/* $NoKeywords:$ */ /** * @file * * Config Fch GPP controller * * Init GPP features. * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: FCH * @e \$Revision: 63425 $ @e \$Date: 2011-12-22 11:24:10 -0600 (Thu, 22 Dec 2011) $ * */ /* ***************************************************************************** * * Copyright (c) 2008 - 2012, 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. **************************************************************************** */ #include "FchPlatform.h" #include "Ids.h" #include "Filecode.h" #define FILECODE PROC_FCH_PCIE_GPPHP_FILECODE VOID FchGppHotplugSmiCallback ( IN VOID *DataPtr ); /** * GPP hot plug handler * * * @param[in] FchGpp Pointer to Fch GPP configuration structure * @param[in] HpPort The hot plug port number * @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS * */ STATIC VOID FchGppHotPlugSmiProcess ( IN FCH_GPP *FchGpp, IN UINT32 HpPort, IN AMD_CONFIG_PARAMS *StdHeader ) { UINT8 FailedPort; UINT8 GppS3Data; GppS3Data = 0x00; ReadMem ( ACPI_MMIO_BASE + CMOS_RAM_BASE + 0x0D, AccessWidth8, &GppS3Data); RwAlink (FCH_RCINDXC_REG40, (UINT32)~BIT3, 0, StdHeader); // // First restore GPP pads if needed // if (FchGpp->GppDynamicPowerSaving && FchGpp->UmiPhyPllPowerDown && FchGpp->GppPhyPllPowerDown) { RwAlink (0xC0 | (UINT32) (ABCFG << 29), ~(UINT32) (1 << (12 + HpPort)), 0, StdHeader); RwAlink (FCH_RCINDXC_REG65, ~(UINT32) (0x101 << HpPort), 0, StdHeader); FchStall (1000, StdHeader); } FailedPort = (UINT8) (1 << HpPort); if (FchGpp->GppGen2 && FchGpp->GppGen2Strap) { GppS3Data &= (UINT8) ~(1 << HpPort); if (GppPortPollingLtssm (FchGpp, FailedPort, TRUE, StdHeader)) { FchGppForceGen1 (FchGpp, FailedPort, StdHeader); FailedPort = GppPortPollingLtssm (FchGpp, FailedPort, FALSE, StdHeader); GppS3Data |= (UINT8) (1 << HpPort); } } else { FchGppForceGen1 (FchGpp, FailedPort, StdHeader); FailedPort = GppPortPollingLtssm (FchGpp, FailedPort, FALSE, StdHeader); GppS3Data |= (UINT8) (1 << HpPort); } GppS3Data |= (UINT8) (1 << (HpPort + 4)); RwMem (ACPI_MMIO_BASE + CMOS_RAM_BASE + 0x0D, AccessWidth8, 0, GppS3Data); GppGen2Workaround (FchGpp, StdHeader); } /** * GPP hot-unplug handler * * * @param[in] FchGpp Pointer to Fch GPP configuration structure * @param[in] HpPort The hot plug port number. * @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS * */ STATIC VOID FchGppHotUnplugSmiProcess ( IN FCH_GPP *FchGpp, IN UINT32 HpPort, IN AMD_CONFIG_PARAMS *StdHeader ) { UINT8 GppS3Data; GppS3Data = 0x00; ReadMem ( ACPI_MMIO_BASE + CMOS_RAM_BASE + 0x0D, AccessWidth8, &GppS3Data); FchGpp->PortCfg[HpPort].PortDetected = FALSE; GppS3Data &= (UINT8) ~(1 << (HpPort + 4)); if (FchGpp->GppGen2 && FchGpp->GppGen2Strap) { FchGppForceGen2 (FchGpp, (UINT8) (1 << HpPort), StdHeader); } if (FchGpp->GppDynamicPowerSaving && FchGpp->UmiPhyPllPowerDown && FchGpp->GppPhyPllPowerDown) { RwAlink (FCH_RCINDXP_REGA2 | HpPort << 24, ~(UINT32) (BIT17), BIT17, StdHeader); RwAlink (FCH_RCINDXP_REGA2 | HpPort << 24, ~(UINT32) (BIT8), BIT8, StdHeader); RwAlink (0xC0 | (UINT32) (ABCFG << 29), ~(UINT32) (1 << (12 + HpPort)), (1 << (12 + HpPort)), StdHeader); RwAlink (FCH_RCINDXP_REGA2 | HpPort << 24, ~(UINT32) (BIT17), 0, StdHeader); GppGen2Workaround (FchGpp, StdHeader); // Finally re-configure GPP pads if needed FchGppDynamicPowerSaving (FchGpp, StdHeader); } RwMem (ACPI_MMIO_BASE + CMOS_RAM_BASE + 0x0D, AccessWidth8, 0, GppS3Data); } /** * SMI handler for GPP hot-plug * * * @param[in] DataPtr Fch configuration structure pointer. * */ VOID FchGppHotplugSmiCallback ( IN VOID *DataPtr ) { UINT32 PortNum; UINT32 HpPort; FCH_DATA_BLOCK *FchDb; UINT8 HpGeventNum; UINT8 GpioPinState; FchDb = (FCH_DATA_BLOCK*) DataPtr; if (!FchDb->Gpp.GppFunctionEnable) { return; } HpPort = 0xff; for (PortNum = 0; PortNum < MAX_GPP_PORTS; PortNum++) { if (FchDb->Gpp.PortCfg[PortNum].PortHotPlug == TRUE) { HpPort = PortNum; break; } } if (HpPort == 0xff) { return; } HpGeventNum = FchDb->Gpp.GppHotPlugGeventNum & 31; GpioPinState = ACPIMMIO8 (ACPI_MMIO_BASE + GPIO_BASE + FCH_GEVENT_REG00 + HpGeventNum) >> 7; if (!GpioPinState) { AGESA_TESTPOINT (TpFchGppHotPlugging, FchDb->StdHeader); FchGppHotPlugSmiProcess (&FchDb->Gpp, HpPort, FchDb->StdHeader); } else { AGESA_TESTPOINT (TpFchGppHotUnplugging, FchDb->StdHeader); FchGppHotUnplugSmiProcess (&FchDb->Gpp, HpPort, FchDb->StdHeader); } ACPIMMIO32 (ACPI_MMIO_BASE + SMI_BASE + FCH_SMI_REG98) ^= (1 << HpGeventNum); // Swap SmiTrig }