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/* $NoKeywords:$ */
/**
* @file
*
* Northbridge utility routines.
*
* These routines are needed for support of more than one feature area.
* Collect them in this file so build options don't remove them.
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: HyperTransport
* @e \$Revision: 35136 $ @e \$Date: 2010-07-16 11:29:48 +0800 (Fri, 16 Jul 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.
*
* ***************************************************************************
*
*/
/*
*----------------------------------------------------------------------------
* MODULES USED
*
*----------------------------------------------------------------------------
*/
#include "AGESA.h"
#include "amdlib.h"
#include "Ids.h"
#include "Topology.h"
#include "htFeat.h"
#include "htNb.h"
#include "htNbHardwareFam10.h"
#include "htNbUtilitiesFam10.h"
#include "Filecode.h"
CODE_GROUP (G1_PEICC)
RDATA_GROUP (G1_PEICC)
#define FILECODE PROC_HT_FAM10_HTNBUTILITIESFAM10_FILECODE
/*----------------------------------------------------------------------------
* DEFINITIONS AND MACROS
*
*----------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------------------*/
/**
* Return the number of cores (1 based count) on Node.
*
* @HtNbMethod{::F_GET_NUM_CORES_ON_NODE}
*
* @param[in] Node the Node that will be examined
* @param[in] Nb this northbridge
*
* @return the number of cores
*/
UINT8
Fam10GetNumCoresOnNode (
IN UINT8 Node,
IN NORTHBRIDGE *Nb
)
{
UINT32 Result;
UINT32 Leveling;
UINT32 Cores;
UINT8 i;
PCI_ADDR Reg;
ASSERT ((Node < MAX_NODES));
// Read CmpCap
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_CAPABILITY_3XE8);
LibAmdPciReadBits (Reg, 13, 12, &Cores, Nb->ConfigHandle);
// Support Downcoring
Result = Cores;
Cores++;
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_DOWNCORE_3X190);
LibAmdPciReadBits (Reg, 3, 0, &Leveling, Nb->ConfigHandle);
for (i = 0; i < Cores; i++) {
if ((Leveling & ((UINT32) 1 << i)) != 0) {
Result--;
}
}
return (UINT8) (Result + 1);
}
/*----------------------------------------------------------------------------------------*/
/**
* Return the number of cores (1 based count) on Node.
*
* @HtNbMethod{::F_GET_NUM_CORES_ON_NODE}.
*
* @param[in] Node the Node that will be examined
* @param[in] Nb this northbridge
*
* @return the number of cores
*/
UINT8
Fam10RevDGetNumCoresOnNode (
IN UINT8 Node,
IN NORTHBRIDGE *Nb
)
{
UINT32 Result;
UINT32 Leveling;
UINT32 Cores;
UINT32 Cores2;
UINT8 i;
PCI_ADDR Reg;
ASSERT ((Node < MAX_NODES));
// Read CmpCap
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_CAPABILITY_3XE8);
LibAmdPciReadBits (Reg, 13, 12, &Cores, Nb->ConfigHandle);
LibAmdPciReadBits (Reg, 15, 15, &Cores2, Nb->ConfigHandle);
Cores = Cores + (Cores2 << 2);
// Support Downcoring
Result = Cores;
Cores++;
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_DOWNCORE_3X190);
LibAmdPciReadBits (Reg, 5, 0, &Leveling, Nb->ConfigHandle);
for (i = 0; i < Cores; i++) {
if ((Leveling & ((UINT32) 1 << i)) != 0) {
Result--;
}
}
return (UINT8) (Result + 1);
}
/*----------------------------------------------------------------------------------------*/
/**
* Get the next link for iterating over the links on a node in the correct order.
*
* @HtNbMethod{::F_GET_NEXT_LINK}
*
* Family 10h specific implementation use the Internal Link field in
* the northbridge to prioritize internal links in the order.
*
* @param[in] Node The node on which to iterate links.
* @param[in,out] Link IN: the current iteration context, OUT: the next link.
* @param[in] Nb This Northbridge, access to config pointer.
*
* @retval LinkIteratorExternal The current Link is an external link.
* @retval LinkIteratorInternal The current Link is an internal link.
* @retval LinkIteratorEnd There is no next link (Link is back to BEGIN).
*
*/
LINK_ITERATOR_STATUS
Fam10GetNextLink (
IN UINT8 Node,
IN OUT UINT8 *Link,
IN NORTHBRIDGE *Nb
)
{
PCI_ADDR Reg;
UINT32 InternalLinks;
UINT32 ExternalLinks;
UINT32 HigherLinks;
BOOLEAN IsInternalLink;
LINK_ITERATOR_STATUS Status;
ASSERT ((Node < MAX_NODES));
ASSERT ((*Link < Nb->MaxLinks) || (*Link == LINK_ITERATOR_BEGIN));
InternalLinks = 0;
ExternalLinks = 0;
// Read IntLnkRoute from the Link Initialization Status register.
// (Note that this register field is not reserved prior to rev D, but should be zero.)
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_HTNB_FUNC_00,
REG_HT_LINK_INITIALIZATION_0X1A0);
LibAmdPciReadBits (Reg, 23, 16, &InternalLinks, Nb->ConfigHandle);
// The external links are all possible links which are not Internal
ExternalLinks = (((1 << Nb->MaxLinks) - 1) ^ InternalLinks);
// Can't have no possible links!
ASSERT ((ExternalLinks != 0) || (InternalLinks != 0));
if (*Link == LINK_ITERATOR_BEGIN) {
// If the request is for the first link (BEGIN), get it
if (InternalLinks != 0) {
*Link = LibAmdBitScanForward (InternalLinks);
Status = LinkIteratorInternal;
} else {
*Link = LibAmdBitScanForward (ExternalLinks);
Status = LinkIteratorExternal;
}
} else {
// If the iterator is not at the beginning, search for the next Link starting from the
// current link.
HigherLinks = InternalLinks & ~((1 << (*Link + 1)) - 1);
IsInternalLink = (BOOLEAN) ((InternalLinks & (1 << *Link)) != 0);
if (IsInternalLink && (HigherLinks != 0)) {
// We are still on internal links and there are more to do.
*Link = LibAmdBitScanForward (HigherLinks);
Status = LinkIteratorInternal;
} else {
if (IsInternalLink) {
// We are transitioning now from internal to external, so get the first external link
HigherLinks = ExternalLinks;
} else {
// We are already iterating over external links, so get the next one
HigherLinks = ExternalLinks & ~((1 << (*Link + 1)) - 1);
}
if (HigherLinks != 0) {
*Link = LibAmdBitScanForward (HigherLinks);
Status = LinkIteratorExternal;
} else {
// The end of all links
*Link = LINK_ITERATOR_BEGIN;
Status = LinkIteratorEnd;
}
}
}
return Status;
}
/*----------------------------------------------------------------------------------------*/
/**
* Get Info about Module Type of this northbridge
*
* @HtNbMethod{::F_GET_MODULE_INFO}
*
* Provide the Processor module type, single or multi, and the node's module id.
*
* @param[in] Node the Node
* @param[out] ModuleType 0 for Single, 1 for Multi
* @param[out] Module The module number of this node (0 if Single)
* @param[in] Nb this northbridge
*
*/
VOID
Fam10GetModuleInfo (
IN UINT8 Node,
OUT UINT8 *ModuleType,
OUT UINT8 *Module,
IN NORTHBRIDGE *Nb
)
{
PCI_ADDR Reg;
UINT32 MultNodeCpu;
UINT32 IntNodeNum;
ASSERT (Node < MAX_NODES);
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_CAPABILITY_3XE8);
LibAmdPciReadBits (Reg, 29, 29, &MultNodeCpu, Nb->ConfigHandle);
LibAmdPciReadBits (Reg, 31, 30, &IntNodeNum, Nb->ConfigHandle);
*ModuleType = (UINT8) MultNodeCpu;
*Module = (UINT8) IntNodeNum;
}
/*----------------------------------------------------------------------------------------*/
/**
* Implement the hardware method of doing Socket Naming, by accessing this northbridge's Socket Id register.
*
* @HtNbMethod{::F_GET_SOCKET}
*
* The hardware socket naming method is not available for Family 10h prior to rev D.
*
* @param[in] Node The node for which we want the socket id.
* @param[in] TempNode The temporary node id route where the node can be accessed.
* @param[in] Nb Our Northbridge.
*
* @return The Socket Id
*/
UINT8
Fam10GetSocket (
IN UINT8 Node,
IN UINT8 TempNode,
IN NORTHBRIDGE *Nb
)
{
ASSERT ((Node < MAX_NODES));
ASSERT (TempNode < MAX_NODES);
ASSERT (Nb != NULL);
return (Node);
}
/*----------------------------------------------------------------------------------------*/
/**
* Implement the hardware method of doing Socket Naming, by accessing this northbridge's Socket Id register.
*
* @HtNbMethod{::F_GET_SOCKET}
*
* The Socket Id is strapped to the Sbi Control Register, F3X1E4[6:4]SbiAddr.
*
* @param[in] Node The node for which we want the socket id.
* @param[in] TempNode The temporary node id route where the node can be accessed.
* @param[in] Nb Our Northbridge.
*
* @return The Socket Id
*/
UINT8
Fam10RevDGetSocket (
IN UINT8 Node,
IN UINT8 TempNode,
IN NORTHBRIDGE *Nb
)
{
UINT32 Socket;
PCI_ADDR Reg;
ASSERT ((TempNode < MAX_NODES));
ASSERT ((Node < MAX_NODES));
// Read SbiAddr
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (TempNode),
MakePciBusFromNode (TempNode),
MakePciDeviceFromNode (TempNode),
CPU_NB_FUNC_03,
REG_NB_SBI_CONTROL_3X1E4);
LibAmdPciReadBits (Reg, 6, 4, &Socket, Nb->ConfigHandle);
return ((UINT8) Socket);
}
/*----------------------------------------------------------------------------------------*/
/**
* Post info to AP cores via a mailbox.
*
* @HtNbMethod{::F_POST_MAILBOX}
*
* Use the link MCA counter register as a PCI -> MSR mailbox, for info such as node id,
* and module info.
*
* @param[in] Node the Node
* @param[in] ApMailboxes The info to post
* @param[in] Nb this northbridge
*
*/
VOID
Fam10PostMailbox (
IN UINT8 Node,
IN AP_MAILBOXES ApMailboxes,
IN NORTHBRIDGE *Nb
)
{
PCI_ADDR Reg;
ASSERT (Node < MAX_NODES);
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_MCA_LINK_THRESHOLD_3X168);
LibAmdPciWriteBits (Reg, 11, 0, &ApMailboxes.ApMailInfo.Info, Nb->ConfigHandle);
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_MCA_L3_THRESHOLD_3X170);
LibAmdPciWriteBits (Reg, 11, 0, &ApMailboxes.ApMailExtInfo.Info, Nb->ConfigHandle);
}
/*----------------------------------------------------------------------------------------*/
/**
* Retrieve info from a node's mailbox.
*
* @HtNbMethod{::F_RETRIEVE_MAILBOX}
*
* Use the link MCA counter register as a PCI -> MSR mailbox, for info such as node id,
* and module info.
*
* @param[in] Node the Node
* @param[in] Nb this northbridge
*
* @return The ap mailbox info
*
*/
AP_MAIL_INFO
Fam10RetrieveMailbox (
IN UINT8 Node,
IN NORTHBRIDGE *Nb
)
{
PCI_ADDR Reg;
AP_MAIL_INFO ApMailInfo;
ASSERT (Node < MAX_NODES);
Reg.AddressValue = MAKE_SBDFO (MakePciSegmentFromNode (Node),
MakePciBusFromNode (Node),
MakePciDeviceFromNode (Node),
CPU_NB_FUNC_03,
REG_NB_MCA_LINK_THRESHOLD_3X168);
LibAmdPciReadBits (Reg, 11, 0, &ApMailInfo.Info, Nb->ConfigHandle);
return ApMailInfo;
}
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