diff options
author | efdesign98 <efdesign98@gmail.com> | 2011-06-20 18:12:43 -0700 |
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committer | Marc Jones <marcj303@gmail.com> | 2011-06-22 01:35:45 +0200 |
commit | 621ca384a7a5efb2cc7597504dc17b741cd2df10 (patch) | |
tree | 01871adc6d39f48916b5625b3aa1a4b6d5ab9c92 /src/vendorcode/amd/agesa/f14/Proc/GNB/Nb/NbPowerMgmt.c | |
parent | 05a89ab922473f375820a3bd68691bb085c62448 (diff) | |
download | coreboot-621ca384a7a5efb2cc7597504dc17b741cd2df10.tar.xz |
Move existing AMD Ffamily14 code to f14 folder
This change moves the AMD Family14 cpu Agesa code to
the vendorcode/amd/agesa/f14 folder to complete the
transition to the family oriented folder structure.
Change-Id: I211e80ee04574cc713f38b4cc1b767dbb2bfaa59
Signed-off-by: Frank Vibrans <frank.vibrans@amd.com>
Signed-off-by: efdesign98 <efdesign98@gmail.com>
Reviewed-on: http://review.coreboot.org/52
Tested-by: build bot (Jenkins)
Reviewed-by: Marc Jones <marcj303@gmail.com>
Diffstat (limited to 'src/vendorcode/amd/agesa/f14/Proc/GNB/Nb/NbPowerMgmt.c')
-rw-r--r-- | src/vendorcode/amd/agesa/f14/Proc/GNB/Nb/NbPowerMgmt.c | 600 |
1 files changed, 600 insertions, 0 deletions
diff --git a/src/vendorcode/amd/agesa/f14/Proc/GNB/Nb/NbPowerMgmt.c b/src/vendorcode/amd/agesa/f14/Proc/GNB/Nb/NbPowerMgmt.c new file mode 100644 index 0000000000..11a872408a --- /dev/null +++ b/src/vendorcode/amd/agesa/f14/Proc/GNB/Nb/NbPowerMgmt.c @@ -0,0 +1,600 @@ +/* $NoKeywords:$ */ +/** + * @file + * + * NB power management features + * + * + * + * @xrefitem bom "File Content Label" "Release Content" + * @e project: AGESA + * @e sub-project: GNB + * @e \$Revision: 39275 $ @e \$Date: 2010-10-09 08:22:05 +0800 (Sat, 09 Oct 2010) $ + * + */ +/* + ***************************************************************************** + * + * Copyright (c) 2011, Advanced Micro Devices, Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * * Neither the name of Advanced Micro Devices, Inc. nor the names of + * its contributors may be used to endorse or promote products derived + * from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL ADVANCED MICRO DEVICES, INC. BE LIABLE FOR ANY + * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + * *************************************************************************** + * + */ + +/*---------------------------------------------------------------------------------------- + * M O D U L E S U S E D + *---------------------------------------------------------------------------------------- + */ +#include "AGESA.h" +#include "amdlib.h" +#include "Ids.h" +#include "Gnb.h" +#include GNB_MODULE_DEFINITIONS (GnbCommonLib) +#include "NbConfigData.h" +#include "NbSmuLib.h" +#include "NbPowerMgmt.h" +#include "OptionGnb.h" +#include "GfxLib.h" +#include "GnbRegistersON.h" +#include "Filecode.h" +#define FILECODE PROC_GNB_NB_NBPOWERMGMT_FILECODE +/*---------------------------------------------------------------------------------------- + * D E F I N I T I O N S A N D M A C R O S + *---------------------------------------------------------------------------------------- + */ +extern GNB_BUILD_OPTIONS GnbBuildOptions; + +/*---------------------------------------------------------------------------------------- + * T Y P E D E F S A N D S T R U C T U R E S + *---------------------------------------------------------------------------------------- + */ + + +/*---------------------------------------------------------------------------------------- + * P R O T O T Y P E S O F L O C A L F U N C T I O N S + *---------------------------------------------------------------------------------------- +*/ + +VOID +NbInitLclkDeepSleep ( + IN GNB_PLATFORM_CONFIG *Gnb + ); + +VOID +NbInitClockGating ( + IN GNB_PLATFORM_CONFIG *Gnb + ); + +/*----------------------------------------------------------------------------------------*/ +/** + * Init various power management features + * + * + * + * @param[in] Gnb Pointer to global Gnb configuration + * @retval AGESA_SUCCESS LCLK DPM initialization success + * @retval AGESA_ERROR LCLK DPM initialization error + */ + +AGESA_STATUS +NbInitPowerManagement ( + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + AGESA_STATUS Status; + Status = AGESA_SUCCESS; + NbInitLclkDeepSleep (Gnb); + NbInitClockGating (Gnb); + return Status; +} + + +/*----------------------------------------------------------------------------------------*/ +/** + * Init NB LCLK Deep Sleep + * + * + * + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitLclkDeepSleep ( + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + SMUx1B_STRUCT SMUx1B; + SMUx1D_STRUCT SMUx1D; + UINT32 LclkDpSlpEn; + IDS_HDT_CONSOLE (GNB_TRACE, "NbInitLclkDeepSleep Enter\n"); + LclkDpSlpEn = GnbBuildOptions.LclkDeepSleepEn ? 1 : 0; + NbSmuIndirectRead (SMUx1B_ADDRESS, AccessWidth16, &SMUx1B.Value, Gnb->StdHeader); + NbSmuIndirectRead (SMUx1D_ADDRESS, AccessWidth16, &SMUx1D.Value, Gnb->StdHeader); + SMUx1B.Field.LclkDpSlpDiv = 5; + SMUx1B.Field.LclkDpSlpMask = (GfxLibIsControllerPresent (Gnb->StdHeader) ? (0xFF) : 0xEF); + SMUx1B.Field.RampDis = 0; + SMUx1D.Field.LclkDpSlpHyst = 0xf; + IDS_OPTION_HOOK (IDS_GNB_LCLK_DEEP_SLEEP, &LclkDpSlpEn, Gnb->StdHeader); + SMUx1D.Field.LclkDpSlpEn = LclkDpSlpEn; + IDS_HDT_CONSOLE (GNB_TRACE, " LCLK Deep Sleep [%s]\n", (LclkDpSlpEn != 0) ? "Enabled" : "Disabled"); + NbSmuIndirectWrite (SMUx1B_ADDRESS, AccessS3SaveWidth16, &SMUx1B.Value, Gnb->StdHeader); + NbSmuIndirectWrite (SMUx1D_ADDRESS, AccessS3SaveWidth16, &SMUx1D.Value, Gnb->StdHeader); + IDS_HDT_CONSOLE (GNB_TRACE, "NbInitLclkDeepSleep Exit\n"); +} + +/** + * Init NB SMU clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitSmuClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Smu_Lclk_Gating; + BOOLEAN Smu_Sclk_Gating; + SMUx73_STRUCT SMUx73; + UINT32 Value; + + Smu_Lclk_Gating = NbClkGatingCtrl->Smu_Lclk_Gating; + Smu_Sclk_Gating = NbClkGatingCtrl->Smu_Sclk_Gating; +//SMUx6F + Value = 0x006001F0; + NbSmuIndirectWrite (SMUx6F_ADDRESS, AccessS3SaveWidth32, &Value, Gnb->StdHeader); +//SMUx71 + Value = 0x007001F0; + NbSmuIndirectWrite (SMUx71_ADDRESS, AccessS3SaveWidth32, &Value, Gnb->StdHeader); +//SMUx73 + NbSmuIndirectRead (SMUx73_ADDRESS, AccessWidth16, &SMUx73.Value, Gnb->StdHeader); + SMUx73.Field.DisLclkGating = Smu_Lclk_Gating ? 0 : 1; + SMUx73.Field.DisSclkGating = Smu_Sclk_Gating ? 0 : 1; + NbSmuIndirectWrite (SMUx73_ADDRESS, AccessS3SaveWidth16, &SMUx73.Value, Gnb->StdHeader); + +} + +/** + * Init NB ORB clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitOrbClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Orb_Sclk_Gating; + BOOLEAN Orb_Lclk_Gating; + D0F0x98_x49_STRUCT D0F0x98_x49; + D0F0x98_x4A_STRUCT D0F0x98_x4A; + D0F0x98_x4B_STRUCT D0F0x98_x4B; + FCRxFF30_01F5_STRUCT FCRxFF30_01F5; + + Orb_Sclk_Gating = NbClkGatingCtrl->Orb_Sclk_Gating; + Orb_Lclk_Gating = NbClkGatingCtrl->Orb_Lclk_Gating; + + // ORB clock gating (Lclk) +//D0F0x98_x4[A:9] + GnbLibPciIndirectRead ( + Gnb->GnbPciAddress.AddressValue | D0F0x94_ADDRESS, + D0F0x98_x49_ADDRESS, + AccessWidth32, + &D0F0x98_x49.Value, + Gnb->StdHeader + ); + + D0F0x98_x49.Field.SoftOverrideClk6 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x49.Field.SoftOverrideClk5 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x49.Field.SoftOverrideClk4 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x49.Field.SoftOverrideClk3 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x49.Field.SoftOverrideClk2 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x49.Field.SoftOverrideClk1 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x49.Field.SoftOverrideClk0 = Orb_Lclk_Gating ? 0 : 1; + + GnbLibPciIndirectWrite ( + Gnb->GnbPciAddress.AddressValue | D0F0x94_ADDRESS, + D0F0x98_x49_ADDRESS | (1 << D0F0x94_OrbIndWrEn_OFFSET), + AccessS3SaveWidth32, + &D0F0x98_x49.Value, + Gnb->StdHeader + ); + + GnbLibPciIndirectRead ( + Gnb->GnbPciAddress.AddressValue | D0F0x94_ADDRESS, + D0F0x98_x4A_ADDRESS | (1 << D0F0x94_OrbIndWrEn_OFFSET), + AccessWidth32, + &D0F0x98_x4A.Value, + Gnb->StdHeader + ); + + D0F0x98_x4A.Field.SoftOverrideClk6 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x4A.Field.SoftOverrideClk5 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x4A.Field.SoftOverrideClk4 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x4A.Field.SoftOverrideClk3 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x4A.Field.SoftOverrideClk2 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x4A.Field.SoftOverrideClk1 = Orb_Lclk_Gating ? 0 : 1; + D0F0x98_x4A.Field.SoftOverrideClk0 = Orb_Lclk_Gating ? 0 : 1; + + + GnbLibPciIndirectWrite ( + Gnb->GnbPciAddress.AddressValue | D0F0x94_ADDRESS, + D0F0x98_x4A_ADDRESS | (1 << D0F0x94_OrbIndWrEn_OFFSET), + AccessS3SaveWidth32, + &D0F0x98_x4A.Value, + Gnb->StdHeader + ); + +//D0F0x98_x4B + GnbLibPciIndirectRead ( + Gnb->GnbPciAddress.AddressValue | D0F0x94_ADDRESS, + D0F0x98_x4B_ADDRESS | (1 << D0F0x94_OrbIndWrEn_OFFSET), + AccessWidth32, + &D0F0x98_x4B.Value, + Gnb->StdHeader + ); + + D0F0x98_x4B.Field.SoftOverrideClk = Orb_Sclk_Gating ? 0 : 1; + + GnbLibPciIndirectWrite ( + Gnb->GnbPciAddress.AddressValue | D0F0x94_ADDRESS, + D0F0x98_x4B_ADDRESS | (1 << D0F0x94_OrbIndWrEn_OFFSET), + AccessS3SaveWidth32, + &D0F0x98_x4B.Value, + Gnb->StdHeader + ); + +//FCRxFF30_01F5[CgOrbCgttLclkOverride, CgOrbCgttSclkOverride] + NbSmuSrbmRegisterRead (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, Gnb->StdHeader); + FCRxFF30_01F5.Field.CgOrbCgttLclkOverride = 0; + FCRxFF30_01F5.Field.CgOrbCgttSclkOverride = 0; + NbSmuSrbmRegisterWrite (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, TRUE, Gnb->StdHeader); + +} + +/** + * Init NB IOC clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitIocClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Ioc_Lclk_Gating; + BOOLEAN Ioc_Sclk_Gating; + D0F0x64_x22_STRUCT D0F0x64_x22; + D0F0x64_x23_STRUCT D0F0x64_x23; + D0F0x64_x24_STRUCT D0F0x64_x24; + FCRxFF30_01F5_STRUCT FCRxFF30_01F5; + + Ioc_Lclk_Gating = NbClkGatingCtrl->Ioc_Lclk_Gating; + Ioc_Sclk_Gating = NbClkGatingCtrl->Ioc_Sclk_Gating; + +//D0F0x64_x22 + GnbLibPciIndirectRead ( + Gnb->GnbPciAddress.AddressValue | D0F0x60_ADDRESS, + D0F0x64_x22_ADDRESS | IOC_WRITE_ENABLE, + AccessWidth32, + &D0F0x64_x22.Value, + Gnb->StdHeader + ); + + D0F0x64_x22.Field.SoftOverrideClk4 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x22.Field.SoftOverrideClk3 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x22.Field.SoftOverrideClk2 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x22.Field.SoftOverrideClk1 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x22.Field.SoftOverrideClk0 = Ioc_Lclk_Gating ? 0 : 1; + + GnbLibPciIndirectWrite ( + Gnb->GnbPciAddress.AddressValue | D0F0x60_ADDRESS, + D0F0x64_x22_ADDRESS | IOC_WRITE_ENABLE, + AccessS3SaveWidth32, + &D0F0x64_x22.Value, + Gnb->StdHeader + ); +//D0F0x64_x23 + GnbLibPciIndirectRead ( + Gnb->GnbPciAddress.AddressValue | D0F0x60_ADDRESS, + D0F0x64_x23_ADDRESS | IOC_WRITE_ENABLE, + AccessWidth32, + &D0F0x64_x23.Value, + Gnb->StdHeader + ); + + //D0F0x64_x23.Field.SoftOverrideClk4 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x23.Field.SoftOverrideClk3 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x23.Field.SoftOverrideClk2 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x23.Field.SoftOverrideClk1 = Ioc_Lclk_Gating ? 0 : 1; + D0F0x64_x23.Field.SoftOverrideClk0 = Ioc_Lclk_Gating ? 0 : 1; + + GnbLibPciIndirectWrite ( + Gnb->GnbPciAddress.AddressValue | D0F0x60_ADDRESS, + D0F0x64_x23_ADDRESS | IOC_WRITE_ENABLE, + AccessS3SaveWidth32, + &D0F0x64_x23.Value, + Gnb->StdHeader + ); + //D0F0x64_x24 + GnbLibPciIndirectRead ( + Gnb->GnbPciAddress.AddressValue | D0F0x60_ADDRESS, + D0F0x64_x24_ADDRESS | IOC_WRITE_ENABLE, + AccessWidth32, + &D0F0x64_x24.Value, + Gnb->StdHeader + ); + + D0F0x64_x24.Field.SoftOverrideClk1 = Ioc_Sclk_Gating ? 0 : 1; + D0F0x64_x24.Field.SoftOverrideClk0 = Ioc_Sclk_Gating ? 0 : 1; + + GnbLibPciIndirectWrite ( + Gnb->GnbPciAddress.AddressValue | D0F0x60_ADDRESS, + D0F0x64_x24_ADDRESS | IOC_WRITE_ENABLE, + AccessS3SaveWidth32, + &D0F0x64_x24.Value, + Gnb->StdHeader + ); +//FCRxFF30_01F5[CgIocCgttLclkOverride, CgIocCgttSclkOverride] + NbSmuSrbmRegisterRead (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, Gnb->StdHeader); + FCRxFF30_01F5.Field.CgIocCgttLclkOverride = 0; + FCRxFF30_01F5.Field.CgIocCgttSclkOverride = 0; + NbSmuSrbmRegisterWrite (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, TRUE, Gnb->StdHeader); +} +/** + * Init NB BIF clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitBifClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Bif_Sclk_Gating; + FCRxFF30_01F4_STRUCT FCRxFF30_01F4; + FCRxFF30_1512_STRUCT FCRxFF30_1512; + + + Bif_Sclk_Gating = NbClkGatingCtrl->Bif_Sclk_Gating; + +//FCRxFF30_01F4[CgBifCgttSclkOverride]. + NbSmuSrbmRegisterRead (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, Gnb->StdHeader); + FCRxFF30_01F4.Field.CgBifCgttSclkOverride = 0; + NbSmuSrbmRegisterWrite (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, TRUE, Gnb->StdHeader); +//FCRxFF30_1512 + NbSmuSrbmRegisterRead (FCRxFF30_1512_ADDRESS, &FCRxFF30_1512.Value, Gnb->StdHeader); + FCRxFF30_1512.Field.SoftOverride0 = Bif_Sclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_1512_ADDRESS, &FCRxFF30_1512.Value, TRUE, Gnb->StdHeader); + +} + +/** + * Init NB Gmc clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitGmcClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Gmc_Sclk_Gating; + FCRxFF30_01F4_STRUCT FCRxFF30_01F4; + FCRxFF30_01F5_STRUCT FCRxFF30_01F5; + + Gmc_Sclk_Gating = NbClkGatingCtrl->Gmc_Sclk_Gating; + +//FCRxFF30_01F4[CgMcdwCgttSclkOverride, CgMcbCgttSclkOverride] + NbSmuSrbmRegisterRead (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, Gnb->StdHeader); + FCRxFF30_01F4.Field.CgMcbCgttSclkOverride = Gmc_Sclk_Gating ? 0 : 1; + FCRxFF30_01F4.Field.CgMcdwCgttSclkOverride = Gmc_Sclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, TRUE, Gnb->StdHeader); + +//FCRxFF30_01F5[CgVmcCgttSclkOverride] + NbSmuSrbmRegisterRead (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, Gnb->StdHeader); + FCRxFF30_01F5.Field.CgVmcCgttSclkOverride = Gmc_Sclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, TRUE, Gnb->StdHeader); + +} + +/** + * Init NB Dce Sclk clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitDceSclkClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Dce_Sclk_Gating; + FCRxFF30_0134_STRUCT FCRxFF30_0134; + FCRxFF30_01F4_STRUCT FCRxFF30_01F4; + + Dce_Sclk_Gating = NbClkGatingCtrl->Dce_Sclk_Gating; + +//GMMx4D0[SymclkbGateDisable, SymclkaGateDisable, SclkGateDisable] + NbSmuSrbmRegisterRead (FCRxFF30_0134_ADDRESS, &FCRxFF30_0134.Value, Gnb->StdHeader); + FCRxFF30_0134.Field.SclkGateDisable = Dce_Sclk_Gating ? 0 : 1; + FCRxFF30_0134.Field.SymclkaGateDisable = Dce_Sclk_Gating ? 0 : 1; + FCRxFF30_0134.Field.SymclkbGateDisable = Dce_Sclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_0134_ADDRESS, &FCRxFF30_0134.Value, TRUE, Gnb->StdHeader); + +//FCRxFF30_01F4[CgDcCgttSclkOverride] + NbSmuSrbmRegisterRead (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, Gnb->StdHeader); + FCRxFF30_01F4.Field.CgDcCgttSclkOverride = 0; + NbSmuSrbmRegisterWrite (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, TRUE, Gnb->StdHeader); + +} + +/** + * Init NB Dce Display clock gating + * + * + * + * @param[in] NbClkGatingCtrl Pointer to Clock gating control structure + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitDceDisplayClockGating ( + IN NB_CLK_GATING_CTRL *NbClkGatingCtrl, + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + BOOLEAN Dce_Dispclk_Gating; + FCRxFF30_0134_STRUCT FCRxFF30_0134; + FCRxFF30_1B7C_STRUCT FCRxFF30_1B7C; + FCRxFF30_1E7C_STRUCT FCRxFF30_1E7C; + FCRxFF30_01F5_STRUCT FCRxFF30_01F5; + + Dce_Dispclk_Gating = NbClkGatingCtrl->Dce_Dispclk_Gating; + +//GMMx4D0[DispclkRDccgGateDisable,DispclkDccgGateDisable] + NbSmuSrbmRegisterRead (FCRxFF30_0134_ADDRESS, &FCRxFF30_0134.Value, Gnb->StdHeader); + FCRxFF30_0134.Field.DispclkDccgGateDisable = Dce_Dispclk_Gating ? 0 : 1; + FCRxFF30_0134.Field.DispclkRDccgGateDisable = Dce_Dispclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_0134_ADDRESS, &FCRxFF30_0134.Value, TRUE, Gnb->StdHeader); + +//GMMx[79,6D]F0[CrtcDispclkGSclGateDisable, CrtcDispclkGDcpGateDisable, CrtcDispclkRDcfeGateDisable] + NbSmuSrbmRegisterRead (FCRxFF30_1B7C_ADDRESS, &FCRxFF30_1B7C.Value, Gnb->StdHeader); + FCRxFF30_1B7C.Field.CrtcDispclkRDcfeGateDisable = Dce_Dispclk_Gating ? 0 : 1; + FCRxFF30_1B7C.Field.CrtcDispclkGDcpGateDisable = Dce_Dispclk_Gating ? 0 : 1; + FCRxFF30_1B7C.Field.CrtcDispclkGSclGateDisable = Dce_Dispclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_1B7C_ADDRESS, &FCRxFF30_1B7C.Value, TRUE, Gnb->StdHeader); + + NbSmuSrbmRegisterRead (FCRxFF30_1E7C_ADDRESS, &FCRxFF30_1E7C.Value, Gnb->StdHeader); + FCRxFF30_1E7C.Field.CrtcDispclkRDcfeGateDisable = Dce_Dispclk_Gating ? 0 : 1; + FCRxFF30_1E7C.Field.CrtcDispclkGDcpGateDisable = Dce_Dispclk_Gating ? 0 : 1; + FCRxFF30_1E7C.Field.CrtcDispclkGSclGateDisable = Dce_Dispclk_Gating ? 0 : 1; + NbSmuSrbmRegisterWrite (FCRxFF30_1E7C_ADDRESS, &FCRxFF30_1E7C.Value, TRUE, Gnb->StdHeader); + +//FCRxFF30_01F5[CgDcCgttDispclkOverride] + NbSmuSrbmRegisterRead (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, Gnb->StdHeader); + FCRxFF30_01F5.Field.CgDcCgttDispClkOverride = 0; + NbSmuSrbmRegisterWrite (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, TRUE, Gnb->StdHeader); + +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Init NB clock gating + * + * + * + * @param[in] Gnb Pointer to global Gnb configuration + */ + +VOID +NbInitClockGating ( + IN GNB_PLATFORM_CONFIG *Gnb + ) +{ + NB_CLK_GATING_CTRL NbClkGatingCtrl; + + //Init the default value of control structure. + NbClkGatingCtrl.Smu_Sclk_Gating = GnbBuildOptions.SmuSclkClockGatingEnable; + NbClkGatingCtrl.Smu_Lclk_Gating = TRUE; + NbClkGatingCtrl.Orb_Sclk_Gating = TRUE; + NbClkGatingCtrl.Orb_Lclk_Gating = TRUE; + NbClkGatingCtrl.Ioc_Sclk_Gating = TRUE; + NbClkGatingCtrl.Ioc_Lclk_Gating = TRUE; + NbClkGatingCtrl.Bif_Sclk_Gating = TRUE; + NbClkGatingCtrl.Gmc_Sclk_Gating = TRUE; + NbClkGatingCtrl.Dce_Sclk_Gating = TRUE; + NbClkGatingCtrl.Dce_Dispclk_Gating = TRUE; + + IDS_OPTION_HOOK (IDS_GNB_CLOCK_GATING, &NbClkGatingCtrl, Gnb->StdHeader); + + + IDS_HDT_CONSOLE (GNB_TRACE, "NbInitClockGating Enter\n"); + +//SMU SCLK/LCLK clock gating + NbInitSmuClockGating (&NbClkGatingCtrl, Gnb); + +// ORB clock gating + NbInitOrbClockGating (&NbClkGatingCtrl, Gnb); + +//IOC clock gating + NbInitIocClockGating (&NbClkGatingCtrl, Gnb); + +//BIF Clock Gating + NbInitBifClockGating (&NbClkGatingCtrl, Gnb); + +//GMC Clock Gating + NbInitGmcClockGating (&NbClkGatingCtrl, Gnb); + +//DCE Sclk clock gating + NbInitDceSclkClockGating (&NbClkGatingCtrl, Gnb); + +//DCE Display clock gating + NbInitDceDisplayClockGating (&NbClkGatingCtrl, Gnb); + + GNB_DEBUG_CODE ( + { + FCRxFF30_01F4_STRUCT FCRxFF30_01F4; + FCRxFF30_01F5_STRUCT FCRxFF30_01F5; + FCRxFF30_1512_STRUCT FCRxFF30_1512; + NbSmuSrbmRegisterRead (FCRxFF30_01F4_ADDRESS, &FCRxFF30_01F4.Value, Gnb->StdHeader); + NbSmuSrbmRegisterRead (FCRxFF30_01F5_ADDRESS, &FCRxFF30_01F5.Value, Gnb->StdHeader); + NbSmuSrbmRegisterRead (FCRxFF30_1512_ADDRESS, &FCRxFF30_1512.Value, Gnb->StdHeader); + IDS_HDT_CONSOLE (NB_MISC, " Clock Gating FCRxFF30_01F4 - 0x%x\n", FCRxFF30_01F4.Value); + IDS_HDT_CONSOLE (NB_MISC, " Clock Gating FCRxFF30_01F5 - 0x%x\n", FCRxFF30_01F5.Value); + IDS_HDT_CONSOLE (NB_MISC, " Clock Gating FCRxFF30_1512 - 0x%x\n", FCRxFF30_1512.Value); + } + ); + IDS_HDT_CONSOLE (GNB_TRACE, "NbInitClockGating End\n"); +} |