1 /*
2 * Copyright (c) 2021, Intel Corporation
3 *
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
10 *
11 * The above copyright notice and this permission notice shall be included
12 * in all copies or substantial portions of the Software.
13 *
14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
15 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
17 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
20 * OTHER DEALINGS IN THE SOFTWARE.
21 */
22 //!
23 //! \file decode_vp9_packet_front_end_m12.cpp
24 //! \brief Defines the interface for vp9 front end decode packet of M12
25 //!
26 #include "decode_vp9_packet_front_end_m12.h"
27 #include "decode_utils.h"
28 #include "decode_vp9_pipeline.h"
29 #include "decode_vp9_basic_feature.h"
30 #include "decode_status_report_defs.h"
31 #include "mos_solo_generic.h"
32 #include "decode_status_report_defs.h"
33 #include "decode_resource_auto_lock.h"
34 #include "hal_oca_interface.h"
35 #include "mhw_mi_g12_X.h"
36 #include "mhw_vdbox_vdenc_g12_X.h"
37
38 namespace decode
39 {
40
Submit(MOS_COMMAND_BUFFER * cmdBuffer,uint8_t packetPhase)41 MOS_STATUS Vp9DecodeFrontEndPktM12::Submit(
42 MOS_COMMAND_BUFFER* cmdBuffer,
43 uint8_t packetPhase)
44 {
45 DECODE_FUNC_CALL();
46
47 PERF_UTILITY_AUTO(__FUNCTION__, PERF_DECODE, PERF_LEVEL_HAL);
48
49 DECODE_CHK_NULL(cmdBuffer);
50 DECODE_CHK_NULL(m_hwInterface);
51
52 DECODE_CHK_STATUS(m_picturePkt->SetPhase(m_phase));
53
54 DECODE_CHK_STATUS(Mos_Solo_PreProcessDecode(m_osInterface, &m_vp9BasicFeature->m_destSurface));
55
56 DECODE_CHK_STATUS(m_miInterface->SetWatchdogTimerThreshold(m_vp9BasicFeature->m_width, m_vp9BasicFeature->m_height, false));
57
58 if (IsPrologRequired())
59 {
60 DECODE_CHK_STATUS(AddForceWakeup(*cmdBuffer));
61 DECODE_CHK_STATUS(SendPrologWithFrameTracking(*cmdBuffer, true));
62 }
63
64 auto mmioRegisters = m_hwInterface->GetMfxInterface()->GetMmioRegisters(MHW_VDBOX_NODE_1);
65 HalOcaInterface::On1stLevelBBStart(*cmdBuffer, *m_osInterface->pOsContext, m_osInterface->CurrentGpuContextHandle, *m_miInterface, *mmioRegisters);
66
67 DECODE_CHK_STATUS(PackPictureLevelCmds(*cmdBuffer));
68 DECODE_CHK_STATUS(PackSliceLevelCmds(*cmdBuffer));
69
70 // Report cabac stream out size for backend to validate the status
71 DECODE_CHK_STATUS(m_picturePkt->ReportCabacStreamOutSize(*cmdBuffer));
72 DECODE_CHK_STATUS(MiFlush(*cmdBuffer));
73
74 DECODE_CHK_STATUS(m_miInterface->AddMiBatchBufferEnd(cmdBuffer, nullptr));
75
76 HalOcaInterface::On1stLevelBBEnd(*cmdBuffer, *m_osInterface);
77
78 DECODE_CHK_STATUS(m_allocator->SyncOnResource(&m_vp9BasicFeature->m_resDataBuffer, false));
79
80 DECODE_CHK_STATUS(Mos_Solo_PostProcessDecode(m_osInterface, &m_vp9BasicFeature->m_destSurface));
81
82 #if USE_CODECHAL_DEBUG_TOOL
83 if (m_phase->GetCmdBufIndex() == DecodePhase::m_secondaryCmdBufIdxBase)
84 {
85 DECODE_CHK_STATUS(DumpSecondaryCommandBuffer(*cmdBuffer));
86 }
87 #endif
88
89 return MOS_STATUS_SUCCESS;
90 }
91
VdMemoryFlush(MOS_COMMAND_BUFFER & cmdBuffer)92 MOS_STATUS Vp9DecodeFrontEndPktM12::VdMemoryFlush(MOS_COMMAND_BUFFER &cmdBuffer)
93 {
94 MHW_MI_VD_CONTROL_STATE_PARAMS vdCtrlParam;
95 MOS_ZeroMemory(&vdCtrlParam, sizeof(MHW_MI_VD_CONTROL_STATE_PARAMS));
96 vdCtrlParam.memoryImplicitFlush = true;
97
98 MhwMiInterfaceG12* miInterfaceG12 = dynamic_cast<MhwMiInterfaceG12*>(m_miInterface);
99 DECODE_CHK_NULL(miInterfaceG12);
100 DECODE_CHK_STATUS(miInterfaceG12->AddMiVdControlStateCmd(&cmdBuffer, &vdCtrlParam));
101
102 return MOS_STATUS_SUCCESS;
103 }
104
VdPipelineFlush(MOS_COMMAND_BUFFER & cmdBuffer)105 MOS_STATUS Vp9DecodeFrontEndPktM12::VdPipelineFlush(MOS_COMMAND_BUFFER & cmdBuffer)
106 {
107 DECODE_FUNC_CALL();
108
109 MHW_VDBOX_VD_PIPE_FLUSH_PARAMS_G12 vdpipeFlushParams;
110 MOS_ZeroMemory(&vdpipeFlushParams, sizeof(vdpipeFlushParams));
111 vdpipeFlushParams.Flags.bWaitDoneHEVC = 1;
112 vdpipeFlushParams.Flags.bFlushHEVC = 1;
113 vdpipeFlushParams.Flags.bWaitDoneVDCmdMsgParser = 1;
114 DECODE_CHK_STATUS(m_vdencInterface->AddVdPipelineFlushCmd(
115 &cmdBuffer, (MHW_VDBOX_VD_PIPE_FLUSH_PARAMS*)&vdpipeFlushParams));
116
117 return MOS_STATUS_SUCCESS;
118 }
119
PackPictureLevelCmds(MOS_COMMAND_BUFFER & cmdBuffer)120 MOS_STATUS Vp9DecodeFrontEndPktM12::PackPictureLevelCmds(MOS_COMMAND_BUFFER &cmdBuffer)
121 {
122 PERF_UTILITY_AUTO(__FUNCTION__, PERF_DECODE, PERF_LEVEL_HAL);
123
124 DECODE_CHK_STATUS(StartStatusReport(statusReportMfx, &cmdBuffer));
125 DECODE_CHK_STATUS(m_picturePkt->Execute(cmdBuffer));
126
127 return MOS_STATUS_SUCCESS;
128 }
129
PackSliceLevelCmds(MOS_COMMAND_BUFFER & cmdBuffer)130 MOS_STATUS Vp9DecodeFrontEndPktM12::PackSliceLevelCmds(MOS_COMMAND_BUFFER &cmdBuffer)
131 {
132 DECODE_FUNC_CALL();
133 PERF_UTILITY_AUTO(__FUNCTION__, PERF_DECODE, PERF_LEVEL_HAL);
134
135 DECODE_CHK_STATUS(m_slicePkt->Execute(cmdBuffer, 0, 0));
136
137 DECODE_CHK_STATUS(VdMemoryFlush(cmdBuffer));
138 DECODE_CHK_STATUS(ReadVdboxId(cmdBuffer));
139 DECODE_CHK_STATUS(VdPipelineFlush(cmdBuffer));
140 DECODE_CHK_STATUS(MiFlush(cmdBuffer));
141
142 return MOS_STATUS_SUCCESS;
143 }
144
145 }
146
147