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/* * Copyright (c) 2004-2005 MARVELL SEMICONDUCTOR ISRAEL, LTD. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 THE AUTHOR OR CONTRIBUTORS 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. * * $FreeBSD: release/9.1.0/sys/dev/hptmv/mvSata.h 190809 2009-04-07 16:38:25Z delphij $ */ #ifndef __INCmvSatah #define __INCmvSatah #ifndef SUPPORT_MV_SATA_GEN_1 #define SUPPORT_MV_SATA_GEN_1 1 #endif #ifndef SUPPORT_MV_SATA_GEN_2 #define SUPPORT_MV_SATA_GEN_2 0 #endif #ifndef SUPPORT_MV_SATA_GEN_2E #define SUPPORT_MV_SATA_GEN_2E 0 #endif #if (SUPPORT_MV_SATA_GEN_1 + SUPPORT_MV_SATA_GEN_2 + SUPPORT_MV_SATA_GEN_2E) > 1 #define MV_SATA_GEN_1(x) ((x)->sataAdapterGeneration==1) #define MV_SATA_GEN_2(x) ((x)->sataAdapterGeneration>=2) #define MV_SATA_GEN_2E(x) ((x)->sataAdapterGeneration==3) #elif SUPPORT_MV_SATA_GEN_1==1 #define MV_SATA_GEN_1(x) 1 #define MV_SATA_GEN_2(x) 0 #define MV_SATA_GEN_2E(x) 0 #elif SUPPORT_MV_SATA_GEN_2==1 #define MV_SATA_GEN_1(x) 0 #define MV_SATA_GEN_2(x) 1 #define MV_SATA_GEN_2E(x) 0 #elif SUPPORT_MV_SATA_GEN_2E==1 #define MV_SATA_GEN_1(x) 0 #define MV_SATA_GEN_2(x) 1 /* gen2E impiles gen2 */ #define MV_SATA_GEN_2E(x) 1 #else #error "Which IC do you support?" #endif /* Definitions */ /* MV88SX50XX specific defines */ #define MV_SATA_VENDOR_ID 0x11AB #define MV_SATA_DEVICE_ID_5080 0x5080 #define MV_SATA_DEVICE_ID_5081 0x5081 #define MV_SATA_DEVICE_ID_6080 0x6080 #define MV_SATA_DEVICE_ID_6081 0x6081 #if defined(RR2310) || defined(RR1740) || defined(RR2210) || defined (RR2522) #define MV_SATA_CHANNELS_NUM 4 #define MV_SATA_UNITS_NUM 1 #else #define MV_SATA_CHANNELS_NUM 8 #define MV_SATA_UNITS_NUM 2 #endif #define MV_SATA_PCI_BAR0_SPACE_SIZE (1<<18) /* 256 Kb*/ #define CHANNEL_QUEUE_LENGTH 32 #define CHANNEL_QUEUE_MASK 0x1F #define MV_EDMA_QUEUE_LENGTH 32 /* Up to 32 outstanding */ /* commands per SATA channel*/ #define MV_EDMA_QUEUE_MASK 0x1F #define MV_EDMA_REQUEST_QUEUE_SIZE 1024 /* 32*32 = 1KBytes */ #define MV_EDMA_RESPONSE_QUEUE_SIZE 256 /* 32*8 = 256 Bytes */ #define MV_EDMA_REQUEST_ENTRY_SIZE 32 #define MV_EDMA_RESPONSE_ENTRY_SIZE 8 #define MV_EDMA_PRD_ENTRY_SIZE 16 /* 16Bytes*/ #define MV_EDMA_PRD_NO_SNOOP_FLAG 0x00000001 /* MV_BIT0 */ #define MV_EDMA_PRD_EOT_FLAG 0x00008000 /* MV_BIT15 */ #define MV_ATA_IDENTIFY_DEV_DATA_LENGTH 256 /* number of words(2 byte)*/ #define MV_ATA_MODEL_NUMBER_LEN 40 #define ATA_SECTOR_SIZE 512 /* Log messages level defines */ #define MV_DEBUG 0x1 #define MV_DEBUG_INIT 0x2 #define MV_DEBUG_INTERRUPTS 0x4 #define MV_DEBUG_SATA_LINK 0x8 #define MV_DEBUG_UDMA_COMMAND 0x10 #define MV_DEBUG_NON_UDMA_COMMAND 0x20 #define MV_DEBUG_ERROR 0x40 /* Typedefs */ typedef enum mvUdmaType { MV_UDMA_TYPE_READ, MV_UDMA_TYPE_WRITE } MV_UDMA_TYPE; typedef enum mvFlushType { MV_FLUSH_TYPE_CALLBACK, MV_FLUSH_TYPE_NONE } MV_FLUSH_TYPE; typedef enum mvCompletionType { MV_COMPLETION_TYPE_NORMAL, MV_COMPLETION_TYPE_ERROR, MV_COMPLETION_TYPE_ABORT } MV_COMPLETION_TYPE; typedef enum mvEventType { MV_EVENT_TYPE_ADAPTER_ERROR, MV_EVENT_TYPE_SATA_CABLE } MV_EVENT_TYPE; typedef enum mvEdmaMode { MV_EDMA_MODE_QUEUED, MV_EDMA_MODE_NOT_QUEUED, MV_EDMA_MODE_NATIVE_QUEUING } MV_EDMA_MODE; typedef enum mvEdmaQueueResult { MV_EDMA_QUEUE_RESULT_OK = 0, MV_EDMA_QUEUE_RESULT_EDMA_DISABLED, MV_EDMA_QUEUE_RESULT_FULL, MV_EDMA_QUEUE_RESULT_BAD_LBA_ADDRESS, MV_EDMA_QUEUE_RESULT_BAD_PARAMS } MV_EDMA_QUEUE_RESULT; typedef enum mvQueueCommandResult { MV_QUEUE_COMMAND_RESULT_OK = 0, MV_QUEUE_COMMAND_RESULT_QUEUED_MODE_DISABLED, MV_QUEUE_COMMAND_RESULT_FULL, MV_QUEUE_COMMAND_RESULT_BAD_LBA_ADDRESS, MV_QUEUE_COMMAND_RESULT_BAD_PARAMS } MV_QUEUE_COMMAND_RESULT; typedef enum mvNonUdmaProtocol { MV_NON_UDMA_PROTOCOL_NON_DATA, MV_NON_UDMA_PROTOCOL_PIO_DATA_IN, MV_NON_UDMA_PROTOCOL_PIO_DATA_OUT } MV_NON_UDMA_PROTOCOL; struct mvDmaRequestQueueEntry; struct mvDmaResponseQueueEntry; struct mvDmaCommandEntry; struct mvSataAdapter; struct mvStorageDevRegisters; typedef MV_BOOLEAN (* HPTLIBAPI mvSataCommandCompletionCallBack_t)(struct mvSataAdapter *, MV_U8, MV_COMPLETION_TYPE, MV_VOID_PTR, MV_U16, MV_U32, struct mvStorageDevRegisters SS_SEG*); typedef enum mvQueuedCommandType { MV_QUEUED_COMMAND_TYPE_UDMA, MV_QUEUED_COMMAND_TYPE_NONE_UDMA } MV_QUEUED_COMMAND_TYPE; typedef struct mvUdmaCommandParams { MV_UDMA_TYPE readWrite; MV_BOOLEAN isEXT; MV_U32 lowLBAAddress; MV_U16 highLBAAddress; MV_U16 numOfSectors; MV_U32 prdLowAddr; MV_U32 prdHighAddr; mvSataCommandCompletionCallBack_t callBack; MV_VOID_PTR commandId; } MV_UDMA_COMMAND_PARAMS; typedef struct mvNoneUdmaCommandParams { MV_NON_UDMA_PROTOCOL protocolType; MV_BOOLEAN isEXT; MV_U16_PTR bufPtr; MV_U32 count; MV_U16 features; MV_U16 sectorCount; MV_U16 lbaLow; MV_U16 lbaMid; MV_U16 lbaHigh; MV_U8 device; MV_U8 command; mvSataCommandCompletionCallBack_t callBack; MV_VOID_PTR commandId; } MV_NONE_UDMA_COMMAND_PARAMS; typedef struct mvQueueCommandInfo { MV_QUEUED_COMMAND_TYPE type; union { MV_UDMA_COMMAND_PARAMS udmaCommand; MV_NONE_UDMA_COMMAND_PARAMS NoneUdmaCommand; } commandParams; } MV_QUEUE_COMMAND_INFO; /* The following structure is for the Core Driver internal usage */ typedef struct mvQueuedCommandEntry { MV_BOOLEAN isFreeEntry; MV_U8 commandTag; struct mvQueuedCommandEntry *next; struct mvQueuedCommandEntry *prev; MV_QUEUE_COMMAND_INFO commandInfo; } MV_QUEUED_COMMAND_ENTRY; /* The following structures are part of the Core Driver API */ typedef struct mvSataChannel { /* Fields set by Intermediate Application Layer */ MV_U8 channelNumber; MV_BOOLEAN waitingForInterrupt; MV_BOOLEAN lba48Address; MV_BOOLEAN maxReadTransfer; struct mvDmaRequestQueueEntry SS_SEG *requestQueue; struct mvDmaResponseQueueEntry SS_SEG *responseQueue; MV_U32 requestQueuePciHiAddress; MV_U32 requestQueuePciLowAddress; MV_U32 responseQueuePciHiAddress; MV_U32 responseQueuePciLowAddress; /* Fields set by CORE driver */ struct mvSataAdapter *mvSataAdapter; MV_OS_SEMAPHORE semaphore; MV_U32 eDmaRegsOffset; MV_U16 identifyDevice[MV_ATA_IDENTIFY_DEV_DATA_LENGTH]; MV_BOOLEAN EdmaActive; MV_EDMA_MODE queuedDMA; MV_U8 outstandingCommands; MV_BOOLEAN workAroundDone; struct mvQueuedCommandEntry commandsQueue[CHANNEL_QUEUE_LENGTH]; struct mvQueuedCommandEntry *commandsQueueHead; struct mvQueuedCommandEntry *commandsQueueTail; MV_BOOLEAN queueCommandsEnabled; MV_U8 noneUdmaOutstandingCommands; MV_U8 EdmaQueuedCommands; MV_U32 freeIDsStack[CHANNEL_QUEUE_LENGTH]; MV_U32 freeIDsNum; MV_U32 reqInPtr; MV_U32 rspOutPtr; } MV_SATA_CHANNEL; typedef struct mvSataAdapter { /* Fields set by Intermediate Application Layer */ MV_U32 adapterId; MV_U8 pcbVersion; MV_U8 pciConfigRevisionId; MV_U16 pciConfigDeviceId; MV_VOID_PTR IALData; MV_BUS_ADDR_T adapterIoBaseAddress; MV_U32 intCoalThre[MV_SATA_UNITS_NUM]; MV_U32 intTimeThre[MV_SATA_UNITS_NUM]; MV_BOOLEAN (* HPTLIBAPI mvSataEventNotify)(struct mvSataAdapter *, MV_EVENT_TYPE, MV_U32, MV_U32); MV_SATA_CHANNEL *sataChannel[MV_SATA_CHANNELS_NUM]; MV_U32 pciCommand; MV_U32 pciSerrMask; MV_U32 pciInterruptMask; /* Fields set by CORE driver */ MV_OS_SEMAPHORE semaphore; MV_U32 mainMask; MV_OS_SEMAPHORE interruptsMaskSem; MV_BOOLEAN implementA0Workarounds; MV_BOOLEAN implement50XXB0Workarounds; MV_BOOLEAN implement50XXB1Workarounds; MV_BOOLEAN implement50XXB2Workarounds; MV_BOOLEAN implement60X1A0Workarounds; MV_BOOLEAN implement60X1A1Workarounds; MV_BOOLEAN implement60X1B0Workarounds; MV_BOOLEAN implement7042A0Workarounds; MV_BOOLEAN implement7042A1Workarounds; MV_U8 sataAdapterGeneration; MV_BOOLEAN isPEX; MV_U8 failLEDMask; MV_U8 signalAmps[MV_SATA_CHANNELS_NUM]; MV_U8 pre[MV_SATA_CHANNELS_NUM]; MV_BOOLEAN staggaredSpinup[MV_SATA_CHANNELS_NUM]; /* For 60x1 only */ } MV_SATA_ADAPTER; typedef struct mvSataAdapterStatus { /* Fields set by CORE driver */ MV_BOOLEAN channelConnected[MV_SATA_CHANNELS_NUM]; MV_U32 pciDLLStatusAndControlRegister; MV_U32 pciCommandRegister; MV_U32 pciModeRegister; MV_U32 pciSERRMaskRegister; MV_U32 intCoalThre[MV_SATA_UNITS_NUM]; MV_U32 intTimeThre[MV_SATA_UNITS_NUM]; MV_U32 R00StatusBridgePortRegister[MV_SATA_CHANNELS_NUM]; }MV_SATA_ADAPTER_STATUS; typedef struct mvSataChannelStatus { /* Fields set by CORE driver */ MV_BOOLEAN isConnected; MV_U8 modelNumber[MV_ATA_MODEL_NUMBER_LEN]; MV_BOOLEAN DMAEnabled; MV_EDMA_MODE queuedDMA; MV_U8 outstandingCommands; MV_U32 EdmaConfigurationRegister; MV_U32 EdmaRequestQueueBaseAddressHighRegister; MV_U32 EdmaRequestQueueInPointerRegister; MV_U32 EdmaRequestQueueOutPointerRegister; MV_U32 EdmaResponseQueueBaseAddressHighRegister; MV_U32 EdmaResponseQueueInPointerRegister; MV_U32 EdmaResponseQueueOutPointerRegister; MV_U32 EdmaCommandRegister; MV_U32 PHYModeRegister; }MV_SATA_CHANNEL_STATUS; /* this structure used by the IAL defines the PRD entries used by the EDMA HW */ typedef struct mvSataEdmaPRDEntry { volatile MV_U32 lowBaseAddr; volatile MV_U16 byteCount; volatile MV_U16 flags; volatile MV_U32 highBaseAddr; volatile MV_U32 reserved; }MV_SATA_EDMA_PRD_ENTRY; /* API Functions */ /* CORE driver Adapter Management */ MV_BOOLEAN HPTLIBAPI mvSataInitAdapter(MV_SATA_ADAPTER *pAdapter); MV_BOOLEAN HPTLIBAPI mvSataShutdownAdapter(MV_SATA_ADAPTER *pAdapter); MV_BOOLEAN HPTLIBAPI mvSataGetAdapterStatus(MV_SATA_ADAPTER *pAdapter, MV_SATA_ADAPTER_STATUS *pAdapterStatus); MV_U32 HPTLIBAPI mvSataReadReg(MV_SATA_ADAPTER *pAdapter, MV_U32 regOffset); MV_VOID HPTLIBAPI mvSataWriteReg(MV_SATA_ADAPTER *pAdapter, MV_U32 regOffset, MV_U32 regValue); MV_VOID HPTLIBAPI mvEnableAutoFlush(MV_VOID); MV_VOID HPTLIBAPI mvDisableAutoFlush(MV_VOID); /* CORE driver SATA Channel Management */ MV_BOOLEAN HPTLIBAPI mvSataConfigureChannel(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataRemoveChannel(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataIsStorageDeviceConnected(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataChannelHardReset(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataConfigEdmaMode(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex, MV_EDMA_MODE eDmaMode, MV_U8 maxQueueDepth); MV_BOOLEAN HPTLIBAPI mvSataEnableChannelDma(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataDisableChannelDma(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataFlushDmaQueue(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex, MV_FLUSH_TYPE flushType); MV_U8 HPTLIBAPI mvSataNumOfDmaCommands(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataSetIntCoalParams (MV_SATA_ADAPTER *pAdapter, MV_U8 sataUnit, MV_U32 intCoalThre, MV_U32 intTimeThre); MV_BOOLEAN HPTLIBAPI mvSataSetChannelPhyParams(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex, MV_U8 signalAmps, MV_U8 pre); MV_BOOLEAN HPTLIBAPI mvSataChannelPhyShutdown(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataChannelPhyPowerOn(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex); MV_BOOLEAN HPTLIBAPI mvSataChannelSetEdmaLoopBackMode(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex, MV_BOOLEAN loopBackOn); MV_BOOLEAN HPTLIBAPI mvSataGetChannelStatus(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex, MV_SATA_CHANNEL_STATUS *pChannelStatus); MV_QUEUE_COMMAND_RESULT HPTLIBAPI mvSataQueueCommand(MV_SATA_ADAPTER *pAdapter, MV_U8 channelIndex, MV_QUEUE_COMMAND_INFO SS_SEG *pCommandParams); /* Interrupt Service Routine */ MV_BOOLEAN HPTLIBAPI mvSataInterruptServiceRoutine(MV_SATA_ADAPTER *pAdapter); MV_BOOLEAN HPTLIBAPI mvSataMaskAdapterInterrupt(MV_SATA_ADAPTER *pAdapter); MV_BOOLEAN HPTLIBAPI mvSataUnmaskAdapterInterrupt(MV_SATA_ADAPTER *pAdapter); /* Command Completion and Event Notification (user implemented) */ MV_BOOLEAN HPTLIBAPI mvSataEventNotify(MV_SATA_ADAPTER *, MV_EVENT_TYPE , MV_U32, MV_U32); /* * Staggered spin-ip support and SATA interface speed control * (relevant for 60x1 adapters) */ MV_BOOLEAN HPTLIBAPI mvSataEnableStaggeredSpinUpAll (MV_SATA_ADAPTER *pAdapter); MV_BOOLEAN HPTLIBAPI mvSataDisableStaggeredSpinUpAll (MV_SATA_ADAPTER *pAdapter); #endif