrl->release_list[i]); + ret = decoder_picture_destroy(dec_str_ctx, + pict_id, FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + release_pict->pict = NULL; + } + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } else { + /* + * In single core scenario should not + * come here. + */ +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] Failed to find decoded picture [TID = 0x%08X] to release", + dec_str_ctx->config.user_str_id, + buf_ctrl->release_list[i]); +#endif + } + } + } else { + /* Always display the picture if we have no hardware */ + if (!decoded_pict->displayed) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] DISPLAY", + dec_str_ctx->config.user_str_id, + decoded_pict->transaction_id); +#endif + decoded_pict->displayed = TRUE; + ret = decoder_picture_display + (dec_str_ctx, + decoded_pict->pict->pict_id, + decoded_pict->pict->last_pict_in_seq); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + + /* Always release the picture if we have no hardware */ + ret = decoder_picture_destroy(dec_str_ctx, + decoded_pict->pict->pict_id, + FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + decoded_pict->pict = NULL; + } + + /* If we have processed the current picture */ + if (!decoded_pict->process_failed) { + decoded_pict->processed = TRUE; + + /* + * If the current picture has been released then + * remove the container from the decoded list + */ + if (!decoded_pict->pict) { + /* + * Only destroy the decoded picture once it is processed + * and the fw has instructed to release the picture. + */ + ret = decoder_decoded_picture_destroy(dec_str_ctx, + decoded_pict, FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + decoded_pict = NULL; + } /* end if (decoded_pict->pict == NULL) */ + } /* end if (!decoded_pict->process_failed) */ + } /* end for */ + + /* + * Always clear the process_failed flag to ensure that this picture + * will be processed on the next function call + */ + if (decoded_pict) + decoded_pict->process_failed = FALSE; + + /* + * Go through the list of decoded pictures to check if there are any + * pictures left for displaying and that are still not displayed due + * to picture management errors. + * Get the minimum required number of picture buffers. + */ + vdecddutils_ref_pict_get_maxnum(&dec_str_ctx->config, + comseq_hdrinfo, &req_pict_num); + req_pict_num += comseq_hdrinfo->interlaced_frames ? 2 : 1; + + ret = dec_str_ctx->core_query_cb(dec_str_ctx->usr_int_data, + DECODER_CORE_GET_RES_LIMIT, + &res_limit); + + /* Start the procedure only if there is enough resources available. */ + if (res_limit >= req_pict_num) { + /* Allow for one picture buffer for display. */ + res_limit--; + + /* + * Count the number of decoded pictures that were not + * displayed yet. + */ + aux_decoded_pict = dq_first(&dec_str_ctx->str_decd_pict_list); + while (aux_decoded_pict) { + if (aux_decoded_pict->pict) { + dec_pict_num++; + if (!displayed_decoded_pict) + displayed_decoded_pict = + aux_decoded_pict; + } + if (aux_decoded_pict != + dq_last(&dec_str_ctx->str_decd_pict_list)) + aux_decoded_pict = dq_next(aux_decoded_pict); + else + aux_decoded_pict = NULL; + } + } + + /* If there is at least one not displayed picture... */ + if (displayed_decoded_pict) { + /* + * While the number of not displayed decoded pictures exceeds + * the number of maximum allowed number of pictures being held + * by VDEC... + */ + while (dec_pict_num > res_limit) { + pr_warn("[USERSID=0x%08X] Number of outstanding decoded pictures exceeded number of available pictures buffers.", + dec_str_ctx->config.user_str_id); + + if (!displayed_decoded_pict) { + VDEC_ASSERT(0); + return -EINVAL; + } + /* Find the picture with the least picture id. */ + aux_decoded_pict = dq_next(displayed_decoded_pict); + while (aux_decoded_pict) { + if (aux_decoded_pict != + dq_last(&dec_str_ctx->str_decd_pict_list)) { + if (aux_decoded_pict->pict && + aux_decoded_pict->pict->pict_id < + displayed_decoded_pict->pict->pict_id) + displayed_decoded_pict = aux_decoded_pict; + + aux_decoded_pict = dq_next(aux_decoded_pict); + } else { + if (aux_decoded_pict->pict && + aux_decoded_pict->pict->pict_id < + displayed_decoded_pict->pict->pict_id) + displayed_decoded_pict = aux_decoded_pict; + + aux_decoded_pict = NULL; + } + } + + /* Display and release the picture with the least picture id. */ + if (!displayed_decoded_pict->displayed) { + pr_warn("[USERSID=0x%08X] [TID=0x%08X] DISPLAY FORCED", + dec_str_ctx->config.user_str_id, + displayed_decoded_pict->transaction_id); + displayed_decoded_pict->displayed = TRUE; + ret = decoder_picture_display + (dec_str_ctx, + displayed_decoded_pict->pict->pict_id, + displayed_decoded_pict->pict->last_pict_in_seq); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + } + + ret = decoder_picture_destroy(dec_str_ctx, + displayed_decoded_pict->pict->pict_id, + FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + displayed_decoded_pict->pict = NULL; + displayed_decoded_pict->processed = TRUE; + + ret = decoder_decoded_picture_destroy(dec_str_ctx, displayed_decoded_pict, + FALSE); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + displayed_decoded_pict = NULL; + + /* + * Decrease the number of not displayed decoded + * pictures. + */ + dec_pict_num--; + } + } + +#ifdef ERROR_RECOVERY_SIMULATION + /* + * This part of the code should execute only when, DEBUG_FW_ERR_RECOVERY + * flag is enabled. This basically reads the error flag attribute from + * user space to create fake errors for testing the firmware error + * recovery. + */ + if (fw_error_value != VDEC_ERROR_MAX) { + error_flag = error_flag | (1 << fw_error_value); + /* Now lets make it VDEC_ERROR_MAX */ + fw_error_value = VDEC_ERROR_MAX; + } +#endif + + /* + * Whenever the error flag is set, we need to handle the error case. + * Need to forward this error to stream processed callback. + */ + if (error_flag) { + pr_err("%s : %d err_flags: 0x%x\n", __func__, __LINE__, error_flag); + ret = dec_str_ctx->str_processed_cb((void *)dec_str_ctx->usr_int_data, + VXD_CB_ERROR_FATAL, &error_flag); + } + /* + * check for eos on bitstream and propagate the same to picture + * buffer + */ + ctx = dec_str_ctx->vxd_dec_ctx; + ctx->num_decoding--; + if (ctx->eos) { +#ifdef DEBUG_DECODER_DRIVER + pr_info("EOS reached\n"); +#endif + + ret = dec_str_ctx->str_processed_cb((void *)dec_str_ctx->usr_int_data, + VXD_CB_STR_END, NULL); + VDEC_ASSERT(ret == IMG_SUCCESS); + } + + return ret; +} + +/* + * @Function decoder_service_firmware_response + */ +int decoder_service_firmware_response(void *dec_str_ctx_arg, unsigned int *msg, + unsigned int msg_size, unsigned int msg_flags) +{ + int ret = IMG_SUCCESS; + struct dec_decpict *dec_pict = NULL; + unsigned char head_of_queue = TRUE; + struct dec_str_ctx *dec_str_ctx; + struct dec_str_unit *dec_str_unit; + unsigned char pict_start = FALSE; + enum vdecdd_str_unit_type str_unit_type; + struct vdecdd_picture *picture; + struct decoder_pict_fragment *pict_fragment; + struct dec_str_ctx *dec_strctx; + struct dec_core_ctx *dec_core_ctx; + + /* validate input arguments */ + if (!dec_str_ctx_arg || !msg) { + VDEC_ASSERT(0); + return IMG_ERROR_INVALID_PARAMETERS; + } + + dec_strctx = decoder_stream_get_context(dec_str_ctx_arg); + + dec_core_ctx = decoder_str_ctx_to_core_ctx(dec_strctx); + + if (!dec_core_ctx) { + pr_err("%s: dec_core_ctx is NULL\n", __func__); + VDEC_ASSERT(0); + return IMG_ERROR_INVALID_PARAMETERS; + } + + pr_debug("%s : process firmware response\n", __func__); + ret = hwctrl_process_msg(dec_core_ctx->hw_ctx, msg_flags, msg, &dec_pict); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + if (!dec_pict || (dec_pict->state != DECODER_PICTURE_STATE_DECODED && + dec_pict->state != DECODER_PICTURE_STATE_TO_DISCARD)) + return IMG_ERROR_UNEXPECTED_STATE; + + /* + * Try and locate the stream context in the list of active + * streams. + */ + VDEC_ASSERT(dec_core_ctx->dec_ctx); + dec_str_ctx = lst_first(&dec_core_ctx->dec_ctx->str_list); + if (!dec_str_ctx) { + VDEC_ASSERT(0); + return -EINVAL; + } + + while (dec_str_ctx) { + if (dec_str_ctx == dec_pict->dec_str_ctx) + break; + + dec_str_ctx = lst_next(dec_str_ctx); + } + + /* + * If the stream is not in the list of active streams then + * it must have been destroyed. + * This interrupt should be ignored. + */ + if (dec_str_ctx != dec_pict->dec_str_ctx) + return IMG_SUCCESS; + + /* + * Retrieve the picture from the head of the core decode queue + * primarily to obtain the correct stream context. + */ + hwctrl_removefrom_piclist(dec_core_ctx->hw_ctx, dec_pict); + + if (!dec_str_ctx) { + VDEC_ASSERT(0); + return -EINVAL; + } + dec_str_ctx->avail_slots++; + VDEC_ASSERT(dec_str_ctx->avail_slots > 0); + + /* + * Store the stream context of the picture that has been + * decoded. + */ + dec_str_ctx = dec_pict->dec_str_ctx; + VDEC_ASSERT(dec_str_ctx); + + if (!dec_str_ctx) + return IMG_ERROR_UNEXPECTED_STATE; + + /* + * Picture has been discarded before EOP unit, + * recover the decoder to valid state + */ + if (!dec_pict->eop_found) { + VDEC_ASSERT(dec_pict == dec_str_ctx->cur_pict); + + dec_core_ctx->busy = FALSE; + dec_str_ctx->cur_pict = NULL; + } + + /* + * Peek the first stream unit and validate against core + * queue to ensure that this really is the next picture + * for the stream. + */ + dec_str_unit = lst_first(&dec_str_ctx->pend_strunit_list); + if (dec_str_unit) { + if (dec_str_unit->dec_pict != dec_pict) { + head_of_queue = FALSE; + + /* + * For pictures to be decoded + * out-of-order there must be + * more than one decoder core. + */ + VDEC_ASSERT(dec_str_ctx->decctx->num_pipes > 1); + while (dec_str_unit) { + dec_str_unit = lst_next(dec_str_unit); + if (dec_str_unit->dec_pict == dec_pict) + break; + } + } + VDEC_ASSERT(dec_str_unit); + if (!dec_str_unit) + return IMG_ERROR_FATAL; + + VDEC_ASSERT(dec_str_unit->dec_pict == dec_pict); + VDEC_ASSERT(dec_str_unit->str_unit->str_unit_type == + VDECDD_STRUNIT_PICTURE_START); + } + + /* + * Process all units from the pending stream list until + * the next picture start. + */ + while (dec_str_unit && !pict_start) { + /* + * Actually remove the unit now from the + * pending stream list. + */ + lst_remove(&dec_str_ctx->pend_strunit_list, dec_str_unit); + if (!dec_str_unit->str_unit || !dec_pict) + break; + + str_unit_type = dec_str_unit->str_unit->str_unit_type; + + if (str_unit_type != VDECDD_STRUNIT_PICTURE_START) + break; + + dec_str_ctx = dec_pict->dec_str_ctx; + + dec_str_ctx->dec_str_st.num_pict_decoding--; + dec_str_ctx->dec_str_st.total_pict_decoded++; + + ret = idgen_gethandle(dec_str_ctx->pict_idgen, + GET_STREAM_PICTURE_ID(dec_str_unit->dec_pict->transaction_id), + (void **)&picture); + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS || !picture) { + pr_err("[USERSID=0x%08X] Failed to find picture from ID", + dec_str_ctx->config.user_str_id); + return IMG_ERROR_INVALID_ID; + } + + VDEC_ASSERT(picture == dec_str_unit->str_unit->dd_pict_data); + + /* Hold a reference to the last context on the BE */ + if (dec_str_ctx->last_be_pict_dec_res && HAS_X_PASSED_Y + (picture->pict_id, + GET_STREAM_PICTURE_ID(dec_str_ctx->last_be_pict_dec_res->transaction_id), + 1 << FWIF_NUMBITS_STREAM_PICTURE_ID, unsigned int)) { + /* Return previous last FW context. */ + resource_item_return(&dec_str_ctx->last_be_pict_dec_res->ref_cnt); + + if (resource_item_isavailable(&dec_str_ctx->last_be_pict_dec_res->ref_cnt + )) { + resource_list_remove(&dec_str_ctx->dec_res_lst, + dec_str_ctx->last_be_pict_dec_res); + resource_list_add_img(&dec_str_ctx->dec_res_lst, + dec_str_ctx->last_be_pict_dec_res, 0, + &dec_str_ctx->last_be_pict_dec_res->ref_cnt); + } + } + if (!dec_str_ctx->last_be_pict_dec_res || + (dec_str_ctx->last_be_pict_dec_res && HAS_X_PASSED_Y + (picture->pict_id, + GET_STREAM_PICTURE_ID(dec_str_ctx->last_be_pict_dec_res->transaction_id), + 1 << FWIF_NUMBITS_STREAM_PICTURE_ID, unsigned int))) { + /* Hold onto last FW context. */ + dec_str_ctx->last_be_pict_dec_res = dec_pict->cur_pict_dec_res; + resource_item_use(&dec_str_ctx->last_be_pict_dec_res->ref_cnt); + } + resource_item_return(&dec_pict->cur_pict_dec_res->ref_cnt); + + if (resource_item_isavailable(&dec_pict->cur_pict_dec_res->ref_cnt)) { + resource_list_remove(&dec_str_ctx->dec_res_lst, + dec_pict->cur_pict_dec_res); + resource_list_add_img(&dec_str_ctx->dec_res_lst, + dec_pict->cur_pict_dec_res, 0, + &dec_pict->cur_pict_dec_res->ref_cnt); + } +#ifdef DEBUG_DECODER_DRIVER + pr_info("[USERSID=0x%08X] [TID=0x%08X] DECODED", + dec_str_ctx->config.user_str_id, + dec_pict->transaction_id); +#endif + + ret = decoder_picture_decoded(dec_str_ctx, dec_core_ctx, + picture, dec_pict, + dec_pict->pict_hdr_info, + dec_str_unit->str_unit); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) + return ret; + + dec_res_picture_detach(&dec_str_ctx->resources, dec_pict); + + /* Free the segments from the decode picture */ + decoder_clean_bitstr_segments(&dec_pict->dec_pict_seg_list); + + pict_fragment = lst_removehead(&dec_pict->fragment_list); + while (pict_fragment) { + kfree(pict_fragment); + pict_fragment = + lst_removehead(&dec_pict->fragment_list); + } + + pict_start = (!head_of_queue) ? TRUE : FALSE; + + ret = dec_str_ctx->str_processed_cb(dec_str_ctx->usr_int_data, + VXD_CB_STRUNIT_PROCESSED, + dec_str_unit->str_unit); + + VDEC_ASSERT(ret == IMG_SUCCESS); + if (ret != IMG_SUCCESS) { + /* Free decoder picture */ + kfree(dec_pict); + dec_pict = NULL; + return ret; + } + + /* Destroy the Decoder stream unit wrapper */ + kfree(dec_str_unit); + + /* Peek at the next stream unit */ + dec_str_unit = lst_first(&dec_str_ctx->pend_strunit_list); + if (dec_str_unit) + pict_start = (dec_str_unit->str_unit->str_unit_type == + VDECDD_STRUNIT_PICTURE_START && + dec_str_unit->dec_pict != dec_pict); + + /* Free decoder picture */ + kfree(dec_pict); + dec_pict = NULL; + } + + kfree(dec_str_unit); + return ret; +} + +/* + * @Function decoder_is_stream_idle + */ +unsigned char decoder_is_stream_idle(void *dec_str_ctx_handle) +{ + struct dec_str_ctx *dec_str_ctx; + + dec_str_ctx = decoder_stream_get_context(dec_str_ctx_handle); + VDEC_ASSERT(dec_str_ctx); + if (!dec_str_ctx) { + pr_err("Invalid decoder stream context handle!"); + return FALSE; + } + + return lst_empty(&dec_str_ctx->pend_strunit_list); +} diff --git a/drivers/staging/media/vxd/decoder/decoder.h b/drivers/staging/media/vxd/decoder/decoder.h new file mode 100644 index 000000000000..a6595fa785e4 --- /dev/null +++ b/drivers/staging/media/vxd/decoder/decoder.h @@ -0,0 +1,375 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +/* + * VXD Decoder Component header + * + * Copyright (c) Imagination Technologies Ltd. + * Copyright (c) 2021 Texas Instruments Incorporated - http://www.ti.com/ + * + * Authors: + * Sunita Nadampalli + * + * Re-written for upstream + * Sidraya Jayagond + * Prashanth Kumar Amai + */ + +#ifndef __DECODER_H__ +#define __DECODER_H__ + +#include "bspp.h" +#include "dq.h" +#ifdef HAS_JPEG +#include "jpegfw_data.h" +#endif +#include "lst.h" +#include "vdecdd_defs.h" +#include "vdec_defs.h" +#include "vid_buf.h" +#include "vxd_ext.h" +#include "vxd_props.h" +#include "hevcfw_data.h" + +#define MAX_CONCURRENT_STREAMS 16 + +enum dec_pict_states { + DECODER_PICTURE_STATE_TO_DECODE = 0, + DECODER_PICTURE_STATE_DECODED, + DECODER_PICTURE_STATE_TO_DISCARD, + DECODER_PICTURE_STATE_MAX, + DECODER_PICTURE_FORCE32BITS = 0x7FFFFFFFU +}; + +enum dec_res_type { + DECODER_RESTYPE_TRANSACTION = 0, + DECODER_RESTYPE_HDR, + DECODER_RESTYPE_BATCH_MSG, +#ifdef HAS_HEVC + DECODER_RESTYPE_PVDEC_BUF, +#endif + DECODER_RESTYPE_MAX, + DECODER_RESTYPE_FORCE32BITS = 0x7FFFFFFFU +}; + +enum dec_core_query_type { + DECODER_CORE_GET_RES_LIMIT = 0, + DECODER_CORE_FORCE32BITS = 0x7FFFFFFFU +}; + +/* + * @Function pfnRefPicGetMaxNum + * @Description + * This is the prototype for functions calculating the maximum number + * of reference pictures required per video standard. + * + * @Input psComSequHdrInfo : A pointer to the common VSH information + * structure. + * + * @Output pui32MaxRefPicNum : A pointer used to return the maximum number + * of reference frames required. + * + * @Return IMG_RESULT : This function returns either IMG_SUCCESS or + * an error code. + */ +typedef int (*ref_pic_get_maximum)(const struct vdec_comsequ_hdrinfo *comseq_hdr_info, + unsigned int *max_ref_pict_num); + +typedef int (*strunit_processed_cb)(void *handle, int cb_type, void *item); + +typedef int (*core_gen_cb)(void *handle, int query, void *item); + +struct dec_ctx; + +/* + * This structure contains the core context. + * @brief Decoder Core Context + */ +struct dec_core_ctx { + void **link; /* to be part of single linked list */ + struct dec_ctx *dec_ctx; + unsigned char enumerated; + unsigned char master; + unsigned char configured; + unsigned int core_features; + unsigned int pipe_features[VDEC_MAX_PIXEL_PIPES]; + struct vxd_coreprops core_props; + void *resources; + void *hw_ctx; + unsigned int cum_pics; + unsigned char busy; +}; + +struct dec_ctx { + unsigned char inited; + void *user_data; + const struct vdecdd_dd_devconfig *dev_cfg; + unsigned int num_pipes; + struct dec_core_ctx *dec_core_ctx; + struct lst_t str_list; + void *mmu_dev_handle; + void *dev_handle; + struct vidio_ddbufinfo ptd_buf_info; + unsigned char sup_stds[VDEC_STD_MAX]; + unsigned int internal_heap_id; + unsigned int str_cnt; +}; + +/* + * This structure contains the device decode resource (used for decoding and + * held for subsequent decoding). + * @brief Decoder Device Resource + */ +struct dec_pictdec_res { + void **link; /* to be part of single linked list */ + unsigned int transaction_id; + struct vidio_ddbufinfo fw_ctx_buf; + struct vidio_ddbufinfo h264_sgm_buf; + unsigned int ref_cnt; +}; + +struct dec_decpict; + +/* + * + * This structure contains the stream context. + * @brief Decoder Stream Context + */ +struct dec_str_ctx { + void **link; /* to be part of single linked list */ + int km_str_id; + struct vdec_str_configdata config; + struct dec_ctx *decctx; + void *vxd_dec_ctx; + void *usr_int_data; + void *mmu_str_handle; + void *pict_idgen; + struct lst_t pend_strunit_list; + struct dq_linkage_t str_decd_pict_list; + unsigned int num_ref_res; + struct lst_t ref_res_lst; + unsigned int num_dec_res; + struct lst_t dec_res_lst; + unsigned int avail_pipes; + unsigned int avail_slots; + struct vdecdd_decstr_status dec_str_st; + struct vidio_ddbufinfo pvdec_fw_ctx_buf; + unsigned int last_fe_transaction_id; + unsigned int next_dec_pict_id; + unsigned int next_pict_id_expected; + struct dec_pictdec_res *cur_fe_pict_dec_res; + struct dec_pictdec_res *prev_fe_pict_dec_res; + struct dec_pictdec_res *last_be_pict_dec_res; + struct dec_decpict *cur_pict; + void *resources; + strunit_processed_cb str_processed_cb; + core_gen_cb core_query_cb; +}; + +/* + * Resource Structure for DECODER_sDdResourceInfo to be used with pools + */ +struct res_resinfo { + void **link; /* to be part of single linked list */ + void *res; + struct vidio_ddbufinfo *ddbuf_info; +}; + +struct vdecdd_ddstr_ctx; + +/* + * This structure contains the Decoded attributes + * @brief Decoded attributes + */ +struct dec_pict_attrs { + unsigned char first_fld_rcvd; + unsigned int fe_err; + unsigned int no_be_wdt; + unsigned int mbs_dropped; + unsigned int mbs_recovered; + struct vxd_pict_attrs pict_attrs; +}; + +/* + * This union contains firmware contexts. Used to allocate buffers for firmware + * context. + */ +union dec_fw_contexts { + struct h264fw_context_data h264_context; +#ifdef HAS_JPEG + struct jpegfw_context_data jpeg_context; +#endif +#ifdef HAS_HEVC + struct hevcfw_ctx_data hevc_context; +#endif +}; + +/* + * for debug + */ +struct dec_fwmsg { + void **link; + struct dec_pict_attrs pict_attrs; + struct vdec_pict_hwcrc pict_hwcrc; +}; + +/* + * This structure contains the stream decode resource (persistent for + * longer than decoding). + * @brief Decoder Stream Resource + */ +struct dec_pictref_res { + void **link; /* to be part of single linked list */ + struct vidio_ddbufinfo fw_ctrlbuf; + unsigned int ref_cnt; +}; + +/* + * This structure defines the decode picture. + * @brief Decoder Picture + */ +struct dec_decpict { + void **link; + unsigned int transaction_id; + void *dec_str_ctx; + unsigned char twopass; + unsigned char first_fld_rcvd; + struct res_resinfo *transaction_info; + struct res_resinfo *hdr_info; +#ifdef HAS_HEVC + struct res_resinfo *pvdec_info; + unsigned int temporal_out_addr; +#endif + struct vdecdd_ddpict_buf *recon_pict; + struct vdecdd_ddpict_buf *alt_pict; + struct res_resinfo *batch_msginfo; + struct vidio_ddbufinfo *intra_bufinfo; + struct vidio_ddbufinfo *auxline_bufinfo; + struct vidio_ddbufinfo *vlc_tables_bufinfo; + struct vidio_ddbufinfo *vlc_idx_tables_bufinfo; + struct vidio_ddbufinfo *start_code_bufinfo; + struct dec_fwmsg *first_fld_fwmsg; + struct dec_fwmsg *second_fld_fwmsg; + struct bspp_pict_hdr_info *pict_hdr_info; + struct dec_pictdec_res *cur_pict_dec_res; + struct dec_pictdec_res *prev_pict_dec_res; + struct dec_pictref_res *pict_ref_res; + struct lst_t dec_pict_seg_list; + struct lst_t fragment_list; + unsigned char eop_found; + unsigned int operating_op; + unsigned short genc_id; + struct vdecdd_ddbuf_mapinfo **genc_bufs; + struct vdecdd_ddbuf_mapinfo *genc_fragment_buf; + unsigned int ctrl_alloc_bytes; + unsigned int ctrl_alloc_offset; + enum dec_pict_states state; + struct vidio_ddbufinfo *str_pvdec_fw_ctxbuf; +}; + +/* + * + * This structure defines the decode picture reference. + * @brief Decoder Picture Reference + */ +struct dec_str_unit { + void **link; /* to be part of single linked list */ + struct dec_decpict *dec_pict; + struct vdecdd_str_unit *str_unit; +}; + +/* + * This structure defines the decoded picture. + * @brief Decoded Picture + */ +struct dec_decoded_pict { + struct dq_linkage_t link; /* to be part of double linked list */ + unsigned int transaction_id; + unsigned char processed; + unsigned char process_failed; + unsigned char force_display; + unsigned char displayed; + unsigned char merged; + unsigned int disp_idx; + unsigned int rel_idx; + struct vdecdd_picture *pict; + struct dec_fwmsg *first_fld_fwmsg; + struct dec_fwmsg *second_fld_fwmsg; + struct dec_pictref_res *pict_ref_res; +}; + +struct dec_pict_fragment { + void **link; /* to be part of single linked list */ + /* Control allocation size in bytes */ + unsigned int ctrl_alloc_bytes; + /* Control allocation offset in bytes */ + unsigned int ctrl_alloc_offset; +}; + +/* + * This structure contains the pointer to the picture segment. + * All the segments could be added to the list in struct dec_decpict, + * but because list items cannot belong to more than one list this wrapper + * is used which is added in the list sDecPictSegList inside struct dec_decpict + * @brief Decoder Picture Segment + */ +struct dec_decpict_seg { + void **link; /* to be part of single linked list */ + struct bspp_bitstr_seg *bstr_seg; + unsigned char internal_seg; +}; + +struct decoder_regsoffsets { + unsigned int vdmc_cmd_offset; + unsigned int vec_offset; + unsigned int entropy_offset; + unsigned int vec_be_regs_offset; + unsigned int vdec_be_codec_regs_offset; +}; + +int decoder_initialise(void *init_usr_data, unsigned int internal_heap_id, + struct vdecdd_dd_devconfig *dd_devcfg, unsigned int *num_pipes, + void **dec_ctx); + +int decoder_deinitialise(void *dec_ctx); + +int decoder_supported_features(void *dec_ctx, struct vdec_features *features); + +int decoder_stream_destroy(void *dec_str_ctx, unsigned char abort); + +int decoder_stream_create(void *dec_ctx, struct vdec_str_configdata str_cfg, + unsigned int kmstr_id, void **mmu_str_handle, + void *vxd_dec_ctx, void *str_usr_int_data, + void **dec_str_ctx, void *decoder_cb, void *query_cb); + +int decoder_stream_prepare_ctx(void *dec_str_ctx, unsigned char flush_dpb); + +int decoder_stream_process_unit(void *dec_str_ctx, + struct vdecdd_str_unit *str_unit); + +int decoder_get_load(void *dec_str_ctx, unsigned int *avail_slots); + +int +decoder_check_support(void *dec_ctx, + const struct vdec_str_configdata *str_cfg, + const struct vdec_str_opconfig *op_cfg, + const struct vdecdd_ddpict_buf *disp_pictbuf, + const struct vdec_pict_rendinfo *req_pict_rendinfo, + const struct vdec_comsequ_hdrinfo *comseq_hdrinfo, + const struct bspp_pict_hdr_info *pict_hdrinfo, + const struct vdec_comsequ_hdrinfo *prev_comseq_hdrinfo, + const struct bspp_pict_hdr_info *prev_pict_hdrinfo, + unsigned char non_cfg_req, struct vdec_unsupp_flags *unsupported, + unsigned int *features); + +unsigned char decoder_is_stream_idle(void *dec_str_ctx); + +int decoder_stream_flush(void *dec_str_ctx, unsigned char discard_refs); + +int decoder_stream_release_buffers(void *dec_str_ctx); + +int decoder_stream_get_status(void *dec_str_ctx, + struct vdecdd_decstr_status *dec_str_st); + +int decoder_service_firmware_response(void *dec_str_ctx_arg, unsigned int *msg, + unsigned int msg_size, unsigned int msg_flags); + +#endif -- 2.17.1 -- This message contains confidential information and is intended only for the individual(s) named. 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