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diff --git a/src/amd/addrlib/r800/ciaddrlib.cpp b/src/amd/addrlib/r800/ciaddrlib.cpp
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+++ b/src/amd/addrlib/r800/ciaddrlib.cpp
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+/*
+ * Copyright © 2014 Advanced Micro Devices, Inc.
+ * All Rights Reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining
+ * a copy of this software and associated documentation files (the
+ * "Software"), to deal in the Software without restriction, including
+ * without limitation the rights to use, copy, modify, merge, publish,
+ * distribute, sub license, and/or sell copies of the Software, and to
+ * permit persons to whom the Software is furnished to do so, subject to
+ * the following conditions:
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
+ * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+ * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS
+ * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
+ * USE OR OTHER DEALINGS IN THE SOFTWARE.
+ *
+ * The above copyright notice and this permission notice (including the
+ * next paragraph) shall be included in all copies or substantial portions
+ * of the Software.
+ */
+
+/**
+***************************************************************************************************
+* @file ciaddrlib.cpp
+* @brief Contains the implementation for the CIAddrLib class.
+***************************************************************************************************
+*/
+
+#include "ciaddrlib.h"
+
+#include "si_gb_reg.h"
+
+#include "si_ci_vi_merged_enum.h"
+
+#if BRAHMA_BUILD
+#include "amdgpu_id.h"
+#else
+#include "ci_id.h"
+#include "kv_id.h"
+#include "vi_id.h"
+#endif
+
+///////////////////////////////////////////////////////////////////////////////////////////////////
+///////////////////////////////////////////////////////////////////////////////////////////////////
+
+/**
+***************************************************************************************************
+* AddrMask
+*
+* @brief
+* Gets a mask of "width"
+* @return
+* Bit mask
+***************************************************************************************************
+*/
+static UINT_64 AddrMask(
+ UINT_32 width) ///< Width of bits
+{
+ UINT_64 ret;
+
+ if (width >= sizeof(UINT_64)*8)
+ {
+ ret = ~((UINT_64) 0);
+ }
+ else
+ {
+ return (((UINT_64) 1) << width) - 1;
+ }
+ return ret;
+}
+
+/**
+***************************************************************************************************
+* AddrGetBits
+*
+* @brief
+* Gets bits within a range of [msb, lsb]
+* @return
+* Bits of this range
+***************************************************************************************************
+*/
+static UINT_64 AddrGetBits(
+ UINT_64 bits, ///< Source bits
+ UINT_32 msb, ///< Most signicant bit
+ UINT_32 lsb) ///< Least signicant bit
+{
+ UINT_64 ret = 0;
+
+ if (msb >= lsb)
+ {
+ ret = (bits >> lsb) & (AddrMask(1 + msb - lsb));
+ }
+ return ret;
+}
+
+/**
+***************************************************************************************************
+* AddrRemoveBits
+*
+* @brief
+* Removes bits within the range of [msb, lsb]
+* @return
+* Modified bits
+***************************************************************************************************
+*/
+static UINT_64 AddrRemoveBits(
+ UINT_64 bits, ///< Source bits
+ UINT_32 msb, ///< Most signicant bit
+ UINT_32 lsb) ///< Least signicant bit
+{
+ UINT_64 ret = bits;
+
+ if (msb >= lsb)
+ {
+ ret = AddrGetBits(bits, lsb - 1, 0) // low bits
+ | (AddrGetBits(bits, 8 * sizeof(bits) - 1, msb + 1) << lsb); //high bits
+ }
+ return ret;
+}
+
+/**
+***************************************************************************************************
+* AddrInsertBits
+*
+* @brief
+* Inserts new bits into the range of [msb, lsb]
+* @return
+* Modified bits
+***************************************************************************************************
+*/
+static UINT_64 AddrInsertBits(
+ UINT_64 bits, ///< Source bits
+ UINT_64 newBits, ///< New bits to be inserted
+ UINT_32 msb, ///< Most signicant bit
+ UINT_32 lsb) ///< Least signicant bit
+{
+ UINT_64 ret = bits;
+
+ if (msb >= lsb)
+ {
+ ret = AddrGetBits(bits, lsb - 1, 0) // old low bitss
+ | (AddrGetBits(newBits, msb - lsb, 0) << lsb) //new bits
+ | (AddrGetBits(bits, 8 * sizeof(bits) - 1, lsb) << (msb + 1)); //old high bits
+ }
+ return ret;
+}
+
+
+/**
+***************************************************************************************************
+* AddrCIHwlInit
+*
+* @brief
+* Creates an CIAddrLib object.
+*
+* @return
+* Returns an CIAddrLib object pointer.
+***************************************************************************************************
+*/
+AddrLib* AddrCIHwlInit(const AddrClient* pClient)
+{
+ return CIAddrLib::CreateObj(pClient);
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::CIAddrLib
+*
+* @brief
+* Constructor
+*
+***************************************************************************************************
+*/
+CIAddrLib::CIAddrLib(const AddrClient* pClient) :
+ SIAddrLib(pClient),
+ m_noOfMacroEntries(0),
+ m_allowNonDispThickModes(FALSE)
+{
+ m_class = CI_ADDRLIB;
+ memset(&m_settings, 0, sizeof(m_settings));
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::~CIAddrLib
+*
+* @brief
+* Destructor
+***************************************************************************************************
+*/
+CIAddrLib::~CIAddrLib()
+{
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlComputeDccInfo
+*
+* @brief
+* Compute DCC key size, base alignment
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+ADDR_E_RETURNCODE CIAddrLib::HwlComputeDccInfo(
+ const ADDR_COMPUTE_DCCINFO_INPUT* pIn,
+ ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const
+{
+ ADDR_E_RETURNCODE returnCode = ADDR_OK;
+
+ if (m_settings.isVolcanicIslands && IsMacroTiled(pIn->tileMode))
+ {
+ UINT_64 dccFastClearSize = pIn->colorSurfSize >> 8;
+
+ ADDR_ASSERT(0 == (pIn->colorSurfSize & 0xff));
+
+ if (pIn->numSamples > 1)
+ {
+ UINT_32 tileSizePerSample = BITS_TO_BYTES(pIn->bpp * MicroTileWidth * MicroTileHeight);
+ UINT_32 samplesPerSplit = pIn->tileInfo.tileSplitBytes / tileSizePerSample;
+
+ if (samplesPerSplit < pIn->numSamples)
+ {
+ UINT_32 numSplits = pIn->numSamples / samplesPerSplit;
+ UINT_32 fastClearBaseAlign = HwlGetPipes(&pIn->tileInfo) * m_pipeInterleaveBytes;
+
+ ADDR_ASSERT(IsPow2(fastClearBaseAlign));
+
+ dccFastClearSize /= numSplits;
+
+ if (0 != (dccFastClearSize & (fastClearBaseAlign - 1)))
+ {
+ // Disable dcc fast clear
+ // if key size of fisrt sample split is not pipe*interleave aligned
+ dccFastClearSize = 0;
+ }
+ }
+ }
+
+ pOut->dccRamSize = pIn->colorSurfSize >> 8;
+ pOut->dccRamBaseAlign = pIn->tileInfo.banks *
+ HwlGetPipes(&pIn->tileInfo) *
+ m_pipeInterleaveBytes;
+ pOut->dccFastClearSize = dccFastClearSize;
+
+ ADDR_ASSERT(IsPow2(pOut->dccRamBaseAlign));
+
+ if (0 == (pOut->dccRamSize & (pOut->dccRamBaseAlign - 1)))
+ {
+ pOut->subLvlCompressible = TRUE;
+ }
+ else
+ {
+ UINT_64 dccRamSizeAlign = HwlGetPipes(&pIn->tileInfo) * m_pipeInterleaveBytes;
+
+ if (pOut->dccRamSize == pOut->dccFastClearSize)
+ {
+ pOut->dccFastClearSize = PowTwoAlign(pOut->dccRamSize, dccRamSizeAlign);
+ }
+ pOut->dccRamSize = PowTwoAlign(pOut->dccRamSize, dccRamSizeAlign);
+ pOut->subLvlCompressible = FALSE;
+ }
+ }
+ else
+ {
+ returnCode = ADDR_NOTSUPPORTED;
+ }
+
+ return returnCode;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlComputeCmaskAddrFromCoord
+*
+* @brief
+* Compute tc compatible Cmask address from fmask ram address
+*
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+ADDR_E_RETURNCODE CIAddrLib::HwlComputeCmaskAddrFromCoord(
+ const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] fmask addr/bpp/tile input
+ ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] cmask address
+ ) const
+{
+ ADDR_E_RETURNCODE returnCode = ADDR_NOTSUPPORTED;
+
+ if ((m_settings.isVolcanicIslands == TRUE) &&
+ (pIn->flags.tcCompatible == TRUE))
+ {
+ UINT_32 numOfPipes = HwlGetPipes(pIn->pTileInfo);
+ UINT_32 numOfBanks = pIn->pTileInfo->banks;
+ UINT_64 fmaskAddress = pIn->fmaskAddr;
+ UINT_32 elemBits = pIn->bpp;
+ UINT_32 blockByte = 64 * elemBits / 8;
+ UINT_64 metaNibbleAddress = HwlComputeMetadataNibbleAddress(fmaskAddress,
+ 0,
+ 0,
+ 4,
+ elemBits,
+ blockByte,
+ m_pipeInterleaveBytes,
+ numOfPipes,
+ numOfBanks,
+ 1);
+ pOut->addr = (metaNibbleAddress >> 1);
+ pOut->bitPosition = (metaNibbleAddress % 2) ? 4 : 0;
+ returnCode = ADDR_OK;
+ }
+
+ return returnCode;
+}
+/**
+***************************************************************************************************
+* CIAddrLib::HwlConvertChipFamily
+*
+* @brief
+* Convert familyID defined in atiid.h to AddrChipFamily and set m_chipFamily/m_chipRevision
+* @return
+* AddrChipFamily
+***************************************************************************************************
+*/
+AddrChipFamily CIAddrLib::HwlConvertChipFamily(
+ UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h
+ UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h
+{
+ AddrChipFamily family = ADDR_CHIP_FAMILY_CI;
+
+ switch (uChipFamily)
+ {
+ case FAMILY_CI:
+ m_settings.isSeaIsland = 1;
+ m_settings.isBonaire = ASICREV_IS_BONAIRE_M(uChipRevision);
+ m_settings.isHawaii = ASICREV_IS_HAWAII_P(uChipRevision);
+ break;
+ case FAMILY_KV:
+ m_settings.isKaveri = 1;
+ m_settings.isSpectre = ASICREV_IS_SPECTRE(uChipRevision);
+ m_settings.isSpooky = ASICREV_IS_SPOOKY(uChipRevision);
+ m_settings.isKalindi = ASICREV_IS_KALINDI(uChipRevision);
+ break;
+ case FAMILY_VI:
+ m_settings.isVolcanicIslands = 1;
+ m_settings.isIceland = ASICREV_IS_ICELAND_M(uChipRevision);
+ m_settings.isTonga = ASICREV_IS_TONGA_P(uChipRevision);
+ m_settings.isFiji = ASICREV_IS_FIJI_P(uChipRevision);
+ m_settings.isPolaris10 = ASICREV_IS_POLARIS10_P(uChipRevision);
+ m_settings.isPolaris11 = ASICREV_IS_POLARIS11_M(uChipRevision);
+ break;
+ case FAMILY_CZ:
+ m_settings.isCarrizo = 1;
+ m_settings.isVolcanicIslands = 1;
+ break;
+ default:
+ ADDR_ASSERT(!"This should be a unexpected Fusion");
+ break;
+ }
+
+ return family;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlInitGlobalParams
+*
+* @brief
+* Initializes global parameters
+*
+* @return
+* TRUE if all settings are valid
+*
+***************************************************************************************************
+*/
+BOOL_32 CIAddrLib::HwlInitGlobalParams(
+ const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input
+{
+ BOOL_32 valid = TRUE;
+
+ const ADDR_REGISTER_VALUE* pRegValue = &pCreateIn->regValue;
+
+ valid = DecodeGbRegs(pRegValue);
+
+ // The following assignments for m_pipes is only for fail-safe, InitTileSettingTable should
+ // read the correct pipes from tile mode table
+ if (m_settings.isHawaii)
+ {
+ // Hawaii has 16-pipe, see GFXIP_Config_Summary.xls
+ m_pipes = 16;
+ }
+ else if (m_settings.isBonaire || m_settings.isSpectre)
+ {
+ m_pipes = 4;
+ }
+ else // Treat other KV asics to be 2-pipe
+ {
+ m_pipes = 2;
+ }
+
+ // @todo: VI
+ // Move this to VI code path once created
+ if (m_settings.isTonga || m_settings.isPolaris10)
+ {
+ m_pipes = 8;
+ }
+ else if (m_settings.isIceland)
+ {
+ m_pipes = 2;
+ }
+ else if (m_settings.isFiji)
+ {
+ m_pipes = 16;
+ }
+ else if (m_settings.isPolaris11)
+ {
+ m_pipes = 4;
+ }
+
+ if (valid)
+ {
+ valid = InitTileSettingTable(pRegValue->pTileConfig, pRegValue->noOfEntries);
+ }
+ if (valid)
+ {
+ valid = InitMacroTileCfgTable(pRegValue->pMacroTileConfig, pRegValue->noOfMacroEntries);
+ }
+
+ return valid;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlPostCheckTileIndex
+*
+* @brief
+* Map a tile setting to index if curIndex is invalid, otherwise check if curIndex matches
+* tile mode/type/info and change the index if needed
+* @return
+* Tile index.
+***************************************************************************************************
+*/
+INT_32 CIAddrLib::HwlPostCheckTileIndex(
+ const ADDR_TILEINFO* pInfo, ///< [in] Tile Info
+ AddrTileMode mode, ///< [in] Tile mode
+ AddrTileType type, ///< [in] Tile type
+ INT curIndex ///< [in] Current index assigned in HwlSetupTileInfo
+ ) const
+{
+ INT_32 index = curIndex;
+
+ if (mode == ADDR_TM_LINEAR_GENERAL)
+ {
+ index = TileIndexLinearGeneral;
+ }
+ else
+ {
+ BOOL_32 macroTiled = IsMacroTiled(mode);
+
+ // We need to find a new index if either of them is true
+ // 1. curIndex is invalid
+ // 2. tile mode is changed
+ // 3. tile info does not match for macro tiled
+ if ((index == TileIndexInvalid) ||
+ (mode != m_tileTable[index].mode) ||
+ (macroTiled && pInfo->pipeConfig != m_tileTable[index].info.pipeConfig))
+ {
+ for (index = 0; index < static_cast<INT_32>(m_noOfEntries); index++)
+ {
+ if (macroTiled)
+ {
+ // macro tile modes need all to match
+ if ((pInfo->pipeConfig == m_tileTable[index].info.pipeConfig) &&
+ (mode == m_tileTable[index].mode) &&
+ (type == m_tileTable[index].type))
+ {
+ // tileSplitBytes stored in m_tileTable is only valid for depth entries
+ if (type == ADDR_DEPTH_SAMPLE_ORDER)
+ {
+ if (pInfo->tileSplitBytes == m_tileTable[index].info.tileSplitBytes)
+ {
+ break;
+ }
+ }
+ else // other entries are determined by other 3 fields
+ {
+ break;
+ }
+ }
+ }
+ else if (mode == ADDR_TM_LINEAR_ALIGNED)
+ {
+ // linear mode only needs tile mode to match
+ if (mode == m_tileTable[index].mode)
+ {
+ break;
+ }
+ }
+ else
+ {
+ // micro tile modes only need tile mode and tile type to match
+ if (mode == m_tileTable[index].mode &&
+ type == m_tileTable[index].type)
+ {
+ break;
+ }
+ }
+ }
+ }
+ }
+
+ ADDR_ASSERT(index < static_cast<INT_32>(m_noOfEntries));
+
+ if (index >= static_cast<INT_32>(m_noOfEntries))
+ {
+ index = TileIndexInvalid;
+ }
+
+ return index;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlSetupTileCfg
+*
+* @brief
+* Map tile index to tile setting.
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+ADDR_E_RETURNCODE CIAddrLib::HwlSetupTileCfg(
+ INT_32 index, ///< [in] Tile index
+ INT_32 macroModeIndex, ///< [in] Index in macro tile mode table(CI)
+ ADDR_TILEINFO* pInfo, ///< [out] Tile Info
+ AddrTileMode* pMode, ///< [out] Tile mode
+ AddrTileType* pType ///< [out] Tile type
+ ) const
+{
+ ADDR_E_RETURNCODE returnCode = ADDR_OK;
+
+ // Global flag to control usage of tileIndex
+ if (UseTileIndex(index))
+ {
+ if (static_cast<UINT_32>(index) >= m_noOfEntries)
+ {
+ returnCode = ADDR_INVALIDPARAMS;
+ }
+ else
+ {
+ const ADDR_TILECONFIG* pCfgTable = GetTileSetting(index);
+
+ if (pInfo != NULL)
+ {
+ if (IsMacroTiled(pCfgTable->mode))
+ {
+ ADDR_ASSERT(((macroModeIndex != TileIndexInvalid)
+ && (macroModeIndex != TileIndexNoMacroIndex)));
+ // Here we used tile_bytes to replace of tile_split
+ // According info as below:
+ // "tile_split_c = MIN(ROW_SIZE, tile_split)
+ // "tile_bytes = MIN(tile_split_c, num_samples * tile_bytes_1x)
+ // when using tile_bytes replacing of tile_split, the result of
+ // alignment and others(such as slicesPerTile) are unaffected -
+ // since if tile_split_c is larger, split won't happen, otherwise
+ // (num_samples * tile_bytes_1x is larger), a correct tile_split is
+ // returned.
+ *pInfo = m_macroTileTable[macroModeIndex];
+
+ if (pCfgTable->type == ADDR_DEPTH_SAMPLE_ORDER)
+ {
+ pInfo->tileSplitBytes = pCfgTable->info.tileSplitBytes;
+ }
+ pInfo->pipeConfig = pCfgTable->info.pipeConfig;
+ }
+ else // 1D and linear modes, we return default value stored in table
+ {
+ *pInfo = pCfgTable->info;
+ }
+ }
+
+ if (pMode != NULL)
+ {
+ *pMode = pCfgTable->mode;
+ }
+
+ if (pType != NULL)
+ {
+ *pType = pCfgTable->type;
+ }
+ }
+ }
+
+ return returnCode;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlComputeSurfaceInfo
+*
+* @brief
+* Entry of ci's ComputeSurfaceInfo
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+ADDR_E_RETURNCODE CIAddrLib::HwlComputeSurfaceInfo(
+ const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure
+ ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure
+ ) const
+{
+ // If tileIndex is invalid, force macroModeIndex to be invalid, too
+ if (pIn->tileIndex == TileIndexInvalid)
+ {
+ pOut->macroModeIndex = TileIndexInvalid;
+ }
+
+ ADDR_E_RETURNCODE retCode = SIAddrLib::HwlComputeSurfaceInfo(pIn,pOut);
+
+ if (pOut->macroModeIndex == TileIndexNoMacroIndex)
+ {
+ pOut->macroModeIndex = TileIndexInvalid;
+ }
+
+ return retCode;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlFmaskSurfaceInfo
+* @brief
+* Entry of r800's ComputeFmaskInfo
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+ADDR_E_RETURNCODE CIAddrLib::HwlComputeFmaskInfo(
+ const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure
+ ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure
+ )
+{
+ ADDR_E_RETURNCODE retCode = ADDR_OK;
+
+ ADDR_TILEINFO tileInfo = {0};
+ ADDR_COMPUTE_FMASK_INFO_INPUT fmaskIn;
+ fmaskIn = *pIn;
+
+ AddrTileMode tileMode = pIn->tileMode;
+
+ // Use internal tile info if pOut does not have a valid pTileInfo
+ if (pOut->pTileInfo == NULL)
+ {
+ pOut->pTileInfo = &tileInfo;
+ }
+
+ ADDR_ASSERT(tileMode == ADDR_TM_2D_TILED_THIN1 ||
+ tileMode == ADDR_TM_3D_TILED_THIN1 ||
+ tileMode == ADDR_TM_PRT_TILED_THIN1 ||
+ tileMode == ADDR_TM_PRT_2D_TILED_THIN1 ||
+ tileMode == ADDR_TM_PRT_3D_TILED_THIN1);
+
+ ADDR_ASSERT(m_tileTable[14].mode == ADDR_TM_2D_TILED_THIN1);
+ ADDR_ASSERT(m_tileTable[15].mode == ADDR_TM_3D_TILED_THIN1);
+
+ // The only valid tile modes for fmask are 2D_THIN1 and 3D_THIN1 plus non-displayable
+ INT_32 tileIndex = tileMode == ADDR_TM_2D_TILED_THIN1 ? 14 : 15;
+ ADDR_SURFACE_FLAGS flags = {{0}};
+ flags.fmask = 1;
+
+ INT_32 macroModeIndex = TileIndexInvalid;
+
+ UINT_32 numSamples = pIn->numSamples;
+ UINT_32 numFrags = pIn->numFrags == 0 ? numSamples : pIn->numFrags;
+
+ UINT_32 bpp = QLog2(numFrags);
+
+ // EQAA needs one more bit
+ if (numSamples > numFrags)
+ {
+ bpp++;
+ }
+
+ if (bpp == 3)
+ {
+ bpp = 4;
+ }
+
+ bpp = Max(8u, bpp * numSamples);
+
+ macroModeIndex = HwlComputeMacroModeIndex(tileIndex, flags, bpp, numSamples, pOut->pTileInfo);
+
+ fmaskIn.tileIndex = tileIndex;
+ fmaskIn.pTileInfo = pOut->pTileInfo;
+ pOut->macroModeIndex = macroModeIndex;
+ pOut->tileIndex = tileIndex;
+
+ retCode = DispatchComputeFmaskInfo(&fmaskIn, pOut);
+
+ if (retCode == ADDR_OK)
+ {
+ pOut->tileIndex =
+ HwlPostCheckTileIndex(pOut->pTileInfo, pIn->tileMode, ADDR_NON_DISPLAYABLE,
+ pOut->tileIndex);
+ }
+
+ // Resets pTileInfo to NULL if the internal tile info is used
+ if (pOut->pTileInfo == &tileInfo)
+ {
+ pOut->pTileInfo = NULL;
+ }
+
+ return retCode;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlFmaskPreThunkSurfInfo
+*
+* @brief
+* Some preparation before thunking a ComputeSurfaceInfo call for Fmask
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+VOID CIAddrLib::HwlFmaskPreThunkSurfInfo(
+ const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, ///< [in] Input of fmask info
+ const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, ///< [in] Output of fmask info
+ ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, ///< [out] Input of thunked surface info
+ ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut ///< [out] Output of thunked surface info
+ ) const
+{
+ pSurfIn->tileIndex = pFmaskIn->tileIndex;
+ pSurfOut->macroModeIndex = pFmaskOut->macroModeIndex;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlFmaskPostThunkSurfInfo
+*
+* @brief
+* Copy hwl extra field after calling thunked ComputeSurfaceInfo
+* @return
+* ADDR_E_RETURNCODE
+***************************************************************************************************
+*/
+VOID CIAddrLib::HwlFmaskPostThunkSurfInfo(
+ const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, ///< [in] Output of surface info
+ ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut ///< [out] Output of fmask info
+ ) const
+{
+ pFmaskOut->tileIndex = pSurfOut->tileIndex;
+ pFmaskOut->macroModeIndex = pSurfOut->macroModeIndex;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlDegradeThickTileMode
+*
+* @brief
+* Degrades valid tile mode for thick modes if needed
+*
+* @return
+* Suitable tile mode
+***************************************************************************************************
+*/
+AddrTileMode CIAddrLib::HwlDegradeThickTileMode(
+ AddrTileMode baseTileMode, ///< [in] base tile mode
+ UINT_32 numSlices, ///< [in] current number of slices
+ UINT_32* pBytesPerTile ///< [in/out] pointer to bytes per slice
+ ) const
+{
+ return baseTileMode;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlOverrideTileMode
+*
+* @brief
+* Override THICK to THIN, for specific formats on CI
+*
+* @return
+* Suitable tile mode
+*
+***************************************************************************************************
+*/
+BOOL_32 CIAddrLib::HwlOverrideTileMode(
+ const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure
+ AddrTileMode* pTileMode, ///< [in/out] pointer to the tile mode
+ AddrTileType* pTileType ///< [in/out] pointer to the tile type
+ ) const
+{
+ BOOL_32 bOverrided = FALSE;
+ AddrTileMode tileMode = *pTileMode;
+
+ // currently, all CI/VI family do not
+ // support ADDR_TM_PRT_2D_TILED_THICK,ADDR_TM_PRT_3D_TILED_THICK and
+ // ADDR_TM_PRT_2D_TILED_THIN1, ADDR_TM_PRT_3D_TILED_THIN1
+ switch (tileMode)
+ {
+ case ADDR_TM_PRT_2D_TILED_THICK:
+ case ADDR_TM_PRT_3D_TILED_THICK:
+ tileMode = ADDR_TM_PRT_TILED_THICK;
+ break;
+ case ADDR_TM_PRT_2D_TILED_THIN1:
+ case ADDR_TM_PRT_3D_TILED_THIN1:
+ tileMode = ADDR_TM_PRT_TILED_THIN1;
+ break;
+ default:
+ break;
+ }
+
+ // UBTS#404321, we do not need such overriding, as THICK+THICK entries removed from the tile-mode table
+ if (!m_settings.isBonaire)
+ {
+ UINT_32 thickness = ComputeSurfaceThickness(tileMode);
+
+ // tile_thickness = (array_mode == XTHICK) ? 8 : ((array_mode == THICK) ? 4 : 1)
+ if (thickness > 1)
+ {
+ switch (pIn->format)
+ {
+ // see //gfxip/gcB/devel/cds/src/verif/tc/models/csim/tcp.cpp
+ // tcpError("Thick micro tiling is not supported for format...
+ case ADDR_FMT_X24_8_32_FLOAT:
+ case ADDR_FMT_32_AS_8:
+ case ADDR_FMT_32_AS_8_8:
+ case ADDR_FMT_32_AS_32_32_32_32:
+
+ // packed formats
+ case ADDR_FMT_GB_GR:
+ case ADDR_FMT_BG_RG:
+ case ADDR_FMT_1_REVERSED:
+ case ADDR_FMT_1:
+ case ADDR_FMT_BC1:
+ case ADDR_FMT_BC2:
+ case ADDR_FMT_BC3:
+ case ADDR_FMT_BC4:
+ case ADDR_FMT_BC5:
+ case ADDR_FMT_BC6:
+ case ADDR_FMT_BC7:
+ switch (tileMode)
+ {
+ case ADDR_TM_1D_TILED_THICK:
+ tileMode = ADDR_TM_1D_TILED_THIN1;
+ break;
+
+ case ADDR_TM_2D_TILED_XTHICK:
+ case ADDR_TM_2D_TILED_THICK:
+ tileMode = ADDR_TM_2D_TILED_THIN1;
+ break;
+
+ case ADDR_TM_3D_TILED_XTHICK:
+ case ADDR_TM_3D_TILED_THICK:
+ tileMode = ADDR_TM_3D_TILED_THIN1;
+ break;
+
+ case ADDR_TM_PRT_TILED_THICK:
+ tileMode = ADDR_TM_PRT_TILED_THIN1;
+ break;
+
+ case ADDR_TM_PRT_2D_TILED_THICK:
+ tileMode = ADDR_TM_PRT_2D_TILED_THIN1;
+ break;
+
+ case ADDR_TM_PRT_3D_TILED_THICK:
+ tileMode = ADDR_TM_PRT_3D_TILED_THIN1;
+ break;
+
+ default:
+ break;
+
+ }
+
+ // Switch tile type from thick to thin
+ if (tileMode != *pTileMode)
+ {
+ // see tileIndex: 13-18
+ *pTileType = ADDR_NON_DISPLAYABLE;
+ }
+
+ break;
+ default:
+ break;
+ }
+ }
+ }
+
+ if (tileMode != *pTileMode)
+ {
+ *pTileMode = tileMode;
+ bOverrided = TRUE;
+ }
+
+ return bOverrided;
+}
+
+/**
+***************************************************************************************************
+* CiAddrLib::GetPrtSwitchP4Threshold
+*
+* @brief
+* Return the threshold of switching to P4_* instead of P16_* for PRT resources
+***************************************************************************************************
+*/
+UINT_32 CIAddrLib::GetPrtSwitchP4Threshold() const
+{
+ UINT_32 threshold;
+
+ switch (m_pipes)
+ {
+ case 8:
+ threshold = 32;
+ break;
+ case 16:
+ if (m_settings.isFiji)
+ {
+ threshold = 16;
+ }
+ else if (m_settings.isHawaii)
+ {
+ threshold = 8;
+ }
+ else
+ {
+ ///@todo add for possible new ASICs.
+ ADDR_ASSERT_ALWAYS();
+ threshold = 16;
+ }
+ break;
+ default:
+ ///@todo add for possible new ASICs.
+ ADDR_ASSERT_ALWAYS();
+ threshold = 32;
+ break;
+ }
+
+ return threshold;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlSetupTileInfo
+*
+* @brief
+* Setup default value of tile info for SI
+***************************************************************************************************
+*/
+VOID CIAddrLib::HwlSetupTileInfo(
+ AddrTileMode tileMode, ///< [in] Tile mode
+ ADDR_SURFACE_FLAGS flags, ///< [in] Surface type flags
+ UINT_32 bpp, ///< [in] Bits per pixel
+ UINT_32 pitch, ///< [in] Pitch in pixels
+ UINT_32 height, ///< [in] Height in pixels
+ UINT_32 numSamples, ///< [in] Number of samples
+ ADDR_TILEINFO* pTileInfoIn, ///< [in] Tile info input: NULL for default
+ ADDR_TILEINFO* pTileInfoOut, ///< [out] Tile info output
+ AddrTileType inTileType, ///< [in] Tile type
+ ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output
+ ) const
+{
+ UINT_32 thickness = ComputeSurfaceThickness(tileMode);
+ ADDR_TILEINFO* pTileInfo = pTileInfoOut;
+ INT index = TileIndexInvalid;
+ INT macroModeIndex = TileIndexInvalid;
+
+ // Fail-safe code
+ if (!IsLinear(tileMode))
+ {
+ // Thick tile modes must use thick micro tile mode but Bonaire does not support due to
+ // old derived netlists (UBTS 404321)
+ if (thickness > 1)
+ {
+ if (m_settings.isBonaire)
+ {
+ inTileType = ADDR_NON_DISPLAYABLE;
+ }
+ else if ((m_allowNonDispThickModes == FALSE) || (inTileType != ADDR_NON_DISPLAYABLE))
+ {
+ inTileType = ADDR_THICK;
+ }
+ }
+ // 128 bpp tiling must be non-displayable.
+ // Fmask reuse color buffer's entry but bank-height field can be from another entry
+ // To simplify the logic, fmask entry should be picked from non-displayable ones
+ else if (bpp == 128 || flags.fmask)
+ {
+ inTileType = ADDR_NON_DISPLAYABLE;
+ }
+ // These two modes only have non-disp entries though they can be other micro tile modes
+ else if (tileMode == ADDR_TM_3D_TILED_THIN1 || tileMode == ADDR_TM_PRT_3D_TILED_THIN1)
+ {
+ inTileType = ADDR_NON_DISPLAYABLE;
+ }
+
+ if (flags.depth || flags.stencil)
+ {
+ inTileType = ADDR_DEPTH_SAMPLE_ORDER;
+ }
+ }
+
+ if (IsTileInfoAllZero(pTileInfo))
+ {
+ // See table entries 0-4
+ if (flags.depth || flags.stencil)
+ {
+ if (flags.depth && flags.tcCompatible)
+ {
+ // tileSize = bpp * numSamples * 8 * 8 / 8
+ UINT_32 tileSize = bpp * numSamples * 8;
+
+ // Texure readable depth surface should not be split
+ switch (tileSize)
+ {
+ case 128:
+ index = 1;
+ break;
+ case 256:
+ index = 2;
+ break;
+ case 512:
+ index = 3;
+ break;
+ default:
+ index = 4;
+ break;
+ }
+ }
+ else
+ {
+ // Depth and stencil need to use the same index, thus the pre-defined tile_split
+ // can meet the requirement to choose the same macro mode index
+ // uncompressed depth/stencil are not supported for now
+ switch (numSamples)
+ {
+ case 1:
+ index = 0;
+ break;
+ case 2:
+ case 4:
+ index = 1;
+ break;
+ case 8:
+ index = 2;
+ break;
+ default:
+ break;
+ }
+ }
+ }
+
+ // See table entries 5-6
+ if (inTileType == ADDR_DEPTH_SAMPLE_ORDER)
+ {
+ switch (tileMode)
+ {
+ case ADDR_TM_1D_TILED_THIN1:
+ index = 5;
+ break;
+ case ADDR_TM_PRT_TILED_THIN1:
+ index = 6;
+ break;
+ default:
+ break;
+ }
+ }
+
+ // See table entries 8-12
+ if (inTileType == ADDR_DISPLAYABLE)
+ {
+ switch (tileMode)
+ {
+ case ADDR_TM_1D_TILED_THIN1:
+ index = 9;
+ break;
+ case ADDR_TM_2D_TILED_THIN1:
+ index = 10;
+ break;
+ case ADDR_TM_PRT_TILED_THIN1:
+ index = 11;
+ break;
+ default:
+ break;
+ }
+ }
+
+ // See table entries 13-18
+ if (inTileType == ADDR_NON_DISPLAYABLE)
+ {
+ switch (tileMode)
+ {
+ case ADDR_TM_1D_TILED_THIN1:
+ index = 13;
+ break;
+ case ADDR_TM_2D_TILED_THIN1:
+ index = 14;
+ break;
+ case ADDR_TM_3D_TILED_THIN1:
+ index = 15;
+ break;
+ case ADDR_TM_PRT_TILED_THIN1:
+ index = 16;
+ break;
+ default:
+ break;
+ }
+ }
+
+ // See table entries 19-26
+ if (thickness > 1)
+ {
+ switch (tileMode)
+ {
+ case ADDR_TM_1D_TILED_THICK:
+ //special check for bonaire, for the compatablity between old KMD and new UMD for bonaire
+ index = ((inTileType == ADDR_THICK) || m_settings.isBonaire) ? 19 : 18;
+ break;
+ case ADDR_TM_2D_TILED_THICK:
+ // special check for bonaire, for the compatablity between old KMD and new UMD for bonaire
+ index = ((inTileType == ADDR_THICK) || m_settings.isBonaire) ? 20 : 24;
+ break;
+ case ADDR_TM_3D_TILED_THICK:
+ index = 21;
+ break;
+ case ADDR_TM_PRT_TILED_THICK:
+ index = 22;
+ break;
+ case ADDR_TM_2D_TILED_XTHICK:
+ index = 25;
+ break;
+ case ADDR_TM_3D_TILED_XTHICK:
+ index = 26;
+ break;
+ default:
+ break;
+ }
+ }
+
+ // See table entries 27-30
+ if (inTileType == ADDR_ROTATED)
+ {
+ switch (tileMode)
+ {
+ case ADDR_TM_1D_TILED_THIN1:
+ index = 27;
+ break;
+ case ADDR_TM_2D_TILED_THIN1:
+ index = 28;
+ break;
+ case ADDR_TM_PRT_TILED_THIN1:
+ index = 29;
+ break;
+ case ADDR_TM_PRT_2D_TILED_THIN1:
+ index = 30;
+ break;
+ default:
+ break;
+ }
+ }
+
+ if (m_pipes >= 8)
+ {
+ ADDR_ASSERT((index + 1) < static_cast<INT_32>(m_noOfEntries));
+ // Only do this when tile mode table is updated.
+ if (((tileMode == ADDR_TM_PRT_TILED_THIN1) || (tileMode == ADDR_TM_PRT_TILED_THICK)) &&
+ (m_tileTable[index+1].mode == tileMode))
+ {
+ UINT_32 bytesXSamples = bpp * numSamples / 8;
+ UINT_32 bytesXThickness = bpp * thickness / 8;
+ UINT_32 switchP4Threshold = GetPrtSwitchP4Threshold();
+
+ if ((bytesXSamples > switchP4Threshold) || (bytesXThickness > switchP4Threshold))
+ {
+ // Pick next 4 pipe entry
+ index += 1;
+ }
+ }
+ }
+ }
+ else
+ {
+ // A pre-filled tile info is ready
+ index = pOut->tileIndex;
+ macroModeIndex = pOut->macroModeIndex;
+
+ // pass tile type back for post tile index compute
+ pOut->tileType = inTileType;
+ }
+
+ // We only need to set up tile info if there is a valid index but macroModeIndex is invalid
+ if (index != TileIndexInvalid && macroModeIndex == TileIndexInvalid)
+ {
+ macroModeIndex = HwlComputeMacroModeIndex(index, flags, bpp, numSamples, pTileInfo);
+
+ /// Copy to pOut->tileType/tileIndex/macroModeIndex
+ pOut->tileIndex = index;
+ pOut->tileType = m_tileTable[index].type; // Or inTileType, the samea
+ pOut->macroModeIndex = macroModeIndex;
+ }
+ else if (tileMode == ADDR_TM_LINEAR_GENERAL)
+ {
+ pOut->tileIndex = TileIndexLinearGeneral;
+
+ // Copy linear-aligned entry??
+ *pTileInfo = m_tileTable[8].info;
+ }
+ else if (tileMode == ADDR_TM_LINEAR_ALIGNED)
+ {
+ pOut->tileIndex = 8;
+ *pTileInfo = m_tileTable[8].info;
+ }
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::ReadGbTileMode
+*
+* @brief
+* Convert GB_TILE_MODE HW value to ADDR_TILE_CONFIG.
+* @return
+* NA.
+***************************************************************************************************
+*/
+VOID CIAddrLib::ReadGbTileMode(
+ UINT_32 regValue, ///< [in] GB_TILE_MODE register
+ ADDR_TILECONFIG* pCfg ///< [out] output structure
+ ) const
+{
+ GB_TILE_MODE gbTileMode;
+ gbTileMode.val = regValue;
+
+ pCfg->type = static_cast<AddrTileType>(gbTileMode.f.micro_tile_mode_new);
+ pCfg->info.pipeConfig = static_cast<AddrPipeCfg>(gbTileMode.f.pipe_config + 1);
+
+ if (pCfg->type == ADDR_DEPTH_SAMPLE_ORDER)
+ {
+ pCfg->info.tileSplitBytes = 64 << gbTileMode.f.tile_split;
+ }
+ else
+ {
+ pCfg->info.tileSplitBytes = 1 << gbTileMode.f.sample_split;
+ }
+
+ UINT_32 regArrayMode = gbTileMode.f.array_mode;
+
+ pCfg->mode = static_cast<AddrTileMode>(regArrayMode);
+
+ switch (regArrayMode)
+ {
+ case 5:
+ pCfg->mode = ADDR_TM_PRT_TILED_THIN1;
+ break;
+ case 6:
+ pCfg->mode = ADDR_TM_PRT_2D_TILED_THIN1;
+ break;
+ case 8:
+ pCfg->mode = ADDR_TM_2D_TILED_XTHICK;
+ break;
+ case 9:
+ pCfg->mode = ADDR_TM_PRT_TILED_THICK;
+ break;
+ case 0xa:
+ pCfg->mode = ADDR_TM_PRT_2D_TILED_THICK;
+ break;
+ case 0xb:
+ pCfg->mode = ADDR_TM_PRT_3D_TILED_THIN1;
+ break;
+ case 0xe:
+ pCfg->mode = ADDR_TM_3D_TILED_XTHICK;
+ break;
+ case 0xf:
+ pCfg->mode = ADDR_TM_PRT_3D_TILED_THICK;
+ break;
+ default:
+ break;
+ }
+
+ // Fail-safe code for these always convert tile info, as the non-macro modes
+ // return the entry of tile mode table directly without looking up macro mode table
+ if (!IsMacroTiled(pCfg->mode))
+ {
+ pCfg->info.banks = 2;
+ pCfg->info.bankWidth = 1;
+ pCfg->info.bankHeight = 1;
+ pCfg->info.macroAspectRatio = 1;
+ pCfg->info.tileSplitBytes = 64;
+ }
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::InitTileSettingTable
+*
+* @brief
+* Initialize the ADDR_TILE_CONFIG table.
+* @return
+* TRUE if tile table is correctly initialized
+***************************************************************************************************
+*/
+BOOL_32 CIAddrLib::InitTileSettingTable(
+ const UINT_32* pCfg, ///< [in] Pointer to table of tile configs
+ UINT_32 noOfEntries ///< [in] Numbe of entries in the table above
+ )
+{
+ BOOL_32 initOk = TRUE;
+
+ ADDR_ASSERT(noOfEntries <= TileTableSize);
+
+ memset(m_tileTable, 0, sizeof(m_tileTable));
+
+ if (noOfEntries != 0)
+ {
+ m_noOfEntries = noOfEntries;
+ }
+ else
+ {
+ m_noOfEntries = TileTableSize;
+ }
+
+ if (pCfg) // From Client
+ {
+ for (UINT_32 i = 0; i < m_noOfEntries; i++)
+ {
+ ReadGbTileMode(*(pCfg + i), &m_tileTable[i]);
+ }
+ }
+ else
+ {
+ ADDR_ASSERT_ALWAYS();
+ initOk = FALSE;
+ }
+
+ if (initOk)
+ {
+ ADDR_ASSERT(m_tileTable[TILEINDEX_LINEAR_ALIGNED].mode == ADDR_TM_LINEAR_ALIGNED);
+
+ if (m_settings.isBonaire == FALSE)
+ {
+ // Check if entry 18 is "thick+thin" combination
+ if ((m_tileTable[18].mode == ADDR_TM_1D_TILED_THICK) &&
+ (m_tileTable[18].type == ADDR_NON_DISPLAYABLE))
+ {
+ m_allowNonDispThickModes = TRUE;
+ ADDR_ASSERT(m_tileTable[24].mode == ADDR_TM_2D_TILED_THICK);
+ }
+ }
+ else
+ {
+ m_allowNonDispThickModes = TRUE;
+ }
+
+ // Assume the first entry is always programmed with full pipes
+ m_pipes = HwlGetPipes(&m_tileTable[0].info);
+ }
+
+ return initOk;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::ReadGbMacroTileCfg
+*
+* @brief
+* Convert GB_MACRO_TILE_CFG HW value to ADDR_TILE_CONFIG.
+* @return
+* NA.
+***************************************************************************************************
+*/
+VOID CIAddrLib::ReadGbMacroTileCfg(
+ UINT_32 regValue, ///< [in] GB_MACRO_TILE_MODE register
+ ADDR_TILEINFO* pCfg ///< [out] output structure
+ ) const
+{
+ GB_MACROTILE_MODE gbTileMode;
+ gbTileMode.val = regValue;
+
+ pCfg->bankHeight = 1 << gbTileMode.f.bank_height;
+ pCfg->bankWidth = 1 << gbTileMode.f.bank_width;
+ pCfg->banks = 1 << (gbTileMode.f.num_banks + 1);
+ pCfg->macroAspectRatio = 1 << gbTileMode.f.macro_tile_aspect;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::InitMacroTileCfgTable
+*
+* @brief
+* Initialize the ADDR_MACRO_TILE_CONFIG table.
+* @return
+* TRUE if macro tile table is correctly initialized
+***************************************************************************************************
+*/
+BOOL_32 CIAddrLib::InitMacroTileCfgTable(
+ const UINT_32* pCfg, ///< [in] Pointer to table of tile configs
+ UINT_32 noOfMacroEntries ///< [in] Numbe of entries in the table above
+ )
+{
+ BOOL_32 initOk = TRUE;
+
+ ADDR_ASSERT(noOfMacroEntries <= MacroTileTableSize);
+
+ memset(m_macroTileTable, 0, sizeof(m_macroTileTable));
+
+ if (noOfMacroEntries != 0)
+ {
+ m_noOfMacroEntries = noOfMacroEntries;
+ }
+ else
+ {
+ m_noOfMacroEntries = MacroTileTableSize;
+ }
+
+ if (pCfg) // From Client
+ {
+ for (UINT_32 i = 0; i < m_noOfMacroEntries; i++)
+ {
+ ReadGbMacroTileCfg(*(pCfg + i), &m_macroTileTable[i]);
+
+ m_macroTileTable[i].tileSplitBytes = 64 << (i % 8);
+ }
+ }
+ else
+ {
+ ADDR_ASSERT_ALWAYS();
+ initOk = FALSE;
+ }
+ return initOk;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlComputeMacroModeIndex
+*
+* @brief
+* Computes macro tile mode index
+* @return
+* TRUE if macro tile table is correctly initialized
+***************************************************************************************************
+*/
+INT_32 CIAddrLib::HwlComputeMacroModeIndex(
+ INT_32 tileIndex, ///< [in] Tile mode index
+ ADDR_SURFACE_FLAGS flags, ///< [in] Surface flags
+ UINT_32 bpp, ///< [in] Bit per pixel
+ UINT_32 numSamples, ///< [in] Number of samples
+ ADDR_TILEINFO* pTileInfo, ///< [out] Pointer to ADDR_TILEINFO
+ AddrTileMode* pTileMode, ///< [out] Pointer to AddrTileMode
+ AddrTileType* pTileType ///< [out] Pointer to AddrTileType
+ ) const
+{
+ INT_32 macroModeIndex = TileIndexInvalid;
+
+ if (flags.tcCompatible && flags.stencil)
+ {
+ // Don't compute macroModeIndex for tc compatible stencil surface
+ macroModeIndex = TileIndexNoMacroIndex;
+ }
+ else
+ {
+ AddrTileMode tileMode = m_tileTable[tileIndex].mode;
+ AddrTileType tileType = m_tileTable[tileIndex].type;
+ UINT_32 thickness = ComputeSurfaceThickness(tileMode);
+
+ if (!IsMacroTiled(tileMode))
+ {
+ *pTileInfo = m_tileTable[tileIndex].info;
+ macroModeIndex = TileIndexNoMacroIndex;
+ }
+ else
+ {
+ UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness);
+ UINT_32 tileSplit;
+
+ if (m_tileTable[tileIndex].type == ADDR_DEPTH_SAMPLE_ORDER)
+ {
+ // Depth entries store real tileSplitBytes
+ tileSplit = m_tileTable[tileIndex].info.tileSplitBytes;
+ }
+ else
+ {
+ // Non-depth entries store a split factor
+ UINT_32 sampleSplit = m_tileTable[tileIndex].info.tileSplitBytes;
+ UINT_32 colorTileSplit = Max(256u, sampleSplit * tileBytes1x);
+
+ tileSplit = colorTileSplit;
+ }
+
+ UINT_32 tileSplitC = Min(m_rowSize, tileSplit);
+ UINT_32 tileBytes;
+
+ if (flags.fmask)
+ {
+ tileBytes = Min(tileSplitC, tileBytes1x);
+ }
+ else
+ {
+ tileBytes = Min(tileSplitC, numSamples * tileBytes1x);
+ }
+
+ if (tileBytes < 64)
+ {
+ tileBytes = 64;
+ }
+
+ macroModeIndex = Log2(tileBytes / 64);
+
+ if (flags.prt || IsPrtTileMode(tileMode))
+ {
+ // Unknown - assume it is 1/2 of table size
+ const UINT_32 PrtMacroModeOffset = MacroTileTableSize / 2;
+
+ macroModeIndex += PrtMacroModeOffset;
+ *pTileInfo = m_macroTileTable[macroModeIndex];
+ }
+ else
+ {
+ *pTileInfo = m_macroTileTable[macroModeIndex];
+ }
+
+ pTileInfo->pipeConfig = m_tileTable[tileIndex].info.pipeConfig;
+
+ if (m_tileTable[tileIndex].type != ADDR_DEPTH_SAMPLE_ORDER)
+ {
+ pTileInfo->tileSplitBytes = tileSplitC;
+ }
+ else
+ {
+ pTileInfo->tileSplitBytes = m_tileTable[tileIndex].info.tileSplitBytes;
+ }
+ }
+
+ if (NULL != pTileMode)
+ {
+ *pTileMode = tileMode;
+ }
+
+ if (NULL != pTileType)
+ {
+ *pTileType = tileType;
+ }
+ }
+
+ return macroModeIndex;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlComputeTileDataWidthAndHeightLinear
+*
+* @brief
+* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout
+*
+* @return
+* N/A
+*
+* @note
+* MacroWidth and macroHeight are measured in pixels
+***************************************************************************************************
+*/
+VOID CIAddrLib::HwlComputeTileDataWidthAndHeightLinear(
+ UINT_32* pMacroWidth, ///< [out] macro tile width
+ UINT_32* pMacroHeight, ///< [out] macro tile height
+ UINT_32 bpp, ///< [in] bits per pixel
+ ADDR_TILEINFO* pTileInfo ///< [in] tile info
+ ) const
+{
+ ADDR_ASSERT(pTileInfo != NULL);
+
+ UINT_32 numTiles;
+
+ switch (pTileInfo->pipeConfig)
+ {
+ case ADDR_PIPECFG_P16_32x32_8x16:
+ case ADDR_PIPECFG_P16_32x32_16x16:
+ case ADDR_PIPECFG_P8_32x64_32x32:
+ case ADDR_PIPECFG_P8_32x32_16x32:
+ case ADDR_PIPECFG_P8_32x32_16x16:
+ case ADDR_PIPECFG_P8_32x32_8x16:
+ case ADDR_PIPECFG_P4_32x32:
+ numTiles = 8;
+ break;
+ default:
+ numTiles = 4;
+ break;
+ }
+
+ *pMacroWidth = numTiles * MicroTileWidth;
+ *pMacroHeight = numTiles * MicroTileHeight;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlStereoCheckRightOffsetPadding
+*
+* @brief
+* check if the height needs extra padding for stereo right eye offset, to avoid swizzling
+*
+* @return
+* TRUE is the extra padding is needed
+*
+* @note
+* Kalindi (Kabini) is the only one that needs this padding as there is a uncertain
+* possible HW issue where the right eye displays incorrectly with some type of swizzles, if
+* the right eye offset is not 64KB aligned - EPR#366461
+* Other Kaveri APUs also need the padding according to DXX team's report otherwise
+* corruption observed. - EPR#374788
+***************************************************************************************************
+*/
+BOOL_32 CIAddrLib::HwlStereoCheckRightOffsetPadding() const
+{
+ BOOL_32 bNeedPadding = FALSE;
+
+ if (m_settings.isKaveri)
+ {
+ bNeedPadding = TRUE;
+ }
+
+ return bNeedPadding;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlComputeMetadataNibbleAddress
+*
+* @brief
+* calculate meta data address based on input information
+*
+* &parameter
+* uncompressedDataByteAddress - address of a pixel in color surface
+* dataBaseByteAddress - base address of color surface
+* metadataBaseByteAddress - base address of meta ram
+* metadataBitSize - meta key size, 8 for DCC, 4 for cmask
+* elementBitSize - element size of color surface
+* blockByteSize - compression block size, 256 for DCC
+* pipeInterleaveBytes - pipe interleave size
+* numOfPipes - number of pipes
+* numOfBanks - number of banks
+* numOfSamplesPerSplit - number of samples per tile split
+* @return
+* meta data nibble address (nibble address is used to support DCC compatible cmask)
+*
+***************************************************************************************************
+*/
+UINT_64 CIAddrLib::HwlComputeMetadataNibbleAddress(
+ UINT_64 uncompressedDataByteAddress,
+ UINT_64 dataBaseByteAddress,
+ UINT_64 metadataBaseByteAddress,
+ UINT_32 metadataBitSize,
+ UINT_32 elementBitSize,
+ UINT_32 blockByteSize,
+ UINT_32 pipeInterleaveBytes,
+ UINT_32 numOfPipes,
+ UINT_32 numOfBanks,
+ UINT_32 numOfSamplesPerSplit) const
+{
+ ///--------------------------------------------------------------------------------------------
+ /// Get pipe interleave, bank and pipe bits
+ ///--------------------------------------------------------------------------------------------
+ UINT_32 pipeInterleaveBits = Log2(pipeInterleaveBytes);
+ UINT_32 pipeBits = Log2(numOfPipes);
+ UINT_32 bankBits = Log2(numOfBanks);
+
+ ///--------------------------------------------------------------------------------------------
+ /// Clear pipe and bank swizzles
+ ///--------------------------------------------------------------------------------------------
+ UINT_32 dataMacrotileBits = pipeInterleaveBits + pipeBits + bankBits;
+ UINT_32 metadataMacrotileBits = pipeInterleaveBits + pipeBits + bankBits;
+
+ UINT_64 dataMacrotileClearMask = ~((1L << dataMacrotileBits) - 1);
+ UINT_64 metadataMacrotileClearMask = ~((1L << metadataMacrotileBits) - 1);
+
+ UINT_64 dataBaseByteAddressNoSwizzle = dataBaseByteAddress & dataMacrotileClearMask;
+ UINT_64 metadataBaseByteAddressNoSwizzle = metadataBaseByteAddress & metadataMacrotileClearMask;
+
+ ///--------------------------------------------------------------------------------------------
+ /// Modify metadata base before adding in so that when final address is divided by data ratio,
+ /// the base address returns to where it should be
+ ///--------------------------------------------------------------------------------------------
+ ADDR_ASSERT((0 != metadataBitSize));
+ UINT_64 metadataBaseShifted = metadataBaseByteAddressNoSwizzle * blockByteSize * 8 /
+ metadataBitSize;
+ UINT_64 offset = uncompressedDataByteAddress -
+ dataBaseByteAddressNoSwizzle +
+ metadataBaseShifted;
+
+ ///--------------------------------------------------------------------------------------------
+ /// Save bank data bits
+ ///--------------------------------------------------------------------------------------------
+ UINT_32 lsb = pipeBits + pipeInterleaveBits;
+ UINT_32 msb = bankBits - 1 + lsb;
+
+ UINT_64 bankDataBits = AddrGetBits(offset, msb, lsb);
+
+ ///--------------------------------------------------------------------------------------------
+ /// Save pipe data bits
+ ///--------------------------------------------------------------------------------------------
+ lsb = pipeInterleaveBits;
+ msb = pipeBits - 1 + lsb;
+
+ UINT_64 pipeDataBits = AddrGetBits(offset, msb, lsb);
+
+ ///--------------------------------------------------------------------------------------------
+ /// Remove pipe and bank bits
+ ///--------------------------------------------------------------------------------------------
+ lsb = pipeInterleaveBits;
+ msb = dataMacrotileBits - 1;
+
+ UINT_64 offsetWithoutPipeBankBits = AddrRemoveBits(offset, msb, lsb);
+
+ ADDR_ASSERT((0 != blockByteSize));
+ UINT_64 blockInBankpipe = offsetWithoutPipeBankBits / blockByteSize;
+
+ UINT_32 tileSize = 8 * 8 * elementBitSize/8 * numOfSamplesPerSplit;
+ UINT_32 blocksInTile = tileSize / blockByteSize;
+
+ if (0 == blocksInTile)
+ {
+ lsb = 0;
+ }
+ else
+ {
+ lsb = Log2(blocksInTile);
+ }
+ msb = bankBits - 1 + lsb;
+
+ UINT_64 blockInBankpipeWithBankBits = AddrInsertBits(blockInBankpipe, bankDataBits, msb, lsb);
+
+ /// NOTE *2 because we are converting to Nibble address in this step
+ UINT_64 metaAddressInPipe = blockInBankpipeWithBankBits * 2 * metadataBitSize / 8;
+
+
+ ///--------------------------------------------------------------------------------------------
+ /// Reinsert pipe bits back into the final address
+ ///--------------------------------------------------------------------------------------------
+ lsb = pipeInterleaveBits + 1; ///<+1 due to Nibble address now gives interleave bits extra lsb.
+ msb = pipeBits - 1 + lsb;
+ UINT_64 metadataAddress = AddrInsertBits(metaAddressInPipe, pipeDataBits, msb, lsb);
+
+ return metadataAddress;
+}
+
+/**
+***************************************************************************************************
+* CIAddrLib::HwlPadDimensions
+*
+* @brief
+* Helper function to pad dimensions
+*
+* @return
+* N/A
+*
+***************************************************************************************************
+*/
+VOID CIAddrLib::HwlPadDimensions(
+ AddrTileMode tileMode, ///< [in] tile mode
+ UINT_32 bpp, ///< [in] bits per pixel
+ ADDR_SURFACE_FLAGS flags, ///< [in] surface flags
+ UINT_32 numSamples, ///< [in] number of samples
+ ADDR_TILEINFO* pTileInfo, ///< [in/out] bank structure.
+ UINT_32 padDims, ///< [in] Dimensions to pad valid value 1,2,3
+ UINT_32 mipLevel, ///< [in] MipLevel
+ UINT_32* pPitch, ///< [in/out] pitch in pixels
+ UINT_32 pitchAlign, ///< [in] pitch alignment
+ UINT_32* pHeight, ///< [in/out] height in pixels
+ UINT_32 heightAlign, ///< [in] height alignment
+ UINT_32* pSlices, ///< [in/out] number of slices
+ UINT_32 sliceAlign ///< [in] number of slice alignment
+ ) const
+{
+ if (m_settings.isVolcanicIslands &&
+ flags.dccCompatible &&
+ (numSamples > 1) &&
+ (mipLevel == 0) &&
+ IsMacroTiled(tileMode))
+ {
+ UINT_32 tileSizePerSample = BITS_TO_BYTES(bpp * MicroTileWidth * MicroTileHeight);
+ UINT_32 samplesPerSplit = pTileInfo->tileSplitBytes / tileSizePerSample;
+
+ if (samplesPerSplit < numSamples)
+ {
+ UINT_32 dccFastClearByteAlign = HwlGetPipes(pTileInfo) * m_pipeInterleaveBytes * 256;
+ UINT_32 bytesPerSplit = BITS_TO_BYTES((*pPitch) * (*pHeight) * bpp * samplesPerSplit);
+
+ ADDR_ASSERT(IsPow2(dccFastClearByteAlign));
+
+ if (0 != (bytesPerSplit & (dccFastClearByteAlign - 1)))
+ {
+ UINT_32 dccFastClearPixelAlign = dccFastClearByteAlign /
+ BITS_TO_BYTES(bpp) /
+ samplesPerSplit;
+ UINT_32 macroTilePixelAlign = pitchAlign * heightAlign;
+
+ if ((dccFastClearPixelAlign >= macroTilePixelAlign) &&
+ ((dccFastClearPixelAlign % macroTilePixelAlign) == 0))
+ {
+ UINT_32 dccFastClearPitchAlignInMacroTile =
+ dccFastClearPixelAlign / macroTilePixelAlign;
+ UINT_32 heightInMacroTile = *pHeight / heightAlign;
+ UINT_32 dccFastClearPitchAlignInPixels;
+
+ while ((heightInMacroTile > 1) &&
+ ((heightInMacroTile % 2) == 0) &&
+ (dccFastClearPitchAlignInMacroTile > 1) &&
+ ((dccFastClearPitchAlignInMacroTile % 2) == 0))
+ {
+ heightInMacroTile >>= 1;
+ dccFastClearPitchAlignInMacroTile >>= 1;
+ }
+
+ dccFastClearPitchAlignInPixels = pitchAlign * dccFastClearPitchAlignInMacroTile;
+
+ if (IsPow2(dccFastClearPitchAlignInPixels))
+ {
+ *pPitch = PowTwoAlign((*pPitch), dccFastClearPitchAlignInPixels);
+ }
+ else
+ {
+ *pPitch += (dccFastClearPitchAlignInPixels - 1);
+ *pPitch /= dccFastClearPitchAlignInPixels;
+ *pPitch *= dccFastClearPitchAlignInPixels;
+ }
+ }
+ }
+ }
+ }
+}
+