Linux-2.6.12-rc2

[GitHub/mt8127/android_kernel_alcatel_ttab.git] / drivers / net / rrunner.h

#ifndef _RRUNNER_H_
#define _RRUNNER_H_

#include <linux/config.h>
#include <linux/interrupt.h>

#if ((BITS_PER_LONG != 32) && (BITS_PER_LONG != 64))
#error "BITS_PER_LONG not defined or not valid"
#endif


struct rr_regs {

        u32     pad0[16];

        u32     HostCtrl;
        u32     LocalCtrl;
        u32     Pc;
        u32     BrkPt;

/* Timer increments every 0.97 micro-seconds (unsigned int) */
        u32     Timer_Hi;
        u32     Timer;
        u32     TimerRef;
        u32     PciState;

        u32     Event;
        u32     MbEvent;

        u32     WinBase;
        u32     WinData;
        u32     RX_state;
        u32     TX_state;

        u32     Overhead;
        u32     ExtIo;

        u32     DmaWriteHostHi;
        u32     DmaWriteHostLo;

        u32     pad1[2];

        u32     DmaReadHostHi;
        u32     DmaReadHostLo;

        u32     pad2;

        u32     DmaReadLen;
        u32     DmaWriteState;

        u32     DmaWriteLcl;
        u32     DmaWriteIPchecksum;
        u32     DmaWriteLen;
        u32     DmaReadState;
        u32     DmaReadLcl;
        u32     DmaReadIPchecksum;
        u32     pad3;

        u32     RxBase;
        u32     RxPrd;
        u32     RxCon;

        u32     pad4;

        u32     TxBase;
        u32     TxPrd;
        u32     TxCon;

        u32     pad5;

        u32     RxIndPro;
        u32     RxIndCon;
        u32     RxIndRef;

        u32     pad6;

        u32     TxIndPro;
        u32     TxIndCon;
        u32     TxIndRef;

        u32     pad7[17];

        u32     DrCmndPro;
        u32     DrCmndCon;
        u32     DrCmndRef;

        u32     pad8;

        u32     DwCmndPro;
        u32     DwCmndCon;
        u32     DwCmndRef;

        u32     AssistState;

        u32     DrDataPro;
        u32     DrDataCon;
        u32     DrDataRef;

        u32     pad9;

        u32     DwDataPro;
        u32     DwDataCon;
        u32     DwDataRef;

        u32     pad10[33];

        u32     EvtCon;

        u32     pad11[5];

        u32     TxPi;
        u32     IpRxPi;

        u32     pad11a[8];

        u32     CmdRing[16];

/* The ULA is in two registers the high order two bytes of the first
 * word contain the RunCode features.
 * ula0         res     res     byte0   byte1
 * ula1         byte2   byte3   byte4   byte5
 */
        u32     Ula0;
        u32     Ula1;

        u32     RxRingHi;
        u32     RxRingLo;

        u32     InfoPtrHi;
        u32     InfoPtrLo;

        u32     Mode;

        u32     ConRetry;
        u32     ConRetryTmr;

        u32     ConTmout;
        u32     CtatTmr;

        u32     MaxRxRng;

        u32     IntrTmr;
        u32     TxDataMvTimeout;
        u32     RxDataMvTimeout;

        u32     EvtPrd;
        u32     TraceIdx;

        u32     Fail1;
        u32     Fail2;

        u32     DrvPrm;

        u32     FilterLA;

        u32     FwRev;
        u32     FwRes1;
        u32     FwRes2;
        u32     FwRes3;

        u32     WriteDmaThresh;
        u32     ReadDmaThresh;

        u32     pad12[325];
        u32     Window[512];
};

/*
 * Host control register bits.
 */
        
#define RR_INT          0x01
#define RR_CLEAR_INT    0x02
#define NO_SWAP         0x04000004
#define NO_SWAP1        0x00000004
#define PCI_RESET_NIC   0x08
#define HALT_NIC        0x10
#define SSTEP_NIC       0x20
#define MEM_READ_MULTI  0x40
#define NIC_HALTED      0x100
#define HALT_INST       0x200
#define PARITY_ERR      0x400
#define INVALID_INST_B  0x800
#define RR_REV_2        0x20000000
#define RR_REV_MASK     0xf0000000

/*
 * Local control register bits.
 */

#define INTA_STATE              0x01
#define CLEAR_INTA              0x02
#define FAST_EEPROM_ACCESS      0x08
#define ENABLE_EXTRA_SRAM       0x100
#define ENABLE_EXTRA_DESC       0x200
#define ENABLE_PARITY           0x400
#define FORCE_DMA_PARITY_ERROR  0x800
#define ENABLE_EEPROM_WRITE     0x1000
#define ENABLE_DATA_CACHE       0x2000
#define SRAM_LO_PARITY_ERR      0x4000
#define SRAM_HI_PARITY_ERR      0x8000

/*
 * PCI state bits.
 */

#define FORCE_PCI_RESET         0x01
#define PROVIDE_LENGTH          0x02
#define MASK_DMA_READ_MAX       0x1C
#define RBURST_DISABLE          0x00
#define RBURST_4                0x04
#define RBURST_16               0x08
#define RBURST_32               0x0C
#define RBURST_64               0x10
#define RBURST_128              0x14
#define RBURST_256              0x18
#define RBURST_1024             0x1C
#define MASK_DMA_WRITE_MAX      0xE0
#define WBURST_DISABLE          0x00
#define WBURST_4                0x20
#define WBURST_16               0x40
#define WBURST_32               0x60
#define WBURST_64               0x80
#define WBURST_128              0xa0
#define WBURST_256              0xc0
#define WBURST_1024             0xe0
#define MASK_MIN_DMA            0xFF00
#define FIFO_RETRY_ENABLE       0x10000

/*
 * Event register
 */

#define DMA_WRITE_DONE          0x10000
#define DMA_READ_DONE           0x20000
#define DMA_WRITE_ERR           0x40000
#define DMA_READ_ERR            0x80000

/*
 * Receive state
 *
 * RoadRunner HIPPI Receive State Register controls and monitors the 
 * HIPPI receive interface in the NIC. Look at err bits when a HIPPI
 * receive Error Event occurs. 
 */

#define ENABLE_NEW_CON          0x01
#define RESET_RECV              0x02
#define RECV_ALL                0x00
#define RECV_1K                 0x20
#define RECV_2K                 0x40
#define RECV_4K                 0x60
#define RECV_8K                 0x80
#define RECV_16K                0xa0
#define RECV_32K                0xc0
#define RECV_64K                0xe0

/*
 * Transmit status.
 */

#define ENA_XMIT                0x01
#define PERM_CON                0x02

/*
 * DMA write state
 */

#define RESET_DMA               0x01
#define NO_SWAP_DMA             0x02
#define DMA_ACTIVE              0x04
#define THRESH_MASK             0x1F
#define DMA_ERROR_MASK          0xff000000

/*
 * Gooddies stored in the ULA registers.
 */

#define TRACE_ON_WHAT_BIT       0x00020000    /* Traces on */
#define ONEM_BUF_WHAT_BIT       0x00040000    /* 1Meg vs 256K */
#define CHAR_API_WHAT_BIT       0x00080000    /* Char API vs network only */
#define CMD_EVT_WHAT_BIT        0x00200000    /* Command event */
#define LONG_TX_WHAT_BIT        0x00400000
#define LONG_RX_WHAT_BIT        0x00800000
#define WHAT_BIT_MASK           0xFFFD0000    /* Feature bit mask */

/*
 * Mode status
 */

#define EVENT_OVFL              0x80000000
#define FATAL_ERR               0x40000000
#define LOOP_BACK               0x01
#define MODE_PH                 0x02
#define MODE_FP                 0x00
#define PTR64BIT                0x04
#define PTR32BIT                0x00
#define PTR_WD_SWAP             0x08
#define PTR_WD_NOSWAP           0x00
#define POST_WARN_EVENT         0x10
#define ERR_TERM                0x20
#define DIRECT_CONN             0x40
#define NO_NIC_WATCHDOG         0x80
#define SWAP_DATA               0x100
#define SWAP_CONTROL            0x200
#define NIC_HALT_ON_ERR         0x400
#define NIC_NO_RESTART          0x800
#define HALF_DUP_TX             0x1000
#define HALF_DUP_RX             0x2000


/*
 * Error codes
 */

/* Host Error Codes - values of fail1 */
#define ERR_UNKNOWN_MBOX        0x1001
#define ERR_UNKNOWN_CMD         0x1002
#define ERR_MAX_RING            0x1003
#define ERR_RING_CLOSED         0x1004
#define ERR_RING_OPEN           0x1005
/* Firmware internal errors */
#define ERR_EVENT_RING_FULL     0x01
#define ERR_DW_PEND_CMND_FULL   0x02
#define ERR_DR_PEND_CMND_FULL   0x03
#define ERR_DW_PEND_DATA_FULL   0x04
#define ERR_DR_PEND_DATA_FULL   0x05
#define ERR_ILLEGAL_JUMP        0x06
#define ERR_UNIMPLEMENTED       0x07
#define ERR_TX_INFO_FULL        0x08
#define ERR_RX_INFO_FULL        0x09
#define ERR_ILLEGAL_MODE        0x0A
#define ERR_MAIN_TIMEOUT        0x0B
#define ERR_EVENT_BITS          0x0C
#define ERR_UNPEND_FULL         0x0D
#define ERR_TIMER_QUEUE_FULL    0x0E
#define ERR_TIMER_QUEUE_EMPTY   0x0F
#define ERR_TIMER_NO_FREE       0x10
#define ERR_INTR_START          0x11
#define ERR_BAD_STARTUP         0x12
#define ERR_NO_PKT_END          0x13
#define ERR_HALTED_ON_ERR       0x14
/* Hardware NIC Errors */
#define ERR_WRITE_DMA           0x0101
#define ERR_READ_DMA            0x0102
#define ERR_EXT_SERIAL          0x0103
#define ERR_TX_INT_PARITY       0x0104


/*
 * Event definitions
 */

#define EVT_RING_ENTRIES        64
#define EVT_RING_SIZE           (EVT_RING_ENTRIES * sizeof(struct event))

struct event {
#ifdef __LITTLE_ENDIAN
        u16     index;
        u8      ring;
        u8      code;
#else
        u8      code;
        u8      ring;
        u16     index;
#endif
        u32     timestamp;
};

/*
 * General Events
 */

#define E_NIC_UP        0x01
#define E_WATCHDOG      0x02

#define E_STAT_UPD      0x04
#define E_INVAL_CMD     0x05
#define E_SET_CMD_CONS  0x06
#define E_LINK_ON       0x07
#define E_LINK_OFF      0x08
#define E_INTERN_ERR    0x09
#define E_HOST_ERR      0x0A
#define E_STATS_UPDATE  0x0B
#define E_REJECTING     0x0C

/*
 * Send  Events
 */
#define E_CON_REJ       0x13
#define E_CON_TMOUT     0x14
#define E_CON_NC_TMOUT  0x15    /* I  , Connection No Campon Timeout */
#define E_DISC_ERR      0x16
#define E_INT_PRTY      0x17
#define E_TX_IDLE       0x18
#define E_TX_LINK_DROP  0x19
#define E_TX_INV_RNG    0x1A
#define E_TX_INV_BUF    0x1B
#define E_TX_INV_DSC    0x1C

/*
 * Destination Events
 */
/*
 * General Receive events
 */
#define E_VAL_RNG       0x20
#define E_RX_RNG_ENER   0x21
#define E_INV_RNG       0x22
#define E_RX_RNG_SPC    0x23
#define E_RX_RNG_OUT    0x24
#define E_PKT_DISCARD   0x25
#define E_INFO_EVT      0x27

/*
 * Data corrupted events
 */
#define E_RX_PAR_ERR    0x2B
#define E_RX_LLRC_ERR   0x2C
#define E_IP_CKSM_ERR   0x2D
#define E_DTA_CKSM_ERR  0x2E
#define E_SHT_BST       0x2F

/*
 * Data lost events
 */
#define E_LST_LNK_ERR   0x30
#define E_FLG_SYN_ERR   0x31
#define E_FRM_ERR       0x32
#define E_RX_IDLE       0x33
#define E_PKT_LN_ERR    0x34
#define E_STATE_ERR     0x35
#define E_UNEXP_DATA    0x3C

/*
 * Fatal events
 */
#define E_RX_INV_BUF    0x36
#define E_RX_INV_DSC    0x37
#define E_RNG_BLK       0x38

/*
 * Warning events
 */
#define E_RX_TO         0x39
#define E_BFR_SPC       0x3A
#define E_INV_ULP       0x3B

#define E_NOT_IMPLEMENTED 0x40


/*
 * Commands
 */

#define CMD_RING_ENTRIES        16

struct cmd {
#ifdef __LITTLE_ENDIAN
        u16     index;
        u8      ring;
        u8      code;
#else
        u8      code;
        u8      ring;
        u16     index;
#endif
};

#define C_START_FW      0x01
#define C_UPD_STAT      0x02
#define C_WATCHDOG      0x05
#define C_DEL_RNG       0x09
#define C_NEW_RNG       0x0A
#define C_CONN          0x0D


/*
 * Mode bits
 */

#define  PACKET_BAD             0x01 /* Packet had link-layer error */
#define  INTERRUPT              0x02
#define  TX_IP_CKSUM            0x04
#define  PACKET_END             0x08
#define  PACKET_START           0x10
#define  SAME_IFIELD            0x80


typedef struct {
#if (BITS_PER_LONG == 64)
        u64 addrlo;
#else
        u32 addrhi;
        u32 addrlo;
#endif
} rraddr;


static inline void set_rraddr(rraddr *ra, dma_addr_t addr)
{
        unsigned long baddr = addr;
#if (BITS_PER_LONG == 64)
        ra->addrlo = baddr;
#else
    /* Don't bother setting zero every time */
        ra->addrlo = baddr;
#endif
        mb();
}


static inline void set_rxaddr(struct rr_regs __iomem *regs, volatile dma_addr_t addr)
{
        unsigned long baddr = addr;
#if (BITS_PER_LONG == 64) && defined(__LITTLE_ENDIAN)
        writel(baddr & 0xffffffff, &regs->RxRingHi);
        writel(baddr >> 32, &regs->RxRingLo);
#elif (BITS_PER_LONG == 64)
        writel(baddr >> 32, &regs->RxRingHi);
        writel(baddr & 0xffffffff, &regs->RxRingLo);
#else
        writel(0, &regs->RxRingHi);
        writel(baddr, &regs->RxRingLo);
#endif
        mb();
}


static inline void set_infoaddr(struct rr_regs __iomem *regs, volatile dma_addr_t addr)
{
        unsigned long baddr = addr;
#if (BITS_PER_LONG == 64) && defined(__LITTLE_ENDIAN)
        writel(baddr & 0xffffffff, &regs->InfoPtrHi);
        writel(baddr >> 32, &regs->InfoPtrLo);
#elif (BITS_PER_LONG == 64)
        writel(baddr >> 32, &regs->InfoPtrHi);
        writel(baddr & 0xffffffff, &regs->InfoPtrLo);
#else
        writel(0, &regs->InfoPtrHi);
        writel(baddr, &regs->InfoPtrLo);
#endif
        mb();
}


/*
 * TX ring
 */

#ifdef CONFIG_ROADRUNNER_LARGE_RINGS
#define TX_RING_ENTRIES 32
#else
#define TX_RING_ENTRIES 16
#endif
#define TX_TOTAL_SIZE   (TX_RING_ENTRIES * sizeof(struct tx_desc))

struct tx_desc{
        rraddr  addr;
        u32     res;
#ifdef __LITTLE_ENDIAN
        u16     size;
        u8      pad;
        u8      mode;
#else
        u8      mode;
        u8      pad;
        u16     size;
#endif
};


#ifdef CONFIG_ROADRUNNER_LARGE_RINGS
#define RX_RING_ENTRIES 32
#else
#define RX_RING_ENTRIES 16
#endif
#define RX_TOTAL_SIZE   (RX_RING_ENTRIES * sizeof(struct rx_desc))

struct rx_desc{
        rraddr  addr;
        u32     res;
#ifdef __LITTLE_ENDIAN
        u16     size;
        u8      pad;
        u8      mode;
#else
        u8      mode;
        u8      pad;
        u16     size;
#endif
};


/*
 * ioctl's
 */

#define SIOCRRPFW       SIOCDEVPRIVATE          /* put firmware */
#define SIOCRRGFW       SIOCDEVPRIVATE+1        /* get firmware */
#define SIOCRRID        SIOCDEVPRIVATE+2        /* identify */


struct seg_hdr {
        u32     seg_start;
        u32     seg_len;
        u32     seg_eestart;
};


#define EEPROM_BASE 0x80000000
#define EEPROM_WORDS 8192
#define EEPROM_BYTES (EEPROM_WORDS * sizeof(u32))

struct eeprom_boot {
        u32     key1;
        u32     key2;
        u32     sram_size;
        struct  seg_hdr loader;
        u32     init_chksum;
        u32     reserved1;
};

struct eeprom_manf {
        u32     HeaderFmt;
        u32     Firmware;
        u32     BoardRevision;
        u32     RoadrunnerRev;
        char    OpticsPart[8];
        u32     OpticsRev;
        u32     pad1;
        char    SramPart[8];
        u32     SramRev;
        u32     pad2;
        char    EepromPart[8];
        u32     EepromRev;
        u32     EepromSize;
        char    PalPart[8];
        u32     PalRev;
        u32     pad3;
        char    PalCodeFile[12];
        u32     PalCodeRev;
        char    BoardULA[8];
        char    SerialNo[8];
        char    MfgDate[8];
        char    MfgTime[8];
        char    ModifyDate[8];
        u32     ModCount;
        u32     pad4[13];
};


struct eeprom_phase_info {
        char    phase1File[12];
        u32     phase1Rev;
        char    phase1Date[8];
        char    phase2File[12];
        u32     phase2Rev;
        char    phase2Date[8];
        u32     reserved7[4];
};

struct eeprom_rncd_info {
        u32     FwStart;
        u32     FwRev;
        char    FwDate[8];
        u32     AddrRunCodeSegs;
        u32     FileNames;
        char    File[13][8];
};


/* Phase 1 region (starts are word offset 0x80) */
struct phase1_hdr{
        u32     jump;
        u32     noop;
        struct seg_hdr phase2Seg;
};

struct eeprom {
        struct eeprom_boot      boot;
        u32                     pad1[8];
        struct eeprom_manf      manf;
        struct eeprom_phase_info phase_info;
        struct eeprom_rncd_info rncd_info;
        u32                     pad2[15];
        u32                     hdr_checksum;
        struct phase1_hdr       phase1;
};


struct rr_stats {
        u32     NicTimeStamp;
        u32     RngCreated;
        u32     RngDeleted;
        u32     IntrGen;
        u32     NEvtOvfl;
        u32     InvCmd;
        u32     DmaReadErrs;
        u32     DmaWriteErrs;
        u32     StatUpdtT;
        u32     StatUpdtC;
        u32     WatchDog;
        u32     Trace;  

        /* Serial HIPPI */
        u32     LnkRdyEst;
        u32     GLinkErr;
        u32     AltFlgErr;
        u32     OvhdBit8Sync;
        u32     RmtSerPrtyErr;
        u32     RmtParPrtyErr;
        u32     RmtLoopBk;
        u32     pad1;

        /* HIPPI tx */
        u32     ConEst;
        u32     ConRejS;
        u32     ConRetry;
        u32     ConTmOut;
        u32     SndConDiscon;
        u32     SndParErr;
        u32     PktSnt;
        u32     pad2[2];
        u32     ShFBstSnt;
        u64     BytSent;
        u32     TxTimeout;
        u32     pad3[3];

        /* HIPPI rx */
        u32     ConAcc;
        u32     ConRejdiPrty;
        u32     ConRejd64b;
        u32     ConRejdBuf;
        u32     RxConDiscon;
        u32     RxConNoData;
        u32     PktRx;
        u32     pad4[2];
        u32     ShFBstRx;
        u64     BytRx;
        u32     RxParErr;
        u32     RxLLRCerr;
        u32     RxBstSZerr;
        u32     RxStateErr;
        u32     RxRdyErr;
        u32     RxInvULP;
        u32     RxSpcBuf;
        u32     RxSpcDesc;
        u32     RxRngSpc;
        u32     RxRngFull;
        u32     RxPktLenErr;
        u32     RxCksmErr;
        u32     RxPktDrp;
        u32     RngLowSpc;
        u32     RngDataClose;
        u32     RxTimeout;
        u32     RxIdle;
};


/*
 * This struct is shared with the NIC firmware.
 */
struct ring_ctrl {
        rraddr  rngptr;
#ifdef __LITTLE_ENDIAN
        u16     entries;
        u8      pad;
        u8      entry_size;
        u16     pi;
        u16     mode;
#else
        u8      entry_size;
        u8      pad;
        u16     entries;
        u16     mode;
        u16     pi;
#endif
};

struct rr_info {
        union {
                struct rr_stats stats;
                u32 stati[128];
        } s;
        struct ring_ctrl        evt_ctrl;
        struct ring_ctrl        cmd_ctrl;
        struct ring_ctrl        tx_ctrl;
        u8                      pad[464];
        u8                      trace[3072];
};

/*
 * The linux structure for the RoadRunner.
 *
 * RX/TX descriptors are put first to make sure they are properly
 * aligned and do not cross cache-line boundaries.
 */

struct rr_private
{
        struct rx_desc          *rx_ring;
        struct tx_desc          *tx_ring;
        struct event            *evt_ring;
        dma_addr_t              tx_ring_dma;
        dma_addr_t              rx_ring_dma;
        dma_addr_t              evt_ring_dma;
        /* Alignment ok ? */
        struct sk_buff          *rx_skbuff[RX_RING_ENTRIES];
        struct sk_buff          *tx_skbuff[TX_RING_ENTRIES];
        struct rr_regs          __iomem *regs;          /* Register base */
        struct ring_ctrl        *rx_ctrl;       /* Receive ring control */
        struct rr_info          *info;          /* Shared info page */
        dma_addr_t              rx_ctrl_dma;
        dma_addr_t              info_dma;
        spinlock_t              lock;
        struct timer_list       timer;
        u32                     cur_rx, cur_cmd, cur_evt;
        u32                     dirty_rx, dirty_tx;
        u32                     tx_full;
        u32                     fw_rev;
        volatile short          fw_running;
        struct net_device_stats stats;
        struct pci_dev          *pci_dev;
};


/*
 * Prototypes
 */
static int rr_init(struct net_device *dev);
static int rr_init1(struct net_device *dev);
static irqreturn_t rr_interrupt(int irq, void *dev_id, struct pt_regs *regs);

static int rr_open(struct net_device *dev);
static int rr_start_xmit(struct sk_buff *skb, struct net_device *dev);
static int rr_close(struct net_device *dev);
static struct net_device_stats *rr_get_stats(struct net_device *dev);
static int rr_ioctl(struct net_device *dev, struct ifreq *rq, int cmd);
static unsigned int rr_read_eeprom(struct rr_private *rrpriv,
                                   unsigned long offset,
                                   unsigned char *buf,
                                   unsigned long length);
static u32 rr_read_eeprom_word(struct rr_private *rrpriv, void * offset);
static int rr_load_firmware(struct net_device *dev);
static inline void rr_raz_tx(struct rr_private *, struct net_device *);
static inline void rr_raz_rx(struct rr_private *, struct net_device *);
#endif /* _RRUNNER_H_ */