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Miller (davem@redhat.com) */ #ifndef _SUNGEM_H #define _SUNGEM_H /* Global Registers */ #define GREG_SEBSTATE 0x0000UL /* SEB State Register */ #define GREG_CFG 0x0004UL /* Configuration Register */ #define GREG_STAT 0x000CUL /* Status Register */ #define GREG_IMASK 0x0010UL /* Interrupt Mask Register */ #define GREG_IACK 0x0014UL /* Interrupt ACK Register */ #define GREG_STAT2 0x001CUL /* Alias of GREG_STAT */ #define GREG_PCIESTAT 0x1000UL /* PCI Error Status Register */ #define GREG_PCIEMASK 0x1004UL /* PCI Error Mask Register */ #define GREG_BIFCFG 0x1008UL /* BIF Configuration Register */ #define GREG_BIFDIAG 0x100CUL /* BIF Diagnostics Register */ #define GREG_SWRST 0x1010UL /* Software Reset Register */ /* Global SEB State Register */ #define GREG_SEBSTATE_ARB 0x00000003 /* State of Arbiter */ #define GREG_SEBSTATE_RXWON 0x00000004 /* RX won internal arbitration */ /* Global Configuration Register */ #define GREG_CFG_IBURST 0x00000001 /* Infinite Burst */ #define GREG_CFG_TXDMALIM 0x0000003e /* TX DMA grant limit */ #define GREG_CFG_RXDMALIM 0x000007c0 /* RX DMA grant limit */ #define GREG_CFG_RONPAULBIT 0x00000800 /* Use mem read multiple for PCI read * after infinite burst (Apple) */ #define GREG_CFG_ENBUG2FIX 0x00001000 /* Fix Rx hang after overflow */ /* Global Interrupt Status Register. * * Reading this register automatically clears bits 0 through 6. * This auto-clearing does not occur when the alias at GREG_STAT2 * is read instead. The rest of the interrupt bits only clear when * the secondary interrupt status register corresponding to that * bit is read (ie. if GREG_STAT_PCS is set, it will be cleared by * reading PCS_ISTAT). */ #define GREG_STAT_TXINTME 0x00000001 /* TX INTME frame transferred */ #define GREG_STAT_TXALL 0x00000002 /* All TX frames transferred */ #define GREG_STAT_TXDONE 0x00000004 /* One TX frame transferred */ #define GREG_STAT_RXDONE 0x00000010 /* One RX frame arrived */ #define GREG_STAT_RXNOBUF 0x00000020 /* No free RX buffers available */ #define GREG_STAT_RXTAGERR 0x00000040 /* RX tag framing is corrupt */ #define GREG_STAT_PCS 0x00002000 /* PCS signalled interrupt */ #define GREG_STAT_TXMAC 0x00004000 /* TX MAC signalled interrupt */ #define GREG_STAT_RXMAC 0x00008000 /* RX MAC signalled interrupt */ #define GREG_STAT_MAC 0x00010000 /* MAC Control signalled irq */ #define GREG_STAT_MIF 0x00020000 /* MIF signalled interrupt */ #define GREG_STAT_PCIERR 0x00040000 /* PCI Error interrupt */ #define GREG_STAT_TXNR 0xfff80000 /* == TXDMA_TXDONE reg val */ #define GREG_STAT_TXNR_SHIFT 19 #define GREG_STAT_ABNORMAL (GREG_STAT_RXNOBUF | GREG_STAT_RXTAGERR | \ GREG_STAT_PCS | GREG_STAT_TXMAC | GREG_STAT_RXMAC | \ GREG_STAT_MAC | GREG_STAT_MIF | GREG_STAT_PCIERR) #define GREG_STAT_NAPI (GREG_STAT_TXALL | GREG_STAT_TXINTME | \ GREG_STAT_RXDONE | GREG_STAT_ABNORMAL) /* The layout of GREG_IMASK and GREG_IACK is identical to GREG_STAT. * Bits set in GREG_IMASK will prevent that interrupt type from being * signalled to the cpu. GREG_IACK can be used to clear specific top-level * interrupt conditions in GREG_STAT, ie. it only works for bits 0 through 6. * Setting the bit will clear that interrupt, clear bits will have no effect * on GREG_STAT. */ /* Global PCI Error Status Register */ #define GREG_PCIESTAT_BADACK 0x00000001 /* No ACK64# during ABS64 cycle */ #define GREG_PCIESTAT_DTRTO 0x00000002 /* Delayed transaction timeout */ #define GREG_PCIESTAT_OTHER 0x00000004 /* Other PCI error, check cfg space */ /* The layout of the GREG_PCIEMASK is identical to that of GREG_PCIESTAT. * Bits set in GREG_PCIEMASK will prevent that interrupt type from being * signalled to the cpu. */ /* Global BIF Configuration Register */ #define GREG_BIFCFG_SLOWCLK 0x00000001 /* Set if PCI runs < 25Mhz */ #define GREG_BIFCFG_B64DIS 0x00000002 /* Disable 64bit wide data cycle*/ #define GREG_BIFCFG_M66EN 0x00000004 /* Set if on 66Mhz PCI segment */ /* Global BIF Diagnostics Register */ #define GREG_BIFDIAG_BURSTSM 0x007f0000 /* PCI Burst state machine */ #define GREG_BIFDIAG_BIFSM 0xff000000 /* BIF state machine */ /* Global Software Reset Register. * * This register is used to perform a global reset of the RX and TX portions * of the GEM asic. Setting the RX or TX reset bit will start the reset. * The driver _MUST_ poll these bits until they clear. One may not attempt * to program any other part of GEM until the bits clear. */ #define GREG_SWRST_TXRST 0x00000001 /* TX Software Reset */ #define GREG_SWRST_RXRST 0x00000002 /* RX Software Reset */ #define GREG_SWRST_RSTOUT 0x00000004 /* Force RST# pin active */ #define GREG_SWRST_CACHESIZE 0x00ff0000 /* RIO only: cache line size */ #define GREG_SWRST_CACHE_SHIFT 16 /* TX DMA Registers */ #define TXDMA_KICK 0x2000UL /* TX Kick Register */ #define TXDMA_CFG 0x2004UL /* TX Configuration Register */ #define TXDMA_DBLOW 0x2008UL /* TX Desc. Base Low */ #define TXDMA_DBHI 0x200CUL /* TX Desc. Base High */ #define TXDMA_FWPTR 0x2014UL /* TX FIFO Write Pointer */ #define TXDMA_FSWPTR 0x2018UL /* TX FIFO Shadow Write Pointer */ #define TXDMA_FRPTR 0x201CUL /* TX FIFO Read Pointer */ #define TXDMA_FSRPTR 0x2020UL /* TX FIFO Shadow Read Pointer */ #define TXDMA_PCNT 0x2024UL /* TX FIFO Packet Counter */ #define TXDMA_SMACHINE 0x2028UL /* TX State Machine Register */ #define TXDMA_DPLOW 0x2030UL /* TX Data Pointer Low */ #define TXDMA_DPHI 0x2034UL /* TX Data Pointer High */ #define TXDMA_TXDONE 0x2100UL /* TX Completion Register */ #define TXDMA_FADDR 0x2104UL /* TX FIFO Address */ #define TXDMA_FTAG 0x2108UL /* TX FIFO Tag */ #define TXDMA_DLOW 0x210CUL /* TX FIFO Data Low */ #define TXDMA_DHIT1 0x2110UL /* TX FIFO Data HighT1 */ #define TXDMA_DHIT0 0x2114UL /* TX FIFO Data HighT0 */ #define TXDMA_FSZ 0x2118UL /* TX FIFO Size */ /* TX Kick Register. * * This 13-bit register is programmed by the driver to hold the descriptor * entry index which follows the last valid transmit descriptor. */ /* TX Completion Register. * * This 13-bit register is updated by GEM to hold to descriptor entry index * which follows the last descriptor already processed by GEM. Note that * this value is mirrored in GREG_STAT which eliminates the need to even * access this register in the driver during interrupt processing. */ /* TX Configuration Register. * * Note that TXDMA_CFG_FTHRESH, the TX FIFO Threshold, is an obsolete feature * that was meant to be used with jumbo packets. It should be set to the * maximum value of 0x4ff, else one risks getting TX MAC Underrun errors. */ #define TXDMA_CFG_ENABLE 0x00000001 /* Enable TX DMA channel */ #define TXDMA_CFG_RINGSZ 0x0000001e /* TX descriptor ring size */ #define TXDMA_CFG_RINGSZ_32 0x00000000 /* 32 TX descriptors */ #define TXDMA_CFG_RINGSZ_64 0x00000002 /* 64 TX descriptors */ #define TXDMA_CFG_RINGSZ_128 0x00000004 /* 128 TX descriptors */ #define TXDMA_CFG_RINGSZ_256 0x00000006 /* 256 TX descriptors */ #define TXDMA_CFG_RINGSZ_512 0x00000008 /* 512 TX descriptors */ #define TXDMA_CFG_RINGSZ_1K 0x0000000a /* 1024 TX descriptors */ #define TXDMA_CFG_RINGSZ_2K 0x0000000c /* 2048 TX descriptors */ #define TXDMA_CFG_RINGSZ_4K 0x0000000e /* 4096 TX descriptors */ #define TXDMA_CFG_RINGSZ_8K 0x00000010 /* 8192 TX descriptors */ #define TXDMA_CFG_PIOSEL 0x00000020 /* Enable TX FIFO PIO from cpu */ #define TXDMA_CFG_FTHRESH 0x001ffc00 /* TX FIFO Threshold, obsolete */ #define TXDMA_CFG_PMODE 0x00200000 /* TXALL irq means TX FIFO empty*/ /* TX Descriptor Base Low/High. * * These two registers store the 53 most significant bits of the base address * of the TX descriptor table. The 11 least significant bits are always * zero. As a result, the TX descriptor table must be 2K aligned. */ /* The rest of the TXDMA_* registers are for diagnostics and debug, I will document * them later. -DaveM */ /* WakeOnLan Registers */ #define WOL_MATCH0 0x3000UL #define WOL_MATCH1 0x3004UL #define WOL_MATCH2 0x3008UL #define WOL_MCOUNT 0x300CUL #define WOL_WAKECSR 0x3010UL /* WOL Match count register */ #define WOL_MCOUNT_N 0x00000010 #define WOL_MCOUNT_M 0x00000000 /* 0 << 8 */ #define WOL_WAKECSR_ENABLE 0x00000001 #define WOL_WAKECSR_MII 0x00000002 #define WOL_WAKECSR_SEEN 0x00000004 #define WOL_WAKECSR_FILT_UCAST 0x00000008 #define WOL_WAKECSR_FILT_MCAST 0x00000010 #define WOL_WAKECSR_FILT_BCAST 0x00000020 #define WOL_WAKECSR_FILT_SEEN 0x00000040 /* Receive DMA Registers */ #define RXDMA_CFG 0x4000UL /* RX Configuration Register */ #define RXDMA_DBLOW 0x4004UL /* RX Descriptor Base Low */ #define RXDMA_DBHI 0x4008UL /* RX Descriptor Base High */ #define RXDMA_FWPTR 0x400CUL /* RX FIFO Write Pointer */ #define RXDMA_FSWPTR 0x4010UL /* RX FIFO Shadow Write Pointer */ #define RXDMA_FRPTR 0x4014UL /* RX FIFO Read Pointer */ #define RXDMA_PCNT 0x4018UL /* RX FIFO Packet Counter */ #define RXDMA_SMACHINE 0x401CUL /* RX State Machine Register */ #define RXDMA_PTHRESH 0x4020UL /* Pause Thresholds */ #define RXDMA_DPLOW 0x4024UL /* RX Data Pointer Low */ #define RXDMA_DPHI 0x4028UL /* RX Data Pointer High */ #define RXDMA_KICK 0x4100UL /* RX Kick Register */ #define RXDMA_DONE 0x4104UL /* RX Completion Register */ #define RXDMA_BLANK 0x4108UL /* RX Blanking Register */ #define RXDMA_FADDR 0x410CUL /* RX FIFO Address */ #define RXDMA_FTAG 0x4110UL /* RX FIFO Tag */ #define RXDMA_DLOW 0x4114UL /* RX FIFO Data Low */ #define RXDMA_DHIT1 0x4118UL /* RX FIFO Data HighT0 */ #define RXDMA_DHIT0 0x411CUL /* RX FIFO Data HighT1 */ #define RXDMA_FSZ 0x4120UL /* RX FIFO Size */ /* RX Configuration Register. */ #define RXDMA_CFG_ENABLE 0x00000001 /* Enable RX DMA channel */ #define RXDMA_CFG_RINGSZ 0x0000001e /* RX descriptor ring size */ #define RXDMA_CFG_RINGSZ_32 0x00000000 /* - 32 entries */ #define RXDMA_CFG_RINGSZ_64 0x00000002 /* - 64 entries */ #define RXDMA_CFG_RINGSZ_128 0x00000004 /* - 128 entries */ #define RXDMA_CFG_RINGSZ_256 0x00000006 /* - 256 entries */ #define RXDMA_CFG_RINGSZ_512 0x00000008 /* - 512 entries */ #define RXDMA_CFG_RINGSZ_1K 0x0000000a /* - 1024 entries */ #define RXDMA_CFG_RINGSZ_2K 0x0000000c /* - 2048 entries */ #define RXDMA_CFG_RINGSZ_4K 0x0000000e /* - 4096 entries */ #define RXDMA_CFG_RINGSZ_8K 0x00000010 /* - 8192 entries */ #define RXDMA_CFG_RINGSZ_BDISAB 0x00000020 /* Disable RX desc batching */ #define RXDMA_CFG_FBOFF 0x00001c00 /* Offset of first data byte */ #define RXDMA_CFG_CSUMOFF 0x000fe000 /* Skip bytes before csum calc */ #define RXDMA_CFG_FTHRESH 0x07000000 /* RX FIFO dma start threshold */ #define RXDMA_CFG_FTHRESH_64 0x00000000 /* - 64 bytes */ #define RXDMA_CFG_FTHRESH_128 0x01000000 /* - 128 bytes */ #define RXDMA_CFG_FTHRESH_256 0x02000000 /* - 256 bytes */ #define RXDMA_CFG_FTHRESH_512 0x03000000 /* - 512 bytes */ #define RXDMA_CFG_FTHRESH_1K 0x04000000 /* - 1024 bytes */ #define RXDMA_CFG_FTHRESH_2K 0x05000000 /* - 2048 bytes */ /* RX Descriptor Base Low/High. * * These two registers store the 53 most significant bits of the base address * of the RX descriptor table. The 11 least significant bits are always * zero. As a result, the RX descriptor table must be 2K aligned. */ /* RX PAUSE Thresholds. * * These values determine when XOFF and XON PAUSE frames are emitted by * GEM. The thresholds measure RX FIFO occupancy in units of 64 bytes. */ #define RXDMA_PTHRESH_OFF 0x000001ff /* XOFF emitted w/FIFO > this */ #define RXDMA_PTHRESH_ON 0x001ff000 /* XON emitted w/FIFO < this */ /* RX Kick Register. * * This 13-bit register is written by the host CPU and holds the last * valid RX descriptor number plus one. This is, if 'N' is written to * this register, it means that all RX descriptors up to but excluding * 'N' are valid. * * The hardware requires that RX descriptors are posted in increments * of 4. This means 'N' must be a multiple of four. For the best * performance, the first new descriptor being posted should be (PCI) * cache line aligned. */ /* RX Completion Register. * * This 13-bit register is updated by GEM to indicate which RX descriptors * have already been used for receive frames. All descriptors up to but * excluding the value in this register are ready to be processed. GEM * updates this register value after the RX FIFO empties completely into * the RX descriptor's buffer, but before the RX_DONE bit is set in the * interrupt status register. */ /* RX Blanking Register. */ #define RXDMA_BLANK_IPKTS 0x000001ff /* RX_DONE asserted after this * many packets received since * previous RX_DONE. */ #define RXDMA_BLANK_ITIME 0x000ff000 /* RX_DONE asserted after this * many clocks (measured in 2048 * PCI clocks) were counted since * the previous RX_DONE. */ /* RX FIFO Size. * * This 11-bit read-only register indicates how large, in units of 64-bytes, * the RX FIFO is. The driver uses this to properly configure the RX PAUSE * thresholds. */ /* The rest of the RXDMA_* registers are for diagnostics and debug, I will document * them later. -DaveM */ /* MAC Registers */ #define MAC_TXRST 0x6000UL /* TX MAC Software Reset Command*/ #define MAC_RXRST 0x6004UL /* RX MAC Software Reset Command*/ #define MAC_SNDPAUSE 0x6008UL /* Send Pause Command Register */ #define MAC_TXSTAT 0x6010UL /* TX MAC Status Register */ #define MAC_RXSTAT 0x6014UL /* RX MAC Status Register */ #define MAC_CSTAT 0x6018UL /* MAC Control Status Register */ #define MAC_TXMASK 0x6020UL /* TX MAC Mask Register */ #define MAC_RXMASK 0x6024UL /* RX MAC Mask Register */ #define MAC_MCMASK 0x6028UL /* MAC Control Mask Register */ #define MAC_TXCFG 0x6030UL /* TX MAC Configuration Register*/ #define MAC_RXCFG 0x6034UL /* RX MAC Configuration Register*/ #define MAC_MCCFG 0x6038UL /* MAC Control Config Register */ #define MAC_XIFCFG 0x603CUL /* XIF Configuration Register */ #define MAC_IPG0 0x6040UL /* InterPacketGap0 Register */ #define MAC_IPG1 0x6044UL /* InterPacketGap1 Register */ #define MAC_IPG2 0x6048UL /* InterPacketGap2 Register */ #define MAC_STIME 0x604CUL /* SlotTime Register */ #define MAC_MINFSZ 0x6050UL /* MinFrameSize Register */ #define MAC_MAXFSZ 0x6054UL /* MaxFrameSize Register */ #define MAC_PASIZE 0x6058UL /* PA Size Register */ #define MAC_JAMSIZE 0x605CUL /* JamSize Register */ #define MAC_ATTLIM 0x6060UL /* Attempt Limit Register */ #define MAC_MCTYPE 0x6064UL /* MAC Control Type Register */ #define MAC_ADDR0 0x6080UL /* MAC Address 0 Register */ #define MAC_ADDR1 0x6084UL /* MAC Address 1 Register */ #define MAC_ADDR2 0x6088UL /* MAC Address 2 Register */ #define MAC_ADDR3 0x608CUL /* MAC Address 3 Register */ #define MAC_ADDR4 0x6090UL /* MAC Address 4 Register */ #define MAC_ADDR5 0x6094UL /* MAC Address 5 Register */ #define MAC_ADDR6 0x6098UL /* MAC Address 6 Register */ #define MAC_ADDR7 0x609CUL /* MAC Address 7 Register */ #define MAC_ADDR8 0x60A0UL /* MAC Address 8 Register */ #define MAC_AFILT0 0x60A4UL /* Address Filter 0 Register */ #define MAC_AFILT1 0x60A8UL /* Address Filter 1 Register */ #define MAC_AFILT2 0x60ACUL /* Address Filter 2 Register */ #define MAC_AF21MSK 0x60B0UL /* Address Filter 2&1 Mask Reg */ #define MAC_AF0MSK 0x60B4UL /* Address Filter 0 Mask Reg */ #define MAC_HASH0 0x60C0UL /* Hash Table 0 Register */ #define MAC_HASH1 0x60C4UL /* Hash Table 1 Register */ #define MAC_HASH2 0x60C8UL /* Hash Table 2 Register */ #define MAC_HASH3 0x60CCUL /* Hash Table 3 Register */ #define MAC_HASH4 0x60D0UL /* Hash Table 4 Register */ #define MAC_HASH5 0x60D4UL /* Hash Table 5 Register */ #define MAC_HASH6 0x60D8UL /* Hash Table 6 Register */ #define MAC_HASH7 0x60DCUL /* Hash Table 7 Register */ #define MAC_HASH8 0x60E0UL /* Hash Table 8 Register */ #define MAC_HASH9 0x60E4UL /* Hash Table 9 Register */ #define MAC_HASH10 0x60E8UL /* Hash Table 10 Register */ #define MAC_HASH11 0x60ECUL /* Hash Table 11 Register */ #define MAC_HASH12 0x60F0UL /* Hash Table 12 Register */ #define MAC_HASH13 0x60F4UL /* Hash Table 13 Register */ #define MAC_HASH14 0x60F8UL /* Hash Table 14 Register */ #define MAC_HASH15 0x60FCUL /* Hash Table 15 Register */ #define MAC_NCOLL 0x6100UL /* Normal Collision Counter */ #define MAC_FASUCC 0x6104UL /* First Attmpt. Succ Coll Ctr. */ #define MAC_ECOLL 0x6108UL /* Excessive Collision Counter */ #define MAC_LCOLL 0x610CUL /* Late Collision Counter */ #define MAC_DTIMER 0x6110UL /* Defer Timer */ #define MAC_PATMPS 0x6114UL /* Peak Attempts Register */ #define MAC_RFCTR 0x6118UL /* Receive Frame Counter */ #define MAC_LERR 0x611CUL /* Length Error Counter */ #define MAC_AERR 0x6120UL /* Alignment Error Counter */ #define MAC_FCSERR 0x6124UL /* FCS Error Counter */ #define MAC_RXCVERR 0x6128UL /* RX code Violation Error Ctr */ #define MAC_RANDSEED 0x6130UL /* Random Number Seed Register */ #define MAC_SMACHINE 0x6134UL /* State Machine Register */ /* TX MAC Software Reset Command. */ #define MAC_TXRST_CMD 0x00000001 /* Start sw reset, self-clears */ /* RX MAC Software Reset Command. */ #define MAC_RXRST_CMD 0x00000001 /* Start sw reset, self-clears */ /* Send Pause Command. */ #define MAC_SNDPAUSE_TS 0x0000ffff /* The pause_time operand used in * Send_Pause and flow-control * handshakes. */ #define MAC_SNDPAUSE_SP 0x00010000 /* Setting this bit instructs the MAC * to send a Pause Flow Control * frame onto the network. */ /* TX MAC Status Register. */ #define MAC_TXSTAT_XMIT 0x00000001 /* Frame Transmitted */ #define MAC_TXSTAT_URUN 0x00000002 /* TX Underrun */ #define MAC_TXSTAT_MPE 0x00000004 /* Max Packet Size Error */ #define MAC_TXSTAT_NCE 0x00000008 /* Normal Collision Cntr Expire */ #define MAC_TXSTAT_ECE 0x00000010 /* Excess Collision Cntr Expire */ #define MAC_TXSTAT_LCE 0x00000020 /* Late Collision Cntr Expire */ #define MAC_TXSTAT_FCE 0x00000040 /* First Collision Cntr Expire */ #define MAC_TXSTAT_DTE 0x00000080 /* Defer Timer Expire */ #define MAC_TXSTAT_PCE 0x00000100 /* Peak Attempts Cntr Expire */ /* RX MAC Status Register. */ #define MAC_RXSTAT_RCV 0x00000001 /* Frame Received */ #define MAC_RXSTAT_OFLW 0x00000002 /* Receive Overflow */ #define MAC_RXSTAT_FCE 0x00000004 /* Frame Cntr Expire */ #define MAC_RXSTAT_ACE 0x00000008 /* Align Error Cntr Expire */ #define MAC_RXSTAT_CCE 0x00000010 /* CRC Error Cntr Expire */ #define MAC_RXSTAT_LCE 0x00000020 /* Length Error Cntr Expire */ #define MAC_RXSTAT_VCE 0x00000040 /* Code Violation Cntr Expire */ /* MAC Control Status Register. */ #define MAC_CSTAT_PRCV 0x00000001 /* Pause Received */ #define MAC_CSTAT_PS 0x00000002 /* Paused State */ #define MAC_CSTAT_NPS 0x00000004 /* Not Paused State */ #define MAC_CSTAT_PTR 0xffff0000 /* Pause Time Received */ /* The layout of the MAC_{TX,RX,C}MASK registers is identical to that * of MAC_{TX,RX,C}STAT. Bits set in MAC_{TX,RX,C}MASK will prevent * that interrupt type from being signalled to front end of GEM. For * the interrupt to actually get sent to the cpu, it is necessary to * properly set the appropriate GREG_IMASK_{TX,RX,}MAC bits as well. */ /* TX MAC Configuration Register. * * NOTE: The TX MAC Enable bit must be cleared and polled until * zero before any other bits in this register are changed. * * Also, enabling the Carrier Extension feature of GEM is * a 3 step process 1) Set TX Carrier Extension 2) Set * RX Carrier Extension 3) Set Slot Time to 0x200. This * mode must be enabled when in half-duplex at 1Gbps, else * it must be disabled. */ #define MAC_TXCFG_ENAB 0x00000001 /* TX MAC Enable */ #define MAC_TXCFG_ICS 0x00000002 /* Ignore Carrier Sense */ #define MAC_TXCFG_ICOLL 0x00000004 /* Ignore Collisions */ #define MAC_TXCFG_EIPG0 0x00000008 /* Enable IPG0 */ #define MAC_TXCFG_NGU 0x00000010 /* Never Give Up */ #define MAC_TXCFG_NGUL 0x00000020 /* Never Give Up Limit */ #define MAC_TXCFG_NBO 0x00000040 /* No Backoff */ #define MAC_TXCFG_SD 0x00000080 /* Slow Down */ #define MAC_TXCFG_NFCS 0x00000100 /* No FCS */ #define MAC_TXCFG_TCE 0x00000200 /* TX Carrier Extension */ /* RX MAC Configuration Register. * * NOTE: The RX MAC Enable bit must be cleared and polled until * zero before any other bits in this register are changed. * * Similar rules apply to the Hash Filter Enable bit when * programming the hash table registers, and the Address Filter * Enable bit when programming the address filter registers. */ #define MAC_RXCFG_ENAB 0x00000001 /* RX MAC Enable */ #define MAC_RXCFG_SPAD 0x00000002 /* Strip Pad */ #define MAC_RXCFG_SFCS 0x00000004 /* Strip FCS */ #define MAC_RXCFG_PROM 0x00000008 /* Promiscuous Mode */ #define MAC_RXCFG_PGRP 0x00000010 /* Promiscuous Group */ #define MAC_RXCFG_HFE 0x00000020 /* Hash Filter Enable */ #define MAC_RXCFG_AFE 0x00000040 /* Address Filter Enable */ #define MAC_RXCFG_DDE 0x00000080 /* Disable Discard on Error */ #define MAC_RXCFG_RCE 0x00000100 /* RX Carrier Extension */ /* MAC Control Config Register. */ #define MAC_MCCFG_SPE 0x00000001 /* Send Pause Enable */ #define MAC_MCCFG_RPE 0x00000002 /* Receive Pause Enable */ #define MAC_MCCFG_PMC 0x00000004 /* Pass MAC Control */ /* XIF Configuration Register. * * NOTE: When leaving or entering loopback mode, a global hardware * init of GEM should be performed. */ #define MAC_XIFCFG_OE 0x00000001 /* MII TX Output Driver Enable */ #define MAC_XIFCFG_LBCK 0x00000002 /* Loopback TX to RX */ #define MAC_XIFCFG_DISE 0x00000004 /* Disable RX path during TX */ #define MAC_XIFCFG_GMII 0x00000008 /* Use GMII clocks + datapath */ #define MAC_XIFCFG_MBOE 0x00000010 /* Controls MII_BUF_EN pin */ #define MAC_XIFCFG_LLED 0x00000020 /* Force LINKLED# active (low) */ #define MAC_XIFCFG_FLED 0x00000040 /* Force FDPLXLED# active (low) */ /* InterPacketGap0 Register. This 8-bit value is used as an extension * to the InterPacketGap1 Register. Specifically it contributes to the * timing of the RX-to-TX IPG. This value is ignored and presumed to * be zero for TX-to-TX IPG calculations and/or when the Enable IPG0 bit * is cleared in the TX MAC Configuration Register. * * This value in this register in terms of media byte time. * * Recommended value: 0x00 */ /* InterPacketGap1 Register. This 8-bit value defines the first 2/3 * portion of the Inter Packet Gap. * * This value in this register in terms of media byte time. * * Recommended value: 0x08 */ /* InterPacketGap2 Register. This 8-bit value defines the second 1/3 * portion of the Inter Packet Gap. * * This value in this register in terms of media byte time. * * Recommended value: 0x04 */ /* Slot Time Register. This 10-bit value specifies the slot time * parameter in units of media byte time. It determines the physical * span of the network. * * Recommended value: 0x40 */ /* Minimum Frame Size Register. This 10-bit register specifies the * smallest sized frame the TXMAC will send onto the medium, and the * RXMAC will receive from the medium. * * Recommended value: 0x40 */ /* Maximum Frame and Burst Size Register. * * This register specifies two things. First it specifies the maximum * sized frame the TXMAC will send and the RXMAC will recognize as * valid. Second, it specifies the maximum run length of a burst of * packets sent in half-duplex gigabit modes. * * Recommended value: 0x200005ee */ #define MAC_MAXFSZ_MFS 0x00007fff /* Max Frame Size */ #define MAC_MAXFSZ_MBS 0x7fff0000 /* Max Burst Size */ /* PA Size Register. This 10-bit register specifies the number of preamble * bytes which will be transmitted at the beginning of each frame. A * value of two or greater should be programmed here. * * Recommended value: 0x07 */ /* Jam Size Register. This 4-bit register specifies the duration of * the jam in units of media byte time. * * Recommended value: 0x04 */ /* Attempts Limit Register. This 8-bit register specifies the number * of attempts that the TXMAC will make to transmit a frame, before it * resets its Attempts Counter. After reaching the Attempts Limit the * TXMAC may or may not drop the frame, as determined by the NGU * (Never Give Up) and NGUL (Never Give Up Limit) bits in the TXMAC * Configuration Register. * * Recommended value: 0x10 */ /* MAX Control Type Register. This 16-bit register specifies the * "type" field of a MAC Control frame. The TXMAC uses this field to * encapsulate the MAC Control frame for transmission, and the RXMAC * uses it for decoding valid MAC Control frames received from the * network. * * Recommended value: 0x8808 */ /* MAC Address Registers. Each of these registers specify the * ethernet MAC of the interface, 16-bits at a time. Register * 0 specifies bits [47:32], register 1 bits [31:16], and register * 2 bits [15:0]. * * Registers 3 through and including 5 specify an alternate * MAC address for the interface. * * Registers 6 through and including 8 specify the MAC Control * Address, which must be the reserved multicast address for MAC * Control frames. * * Example: To program primary station address a:b:c:d:e:f into * the chip. * MAC_Address_2 = (a << 8) | b * MAC_Address_1 = (c << 8) | d * MAC_Address_0 = (e << 8) | f */ /* Address Filter Registers. Registers 0 through 2 specify bit * fields [47:32] through [15:0], respectively, of the address * filter. The Address Filter 2&1 Mask Register denotes the 8-bit * nibble mask for Address Filter Registers 2 and 1. The Address * Filter 0 Mask Register denotes the 16-bit mask for the Address * Filter Register 0. */ /* Hash Table Registers. Registers 0 through 15 specify bit fields * [255:240] through [15:0], respectively, of the hash table. */ /* Statistics Registers. All of these registers are 16-bits and * track occurrences of a specific event. GEM can be configured * to interrupt the host cpu when any of these counters overflow. * They should all be explicitly initialized to zero when the interface * is brought up. */ /* Random Number Seed Register. This 10-bit value is used as the * RNG seed inside GEM for the CSMA/CD backoff algorithm. It is * recommended to program this register to the 10 LSB of the * interfaces MAC address. */ /* Pause Timer, read-only. This 16-bit timer is used to time the pause * interval as indicated by a received pause flow control frame. * A non-zero value in this timer indicates that the MAC is currently in * the paused state. */ /* MIF Registers */ #define MIF_BBCLK 0x6200UL /* MIF Bit-Bang Clock */ #define MIF_BBDATA 0x6204UL /* MIF Bit-Band Data */ #define MIF_BBOENAB 0x6208UL /* MIF Bit-Bang Output Enable */ #define MIF_FRAME 0x620CUL /* MIF Frame/Output Register */ #define MIF_CFG 0x6210UL /* MIF Configuration Register */ #define MIF_MASK 0x6214UL /* MIF Mask Register */ #define MIF_STATUS 0x6218UL /* MIF Status Register */ #define MIF_SMACHINE 0x621CUL /* MIF State Machine Register */ /* MIF Bit-Bang Clock. This 1-bit register is used to generate the * MDC clock waveform on the MII Management Interface when the MIF is * programmed in the "Bit-Bang" mode. Writing a '1' after a '0' into * this register will create a rising edge on the MDC, while writing * a '0' after a '1' will create a falling edge. For every bit that * is transferred on the management interface, both edges have to be * generated. */ /* MIF Bit-Bang Data. This 1-bit register is used to generate the * outgoing data (MDO) on the MII Management Interface when the MIF * is programmed in the "Bit-Bang" mode. The daa will be steered to the * appropriate MDIO based on the state of the PHY_Select bit in the MIF * Configuration Register. */ /* MIF Big-Band Output Enable. THis 1-bit register is used to enable * ('1') or disable ('0') the I-directional driver on the MII when the * MIF is programmed in the "Bit-Bang" mode. The MDIO should be enabled * when data bits are transferred from the MIF to the transceiver, and it * should be disabled when the interface is idle or when data bits are * transferred from the transceiver to the MIF (data portion of a read * instruction). Only one MDIO will be enabled at a given time, depending * on the state of the PHY_Select bit in the MIF Configuration Register. */ /* MIF Configuration Register. This 15-bit register controls the operation * of the MIF. */ #define MIF_CFG_PSELECT 0x00000001 /* Xcvr slct: 0=mdio0 1=mdio1 */ #define MIF_CFG_POLL 0x00000002 /* Enable polling mechanism */ #define MIF_CFG_BBMODE 0x00000004 /* 1=bit-bang 0=frame mode */ #define MIF_CFG_PRADDR 0x000000f8 /* Xcvr poll register address */ #define MIF_CFG_MDI0 0x00000100 /* MDIO_0 present or read-bit */ #define MIF_CFG_MDI1 0x00000200 /* MDIO_1 present or read-bit */ #define MIF_CFG_PPADDR 0x00007c00 /* Xcvr poll PHY address */ /* MIF Frame/Output Register. This 32-bit register allows the host to * communicate with a transceiver in frame mode (as opposed to big-bang * mode). Writes by the host specify an instrution. After being issued * the host must poll this register for completion. Also, after * completion this register holds the data returned by the transceiver * if applicable. */ #define MIF_FRAME_ST 0xc0000000 /* STart of frame */ #define MIF_FRAME_OP 0x30000000 /* OPcode */ #define MIF_FRAME_PHYAD 0x0f800000 /* PHY ADdress */ #define MIF_FRAME_REGAD 0x007c0000 /* REGister ADdress */ #define MIF_FRAME_TAMSB 0x00020000 /* Turn Around MSB */ #define MIF_FRAME_TALSB 0x00010000 /* Turn Around LSB */ #define MIF_FRAME_DATA 0x0000ffff /* Instruction Payload */ /* MIF Status Register. This register reports status when the MIF is * operating in the poll mode. The poll status field is auto-clearing * on read. */ #define MIF_STATUS_DATA 0xffff0000 /* Live image of XCVR reg */ #define MIF_STATUS_STAT 0x0000ffff /* Which bits have changed */ /* MIF Mask Register. This 16-bit register is used when in poll mode * to say which bits of the polled register will cause an interrupt * when changed. */ /* PCS/Serialink Registers */ #define PCS_MIICTRL 0x9000UL /* PCS MII Control Register */ #define PCS_MIISTAT 0x9004UL /* PCS MII Status Register */ #define PCS_MIIADV 0x9008UL /* PCS MII Advertisement Reg */ #define PCS_MIILP 0x900CUL /* PCS MII Link Partner Ability */ #define PCS_CFG 0x9010UL /* PCS Configuration Register */ #define PCS_SMACHINE 0x9014UL /* PCS State Machine Register */ #define PCS_ISTAT 0x9018UL /* PCS Interrupt Status Reg */ #define PCS_DMODE 0x9050UL /* Datapath Mode Register */ #define PCS_SCTRL 0x9054UL /* Serialink Control Register */ #define PCS_SOS 0x9058UL /* Shared Output Select Reg */ #define PCS_SSTATE 0x905CUL /* Serialink State Register */ /* PCD MII Control Register. */ #define PCS_MIICTRL_SPD 0x00000040 /* Read as one, writes ignored */ #define PCS_MIICTRL_CT 0x00000080 /* Force COL signal active */ #define PCS_MIICTRL_DM 0x00000100 /* Duplex mode, forced low */ #define PCS_MIICTRL_RAN 0x00000200 /* Restart auto-neg, self clear */ #define PCS_MIICTRL_ISO 0x00000400 /* Read as zero, writes ignored */ #define PCS_MIICTRL_PD 0x00000800 /* Read as zero, writes ignored */ #define PCS_MIICTRL_ANE 0x00001000 /* Auto-neg enable */ #define PCS_MIICTRL_SS 0x00002000 /* Read as zero, writes ignored */ #define PCS_MIICTRL_WB 0x00004000 /* Wrapback, loopback at 10-bit * input side of Serialink */ #define PCS_MIICTRL_RST 0x00008000 /* Resets PCS, self clearing */ /* PCS MII Status Register. */ #define PCS_MIISTAT_EC 0x00000001 /* Ext Capability: Read as zero */ #define PCS_MIISTAT_JD 0x00000002 /* Jabber Detect: Read as zero */ #define PCS_MIISTAT_LS 0x00000004 /* Link Status: 1=up 0=down */ #define PCS_MIISTAT_ANA 0x00000008 /* Auto-neg Ability, always 1 */ #define PCS_MIISTAT_RF 0x00000010 /* Remote Fault */ #define PCS_MIISTAT_ANC 0x00000020 /* Auto-neg complete */ #define PCS_MIISTAT_ES 0x00000100 /* Extended Status, always 1 */ /* PCS MII Advertisement Register. */ #define PCS_MIIADV_FD 0x00000020 /* Advertise Full Duplex */ #define PCS_MIIADV_HD 0x00000040 /* Advertise Half Duplex */ #define PCS_MIIADV_SP 0x00000080 /* Advertise Symmetric Pause */ #define PCS_MIIADV_AP 0x00000100 /* Advertise Asymmetric Pause */ #define PCS_MIIADV_RF 0x00003000 /* Remote Fault */ #define PCS_MIIADV_ACK 0x00004000 /* Read-only */ #define PCS_MIIADV_NP 0x00008000 /* Next-page, forced low */ /* PCS MII Link Partner Ability Register. This register is equivalent * to the Link Partnet Ability Register of the standard MII register set. * It's layout corresponds to the PCS MII Advertisement Register. */ /* PCS Configuration Register. */ #define PCS_CFG_ENABLE 0x00000001 /* Must be zero while changing * PCS MII advertisement reg. */ #define PCS_CFG_SDO 0x00000002 /* Signal detect override */ #define PCS_CFG_SDL 0x00000004 /* Signal detect active low */ #define PCS_CFG_JS 0x00000018 /* Jitter-study: * 0 = normal operation * 1 = high-frequency test pattern * 2 = low-frequency test pattern * 3 = reserved */ #define PCS_CFG_TO 0x00000020 /* 10ms auto-neg timer override */ /* PCS Interrupt Status Register. This register is self-clearing * when read. */ #define PCS_ISTAT_LSC 0x00000004 /* Link Status Change */ /* Datapath Mode Register. */ #define PCS_DMODE_SM 0x00000001 /* 1 = use internal Serialink */ #define PCS_DMODE_ESM 0x00000002 /* External SERDES mode */ #define PCS_DMODE_MGM 0x00000004 /* MII/GMII mode */ #define PCS_DMODE_GMOE 0x00000008 /* GMII Output Enable */ /* Serialink Control Register. * * NOTE: When in SERDES mode, the loopback bit has inverse logic. */ #define PCS_SCTRL_LOOP 0x00000001 /* Loopback enable */ #define PCS_SCTRL_ESCD 0x00000002 /* Enable sync char detection */ #define PCS_SCTRL_LOCK 0x00000004 /* Lock to reference clock */ #define PCS_SCTRL_EMP 0x00000018 /* Output driver emphasis */ #define PCS_SCTRL_STEST 0x000001c0 /* Self test patterns */ #define PCS_SCTRL_PDWN 0x00000200 /* Software power-down */ #define PCS_SCTRL_RXZ 0x00000c00 /* PLL input to Serialink */ #define PCS_SCTRL_RXP 0x00003000 /* PLL input to Serialink */ #define PCS_SCTRL_TXZ 0x0000c000 /* PLL input to Serialink */ #define PCS_SCTRL_TXP 0x00030000 /* PLL input to Serialink */ /* Shared Output Select Register. For test and debug, allows multiplexing * test outputs into the PROM address pins. Set to zero for normal * operation. */ #define PCS_SOS_PADDR 0x00000003 /* PROM Address */ /* PROM Image Space */ #define PROM_START 0x100000UL /* Expansion ROM run time access*/ #define PROM_SIZE 0x0fffffUL /* Size of ROM */ #define PROM_END 0x200000UL /* End of ROM */ /* MII definitions missing from mii.h */ #define BMCR_SPD2 0x0040 /* Gigabit enable? (bcm5411) */ #define LPA_PAUSE 0x0400 /* More PHY registers (specific to Broadcom models) */ /* MII BCM5201 MULTIPHY interrupt register */ #define MII_BCM5201_INTERRUPT 0x1A #define MII_BCM5201_INTERRUPT_INTENABLE 0x4000 #define MII_BCM5201_AUXMODE2 0x1B #define MII_BCM5201_AUXMODE2_LOWPOWER 0x0008 #define MII_BCM5201_MULTIPHY 0x1E /* MII BCM5201 MULTIPHY register bits */ #define MII_BCM5201_MULTIPHY_SERIALMODE 0x0002 #define MII_BCM5201_MULTIPHY_SUPERISOLATE 0x0008 /* MII BCM5400 1000-BASET Control register */ #define MII_BCM5400_GB_CONTROL 0x09 #define MII_BCM5400_GB_CONTROL_FULLDUPLEXCAP 0x0200 /* MII BCM5400 AUXCONTROL register */ #define MII_BCM5400_AUXCONTROL 0x18 #define MII_BCM5400_AUXCONTROL_PWR10BASET 0x0004 /* MII BCM5400 AUXSTATUS register */ #define MII_BCM5400_AUXSTATUS 0x19 #define MII_BCM5400_AUXSTATUS_LINKMODE_MASK 0x0700 #define MII_BCM5400_AUXSTATUS_LINKMODE_SHIFT 8 /* When it can, GEM internally caches 4 aligned TX descriptors * at a time, so that it can use full cacheline DMA reads. * * Note that unlike HME, there is no ownership bit in the descriptor * control word. The same functionality is obtained via the TX-Kick * and TX-Complete registers. As a result, GEM need not write back * updated values to the TX descriptor ring, it only performs reads. * * Since TX descriptors are never modified by GEM, the driver can * use the buffer DMA address as a place to keep track of allocated * DMA mappings for a transmitted packet. */ struct gem_txd { __le64 control_word; __le64 buffer; }; #define TXDCTRL_BUFSZ 0x0000000000007fffULL /* Buffer Size */ #define TXDCTRL_CSTART 0x00000000001f8000ULL /* CSUM Start Offset */ #define TXDCTRL_COFF 0x000000001fe00000ULL /* CSUM Stuff Offset */ #define TXDCTRL_CENAB 0x0000000020000000ULL /* CSUM Enable */ #define TXDCTRL_EOF 0x0000000040000000ULL /* End of Frame */ #define TXDCTRL_SOF 0x0000000080000000ULL /* Start of Frame */ #define TXDCTRL_INTME 0x0000000100000000ULL /* "Interrupt Me" */ #define TXDCTRL_NOCRC 0x0000000200000000ULL /* No CRC Present */ /* GEM requires that RX descriptors are provided four at a time, * aligned. Also, the RX ring may not wrap around. This means that * there will be at least 4 unused descriptor entries in the middle * of the RX ring at all times. * * Similar to HME, GEM assumes that it can write garbage bytes before * the beginning of the buffer and right after the end in order to DMA * whole cachelines. * * Unlike for TX, GEM does update the status word in the RX descriptors * when packets arrive. Therefore an ownership bit does exist in the * RX descriptors. It is advisory, GEM clears it but does not check * it in any way. So when buffers are posted to the RX ring (via the * RX Kick register) by the driver it must make sure the buffers are * truly ready and that the ownership bits are set properly. * * Even though GEM modifies the RX descriptors, it guarantees that the * buffer DMA address field will stay the same when it performs these * updates. Therefore it can be used to keep track of DMA mappings * by the host driver just as in the TX descriptor case above. */ struct gem_rxd { __le64 status_word; __le64 buffer; }; #define RXDCTRL_TCPCSUM 0x000000000000ffffULL /* TCP Pseudo-CSUM */ #define RXDCTRL_BUFSZ 0x000000007fff0000ULL /* Buffer Size */ #define RXDCTRL_OWN 0x0000000080000000ULL /* GEM owns this entry */ #define RXDCTRL_HASHVAL 0x0ffff00000000000ULL /* Hash Value */ #define RXDCTRL_HPASS 0x1000000000000000ULL /* Passed Hash Filter */ #define RXDCTRL_ALTMAC 0x2000000000000000ULL /* Matched ALT MAC */ #define RXDCTRL_BAD 0x4000000000000000ULL /* Frame has bad CRC */ #define RXDCTRL_FRESH(gp) \ ((((RX_BUF_ALLOC_SIZE(gp) - RX_OFFSET) << 16) & RXDCTRL_BUFSZ) | \ RXDCTRL_OWN) #define TX_RING_SIZE 128 #define RX_RING_SIZE 128 #if TX_RING_SIZE == 32 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_32 #elif TX_RING_SIZE == 64 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_64 #elif TX_RING_SIZE == 128 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_128 #elif TX_RING_SIZE == 256 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_256 #elif TX_RING_SIZE == 512 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_512 #elif TX_RING_SIZE == 1024 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_1K #elif TX_RING_SIZE == 2048 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_2K #elif TX_RING_SIZE == 4096 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_4K #elif TX_RING_SIZE == 8192 #define TXDMA_CFG_BASE TXDMA_CFG_RINGSZ_8K #else #error TX_RING_SIZE value is illegal... #endif #if RX_RING_SIZE == 32 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_32 #elif RX_RING_SIZE == 64 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_64 #elif RX_RING_SIZE == 128 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_128 #elif RX_RING_SIZE == 256 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_256 #elif RX_RING_SIZE == 512 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_512 #elif RX_RING_SIZE == 1024 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_1K #elif RX_RING_SIZE == 2048 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_2K #elif RX_RING_SIZE == 4096 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_4K #elif RX_RING_SIZE == 8192 #define RXDMA_CFG_BASE RXDMA_CFG_RINGSZ_8K #else #error RX_RING_SIZE is illegal... #endif #define NEXT_TX(N) (((N) + 1) & (TX_RING_SIZE - 1)) #define NEXT_RX(N) (((N) + 1) & (RX_RING_SIZE - 1)) #define TX_BUFFS_AVAIL(GP) \ (((GP)->tx_old <= (GP)->tx_new) ? \ (GP)->tx_old + (TX_RING_SIZE - 1) - (GP)->tx_new : \ (GP)->tx_old - (GP)->tx_new - 1) #define RX_OFFSET 2 #define RX_BUF_ALLOC_SIZE(gp) ((gp)->rx_buf_sz + 28 + RX_OFFSET + 64) #define RX_COPY_THRESHOLD 256 #if TX_RING_SIZE < 128 #define INIT_BLOCK_TX_RING_SIZE 128 #else #define INIT_BLOCK_TX_RING_SIZE TX_RING_SIZE #endif #if RX_RING_SIZE < 128 #define INIT_BLOCK_RX_RING_SIZE 128 #else #define INIT_BLOCK_RX_RING_SIZE RX_RING_SIZE #endif struct gem_init_block { struct gem_txd txd[INIT_BLOCK_TX_RING_SIZE]; struct gem_rxd rxd[INIT_BLOCK_RX_RING_SIZE]; }; enum gem_phy_type { phy_mii_mdio0, phy_mii_mdio1, phy_serialink, phy_serdes, }; enum link_state { link_down = 0, /* No link, will retry */ link_aneg, /* Autoneg in progress */ link_force_try, /* Try Forced link speed */ link_force_ret, /* Forced mode worked, retrying autoneg */ link_force_ok, /* Stay in forced mode */ link_up /* Link is up */ }; struct gem { spinlock_t lock; spinlock_t tx_lock; void __iomem *regs; int rx_new, rx_old; int tx_new, tx_old; unsigned int has_wol : 1; /* chip supports wake-on-lan */ unsigned int asleep : 1; /* chip asleep, protected by pm_mutex */ unsigned int asleep_wol : 1; /* was asleep with WOL enabled */ unsigned int opened : 1; /* driver opened, protected by pm_mutex */ unsigned int running : 1; /* chip running, protected by lock */ /* cell enable count, protected by lock */ int cell_enabled; struct mutex pm_mutex; u32 msg_enable; u32 status; struct napi_struct napi; int tx_fifo_sz; int rx_fifo_sz; int rx_pause_off; int rx_pause_on; int rx_buf_sz; u64 pause_entered; u16 pause_last_time_recvd; u32 mac_rx_cfg; u32 swrst_base; int want_autoneg; int last_forced_speed; enum link_state lstate; struct timer_list link_timer; int timer_ticks; int wake_on_lan; struct work_struct reset_task; volatile int reset_task_pending; enum gem_phy_type phy_type; struct mii_phy phy_mii; int mii_phy_addr; struct gem_init_block *init_block; struct sk_buff *rx_skbs[RX_RING_SIZE]; struct sk_buff *tx_skbs[TX_RING_SIZE]; dma_addr_t gblock_dvma; struct pci_dev *pdev; struct net_device *dev; #if defined(CONFIG_PPC_PMAC) || defined(CONFIG_SPARC) struct device_node *of_node; #endif }; #define found_mii_phy(gp) ((gp->phy_type == phy_mii_mdio0 || gp->phy_type == phy_mii_mdio1) && \ gp->phy_mii.def && gp->phy_mii.def->ops) #define ALIGNED_RX_SKB_ADDR(addr) \ ((((unsigned long)(addr) + (64UL - 1UL)) & ~(64UL - 1UL)) - (unsigned long)(addr)) static __inline__ struct sk_buff *gem_alloc_skb(int size, gfp_t gfp_flags) { struct sk_buff *skb = alloc_skb(size + 64, gfp_flags); if (skb) { int offset = (int) ALIGNED_RX_SKB_ADDR(skb->data); if (offset) skb_reserve(skb, offset); } return skb; } #endif /* _SUNGEM_H */ |