freebsd-skq/sys/dev/hptmv/mvSata.h
Pedro F. Giffuni 718cf2ccb9 sys/dev: further adoption of SPDX licensing ID tags.
Mainly focus on files that use BSD 2-Clause license, however the tool I
was using misidentified many licenses so this was mostly a manual - error
prone - task.

The Software Package Data Exchange (SPDX) group provides a specification
to make it easier for automated tools to detect and summarize well known
opensource licenses. We are gradually adopting the specification, noting
that the tags are considered only advisory and do not, in any way,
superceed or replace the license texts.
2017-11-27 14:52:40 +00:00

451 lines
14 KiB
C

/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* 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.
*
* $FreeBSD$
*/
#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