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|
/* $OpenBSD: if_skreg.h,v 1.10 2003/08/12 05:23:06 nate Exp $ */
/*-
* Copyright (c) 1997, 1998, 1999, 2000
* Bill Paul <wpaul@ctr.columbia.edu>. 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Bill Paul.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Bill Paul 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 Bill Paul OR THE VOICES IN HIS HEAD
* 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.
*
* $FreeBSD$
*/
/*-
* Copyright (c) 2003 Nathan L. Binkert <binkertn@umich.edu>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
/* Values to keep the different chip revisions apart (SK_CHIPVER). */
#define SK_GENESIS 0x0A
#define SK_YUKON 0xB0
#define SK_YUKON_LITE 0xB1
#define SK_YUKON_LP 0xB2
#define SK_YUKON_FAMILY(x) ((x) & 0xB0)
/* Known revisions in SK_CONFIG. */
#define SK_YUKON_LITE_REV_A0 0x0 /* invented, see test in skc_attach. */
#define SK_YUKON_LITE_REV_A1 0x3
#define SK_YUKON_LITE_REV_A3 0x7
/*
* SysKonnect PCI vendor ID
*/
#define VENDORID_SK 0x1148
/*
* Marvell PCI vendor ID
*/
#define VENDORID_MARVELL 0x11AB
/*
* SK-NET gigabit ethernet device IDs
*/
#define DEVICEID_SK_V1 0x4300
#define DEVICEID_SK_V2 0x4320
/*
* Belkin F5D5005
*/
#define DEVICEID_BELKIN_5005 0x5005
/*
* 3Com PCI vendor ID
*/
#define VENDORID_3COM 0x10b7
/*
* 3Com gigabit ethernet device ID
*/
#define DEVICEID_3COM_3C940 0x1700
/*
* Linksys PCI vendor ID
*/
#define VENDORID_LINKSYS 0x1737
/*
* Linksys gigabit ethernet device ID
*/
#define DEVICEID_LINKSYS_EG1032 0x1032
/*
* Linksys gigabit ethernet rev 2 sub-device ID
*/
#define SUBDEVICEID_LINKSYS_EG1032_REV2 0x0015
/*
* D-Link PCI vendor ID
*/
#define VENDORID_DLINK 0x1186
/*
* D-Link gigabit ethernet device ID
*/
#define DEVICEID_DLINK_DGE530T_A1 0x4c00
#define DEVICEID_DLINK_DGE530T_B1 0x4b01
/*
* GEnesis registers. The GEnesis chip has a 256-byte I/O window
* but internally it has a 16K register space. This 16K space is
* divided into 128-byte blocks. The first 128 bytes of the I/O
* window represent the first block, which is permanently mapped
* at the start of the window. The other 127 blocks can be mapped
* to the second 128 bytes of the I/O window by setting the desired
* block value in the RAP register in block 0. Not all of the 127
* blocks are actually used. Most registers are 32 bits wide, but
* there are a few 16-bit and 8-bit ones as well.
*/
/* Start of remappable register window. */
#define SK_WIN_BASE 0x0080
/* Size of a window */
#define SK_WIN_LEN 0x80
#define SK_WIN_MASK 0x3F80
#define SK_REG_MASK 0x7F
/* Compute the window of a given register (for the RAP register) */
#define SK_WIN(reg) (((reg) & SK_WIN_MASK) / SK_WIN_LEN)
/* Compute the relative offset of a register within the window */
#define SK_REG(reg) ((reg) & SK_REG_MASK)
#define SK_PORT_A 0
#define SK_PORT_B 1
/*
* Compute offset of port-specific register. Since there are two
* ports, there are two of some GEnesis modules (e.g. two sets of
* DMA queues, two sets of FIFO control registers, etc...). Normally,
* the block for port 0 is at offset 0x0 and the block for port 1 is
* at offset 0x80 (i.e. the next page over). However for the transmit
* BMUs and RAMbuffers, there are two blocks for each port: one for
* the sync transmit queue and one for the async queue (which we don't
* use). However instead of ordering them like this:
* TX sync 1 / TX sync 2 / TX async 1 / TX async 2
* SysKonnect has instead ordered them like this:
* TX sync 1 / TX async 1 / TX sync 2 / TX async 2
* This means that when referencing the TX BMU and RAMbuffer registers,
* we have to double the block offset (0x80 * 2) in order to reach the
* second queue. This prevents us from using the same formula
* (sk_port * 0x80) to compute the offsets for all of the port-specific
* blocks: we need an extra offset for the BMU and RAMbuffer registers.
* The simplest thing is to provide an extra argument to these macros:
* the 'skip' parameter. The 'skip' value is the number of extra pages
* for skip when computing the port0/port1 offsets. For most registers,
* the skip value is 0; for the BMU and RAMbuffer registers, it's 1.
*/
#define SK_IF_READ_4(sc_if, skip, reg) \
sk_win_read_4(sc_if->sk_softc, reg + \
((sc_if->sk_port * (skip + 1)) * SK_WIN_LEN))
#define SK_IF_READ_2(sc_if, skip, reg) \
sk_win_read_2(sc_if->sk_softc, reg + \
((sc_if->sk_port * (skip + 1)) * SK_WIN_LEN))
#define SK_IF_READ_1(sc_if, skip, reg) \
sk_win_read_1(sc_if->sk_softc, reg + \
((sc_if->sk_port * (skip + 1)) * SK_WIN_LEN))
#define SK_IF_WRITE_4(sc_if, skip, reg, val) \
sk_win_write_4(sc_if->sk_softc, \
reg + ((sc_if->sk_port * (skip + 1)) * SK_WIN_LEN), val)
#define SK_IF_WRITE_2(sc_if, skip, reg, val) \
sk_win_write_2(sc_if->sk_softc, \
reg + ((sc_if->sk_port * (skip + 1)) * SK_WIN_LEN), val)
#define SK_IF_WRITE_1(sc_if, skip, reg, val) \
sk_win_write_1(sc_if->sk_softc, \
reg + ((sc_if->sk_port * (skip + 1)) * SK_WIN_LEN), val)
/* Block 0 registers, permanently mapped at iobase. */
#define SK_RAP 0x0000
#define SK_CSR 0x0004
#define SK_LED 0x0006
#define SK_ISR 0x0008 /* interrupt source */
#define SK_IMR 0x000C /* interrupt mask */
#define SK_IESR 0x0010 /* interrupt hardware error source */
#define SK_IEMR 0x0014 /* interrupt hardware error mask */
#define SK_ISSR 0x0018 /* special interrupt source */
#define SK_XM_IMR0 0x0020
#define SK_XM_ISR0 0x0028
#define SK_XM_PHYADDR0 0x0030
#define SK_XM_PHYDATA0 0x0034
#define SK_XM_IMR1 0x0040
#define SK_XM_ISR1 0x0048
#define SK_XM_PHYADDR1 0x0050
#define SK_XM_PHYDATA1 0x0054
#define SK_BMU_RX_CSR0 0x0060
#define SK_BMU_RX_CSR1 0x0064
#define SK_BMU_TXS_CSR0 0x0068
#define SK_BMU_TXA_CSR0 0x006C
#define SK_BMU_TXS_CSR1 0x0070
#define SK_BMU_TXA_CSR1 0x0074
/* SK_CSR register */
#define SK_CSR_SW_RESET 0x0001
#define SK_CSR_SW_UNRESET 0x0002
#define SK_CSR_MASTER_RESET 0x0004
#define SK_CSR_MASTER_UNRESET 0x0008
#define SK_CSR_MASTER_STOP 0x0010
#define SK_CSR_MASTER_DONE 0x0020
#define SK_CSR_SW_IRQ_CLEAR 0x0040
#define SK_CSR_SW_IRQ_SET 0x0080
#define SK_CSR_SLOTSIZE 0x0100 /* 1 == 64 bits, 0 == 32 */
#define SK_CSR_BUSCLOCK 0x0200 /* 1 == 33/66 Mhz, = 33 */
/* SK_LED register */
#define SK_LED_GREEN_OFF 0x01
#define SK_LED_GREEN_ON 0x02
/* SK_ISR register */
#define SK_ISR_TX2_AS_CHECK 0x00000001
#define SK_ISR_TX2_AS_EOF 0x00000002
#define SK_ISR_TX2_AS_EOB 0x00000004
#define SK_ISR_TX2_S_CHECK 0x00000008
#define SK_ISR_TX2_S_EOF 0x00000010
#define SK_ISR_TX2_S_EOB 0x00000020
#define SK_ISR_TX1_AS_CHECK 0x00000040
#define SK_ISR_TX1_AS_EOF 0x00000080
#define SK_ISR_TX1_AS_EOB 0x00000100
#define SK_ISR_TX1_S_CHECK 0x00000200
#define SK_ISR_TX1_S_EOF 0x00000400
#define SK_ISR_TX1_S_EOB 0x00000800
#define SK_ISR_RX2_CHECK 0x00001000
#define SK_ISR_RX2_EOF 0x00002000
#define SK_ISR_RX2_EOB 0x00004000
#define SK_ISR_RX1_CHECK 0x00008000
#define SK_ISR_RX1_EOF 0x00010000
#define SK_ISR_RX1_EOB 0x00020000
#define SK_ISR_LINK2_OFLOW 0x00040000
#define SK_ISR_MAC2 0x00080000
#define SK_ISR_LINK1_OFLOW 0x00100000
#define SK_ISR_MAC1 0x00200000
#define SK_ISR_TIMER 0x00400000
#define SK_ISR_EXTERNAL_REG 0x00800000
#define SK_ISR_SW 0x01000000
#define SK_ISR_I2C_RDY 0x02000000
#define SK_ISR_TX2_TIMEO 0x04000000
#define SK_ISR_TX1_TIMEO 0x08000000
#define SK_ISR_RX2_TIMEO 0x10000000
#define SK_ISR_RX1_TIMEO 0x20000000
#define SK_ISR_RSVD 0x40000000
#define SK_ISR_HWERR 0x80000000
/* SK_IMR register */
#define SK_IMR_TX2_AS_CHECK 0x00000001
#define SK_IMR_TX2_AS_EOF 0x00000002
#define SK_IMR_TX2_AS_EOB 0x00000004
#define SK_IMR_TX2_S_CHECK 0x00000008
#define SK_IMR_TX2_S_EOF 0x00000010
#define SK_IMR_TX2_S_EOB 0x00000020
#define SK_IMR_TX1_AS_CHECK 0x00000040
#define SK_IMR_TX1_AS_EOF 0x00000080
#define SK_IMR_TX1_AS_EOB 0x00000100
#define SK_IMR_TX1_S_CHECK 0x00000200
#define SK_IMR_TX1_S_EOF 0x00000400
#define SK_IMR_TX1_S_EOB 0x00000800
#define SK_IMR_RX2_CHECK 0x00001000
#define SK_IMR_RX2_EOF 0x00002000
#define SK_IMR_RX2_EOB 0x00004000
#define SK_IMR_RX1_CHECK 0x00008000
#define SK_IMR_RX1_EOF 0x00010000
#define SK_IMR_RX1_EOB 0x00020000
#define SK_IMR_LINK2_OFLOW 0x00040000
#define SK_IMR_MAC2 0x00080000
#define SK_IMR_LINK1_OFLOW 0x00100000
#define SK_IMR_MAC1 0x00200000
#define SK_IMR_TIMER 0x00400000
#define SK_IMR_EXTERNAL_REG 0x00800000
#define SK_IMR_SW 0x01000000
#define SK_IMR_I2C_RDY 0x02000000
#define SK_IMR_TX2_TIMEO 0x04000000
#define SK_IMR_TX1_TIMEO 0x08000000
#define SK_IMR_RX2_TIMEO 0x10000000
#define SK_IMR_RX1_TIMEO 0x20000000
#define SK_IMR_RSVD 0x40000000
#define SK_IMR_HWERR 0x80000000
#define SK_INTRS1 \
(SK_IMR_RX1_EOF|SK_IMR_TX1_S_EOF|SK_IMR_MAC1)
#define SK_INTRS2 \
(SK_IMR_RX2_EOF|SK_IMR_TX2_S_EOF|SK_IMR_MAC2)
/* SK_IESR register */
#define SK_IESR_PAR_RX2 0x00000001
#define SK_IESR_PAR_RX1 0x00000002
#define SK_IESR_PAR_MAC2 0x00000004
#define SK_IESR_PAR_MAC1 0x00000008
#define SK_IESR_PAR_WR_RAM 0x00000010
#define SK_IESR_PAR_RD_RAM 0x00000020
#define SK_IESR_NO_TSTAMP_MAC2 0x00000040
#define SK_IESR_NO_TSTAMO_MAC1 0x00000080
#define SK_IESR_NO_STS_MAC2 0x00000100
#define SK_IESR_NO_STS_MAC1 0x00000200
#define SK_IESR_IRQ_STS 0x00000400
#define SK_IESR_MASTERERR 0x00000800
/* SK_IEMR register */
#define SK_IEMR_PAR_RX2 0x00000001
#define SK_IEMR_PAR_RX1 0x00000002
#define SK_IEMR_PAR_MAC2 0x00000004
#define SK_IEMR_PAR_MAC1 0x00000008
#define SK_IEMR_PAR_WR_RAM 0x00000010
#define SK_IEMR_PAR_RD_RAM 0x00000020
#define SK_IEMR_NO_TSTAMP_MAC2 0x00000040
#define SK_IEMR_NO_TSTAMO_MAC1 0x00000080
#define SK_IEMR_NO_STS_MAC2 0x00000100
#define SK_IEMR_NO_STS_MAC1 0x00000200
#define SK_IEMR_IRQ_STS 0x00000400
#define SK_IEMR_MASTERERR 0x00000800
/* Block 2 */
#define SK_MAC0_0 0x0100
#define SK_MAC0_1 0x0104
#define SK_MAC1_0 0x0108
#define SK_MAC1_1 0x010C
#define SK_MAC2_0 0x0110
#define SK_MAC2_1 0x0114
#define SK_CONNTYPE 0x0118
#define SK_PMDTYPE 0x0119
#define SK_CONFIG 0x011A
#define SK_CHIPVER 0x011B
#define SK_EPROM0 0x011C
#define SK_EPROM1 0x011D /* yukon/genesis */
#define SK_EPROM2 0x011E /* yukon/genesis */
#define SK_EPROM3 0x011F
#define SK_EP_ADDR 0x0120
#define SK_EP_DATA 0x0124
#define SK_EP_LOADCTL 0x0128
#define SK_EP_LOADTST 0x0129
#define SK_TIMERINIT 0x0130
#define SK_TIMER 0x0134
#define SK_TIMERCTL 0x0138
#define SK_TIMERTST 0x0139
#define SK_IMTIMERINIT 0x0140
#define SK_IMTIMER 0x0144
#define SK_IMTIMERCTL 0x0148
#define SK_IMTIMERTST 0x0149
#define SK_IMMR 0x014C
#define SK_IHWEMR 0x0150
#define SK_TESTCTL1 0x0158
#define SK_TESTCTL2 0x0159
#define SK_GPIO 0x015C
#define SK_I2CHWCTL 0x0160
#define SK_I2CHWDATA 0x0164
#define SK_I2CHWIRQ 0x0168
#define SK_I2CSW 0x016C
#define SK_BLNKINIT 0x0170
#define SK_BLNKCOUNT 0x0174
#define SK_BLNKCTL 0x0178
#define SK_BLNKSTS 0x0179
#define SK_BLNKTST 0x017A
#define SK_IMCTL_STOP 0x02
#define SK_IMCTL_START 0x04
#define SK_IMTIMER_TICKS_GENESIS 53
#define SK_IMTIMER_TICKS_YUKON 78
#define SK_IM_USECS(x, t) ((x) * (t))
#define SK_IM_MIN 10
#define SK_IM_DEFAULT 100
#define SK_IM_MAX 10000
/*
* The SK_EPROM0 register contains a byte that describes the
* amount of SRAM mounted on the NIC. The value also tells if
* the chips are 64K or 128K. This affects the RAMbuffer address
* offset that we need to use.
*/
#define SK_RAMSIZE_512K_64 0x1
#define SK_RAMSIZE_1024K_128 0x2
#define SK_RAMSIZE_1024K_64 0x3
#define SK_RAMSIZE_2048K_128 0x4
#define SK_RBOFF_0 0x0
#define SK_RBOFF_80000 0x80000
/*
* SK_EEPROM1 contains the PHY type, which may be XMAC for
* fiber-based cards or BCOM for 1000baseT cards with a Broadcom
* PHY.
*/
#define SK_PHYTYPE_XMAC 0 /* integeated XMAC II PHY */
#define SK_PHYTYPE_BCOM 1 /* Broadcom BCM5400 */
#define SK_PHYTYPE_LONE 2 /* Level One LXT1000 */
#define SK_PHYTYPE_NAT 3 /* National DP83891 */
#define SK_PHYTYPE_MARV_COPPER 4 /* Marvell 88E1011S */
#define SK_PHYTYPE_MARV_FIBER 5 /* Marvell 88E1011S (fiber) */
/*
* PHY addresses.
*/
#define SK_PHYADDR_XMAC 0x0
#define SK_PHYADDR_BCOM 0x1
#define SK_PHYADDR_LONE 0x3
#define SK_PHYADDR_NAT 0x0
#define SK_PHYADDR_MARV 0x0
#define SK_CONFIG_SINGLEMAC 0x01
#define SK_CONFIG_DIS_DSL_CLK 0x02
#define SK_PMD_1000BASELX 0x4C
#define SK_PMD_1000BASESX 0x53
#define SK_PMD_1000BASECX 0x43
#define SK_PMD_1000BASETX 0x54
/* GPIO bits */
#define SK_GPIO_DAT0 0x00000001
#define SK_GPIO_DAT1 0x00000002
#define SK_GPIO_DAT2 0x00000004
#define SK_GPIO_DAT3 0x00000008
#define SK_GPIO_DAT4 0x00000010
#define SK_GPIO_DAT5 0x00000020
#define SK_GPIO_DAT6 0x00000040
#define SK_GPIO_DAT7 0x00000080
#define SK_GPIO_DAT8 0x00000100
#define SK_GPIO_DAT9 0x00000200
#define SK_GPIO_DIR0 0x00010000
#define SK_GPIO_DIR1 0x00020000
#define SK_GPIO_DIR2 0x00040000
#define SK_GPIO_DIR3 0x00080000
#define SK_GPIO_DIR4 0x00100000
#define SK_GPIO_DIR5 0x00200000
#define SK_GPIO_DIR6 0x00400000
#define SK_GPIO_DIR7 0x00800000
#define SK_GPIO_DIR8 0x01000000
#define SK_GPIO_DIR9 0x02000000
/* Block 3 Ram interface and MAC arbiter registers */
#define SK_RAMADDR 0x0180
#define SK_RAMDATA0 0x0184
#define SK_RAMDATA1 0x0188
#define SK_TO0 0x0190
#define SK_TO1 0x0191
#define SK_TO2 0x0192
#define SK_TO3 0x0193
#define SK_TO4 0x0194
#define SK_TO5 0x0195
#define SK_TO6 0x0196
#define SK_TO7 0x0197
#define SK_TO8 0x0198
#define SK_TO9 0x0199
#define SK_TO10 0x019A
#define SK_TO11 0x019B
#define SK_RITIMEO_TMR 0x019C
#define SK_RAMCTL 0x01A0
#define SK_RITIMER_TST 0x01A2
#define SK_RAMCTL_RESET 0x0001
#define SK_RAMCTL_UNRESET 0x0002
#define SK_RAMCTL_CLR_IRQ_WPAR 0x0100
#define SK_RAMCTL_CLR_IRQ_RPAR 0x0200
/* Mac arbiter registers */
#define SK_MINIT_RX1 0x01B0
#define SK_MINIT_RX2 0x01B1
#define SK_MINIT_TX1 0x01B2
#define SK_MINIT_TX2 0x01B3
#define SK_MTIMEO_RX1 0x01B4
#define SK_MTIMEO_RX2 0x01B5
#define SK_MTIMEO_TX1 0x01B6
#define SK_MTIEMO_TX2 0x01B7
#define SK_MACARB_CTL 0x01B8
#define SK_MTIMER_TST 0x01BA
#define SK_RCINIT_RX1 0x01C0
#define SK_RCINIT_RX2 0x01C1
#define SK_RCINIT_TX1 0x01C2
#define SK_RCINIT_TX2 0x01C3
#define SK_RCTIMEO_RX1 0x01C4
#define SK_RCTIMEO_RX2 0x01C5
#define SK_RCTIMEO_TX1 0x01C6
#define SK_RCTIMEO_TX2 0x01C7
#define SK_RECOVERY_CTL 0x01C8
#define SK_RCTIMER_TST 0x01CA
/* Packet arbiter registers */
#define SK_RXPA1_TINIT 0x01D0
#define SK_RXPA2_TINIT 0x01D4
#define SK_TXPA1_TINIT 0x01D8
#define SK_TXPA2_TINIT 0x01DC
#define SK_RXPA1_TIMEO 0x01E0
#define SK_RXPA2_TIMEO 0x01E4
#define SK_TXPA1_TIMEO 0x01E8
#define SK_TXPA2_TIMEO 0x01EC
#define SK_PKTARB_CTL 0x01F0
#define SK_PKTATB_TST 0x01F2
#define SK_PKTARB_TIMEOUT 0x2000
#define SK_PKTARBCTL_RESET 0x0001
#define SK_PKTARBCTL_UNRESET 0x0002
#define SK_PKTARBCTL_RXTO1_OFF 0x0004
#define SK_PKTARBCTL_RXTO1_ON 0x0008
#define SK_PKTARBCTL_RXTO2_OFF 0x0010
#define SK_PKTARBCTL_RXTO2_ON 0x0020
#define SK_PKTARBCTL_TXTO1_OFF 0x0040
#define SK_PKTARBCTL_TXTO1_ON 0x0080
#define SK_PKTARBCTL_TXTO2_OFF 0x0100
#define SK_PKTARBCTL_TXTO2_ON 0x0200
#define SK_PKTARBCTL_CLR_IRQ_RXTO1 0x0400
#define SK_PKTARBCTL_CLR_IRQ_RXTO2 0x0800
#define SK_PKTARBCTL_CLR_IRQ_TXTO1 0x1000
#define SK_PKTARBCTL_CLR_IRQ_TXTO2 0x2000
#define SK_MINIT_XMAC_B2 54
#define SK_MINIT_XMAC_C1 63
#define SK_MACARBCTL_RESET 0x0001
#define SK_MACARBCTL_UNRESET 0x0002
#define SK_MACARBCTL_FASTOE_OFF 0x0004
#define SK_MACARBCRL_FASTOE_ON 0x0008
#define SK_RCINIT_XMAC_B2 54
#define SK_RCINIT_XMAC_C1 0
#define SK_RECOVERYCTL_RX1_OFF 0x0001
#define SK_RECOVERYCTL_RX1_ON 0x0002
#define SK_RECOVERYCTL_RX2_OFF 0x0004
#define SK_RECOVERYCTL_RX2_ON 0x0008
#define SK_RECOVERYCTL_TX1_OFF 0x0010
#define SK_RECOVERYCTL_TX1_ON 0x0020
#define SK_RECOVERYCTL_TX2_OFF 0x0040
#define SK_RECOVERYCTL_TX2_ON 0x0080
#define SK_RECOVERY_XMAC_B2 \
(SK_RECOVERYCTL_RX1_ON|SK_RECOVERYCTL_RX2_ON| \
SK_RECOVERYCTL_TX1_ON|SK_RECOVERYCTL_TX2_ON)
#define SK_RECOVERY_XMAC_C1 \
(SK_RECOVERYCTL_RX1_OFF|SK_RECOVERYCTL_RX2_OFF| \
SK_RECOVERYCTL_TX1_OFF|SK_RECOVERYCTL_TX2_OFF)
/* Block 4 -- TX Arbiter MAC 1 */
#define SK_TXAR1_TIMERINIT 0x0200
#define SK_TXAR1_TIMERVAL 0x0204
#define SK_TXAR1_LIMITINIT 0x0208
#define SK_TXAR1_LIMITCNT 0x020C
#define SK_TXAR1_COUNTERCTL 0x0210
#define SK_TXAR1_COUNTERTST 0x0212
#define SK_TXAR1_COUNTERSTS 0x0212
/* Block 5 -- TX Arbiter MAC 2 */
#define SK_TXAR2_TIMERINIT 0x0280
#define SK_TXAR2_TIMERVAL 0x0284
#define SK_TXAR2_LIMITINIT 0x0288
#define SK_TXAR2_LIMITCNT 0x028C
#define SK_TXAR2_COUNTERCTL 0x0290
#define SK_TXAR2_COUNTERTST 0x0291
#define SK_TXAR2_COUNTERSTS 0x0292
#define SK_TXARCTL_OFF 0x01
#define SK_TXARCTL_ON 0x02
#define SK_TXARCTL_RATECTL_OFF 0x04
#define SK_TXARCTL_RATECTL_ON 0x08
#define SK_TXARCTL_ALLOC_OFF 0x10
#define SK_TXARCTL_ALLOC_ON 0x20
#define SK_TXARCTL_FSYNC_OFF 0x40
#define SK_TXARCTL_FSYNC_ON 0x80
/* Block 6 -- External registers */
#define SK_EXTREG_BASE 0x300
#define SK_EXTREG_END 0x37C
/* Block 7 -- PCI config registers */
#define SK_PCI_BASE 0x0380
#define SK_PCI_END 0x03FC
/* Compute offset of mirrored PCI register */
#define SK_PCI_REG(reg) ((reg) + SK_PCI_BASE)
/* Block 8 -- RX queue 1 */
#define SK_RXQ1_BUFCNT 0x0400
#define SK_RXQ1_BUFCTL 0x0402
#define SK_RXQ1_NEXTDESC 0x0404
#define SK_RXQ1_RXBUF_LO 0x0408
#define SK_RXQ1_RXBUF_HI 0x040C
#define SK_RXQ1_RXSTAT 0x0410
#define SK_RXQ1_TIMESTAMP 0x0414
#define SK_RXQ1_CSUM1 0x0418
#define SK_RXQ1_CSUM2 0x041A
#define SK_RXQ1_CSUM1_START 0x041C
#define SK_RXQ1_CSUM2_START 0x041E
#define SK_RXQ1_CURADDR_LO 0x0420
#define SK_RXQ1_CURADDR_HI 0x0424
#define SK_RXQ1_CURCNT_LO 0x0428
#define SK_RXQ1_CURCNT_HI 0x042C
#define SK_RXQ1_CURBYTES 0x0430
#define SK_RXQ1_BMU_CSR 0x0434
#define SK_RXQ1_WATERMARK 0x0438
#define SK_RXQ1_FLAG 0x043A
#define SK_RXQ1_TEST1 0x043C
#define SK_RXQ1_TEST2 0x0440
#define SK_RXQ1_TEST3 0x0444
/* Block 9 -- RX queue 2 */
#define SK_RXQ2_BUFCNT 0x0480
#define SK_RXQ2_BUFCTL 0x0482
#define SK_RXQ2_NEXTDESC 0x0484
#define SK_RXQ2_RXBUF_LO 0x0488
#define SK_RXQ2_RXBUF_HI 0x048C
#define SK_RXQ2_RXSTAT 0x0490
#define SK_RXQ2_TIMESTAMP 0x0494
#define SK_RXQ2_CSUM1 0x0498
#define SK_RXQ2_CSUM2 0x049A
#define SK_RXQ2_CSUM1_START 0x049C
#define SK_RXQ2_CSUM2_START 0x049E
#define SK_RXQ2_CURADDR_LO 0x04A0
#define SK_RXQ2_CURADDR_HI 0x04A4
#define SK_RXQ2_CURCNT_LO 0x04A8
#define SK_RXQ2_CURCNT_HI 0x04AC
#define SK_RXQ2_CURBYTES 0x04B0
#define SK_RXQ2_BMU_CSR 0x04B4
#define SK_RXQ2_WATERMARK 0x04B8
#define SK_RXQ2_FLAG 0x04BA
#define SK_RXQ2_TEST1 0x04BC
#define SK_RXQ2_TEST2 0x04C0
#define SK_RXQ2_TEST3 0x04C4
#define SK_RXBMU_CLR_IRQ_ERR 0x00000001
#define SK_RXBMU_CLR_IRQ_EOF 0x00000002
#define SK_RXBMU_CLR_IRQ_EOB 0x00000004
#define SK_RXBMU_CLR_IRQ_PAR 0x00000008
#define SK_RXBMU_RX_START 0x00000010
#define SK_RXBMU_RX_STOP 0x00000020
#define SK_RXBMU_POLL_OFF 0x00000040
#define SK_RXBMU_POLL_ON 0x00000080
#define SK_RXBMU_TRANSFER_SM_RESET 0x00000100
#define SK_RXBMU_TRANSFER_SM_UNRESET 0x00000200
#define SK_RXBMU_DESCWR_SM_RESET 0x00000400
#define SK_RXBMU_DESCWR_SM_UNRESET 0x00000800
#define SK_RXBMU_DESCRD_SM_RESET 0x00001000
#define SK_RXBMU_DESCRD_SM_UNRESET 0x00002000
#define SK_RXBMU_SUPERVISOR_SM_RESET 0x00004000
#define SK_RXBMU_SUPERVISOR_SM_UNRESET 0x00008000
#define SK_RXBMU_PFI_SM_RESET 0x00010000
#define SK_RXBMU_PFI_SM_UNRESET 0x00020000
#define SK_RXBMU_FIFO_RESET 0x00040000
#define SK_RXBMU_FIFO_UNRESET 0x00080000
#define SK_RXBMU_DESC_RESET 0x00100000
#define SK_RXBMU_DESC_UNRESET 0x00200000
#define SK_RXBMU_SUPERVISOR_IDLE 0x01000000
#define SK_RXBMU_ONLINE \
(SK_RXBMU_TRANSFER_SM_UNRESET|SK_RXBMU_DESCWR_SM_UNRESET| \
SK_RXBMU_DESCRD_SM_UNRESET|SK_RXBMU_SUPERVISOR_SM_UNRESET| \
SK_RXBMU_PFI_SM_UNRESET|SK_RXBMU_FIFO_UNRESET| \
SK_RXBMU_DESC_UNRESET)
#define SK_RXBMU_OFFLINE \
(SK_RXBMU_TRANSFER_SM_RESET|SK_RXBMU_DESCWR_SM_RESET| \
SK_RXBMU_DESCRD_SM_RESET|SK_RXBMU_SUPERVISOR_SM_RESET| \
SK_RXBMU_PFI_SM_RESET|SK_RXBMU_FIFO_RESET| \
SK_RXBMU_DESC_RESET)
/* Block 12 -- TX sync queue 1 */
#define SK_TXQS1_BUFCNT 0x0600
#define SK_TXQS1_BUFCTL 0x0602
#define SK_TXQS1_NEXTDESC 0x0604
#define SK_TXQS1_RXBUF_LO 0x0608
#define SK_TXQS1_RXBUF_HI 0x060C
#define SK_TXQS1_RXSTAT 0x0610
#define SK_TXQS1_CSUM_STARTVAL 0x0614
#define SK_TXQS1_CSUM_STARTPOS 0x0618
#define SK_TXQS1_CSUM_WRITEPOS 0x061A
#define SK_TXQS1_CURADDR_LO 0x0620
#define SK_TXQS1_CURADDR_HI 0x0624
#define SK_TXQS1_CURCNT_LO 0x0628
#define SK_TXQS1_CURCNT_HI 0x062C
#define SK_TXQS1_CURBYTES 0x0630
#define SK_TXQS1_BMU_CSR 0x0634
#define SK_TXQS1_WATERMARK 0x0638
#define SK_TXQS1_FLAG 0x063A
#define SK_TXQS1_TEST1 0x063C
#define SK_TXQS1_TEST2 0x0640
#define SK_TXQS1_TEST3 0x0644
/* Block 13 -- TX async queue 1 */
#define SK_TXQA1_BUFCNT 0x0680
#define SK_TXQA1_BUFCTL 0x0682
#define SK_TXQA1_NEXTDESC 0x0684
#define SK_TXQA1_RXBUF_LO 0x0688
#define SK_TXQA1_RXBUF_HI 0x068C
#define SK_TXQA1_RXSTAT 0x0690
#define SK_TXQA1_CSUM_STARTVAL 0x0694
#define SK_TXQA1_CSUM_STARTPOS 0x0698
#define SK_TXQA1_CSUM_WRITEPOS 0x069A
#define SK_TXQA1_CURADDR_LO 0x06A0
#define SK_TXQA1_CURADDR_HI 0x06A4
#define SK_TXQA1_CURCNT_LO 0x06A8
#define SK_TXQA1_CURCNT_HI 0x06AC
#define SK_TXQA1_CURBYTES 0x06B0
#define SK_TXQA1_BMU_CSR 0x06B4
#define SK_TXQA1_WATERMARK 0x06B8
#define SK_TXQA1_FLAG 0x06BA
#define SK_TXQA1_TEST1 0x06BC
#define SK_TXQA1_TEST2 0x06C0
#define SK_TXQA1_TEST3 0x06C4
/* Block 14 -- TX sync queue 2 */
#define SK_TXQS2_BUFCNT 0x0700
#define SK_TXQS2_BUFCTL 0x0702
#define SK_TXQS2_NEXTDESC 0x0704
#define SK_TXQS2_RXBUF_LO 0x0708
#define SK_TXQS2_RXBUF_HI 0x070C
#define SK_TXQS2_RXSTAT 0x0710
#define SK_TXQS2_CSUM_STARTVAL 0x0714
#define SK_TXQS2_CSUM_STARTPOS 0x0718
#define SK_TXQS2_CSUM_WRITEPOS 0x071A
#define SK_TXQS2_CURADDR_LO 0x0720
#define SK_TXQS2_CURADDR_HI 0x0724
#define SK_TXQS2_CURCNT_LO 0x0728
#define SK_TXQS2_CURCNT_HI 0x072C
#define SK_TXQS2_CURBYTES 0x0730
#define SK_TXQS2_BMU_CSR 0x0734
#define SK_TXQS2_WATERMARK 0x0738
#define SK_TXQS2_FLAG 0x073A
#define SK_TXQS2_TEST1 0x073C
#define SK_TXQS2_TEST2 0x0740
#define SK_TXQS2_TEST3 0x0744
/* Block 15 -- TX async queue 2 */
#define SK_TXQA2_BUFCNT 0x0780
#define SK_TXQA2_BUFCTL 0x0782
#define SK_TXQA2_NEXTDESC 0x0784
#define SK_TXQA2_RXBUF_LO 0x0788
#define SK_TXQA2_RXBUF_HI 0x078C
#define SK_TXQA2_RXSTAT 0x0790
#define SK_TXQA2_CSUM_STARTVAL 0x0794
#define SK_TXQA2_CSUM_STARTPOS 0x0798
#define SK_TXQA2_CSUM_WRITEPOS 0x079A
#define SK_TXQA2_CURADDR_LO 0x07A0
#define SK_TXQA2_CURADDR_HI 0x07A4
#define SK_TXQA2_CURCNT_LO 0x07A8
#define SK_TXQA2_CURCNT_HI 0x07AC
#define SK_TXQA2_CURBYTES 0x07B0
#define SK_TXQA2_BMU_CSR 0x07B4
#define SK_TXQA2_WATERMARK 0x07B8
#define SK_TXQA2_FLAG 0x07BA
#define SK_TXQA2_TEST1 0x07BC
#define SK_TXQA2_TEST2 0x07C0
#define SK_TXQA2_TEST3 0x07C4
#define SK_TXBMU_CLR_IRQ_ERR 0x00000001
#define SK_TXBMU_CLR_IRQ_EOF 0x00000002
#define SK_TXBMU_CLR_IRQ_EOB 0x00000004
#define SK_TXBMU_TX_START 0x00000010
#define SK_TXBMU_TX_STOP 0x00000020
#define SK_TXBMU_POLL_OFF 0x00000040
#define SK_TXBMU_POLL_ON 0x00000080
#define SK_TXBMU_TRANSFER_SM_RESET 0x00000100
#define SK_TXBMU_TRANSFER_SM_UNRESET 0x00000200
#define SK_TXBMU_DESCWR_SM_RESET 0x00000400
#define SK_TXBMU_DESCWR_SM_UNRESET 0x00000800
#define SK_TXBMU_DESCRD_SM_RESET 0x00001000
#define SK_TXBMU_DESCRD_SM_UNRESET 0x00002000
#define SK_TXBMU_SUPERVISOR_SM_RESET 0x00004000
#define SK_TXBMU_SUPERVISOR_SM_UNRESET 0x00008000
#define SK_TXBMU_PFI_SM_RESET 0x00010000
#define SK_TXBMU_PFI_SM_UNRESET 0x00020000
#define SK_TXBMU_FIFO_RESET 0x00040000
#define SK_TXBMU_FIFO_UNRESET 0x00080000
#define SK_TXBMU_DESC_RESET 0x00100000
#define SK_TXBMU_DESC_UNRESET 0x00200000
#define SK_TXBMU_SUPERVISOR_IDLE 0x01000000
#define SK_TXBMU_ONLINE \
(SK_TXBMU_TRANSFER_SM_UNRESET|SK_TXBMU_DESCWR_SM_UNRESET| \
SK_TXBMU_DESCRD_SM_UNRESET|SK_TXBMU_SUPERVISOR_SM_UNRESET| \
SK_TXBMU_PFI_SM_UNRESET|SK_TXBMU_FIFO_UNRESET| \
SK_TXBMU_DESC_UNRESET|SK_TXBMU_POLL_ON)
#define SK_TXBMU_OFFLINE \
(SK_TXBMU_TRANSFER_SM_RESET|SK_TXBMU_DESCWR_SM_RESET| \
SK_TXBMU_DESCRD_SM_RESET|SK_TXBMU_SUPERVISOR_SM_RESET| \
SK_TXBMU_PFI_SM_RESET|SK_TXBMU_FIFO_RESET| \
SK_TXBMU_DESC_RESET|SK_TXBMU_POLL_OFF)
/* Block 16 -- Receive RAMbuffer 1 */
#define SK_RXRB1_START 0x0800
#define SK_RXRB1_END 0x0804
#define SK_RXRB1_WR_PTR 0x0808
#define SK_RXRB1_RD_PTR 0x080C
#define SK_RXRB1_UTHR_PAUSE 0x0810
#define SK_RXRB1_LTHR_PAUSE 0x0814
#define SK_RXRB1_UTHR_HIPRIO 0x0818
#define SK_RXRB1_UTHR_LOPRIO 0x081C
#define SK_RXRB1_PKTCNT 0x0820
#define SK_RXRB1_LVL 0x0824
#define SK_RXRB1_CTLTST 0x0828
/* Block 17 -- Receive RAMbuffer 2 */
#define SK_RXRB2_START 0x0880
#define SK_RXRB2_END 0x0884
#define SK_RXRB2_WR_PTR 0x0888
#define SK_RXRB2_RD_PTR 0x088C
#define SK_RXRB2_UTHR_PAUSE 0x0890
#define SK_RXRB2_LTHR_PAUSE 0x0894
#define SK_RXRB2_UTHR_HIPRIO 0x0898
#define SK_RXRB2_UTHR_LOPRIO 0x089C
#define SK_RXRB2_PKTCNT 0x08A0
#define SK_RXRB2_LVL 0x08A4
#define SK_RXRB2_CTLTST 0x08A8
/* Block 20 -- Sync. Transmit RAMbuffer 1 */
#define SK_TXRBS1_START 0x0A00
#define SK_TXRBS1_END 0x0A04
#define SK_TXRBS1_WR_PTR 0x0A08
#define SK_TXRBS1_RD_PTR 0x0A0C
#define SK_TXRBS1_PKTCNT 0x0A20
#define SK_TXRBS1_LVL 0x0A24
#define SK_TXRBS1_CTLTST 0x0A28
/* Block 21 -- Async. Transmit RAMbuffer 1 */
#define SK_TXRBA1_START 0x0A80
#define SK_TXRBA1_END 0x0A84
#define SK_TXRBA1_WR_PTR 0x0A88
#define SK_TXRBA1_RD_PTR 0x0A8C
#define SK_TXRBA1_PKTCNT 0x0AA0
#define SK_TXRBA1_LVL 0x0AA4
#define SK_TXRBA1_CTLTST 0x0AA8
/* Block 22 -- Sync. Transmit RAMbuffer 2 */
#define SK_TXRBS2_START 0x0B00
#define SK_TXRBS2_END 0x0B04
#define SK_TXRBS2_WR_PTR 0x0B08
#define SK_TXRBS2_RD_PTR 0x0B0C
#define SK_TXRBS2_PKTCNT 0x0B20
#define SK_TXRBS2_LVL 0x0B24
#define SK_TXRBS2_CTLTST 0x0B28
/* Block 23 -- Async. Transmit RAMbuffer 2 */
#define SK_TXRBA2_START 0x0B80
#define SK_TXRBA2_END 0x0B84
#define SK_TXRBA2_WR_PTR 0x0B88
#define SK_TXRBA2_RD_PTR 0x0B8C
#define SK_TXRBA2_PKTCNT 0x0BA0
#define SK_TXRBA2_LVL 0x0BA4
#define SK_TXRBA2_CTLTST 0x0BA8
#define SK_RBCTL_RESET 0x00000001
#define SK_RBCTL_UNRESET 0x00000002
#define SK_RBCTL_OFF 0x00000004
#define SK_RBCTL_ON 0x00000008
#define SK_RBCTL_STORENFWD_OFF 0x00000010
#define SK_RBCTL_STORENFWD_ON 0x00000020
/* Block 24 -- RX MAC FIFO 1 regisrers and LINK_SYNC counter */
#define SK_RXF1_END 0x0C00
#define SK_RXF1_WPTR 0x0C04
#define SK_RXF1_RPTR 0x0C0C
#define SK_RXF1_PKTCNT 0x0C10
#define SK_RXF1_LVL 0x0C14
#define SK_RXF1_MACCTL 0x0C18
#define SK_RXF1_CTL 0x0C1C
#define SK_RXLED1_CNTINIT 0x0C20
#define SK_RXLED1_COUNTER 0x0C24
#define SK_RXLED1_CTL 0x0C28
#define SK_RXLED1_TST 0x0C29
#define SK_LINK_SYNC1_CINIT 0x0C30
#define SK_LINK_SYNC1_COUNTER 0x0C34
#define SK_LINK_SYNC1_CTL 0x0C38
#define SK_LINK_SYNC1_TST 0x0C39
#define SK_LINKLED1_CTL 0x0C3C
#define SK_FIFO_END 0x3F
/* Receive MAC FIFO 1 (Yukon Only) */
#define SK_RXMF1_END 0x0C40
#define SK_RXMF1_THRESHOLD 0x0C44
#define SK_RXMF1_CTRL_TEST 0x0C48
#define SK_RXMF1_FLUSH_MASK 0x0C4C
#define SK_RXMF1_FLUSH_THRESHOLD 0x0C50
#define SK_RXMF1_WRITE_PTR 0x0C60
#define SK_RXMF1_WRITE_LEVEL 0x0C68
#define SK_RXMF1_READ_PTR 0x0C70
#define SK_RXMF1_READ_LEVEL 0x0C78
/* Receive MAC FIFO 1 Control/Test */
#define SK_RFCTL_WR_PTR_TST_ON 0x00004000 /* Write pointer test on*/
#define SK_RFCTL_WR_PTR_TST_OFF 0x00002000 /* Write pointer test off */
#define SK_RFCTL_WR_PTR_STEP 0x00001000 /* Write pointer increment */
#define SK_RFCTL_RD_PTR_TST_ON 0x00000400 /* Read pointer test on */
#define SK_RFCTL_RD_PTR_TST_OFF 0x00000200 /* Read pointer test off */
#define SK_RFCTL_RD_PTR_STEP 0x00000100 /* Read pointer increment */
#define SK_RFCTL_FIFO_FLUSH_OFF 0x00000080 /* RX FIFO Flsuh mode off */
#define SK_RFCTL_FIFO_FLUSH_ON 0x00000040 /* RX FIFO Flush mode on */
#define SK_RFCTL_RX_FIFO_OVER 0x00000020 /* Clear IRQ RX FIFO Overrun */
#define SK_RFCTL_FRAME_RX_DONE 0x00000010 /* Clear IRQ Frame RX Done */
#define SK_RFCTL_OPERATION_ON 0x00000008 /* Operational mode on */
#define SK_RFCTL_OPERATION_OFF 0x00000004 /* Operational mode off */
#define SK_RFCTL_RESET_CLEAR 0x00000002 /* MAC FIFO Reset Clear */
#define SK_RFCTL_RESET_SET 0x00000001 /* MAC FIFO Reset Set */
#define SK_RFCTL_FIFO_THRESHOLD 0x0a /* flush threshold (default) */
/* Block 25 -- RX MAC FIFO 2 regisrers and LINK_SYNC counter */
#define SK_RXF2_END 0x0C80
#define SK_RXF2_WPTR 0x0C84
#define SK_RXF2_RPTR 0x0C8C
#define SK_RXF2_PKTCNT 0x0C90
#define SK_RXF2_LVL 0x0C94
#define SK_RXF2_MACCTL 0x0C98
#define SK_RXF2_CTL 0x0C9C
#define SK_RXLED2_CNTINIT 0x0CA0
#define SK_RXLED2_COUNTER 0x0CA4
#define SK_RXLED2_CTL 0x0CA8
#define SK_RXLED2_TST 0x0CA9
#define SK_LINK_SYNC2_CINIT 0x0CB0
#define SK_LINK_SYNC2_COUNTER 0x0CB4
#define SK_LINK_SYNC2_CTL 0x0CB8
#define SK_LINK_SYNC2_TST 0x0CB9
#define SK_LINKLED2_CTL 0x0CBC
#define SK_RXMACCTL_CLR_IRQ_NOSTS 0x00000001
#define SK_RXMACCTL_CLR_IRQ_NOTSTAMP 0x00000002
#define SK_RXMACCTL_TSTAMP_OFF 0x00000004
#define SK_RXMACCTL_RSTAMP_ON 0x00000008
#define SK_RXMACCTL_FLUSH_OFF 0x00000010
#define SK_RXMACCTL_FLUSH_ON 0x00000020
#define SK_RXMACCTL_PAUSE_OFF 0x00000040
#define SK_RXMACCTL_PAUSE_ON 0x00000080
#define SK_RXMACCTL_AFULL_OFF 0x00000100
#define SK_RXMACCTL_AFULL_ON 0x00000200
#define SK_RXMACCTL_VALIDTIME_PATCH_OFF 0x00000400
#define SK_RXMACCTL_VALIDTIME_PATCH_ON 0x00000800
#define SK_RXMACCTL_RXRDY_PATCH_OFF 0x00001000
#define SK_RXMACCTL_RXRDY_PATCH_ON 0x00002000
#define SK_RXMACCTL_STS_TIMEO 0x00FF0000
#define SK_RXMACCTL_TSTAMP_TIMEO 0xFF000000
#define SK_RXLEDCTL_ENABLE 0x0001
#define SK_RXLEDCTL_COUNTER_STOP 0x0002
#define SK_RXLEDCTL_COUNTER_START 0x0004
#define SK_LINKLED_OFF 0x0001
#define SK_LINKLED_ON 0x0002
#define SK_LINKLED_LINKSYNC_OFF 0x0004
#define SK_LINKLED_LINKSYNC_ON 0x0008
#define SK_LINKLED_BLINK_OFF 0x0010
#define SK_LINKLED_BLINK_ON 0x0020
/* Block 26 -- TX MAC FIFO 1 regisrers */
#define SK_TXF1_END 0x0D00
#define SK_TXF1_WPTR 0x0D04
#define SK_TXF1_RPTR 0x0D0C
#define SK_TXF1_PKTCNT 0x0D10
#define SK_TXF1_LVL 0x0D14
#define SK_TXF1_MACCTL 0x0D18
#define SK_TXF1_CTL 0x0D1C
#define SK_TXLED1_CNTINIT 0x0D20
#define SK_TXLED1_COUNTER 0x0D24
#define SK_TXLED1_CTL 0x0D28
#define SK_TXLED1_TST 0x0D29
/* Transmit MAC FIFO 1 (Yukon Only) */
#define SK_TXMF1_END 0x0D40
#define SK_TXMF1_THRESHOLD 0x0D44
#define SK_TXMF1_CTRL_TEST 0x0D48
#define SK_TXMF1_WRITE_PTR 0x0D60
#define SK_TXMF1_WRITE_SHADOW 0x0D64
#define SK_TXMF1_WRITE_LEVEL 0x0D68
#define SK_TXMF1_READ_PTR 0x0D70
#define SK_TXMF1_RESTART_PTR 0x0D74
#define SK_TXMF1_READ_LEVEL 0x0D78
/* Transmit MAC FIFO Control/Test */
#define SK_TFCTL_WR_PTR_TST_ON 0x00004000 /* Write pointer test on*/
#define SK_TFCTL_WR_PTR_TST_OFF 0x00002000 /* Write pointer test off */
#define SK_TFCTL_WR_PTR_STEP 0x00001000 /* Write pointer increment */
#define SK_TFCTL_RD_PTR_TST_ON 0x00000400 /* Read pointer test on */
#define SK_TFCTL_RD_PTR_TST_OFF 0x00000200 /* Read pointer test off */
#define SK_TFCTL_RD_PTR_STEP 0x00000100 /* Read pointer increment */
#define SK_TFCTL_TX_FIFO_UNDER 0x00000040 /* Clear IRQ TX FIFO Under */
#define SK_TFCTL_FRAME_TX_DONE 0x00000020 /* Clear IRQ Frame TX Done */
#define SK_TFCTL_IRQ_PARITY_ER 0x00000010 /* Clear IRQ Parity Error */
#define SK_TFCTL_OPERATION_ON 0x00000008 /* Operational mode on */
#define SK_TFCTL_OPERATION_OFF 0x00000004 /* Operational mode off */
#define SK_TFCTL_RESET_CLEAR 0x00000002 /* MAC FIFO Reset Clear */
#define SK_TFCTL_RESET_SET 0x00000001 /* MAC FIFO Reset Set */
/* Block 27 -- TX MAC FIFO 2 regisrers */
#define SK_TXF2_END 0x0D80
#define SK_TXF2_WPTR 0x0D84
#define SK_TXF2_RPTR 0x0D8C
#define SK_TXF2_PKTCNT 0x0D90
#define SK_TXF2_LVL 0x0D94
#define SK_TXF2_MACCTL 0x0D98
#define SK_TXF2_CTL 0x0D9C
#define SK_TXLED2_CNTINIT 0x0DA0
#define SK_TXLED2_COUNTER 0x0DA4
#define SK_TXLED2_CTL 0x0DA8
#define SK_TXLED2_TST 0x0DA9
#define SK_TXMACCTL_XMAC_RESET 0x00000001
#define SK_TXMACCTL_XMAC_UNRESET 0x00000002
#define SK_TXMACCTL_LOOP_OFF 0x00000004
#define SK_TXMACCTL_LOOP_ON 0x00000008
#define SK_TXMACCTL_FLUSH_OFF 0x00000010
#define SK_TXMACCTL_FLUSH_ON 0x00000020
#define SK_TXMACCTL_WAITEMPTY_OFF 0x00000040
#define SK_TXMACCTL_WAITEMPTY_ON 0x00000080
#define SK_TXMACCTL_AFULL_OFF 0x00000100
#define SK_TXMACCTL_AFULL_ON 0x00000200
#define SK_TXMACCTL_TXRDY_PATCH_OFF 0x00000400
#define SK_TXMACCTL_RXRDY_PATCH_ON 0x00000800
#define SK_TXMACCTL_PKT_RECOVERY_OFF 0x00001000
#define SK_TXMACCTL_PKT_RECOVERY_ON 0x00002000
#define SK_TXMACCTL_CLR_IRQ_PERR 0x00008000
#define SK_TXMACCTL_WAITAFTERFLUSH 0x00010000
#define SK_TXLEDCTL_ENABLE 0x0001
#define SK_TXLEDCTL_COUNTER_STOP 0x0002
#define SK_TXLEDCTL_COUNTER_START 0x0004
#define SK_FIFO_RESET 0x00000001
#define SK_FIFO_UNRESET 0x00000002
#define SK_FIFO_OFF 0x00000004
#define SK_FIFO_ON 0x00000008
/* Block 28 -- Descriptor Poll Timer */
#define SK_DPT_INIT 0x0e00 /* Initial value 24 bits */
#define SK_DPT_TIMER 0x0e04 /* Mul of 78.12MHz clk (24b) */
#define SK_DPT_TIMER_MAX 0x00ffffffff /* 214.75ms at 78.125MHz */
#define SK_DPT_TIMER_CTRL 0x0e08 /* Timer Control 16 bits */
#define SK_DPT_TCTL_STOP 0x0001 /* Stop Timer */
#define SK_DPT_TCTL_START 0x0002 /* Start Timer */
#define SK_DPT_TIMER_TEST 0x0e0a /* Timer Test 16 bits */
#define SK_DPT_TTEST_STEP 0x0001 /* Timer Decrement */
#define SK_DPT_TTEST_OFF 0x0002 /* Test Mode Off */
#define SK_DPT_TTEST_ON 0x0004 /* Test Mode On */
/* Block 29 -- reserved */
/* Block 30 -- GMAC/GPHY Control Registers (Yukon Only)*/
#define SK_GMAC_CTRL 0x0f00 /* GMAC Control Register */
#define SK_GPHY_CTRL 0x0f04 /* GPHY Control Register */
#define SK_GMAC_ISR 0x0f08 /* GMAC Interrupt Source Register */
#define SK_GMAC_IMR 0x0f0c /* GMAC Interrupt Mask Register */
#define SK_LINK_CTRL 0x0f10 /* Link Control Register (LCR) */
#define SK_WOL_CTRL 0x0f20 /* Wake on LAN Control Register */
#define SK_MAC_ADDR_LOW 0x0f24 /* Mack Address Registers LOW */
#define SK_MAC_ADDR_HIGH 0x0f28 /* Mack Address Registers HIGH */
#define SK_PAT_READ_PTR 0x0f2c /* Pattern Read Pointer Register */
#define SK_PAT_LEN_REG0 0x0f30 /* Pattern Length Register 0 */
#define SK_PAT_LEN0 0x0f30 /* Pattern Length 0 */
#define SK_PAT_LEN1 0x0f31 /* Pattern Length 1 */
#define SK_PAT_LEN2 0x0f32 /* Pattern Length 2 */
#define SK_PAT_LEN3 0x0f33 /* Pattern Length 3 */
#define SK_PAT_LEN_REG1 0x0f34 /* Pattern Length Register 1 */
#define SK_PAT_LEN4 0x0f34 /* Pattern Length 4 */
#define SK_PAT_LEN5 0x0f35 /* Pattern Length 5 */
#define SK_PAT_LEN6 0x0f36 /* Pattern Length 6 */
#define SK_PAT_LEN7 0x0f37 /* Pattern Length 7 */
#define SK_PAT_CTR_REG0 0x0f38 /* Pattern Counter Register 0 */
#define SK_PAT_CTR0 0x0f38 /* Pattern Counter 0 */
#define SK_PAT_CTR1 0x0f39 /* Pattern Counter 1 */
#define SK_PAT_CTR2 0x0f3a /* Pattern Counter 2 */
#define SK_PAT_CTR3 0x0f3b /* Pattern Counter 3 */
#define SK_PAT_CTR_REG1 0x0f3c /* Pattern Counter Register 1 */
#define SK_PAT_CTR4 0x0f3c /* Pattern Counter 4 */
#define SK_PAT_CTR5 0x0f3d /* Pattern Counter 5 */
#define SK_PAT_CTR6 0x0f3e /* Pattern Counter 6 */
#define SK_PAT_CTR7 0x0f3f /* Pattern Counter 7 */
#define SK_GMAC_LOOP_ON 0x00000020 /* Loopback mode for testing */
#define SK_GMAC_LOOP_OFF 0x00000010 /* purposes */
#define SK_GMAC_PAUSE_ON 0x00000008 /* enable forward of pause */
#define SK_GMAC_PAUSE_OFF 0x00000004 /* signal to GMAC */
#define SK_GMAC_RESET_CLEAR 0x00000002 /* Clear GMAC Reset */
#define SK_GMAC_RESET_SET 0x00000001 /* Set GMAC Reset */
#define SK_GPHY_SEL_BDT 0x10000000 /* Select Bidirectional xfer */
#define SK_GPHY_INT_POL_HI 0x08000000 /* IRQ Polarity Active */
#define SK_GPHY_75_OHM 0x04000000 /* Use 75 Ohm Termination */
#define SK_GPHY_DIS_FC 0x02000000 /* Disable Auto Fiber/Copper */
#define SK_GPHY_DIS_SLEEP 0x01000000 /* Disable Energy Detect */
#define SK_GPHY_HWCFG_M_3 0x00800000 /* HWCFG_MODE[3] */
#define SK_GPHY_HWCFG_M_2 0x00400000 /* HWCFG_MODE[2] */
#define SK_GPHY_HWCFG_M_1 0x00200000 /* HWCFG_MODE[1] */
#define SK_GPHY_HWCFG_M_0 0x00100000 /* HWCFG_MODE[0] */
#define SK_GPHY_ANEG_0 0x00080000 /* ANEG[0] */
#define SK_GPHY_ENA_XC 0x00040000 /* Enable MDI Crossover */
#define SK_GPHY_DIS_125 0x00020000 /* Disable 125MHz Clock */
#define SK_GPHY_ANEG_3 0x00010000 /* ANEG[3] */
#define SK_GPHY_ANEG_2 0x00008000 /* ANEG[2] */
#define SK_GPHY_ANEG_1 0x00004000 /* ANEG[1] */
#define SK_GPHY_ENA_PAUSE 0x00002000 /* Enable Pause */
#define SK_GPHY_PHYADDR_4 0x00001000 /* Bit 4 of Phy Addr */
#define SK_GPHY_PHYADDR_3 0x00000800 /* Bit 3 of Phy Addr */
#define SK_GPHY_PHYADDR_2 0x00000400 /* Bit 2 of Phy Addr */
#define SK_GPHY_PHYADDR_1 0x00000200 /* Bit 1 of Phy Addr */
#define SK_GPHY_PHYADDR_0 0x00000100 /* Bit 0 of Phy Addr */
#define SK_GPHY_RESET_CLEAR 0x00000002 /* Clear GPHY Reset */
#define SK_GPHY_RESET_SET 0x00000001 /* Set GPHY Reset */
#define SK_GPHY_COPPER (SK_GPHY_HWCFG_M_0 | SK_GPHY_HWCFG_M_1 | \
SK_GPHY_HWCFG_M_2 | SK_GPHY_HWCFG_M_3 )
#define SK_GPHY_FIBER (SK_GPHY_HWCFG_M_0 | SK_GPHY_HWCFG_M_1 | \
SK_GPHY_HWCFG_M_2 )
#define SK_GPHY_ANEG_ALL (SK_GPHY_ANEG_0 | SK_GPHY_ANEG_1 | \
SK_GPHY_ANEG_2 | SK_GPHY_ANEG_3 )
#define SK_GMAC_INT_TX_OFLOW 0x20 /* Transmit Counter Overflow */
#define SK_GMAC_INT_RX_OFLOW 0x10 /* Receiver Overflow */
#define SK_GMAC_INT_TX_UNDER 0x08 /* Transmit FIFO Underrun */
#define SK_GMAC_INT_TX_DONE 0x04 /* Transmit Complete */
#define SK_GMAC_INT_RX_OVER 0x02 /* Receive FIFO Overrun */
#define SK_GMAC_INT_RX_DONE 0x01 /* Receive Complete */
#define SK_LINK_RESET_CLEAR 0x0002 /* Link Reset Clear */
#define SK_LINK_RESET_SET 0x0001 /* Link Reset Set */
/* Block 31 -- reserved */
/* Block 32-33 -- Pattern Ram */
#define SK_WOL_PRAM 0x1000
/* Block 0x22 - 0x3f -- reserved */
/* Block 0x40 to 0x4F -- XMAC 1 registers */
#define SK_XMAC1_BASE 0x2000
/* Block 0x50 to 0x5F -- MARV 1 registers */
#define SK_MARV1_BASE 0x2800
/* Block 0x60 to 0x6F -- XMAC 2 registers */
#define SK_XMAC2_BASE 0x3000
/* Block 0x70 to 0x7F -- MARV 2 registers */
#define SK_MARV2_BASE 0x3800
/* Compute relative offset of an XMAC register in the XMAC window(s). */
#define SK_XMAC_REG(sc, reg) (((reg) * 2) + SK_XMAC1_BASE + \
(((sc)->sk_port) * (SK_XMAC2_BASE - SK_XMAC1_BASE)))
#if 0
#define SK_XM_READ_4(sc, reg) \
((sk_win_read_2(sc->sk_softc, \
SK_XMAC_REG(sc, reg)) & 0xFFFF) | \
((sk_win_read_2(sc->sk_softc, \
SK_XMAC_REG(sc, reg + 2)) & 0xFFFF) << 16))
#define SK_XM_WRITE_4(sc, reg, val) \
sk_win_write_2(sc->sk_softc, SK_XMAC_REG(sc, reg), \
((val) & 0xFFFF)); \
sk_win_write_2(sc->sk_softc, SK_XMAC_REG(sc, reg + 2), \
((val) >> 16) & 0xFFFF)
#else
#define SK_XM_READ_4(sc, reg) \
sk_win_read_4(sc->sk_softc, SK_XMAC_REG(sc, reg))
#define SK_XM_WRITE_4(sc, reg, val) \
sk_win_write_4(sc->sk_softc, SK_XMAC_REG(sc, reg), (val))
#endif
#define SK_XM_READ_2(sc, reg) \
sk_win_read_2(sc->sk_softc, SK_XMAC_REG(sc, reg))
#define SK_XM_WRITE_2(sc, reg, val) \
sk_win_write_2(sc->sk_softc, SK_XMAC_REG(sc, reg), val)
#define SK_XM_SETBIT_4(sc, reg, x) \
SK_XM_WRITE_4(sc, reg, (SK_XM_READ_4(sc, reg)) | (x))
#define SK_XM_CLRBIT_4(sc, reg, x) \
SK_XM_WRITE_4(sc, reg, (SK_XM_READ_4(sc, reg)) & ~(x))
#define SK_XM_SETBIT_2(sc, reg, x) \
SK_XM_WRITE_2(sc, reg, (SK_XM_READ_2(sc, reg)) | (x))
#define SK_XM_CLRBIT_2(sc, reg, x) \
SK_XM_WRITE_2(sc, reg, (SK_XM_READ_2(sc, reg)) & ~(x))
/* Compute relative offset of an MARV register in the MARV window(s). */
#define SK_YU_REG(sc, reg) \
((reg) + SK_MARV1_BASE + \
(((sc)->sk_port) * (SK_MARV2_BASE - SK_MARV1_BASE)))
#define SK_YU_READ_4(sc, reg) \
sk_win_read_4((sc)->sk_softc, SK_YU_REG((sc), (reg)))
#define SK_YU_READ_2(sc, reg) \
sk_win_read_2((sc)->sk_softc, SK_YU_REG((sc), (reg)))
#define SK_YU_WRITE_4(sc, reg, val) \
sk_win_write_4((sc)->sk_softc, SK_YU_REG((sc), (reg)), (val))
#define SK_YU_WRITE_2(sc, reg, val) \
sk_win_write_2((sc)->sk_softc, SK_YU_REG((sc), (reg)), (val))
#define SK_YU_SETBIT_4(sc, reg, x) \
SK_YU_WRITE_4(sc, reg, (SK_YU_READ_4(sc, reg)) | (x))
#define SK_YU_CLRBIT_4(sc, reg, x) \
SK_YU_WRITE_4(sc, reg, (SK_YU_READ_4(sc, reg)) & ~(x))
#define SK_YU_SETBIT_2(sc, reg, x) \
SK_YU_WRITE_2(sc, reg, (SK_YU_READ_2(sc, reg)) | (x))
#define SK_YU_CLRBIT_2(sc, reg, x) \
SK_YU_WRITE_2(sc, reg, (SK_YU_READ_2(sc, reg)) & ~(x))
/*
* The default FIFO threshold on the XMAC II is 4 bytes. On
* dual port NICs, this often leads to transmit underruns, so we
* bump the threshold a little.
*/
#define SK_XM_TX_FIFOTHRESH 512
#define SK_PCI_VENDOR_ID 0x0000
#define SK_PCI_DEVICE_ID 0x0002
#define SK_PCI_COMMAND 0x0004
#define SK_PCI_STATUS 0x0006
#define SK_PCI_REVID 0x0008
#define SK_PCI_CLASSCODE 0x0009
#define SK_PCI_CACHELEN 0x000C
#define SK_PCI_LATENCY_TIMER 0x000D
#define SK_PCI_HEADER_TYPE 0x000E
#define SK_PCI_LOMEM 0x0010
#define SK_PCI_LOIO 0x0014
#define SK_PCI_SUBVEN_ID 0x002C
#define SK_PCI_SYBSYS_ID 0x002E
#define SK_PCI_BIOSROM 0x0030
#define SK_PCI_INTLINE 0x003C
#define SK_PCI_INTPIN 0x003D
#define SK_PCI_MINGNT 0x003E
#define SK_PCI_MINLAT 0x003F
/* device specific PCI registers */
#define SK_PCI_OURREG1 0x0040
#define SK_PCI_OURREG2 0x0044
#define SK_PCI_CAPID 0x0048 /* 8 bits */
#define SK_PCI_NEXTPTR 0x0049 /* 8 bits */
#define SK_PCI_PWRMGMTCAP 0x004A /* 16 bits */
#define SK_PCI_PWRMGMTCTRL 0x004C /* 16 bits */
#define SK_PCI_PME_EVENT 0x004F
#define SK_PSTATE_MASK 0x0003
#define SK_PSTATE_D0 0x0000
#define SK_PSTATE_D1 0x0001
#define SK_PSTATE_D2 0x0002
#define SK_PSTATE_D3 0x0003
#define SK_PME_EN 0x0010
#define SK_PME_STATUS 0x8000
#define CSR_WRITE_4(sc, reg, val) \
bus_write_4((sc)->sk_res[0], (reg), (val))
#define CSR_WRITE_2(sc, reg, val) \
bus_write_2((sc)->sk_res[0], (reg), (val))
#define CSR_WRITE_1(sc, reg, val) \
bus_write_1((sc)->sk_res[0], (reg), (val))
#define CSR_READ_4(sc, reg) \
bus_read_4((sc)->sk_res[0], (reg))
#define CSR_READ_2(sc, reg) \
bus_read_2((sc)->sk_res[0], (reg))
#define CSR_READ_1(sc, reg) \
bus_read_1((sc)->sk_res[0], (reg))
struct sk_type {
u_int16_t sk_vid;
u_int16_t sk_did;
char *sk_name;
};
#define SK_ADDR_LO(x) ((u_int64_t) (x) & 0xffffffff)
#define SK_ADDR_HI(x) ((u_int64_t) (x) >> 32)
#define SK_RING_ALIGN 64
/* RX queue descriptor data structure */
struct sk_rx_desc {
u_int32_t sk_ctl;
u_int32_t sk_next;
u_int32_t sk_data_lo;
u_int32_t sk_data_hi;
u_int32_t sk_xmac_rxstat;
u_int32_t sk_timestamp;
u_int32_t sk_csum;
u_int32_t sk_csum_start;
};
#define SK_OPCODE_DEFAULT 0x00550000
#define SK_OPCODE_CSUM 0x00560000
#define SK_RXCTL_LEN 0x0000FFFF
#define SK_RXCTL_OPCODE 0x00FF0000
#define SK_RXCTL_TSTAMP_VALID 0x01000000
#define SK_RXCTL_STATUS_VALID 0x02000000
#define SK_RXCTL_DEV0 0x04000000
#define SK_RXCTL_EOF_INTR 0x08000000
#define SK_RXCTL_EOB_INTR 0x10000000
#define SK_RXCTL_LASTFRAG 0x20000000
#define SK_RXCTL_FIRSTFRAG 0x40000000
#define SK_RXCTL_OWN 0x80000000
#define SK_RXSTAT \
(SK_RXCTL_EOF_INTR|SK_RXCTL_LASTFRAG|SK_RXCTL_FIRSTFRAG|SK_RXCTL_OWN)
struct sk_tx_desc {
u_int32_t sk_ctl;
u_int32_t sk_next;
u_int32_t sk_data_lo;
u_int32_t sk_data_hi;
u_int32_t sk_xmac_txstat;
u_int32_t sk_csum_startval;
u_int32_t sk_csum_start;
u_int32_t sk_rsvd1;
};
#define SK_TXCTL_LEN 0x0000FFFF
#define SK_TXCTL_OPCODE 0x00FF0000
#define SK_TXCTL_SW 0x01000000
#define SK_TXCTL_NOCRC 0x02000000
#define SK_TXCTL_STORENFWD 0x04000000
#define SK_TXCTL_EOF_INTR 0x08000000
#define SK_TXCTL_EOB_INTR 0x10000000
#define SK_TXCTL_LASTFRAG 0x20000000
#define SK_TXCTL_FIRSTFRAG 0x40000000
#define SK_TXCTL_OWN 0x80000000
#define SK_TXSTAT \
(SK_OPCODE_DEFAULT|SK_TXCTL_EOF_INTR|SK_TXCTL_LASTFRAG|SK_TXCTL_OWN)
#define SK_RXBYTES(x) ((x) & 0x0000FFFF)
#define SK_TXBYTES SK_RXBYTES
#define SK_TX_RING_CNT 512
#define SK_RX_RING_CNT 256
#define SK_JUMBO_RX_RING_CNT 256
#define SK_MAXTXSEGS 32
#define SK_JUMBO_FRAMELEN 9018
#define SK_JUMBO_MTU (SK_JUMBO_FRAMELEN-ETHER_HDR_LEN-ETHER_CRC_LEN)
#define SK_MAX_FRAMELEN \
(ETHER_MAX_LEN + ETHER_VLAN_ENCAP_LEN - ETHER_CRC_LEN)
#define SK_MIN_FRAMELEN (ETHER_MIN_LEN - ETHER_CRC_LEN)
struct sk_txdesc {
struct mbuf *tx_m;
bus_dmamap_t tx_dmamap;
STAILQ_ENTRY(sk_txdesc) tx_q;
};
STAILQ_HEAD(sk_txdq, sk_txdesc);
struct sk_rxdesc {
struct mbuf *rx_m;
bus_dmamap_t rx_dmamap;
};
struct sk_chain_data {
bus_dma_tag_t sk_parent_tag;
bus_dma_tag_t sk_tx_tag;
struct sk_txdesc sk_txdesc[SK_TX_RING_CNT];
struct sk_txdq sk_txfreeq;
struct sk_txdq sk_txbusyq;
bus_dma_tag_t sk_rx_tag;
struct sk_rxdesc sk_rxdesc[SK_RX_RING_CNT];
bus_dma_tag_t sk_tx_ring_tag;
bus_dma_tag_t sk_rx_ring_tag;
bus_dmamap_t sk_tx_ring_map;
bus_dmamap_t sk_rx_ring_map;
bus_dmamap_t sk_rx_sparemap;
bus_dma_tag_t sk_jumbo_rx_tag;
struct sk_rxdesc sk_jumbo_rxdesc[SK_JUMBO_RX_RING_CNT];
bus_dma_tag_t sk_jumbo_rx_ring_tag;
bus_dmamap_t sk_jumbo_rx_ring_map;
bus_dmamap_t sk_jumbo_rx_sparemap;
int sk_tx_prod;
int sk_tx_cons;
int sk_tx_cnt;
int sk_rx_cons;
int sk_jumbo_rx_cons;
};
struct sk_ring_data {
struct sk_tx_desc *sk_tx_ring;
bus_addr_t sk_tx_ring_paddr;
struct sk_rx_desc *sk_rx_ring;
bus_addr_t sk_rx_ring_paddr;
struct sk_rx_desc *sk_jumbo_rx_ring;
bus_addr_t sk_jumbo_rx_ring_paddr;
};
#define SK_TX_RING_ADDR(sc, i) \
((sc)->sk_rdata.sk_tx_ring_paddr + sizeof(struct sk_tx_desc) * (i))
#define SK_RX_RING_ADDR(sc, i) \
((sc)->sk_rdata.sk_rx_ring_paddr + sizeof(struct sk_rx_desc) * (i))
#define SK_JUMBO_RX_RING_ADDR(sc, i) \
((sc)->sk_rdata.sk_jumbo_rx_ring_paddr + sizeof(struct sk_rx_desc) * (i))
#define SK_TX_RING_SZ \
(sizeof(struct sk_tx_desc) * SK_TX_RING_CNT)
#define SK_RX_RING_SZ \
(sizeof(struct sk_rx_desc) * SK_RX_RING_CNT)
#define SK_JUMBO_RX_RING_SZ \
(sizeof(struct sk_rx_desc) * SK_JUMBO_RX_RING_CNT)
struct sk_bcom_hack {
int reg;
int val;
};
#define SK_INC(x, y) (x) = (x + 1) % y
/* Forward decl. */
struct sk_if_softc;
/* Softc for the GEnesis controller. */
struct sk_softc {
struct resource *sk_res[2]; /* I/O and IRQ resources */
struct resource_spec *sk_res_spec;
void *sk_intrhand; /* irq handler handle */
device_t sk_dev;
u_int8_t sk_type;
u_int8_t sk_rev;
u_int8_t spare;
u_int32_t sk_rboff; /* RAMbuffer offset */
u_int32_t sk_ramsize; /* amount of RAM on NIC */
u_int32_t sk_pmd; /* physical media type */
u_int32_t sk_coppertype;
u_int32_t sk_intrmask;
int sk_int_mod;
int sk_int_ticks;
int sk_suspended;
struct sk_if_softc *sk_if[2];
device_t sk_devs[2];
struct mtx sk_mii_mtx;
struct mtx sk_mtx;
};
#define SK_LOCK(_sc) mtx_lock(&(_sc)->sk_mtx)
#define SK_UNLOCK(_sc) mtx_unlock(&(_sc)->sk_mtx)
#define SK_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sk_mtx, MA_OWNED)
#define SK_IF_LOCK(_sc) SK_LOCK((_sc)->sk_softc)
#define SK_IF_UNLOCK(_sc) SK_UNLOCK((_sc)->sk_softc)
#define SK_IF_LOCK_ASSERT(_sc) SK_LOCK_ASSERT((_sc)->sk_softc)
#define SK_IF_MII_LOCK(_sc) mtx_lock(&(_sc)->sk_softc->sk_mii_mtx)
#define SK_IF_MII_UNLOCK(_sc) mtx_unlock(&(_sc)->sk_softc->sk_mii_mtx)
/* Softc for each logical interface */
struct sk_if_softc {
struct ifnet *sk_ifp; /* interface info */
device_t sk_miibus;
device_t sk_if_dev;
u_int8_t sk_port; /* port # on controller */
u_int8_t sk_xmac_rev; /* XMAC chip rev (B2 or C1) */
u_int32_t sk_rx_ramstart;
u_int32_t sk_rx_ramend;
u_int32_t sk_tx_ramstart;
u_int32_t sk_tx_ramend;
int sk_phytype;
int sk_phyaddr;
int sk_link;
struct callout sk_tick_ch;
struct callout sk_watchdog_ch;
int sk_watchdog_timer;
struct sk_chain_data sk_cdata;
struct sk_ring_data sk_rdata;
struct sk_softc *sk_softc; /* parent controller */
int sk_tx_bmu; /* TX BMU register */
int sk_if_flags;
int sk_jumbo_disable;
};
#define SK_TIMEOUT 1000
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