Merge from vendor branch GROFF:

[dragonfly.git] / sys / dev / netif / xe / if_xereg.h

/*-
 * Copyright (c) 1998, 1999 Scott Mitchell
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 *      $Id: if_xereg.h,v 1.5 1999/05/20 21:53:58 scott Exp $
 * $FreeBSD: src/sys/dev/xe/if_xereg.h,v 1.5 2000/01/10 08:05:53 imp Exp $
 * $DragonFly: src/sys/dev/netif/xe/if_xereg.h,v 1.2 2003/06/17 04:28:33 dillon Exp $
 */
#ifndef DEV_XE_IF_XEREG_H
#define DEV_XE_IF_XEREG_H

/*
 * Register definitions for Xircom PCMCIA Ethernet controllers, based on
 * Rev. B of the "Dingo" 10/100 controller used in Xircom CEM56 and RealPort
 * Ethernet/modem cards.  The Dingo can be configured to be register
 * compatible with the "Mohawk" 10/100 controller used in Xircom CE3 cards
 * (also some Intel and Compaq OEM versions of the CE3).  The older 10Mbps CE2
 * cards seem to use earlier revisions of the same device.  Some registers and
 * bits below are marked 'CE2 only'; these are used by Werner Koch's xirc2ps
 * driver that was originally for the CE2 but, according to the spec, aren't
 * present on the Dingo.  They often seem to relate to operation on coax
 * cables, which Mohawk can do in theory (it has the SSI interface) so they
 * _might_ also work on Mohawk. I've also noted the few registers that are
 * specific to Dingo.
 *
 * As far as I can tell, the Dingo is basically a Mohawk device with a few
 * registers and support for a second PCMCIA function (the modem) added.  In
 * Dingo mode the SSI (non-MII) PHY interface of the Mohawk is not available.
 * The CE2 chip is most likely a Mohawk without the MII and definitely with a
 * slightly different register set.
 *
 * In all cases, the controller uses a paged model of register access.  The
 * first eight registers are always the same, the function of the second eight 
 * is selected by the value in the Page Register (reg 0x01).
 *
 * References:
 * 1. Dingo External Reference Specification, Revision B.  Xircom Inc.,
 *    Thousand Oaks, California.  August 1998.  Available under licence from
 *    Xircom, http://www.xircom.com/
 * 2. ML6692 100BASE-TX Physical Layer with MII specification.  MicroLinear
 *    Corp, San Jose, California.  May 1997.  Available for download from
 *    http://www.microlinear.com/
 * 3. DP83840 10/100 Mb/s Ethernet Physical Layer specification.  National
 *    Semiconductor Corp., Arlington, Texas.  March 1997.  Available for
 *    download from http://www.ns.com/
 * 4. Werner Koch's xirc2ps driver for Linux, for all the CE2 and CE3 frobs
 *    that aren't documented in the Xircom spec.  Available for download from
 *    http://www.d.shuttle.de/isil/xircom/xirc2ps.html
 */

/*******************
 * PCMCIA registers
 *******************/

/*
 * These are probably Dingo-specific, but you won't need them unless you have
 * a CEM card that needs a bit of hackery to get the Ethernet function to
 * operate.  All addresses are in card attribute space.
 */
#define DINGO_CIS               0x0000  /* Start of CIS tuples */
#define DINGO_ETH               0x0800  /* Ethernet configuration registers */
#define DINGO_COR               0x0820  /* Dingo configuration option registers */
#define DINGO_2ND               0x0840  /* 2nd function configuration registers */


/*
 * Ethernet configuration registers
 */
#define DINGO_ECOR      (DINGO_ETH+0)   /* Ethernet Configuration Option Register */
#define DINGO_ECSR      (DINGO_ETH+2)   /* Ethernet Configuration Status Register */
#define DINGO_EBAR0     (DINGO_ETH+10)  /* Ethernet Base Address Register bits 7:4 (3:0 always 0) */
#define DINGO_EBAR1     (DINGO_ETH+12)  /* Ethernet Base Address Register bits 15:8 */

/* DINGO_ECOR bits */
#define DINGO_ECOR_ETH_ENABLE   0x01    /* 1 = Enable Ethernet part of adapter */
#define DINGO_ECOR_IOB_ENABLE   0x02    /* 1 = Enable EBAR, else use INDEX bits */
#define DINGO_ECOR_INT_ENABLE   0x04    /* 1 = Enable Ethernet interrupts */
#define DINGO_ECOR_IOB_INDEX    0x18    /* 00 = 0x300; 01 = 0x310; 10 = 0x320; 11 = no IO base */
#define DINGO_ECOR_IOB_SHIFT    0x03
#define DINGO_ECOR_IRQ_STSCHG   0x20    /* 1 = Route interrupts to -STSCHG pin, else use -INT pin */
#define DINGO_ECOR_IRQ_LEVEL    0x40    /* 1 = Level-triggered interrupts, else edge-triggered */
#define DINGO_ECOR_SRESET       0x80    /* 1 = Soft reset Ethernet adpater.  Must write to 0 */

/* DINGO_ECSR bits */
#define DINGO_ECSR_INT_ACK      0x01    /* 1 = Host must acknowledge interrupts (Clear ECSR_INT bit) */
#define DINGO_ECSR_INT          0x02    /* 1 = Interrupt service requested */
#define DINGO_ECSR_POWER_DOWN   0x04    /* 1 = Power down Ethernet adapter */

/*
 * EBAR0/EBAR1 set the I/O base address of the Ethernet adapter when
 * ECOR_IOB_ENABLE is set.  12 significant bits.
 */


/*
 * Dingo configuration registers
 */
#define DINGO_DCOR0     (DINGO_COR+0)   /* Dingo Configuration Options Register 0 */
#define DINGO_DCOR1     (DINGO_COR+2)   /* Dingo Configuration Options Register 1 */
#define DINGO_DCOR2     (DINGO_COR+4)   /* Dingo Configuration Options Register 2 */
#define DINGO_DCOR3     (DINGO_COR+6)   /* Dingo Configuration Options Register 3 */
#define DINGO_DCOR4     (DINGO_COR+8)   /* Dingo Configuration Options Register 4 */

/* DINGO_DCOR0 bits */
#define DINGO_DCOR0_SF_INT      0x01    /* 1 = Enable 2ndF interrupts (alternate to SFCOR:2) */
#define DINGO_DCOR0_DECODE      0x04    /* 1 = Decode 2ndF interrupts in Dingo, else in 2ndF */
#define DINGO_DCOR0_BUS         0x08    /* 1 = 2ndF bus is ISA, else PCMCIA */
#define DINGO_DCOR0_LED3_POWER  0x10    /* 1 = Drive LED3 line from SFCSR:2 */
#define DINGO_DCOR0_LED3_RESET  0x20    /* 1 = Drive LED3 line from SFCOR:7 */
#define DINGO_DCOR0_MR_POWER    0x40    /* 1 = Drive MRESET line from SFCSR:2 */
#define DINGO_DCOR0_MR_RESET    0x80    /* 1 = Drive MRESET line from SFCOR:7 */

/* DINGO_DCOR1 bits */
#define DINGO_DCOR1_INT_STSCHG  0x01    /* 1 = Route 2ndF interrupts to -STSCHG (alternate to SFCOR:5) */
#define DINGO_DCOR1_MSTSCHG     0x02    /* 1 = Route 2ndF -MSTSCHG line to -STSCHG */
#define DINGO_DCOR1_EEDIO       0x04    /* 1 = Use EEDIO pin as data line 6 to 2ndF */
#define DINGO_DCOR1_INT_LEVEL   0x08    /* 1 = Force level-triggered interrupts from 2ndF */
#define DINGO_DCOR1_SHADOW_CSR  0x10    /* Reserved, always write 0 */
#define DINGO_DCOR1_SHADOW_IOB  0x20    /* Reserved, always write 0 */
#define DINGO_DCOR1_CSR_WAIT    0xC0    /* Reserved, always write 0 */
#define DINGO_DCOR1_CSR_SHIFT   0x06

/* DINGO_DCOR2 bits */
#define DINGO_DCOR2_SHM_BASE    0x0f    /* Bits 15-12 of Ethernet shared memory window */
#define DINGO_DCOR2_SHM_SHIFT   0x00
#define DINGO_DCOR2_SHADOW_COR  0x10    /* Reserved, always write 0 */

/*
 * DCOR3/DCOR4 configure Dingo to assert -IOIS16 on any access to each pair of 
 * ports in the range SFIOB+0 .. SFIOB+31.  Each pair can be set individually,
 * eg. DCOR3:0 enables this function on ports SFIOB+0 and SFIOB+1.
 */


/*
 * Second function configuration registers
 */
#define DINGO_SFCOR     (DINGO_2ND+0)   /* 2nd Function Configuration Option Register */
#define DINGO_SFCSR     (DINGO_2ND+2)   /* 2nd Function Configuration Status Register */
#define DINGO_SFBAR0    (DINGO_2ND+10)  /* 2nd Function Base Address Register bits 7:0 */
#define DINGO_SFBAR1    (DINGO_2ND+12)  /* 2nd Function Base Address Register bits 15:8 */
#define DINGO_SFILR     (DINGO_2ND+18)  /* 2nd Function I/O Limit Register */

/* DINGO_SFCOR bits */
#define DINGO_SFCOR_SF_ENABLE   0x01    /* 1 = Enable second fuction */
#define DINGO_SFCOR_IOB_ENABLE  0x02    /* 1 = Enable SFBAR, else use COM_SELECT bits */
#define DINGO_SFCOR_INT_ENABLE  0x04    /* 1 = Enable second function interrupts */
#define DINGO_SFCOR_COM_SELECT  0x18    /* 00 = 0x3f8; 01 = 0x2f8; 10 = 0x3e8; 11 = 0x2e8 */
#define DINGO_SFCOR_COM_SHIFT   0x03
#define DINGO_SFCOR_IRQ_STSCHG  0x20    /* 1 = Route interrupts to -STSCHG pin, else use -INT pin */
#define DINGO_SFCOR_IRQ_LEVEL   0x40    /* 1 = Level-triggered interrupts, else edge-triggered */
#define DINGO_SFCOR_SRESET      0x80    /* 1 = Soft reset second function.  Must write to 0 */

/* DINGO_SFCSR bits */
#define DINGO_SFCSR_INT_ACK     0x01    /* 1 = Host must acknowledge interrupts (Clear SFCSR_INT bit) */
#define DINGO_SFCSR_INT         0x02    /* 1 = Interrupt service requested */
#define DINGO_SFCSR_POWER_DOWN  0x04    /* 1 = Power down second function */

/*
 * SFBAR0/SFBAR1 set the I/O base address of the second function when
 * SFCOR_IOB_ENABLE is set.  16 significant bits.
 */

/*
 * SFILR is a bitmap of address lines 7:0 decoded by the second function
 * device.  Eg. a device with 16 ports should write 0x0f to this register.
 */



/********************************
 * Ethernet controller registers
 ********************************/

/*
 * Common registers (available from any register page)
 *
 * Note: The EDP is actually 32 bits wide, occupying registers 2-5.  In PCMCIA 
 * operation we can only access 16 bits at once, through registers 4 & 5.
 */
#define XE_CR                   0x00    /* Command register (write) */
#define XE_ESR                  0x00    /* Ethernet status register (read) */
#define XE_PR                   0x01    /* Page select register */
#define XE_EDP                  0x04    /* Ethernet data port */
#define XE_ISR                  0x06    /* Ethernet interrupt status register (read) */
#define XE_GIR                  0x07    /* Global interrupt register (Dingo only) */

/* XE_CR bits */
#define XE_CR_TX_PACKET         0x01    /* Transmit packet */
#define XE_CR_SOFT_RESET        0x02    /* Software reset */
#define XE_CR_ENABLE_INTR       0x04    /* Enable interrupts */
#define XE_CR_FORCE_INTR        0x08    /* Force an interrupt */
#define XE_CR_CLEAR_FIFO        0x10    /* Clear FIFO after transmit overrun */
#define XE_CR_CLEAR_OVERRUN     0x20    /* Clear receive overrun condition */
#define XE_CR_RESTART_TX        0x40    /* Restart TX after 16 collisions or TX underrun */

/* XE_ESR bits */
#define XE_ESR_FULL_PACKET_RX   0x01    /* At least one full packet received */
#define XE_ESR_PART_PACKET_RX   0x02    /* At least 64 bytes of packet received */
#define XE_ESR_REJECT_PACKET    0x04    /* Partial packet rejected */
#define XE_ESR_TX_PENDING       0x08    /* At least one packet waiting to transmit */
#define XE_ESR_BAD_POLARITY     0x10    /* Bad cable polarity? (CE2 only) */
#define XE_ESR_MEDIA_SELECT     0x20    /* SSI(?) media select: 1 = Twisted pair; 0 = AUI */

/* XE_ISR bits */
#define XE_ISR_TX_OVERFLOW      0x01    /* No space in transmit buffer */
#define XE_ISR_TX_PACKET        0x02    /* Packet sent successfully */
#define XE_ISR_MAC_INTR         0x04    /* Some kind of MAC interrupt happened */
#define XE_ISR_RX_EARLY         0x10    /* Incoming packet in early receive mode */
#define XE_ISR_RX_PACKET        0x20    /* Complete packet received successfully */
#define XE_ISR_RX_REJECT        0x40    /* Partial incoming packet rejected by MAC */
#define XE_ISR_FORCE_INTR       0x80    /* Interrupt forced */

/* XE_GIR bits */
#define XE_GIR_ETH_IRQ          0x01    /* Ethernet IRQ pending */
#define XE_GIR_ETH_MASK         0x02    /* 1 = Mask Ethernet interrupts to host */
#define XE_GIR_SF_IRQ           0x04    /* Second function IRQ pending */
#define XE_GIR_SF_MASK          0x08    /* 1 = Mask second function interrupts to host */


/*
 * Page 0 registers
 */
#define XE_TSO                  0x08    /* Transmit space open (17 bits) */
#define XE_TRS                  0x0a    /* Transmit reservation size (CE2 only, removed in rev. 1) */
#define XE_DO                   0x0c    /* Data offset register (13 bits/3 flags, write) */
#define XE_RSR                  0x0c    /* Receive status register (read) */
#define XE_TPR                  0x0d    /* Packets transmitted register (read) */
#define XE_RBC                  0x0e    /* Received byte count (13 bits/3 flags, read) */

/* XE_DO bits */
#define XE_DO_OFFSET            0x1fff  /* First byte fetched when CHANGE_OFFSET issued */
#define XE_DO_OFFSET_SHIFT      0x00
#define XE_DO_CHANGE_OFFSET     0x2000  /* Flush RX FIFO, start fetching from OFFSET */
#define XE_DO_SHARED_MEM        0x4000  /* Enable shared memory mode */
#define XE_DO_SKIP_RX_PACKET    0x8000  /* Skip to next packet in buffer memory */

/* XE_RSR bits */
#define XE_RSR_PHYS_PACKET      0x01    /* 1 = Physical packet, 0 = Multicast packet */
#define XE_RSR_BCAST_PACKET     0x02    /* Broadcast packet */
#define XE_RSR_LONG_PACKET      0x04    /* Packet >1518 bytes */
#define XE_RSR_ADDR_MATCH       0x08    /* Packet matched one of our node addresses */
#define XE_RSR_ALIGN_ERROR      0x10    /* Bad alignment? (CE2 only) */
#define XE_RSR_CRC_ERROR        0x20    /* Incorrect CRC */
#define XE_RSR_RX_OK            0x80    /* No errors on received packet */

/* XE_RBC bits */
#define XE_RBC_BYTE_COUNT       0x1fff  /* Bytes received for current packet */
#define XE_RBC_COUNT_SHIFT      0x00
#define XE_RBC_FULL_PACKET_RX   0x2000  /* These mirror bits 2:0 of ESR, if ECR:7 is set */
#define XE_RBC_PART_PACKET_RX   0x4000
#define XE_RBC_REJECT_PACKET    0x8000


/*
 * Page 1 registers
 */
#define XE_IMR0                 0x0c    /* Interrupt mask register 0 */
#define XE_IMR1                 0x0d    /* Interrupt mask register 1 (CE2 only) */
#define XE_ECR                  0x0e    /* Ethernet configuration register */

/* XE_IMR0 bits */
#define XE_IMR0_TX_OVERFLOW     0x01    /* Masks for bits in ISR */
#define XE_IMR0_TX_PACKET       0x02
#define XE_IMR0_MAC_INTR        0x04
#define XE_IMR0_RX_EARLY        0x10
#define XE_IMR0_RX_PACKET       0x20
#define XE_IMR0_RX_REJECT       0x40
#define XE_IMR0_FORCE_INTR      0x80

/* XE_ECR bits */
#define XE_ECR_EARLY_TX         0x01    /* Enable early transmit mode */
#define XE_ECR_EARLY_RX         0x02    /* Enable early receive mode */
#define XE_ECR_FULL_DUPLEX      0x04    /* Enable full-duplex (disable collision detection) */
#define XE_ECR_LONG_TPCABLE     0x08    /* CE2 only */
#define XE_ECR_NO_POL_COL       0x10    /* CE2 only */
#define XE_ECR_NO_LINK_PULSE    0x20    /* Don't check/send link pulses (not 10BT compliant) */
#define XE_ECR_NO_AUTO_TX       0x40    /* CE2 only */
#define XE_ECR_SOFT_COMPAT      0x80    /* Map ESR bits 2:0 to RBC bits 15:13 */


/*
 * Page 2 registers
 */
#define XE_RBS                  0x08    /* Receive buffer start (16 bits) */
#define XE_LED                  0x0a    /* LED control register */
#define XE_LED3                 0x0b    /* LED3 control register */
#define XE_MSR                  0x0c    /* Misc. setup register (Mohawk specific register?) */
#define XE_GPR2                 0x0d    /* General purpose register 2 */

/*
 * LED function selection:
 * 000 - Disabled
 * 001 - Collision activity
 * 010 - !Collision activity
 * 011 - 10Mbit link detected
 * 100 - 100Mbit link detected
 * 101 - 10/100Mbit link detected
 * 110 - Automatic assertion
 * 111 - Transmit activity
 */

/* XE_LED bits */
#define XE_LED_LED0_MASK        0x07    /* LED0 function selection */
#define XE_LED_LED0_SHIFT       0x00
#define XE_LED_LED1_MASK        0x38    /* LED1 function selection */
#define XE_LED_LED1_SHIFT       0x03
#define XE_LED_LED0_RX          0x40    /* Add receive activity to LED0 */
#define XE_LED_LED1_RX          0x80    /* Add receive activity to LED1 */

/* XE_LED3 bits */
#define XE_LED3_MASK            0x07    /* LED3 function selection */
#define XE_LED3_SHIFT           0x00
#define XE_LED3_RX              0x40    /* Add receive activity to LED3 */

/* XE_MSR bits */
#define XE_MSR_128K_SRAM        0x01    /* Select 128K SRAM */
#define XE_MSR_RBS_BIT16        0x02    /* Bit 16 of RBS (only useful with big SRAM) */
#define XE_MSR_MII_SELECT       0x08    /* Select MII instead of SSI interface */
#define XE_MSR_HASH_TABLE       0x20    /* Enable hash table filtering */

/* XE_GPR2 bits */
#define XE_GPR2_GP3_OUT         0x01    /* Value written to GP3 line */
#define XE_GPR2_GP4_OUT         0x02    /* Value written to GP4 line */
#define XE_GPR2_GP3_SELECT      0x04    /* 1 = GP3 is output, 0 = GP3 is input */
#define XE_GPR2_GP4_SELECT      0x08    /* 1 = GP4 is output, 0 = GP3 is input */
#define XE_GPR2_GP3_IN          0x10    /* Value read from GP3 line */
#define XE_GPR2_GP4_IN          0x20    /* Value read from GP4 line */


/*
 * Page 3 registers
 */
#define XE_TPT                  0x0a    /* Transmit packet threshold (13 bits) */


/*
 * Page 4 registers
 */
#define XE_GPR0                 0x08    /* General purpose register 0 */
#define XE_GPR1                 0x09    /* General purpose register 1 */
#define XE_BOV                  0x0a    /* Bonding version register (read) */
#define XE_EES                  0x0b    /* EEPROM control register */
#define XE_LMA                  0x0c    /* Local memory address (CE2 only) */
#define XE_LMD                  0x0e    /* Local memory data (CE2 only) */

/* XE_GPR0 bits */
#define XE_GPR0_GP1_OUT         0x01    /* Value written to GP1 line */
#define XE_GPR0_GP2_OUT         0x02    /* Value wirtten to GP2 line */
#define XE_GPR0_GP1_SELECT      0x04    /* 1 = GP1 is output, 0 = GP1 is input */
#define XE_GPR0_GP2_SELECT      0x08    /* 1 = GP2 is output, 0 = GP2 is input */
#define XE_GPR0_GP1_IN          0x10    /* Value read from GP1 line */
#define XE_GPR0_GP2_IN          0x20    /* Value read from GP2 line */

/* XE_GPR1 bits */
#define XE_GPR1_POWER_DOWN      0x01    /* Power down analog section (down to 20mA load) */

/* XE_BOV values */
#define XE_BOV_DINGO            0x55    /* Dingo in Dingo mode */
#define XE_BOV_MOHAWK           0x41    /* Original Mohawk */
#define XE_BOV_MOHAWK_REV1      0x45    /* Rev. 1 Mohawk, or Dingo in Mohawk mode */
#define XE_BOV_CEM28            0x11    /* CEM28 */

/* XE_EES bits */
#define XE_EES_SCL_OUTPUT       0x01    /* Value written to SCL line, when MANUAL_ROM set */
#define XE_EES_SDA_OUTPUT       0x02    /* Value written to SDA line, when MANUAL_ROM set */
#define XE_EES_SDA_INPUT        0x04    /* Value read from SDA line */
#define XE_EES_SDA_TRISTATE     0x08    /* 1 = SDA is output, 0 = SDA is input */
#define XE_EES_MANUAL_ROM       0x20    /* Enable manual contro of serial EEPROM */


/*
 * Page 5 registers (all read only)
 */
#define XE_CRHA                 0x08    /* Current Rx host address (16 bits) */
#define XE_RHSA                 0x0a    /* Rx host start address (16 bits) */
#define XE_RNSA                 0x0c    /* Rx network start address (16 bits) */
#define XE_CRNA                 0x0e    /* Current Rx network address (16 bits) */


/*
 * Page 6 registers (all read only)
 */
#define XE_CTHA                 0x08    /* Current Tx host address (16 bits) */
#define XE_THSA                 0x0a    /* Tx host start address (16 bits) */
#define XE_TNSA                 0x0c    /* Tx network statr address (16 bits) */
#define XE_CTNA                 0x0e    /* Current Tx network address (16 bits) */


/*
 * Page 8 registers (all read only)
 */
#define XE_THBC                 0x08    /* Tx host byte count (16 bits) */
#define XE_THPS                 0x0a    /* Tx host packet size (16 bits) */
#define XE_TNBC                 0x0c    /* Tx network byte count (16 bits) */
#define XE_TNPS                 0x0e    /* Tx network packet size (16 bits) */


/*
 * Page 0x10 registers (all read only)
 */
#define XE_DINGOID              0x08    /* Dingo ID register (16 bits) (Dingo only) */
#define XE_RevID                0x0a    /* Dingo revision ID (16 bits) (Dingo only) */
#define XE_VendorID             0x0c    /* Dingo vendor ID   (16 bits) (Dingo only) */

/* Values for the above registers */
#define XE_DINGOID_DINGO3       0x444b  /* In both Dingo and Mohawk modes */
#define XE_RevID_DINGO3         0x0001
#define XE_VendorID_DINGO3      0x0041


/*
 * Page 0x40 registers
 */
#define XE_CMD0                 0x08    /* MAC Command register (write) */
#define XE_RST0                 0x09    /* Receive status register */
#define XE_TXST0                0x0b    /* Transmit status register 0 */
#define XE_TXST1                0x0c    /* Transmit status register 1 */
#define XE_RX0Msk               0x0d    /* Receive status mask register */
#define XE_TX0Msk               0x0e    /* Transmit status 0 mask register */
#define XE_TX1Msk               0x0f    /* Transmit status 1 mask register */

/* CMD0 bits */
#define XE_CMD0_TX              0x01    /* CE2 only */
#define XE_CMD0_RX_ENABLE       0x04    /* Enable receiver */
#define XE_CMD0_RX_DISABLE      0x08    /* Disable receiver */
#define XE_CMD0_ABORT           0x10    /* CE2 only */
#define XE_CMD0_ONLINE          0x20    /* Take MAC online */
#define XE_CMD0_ACK_INTR        0x40    /* CE2 only */
#define XE_CMD0_OFFLINE         0x80    /* Take MAC offline */

/* RST0 bits */
#define XE_RST0_LONG_PACKET     0x02    /* Packet received with >1518 and <8184 bytes */
#define XE_RST0_CRC_ERROR       0x08    /* Packet received with incorrect CRC */
#define XE_RST0_RX_OVERRUN      0x10    /* Receiver overrun, byte(s) dropped */
#define XE_RST0_RX_ENABLE       0x20    /* Receiver enabled */
#define XE_RST0_RX_ABORT        0x40    /* Receive aborted: CRC, FIFO overrun or addr mismatch */
#define XE_RST0_RX_OK           0x80    /* Complete packet received OK */

/* TXST0 bits */
#define XE_TXST0_NO_CARRIER     0x01    /* Lost carrier.  Only valid in 10Mbit half-duplex */
#define XE_TXST0_16_COLLISIONS  0x02    /* Packet aborted after 16 collisions */
#define XE_TXST0_TX_UNDERRUN    0x08    /* MAC ran out of data to send */
#define XE_TXST0_LATE_COLLISION 0x10    /* Collision later than 512 bits */
#define XE_TXST0_SQE_FAIL       0x20    /* SQE test failed. */
#define XE_TXST0_TX_ABORT       0x40    /* Transmit aborted: collisions, underrun or overrun */
#define XE_TXST0_TX_OK          0x80    /* Complete packet sent OK */

/* TXST1 bits */
#define XE_TXST1_RETRY_COUNT    0x0f    /* Collision counter for current packet */
#define XE_TXST1_LINK_STATUS    0x10    /* Valid link status */

/* RX0Msk bits */
#define XE_RX0M_LONG_PACKET     0x02    /* Masks for bits in RXST0 */
#define XE_RX0M_ALIGN_ERROR     0x04    /* Alignment error (CE2 only) */
#define XE_RX0M_CRC_ERROR       0x08
#define XE_RX0M_RX_OVERRUN      0x10
#define XE_RX0M_RX_ABORT        0x40
#define XE_RX0M_RX_OK           0x80

/* TX0Msk bits */
#define XE_TX0M_NO_CARRIER      0x01    /* Masks for bits in TXST0 */
#define XE_TX0M_16_COLLISIONS   0x02
#define XE_TX0M_TX_UNDERRUN     0x08
#define XE_TX0M_LATE_COLLISION  0x10
#define XE_TX0M_SQE_FAIL        0x20
#define XE_TX0M_TX_ABORT        0x40
#define XE_TX0M_TX_OK           0x80

/* TX1Msk bits */
#define XE_TX1M_PKTDEF          0x20


/*
 * Page 0x42 registers
 */
#define XE_SWC0                 0x08    /* Software configuration 0 */
#define XE_SWC1                 0x09    /* Software configuration 1 */
#define XE_BOC                  0x0a    /* Back-off configuration */
#define XE_TCD                  0x0b    /* Transmit collision deferral */

/* SWC0 bits */
#define XE_SWC0_LOOPBACK_ENABLE 0x01    /* Enable loopback operation */
#define XE_SWC0_LOOPBACK_SOURCE 0x02    /* 1 = Transceiver, 0 = MAC */
#define XE_SWC0_ACCEPT_ERROR    0x04    /* Accept otherwise OK packets with CRC errors */
#define XE_SWC0_ACCEPT_SHORT    0x08    /* Accept otherwise OK packets that are too short */
#define XE_SWC0_NO_CRC_INSERT   0x40    /* Don't add CRC to outgoing packets */

/* SWC1 bits */
#define XE_SWC1_IA_ENABLE       0x01    /* Enable individual address filters */
#define XE_SWC1_ALLMULTI        0x02    /* Accept all multicast packets */
#define XE_SWC1_PROMISCUOUS     0x04    /* Accept all non-multicast packets */
#define XE_SWC1_BCAST_DISABLE   0x08    /* Reject broadcast packets */
#define XE_SWC1_MEDIA_SELECT    0x40    /* AUI media select (Mohawk only) */
#define XE_SWC1_AUTO_MEDIA      0x80    /* Auto media select (Mohawk only) */


/*
 * Page 0x44 registers (CE2 only)
 */
#define XE_TDR0                 0x08    /* Time domain reflectometry register 0 */
#define XE_TDR1                 0x09    /* Time domain reflectometry register 1 */
#define XE_RXC0                 0x0a    /* Receive byte count low */
#define XE_RXC1                 0x0b    /* Receive byte count high */


/*
 * Page 0x45 registers (CE2 only)
 */
#define XE_REV                  0x0f    /* Revision (read) */


/*
 * Page 0x50-0x57: Individual address 0-9
 *
 * Used to filter incoming packets by matching against individual node
 * addresses.  If IA matching is enabled (SWC1, bit0) any incoming packet with 
 * a destination matching one of these 10 addresses will be received.  IA0 is
 * always enabled and usually matches the card's unique address.
 *
 * Addresses are stored LSB first, ie. IA00 (reg. 8 on page 0x50) contains the 
 * LSB of IA0, and so on.  The data is stored contiguously, in that addresses
 * can be broken across page boundaries.  That is:
 *
 * Reg: 50/8 50/9 50/a 50/b 50/c 50/d 50/e 50/f 51/8 51/9 ... 57/a 57/b
 *      IA00 IA01 IA02 IA03 IA04 IA05 IA10 IA11 IA12 IA13 ... IA94 IA95
 */

/*
 * Page 0x58: Multicast hash table filter
 *
 * In case the 10 individual addresses aren't enough, we also have a multicast
 * hash filter, enabled through MSR:5.  The most significant six bits of the
 * CRC on each incoming packet are reversed and used as an index into the 64
 * bits of the hash table.  If the appropriate bit is set the packet it
 * received, although higher layers may still need to filter it out.  The CRC
 * calculation is as follows:
 *
 * crc = 0xffffffff;
 * poly = 0x04c11db6;
 * for (i = 0; i < 6; i++) {
 *   current = mcast_addr[i];
 *   for (k = 1; k <= 8; k++) {
 *     if (crc & 0x80000000);
 *       crc31 = 0x01;
 *     else
 *       crc31 = 0;
 *     bit = crc31 ^ (current & 0x01);
 *     crc <<= 1;
 *     current >>= 1;
 *     if (bit)
 *       crc = (crc ^ poly)|1
 *   }
 * }
 */



/****************
 * MII registers
 ****************/

/*
 * Basic MII-compliant PHY register definitions.  According to the Dingo spec, 
 * PHYs from (at least) MicroLinear, National Semiconductor, ICS, TDK and
 * Quality Semiconductor have been used.  These apparently all come up with
 * PHY ID 0x00 unless the "interceptor module" on the Dingo 3 is in use.  With 
 * the interceptor enabled, the PHY is faked up to look like an ICS unit with
 * ID 0x16.  The interceptor can be enabled/disabled in software.
 *
 * The ML6692 (and maybe others) doesn't have a 10Mbps mode -- this is handled 
 * by an internal 10Mbps transceiver that we know nothing about... some cards
 * seem to work with the MII in 10Mbps mode, so I guess some PHYs must support 
 * it.  The question is, how can you figure out which one you have?  Just to
 * add to the fun there are also 10Mbps _only_ Mohawk/Dingo cards.  Aaargh!
 */

/*
 * Masks for the MII-related bits in GPR2
 */
#define XE_MII_CLK              XE_GPR2_GP3_OUT
#define XE_MII_DIR              XE_GPR2_GP4_SELECT
#define XE_MII_WRD              XE_GPR2_GP4_OUT
#define XE_MII_RDD              XE_GPR2_GP4_IN

/*
 * MII PHY ID register values
 */
#define PHY_ID_ML6692           0x0000  /* MicroLinear ML6692? Or unknown */
#define PHY_ID_ICS1890          0x0015  /* ICS1890 */
#define PHY_ID_QS6612           0x0181  /* Quality QS6612 */
#define PHY_ID_DP83840          0x2000  /* National DP83840 */

/*
 * MII command (etc) bit strings.
 */
#define XE_MII_STARTDELIM       0x01
#define XE_MII_READOP           0x02
#define XE_MII_WRITEOP          0x01
#define XE_MII_TURNAROUND       0x02

/*
 * PHY registers.
 */
#define PHY_BMCR                0x00    /* Basic Mode Control Register */
#define PHY_BMSR                0x01    /* Basic Mode Status Register */
#define PHY_ID1                 0x02    /* PHY ID 1 */
#define PHY_ID2                 0x03    /* PHY ID 2 */
#define PHY_ANAR                0x04    /* Auto-Negotiation Advertisment Register */
#define PHY_LPAR                0x05    /* Auto-Negotiation Link Partner Ability Register */
#define PHY_ANER                0x06    /* Auto-Negotiation Expansion Register */

/* BMCR bits */
#define PHY_BMCR_RESET          0x8000  /* Soft reset PHY.  Self-clearing */
#define PHY_BMCR_LOOPBK         0x4000  /* Enable loopback */
#define PHY_BMCR_SPEEDSEL       0x2000  /* 1=100Mbps, 0=10Mbps */
#define PHY_BMCR_AUTONEGENBL    0x1000  /* Auto-negotiation enabled */
#define PHY_BMCR_ISOLATE        0x0400  /* Isolate ML6692 from MII */
#define PHY_BMCR_AUTONEGRSTR    0x0200  /* Restart auto-negotiation.  Self-clearing */
#define PHY_BMCR_DUPLEX         0x0100  /* Full duplex operation */
#define PHY_BMCR_COLLTEST       0x0080  /* Enable collision test */

/* BMSR bits */
#define PHY_BMSR_100BT4         0x8000  /* 100Base-T4 capable */
#define PHY_BMSR_100BTXFULL     0x4000  /* 100Base-TX full duplex capable */
#define PHY_BMSR_100BTXHALF     0x2000  /* 100Base-TX half duplex capable */
#define PHY_BMSR_10BTFULL       0x1000  /* 10Base-T full duplex capable */
#define PHY_BMSR_10BTHALF       0x0800  /* 10Base-T half duplex capable */
#define PHY_BMSR_AUTONEGCOMP    0x0020  /* Auto-negotiation complete */
#define PHY_BMSR_CANAUTONEG     0x0008  /* Auto-negotiation supported */
#define PHY_BMSR_LINKSTAT       0x0004  /* Link is up */
#define PHY_BMSR_EXTENDED       0x0001  /* Extended register capabilities */

/* ANAR bits */
#define PHY_ANAR_NEXTPAGE       0x8000  /* Additional link code word pages */
#define PHY_ANAR_TLRFLT         0x2000  /* Remote wire fault detected */
#define PHY_ANAR_100BT4         0x0200  /* 100Base-T4 capable */
#define PHY_ANAR_100BTXFULL     0x0100  /* 100Base-TX full duplex capable */
#define PHY_ANAR_100BTXHALF     0x0080  /* 100Base-TX half duplex capable */
#define PHY_ANAR_10BTFULL       0x0040  /* 10Base-T full duplex capable */
#define PHY_ANAR_10BTHALF       0x0020  /* 10Base-T half duplex capable */
#define PHY_ANAR_PROTO4         0x0010  /* Protocol selection (00001 = 802.3) */
#define PHY_ANAR_PROTO3         0x0008
#define PHY_ANAR_PROTO2         0x0004
#define PHY_ANAR_PROTO1         0x0002
#define PHY_ANAR_PROTO0         0x0001
#define PHY_ANAR_8023           PHY_ANAR_PROTO0
#define PHY_ANAR_DINGO          PHY_ANAR_100BT+PHY_ANAR_10BT_FD+PHY_ANAR_10BT+PHY_ANAR_8023
#define PHY_ANAR_MOHAWK         PHY_ANAR_100BT+PHY_ANAR_10BT_FD+PHY_ANAR_10BT+PHY_ANAR_8023

/* LPAR bits */
#define PHY_LPAR_NEXTPAGE       0x8000  /* Additional link code word pages */
#define PHY_LPAR_LPACK          0x4000  /* Link partner acknowledged receipt */
#define PHY_LPAR_TLRFLT         0x2000  /* Remote wire fault detected */
#define PHY_LPAR_100BT4         0x0200  /* 100Base-T4 capable */
#define PHY_LPAR_100BTXFULL     0x0100  /* 100Base-TX full duplex capable */
#define PHY_LPAR_100BTXHALF     0x0080  /* 100Base-TX half duplex capable */
#define PHY_LPAR_10BTFULL       0x0040  /* 10Base-T full duplex capable */
#define PHY_LPAR_10BTHALF       0x0020  /* 10Base-T half duplex capable */
#define PHY_LPAR_PROTO4         0x0010  /* Protocol selection (00001 = 802.3) */
#define PHY_LPAR_PROTO3         0x0008
#define PHY_LPAR_PROTO2         0x0004
#define PHY_LPAR_PROTO1         0x0002
#define PHY_LPAR_PROTO0         0x0001

/* ANER bits */
#define PHY_ANER_MLFAULT        0x0010  /* More than one link is up! */
#define PHY_ANER_LPNPABLE       0x0008  /* Link partner supports next page */
#define PHY_ANER_NPABLE         0x0004  /* Local port supports next page */
#define PHY_ANER_PAGERX         0x0002  /* Page received */
#define PHY_ANER_LPAUTONEG      0x0001  /* Link partner can auto-negotiate */

#endif /* DEV_XE_IF_XEREG_H */