M7350/kernel/drivers/media/platform/msm/vidc/hfi_packetization.c

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/* Copyright (c) 2012-2015, The Linux Foundation. All rights reserved.
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*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#include <linux/errno.h>
#include <linux/log2.h>
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#include <linux/hash.h>
#include "hfi_packetization.h"
#include "msm_vidc_debug.h"
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/* Set up look-up tables to convert HAL_* to HFI_*.
*
* The tables below mostly take advantage of the fact that most
* HAL_* types are defined bitwise. So if we index them normally
* when declaring the tables, we end up with huge arrays with wasted
* space. So before indexing them, we apply log2 to use a more
* sensible index.
*/
static int profile_table[] = {
[ilog2(HAL_H264_PROFILE_BASELINE)] = HFI_H264_PROFILE_BASELINE,
[ilog2(HAL_H264_PROFILE_MAIN)] = HFI_H264_PROFILE_MAIN,
[ilog2(HAL_H264_PROFILE_HIGH)] = HFI_H264_PROFILE_HIGH,
[ilog2(HAL_H264_PROFILE_CONSTRAINED_BASE)] =
HFI_H264_PROFILE_CONSTRAINED_BASE,
[ilog2(HAL_H264_PROFILE_CONSTRAINED_HIGH)] =
HFI_H264_PROFILE_CONSTRAINED_HIGH,
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[ilog2(HAL_VPX_PROFILE_VERSION_1)] = HFI_VPX_PROFILE_VERSION_1,
[ilog2(HAL_MVC_PROFILE_STEREO_HIGH)] = HFI_H264_PROFILE_STEREO_HIGH,
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};
static int entropy_mode[] = {
[ilog2(HAL_H264_ENTROPY_CAVLC)] = HFI_H264_ENTROPY_CAVLC,
[ilog2(HAL_H264_ENTROPY_CABAC)] = HFI_H264_ENTROPY_CABAC,
};
static int cabac_model[] = {
[ilog2(HAL_H264_CABAC_MODEL_0)] = HFI_H264_CABAC_MODEL_0,
[ilog2(HAL_H264_CABAC_MODEL_1)] = HFI_H264_CABAC_MODEL_1,
[ilog2(HAL_H264_CABAC_MODEL_2)] = HFI_H264_CABAC_MODEL_2,
};
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static int statistics_mode[] = {
[ilog2(HAL_STATISTICS_MODE_DEFAULT)] = HFI_STATISTICS_MODE_DEFAULT,
[ilog2(HAL_STATISTICS_MODE_1)] = HFI_STATISTICS_MODE_1,
[ilog2(HAL_STATISTICS_MODE_2)] = HFI_STATISTICS_MODE_2,
[ilog2(HAL_STATISTICS_MODE_3)] = HFI_STATISTICS_MODE_3,
};
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static int color_format[] = {
[ilog2(HAL_COLOR_FORMAT_MONOCHROME)] = HFI_COLOR_FORMAT_MONOCHROME,
[ilog2(HAL_COLOR_FORMAT_NV12)] = HFI_COLOR_FORMAT_NV12,
[ilog2(HAL_COLOR_FORMAT_NV21)] = HFI_COLOR_FORMAT_NV21,
[ilog2(HAL_COLOR_FORMAT_NV12_4x4TILE)] = HFI_COLOR_FORMAT_NV12_4x4TILE,
[ilog2(HAL_COLOR_FORMAT_NV21_4x4TILE)] = HFI_COLOR_FORMAT_NV21_4x4TILE,
[ilog2(HAL_COLOR_FORMAT_YUYV)] = HFI_COLOR_FORMAT_YUYV,
[ilog2(HAL_COLOR_FORMAT_YVYU)] = HFI_COLOR_FORMAT_YVYU,
[ilog2(HAL_COLOR_FORMAT_UYVY)] = HFI_COLOR_FORMAT_UYVY,
[ilog2(HAL_COLOR_FORMAT_VYUY)] = HFI_COLOR_FORMAT_VYUY,
[ilog2(HAL_COLOR_FORMAT_RGB565)] = HFI_COLOR_FORMAT_RGB565,
[ilog2(HAL_COLOR_FORMAT_BGR565)] = HFI_COLOR_FORMAT_BGR565,
[ilog2(HAL_COLOR_FORMAT_RGB888)] = HFI_COLOR_FORMAT_RGB888,
[ilog2(HAL_COLOR_FORMAT_BGR888)] = HFI_COLOR_FORMAT_BGR888,
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[ilog2(HAL_COLOR_FORMAT_RGBA8888)] = HFI_COLOR_FORMAT_RGBA8888,
/* UBWC Color formats*/
[ilog2(HAL_COLOR_FORMAT_NV12_UBWC)] = HFI_COLOR_FORMAT_NV12_UBWC,
[ilog2(HAL_COLOR_FORMAT_NV12_TP10_UBWC)] =
HFI_COLOR_FORMAT_YUV420_TP10_UBWC,
[ilog2(HAL_COLOR_FORMAT_RGBA8888_UBWC)] =
HFI_COLOR_FORMAT_RGBA8888_UBWC,
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};
static int nal_type[] = {
[ilog2(HAL_NAL_FORMAT_STARTCODES)] = HFI_NAL_FORMAT_STARTCODES,
[ilog2(HAL_NAL_FORMAT_ONE_NAL_PER_BUFFER)] =
HFI_NAL_FORMAT_ONE_NAL_PER_BUFFER,
[ilog2(HAL_NAL_FORMAT_ONE_BYTE_LENGTH)] =
HFI_NAL_FORMAT_ONE_BYTE_LENGTH,
[ilog2(HAL_NAL_FORMAT_TWO_BYTE_LENGTH)] =
HFI_NAL_FORMAT_TWO_BYTE_LENGTH,
[ilog2(HAL_NAL_FORMAT_FOUR_BYTE_LENGTH)] =
HFI_NAL_FORMAT_FOUR_BYTE_LENGTH,
};
static inline int hal_to_hfi_type(int property, int hal_type)
{
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if (hal_type && roundup_pow_of_two(hal_type) != hal_type) {
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/* Not a power of 2, it's not going
* to be in any of the tables anyway */
return -EINVAL;
}
if (hal_type)
hal_type = ilog2(hal_type);
switch (property) {
case HAL_PARAM_PROFILE_LEVEL_CURRENT:
return (hal_type >= ARRAY_SIZE(profile_table)) ?
-ENOTSUPP : profile_table[hal_type];
case HAL_PARAM_VENC_H264_ENTROPY_CONTROL:
return (hal_type >= ARRAY_SIZE(entropy_mode)) ?
-ENOTSUPP : entropy_mode[hal_type];
case HAL_PARAM_VENC_H264_ENTROPY_CABAC_MODEL:
return (hal_type >= ARRAY_SIZE(cabac_model)) ?
-ENOTSUPP : cabac_model[hal_type];
case HAL_PARAM_UNCOMPRESSED_FORMAT_SELECT:
return (hal_type >= ARRAY_SIZE(color_format)) ?
-ENOTSUPP : color_format[hal_type];
case HAL_PARAM_NAL_STREAM_FORMAT_SELECT:
return (hal_type >= ARRAY_SIZE(nal_type)) ?
-ENOTSUPP : nal_type[hal_type];
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case HAL_PARAM_VENC_MBI_STATISTICS_MODE:
return (hal_type >= ARRAY_SIZE(statistics_mode)) ?
-ENOTSUPP : statistics_mode[hal_type];
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default:
return -ENOTSUPP;
}
}
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u32 get_hfi_layout(enum hal_buffer_layout_type hal_buf_layout)
{
u32 hfi_layout;
switch (hal_buf_layout) {
case HAL_BUFFER_LAYOUT_TOP_BOTTOM:
hfi_layout = HFI_MVC_BUFFER_LAYOUT_TOP_BOTTOM;
break;
case HAL_BUFFER_LAYOUT_SEQ:
hfi_layout = HFI_MVC_BUFFER_LAYOUT_SEQ;
break;
default:
dprintk(VIDC_ERR, "Invalid buffer layout: %#x\n",
hal_buf_layout);
hfi_layout = HFI_MVC_BUFFER_LAYOUT_SEQ;
break;
}
return hfi_layout;
}
enum hal_domain vidc_get_hal_domain(u32 hfi_domain)
{
enum hal_domain hal_domain = 0;
switch (hfi_domain) {
case HFI_VIDEO_DOMAIN_VPE:
hal_domain = HAL_VIDEO_DOMAIN_VPE;
break;
case HFI_VIDEO_DOMAIN_ENCODER:
hal_domain = HAL_VIDEO_DOMAIN_ENCODER;
break;
case HFI_VIDEO_DOMAIN_DECODER:
hal_domain = HAL_VIDEO_DOMAIN_DECODER;
break;
default:
dprintk(VIDC_ERR, "%s: invalid domain %x\n",
__func__, hfi_domain);
hal_domain = 0;
break;
}
return hal_domain;
}
enum hal_video_codec vidc_get_hal_codec(u32 hfi_codec)
{
enum hal_video_codec hal_codec = 0;
switch (hfi_codec) {
case HFI_VIDEO_CODEC_H264:
hal_codec = HAL_VIDEO_CODEC_H264;
break;
case HFI_VIDEO_CODEC_H263:
hal_codec = HAL_VIDEO_CODEC_H263;
break;
case HFI_VIDEO_CODEC_MPEG1:
hal_codec = HAL_VIDEO_CODEC_MPEG1;
break;
case HFI_VIDEO_CODEC_MPEG2:
hal_codec = HAL_VIDEO_CODEC_MPEG2;
break;
case HFI_VIDEO_CODEC_MPEG4:
hal_codec = HAL_VIDEO_CODEC_MPEG4;
break;
case HFI_VIDEO_CODEC_DIVX_311:
hal_codec = HAL_VIDEO_CODEC_DIVX_311;
break;
case HFI_VIDEO_CODEC_DIVX:
hal_codec = HAL_VIDEO_CODEC_DIVX;
break;
case HFI_VIDEO_CODEC_VC1:
hal_codec = HAL_VIDEO_CODEC_VC1;
break;
case HFI_VIDEO_CODEC_SPARK:
hal_codec = HAL_VIDEO_CODEC_SPARK;
break;
case HFI_VIDEO_CODEC_VP8:
hal_codec = HAL_VIDEO_CODEC_VP8;
break;
case HFI_VIDEO_CODEC_HEVC:
hal_codec = HAL_VIDEO_CODEC_HEVC;
break;
case HFI_VIDEO_CODEC_VP9:
hal_codec = HAL_VIDEO_CODEC_VP9;
break;
case HFI_VIDEO_CODEC_HEVC_HYBRID:
hal_codec = HAL_VIDEO_CODEC_HEVC_HYBRID;
break;
default:
dprintk(VIDC_INFO, "%s: invalid codec 0x%x\n",
__func__, hfi_codec);
hal_codec = 0;
break;
}
return hal_codec;
}
u32 vidc_get_hfi_domain(enum hal_domain hal_domain)
{
u32 hfi_domain;
switch (hal_domain) {
case HAL_VIDEO_DOMAIN_VPE:
hfi_domain = HFI_VIDEO_DOMAIN_VPE;
break;
case HAL_VIDEO_DOMAIN_ENCODER:
hfi_domain = HFI_VIDEO_DOMAIN_ENCODER;
break;
case HAL_VIDEO_DOMAIN_DECODER:
hfi_domain = HFI_VIDEO_DOMAIN_DECODER;
break;
default:
dprintk(VIDC_ERR, "%s: invalid domain 0x%x\n",
__func__, hal_domain);
hfi_domain = 0;
break;
}
return hfi_domain;
}
u32 vidc_get_hfi_codec(enum hal_video_codec hal_codec)
{
u32 hfi_codec = 0;
switch (hal_codec) {
case HAL_VIDEO_CODEC_MVC:
case HAL_VIDEO_CODEC_H264:
hfi_codec = HFI_VIDEO_CODEC_H264;
break;
case HAL_VIDEO_CODEC_H263:
hfi_codec = HFI_VIDEO_CODEC_H263;
break;
case HAL_VIDEO_CODEC_MPEG1:
hfi_codec = HFI_VIDEO_CODEC_MPEG1;
break;
case HAL_VIDEO_CODEC_MPEG2:
hfi_codec = HFI_VIDEO_CODEC_MPEG2;
break;
case HAL_VIDEO_CODEC_MPEG4:
hfi_codec = HFI_VIDEO_CODEC_MPEG4;
break;
case HAL_VIDEO_CODEC_DIVX_311:
hfi_codec = HFI_VIDEO_CODEC_DIVX_311;
break;
case HAL_VIDEO_CODEC_DIVX:
hfi_codec = HFI_VIDEO_CODEC_DIVX;
break;
case HAL_VIDEO_CODEC_VC1:
hfi_codec = HFI_VIDEO_CODEC_VC1;
break;
case HAL_VIDEO_CODEC_SPARK:
hfi_codec = HFI_VIDEO_CODEC_SPARK;
break;
case HAL_VIDEO_CODEC_VP8:
hfi_codec = HFI_VIDEO_CODEC_VP8;
break;
case HAL_VIDEO_CODEC_HEVC:
hfi_codec = HFI_VIDEO_CODEC_HEVC;
break;
case HAL_VIDEO_CODEC_VP9:
hfi_codec = HFI_VIDEO_CODEC_VP9;
break;
case HAL_VIDEO_CODEC_HEVC_HYBRID:
hfi_codec = HFI_VIDEO_CODEC_HEVC_HYBRID;
break;
default:
dprintk(VIDC_INFO, "%s: invalid codec 0x%x\n",
__func__, hal_codec);
hfi_codec = 0;
break;
}
return hfi_codec;
}
static void create_pkt_enable(void *pkt, u32 type, bool enable)
{
u32 *pkt_header = pkt;
u32 *pkt_type = &pkt_header[0];
struct hfi_enable *hfi_enable = (struct hfi_enable *)&pkt_header[1];
*pkt_type = type;
hfi_enable->enable = enable;
}
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int create_pkt_cmd_sys_init(struct hfi_cmd_sys_init_packet *pkt,
u32 arch_type)
{
int rc = 0;
if (!pkt)
return -EINVAL;
pkt->packet_type = HFI_CMD_SYS_INIT;
pkt->size = sizeof(struct hfi_cmd_sys_init_packet);
pkt->arch_type = arch_type;
return rc;
}
int create_pkt_cmd_sys_pc_prep(struct hfi_cmd_sys_pc_prep_packet *pkt)
{
int rc = 0;
if (!pkt)
return -EINVAL;
pkt->packet_type = HFI_CMD_SYS_PC_PREP;
pkt->size = sizeof(struct hfi_cmd_sys_pc_prep_packet);
return rc;
}
int create_pkt_cmd_sys_idle_indicator(
struct hfi_cmd_sys_set_property_packet *pkt,
u32 enable)
{
struct hfi_enable *hfi;
if (!pkt)
return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_sys_set_property_packet) +
sizeof(struct hfi_enable) + sizeof(u32);
pkt->packet_type = HFI_CMD_SYS_SET_PROPERTY;
pkt->num_properties = 1;
pkt->rg_property_data[0] = HFI_PROPERTY_SYS_IDLE_INDICATOR;
hfi = (struct hfi_enable *) &pkt->rg_property_data[1];
hfi->enable = enable;
return 0;
}
int create_pkt_cmd_sys_debug_config(
struct hfi_cmd_sys_set_property_packet *pkt,
u32 mode)
{
struct hfi_debug_config *hfi;
if (!pkt)
return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_sys_set_property_packet) +
sizeof(struct hfi_debug_config) + sizeof(u32);
pkt->packet_type = HFI_CMD_SYS_SET_PROPERTY;
pkt->num_properties = 1;
pkt->rg_property_data[0] = HFI_PROPERTY_SYS_DEBUG_CONFIG;
hfi = (struct hfi_debug_config *) &pkt->rg_property_data[1];
hfi->debug_config = mode;
hfi->debug_mode = HFI_DEBUG_MODE_QUEUE;
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if (msm_vidc_fw_debug_mode
<= (HFI_DEBUG_MODE_QUEUE | HFI_DEBUG_MODE_QDSS))
hfi->debug_mode = msm_vidc_fw_debug_mode;
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return 0;
}
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int create_pkt_cmd_sys_coverage_config(
struct hfi_cmd_sys_set_property_packet *pkt,
u32 mode)
{
if (!pkt) {
dprintk(VIDC_ERR, "In %s(), No input packet\n", __func__);
return -EINVAL;
}
pkt->size = sizeof(struct hfi_cmd_sys_set_property_packet) +
sizeof(u32);
pkt->packet_type = HFI_CMD_SYS_SET_PROPERTY;
pkt->num_properties = 1;
pkt->rg_property_data[0] = HFI_PROPERTY_SYS_CONFIG_COVERAGE;
pkt->rg_property_data[1] = mode;
dprintk(VIDC_DBG, "Firmware coverage mode %d\n",
pkt->rg_property_data[1]);
return 0;
}
int create_pkt_cmd_sys_set_resource(
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struct hfi_cmd_sys_set_resource_packet *pkt,
struct vidc_resource_hdr *resource_hdr,
void *resource_value)
{
int rc = 0;
if (!pkt || !resource_hdr || !resource_value)
return -EINVAL;
pkt->packet_type = HFI_CMD_SYS_SET_RESOURCE;
pkt->size = sizeof(struct hfi_cmd_sys_set_resource_packet);
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pkt->resource_handle = hash32_ptr(resource_hdr->resource_handle);
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switch (resource_hdr->resource_id) {
case VIDC_RESOURCE_OCMEM:
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case VIDC_RESOURCE_VMEM:
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{
struct hfi_resource_ocmem *hfioc_mem =
(struct hfi_resource_ocmem *)
&pkt->rg_resource_data[0];
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phys_addr_t imem_addr = (phys_addr_t)resource_value;
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pkt->resource_type = HFI_RESOURCE_OCMEM;
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pkt->size += sizeof(struct hfi_resource_ocmem) - sizeof(u32);
hfioc_mem->size = (u32)resource_hdr->size;
hfioc_mem->mem = imem_addr;
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break;
}
default:
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dprintk(VIDC_ERR, "Invalid resource_id %d\n",
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resource_hdr->resource_id);
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rc = -ENOTSUPP;
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}
return rc;
}
int create_pkt_cmd_sys_release_resource(
struct hfi_cmd_sys_release_resource_packet *pkt,
struct vidc_resource_hdr *resource_hdr)
{
int rc = 0;
if (!pkt)
return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_sys_release_resource_packet);
pkt->packet_type = HFI_CMD_SYS_RELEASE_RESOURCE;
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pkt->resource_handle = hash32_ptr(resource_hdr->resource_handle);
switch (resource_hdr->resource_id) {
case VIDC_RESOURCE_OCMEM:
case VIDC_RESOURCE_VMEM:
pkt->resource_type = HFI_RESOURCE_OCMEM;
break;
default:
dprintk(VIDC_ERR, "Invalid resource_id %d\n",
resource_hdr->resource_id);
rc = -ENOTSUPP;
}
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return rc;
}
int create_pkt_cmd_sys_ping(struct hfi_cmd_sys_ping_packet *pkt)
{
int rc = 0;
if (!pkt)
return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_sys_ping_packet);
pkt->packet_type = HFI_CMD_SYS_PING;
return rc;
}
inline int create_pkt_cmd_sys_session_init(
struct hfi_cmd_sys_session_init_packet *pkt,
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struct hal_session *session,
u32 session_domain, u32 session_codec)
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{
int rc = 0;
if (!pkt)
return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_sys_session_init_packet);
pkt->packet_type = HFI_CMD_SYS_SESSION_INIT;
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pkt->session_id = hash32_ptr(session);
pkt->session_domain = vidc_get_hfi_domain(session_domain);
pkt->session_codec = vidc_get_hfi_codec(session_codec);
if (!pkt->session_codec)
return -EINVAL;
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return rc;
}
int create_pkt_cmd_session_cmd(struct vidc_hal_session_cmd_pkt *pkt,
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int pkt_type, struct hal_session *session)
{
int rc = 0;
if (!pkt)
return -EINVAL;
/*
* Legacy packetization should skip sending any 3xx specific session
* cmds. Add 3xx specific packetization to the switch case below.
*/
switch (pkt_type) {
case HFI_CMD_SESSION_CONTINUE:
dprintk(VIDC_INFO,
"%s - skip sending %x for legacy hfi\n",
__func__, pkt_type);
return -EPERM;
default:
break;
}
pkt->size = sizeof(struct vidc_hal_session_cmd_pkt);
pkt->packet_type = pkt_type;
pkt->session_id = hash32_ptr(session);
return rc;
}
int create_3x_pkt_cmd_session_cmd(struct vidc_hal_session_cmd_pkt *pkt,
int pkt_type, struct hal_session *session)
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{
int rc = 0;
if (!pkt)
return -EINVAL;
pkt->size = sizeof(struct vidc_hal_session_cmd_pkt);
pkt->packet_type = pkt_type;
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pkt->session_id = hash32_ptr(session);
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return rc;
}
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int create_pkt_cmd_sys_power_control(
struct hfi_cmd_sys_set_property_packet *pkt, u32 enable)
{
struct hfi_enable *hfi;
if (!pkt) {
dprintk(VIDC_ERR, "No input packet\n");
return -EINVAL;
}
pkt->size = sizeof(struct hfi_cmd_sys_set_property_packet) +
sizeof(struct hfi_enable) + sizeof(u32);
pkt->packet_type = HFI_CMD_SYS_SET_PROPERTY;
pkt->num_properties = 1;
pkt->rg_property_data[0] = HFI_PROPERTY_SYS_CODEC_POWER_PLANE_CTRL;
hfi = (struct hfi_enable *) &pkt->rg_property_data[1];
hfi->enable = enable;
return 0;
}
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static u32 get_hfi_buffer(int hal_buffer)
{
u32 buffer;
switch (hal_buffer) {
case HAL_BUFFER_INPUT:
buffer = HFI_BUFFER_INPUT;
break;
case HAL_BUFFER_OUTPUT:
buffer = HFI_BUFFER_OUTPUT;
break;
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case HAL_BUFFER_OUTPUT2:
buffer = HFI_BUFFER_OUTPUT2;
break;
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case HAL_BUFFER_EXTRADATA_INPUT:
buffer = HFI_BUFFER_EXTRADATA_INPUT;
break;
case HAL_BUFFER_EXTRADATA_OUTPUT:
buffer = HFI_BUFFER_EXTRADATA_OUTPUT;
break;
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case HAL_BUFFER_EXTRADATA_OUTPUT2:
buffer = HFI_BUFFER_EXTRADATA_OUTPUT2;
break;
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case HAL_BUFFER_INTERNAL_SCRATCH:
buffer = HFI_BUFFER_INTERNAL_SCRATCH;
break;
case HAL_BUFFER_INTERNAL_SCRATCH_1:
buffer = HFI_BUFFER_INTERNAL_SCRATCH_1;
break;
case HAL_BUFFER_INTERNAL_SCRATCH_2:
buffer = HFI_BUFFER_INTERNAL_SCRATCH_2;
break;
case HAL_BUFFER_INTERNAL_PERSIST:
buffer = HFI_BUFFER_INTERNAL_PERSIST;
break;
case HAL_BUFFER_INTERNAL_PERSIST_1:
buffer = HFI_BUFFER_INTERNAL_PERSIST_1;
break;
default:
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dprintk(VIDC_ERR, "Invalid buffer: %#x\n",
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hal_buffer);
buffer = 0;
break;
}
return buffer;
}
static int get_hfi_extradata_index(enum hal_extradata_id index)
{
int ret = 0;
switch (index) {
case HAL_EXTRADATA_MB_QUANTIZATION:
ret = HFI_PROPERTY_PARAM_VDEC_MB_QUANTIZATION;
break;
case HAL_EXTRADATA_INTERLACE_VIDEO:
ret = HFI_PROPERTY_PARAM_VDEC_INTERLACE_VIDEO_EXTRADATA;
break;
case HAL_EXTRADATA_VC1_FRAMEDISP:
ret = HFI_PROPERTY_PARAM_VDEC_VC1_FRAMEDISP_EXTRADATA;
break;
case HAL_EXTRADATA_VC1_SEQDISP:
ret = HFI_PROPERTY_PARAM_VDEC_VC1_SEQDISP_EXTRADATA;
break;
case HAL_EXTRADATA_TIMESTAMP:
ret = HFI_PROPERTY_PARAM_VDEC_TIMESTAMP_EXTRADATA;
break;
case HAL_EXTRADATA_S3D_FRAME_PACKING:
ret = HFI_PROPERTY_PARAM_S3D_FRAME_PACKING_EXTRADATA;
break;
case HAL_EXTRADATA_FRAME_RATE:
ret = HFI_PROPERTY_PARAM_VDEC_FRAME_RATE_EXTRADATA;
break;
case HAL_EXTRADATA_PANSCAN_WINDOW:
ret = HFI_PROPERTY_PARAM_VDEC_PANSCAN_WNDW_EXTRADATA;
break;
case HAL_EXTRADATA_RECOVERY_POINT_SEI:
ret = HFI_PROPERTY_PARAM_VDEC_RECOVERY_POINT_SEI_EXTRADATA;
break;
case HAL_EXTRADATA_MULTISLICE_INFO:
ret = HFI_PROPERTY_PARAM_VENC_MULTI_SLICE_INFO;
break;
case HAL_EXTRADATA_NUM_CONCEALED_MB:
ret = HFI_PROPERTY_PARAM_VDEC_NUM_CONCEALED_MB;
break;
case HAL_EXTRADATA_ASPECT_RATIO:
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case HAL_EXTRADATA_INPUT_CROP:
case HAL_EXTRADATA_DIGITAL_ZOOM:
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ret = HFI_PROPERTY_PARAM_INDEX_EXTRADATA;
break;
case HAL_EXTRADATA_MPEG2_SEQDISP:
ret = HFI_PROPERTY_PARAM_VDEC_MPEG2_SEQDISP_EXTRADATA;
break;
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case HAL_EXTRADATA_STREAM_USERDATA:
ret = HFI_PROPERTY_PARAM_VDEC_STREAM_USERDATA_EXTRADATA;
break;
case HAL_EXTRADATA_FRAME_QP:
ret = HFI_PROPERTY_PARAM_VDEC_FRAME_QP_EXTRADATA;
break;
case HAL_EXTRADATA_FRAME_BITS_INFO:
ret = HFI_PROPERTY_PARAM_VDEC_FRAME_BITS_INFO_EXTRADATA;
break;
case HAL_EXTRADATA_LTR_INFO:
ret = HFI_PROPERTY_PARAM_VENC_LTR_INFO;
break;
case HAL_EXTRADATA_METADATA_MBI:
ret = HFI_PROPERTY_PARAM_VENC_MBI_DUMPING;
break;
case HAL_EXTRADATA_VQZIP_SEI:
ret = HFI_PROPERTY_PARAM_VDEC_VQZIP_SEI_EXTRADATA;
break;
case HAL_EXTRADATA_YUV_STATS:
ret = HFI_PROPERTY_PARAM_VENC_YUVSTAT_INFO_EXTRADATA;
break;
case HAL_EXTRADATA_ROI_QP:
ret = HFI_PROPERTY_PARAM_VENC_ROI_QP_EXTRADATA;
break;
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default:
dprintk(VIDC_WARN, "Extradata index not found: %d\n", index);
break;
}
return ret;
}
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static int get_hfi_extradata_id(enum hal_extradata_id index)
{
int ret = 0;
switch (index) {
case HAL_EXTRADATA_ASPECT_RATIO:
ret = MSM_VIDC_EXTRADATA_ASPECT_RATIO;
break;
case HAL_EXTRADATA_INPUT_CROP:
ret = MSM_VIDC_EXTRADATA_INPUT_CROP;
break;
case HAL_EXTRADATA_DIGITAL_ZOOM:
ret = MSM_VIDC_EXTRADATA_DIGITAL_ZOOM;
break;
default:
ret = get_hfi_extradata_index(index);
break;
}
return ret;
}
static u32 get_hfi_buf_mode(enum buffer_mode_type hal_buf_mode)
{
u32 buf_mode;
switch (hal_buf_mode) {
case HAL_BUFFER_MODE_STATIC:
buf_mode = HFI_BUFFER_MODE_STATIC;
break;
case HAL_BUFFER_MODE_RING:
buf_mode = HFI_BUFFER_MODE_RING;
break;
case HAL_BUFFER_MODE_DYNAMIC:
buf_mode = HFI_BUFFER_MODE_DYNAMIC;
break;
default:
dprintk(VIDC_ERR, "Invalid buffer mode: %#x\n",
hal_buf_mode);
buf_mode = 0;
break;
}
return buf_mode;
}
static u32 get_hfi_ltr_mode(enum ltr_mode ltr_mode_type)
{
u32 ltrmode;
switch (ltr_mode_type) {
case HAL_LTR_MODE_DISABLE:
ltrmode = HFI_LTR_MODE_DISABLE;
break;
case HAL_LTR_MODE_MANUAL:
ltrmode = HFI_LTR_MODE_MANUAL;
break;
case HAL_LTR_MODE_PERIODIC:
ltrmode = HFI_LTR_MODE_PERIODIC;
break;
default:
dprintk(VIDC_ERR, "Invalid ltr mode: %#x\n",
ltr_mode_type);
ltrmode = HFI_LTR_MODE_DISABLE;
break;
}
return ltrmode;
}
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int create_pkt_cmd_session_set_buffers(
struct hfi_cmd_session_set_buffers_packet *pkt,
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struct hal_session *session,
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struct vidc_buffer_addr_info *buffer_info)
{
int rc = 0;
int i = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->packet_type = HFI_CMD_SESSION_SET_BUFFERS;
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pkt->session_id = hash32_ptr(session);
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pkt->buffer_size = buffer_info->buffer_size;
pkt->min_buffer_size = buffer_info->buffer_size;
pkt->num_buffers = buffer_info->num_buffers;
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if (buffer_info->buffer_type == HAL_BUFFER_OUTPUT ||
buffer_info->buffer_type == HAL_BUFFER_OUTPUT2) {
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struct hfi_buffer_info *buff;
pkt->extra_data_size = buffer_info->extradata_size;
pkt->size = sizeof(struct hfi_cmd_session_set_buffers_packet) -
sizeof(u32) + (buffer_info->num_buffers *
sizeof(struct hfi_buffer_info));
buff = (struct hfi_buffer_info *) pkt->rg_buffer_info;
for (i = 0; i < pkt->num_buffers; i++) {
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buff->buffer_addr =
(u32)buffer_info->align_device_addr;
buff->extra_data_addr =
(u32)buffer_info->extradata_addr;
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}
} else {
pkt->extra_data_size = 0;
pkt->size = sizeof(struct hfi_cmd_session_set_buffers_packet) +
((buffer_info->num_buffers - 1) * sizeof(u32));
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for (i = 0; i < pkt->num_buffers; i++) {
pkt->rg_buffer_info[i] =
(u32)buffer_info->align_device_addr;
}
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}
pkt->buffer_type = get_hfi_buffer(buffer_info->buffer_type);
if (!pkt->buffer_type)
return -EINVAL;
return rc;
}
int create_pkt_cmd_session_release_buffers(
struct hfi_cmd_session_release_buffer_packet *pkt,
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struct hal_session *session,
struct vidc_buffer_addr_info *buffer_info)
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{
int rc = 0;
int i = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->packet_type = HFI_CMD_SESSION_RELEASE_BUFFERS;
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pkt->session_id = hash32_ptr(session);
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pkt->buffer_size = buffer_info->buffer_size;
pkt->num_buffers = buffer_info->num_buffers;
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if (buffer_info->buffer_type == HAL_BUFFER_OUTPUT ||
buffer_info->buffer_type == HAL_BUFFER_OUTPUT2) {
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struct hfi_buffer_info *buff;
buff = (struct hfi_buffer_info *) pkt->rg_buffer_info;
for (i = 0; i < pkt->num_buffers; i++) {
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buff->buffer_addr =
(u32)buffer_info->align_device_addr;
buff->extra_data_addr =
(u32)buffer_info->extradata_addr;
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}
pkt->size = sizeof(struct hfi_cmd_session_set_buffers_packet) -
sizeof(u32) + (buffer_info->num_buffers *
sizeof(struct hfi_buffer_info));
} else {
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for (i = 0; i < pkt->num_buffers; i++) {
pkt->rg_buffer_info[i] =
(u32)buffer_info->align_device_addr;
}
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pkt->extra_data_size = 0;
pkt->size = sizeof(struct hfi_cmd_session_set_buffers_packet) +
((buffer_info->num_buffers - 1) * sizeof(u32));
}
pkt->response_req = buffer_info->response_required;
pkt->buffer_type = get_hfi_buffer(buffer_info->buffer_type);
if (!pkt->buffer_type)
return -EINVAL;
return rc;
}
int create_pkt_cmd_session_etb_decoder(
struct hfi_cmd_session_empty_buffer_compressed_packet *pkt,
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struct hal_session *session, struct vidc_frame_data *input_frame)
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{
int rc = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->size =
sizeof(struct hfi_cmd_session_empty_buffer_compressed_packet);
pkt->packet_type = HFI_CMD_SESSION_EMPTY_BUFFER;
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pkt->session_id = hash32_ptr(session);
pkt->time_stamp_hi = upper_32_bits(input_frame->timestamp);
pkt->time_stamp_lo = lower_32_bits(input_frame->timestamp);
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pkt->flags = input_frame->flags;
pkt->mark_target = input_frame->mark_target;
pkt->mark_data = input_frame->mark_data;
pkt->offset = input_frame->offset;
pkt->alloc_len = input_frame->alloc_len;
pkt->filled_len = input_frame->filled_len;
pkt->input_tag = input_frame->clnt_data;
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pkt->packet_buffer = (u32)input_frame->device_addr;
trace_msm_v4l2_vidc_buffer_event_start("ETB",
input_frame->device_addr, input_frame->timestamp,
input_frame->alloc_len, input_frame->filled_len,
input_frame->offset);
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if (!pkt->packet_buffer)
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rc = -EINVAL;
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return rc;
}
int create_pkt_cmd_session_etb_encoder(
struct hfi_cmd_session_empty_buffer_uncompressed_plane0_packet *pkt,
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struct hal_session *session, struct vidc_frame_data *input_frame)
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{
int rc = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->size = sizeof(struct
hfi_cmd_session_empty_buffer_uncompressed_plane0_packet);
pkt->packet_type = HFI_CMD_SESSION_EMPTY_BUFFER;
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pkt->session_id = hash32_ptr(session);
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pkt->view_id = 0;
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pkt->time_stamp_hi = upper_32_bits(input_frame->timestamp);
pkt->time_stamp_lo = lower_32_bits(input_frame->timestamp);
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pkt->flags = input_frame->flags;
pkt->mark_target = input_frame->mark_target;
pkt->mark_data = input_frame->mark_data;
pkt->offset = input_frame->offset;
pkt->alloc_len = input_frame->alloc_len;
pkt->filled_len = input_frame->filled_len;
pkt->input_tag = input_frame->clnt_data;
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pkt->packet_buffer = (u32)input_frame->device_addr;
pkt->extra_data_buffer = (u32)input_frame->extradata_addr;
trace_msm_v4l2_vidc_buffer_event_start("ETB",
input_frame->device_addr, input_frame->timestamp,
input_frame->alloc_len, input_frame->filled_len,
input_frame->offset);
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if (!pkt->packet_buffer)
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rc = -EINVAL;
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return rc;
}
int create_pkt_cmd_session_ftb(struct hfi_cmd_session_fill_buffer_packet *pkt,
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struct hal_session *session,
struct vidc_frame_data *output_frame)
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{
int rc = 0;
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if (!pkt || !session || !output_frame)
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return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_fill_buffer_packet);
pkt->packet_type = HFI_CMD_SESSION_FILL_BUFFER;
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pkt->session_id = hash32_ptr(session);
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if (output_frame->buffer_type == HAL_BUFFER_OUTPUT)
pkt->stream_id = 0;
else if (output_frame->buffer_type == HAL_BUFFER_OUTPUT2)
pkt->stream_id = 1;
if (!output_frame->device_addr)
return -EINVAL;
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pkt->packet_buffer = (u32)output_frame->device_addr;
pkt->extra_data_buffer = (u32)output_frame->extradata_addr;
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pkt->alloc_len = output_frame->alloc_len;
pkt->filled_len = output_frame->filled_len;
pkt->offset = output_frame->offset;
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pkt->rgData[0] = output_frame->extradata_size;
trace_msm_v4l2_vidc_buffer_event_start("FTB",
output_frame->device_addr, output_frame->timestamp,
output_frame->alloc_len, output_frame->filled_len,
output_frame->offset);
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dprintk(VIDC_DBG, "### Q OUTPUT BUFFER ###: %d, %d, %d\n",
pkt->alloc_len, pkt->filled_len, pkt->offset);
return rc;
}
int create_pkt_cmd_session_parse_seq_header(
struct hfi_cmd_session_parse_sequence_header_packet *pkt,
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struct hal_session *session, struct vidc_seq_hdr *seq_hdr)
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{
int rc = 0;
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if (!pkt || !session || !seq_hdr)
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return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_parse_sequence_header_packet);
pkt->packet_type = HFI_CMD_SESSION_PARSE_SEQUENCE_HEADER;
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pkt->session_id = hash32_ptr(session);
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pkt->header_len = seq_hdr->seq_hdr_len;
if (!seq_hdr->seq_hdr)
return -EINVAL;
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pkt->packet_buffer = (u32)seq_hdr->seq_hdr;
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return rc;
}
int create_pkt_cmd_session_get_seq_hdr(
struct hfi_cmd_session_get_sequence_header_packet *pkt,
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struct hal_session *session, struct vidc_seq_hdr *seq_hdr)
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{
int rc = 0;
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if (!pkt || !session || !seq_hdr)
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return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_get_sequence_header_packet);
pkt->packet_type = HFI_CMD_SESSION_GET_SEQUENCE_HEADER;
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pkt->session_id = hash32_ptr(session);
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pkt->buffer_len = seq_hdr->seq_hdr_len;
if (!seq_hdr->seq_hdr)
return -EINVAL;
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pkt->packet_buffer = (u32)seq_hdr->seq_hdr;
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return rc;
}
int create_pkt_cmd_session_get_buf_req(
struct hfi_cmd_session_get_property_packet *pkt,
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struct hal_session *session)
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{
int rc = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_get_property_packet);
pkt->packet_type = HFI_CMD_SESSION_GET_PROPERTY;
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pkt->session_id = hash32_ptr(session);
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pkt->num_properties = 1;
pkt->rg_property_data[0] = HFI_PROPERTY_CONFIG_BUFFER_REQUIREMENTS;
return rc;
}
int create_pkt_cmd_session_flush(struct hfi_cmd_session_flush_packet *pkt,
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struct hal_session *session, enum hal_flush flush_mode)
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{
int rc = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_flush_packet);
pkt->packet_type = HFI_CMD_SESSION_FLUSH;
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pkt->session_id = hash32_ptr(session);
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switch (flush_mode) {
case HAL_FLUSH_INPUT:
pkt->flush_type = HFI_FLUSH_INPUT;
break;
case HAL_FLUSH_OUTPUT:
pkt->flush_type = HFI_FLUSH_OUTPUT;
break;
case HAL_FLUSH_ALL:
pkt->flush_type = HFI_FLUSH_ALL;
break;
default:
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dprintk(VIDC_ERR, "Invalid flush mode: %#x\n", flush_mode);
return -EINVAL;
}
return rc;
}
int create_pkt_cmd_session_get_property(
struct hfi_cmd_session_get_property_packet *pkt,
struct hal_session *session, enum hal_property ptype)
{
int rc = 0;
if (!pkt || !session) {
dprintk(VIDC_ERR, "%s Invalid parameters\n", __func__);
return -EINVAL;
}
pkt->size = sizeof(struct hfi_cmd_session_get_property_packet);
pkt->packet_type = HFI_CMD_SESSION_GET_PROPERTY;
pkt->session_id = hash32_ptr(session);
pkt->num_properties = 1;
switch (ptype) {
case HAL_PARAM_PROFILE_LEVEL_CURRENT:
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_PROFILE_LEVEL_CURRENT;
break;
default:
dprintk(VIDC_ERR, "%s cmd:%#x not supported\n", __func__,
ptype);
rc = -EINVAL;
break;
}
return rc;
}
int create_3x_pkt_cmd_session_get_property(
struct hfi_cmd_session_get_property_packet *pkt,
struct hal_session *session, enum hal_property ptype)
{
int rc = 0;
if (!pkt || !session) {
dprintk(VIDC_ERR, "%s Invalid parameters\n", __func__);
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return -EINVAL;
}
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pkt->size = sizeof(struct hfi_cmd_session_get_property_packet);
pkt->packet_type = HFI_CMD_SESSION_GET_PROPERTY;
pkt->session_id = hash32_ptr(session);
pkt->num_properties = 1;
switch (ptype) {
case HAL_CONFIG_VDEC_ENTROPY:
pkt->rg_property_data[0] = HFI_PROPERTY_CONFIG_VDEC_ENTROPY;
break;
default:
rc = create_pkt_cmd_session_get_property(pkt,
session, ptype);
}
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return rc;
}
int create_pkt_cmd_session_set_property(
struct hfi_cmd_session_set_property_packet *pkt,
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struct hal_session *session,
enum hal_property ptype, void *pdata)
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{
int rc = 0;
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if (!pkt || !session)
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return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_set_property_packet);
pkt->packet_type = HFI_CMD_SESSION_SET_PROPERTY;
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pkt->session_id = hash32_ptr(session);
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pkt->num_properties = 1;
switch (ptype) {
case HAL_CONFIG_FRAME_RATE:
{
u32 buffer_type;
struct hfi_frame_rate *hfi;
struct hal_frame_rate *prop = (struct hal_frame_rate *) pdata;
pkt->rg_property_data[0] = HFI_PROPERTY_CONFIG_FRAME_RATE;
hfi = (struct hfi_frame_rate *) &pkt->rg_property_data[1];
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
hfi->frame_rate = prop->frame_rate;
pkt->size += sizeof(u32) + sizeof(struct hfi_frame_rate);
break;
}
case HAL_PARAM_UNCOMPRESSED_FORMAT_SELECT:
{
u32 buffer_type;
struct hfi_uncompressed_format_select *hfi;
struct hal_uncompressed_format_select *prop =
(struct hal_uncompressed_format_select *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_UNCOMPRESSED_FORMAT_SELECT;
hfi = (struct hfi_uncompressed_format_select *)
&pkt->rg_property_data[1];
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
hfi->format = hal_to_hfi_type(
HAL_PARAM_UNCOMPRESSED_FORMAT_SELECT,
prop->format);
pkt->size += sizeof(u32) +
sizeof(struct hfi_uncompressed_format_select);
break;
}
case HAL_PARAM_UNCOMPRESSED_PLANE_ACTUAL_CONSTRAINTS_INFO:
break;
case HAL_PARAM_UNCOMPRESSED_PLANE_ACTUAL_INFO:
break;
case HAL_PARAM_EXTRA_DATA_HEADER_CONFIG:
break;
case HAL_PARAM_FRAME_SIZE:
{
struct hfi_frame_size *hfi;
struct hal_frame_size *prop = (struct hal_frame_size *) pdata;
u32 buffer_type;
pkt->rg_property_data[0] = HFI_PROPERTY_PARAM_FRAME_SIZE;
hfi = (struct hfi_frame_size *) &pkt->rg_property_data[1];
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
hfi->height = prop->height;
hfi->width = prop->width;
pkt->size += sizeof(u32) + sizeof(struct hfi_frame_size);
break;
}
case HAL_CONFIG_REALTIME:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_CONFIG_REALTIME,
(((struct hal_enable *) pdata)->enable));
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_BUFFER_COUNT_ACTUAL:
{
struct hfi_buffer_count_actual *hfi;
struct hal_buffer_count_actual *prop =
(struct hal_buffer_count_actual *) pdata;
u32 buffer_type;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_BUFFER_COUNT_ACTUAL;
hfi = (struct hfi_buffer_count_actual *)
&pkt->rg_property_data[1];
hfi->buffer_count_actual = prop->buffer_count_actual;
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
pkt->size += sizeof(u32) + sizeof(struct
hfi_buffer_count_actual);
break;
}
case HAL_PARAM_NAL_STREAM_FORMAT_SELECT:
{
struct hfi_nal_stream_format_select *hfi;
struct hal_nal_stream_format_select *prop =
(struct hal_nal_stream_format_select *)pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_NAL_STREAM_FORMAT_SELECT;
hfi = (struct hfi_nal_stream_format_select *)
&pkt->rg_property_data[1];
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dprintk(VIDC_DBG, "data is :%d\n",
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prop->nal_stream_format_select);
hfi->nal_stream_format_select = hal_to_hfi_type(
HAL_PARAM_NAL_STREAM_FORMAT_SELECT,
prop->nal_stream_format_select);
pkt->size += sizeof(u32) +
sizeof(struct hfi_nal_stream_format_select);
break;
}
case HAL_PARAM_VDEC_OUTPUT_ORDER:
{
int *data = (int *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VDEC_OUTPUT_ORDER;
switch (*data) {
case HAL_OUTPUT_ORDER_DECODE:
pkt->rg_property_data[1] = HFI_OUTPUT_ORDER_DECODE;
break;
case HAL_OUTPUT_ORDER_DISPLAY:
pkt->rg_property_data[1] = HFI_OUTPUT_ORDER_DISPLAY;
break;
default:
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dprintk(VIDC_ERR, "invalid output order: %#x\n",
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*data);
break;
}
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VDEC_PICTURE_TYPE_DECODE:
{
struct hfi_enable_picture *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VDEC_PICTURE_TYPE_DECODE;
hfi = (struct hfi_enable_picture *) &pkt->rg_property_data[1];
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hfi->picture_type =
((struct hfi_enable_picture *)pdata)->picture_type;
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VDEC_OUTPUT2_KEEP_ASPECT_RATIO:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VDEC_OUTPUT2_KEEP_ASPECT_RATIO,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VDEC_POST_LOOP_DEBLOCKER:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_CONFIG_VDEC_POST_LOOP_DEBLOCKER,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VDEC_MULTI_STREAM:
{
struct hfi_multi_stream *hfi;
struct hal_multi_stream *prop =
(struct hal_multi_stream *) pdata;
u32 buffer_type;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VDEC_MULTI_STREAM;
hfi = (struct hfi_multi_stream *) &pkt->rg_property_data[1];
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
hfi->enable = prop->enable;
hfi->width = prop->width;
hfi->height = prop->height;
pkt->size += sizeof(u32) + sizeof(struct hfi_multi_stream);
break;
}
case HAL_PARAM_VDEC_DISPLAY_PICTURE_BUFFER_COUNT:
{
struct hfi_display_picture_buffer_count *hfi;
struct hal_display_picture_buffer_count *prop =
(struct hal_display_picture_buffer_count *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VDEC_DISPLAY_PICTURE_BUFFER_COUNT;
hfi = (struct hfi_display_picture_buffer_count *)
&pkt->rg_property_data[1];
hfi->count = prop->count;
hfi->enable = prop->enable;
pkt->size += sizeof(u32) +
sizeof(struct hfi_display_picture_buffer_count);
break;
}
case HAL_PARAM_DIVX_FORMAT:
{
int *data = pdata;
pkt->rg_property_data[0] = HFI_PROPERTY_PARAM_DIVX_FORMAT;
switch (*data) {
case HAL_DIVX_FORMAT_4:
pkt->rg_property_data[1] = HFI_DIVX_FORMAT_4;
break;
case HAL_DIVX_FORMAT_5:
pkt->rg_property_data[1] = HFI_DIVX_FORMAT_5;
break;
case HAL_DIVX_FORMAT_6:
pkt->rg_property_data[1] = HFI_DIVX_FORMAT_6;
break;
default:
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dprintk(VIDC_ERR, "Invalid divx format: %#x\n", *data);
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break;
}
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VDEC_MB_ERROR_MAP_REPORTING:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_CONFIG_VDEC_MB_ERROR_MAP_REPORTING,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VDEC_CONTINUE_DATA_TRANSFER:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VDEC_CONTINUE_DATA_TRANSFER,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VDEC_SYNC_FRAME_DECODE:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VDEC_THUMBNAIL_MODE,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VENC_SYNC_FRAME_SEQUENCE_HEADER:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_CONFIG_VENC_SYNC_FRAME_SEQUENCE_HEADER,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VENC_REQUEST_IFRAME:
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_REQUEST_SYNC_FRAME;
pkt->size += sizeof(u32);
break;
case HAL_PARAM_VENC_MPEG4_SHORT_HEADER:
break;
case HAL_PARAM_VENC_MPEG4_AC_PREDICTION:
break;
case HAL_CONFIG_VENC_TARGET_BITRATE:
{
struct hfi_bitrate *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_TARGET_BITRATE;
hfi = (struct hfi_bitrate *) &pkt->rg_property_data[1];
hfi->bit_rate = ((struct hal_bitrate *)pdata)->bit_rate;
hfi->layer_id = ((struct hal_bitrate *)pdata)->layer_id;
pkt->size += sizeof(u32) + sizeof(struct hfi_bitrate);
break;
}
case HAL_CONFIG_VENC_MAX_BITRATE:
{
struct hfi_bitrate *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_MAX_BITRATE;
hfi = (struct hfi_bitrate *) &pkt->rg_property_data[1];
hfi->bit_rate = ((struct hal_bitrate *)pdata)->bit_rate;
hfi->layer_id = ((struct hal_bitrate *)pdata)->layer_id;
pkt->size += sizeof(u32) + sizeof(struct hfi_bitrate);
break;
}
case HAL_PARAM_PROFILE_LEVEL_CURRENT:
{
struct hfi_profile_level *hfi;
struct hal_profile_level *prop =
(struct hal_profile_level *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_PROFILE_LEVEL_CURRENT;
hfi = (struct hfi_profile_level *)
&pkt->rg_property_data[1];
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hfi->level = prop->level;
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hfi->profile = hal_to_hfi_type(HAL_PARAM_PROFILE_LEVEL_CURRENT,
prop->profile);
if (hfi->profile <= 0) {
hfi->profile = HFI_H264_PROFILE_HIGH;
dprintk(VIDC_WARN,
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"Profile %d not supported, falling back to high\n",
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prop->profile);
}
if (!hfi->level) {
hfi->level = 1;
dprintk(VIDC_WARN,
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"Level %d not supported, falling back to high\n",
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prop->level);
}
pkt->size += sizeof(u32) + sizeof(struct hfi_profile_level);
break;
}
case HAL_PARAM_VENC_H264_ENTROPY_CONTROL:
{
struct hfi_h264_entropy_control *hfi;
struct hal_h264_entropy_control *prop =
(struct hal_h264_entropy_control *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_H264_ENTROPY_CONTROL;
hfi = (struct hfi_h264_entropy_control *)
&pkt->rg_property_data[1];
hfi->entropy_mode = hal_to_hfi_type(
HAL_PARAM_VENC_H264_ENTROPY_CONTROL,
prop->entropy_mode);
if (hfi->entropy_mode == HAL_H264_ENTROPY_CABAC)
hfi->cabac_model = hal_to_hfi_type(
HAL_PARAM_VENC_H264_ENTROPY_CABAC_MODEL,
prop->cabac_model);
pkt->size += sizeof(u32) + sizeof(
struct hfi_h264_entropy_control);
break;
}
case HAL_PARAM_VENC_RATE_CONTROL:
{
u32 *rc;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_RATE_CONTROL;
rc = (u32 *)pdata;
switch ((enum hal_rate_control) *rc) {
case HAL_RATE_CONTROL_OFF:
pkt->rg_property_data[1] = HFI_RATE_CONTROL_OFF;
break;
case HAL_RATE_CONTROL_CBR_CFR:
pkt->rg_property_data[1] = HFI_RATE_CONTROL_CBR_CFR;
break;
case HAL_RATE_CONTROL_CBR_VFR:
pkt->rg_property_data[1] = HFI_RATE_CONTROL_CBR_VFR;
break;
case HAL_RATE_CONTROL_VBR_CFR:
pkt->rg_property_data[1] = HFI_RATE_CONTROL_VBR_CFR;
break;
case HAL_RATE_CONTROL_VBR_VFR:
pkt->rg_property_data[1] = HFI_RATE_CONTROL_VBR_VFR;
break;
default:
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dprintk(VIDC_ERR,
"Invalid Rate control setting: %p\n",
pdata);
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break;
}
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VENC_MPEG4_TIME_RESOLUTION:
{
struct hfi_mpeg4_time_resolution *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_MPEG4_TIME_RESOLUTION;
hfi = (struct hfi_mpeg4_time_resolution *)
&pkt->rg_property_data[1];
hfi->time_increment_resolution =
((struct hal_mpeg4_time_resolution *)pdata)->
time_increment_resolution;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VENC_MPEG4_HEADER_EXTENSION:
{
struct hfi_mpeg4_header_extension *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_MPEG4_HEADER_EXTENSION;
hfi = (struct hfi_mpeg4_header_extension *)
&pkt->rg_property_data[1];
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hfi->header_extension = (u32)(unsigned long) pdata;
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pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VENC_H264_DEBLOCK_CONTROL:
{
struct hfi_h264_db_control *hfi;
struct hal_h264_db_control *prop =
(struct hal_h264_db_control *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_H264_DEBLOCK_CONTROL;
hfi = (struct hfi_h264_db_control *) &pkt->rg_property_data[1];
switch (prop->mode) {
case HAL_H264_DB_MODE_DISABLE:
hfi->mode = HFI_H264_DB_MODE_DISABLE;
break;
case HAL_H264_DB_MODE_SKIP_SLICE_BOUNDARY:
hfi->mode = HFI_H264_DB_MODE_SKIP_SLICE_BOUNDARY;
break;
case HAL_H264_DB_MODE_ALL_BOUNDARY:
hfi->mode = HFI_H264_DB_MODE_ALL_BOUNDARY;
break;
default:
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dprintk(VIDC_ERR, "Invalid deblocking mode: %#x\n",
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prop->mode);
break;
}
hfi->slice_alpha_offset = prop->slice_alpha_offset;
hfi->slice_beta_offset = prop->slice_beta_offset;
pkt->size += sizeof(u32) +
sizeof(struct hfi_h264_db_control);
break;
}
case HAL_PARAM_VENC_SESSION_QP:
{
struct hfi_quantization *hfi;
struct hal_quantization *hal_quant =
(struct hal_quantization *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_SESSION_QP;
hfi = (struct hfi_quantization *) &pkt->rg_property_data[1];
hfi->qp_i = hal_quant->qpi;
hfi->qp_p = hal_quant->qpp;
hfi->qp_b = hal_quant->qpb;
hfi->layer_id = hal_quant->layer_id;
pkt->size += sizeof(u32) + sizeof(struct hfi_quantization);
break;
}
case HAL_PARAM_VENC_SESSION_QP_RANGE:
{
struct hfi_quantization_range *hfi;
struct hfi_quantization_range *hal_range =
(struct hfi_quantization_range *) pdata;
u32 min_qp, max_qp;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_SESSION_QP_RANGE;
hfi = (struct hfi_quantization_range *)
&pkt->rg_property_data[1];
min_qp = hal_range->min_qp;
max_qp = hal_range->max_qp;
/* We'll be packing in the qp, so make sure we
* won't be losing data when masking */
if (min_qp > 0xff || max_qp > 0xff) {
dprintk(VIDC_ERR, "qp value out of range\n");
rc = -ERANGE;
break;
}
/* When creating the packet, pack the qp value as
* 0xiippbb, where ii = qp range for I-frames,
* pp = qp range for P-frames, etc. */
hfi->min_qp = min_qp | min_qp << 8 | min_qp << 16;
hfi->max_qp = max_qp | max_qp << 8 | max_qp << 16;
hfi->layer_id = hal_range->layer_id;
pkt->size += sizeof(u32) +
sizeof(struct hfi_quantization_range);
break;
}
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case HAL_PARAM_VENC_SEARCH_RANGE:
{
struct hfi_vc1e_perf_cfg_type *hfi;
struct hal_vc1e_perf_cfg_type *hal_mv_searchrange =
(struct hal_vc1e_perf_cfg_type *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_VC1_PERF_CFG;
hfi = (struct hfi_vc1e_perf_cfg_type *)
&pkt->rg_property_data[1];
hfi->search_range_x_subsampled[0] =
hal_mv_searchrange->i_frame.x_subsampled;
hfi->search_range_x_subsampled[1] =
hal_mv_searchrange->p_frame.x_subsampled;
hfi->search_range_x_subsampled[2] =
hal_mv_searchrange->b_frame.x_subsampled;
hfi->search_range_y_subsampled[0] =
hal_mv_searchrange->i_frame.y_subsampled;
hfi->search_range_y_subsampled[1] =
hal_mv_searchrange->p_frame.y_subsampled;
hfi->search_range_y_subsampled[2] =
hal_mv_searchrange->b_frame.y_subsampled;
pkt->size += sizeof(u32) +
sizeof(struct hfi_vc1e_perf_cfg_type);
break;
}
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case HAL_PARAM_VENC_MAX_NUM_B_FRAMES:
{
struct hfi_max_num_b_frames *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_MAX_NUM_B_FRAMES;
hfi = (struct hfi_max_num_b_frames *) &pkt->rg_property_data[1];
memcpy(hfi, (struct hfi_max_num_b_frames *) pdata,
sizeof(struct hfi_max_num_b_frames));
pkt->size += sizeof(u32) + sizeof(struct hfi_max_num_b_frames);
break;
}
case HAL_CONFIG_VENC_INTRA_PERIOD:
{
struct hfi_intra_period *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_INTRA_PERIOD;
hfi = (struct hfi_intra_period *) &pkt->rg_property_data[1];
memcpy(hfi, (struct hfi_intra_period *) pdata,
sizeof(struct hfi_intra_period));
pkt->size += sizeof(u32) + sizeof(struct hfi_intra_period);
break;
}
case HAL_CONFIG_VENC_IDR_PERIOD:
{
struct hfi_idr_period *hfi;
pkt->rg_property_data[0] = HFI_PROPERTY_CONFIG_VENC_IDR_PERIOD;
hfi = (struct hfi_idr_period *) &pkt->rg_property_data[1];
hfi->idr_period = ((struct hfi_idr_period *) pdata)->idr_period;
pkt->size += sizeof(u32) * 2;
break;
}
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case HAL_PARAM_VDEC_CONCEAL_COLOR:
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{
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struct hfi_conceal_color *hfi;
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pkt->rg_property_data[0] =
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HFI_PROPERTY_PARAM_VDEC_CONCEAL_COLOR;
hfi = (struct hfi_conceal_color *) &pkt->rg_property_data[1];
if (hfi)
hfi->conceal_color =
((struct hfi_conceal_color *) pdata)->
conceal_color;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VPE_OPERATIONS:
{
struct hfi_operations_type *hfi;
struct hal_operations *prop =
(struct hal_operations *) pdata;
pkt->rg_property_data[0] = HFI_PROPERTY_CONFIG_VPE_OPERATIONS;
hfi = (struct hfi_operations_type *) &pkt->rg_property_data[1];
switch (prop->rotate) {
case HAL_ROTATE_NONE:
hfi->rotation = HFI_ROTATE_NONE;
break;
case HAL_ROTATE_90:
hfi->rotation = HFI_ROTATE_90;
break;
case HAL_ROTATE_180:
hfi->rotation = HFI_ROTATE_180;
break;
case HAL_ROTATE_270:
hfi->rotation = HFI_ROTATE_270;
break;
default:
dprintk(VIDC_ERR, "Invalid rotation setting: %#x\n",
prop->rotate);
rc = -EINVAL;
break;
}
switch (prop->flip) {
case HAL_FLIP_NONE:
hfi->flip = HFI_FLIP_NONE;
break;
case HAL_FLIP_HORIZONTAL:
hfi->flip = HFI_FLIP_HORIZONTAL;
break;
case HAL_FLIP_VERTICAL:
hfi->flip = HFI_FLIP_VERTICAL;
break;
default:
dprintk(VIDC_ERR, "Invalid flip setting: %#x\n",
prop->flip);
rc = -EINVAL;
break;
}
pkt->size += sizeof(u32) + sizeof(struct hfi_operations_type);
break;
}
case HAL_PARAM_VENC_INTRA_REFRESH:
{
struct hfi_intra_refresh *hfi;
struct hal_intra_refresh *prop =
(struct hal_intra_refresh *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_INTRA_REFRESH;
hfi = (struct hfi_intra_refresh *) &pkt->rg_property_data[1];
switch (prop->mode) {
case HAL_INTRA_REFRESH_NONE:
hfi->mode = HFI_INTRA_REFRESH_NONE;
break;
case HAL_INTRA_REFRESH_ADAPTIVE:
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hfi->mode = HFI_INTRA_REFRESH_ADAPTIVE;
break;
case HAL_INTRA_REFRESH_CYCLIC:
hfi->mode = HFI_INTRA_REFRESH_CYCLIC;
break;
case HAL_INTRA_REFRESH_CYCLIC_ADAPTIVE:
hfi->mode = HFI_INTRA_REFRESH_CYCLIC_ADAPTIVE;
break;
case HAL_INTRA_REFRESH_RANDOM:
hfi->mode = HFI_INTRA_REFRESH_RANDOM;
break;
default:
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dprintk(VIDC_ERR,
"Invalid intra refresh setting: %#x\n",
prop->mode);
2024-09-09 08:52:07 +00:00
break;
}
hfi->air_mbs = prop->air_mbs;
hfi->air_ref = prop->air_ref;
hfi->cir_mbs = prop->cir_mbs;
pkt->size += sizeof(u32) + sizeof(struct hfi_intra_refresh);
break;
}
case HAL_PARAM_VENC_MULTI_SLICE_CONTROL:
{
struct hfi_multi_slice_control *hfi;
struct hal_multi_slice_control *prop =
(struct hal_multi_slice_control *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_MULTI_SLICE_CONTROL;
hfi = (struct hfi_multi_slice_control *)
&pkt->rg_property_data[1];
switch (prop->multi_slice) {
case HAL_MULTI_SLICE_OFF:
hfi->multi_slice = HFI_MULTI_SLICE_OFF;
break;
case HAL_MULTI_SLICE_GOB:
hfi->multi_slice = HFI_MULTI_SLICE_GOB;
break;
case HAL_MULTI_SLICE_BY_MB_COUNT:
hfi->multi_slice = HFI_MULTI_SLICE_BY_MB_COUNT;
break;
case HAL_MULTI_SLICE_BY_BYTE_COUNT:
hfi->multi_slice = HFI_MULTI_SLICE_BY_BYTE_COUNT;
break;
default:
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dprintk(VIDC_ERR, "Invalid slice settings: %#x\n",
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prop->multi_slice);
break;
}
hfi->slice_size = prop->slice_size;
pkt->size += sizeof(u32) + sizeof(struct
hfi_multi_slice_control);
break;
}
case HAL_PARAM_INDEX_EXTRADATA:
{
struct hfi_index_extradata_config *hfi;
struct hal_extradata_enable *extra = pdata;
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int id = 0;
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pkt->rg_property_data[0] =
get_hfi_extradata_index(extra->index);
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hfi = (struct hfi_index_extradata_config *)
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&pkt->rg_property_data[1];
hfi->enable = extra->enable;
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id = get_hfi_extradata_id(extra->index);
if (id)
hfi->index_extra_data_id = id;
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else {
dprintk(VIDC_WARN,
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"Failed to find extradata id: %d\n",
id);
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rc = -EINVAL;
}
pkt->size += sizeof(u32) +
sizeof(struct hfi_index_extradata_config);
break;
}
case HAL_PARAM_VENC_SLICE_DELIVERY_MODE:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_SLICE_DELIVERY_MODE,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_H264_VUI_TIMING_INFO:
{
struct hfi_h264_vui_timing_info *hfi;
struct hal_h264_vui_timing_info *timing_info = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_H264_VUI_TIMING_INFO;
hfi = (struct hfi_h264_vui_timing_info *)&pkt->
rg_property_data[1];
hfi->enable = timing_info->enable;
hfi->fixed_frame_rate = timing_info->fixed_frame_rate;
hfi->time_scale = timing_info->time_scale;
pkt->size += sizeof(u32) +
sizeof(struct hfi_h264_vui_timing_info);
break;
}
case HAL_CONFIG_VPE_DEINTERLACE:
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{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_CONFIG_VPE_DEINTERLACE,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
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break;
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}
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case HAL_PARAM_VENC_H264_GENERATE_AUDNAL:
{
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create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_H264_GENERATE_AUDNAL,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_BUFFER_ALLOC_MODE:
{
u32 buffer_type;
u32 buffer_mode;
struct hfi_buffer_alloc_mode *hfi;
struct hal_buffer_alloc_mode *alloc_info = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_BUFFER_ALLOC_MODE;
hfi = (struct hfi_buffer_alloc_mode *)
&pkt->rg_property_data[1];
buffer_type = get_hfi_buffer(alloc_info->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
buffer_mode = get_hfi_buf_mode(alloc_info->buffer_mode);
if (buffer_mode)
hfi->buffer_mode = buffer_mode;
else
return -EINVAL;
pkt->size += sizeof(u32) + sizeof(struct hfi_buffer_alloc_mode);
break;
}
case HAL_PARAM_VDEC_FRAME_ASSEMBLY:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VDEC_FRAME_ASSEMBLY,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_H264_VUI_BITSTREAM_RESTRC:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_H264_VUI_BITSTREAM_RESTRC,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_PRESERVE_TEXT_QUALITY:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_PRESERVE_TEXT_QUALITY,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VDEC_SCS_THRESHOLD:
{
struct hfi_scs_threshold *hfi;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VDEC_SCS_THRESHOLD;
hfi = (struct hfi_scs_threshold *) &pkt->rg_property_data[1];
hfi->threshold_value =
((struct hal_scs_threshold *) pdata)->threshold_value;
pkt->size += sizeof(u32) + sizeof(struct hfi_scs_threshold);
break;
}
case HAL_PARAM_MVC_BUFFER_LAYOUT:
{
struct hfi_mvc_buffer_layout_descp_type *hfi;
struct hal_mvc_buffer_layout *layout_info = pdata;
pkt->rg_property_data[0] = HFI_PROPERTY_PARAM_MVC_BUFFER_LAYOUT;
hfi = (struct hfi_mvc_buffer_layout_descp_type *)
&pkt->rg_property_data[1];
hfi->layout_type = get_hfi_layout(layout_info->layout_type);
hfi->bright_view_first = layout_info->bright_view_first;
hfi->ngap = layout_info->ngap;
pkt->size += sizeof(u32) +
sizeof(struct hfi_mvc_buffer_layout_descp_type);
break;
}
case HAL_PARAM_VENC_LTRMODE:
{
struct hfi_ltr_mode *hfi;
struct hal_ltr_mode *hal = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_LTRMODE;
hfi = (struct hfi_ltr_mode *) &pkt->rg_property_data[1];
hfi->ltr_mode = get_hfi_ltr_mode(hal->mode);
hfi->ltr_count = hal->count;
hfi->trust_mode = hal->trust_mode;
pkt->size += sizeof(u32) + sizeof(struct hfi_ltr_mode);
break;
}
case HAL_CONFIG_VENC_USELTRFRAME:
{
struct hfi_ltr_use *hfi;
struct hal_ltr_use *hal = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_USELTRFRAME;
hfi = (struct hfi_ltr_use *) &pkt->rg_property_data[1];
hfi->frames = hal->frames;
hfi->ref_ltr = hal->ref_ltr;
hfi->use_constrnt = hal->use_constraint;
pkt->size += sizeof(u32) + sizeof(struct hfi_ltr_use);
break;
}
case HAL_CONFIG_VENC_MARKLTRFRAME:
{
struct hfi_ltr_mark *hfi;
struct hal_ltr_mark *hal = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_MARKLTRFRAME;
hfi = (struct hfi_ltr_mark *) &pkt->rg_property_data[1];
hfi->mark_frame = hal->mark_frame;
pkt->size += sizeof(u32) + sizeof(struct hfi_ltr_mark);
break;
}
case HAL_PARAM_VENC_HIER_P_MAX_ENH_LAYERS:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_HIER_P_MAX_NUM_ENH_LAYER;
pkt->rg_property_data[1] = *(u32 *)pdata;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VENC_HIER_P_NUM_FRAMES:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_HIER_P_ENH_LAYER;
pkt->rg_property_data[1] = *(u32 *)pdata;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VENC_DISABLE_RC_TIMESTAMP:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_DISABLE_RC_TIMESTAMP,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_ENABLE_INITIAL_QP:
{
struct hfi_initial_quantization *hfi;
struct hal_initial_quantization *quant = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_INITIAL_QP;
hfi = (struct hfi_initial_quantization *)
&pkt->rg_property_data[1];
hfi->init_qp_enable = quant->init_qp_enable;
hfi->qp_i = quant->qpi;
hfi->qp_p = quant->qpp;
hfi->qp_b = quant->qpb;
pkt->size += sizeof(u32) +
sizeof(struct hfi_initial_quantization);
break;
}
case HAL_PARAM_VPE_COLOR_SPACE_CONVERSION:
{
struct hfi_vpe_color_space_conversion *hfi = NULL;
struct hal_vpe_color_space_conversion *hal = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VPE_COLOR_SPACE_CONVERSION;
hfi = (struct hfi_vpe_color_space_conversion *)
&pkt->rg_property_data[1];
memcpy(hfi->csc_matrix, hal->csc_matrix,
sizeof(hfi->csc_matrix));
memcpy(hfi->csc_bias, hal->csc_bias, sizeof(hfi->csc_bias));
memcpy(hfi->csc_limit, hal->csc_limit, sizeof(hfi->csc_limit));
pkt->size += sizeof(u32) +
sizeof(struct hfi_vpe_color_space_conversion);
break;
}
case HAL_PARAM_VENC_VPX_ERROR_RESILIENCE_MODE:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_VPX_ERROR_RESILIENCE_MODE,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_H264_NAL_SVC_EXT:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_H264_NAL_SVC_EXT,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_CONFIG_VENC_PERF_MODE:
{
u32 hfi_perf_mode = 0;
enum hal_perf_mode hal_perf_mode = *(enum hal_perf_mode *)pdata;
switch (hal_perf_mode) {
case HAL_PERF_MODE_POWER_SAVE:
hfi_perf_mode = HFI_VENC_PERFMODE_POWER_SAVE;
break;
case HAL_PERF_MODE_POWER_MAX_QUALITY:
hfi_perf_mode = HFI_VENC_PERFMODE_MAX_QUALITY;
break;
default:
return -ENOTSUPP;
}
pkt->rg_property_data[0] = HFI_PROPERTY_CONFIG_VENC_PERF_MODE;
pkt->rg_property_data[1] = hfi_perf_mode;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VENC_HIER_B_MAX_ENH_LAYERS:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_HIER_B_MAX_NUM_ENH_LAYER;
pkt->rg_property_data[1] = *(u32 *)pdata;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PARAM_VDEC_NON_SECURE_OUTPUT2:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VDEC_NONCP_OUTPUT2,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_HIER_P_HYBRID_MODE:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_HIER_P_HYBRID_MODE;
pkt->rg_property_data[1] =
((struct hfi_hybrid_hierp *)pdata)->layers;
pkt->size += sizeof(u32) +
sizeof(struct hfi_hybrid_hierp);
break;
}
case HAL_PARAM_VENC_MBI_STATISTICS_MODE:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_MBI_DUMPING;
pkt->rg_property_data[1] = hal_to_hfi_type(
HAL_PARAM_VENC_MBI_STATISTICS_MODE,
*(u32 *)pdata);
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VENC_FRAME_QP:
{
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pkt->rg_property_data[0] =
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HFI_PROPERTY_CONFIG_VENC_FRAME_QP;
pkt->rg_property_data[1] = *(u32 *)pdata;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_CONFIG_VENC_BASELAYER_PRIORITYID:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_CONFIG_VENC_BASELAYER_PRIORITYID;
pkt->rg_property_data[1] = *(u32 *)pdata;
pkt->size += sizeof(u32) * 2;
break;
}
case HAL_PROPERTY_PARAM_VENC_ASPECT_RATIO:
{
struct hfi_aspect_ratio *hfi = NULL;
struct hal_aspect_ratio *hal = pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_ASPECT_RATIO;
hfi = (struct hfi_aspect_ratio *)
&pkt->rg_property_data[1];
memcpy(hfi, hal,
sizeof(struct hfi_aspect_ratio));
pkt->size += sizeof(u32) +
sizeof(struct hfi_aspect_ratio);
break;
}
case HAL_PARAM_VENC_BITRATE_TYPE:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_BITRATE_TYPE,
((struct hal_enable *)pdata)->enable);
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pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
/* FOLLOWING PROPERTIES ARE NOT IMPLEMENTED IN CORE YET */
case HAL_CONFIG_BUFFER_REQUIREMENTS:
case HAL_CONFIG_PRIORITY:
case HAL_CONFIG_BATCH_INFO:
case HAL_PARAM_METADATA_PASS_THROUGH:
case HAL_SYS_IDLE_INDICATOR:
case HAL_PARAM_UNCOMPRESSED_FORMAT_SUPPORTED:
case HAL_PARAM_INTERLACE_FORMAT_SUPPORTED:
case HAL_PARAM_CHROMA_SITE:
case HAL_PARAM_PROPERTIES_SUPPORTED:
case HAL_PARAM_PROFILE_LEVEL_SUPPORTED:
case HAL_PARAM_CAPABILITY_SUPPORTED:
case HAL_PARAM_NAL_STREAM_FORMAT_SUPPORTED:
case HAL_PARAM_MULTI_VIEW_FORMAT:
case HAL_PARAM_MAX_SEQUENCE_HEADER_SIZE:
case HAL_PARAM_CODEC_SUPPORTED:
case HAL_PARAM_VDEC_MULTI_VIEW_SELECT:
case HAL_PARAM_VDEC_MB_QUANTIZATION:
case HAL_PARAM_VDEC_NUM_CONCEALED_MB:
case HAL_PARAM_VDEC_H264_ENTROPY_SWITCHING:
case HAL_PARAM_VENC_MPEG4_DATA_PARTITIONING:
case HAL_CONFIG_BUFFER_COUNT_ACTUAL:
case HAL_CONFIG_VDEC_MULTI_STREAM:
case HAL_PARAM_VENC_MULTI_SLICE_INFO:
case HAL_CONFIG_VENC_TIMESTAMP_SCALE:
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case HAL_PARAM_BUFFER_SIZE_MINIMUM:
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default:
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dprintk(VIDC_ERR, "DEFAULT: Calling %#x\n", ptype);
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rc = -ENOTSUPP;
break;
}
return rc;
}
static int get_hfi_ssr_type(enum hal_ssr_trigger_type type)
{
int rc = HFI_TEST_SSR_HW_WDOG_IRQ;
switch (type) {
case SSR_ERR_FATAL:
rc = HFI_TEST_SSR_SW_ERR_FATAL;
break;
case SSR_SW_DIV_BY_ZERO:
rc = HFI_TEST_SSR_SW_DIV_BY_ZERO;
break;
case SSR_HW_WDOG_IRQ:
rc = HFI_TEST_SSR_HW_WDOG_IRQ;
break;
default:
dprintk(VIDC_WARN,
"SSR trigger type not recognized, using WDOG.\n");
}
return rc;
}
int create_pkt_ssr_cmd(enum hal_ssr_trigger_type type,
struct hfi_cmd_sys_test_ssr_packet *pkt)
{
if (!pkt) {
dprintk(VIDC_ERR, "Invalid params, device: %p\n", pkt);
return -EINVAL;
}
pkt->size = sizeof(struct hfi_cmd_sys_test_ssr_packet);
pkt->packet_type = HFI_CMD_SYS_TEST_SSR;
pkt->trigger_type = get_hfi_ssr_type(type);
return 0;
}
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int create_pkt_cmd_sys_image_version(
struct hfi_cmd_sys_get_property_packet *pkt)
{
if (!pkt) {
dprintk(VIDC_ERR, "%s invalid param :%p\n", __func__, pkt);
return -EINVAL;
}
pkt->size = sizeof(struct hfi_cmd_sys_get_property_packet);
pkt->packet_type = HFI_CMD_SYS_GET_PROPERTY;
pkt->num_properties = 1;
pkt->rg_property_data[0] = HFI_PROPERTY_SYS_IMAGE_VERSION;
return 0;
}
static int create_3x_pkt_cmd_session_set_property(
struct hfi_cmd_session_set_property_packet *pkt,
struct hal_session *session,
enum hal_property ptype, void *pdata)
{
int rc = 0;
if (!pkt || !session || !pdata)
return -EINVAL;
pkt->size = sizeof(struct hfi_cmd_session_set_property_packet);
pkt->packet_type = HFI_CMD_SESSION_SET_PROPERTY;
pkt->session_id = hash32_ptr(session);
pkt->num_properties = 1;
/*
* Any session set property which is different in 3XX packetization
* should be added as a new case below. All unchanged session set
* properties will be handled in the default case.
*/
switch (ptype) {
case HAL_PARAM_VDEC_MULTI_STREAM:
{
u32 buffer_type;
struct hfi_3x_multi_stream *hfi;
struct hal_multi_stream *prop =
(struct hal_multi_stream *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VDEC_MULTI_STREAM;
hfi = (struct hfi_3x_multi_stream *) &pkt->rg_property_data[1];
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
hfi->enable = prop->enable;
pkt->size += sizeof(u32) + sizeof(struct hfi_3x_multi_stream);
break;
}
case HAL_PARAM_VENC_INTRA_REFRESH:
{
struct hfi_3x_intra_refresh *hfi;
struct hal_intra_refresh *prop =
(struct hal_intra_refresh *) pdata;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_INTRA_REFRESH;
hfi = (struct hfi_3x_intra_refresh *) &pkt->rg_property_data[1];
switch (prop->mode) {
case HAL_INTRA_REFRESH_NONE:
hfi->mode = HFI_INTRA_REFRESH_NONE;
break;
case HAL_INTRA_REFRESH_ADAPTIVE:
hfi->mode = HFI_INTRA_REFRESH_ADAPTIVE;
break;
case HAL_INTRA_REFRESH_CYCLIC:
hfi->mode = HFI_INTRA_REFRESH_CYCLIC;
break;
case HAL_INTRA_REFRESH_CYCLIC_ADAPTIVE:
hfi->mode = HFI_INTRA_REFRESH_CYCLIC_ADAPTIVE;
break;
case HAL_INTRA_REFRESH_RANDOM:
hfi->mode = HFI_INTRA_REFRESH_RANDOM;
break;
default:
dprintk(VIDC_ERR,
"Invalid intra refresh setting: %d\n",
prop->mode);
break;
}
hfi->mbs = prop->cir_mbs;
pkt->size += sizeof(u32) + sizeof(struct hfi_3x_intra_refresh);
break;
}
case HAL_PARAM_SYNC_BASED_INTERRUPT:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_SYNC_BASED_INTERRUPT,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
case HAL_PARAM_VENC_VQZIP_SEI:
{
create_pkt_enable(pkt->rg_property_data,
HFI_PROPERTY_PARAM_VENC_VQZIP_SEI_TYPE,
((struct hal_enable *)pdata)->enable);
pkt->size += sizeof(u32) + sizeof(struct hfi_enable);
break;
}
/* Deprecated param on Venus 3xx */
case HAL_PARAM_VDEC_CONTINUE_DATA_TRANSFER:
{
rc = -ENOTSUPP;
break;
}
case HAL_PARAM_BUFFER_SIZE_MINIMUM:
{
struct hfi_buffer_size_minimum *hfi;
struct hal_buffer_size_minimum *prop =
(struct hal_buffer_size_minimum *) pdata;
u32 buffer_type;
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_BUFFER_SIZE_MINIMUM;
hfi = (struct hfi_buffer_size_minimum *)
&pkt->rg_property_data[1];
hfi->buffer_size = prop->buffer_size;
buffer_type = get_hfi_buffer(prop->buffer_type);
if (buffer_type)
hfi->buffer_type = buffer_type;
else
return -EINVAL;
pkt->size += sizeof(u32) + sizeof(struct
hfi_buffer_count_actual);
break;
}
case HAL_PARAM_VENC_H264_PIC_ORDER_CNT:
{
pkt->rg_property_data[0] =
HFI_PROPERTY_PARAM_VENC_H264_PICORDER_CNT_TYPE;
pkt->rg_property_data[1] = *(u32 *)pdata;
pkt->size += sizeof(u32) * 2;
break;
}
default:
rc = create_pkt_cmd_session_set_property(pkt,
session, ptype, pdata);
}
return rc;
}
int create_pkt_cmd_session_sync_process(
struct hfi_cmd_session_sync_process_packet *pkt,
struct hal_session *session)
{
if (!pkt || !session)
return -EINVAL;
*pkt = (struct hfi_cmd_session_sync_process_packet) {0};
pkt->size = sizeof(*pkt);
pkt->packet_type = HFI_CMD_SESSION_SYNC;
pkt->session_id = hash32_ptr(session);
pkt->sync_id = 0;
return 0;
}
static struct hfi_packetization_ops hfi_default = {
.sys_init = create_pkt_cmd_sys_init,
.sys_pc_prep = create_pkt_cmd_sys_pc_prep,
.sys_idle_indicator = create_pkt_cmd_sys_idle_indicator,
.sys_power_control = create_pkt_cmd_sys_power_control,
.sys_set_resource = create_pkt_cmd_sys_set_resource,
.sys_debug_config = create_pkt_cmd_sys_debug_config,
.sys_coverage_config = create_pkt_cmd_sys_coverage_config,
.sys_release_resource = create_pkt_cmd_sys_release_resource,
.sys_ping = create_pkt_cmd_sys_ping,
.sys_image_version = create_pkt_cmd_sys_image_version,
.ssr_cmd = create_pkt_ssr_cmd,
.session_init = create_pkt_cmd_sys_session_init,
.session_cmd = create_pkt_cmd_session_cmd,
.session_set_buffers = create_pkt_cmd_session_set_buffers,
.session_release_buffers = create_pkt_cmd_session_release_buffers,
.session_etb_decoder = create_pkt_cmd_session_etb_decoder,
.session_etb_encoder = create_pkt_cmd_session_etb_encoder,
.session_ftb = create_pkt_cmd_session_ftb,
.session_parse_seq_header = create_pkt_cmd_session_parse_seq_header,
.session_get_seq_hdr = create_pkt_cmd_session_get_seq_hdr,
.session_get_buf_req = create_pkt_cmd_session_get_buf_req,
.session_flush = create_pkt_cmd_session_flush,
.session_get_property = create_pkt_cmd_session_get_property,
.session_set_property = create_pkt_cmd_session_set_property,
};
struct hfi_packetization_ops *get_venus_3x_ops(void)
{
static struct hfi_packetization_ops hfi_venus_3x;
hfi_venus_3x = hfi_default;
/* Override new HFI functions for HFI_PACKETIZATION_3XX here. */
hfi_venus_3x.session_set_property =
create_3x_pkt_cmd_session_set_property;
hfi_venus_3x.session_get_property =
create_3x_pkt_cmd_session_get_property;
hfi_venus_3x.session_cmd = create_3x_pkt_cmd_session_cmd;
hfi_venus_3x.session_sync_process = create_pkt_cmd_session_sync_process;
return &hfi_venus_3x;
}
struct hfi_packetization_ops *hfi_get_pkt_ops_handle(
enum hfi_packetization_type type)
{
dprintk(VIDC_DBG, "%s selected\n",
type == HFI_PACKETIZATION_LEGACY ? "legacy packetization" :
type == HFI_PACKETIZATION_3XX ? "3xx packetization" :
"Unknown hfi");
switch (type) {
case HFI_PACKETIZATION_LEGACY:
return &hfi_default;
case HFI_PACKETIZATION_3XX:
return get_venus_3x_ops();
}
return NULL;
}