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Diffstat (limited to 'src/vendorcode/amd/agesa/f10/Proc/HT/htFeat.h')
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diff --git a/src/vendorcode/amd/agesa/f10/Proc/HT/htFeat.h b/src/vendorcode/amd/agesa/f10/Proc/HT/htFeat.h deleted file mode 100644 index e3c9fa2ea2..0000000000 --- a/src/vendorcode/amd/agesa/f10/Proc/HT/htFeat.h +++ /dev/null @@ -1,559 +0,0 @@ -/** - * @file - * - * HT Features. - * - * This file provides definitions used in common by HT internal modules. The - * data is private and not for external client access. - * Definitions include the HT global internal state data structures, and - * access to the available HT features from the main HT entry point. - * - * This file includes the feature constructor and feature support which is not - * removed with various build options. - * - * @xrefitem bom "File Content Label" "Release Content" - * @e project: AGESA - * @e sub-project: HyperTransport - * @e \$Revision: 44323 $ @e \$Date: 2010-12-22 01:24:58 -0700 (Wed, 22 Dec 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. -* -* *************************************************************************** -* -*/ - -#ifndef _HT_FEAT_H_ -#define _HT_FEAT_H_ - -/** - * @page htimplfeat HT Features Implementation Guide - * - * HT Features provides access to the HT Feature set, in a manner that isolates - * calling code from knowledge about the Feature set implementation or which - * features are supported in the current build. In the case of feature sets, this - * is mostly used for build options to reduce code size by removing unneeded features. - * - * @par Adding a Method to HT Features - * - * To add a new method to the HT Features, follow these steps. - * <ul> - * <li> Create a typedef for the Method with the correct parameters and return type. - * - * <ul> - * <li> Name the method typedef (F_METHOD_NAME)(), where METHOD_NAME is the same name as the method table item, - * but with "_"'s and UPPERCASE, rather than mixed case. - * @n <tt> typedef VOID (F_METHOD_NAME)(); </tt> @n - * - * <li> Make a reference type for references to a method implementation: - * @n <tt> /// Reference to a Method </tt> - * @n <tt> typedef F_METHOD_NAME *PF_METHOD_NAME </tt> @n - * </ul> - * - * <li> Provide a standard doxygen function preamble for the Method typedef. Begin the - * detailed description by providing a reference to the method instances page by including - * the lines below: - * @code - * * - * * @HtFeatInstances. - * * - * @endcode - * @note It is important to provide documentation for the method type, because the method may not - * have an implementation in any families supported by the current package. @n - * - * <li> Add to the ::HT_FEATURES struct an item for the Method: - * @n <tt> PF_METHOD_NAME MethodName; ///< Method: description. </tt> @n - * </ul> - * - * @par Implementing an HT Features Instance of the method. - * - * To implement an instance of a method for a specific feature follow these steps. - * - * - In appropriate files, implement the method with the return type and parameters - * matching the method typedef. - * - * - Name the function MethodName(). - * - * - Create a doxygen function preamble for the method instance. Begin the detailed description with - * an Implements command to reference the method type and add this instance to the Method Instances page. - * @code - * * - * * @HtFeatMethod{::F_METHOD_NAME}. - * * - * @endcode - * - * - To access other Ht feature routines or data as part of the method implementation, the function - * must use HtFeatures->OtherMethod(). Do not directly access other HT feature - * routines, because in the table there may be overrides or this routine may be shared by multiple configurations. - * - * - Add the instance to the ::HT_FEATURES instances. - * - * - If a configuration does not need an instance of the method use one of the CommonReturns from - * CommonReturns.h with the same return type. - * - * @par Invoking HT Features Methods. - * - * The first step is carried out only once by the top level HT entry point. - * @n @code - * HT_FEATURES HtFeatures; - * // Get the current HT Feature Set - * NewHtFeatures (&HtFeatures); - * State->HtFeatures = &HtFeatures; - * @endcode - * - * The following example shows how to invoke a HT Features method. - * @n @code - * State->HtFeatures->MethodName (); - * @endcode - * - */ - -/*---------------------------------------------------------------------------- - * Mixed (DEFINITIONS AND MACROS / TYPEDEFS, STRUCTURES, ENUMS) - * - *---------------------------------------------------------------------------- - */ - -/*----------------------------------------------------------------------------- - * DEFINITIONS AND MACROS - * - *----------------------------------------------------------------------------- - */ -#define MAX_PLATFORM_LINKS 64 -#define MAX_LINK_PAIRS 4 - -/* These following are internal definitions */ -#define ROUTE_TO_SELF 0x0F -#define INVALID_LINK 0xCC /* Used in port list data structure to mark unused data entries. - Can also be used for no Link found in a port list search */ - -/* definitions for working with the port list structure */ -#define PORTLIST_TYPE_CPU 0 -#define PORTLIST_TYPE_IO 1 - -/* - * Hypertransport Capability definitions and macros - * - */ - -#define HT_INTERFACE_CAP_SUBTYPE_MASK ((UINT32)0xE00000FF) -#define HT_CAP_SUBTYPE_MASK ((UINT32)0xF80000FF) - -/* HT Host Capability */ -#define HT_HOST_CAPABILITY 1 -#define HT_HOST_CAP_SIZE 0x20 - -/* Host CapabilityRegisters */ -#define HTHOST_LINK_CAPABILITY_REG 0x00 -#define HTHOST_LINK_CONTROL_REG 0x04 -#define HTHOST_FREQ_REV_REG 0x08 -#define HTHOST_REV_REV3 0x60 -#define HTHOST_FEATURE_CAP_REG 0x0C -#define HTHOST_BUFFER_COUNT_REG 0x10 -#define HTHOST_ISOC_REG 0x14 -#define HTHOST_LINK_TYPE_REG 0x18 -#define HTHOST_FREQ_EXTENSION 0x1C -#define HTHOST_TYPE_COHERENT 3 -#define HTHOST_TYPE_NONCOHERENT 7 -#define HTHOST_TYPE_MASK 0x1F - -/* HT Slave Capability (HT1 compat) */ -#define HT_SLAVE_CAPABILITY 0 -#define HTSLAVE_LINK01_OFFSET 4 -#define HTSLAVE_LINK_CONTROL_0_REG 4 -#define HTSLAVE_FREQ_REV_0_REG 0xC -#define HTSLAVE_FEATURECAP_REG 0x10 -#define HT_CONTROL_CLEAR_CRC (~(3 << 8)) -#define HT_FREQUENCY_CLEAR_LINK_ERRORS (~(0x7 << 12)) -#define MAX_BUID 31 - -/* HT3 gen Capability */ -#define HT_GEN3_CAPABILITY (0xD << 1) -#define HTGEN3_LINK01_OFFSET 0x10 -#define HTGEN3_LINK_TRAINING_0_REG 0x10 - -/* HT3 Retry Capability */ -#define HT_RETRY_CAPABILITY (0xC << 1) -#define HTRETRY_CONTROL_REG 4 - -/* Unit ID Clumping Capability */ -#define HT_UNITID_CAPABILITY (0x9 << 1) -#define HTUNIT_SUPPORT_REG 4 -#define HTUNIT_ENABLE_REG 8 -#define HT_CLUMPING_PASSIVE 1 - -/*---------------------------------------------------------------------------- - * TYPEDEFS, STRUCTURES, ENUMS - * - *---------------------------------------------------------------------------- - */ - -// Forward declarations. -/// Used for forward reference. -typedef struct _NORTHBRIDGE NORTHBRIDGE; -typedef struct _HT_FEATURES HT_FEATURES; -typedef struct _HT_INTERFACE HT_INTERFACE; - -/** - * Coherent Init Data. - * - * Metrics representing the coherent fabric which was discovered: Degree of nodes, adjacency, - * node numbering permutations, and the topology which it matched. - */ -typedef struct { - /** The number of coherent Links connected on each Node (the 'Degree' of the Node) */ - UINT8 SysDegree[MAX_NODES]; - /** The systems adjacency (sysMatrix[i][j] is true if Node_i has a Link to Node_j) */ - BOOLEAN SysMatrix[MAX_NODES][MAX_NODES]; - - UINT8 DbDegree[MAX_NODES]; /**< Like sysDegree, but for the current database topology */ - BOOLEAN DbMatrix[MAX_NODES][MAX_NODES]; /**< Like sysMatrix, but for the current database topology */ - - UINT8 Perm[MAX_NODES]; /**< The Node mapping from the system to the database */ - UINT8 ReversePerm[MAX_NODES]; /**< The Node mapping from the database to the system */ - UINT8 *MatchedTopology; /**< The topology that matched the current system or NULL */ -} COHERENT_FABRIC; - -/** - * Represent the system as Links of matched port pairs. - * A pair consists of a source Node, a Link to the destination Node, the - * destination Node, and its Link back to source Node. The even indices are - * the source Nodes and Links, and the odd indices are for the destination - * Nodes and Links. - * @note The Port pair 2*N and 2*N+1 are connected together to form a Link - * (e.g. 0,1 and 8,9 are ports on either end of an HT Link) The lower number - * port (2*N) is the source port. The device that owns the source port is - * always the device closer to the BSP. (i.e. nearer the CPU in a - * non-coherent chain, or the CPU with the lower NodeID). - */ -typedef struct { - /* This section is where the Link is in the system and how to find it */ - UINT8 Type; /**< 0 = CPU, 1 = Device, all others reserved */ - UINT8 Link; /**< 0-1 for devices, 0-7 for CPUs */ - UINT8 NodeID; /**< The Node, or a pointer to the devices parent Node */ - UINT8 HostLink; /**< For Devices, the root CPU's Link to the chain */ - UINT8 HostDepth; /**< Link Depth in chain, only used by devices */ - PCI_ADDR Pointer; /**< A pointer to the device's slave HT capability, so we don't have to keep searching */ - - /* This section is for the final settings, which are written to hardware */ - BOOLEAN SelRegang; /**< Indicates to software regang Link, only used for CPU->CPU Links */ - UINT8 SelWidthIn; /**< Width in setting */ - UINT8 SelWidthOut; /**< Width out setting */ - UINT8 SelFrequency; /**< Frequency setting */ - - /* This section is for keeping track of capabilities and possible configurations */ - BOOLEAN RegangCap; /**< Is the port capable of reganging? CPUs only */ - UINT32 PrvFrequencyCap; /**< Possible frequency settings */ - UINT8 PrvWidthInCap; /**< Possible Width setting */ - UINT8 PrvWidthOutCap; /**< Possible Width setting */ - UINT32 CompositeFrequencyCap; /**< Possible Link frequency setting */ - UINT32 ClumpingSupport; /**< Unit ID Clumping value (bit 0 = passive support) */ -} PORT_DESCRIPTOR; - -/// Reference to a set of PORT_DESCRIPTORs. -typedef PORT_DESCRIPTOR (*PORT_LIST)[MAX_PLATFORM_LINKS*2]; - -/** - * Our global state data structure - */ -typedef struct { - AMD_HT_INTERFACE *HtBlock; /**< The input data structure. */ - - UINT8 NodesDiscovered; /**< One less than the number of Nodes found in the system */ - UINT8 TotalLinks; /**< How many HT Links have we discovered so far. */ - UINT8 SysMpCap; /**< The maximum number of Nodes that all processors are capable of */ - AGESA_STATUS MaxEventClass; /**< The event class of the highest severity event generated */ - - PORT_LIST PortList; /**< Represent the system as a set of Links, each two Ports. */ - COHERENT_FABRIC *Fabric; /**< Describe metrics about the coherent fabric. - * Limited scope to CoherentInit(). */ - /* Data interface to other Agesa Modules */ - SOCKET_DIE_TO_NODE_MAP SocketDieToNodeMap; /**< For each Socket, Die the Node ids */ - NODE_TO_SOCKET_DIE_MAP NodeToSocketDieMap; /**< For each Node id, Socket and Die */ - HOP_COUNT_TABLE *HopCountTable; /**< Table of hops between nodes */ - - /* Data for non-coherent initialization */ - UINT8 AutoBusCurrent; /**< The next bus number available */ - UINT8 UsedCfgMapEntries; /**< The next Config address Map set available, Limit 4 (F1X[EC:E0]) */ - BOOLEAN IsUsingRecoveryHt; /**< Manual BUID Swap List processing should assume that HT Recovery was used */ - BOOLEAN IsSetHtCrcFlood; /**< Enable setting of HT CRC Flood */ - BOOLEAN IsUsingUnitIdClumping; /**< Enable automatic Unit Id Clumping configuration. */ - - HT_INTERFACE *HtInterface; /**< Interface for feature code to external parameters */ - HT_FEATURES *HtFeatures; /**< The current feature implementations */ - NORTHBRIDGE *Nb; /**< The current northbridge */ - - PLATFORM_CONFIGURATION *PlatformConfiguration; /**< The platform specific configuration customizations */ - VOID *ConfigHandle; /**< Config Pointer, opaque handle for passing to lib */ -} STATE_DATA; - -// -// Feature Method types -// - -/** - * Discover all coherent devices in the system. - * - * @HtFeatInstances. - * - * @param[in,out] State our global state - * - */ -typedef VOID F_COHERENT_DISCOVERY ( - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_COHERENT_DISCOVERY *PF_COHERENT_DISCOVERY; - -/** - * Using the description of the fabric topology we discovered, try to find a match - * among the supported topologies. - * - * @HtFeatInstances. - * - * @param[in,out] State the discovered fabric, degree matrix, permutation - * - */ -typedef VOID F_LOOKUP_COMPUTE_AND_LOAD_ROUTING_TABLES ( - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_LOOKUP_COMPUTE_AND_LOAD_ROUTING_TABLES *PF_LOOKUP_COMPUTE_AND_LOAD_ROUTING_TABLES; - -/** - * Make a Hop Count Table for the installed topology. - * - * @HtFeatInstances. - * - * @param[in,out] State access topology, permutation, update hop table - * - */ -typedef VOID F_MAKE_HOP_COUNT_TABLE ( - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_MAKE_HOP_COUNT_TABLE *PF_MAKE_HOP_COUNT_TABLE; - -/** - * Process a non-coherent Link. - * - * @HtFeatInstances. - * - * @param[in] Node Node on which to process nc init - * @param[in] Link The non-coherent Link on that Node - * @param[in] IsCompatChain Is this the chain with the southbridge? TRUE if yes. - * @param[in,out] State our global state - */ -typedef VOID F_PROCESS_LINK ( - IN UINT8 Node, - IN UINT8 Link, - IN BOOLEAN IsCompatChain, - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_PROCESS_LINK *PF_PROCESS_LINK; - -/** - * Get Link features into system data structure. - * - * @HtFeatInstances. - * - * @param[in] State our global state, port list - */ -typedef VOID F_GATHER_LINK_DATA ( - IN STATE_DATA *State - ); -/// Reference to a method. -typedef F_GATHER_LINK_DATA *PF_GATHER_LINK_DATA; - -/** - * Optimize Links. - * - * @HtFeatInstances. - * - * @param[in,out] State Process and update portlist - */ -typedef VOID F_SELECT_OPTIMAL_WIDTH_AND_FREQUENCY ( - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_SELECT_OPTIMAL_WIDTH_AND_FREQUENCY *PF_SELECT_OPTIMAL_WIDTH_AND_FREQUENCY; - -/** - * Change the hardware state for all Links according to the now optimized data in the - * port list data structure. - * - * @HtFeatInstances. - * - * @param[in] State our global state, port list - */ -typedef VOID F_SET_LINK_DATA ( - IN STATE_DATA *State - ); -/// Reference to a method. -typedef F_SET_LINK_DATA *PF_SET_LINK_DATA; - -/** - * Retry must be enabled on all coherent links if it is enabled on any coherent links. - * - * @HtFeatInstances. - * - * @param[in,out] State global state, port frequency settings. - * - * @retval TRUE Fixup occurred, all coherent links HT1 - * @retval FALSE No changes - */ -typedef BOOLEAN F_IS_COHERENT_RETRY_FIXUP ( - IN STATE_DATA *State - ); -/// Reference to a method. -typedef F_IS_COHERENT_RETRY_FIXUP *PF_IS_COHERENT_RETRY_FIXUP; - - -/** - * Test the subLinks of a Link to see if they qualify to be reganged. - * - * @HtFeatInstances. - * - * @param[in,out] State Our global state - */ -typedef VOID F_REGANG_LINKS ( - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_REGANG_LINKS *PF_REGANG_LINKS; - -/** - * Iterate through all Links, checking the frequency of each subLink pair. - * - * @HtFeatInstances. - * - * @param[in,out] State Link state and port list - * - */ -typedef VOID F_SUBLINK_RATIO_FIXUP ( - IN OUT STATE_DATA *State - ); -/// Reference to a method. -typedef F_SUBLINK_RATIO_FIXUP *PF_SUBLINK_RATIO_FIXUP; - -/** - * Identify Links which can have traffic distribution. - * - * @HtFeatInstances. - * - * @param[in] State port list data - */ -typedef VOID F_TRAFFIC_DISTRIBUTION ( - IN STATE_DATA *State - ); -/// Reference to a method. -typedef F_TRAFFIC_DISTRIBUTION *PF_TRAFFIC_DISTRIBUTION; - -/** - * Access HT Link Control Register. - * - * @HtFeatInstances. - * - * @param[in] Reg the PCI config address the control register - * @param[in] HiBit the high bit number - * @param[in] LoBit the low bit number - * @param[in] Value the value to write to that bit range. Bit 0 => loBit. - * @param[in] State Our state, config handle for lib - */ -typedef VOID F_SET_HT_CONTROL_REGISTER_BITS ( - IN PCI_ADDR Reg, - IN UINT8 HiBit, - IN UINT8 LoBit, - IN UINT32 *Value, - IN STATE_DATA *State - ); -/// Reference to a method. -typedef F_SET_HT_CONTROL_REGISTER_BITS *PF_SET_HT_CONTROL_REGISTER_BITS; - -/** - * Translate a desired width setting to the bits to set in the register field. - * - * @HtFeatInstances. - * - * @param[in] Value the width Value - * - * @return The bits for the register - */ -typedef UINT8 F_CONVERT_WIDTH_TO_BITS ( - IN UINT8 Value - ); -/// Reference to a method. -typedef F_CONVERT_WIDTH_TO_BITS *PF_CONVERT_WIDTH_TO_BITS; - -/** - * HT Feature Methods. - * - * Provides abstract methods which are bound to specific feature implementations. - */ -struct _HT_FEATURES { - PF_COHERENT_DISCOVERY CoherentDiscovery; /**< Method: Coherent Discovery. */ - PF_LOOKUP_COMPUTE_AND_LOAD_ROUTING_TABLES LookupComputeAndLoadRoutingTables; - /**< Method: Route the discovered system */ - PF_MAKE_HOP_COUNT_TABLE MakeHopCountTable; /**< Method: Compute slit hop counts */ - PF_PROCESS_LINK ProcessLink; /**< Method: Process a non-coherent Link. */ - PF_GATHER_LINK_DATA GatherLinkData; /**< Method: Gather Link Capabilities and data. */ - PF_SELECT_OPTIMAL_WIDTH_AND_FREQUENCY SelectOptimalWidthAndFrequency; - /**< Method: Optimize link features. */ - PF_REGANG_LINKS RegangLinks; /**< Method: Regang Sublinks. */ - PF_SUBLINK_RATIO_FIXUP SubLinkRatioFixup; /**< Method: Fix Sublink Frequency ratios */ - PF_IS_COHERENT_RETRY_FIXUP IsCoherentRetryFixup; - /**< Method: Fix Retry mixed on coherent links. */ - PF_SET_LINK_DATA SetLinkData; /**< Method: Set optimized values. */ - PF_TRAFFIC_DISTRIBUTION TrafficDistribution; /**< Method: Detect and Initialize Traffic Distribution */ - PF_SET_HT_CONTROL_REGISTER_BITS SetHtControlRegisterBits; /**< Method: Access HT Link Control Reg. */ - PF_CONVERT_WIDTH_TO_BITS ConvertWidthToBits; /**< Method: Convert a bit width to the value used for register setting. */ -}; - -/*---------------------------------------------------------------------------- - * Prototypes - * - *---------------------------------------------------------------------------- - */ - -/** - * Provide the current Feature set implementation. - * - * Add an implementation reference for the constructor, just to make sure the page is created. - * @HtFeatMethod{::HT_FEATURES}. - * - */ -VOID -NewHtFeatures ( - OUT HT_FEATURES *HtFeatures, - IN AMD_CONFIG_PARAMS *StdHeader - ); - - -#endif /* _HT_FEAT_H_ */ |