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

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

703 lines
29 KiB
C

/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* 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 $
* $FreeBSD$
*/
#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_TX_RESGRANT 0x08 /* Tx reservation granted (CE2) */
#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_IMR1 bits */
#define XE_IMR1_TX_UNDERRUN 0x01
/* 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 written 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 /* 0 = Power down analog section */
#define XE_GPR1_AIC 0x04 /* AIC bit (CE2 only) */
/* 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_MP 0x01 /* Multicast packet? (CE2 only) */
#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_SRC_INSERT 0x20 /* Disable source insertion (CE2) */
#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 Advertisement 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 */