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|
/* $NoKeywords:$ */
/**
* @file
*
* Fch Gpp Library
*
* Gpp Library
*
* @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 2008 - 2012 ADVANCED MICRO DEVICES, INC. All Rights Reserved.
*
* AMD is granting you permission to use this software (the Materials)
* pursuant to the terms and conditions of your Software License Agreement
* with AMD. This header does *NOT* give you permission to use the Materials
* or any rights under AMD's intellectual property. Your use of any portion
* of these Materials shall constitute your acceptance of those terms and
* conditions. If you do not agree to the terms and conditions of the Software
* License Agreement, please do not use any portion of these Materials.
*
* CONFIDENTIALITY: The Materials and all other information, identified as
* confidential and provided to you by AMD shall be kept confidential in
* accordance with the terms and conditions of the Software License Agreement.
*
* LIMITATION OF LIABILITY: THE MATERIALS AND ANY OTHER RELATED INFORMATION
* PROVIDED TO YOU BY AMD ARE PROVIDED "AS IS" WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTY OF ANY KIND, INCLUDING BUT NOT LIMITED TO WARRANTIES OF
* MERCHANTABILITY, NONINFRINGEMENT, TITLE, FITNESS FOR ANY PARTICULAR PURPOSE,
* OR WARRANTIES ARISING FROM CONDUCT, COURSE OF DEALING, OR USAGE OF TRADE.
* IN NO EVENT SHALL AMD OR ITS LICENSORS BE LIABLE FOR ANY DAMAGES WHATSOEVER
* (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESS
* INTERRUPTION, OR LOSS OF INFORMATION) ARISING OUT OF AMD'S NEGLIGENCE,
* GROSS NEGLIGENCE, THE USE OF OR INABILITY TO USE THE MATERIALS OR ANY OTHER
* RELATED INFORMATION PROVIDED TO YOU BY AMD, EVEN IF AMD HAS BEEN ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGES. BECAUSE SOME JURISDICTIONS PROHIBIT THE
* EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES,
* THE ABOVE LIMITATION MAY NOT APPLY TO YOU.
*
* AMD does not assume any responsibility for any errors which may appear in
* the Materials or any other related information provided to you by AMD, or
* result from use of the Materials or any related information.
*
* You agree that you will not reverse engineer or decompile the Materials.
*
* NO SUPPORT OBLIGATION: AMD is not obligated to furnish, support, or make any
* further information, software, technical information, know-how, or show-how
* available to you. Additionally, AMD retains the right to modify the
* Materials at any time, without notice, and is not obligated to provide such
* modified Materials to you.
*
* U.S. GOVERNMENT RESTRICTED RIGHTS: The Materials are provided with
* "RESTRICTED RIGHTS." Use, duplication, or disclosure by the Government is
* subject to the restrictions as set forth in FAR 52.227-14 and
* DFAR252.227-7013, et seq., or its successor. Use of the Materials by the
* Government constitutes acknowledgement of AMD's proprietary rights in them.
*
* EXPORT ASSURANCE: You agree and certify that neither the Materials, nor any
* direct product thereof will be exported directly or indirectly, into any
* country prohibited by the United States Export Administration Act and the
* regulations thereunder, without the required authorization from the U.S.
* government nor will be used for any purpose prohibited by the same.
****************************************************************************
*/
#include "FchPlatform.h"
#include "Filecode.h"
#include "FchDef.h"
#define FILECODE PROC_FCH_PCIE_GPPLIB_FILECODE
/**
* FchGppForceGen2 - Set GPP to Gen2
*
*
* @param[in] FchGpp Pointer to Fch GPP configuration structure
* @param[in] ActivePorts Activate Ports
* @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS
*
*/
VOID
FchGppForceGen2 (
IN FCH_GPP *FchGpp,
IN CONST UINT8 ActivePorts,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT32 PortId;
for ( PortId = 0; PortId < MAX_GPP_PORTS; PortId++ ) {
if (ActivePorts & (1 << PortId)) {
RwAlink (FCH_RCINDXP_REGA4 | PortId << 24, 0xFFFFFFFF, BIT29 + BIT0, StdHeader);
RwAlink ((FCH_ABCFG_REG340 + PortId * 4) | (UINT32) (ABCFG << 29), 0xFFFFFFFF, BIT21, StdHeader);
RwAlink (FCH_RCINDXP_REGA2 | PortId << 24, (UINT32)~BIT13, 0, StdHeader);
RwAlink (FCH_RCINDXP_REGC0 | PortId << 24, (UINT32)~BIT15, 0, StdHeader);
RwPci (PCI_ADDRESS (0, GPP_DEV_NUM, PortId, 0x88), AccessWidth8, 0xf0, 0x02, StdHeader);
(&FchGpp->PortCfg[PortId])->PortIsGen2 = TRUE;
}
}
}
/**
* FchGppForceGen1 - Set GPP to Gen1
*
*
* @param[in] FchGpp Pointer to Fch GPP configuration structure
* @param[in] ActivePorts Activate Ports
* @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS
*
*/
VOID
FchGppForceGen1 (
IN FCH_GPP *FchGpp,
IN CONST UINT8 ActivePorts,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT32 PortId;
for ( PortId = 0; PortId < MAX_GPP_PORTS; PortId++ ) {
if (ActivePorts & (1 << PortId) && FchGpp->GppHardwareDownGrade != PortId + 1) {
RwAlink ((FCH_ABCFG_REG340 + PortId * 4) | (UINT32) (ABCFG << 29), (UINT32)~BIT21, 0, StdHeader);
RwAlink (FCH_RCINDXP_REGA4 | PortId << 24, (UINT32)~BIT0, BIT29, StdHeader);
RwAlink (FCH_RCINDXP_REGA2 | PortId << 24, 0xFFFFFFFF, BIT13, StdHeader);
RwAlink (FCH_RCINDXP_REGC0 | PortId << 24, (UINT32)~BIT15, 0, StdHeader);
RwPci (PCI_ADDRESS (0, GPP_DEV_NUM, PortId, 0x88), AccessWidth8, 0xf0, 0x01, StdHeader);
(&FchGpp->PortCfg[PortId])->PortIsGen2 = FALSE;
}
}
}
/**
* GppPortPollingLtssm - Loop polling the LTSSM for each GPP port marked in PortMap
*
*
* @param[in] FchGpp Pointer to Fch GPP configuration structure
* @param[in] ActivePorts A bitmap of ports which should be polled
* @param[in] IsGen2 TRUE if the polling is in Gen2 mode
* @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS
*
* @retval FailedPorts A bitmap of ports which failed to train
*
*/
UINT8
GppPortPollingLtssm (
IN FCH_GPP *FchGpp,
IN UINT8 ActivePorts,
IN BOOLEAN IsGen2,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT32 RetryCounter;
UINT8 PortId;
UINT8 FailedPorts;
UINT8 HotPlugPorts;
FCH_GPP_PORT_CONFIG *PortCfg;
UINT32 AbIndex;
UINT32 GppData32;
UINT8 EmptyPorts;
UINT8 Index;
UINT8 FixedPolling;
FailedPorts = 0;
HotPlugPorts = 0;
RetryCounter = MAX_LT_POLLINGS;
EmptyPorts = ActivePorts;
FixedPolling = 200;
if ( FchGpp->NewGppAlgorithm == TRUE ) {
FixedPolling = FchGpp->GppPortMinPollingTime;
}
while (RetryCounter-- && ActivePorts) {
for (PortId = 0; PortId < MAX_GPP_PORTS; PortId++) {
if (ActivePorts & (1 << PortId)) {
PortCfg = &FchGpp->PortCfg[PortId];
if ( PortCfg->PortHotPlug == TRUE ) {
HotPlugPorts |= ( 1 << PortId);
}
AbIndex = FCH_RCINDXP_REGA5 | (UINT32) (PortId << 24);
GppData32 = ReadAlink (AbIndex, StdHeader) & 0x3F3F3F3F;
if ((UINT8) (GppData32) > 0x04) {
EmptyPorts &= ~(1 << PortId);
}
if ((UINT8) (GppData32) == 0x10) {
ActivePorts &= ~(1 << PortId);
PortCfg->PortDetected = TRUE;
break;
}
if (IsGen2) {
for (Index = 0; Index < 4; Index++) {
if ((UINT8) (GppData32) == 0x29 || (UINT8) (GppData32) == 0x2A ) {
ActivePorts &= ~(1 << PortId);
FailedPorts |= (1 << PortId);
break;
}
GppData32 >>= 8;
}
}
}
}
if (EmptyPorts && RetryCounter < (MAX_LT_POLLINGS - (UINT32) FixedPolling)) {
ActivePorts &= ~EmptyPorts;
}
FchStall (1000, StdHeader);
}
FchGpp->HotPlugPortsStatus = HotPlugPorts;
FailedPorts |= ActivePorts;
return FailedPorts;
}
/**
* FchFindPciCap - Find PCI Cap
*
*
* @param[in] PciAddress PCI Address.
* @param[in] TargetCapId Target Cap ID.
* @param[in] StdHeader
*
*/
UINT8
FchFindPciCap (
IN UINT32 PciAddress,
IN UINT8 TargetCapId,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT8 NextCapPtr;
UINT8 CapId;
NextCapPtr = 0x34;
while (NextCapPtr != 0) {
ReadPci (PciAddress + NextCapPtr, AccessWidth8, &NextCapPtr, StdHeader);
if (NextCapPtr == 0xff) {
return 0;
}
if (NextCapPtr != 0) {
ReadPci (PciAddress + NextCapPtr, AccessWidth8, &CapId, StdHeader);
if (CapId == TargetCapId) {
break;
} else {
NextCapPtr++;
}
}
}
return NextCapPtr;
}
STATIC
BOOLEAN
IsDeviceGen2Capable (
IN UINT32 pciAddress,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT8 pcieCapOffset;
UINT8 value8;
UINT16 value16;
pcieCapOffset = FchFindPciCap (pciAddress, PCIE_CAP_ID, StdHeader);
if (pcieCapOffset) {
ReadPci (pciAddress + pcieCapOffset + 0x0C, AccessWidth8, &value8, StdHeader);
if (value8 & BIT1) {
return TRUE;
} else {
ReadPci (pciAddress, AccessWidth16, &value16, StdHeader);
if ((value16 == AMD_FCH_VID) || (value16 == ATI_VID)) {
return TRUE;
}
}
}
return FALSE;
}
/**
*
* 5/10/2011 - BIOS workaround for PLLPD hangup issue (applied for both POST and hotplug phases):
*
* if (GppPhyPllPowerDown == TRUE) {
* if (GppGen2 == TRUE && GppGen2Strap == TRUE) {
* if ((Any EP is GEN2 capable) || (Any EP is AMD/ATI GFX card)) {
* INDXC_REG40[3] = 0;
* } else {
* INDXC_REG40[3] = 1;
* }
* } else {
* INDXC_REG40[3] = 1;
* }
* }
*
*
*
* @param[in] FchGpp Pointer to Fch GPP configuration structure
* @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS
*
*/
VOID
GppGen2Workaround (
IN FCH_GPP *FchGpp,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT8 portId;
UINT8 busNum;
UINT32 reg32Value;
BOOLEAN DisablePllPdInL1;
if (FchGpp->GppPhyPllPowerDown == TRUE) {
DisablePllPdInL1 = FALSE;
if (FchGpp->GppGen2 && FchGpp->GppGen2Strap) {
// Search all EP for max link speed capability
for ( portId = 0; portId < MAX_GPP_PORTS; portId++ ) {
ReadPci (PCI_ADDRESS (0, FCH_GPP_DEV, portId, 0x19), AccessWidth8, &busNum, StdHeader);
if (busNum != 0xFF) {
ReadPci (PCI_ADDRESS (busNum, 0, 0, 0x00), AccessWidth32, ®32Value, StdHeader);
if (reg32Value != 0xffffffff) {
DisablePllPdInL1 = IsDeviceGen2Capable (PCI_ADDRESS (busNum, 0, 0, 0), StdHeader);
if (DisablePllPdInL1 == TRUE) {
break;
}
}
}
}
}
if (DisablePllPdInL1 == TRUE) {
RwAlink (FCH_RCINDXC_REG40, (UINT32)~BIT3, 0, StdHeader);
} else {
RwAlink (FCH_RCINDXC_REG40, (UINT32)~BIT3, BIT3, StdHeader);
}
}
}
UINT32
GppGetFchTempBus (
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT32 FchTempBus;
UINT8 TempValue;
UINT64 MmioMsr;
LibAmdMsrRead (0xC0010058, &MmioMsr, StdHeader);
TempValue = (UINT8) ((MmioMsr & 0x03C) >> 2);
FchTempBus = ( 0x01 << TempValue);
FchTempBus--;
FchTempBus--;
return ( FchTempBus);
}
|
