freebsd-nq/sys/dev/lmc/if_lmc.h
Gleb Smirnoff 8d864935b6 Run through unifdef(1) with slight hand-editing after. It is obvious,
that the driver is not going to be ever improved in terms of hardware
support, it is going to be only maintained as our kernel APIs change.
Carrying all the compatibility with ancient versions of NetBSD, OpenBSD,
Linux and BSDI, as well as obsoleted FreeBSD versions has no reason.
2014-09-25 06:47:38 +00:00

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/*
* $FreeBSD$
*
* Copyright (c) 2002-2004 David Boggs. (boggs@boggs.palo-alto.ca.us)
* All rights reserved.
*
* BSD License:
*
* 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.
*
* GNU General Public License:
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 2 of the License, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc., 59
* Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef IF_LMC_H
#define IF_LMC_H
#define DEVICE_NAME "lmc"
/* Linux RPM-style version information */
#define DRIVER_MAJOR_VERSION 2005 /* year */
#define DRIVER_MINOR_VERSION 9 /* month */
#define DRIVER_SUB_VERSION 29 /* day */
/* netgraph stuff */
#define NG_LMC_NODE_TYPE DEVICE_NAME
#define NGM_LMC_COOKIE 1128054761 /* date -u +'%s' */
/* Tulip PCI configuration registers */
#define TLP_CFID 0x00 /* 0: CFg ID register */
#define TLP_CFCS 0x04 /* 1: CFg Command/Status */
#define TLP_CFRV 0x08 /* 2: CFg ReVision */
#define TLP_CFLT 0x0C /* 3: CFg Latency Timer */
#define TLP_CBIO 0x10 /* 4: Cfg Base IO address */
#define TLP_CBMA 0x14 /* 5: Cfg Base Mem Addr */
#define TLP_CSID 0x2C /* 11: Cfg Subsys ID reg */
#define TLP_CFIT 0x3C /* 15: CFg InTerrupt */
#define TLP_CFDD 0x40 /* 16: CFg Driver Data */
#define TLP_CFID_TULIP 0x00091011 /* DEC 21140A Ethernet chip */
#define TLP_CFCS_MSTR_ABORT 0x20000000
#define TLP_CFCS_TARG_ABORT 0x10000000
#define TLP_CFCS_SYS_ERROR 0x00000100
#define TLP_CFCS_PAR_ERROR 0x00000040
#define TLP_CFCS_MWI_ENABLE 0x00000010
#define TLP_CFCS_BUS_MASTER 0x00000004
#define TLP_CFCS_MEM_ENABLE 0x00000002
#define TLP_CFCS_IO_ENABLE 0x00000001
#define TLP_CFLT_LATENCY 0x0000FF00
#define TLP_CFLT_CACHE 0x000000FF
#define TLP_CSID_HSSI 0x00031376 /* LMC 5200 HSSI card */
#define TLP_CSID_T3 0x00041376 /* LMC 5245 T3 card */
#define TLP_CSID_SSI 0x00051376 /* LMC 1000 SSI card */
#define TLP_CSID_T1E1 0x00061376 /* LMC 1200 T1E1 card */
#define TLP_CSID_HSSIc 0x00071376 /* LMC 5200 HSSI cPCI */
#define TLP_CSID_SDSL 0x00081376 /* LMC 1168 SDSL card */
#define TLP_CFIT_MAX_LAT 0xFF000000
#define TLP_CFDD_SLEEP 0x80000000
#define TLP_CFDD_SNOOZE 0x40000000
/* Tulip Control and Status Registers */
#define TLP_CSR_STRIDE 8 /* 64 bits */
#define TLP_BUS_MODE 0 * TLP_CSR_STRIDE
#define TLP_TX_POLL 1 * TLP_CSR_STRIDE
#define TLP_RX_POLL 2 * TLP_CSR_STRIDE
#define TLP_RX_LIST 3 * TLP_CSR_STRIDE
#define TLP_TX_LIST 4 * TLP_CSR_STRIDE
#define TLP_STATUS 5 * TLP_CSR_STRIDE
#define TLP_OP_MODE 6 * TLP_CSR_STRIDE
#define TLP_INT_ENBL 7 * TLP_CSR_STRIDE
#define TLP_MISSED 8 * TLP_CSR_STRIDE
#define TLP_SROM_MII 9 * TLP_CSR_STRIDE
#define TLP_BIOS_ROM 10 * TLP_CSR_STRIDE
#define TLP_TIMER 11 * TLP_CSR_STRIDE
#define TLP_GPIO 12 * TLP_CSR_STRIDE
#define TLP_CSR13 13 * TLP_CSR_STRIDE
#define TLP_CSR14 14 * TLP_CSR_STRIDE
#define TLP_WDOG 15 * TLP_CSR_STRIDE
#define TLP_CSR_SIZE 128 /* IO bus space size */
/* CSR 0 - PCI Bus Mode Register */
#define TLP_BUS_WRITE_INVAL 0x01000000 /* DONT USE! */
#define TLP_BUS_READ_LINE 0x00800000
#define TLP_BUS_READ_MULT 0x00200000
#define TLP_BUS_DESC_BIGEND 0x00100000
#define TLP_BUS_TAP 0x000E0000
#define TLP_BUS_CAL 0x0000C000
#define TLP_BUS_PBL 0x00003F00
#define TLP_BUS_DATA_BIGEND 0x00000080
#define TLP_BUS_DSL 0x0000007C
#define TLP_BUS_ARB 0x00000002
#define TLP_BUS_RESET 0x00000001
#define TLP_BUS_CAL_SHIFT 14
#define TLP_BUS_PBL_SHIFT 8
/* CSR 5 - Status Register */
#define TLP_STAT_FATAL_BITS 0x03800000
#define TLP_STAT_TX_FSM 0x00700000
#define TLP_STAT_RX_FSM 0x000E0000
#define TLP_STAT_FATAL_ERROR 0x00002000
#define TLP_STAT_TX_UNDERRUN 0x00000020
#define TLP_STAT_FATAL_SHIFT 23
/* CSR 6 - Operating Mode Register */
#define TLP_OP_RECEIVE_ALL 0x40000000
#define TLP_OP_MUST_BE_ONE 0x02000000
#define TLP_OP_NO_HEART_BEAT 0x00080000
#define TLP_OP_PORT_SELECT 0x00040000
#define TLP_OP_TX_THRESH 0x0000C000
#define TLP_OP_TX_RUN 0x00002000
#define TLP_OP_LOOP_MODE 0x00000C00
#define TLP_OP_EXT_LOOP 0x00000800
#define TLP_OP_INT_LOOP 0x00000400
#define TLP_OP_FULL_DUPLEX 0x00000200
#define TLP_OP_PROMISCUOUS 0x00000040
#define TLP_OP_PASS_BAD_PKT 0x00000008
#define TLP_OP_RX_RUN 0x00000002
#define TLP_OP_TR_SHIFT 14
#define TLP_OP_INIT (TLP_OP_PORT_SELECT | \
TLP_OP_FULL_DUPLEX | \
TLP_OP_MUST_BE_ONE | \
TLP_OP_NO_HEART_BEAT | \
TLP_OP_RECEIVE_ALL | \
TLP_OP_PROMISCUOUS | \
TLP_OP_PASS_BAD_PKT | \
TLP_OP_RX_RUN | \
TLP_OP_TX_RUN)
/* CSR 7 - Interrupt Enable Register */
#define TLP_INT_NORMAL_INTR 0x00010000
#define TLP_INT_ABNRML_INTR 0x00008000
#define TLP_INT_FATAL_ERROR 0x00002000
#define TLP_INT_RX_NO_BUFS 0x00000080
#define TLP_INT_RX_INTR 0x00000040
#define TLP_INT_TX_UNDERRUN 0x00000020
#define TLP_INT_TX_INTR 0x00000001
#define TLP_INT_DISABLE 0
#define TLP_INT_TX (TLP_INT_NORMAL_INTR | \
TLP_INT_ABNRML_INTR | \
TLP_INT_FATAL_ERROR | \
TLP_INT_TX_UNDERRUN | \
TLP_INT_TX_INTR)
#define TLP_INT_RX (TLP_INT_NORMAL_INTR | \
TLP_INT_ABNRML_INTR | \
TLP_INT_FATAL_ERROR | \
TLP_INT_RX_NO_BUFS | \
TLP_INT_RX_INTR)
#define TLP_INT_TXRX (TLP_INT_TX | TLP_INT_RX)
/* CSR 8 - RX Missed Frames & Overrun Register */
#define TLP_MISS_OCO 0x10000000
#define TLP_MISS_OVERRUN 0x0FFE0000
#define TLP_MISS_MFO 0x00010000
#define TLP_MISS_MISSED 0x0000FFFF
#define TLP_OVERRUN_SHIFT 17
/* CSR 9 - SROM & MII & Boot ROM Register */
#define TLP_MII_MDIN 0x00080000
#define TLP_MII_MDOE 0x00040000
#define TLP_MII_MDOUT 0x00020000
#define TLP_MII_MDC 0x00010000
#define TLP_BIOS_RD 0x00004000
#define TLP_BIOS_WR 0x00002000
#define TLP_BIOS_SEL 0x00001000
#define TLP_SROM_RD 0x00004000
#define TLP_SROM_SEL 0x00000800
#define TLP_SROM_DOUT 0x00000008
#define TLP_SROM_DIN 0x00000004
#define TLP_SROM_CLK 0x00000002
#define TLP_SROM_CS 0x00000001
/* CSR 12 - General Purpose IO register */
#define TLP_GPIO_DIR 0x00000100
/* CSR 15 - Watchdog Timer Register */
#define TLP_WDOG_RX_OFF 0x00000010
#define TLP_WDOG_TX_OFF 0x00000001
#define TLP_WDOG_INIT (TLP_WDOG_TX_OFF | \
TLP_WDOG_RX_OFF)
/* GPIO bits common to all cards */
#define GPIO_INIT 0x01 /* from Xilinx */
#define GPIO_RESET 0x02 /* to Xilinx */
/* bits 2 and 3 vary with board type -- see below */
#define GPIO_MODE 0x10 /* to Xilinx */
#define GPIO_DP 0x20 /* to/from Xilinx */
#define GPIO_DATA 0x40 /* serial data */
#define GPIO_CLK 0x80 /* serial clock */
/* HSSI GPIO bits */
#define GPIO_HSSI_ST 0x04 /* send timing sense (deprecated) */
#define GPIO_HSSI_TXCLK 0x08 /* clock source */
/* HSSIc GPIO bits */
#define GPIO_HSSI_SYNTH 0x04 /* Synth osc chip select */
#define GPIO_HSSI_DCE 0x08 /* provide clock on TXCLOCK output */
/* T3 GPIO bits */
#define GPIO_T3_DAC 0x04 /* DAC chip select */
#define GPIO_T3_INTEN 0x08 /* Framer Interupt enable */
/* SSI GPIO bits */
#define GPIO_SSI_SYNTH 0x04 /* Synth osc chip select */
#define GPIO_SSI_DCE 0x08 /* provide clock on TXCLOCK output */
/* T1E1 GPIO bits */
#define GPIO_T1_INTEN 0x08 /* Framer Interupt enable */
/* MII register 16 bits common to all cards */
/* NB: LEDs for HSSI & SSI are in DIFFERENT bits than for T1E1 & T3; oops */
/* NB: CRC32 for HSSI & SSI is in DIFFERENT bit than for T1E1 & T3; oops */
#define MII16_LED_ALL 0x0780 /* RW: LED bit mask */
#define MII16_FIFO 0x0800 /* RW: 1=reset, 0=not reset */
/* MII register 16 bits for HSSI */
#define MII16_HSSI_TA 0x0001 /* RW: host ready; host->modem */
#define MII16_HSSI_CA 0x0002 /* RO: modem ready; modem->host */
#define MII16_HSSI_LA 0x0004 /* RW: loopback A; host->modem */
#define MII16_HSSI_LB 0x0008 /* RW: loopback B; host->modem */
#define MII16_HSSI_LC 0x0010 /* RO: loopback C; modem->host */
#define MII16_HSSI_TM 0x0020 /* RO: test mode; modem->host */
#define MII16_HSSI_CRC32 0x0040 /* RW: CRC length 16/32 */
#define MII16_HSSI_LED_LL 0x0080 /* RW: lower left - green */
#define MII16_HSSI_LED_LR 0x0100 /* RW: lower right - green */
#define MII16_HSSI_LED_UL 0x0200 /* RW: upper left - green */
#define MII16_HSSI_LED_UR 0x0400 /* RW: upper right - red */
#define MII16_HSSI_FIFO 0x0800 /* RW: reset fifos */
#define MII16_HSSI_FORCECA 0x1000 /* RW: [cPCI] force CA on */
#define MII16_HSSI_CLKMUX 0x6000 /* RW: [cPCI] TX clock selection */
#define MII16_HSSI_LOOP 0x8000 /* RW: [cPCI] LOOP TX into RX */
#define MII16_HSSI_MODEM 0x003F /* TA+CA+LA+LB+LC+TM */
/* MII register 16 bits for DS3 */
#define MII16_DS3_ZERO 0x0001 /* RW: short/long cables */
#define MII16_DS3_TRLBK 0x0002 /* RW: loop towards host */
#define MII16_DS3_LNLBK 0x0004 /* RW: loop towards net */
#define MII16_DS3_RAIS 0x0008 /* RO: LIU receive AIS (depr) */
#define MII16_DS3_TAIS 0x0010 /* RW: LIU transmit AIS (depr) */
#define MII16_DS3_BIST 0x0020 /* RO: LIU QRSS patt match (depr) */
#define MII16_DS3_DLOS 0x0040 /* RO: LIU Digital LOS (depr) */
#define MII16_DS3_LED_BLU 0x0080 /* RW: lower right - blue */
#define MII16_DS3_LED_YEL 0x0100 /* RW: lower left - yellow */
#define MII16_DS3_LED_RED 0x0200 /* RW: upper right - red */
#define MII16_DS3_LED_GRN 0x0400 /* RW: upper left - green */
#define MII16_DS3_FIFO 0x0800 /* RW: reset fifos */
#define MII16_DS3_CRC32 0x1000 /* RW: CRC length 16/32 */
#define MII16_DS3_SCRAM 0x2000 /* RW: payload scrambler */
#define MII16_DS3_POLY 0x4000 /* RW: 1=Larse, 0=DigLink|Kentrox */
#define MII16_DS3_FRAME 0x8000 /* RW: 1=stop txframe pulses */
/* MII register 16 bits for SSI */
#define MII16_SSI_DTR 0x0001 /* RW: DTR host->modem */
#define MII16_SSI_DSR 0x0002 /* RO: DSR modem->host */
#define MII16_SSI_RTS 0x0004 /* RW: RTS host->modem */
#define MII16_SSI_CTS 0x0008 /* RO: CTS modem->host */
#define MII16_SSI_DCD 0x0010 /* RW: DCD modem<->host */
#define MII16_SSI_RI 0x0020 /* RO: RI modem->host */
#define MII16_SSI_CRC32 0x0040 /* RW: CRC length 16/32 */
#define MII16_SSI_LED_LL 0x0080 /* RW: lower left - green */
#define MII16_SSI_LED_LR 0x0100 /* RW: lower right - green */
#define MII16_SSI_LED_UL 0x0200 /* RW: upper left - green */
#define MII16_SSI_LED_UR 0x0400 /* RW: upper right - red */
#define MII16_SSI_FIFO 0x0800 /* RW: reset fifos */
#define MII16_SSI_LL 0x1000 /* RW: LL: host->modem */
#define MII16_SSI_RL 0x2000 /* RW: RL: host->modem */
#define MII16_SSI_TM 0x4000 /* RO: TM: modem->host */
#define MII16_SSI_LOOP 0x8000 /* RW: Loop at ext conn */
#define MII16_SSI_MODEM 0x703F /* DTR+DSR+RTS+CTS+DCD+RI+LL+RL+TM */
/* Mii register 17 has the SSI cable bits */
#define MII17_SSI_CABLE_SHIFT 3 /* shift to get cable type */
#define MII17_SSI_CABLE_MASK 0x0038 /* RO: mask to get cable type */
#define MII17_SSI_PRESCALE 0x0040 /* RW: divide by: 0=16; 1=512 */
#define MII17_SSI_ITF 0x0100 /* RW: fill with: 0=flags; 1=ones */
#define MII17_SSI_NRZI 0x0400 /* RW: coding: NRZ= 0; NRZI=1 */
/* MII register 16 bits for T1/E1 */
#define MII16_T1_UNUSED1 0x0001
#define MII16_T1_INVERT 0x0002 /* RW: invert data (for SF/AMI) */
#define MII16_T1_XOE 0x0004 /* RW: TX Output Enable; 0=disable */
#define MII16_T1_RST 0x0008 /* RW: Bt8370 chip reset */
#define MII16_T1_Z 0x0010 /* RW: output impedance T1=1 E1=0 */
#define MII16_T1_INTR 0x0020 /* RO: interrupt from Bt8370 */
#define MII16_T1_ONESEC 0x0040 /* RO: one second square wave */
#define MII16_T1_LED_BLU 0x0080 /* RW: lower right - blue */
#define MII16_T1_LED_YEL 0x0100 /* RW: lower left - yellow */
#define MII16_T1_LED_RED 0x0200 /* RW: upper right - red */
#define MII16_T1_LED_GRN 0x0400 /* RW: upper left - green */
#define MII16_T1_FIFO 0x0800 /* RW: reset fifos */
#define MII16_T1_CRC32 0x1000 /* RW: CRC length 16/32 */
#define MII16_T1_UNUSED2 0xE000
/* T3 framer: RW=Read/Write; RO=Read-Only; RC=Read/Clr; WO=Write-Only */
#define T3CSR_STAT0 0x00 /* RO: real-time status */
#define T3CSR_CTL1 0x01 /* RW: global control bits */
#define T3CSR_FEBE 0x02 /* RC: Far End Block Error Counter */
#define T3CSR_CERR 0x03 /* RC: C-bit Parity Error Counter */
#define T3CSR_PERR 0x04 /* RC: P-bit Parity Error Counter */
#define T3CSR_TX_FEAC 0x05 /* RW: Far End Alarm & Control */
#define T3CSR_RX_FEAC 0x06 /* RO: Far End Alarm & Control */
#define T3CSR_STAT7 0x07 /* RL: latched real-time status */
#define T3CSR_CTL8 0x08 /* RW: extended global ctl bits */
#define T3CSR_STAT9 0x09 /* RL: extended status bits */
#define T3CSR_FERR 0x0A /* RC: F-bit Error Counter */
#define T3CSR_MERR 0x0B /* RC: M-bit Error Counter */
#define T3CSR_CTL12 0x0C /* RW: more extended ctl bits */
#define T3CSR_DBL_FEAC 0x0D /* RW: TX double FEAC */
#define T3CSR_CTL14 0x0E /* RW: even more extended ctl bits */
#define T3CSR_FEAC_STK 0x0F /* RO: RX FEAC stack */
#define T3CSR_STAT16 0x10 /* RL: extended latched status */
#define T3CSR_INTEN 0x11 /* RW: interrupt enable */
#define T3CSR_CVLO 0x12 /* RC: coding violation cntr LSB */
#define T3CSR_CVHI 0x13 /* RC: coding violation cntr MSB */
#define T3CSR_CTL20 0x14 /* RW: yet more extended ctl bits */
#define CTL1_XTX 0x01 /* Transmit X-bit value */
#define CTL1_3LOOP 0x02 /* framer loop back */
#define CTL1_SER 0x04 /* SERial interface selected */
#define CTL1_M13MODE 0x08 /* M13 frame format */
#define CTL1_TXIDL 0x10 /* Transmit Idle signal */
#define CTL1_ENAIS 0x20 /* Enable AIS upon LOS */
#define CTL1_TXAIS 0x40 /* Transmit Alarm Indication Sig */
#define CTL1_NOFEBE 0x80 /* No Far End Block Errors */
#define CTL5_EMODE 0x80 /* rev B Extended features enabled */
#define CTL5_START 0x40 /* transmit the FEAC msg now */
#define CTL8_FBEC 0x80 /* F-Bit Error Count control */
#define CTL8_TBLU 0x20 /* Transmit Blue signal */
#define STAT9_SEF 0x80 /* Severely Errored Frame */
#define STAT9_RBLU 0x20 /* Receive Blue signal */
#define CTL12_RTPLLEN 0x80 /* Rx-to-Tx Payload Lpbk Lock ENbl */
#define CTL12_RTPLOOP 0x40 /* Rx-to-Tx Payload Loopback */
#define CTL12_DLCB1 0x08 /* Data Link C-Bits forced to 1 */
#define CTL12_C21 0x04 /* C2 forced to 1 */
#define CTL12_MCB1 0x02 /* Most C-Bits forced to 1 */
#define CTL13_DFEXEC 0x40 /* Execute Double FEAC */
#define CTL14_FEAC10 0x80 /* Transmit FEAC word 10 times */
#define CTL14_RGCEN 0x20 /* Receive Gapped Clock Out Enbl */
#define CTL14_TGCEN 0x10 /* Timing Gen Gapped Clk Out Enbl */
#define FEAC_STK_MORE 0x80 /* FEAC stack has more FEACs */
#define FEAC_STK_VALID 0x40 /* FEAC stack is valid */
#define FEAC_STK_FEAC 0x3F /* FEAC stack FEAC data */
#define STAT16_XERR 0x01 /* X-bit Error */
#define STAT16_SEF 0x02 /* Severely Errored Frame */
#define STAT16_RTLOC 0x04 /* Rx/Tx Loss Of Clock */
#define STAT16_FEAC 0x08 /* new FEAC msg */
#define STAT16_RIDL 0x10 /* channel IDLe signal */
#define STAT16_RAIS 0x20 /* Alarm Indication Signal */
#define STAT16_ROOF 0x40 /* Out Of Frame sync */
#define STAT16_RLOS 0x80 /* Loss Of Signal */
#define CTL20_CVEN 0x01 /* Coding Violation Counter Enbl */
/* T1.107 Bit Oriented C-Bit Parity Far End Alarm Control and Status codes */
#define T3BOP_OOF 0x00 /* Yellow alarm status */
#define T3BOP_LINE_UP 0x07 /* line loopback activate */
#define T3BOP_LINE_DOWN 0x1C /* line loopback deactivate */
#define T3BOP_LOOP_DS3 0x1B /* loopback full DS3 */
#define T3BOP_IDLE 0x1A /* IDLE alarm status */
#define T3BOP_AIS 0x16 /* AIS alarm status */
#define T3BOP_LOS 0x0E /* LOS alarm status */
/* T1E1 regs; RW=Read/Write; RO=Read-Only; RC=Read/Clr; WO=Write-Only */
#define Bt8370_DID 0x000 /* RO: Device ID */
#define Bt8370_CR0 0x001 /* RW; Primary Control Register */
#define Bt8370_JAT_CR 0x002 /* RW: Jitter Attenuator CR */
#define Bt8370_IRR 0x003 /* RO: Interrupt Request Reg */
#define Bt8370_ISR7 0x004 /* RC: Alarm 1 Interrupt Status */
#define Bt8370_ISR6 0x005 /* RC: Alarm 2 Interrupt Status */
#define Bt8370_ISR5 0x006 /* RC: Error Interrupt Status */
#define Bt8370_ISR4 0x007 /* RC; Cntr Ovfl Interrupt Status */
#define Bt8370_ISR3 0x008 /* RC: Timer Interrupt Status */
#define Bt8370_ISR2 0x009 /* RC: Data Link 1 Int Status */
#define Bt8370_ISR1 0x00A /* RC: Data Link 2 Int Status */
#define Bt8370_ISR0 0x00B /* RC: Pattrn Interrupt Status */
#define Bt8370_IER7 0x00C /* RW: Alarm 1 Interrupt Enable */
#define Bt8370_IER6 0x00D /* RW: Alarm 2 Interrupt Enable */
#define Bt8370_IER5 0x00E /* RW: Error Interrupt Enable */
#define Bt8370_IER4 0x00F /* RW: Cntr Ovfl Interrupt Enable */
#define Bt8370_IER3 0x010 /* RW: Timer Interrupt Enable */
#define Bt8370_IER2 0x011 /* RW: Data Link 1 Int Enable */
#define Bt8370_IER1 0x012 /* RW: Data Link 2 Int Enable */
#define Bt8370_IER0 0x013 /* RW: Pattern Interrupt Enable */
#define Bt8370_LOOP 0x014 /* RW: Loopback Config Reg */
#define Bt8370_DL3_TS 0x015 /* RW: External Data Link Channel */
#define Bt8370_DL3_BIT 0x016 /* RW: External Data Link Bit */
#define Bt8370_FSTAT 0x017 /* RO: Offline Framer Status */
#define Bt8370_PIO 0x018 /* RW: Programmable Input/Output */
#define Bt8370_POE 0x019 /* RW: Programmable Output Enable */
#define Bt8370_CMUX 0x01A /* RW: Clock Input Mux */
#define Bt8370_TMUX 0x01B /* RW: Test Mux Config */
#define Bt8370_TEST 0x01C /* RW: Test Config */
#define Bt8370_LIU_CR 0x020 /* RW: Line Intf Unit Config Reg */
#define Bt8370_RSTAT 0x021 /* RO; Receive LIU Status */
#define Bt8370_RLIU_CR 0x022 /* RW: Receive LIU Config */
#define Bt8370_LPF 0x023 /* RW: RPLL Low Pass Filter */
#define Bt8370_VGA_MAX 0x024 /* RW: Variable Gain Amplifier Max */
#define Bt8370_EQ_DAT 0x025 /* RW: Equalizer Coeff Data Reg */
#define Bt8370_EQ_PTR 0x026 /* RW: Equzlizer Coeff Table Ptr */
#define Bt8370_DSLICE 0x027 /* RW: Data Slicer Threshold */
#define Bt8370_EQ_OUT 0x028 /* RW: Equalizer Output Levels */
#define Bt8370_VGA 0x029 /* RO: Variable Gain Ampl Status */
#define Bt8370_PRE_EQ 0x02A /* RW: Pre-Equalizer */
#define Bt8370_COEFF0 0x030 /* RO: LMS Adj Eq Coeff Status */
#define Bt8370_GAIN0 0x038 /* RW: Equalizer Gain Thresh */
#define Bt8370_GAIN1 0x039 /* RW: Equalizer Gain Thresh */
#define Bt8370_GAIN2 0x03A /* RW: Equalizer Gain Thresh */
#define Bt8370_GAIN3 0x03B /* RW: Equalizer Gain Thresh */
#define Bt8370_GAIN4 0x03C /* RW: Equalizer Gain Thresh */
#define Bt8370_RCR0 0x040 /* RW: Rx Configuration */
#define Bt8370_RPATT 0x041 /* RW: Rx Test Pattern Config */
#define Bt8370_RLB 0x042 /* RW: Rx Loopback Code Detr Conf */
#define Bt8370_LBA 0x043 /* RW: Loopback Activate Code Patt */
#define Bt8370_LBD 0x044 /* RW: Loopback Deact Code Patt */
#define Bt8370_RALM 0x045 /* RW: Rx Alarm Signal Config */
#define Bt8370_LATCH 0x046 /* RW: Alarm/Err/Cntr Latch Config */
#define Bt8370_ALM1 0x047 /* RO: Alarm 1 Status */
#define Bt8370_ALM2 0x048 /* RO: Alarm 2 Status */
#define Bt8370_ALM3 0x049 /* RO: Alarm 3 Status */
#define Bt8370_FERR_LO 0x050 /* RC: Framing Bit Error Cntr LSB */
#define Bt8370_FERR_HI 0x051 /* RC: Framing Bit Error Cntr MSB */
#define Bt8370_CRC_LO 0x052 /* RC: CRC Error Counter LSB */
#define Bt8370_CRC_HI 0x053 /* RC: CRC Error Counter MSB */
#define Bt8370_LCV_LO 0x054 /* RC: Line Code Viol Counter LSB */
#define Bt8370_LCV_HI 0x055 /* RC: Line Code Viol Counter MSB */
#define Bt8370_FEBE_LO 0x056 /* RC: Far End Block Err Cntr LSB */
#define Bt8370_FEBE_HI 0x057 /* RC: Far End Block Err Cntr MSB */
#define Bt8370_BERR_LO 0x058 /* RC: PRBS Bit Error Counter LSB */
#define Bt8370_BERR_HI 0x059 /* RC: PRBS Bit Error Counter MSB */
#define Bt8370_AERR 0x05A /* RC: SEF/LOF/COFA counter */
#define Bt8370_RSA4 0x05B /* RO: Rx Sa4 Byte Buffer */
#define Bt8370_RSA5 0x05C /* RO: Rx Sa5 Byte Buffer */
#define Bt8370_RSA6 0x05D /* RO: Rx Sa6 Byte Buffer */
#define Bt8370_RSA7 0x05E /* RO: Rx Sa7 Byte Buffer */
#define Bt8370_RSA8 0x05F /* RO: Rx Sa8 Byte Buffer */
#define Bt8370_SHAPE0 0x060 /* RW: Tx Pulse Shape Config */
#define Bt8370_TLIU_CR 0x068 /* RW: Tx LIU Config Reg */
#define Bt8370_TCR0 0x070 /* RW: Tx Framer Config */
#define Bt8370_TCR1 0x071 /* RW: Txter Configuration */
#define Bt8370_TFRM 0x072 /* RW: Tx Frame Format */
#define Bt8370_TERROR 0x073 /* RW: Tx Error Insert */
#define Bt8370_TMAN 0x074 /* RW: Tx Manual Sa/FEBE Config */
#define Bt8370_TALM 0x075 /* RW: Tx Alarm Signal Config */
#define Bt8370_TPATT 0x076 /* RW: Tx Test Pattern Config */
#define Bt8370_TLB 0x077 /* RW: Tx Inband Loopback Config */
#define Bt8370_LBP 0x078 /* RW: Tx Inband Loopback Patt */
#define Bt8370_TSA4 0x07B /* RW: Tx Sa4 Byte Buffer */
#define Bt8370_TSA5 0x07C /* RW: Tx Sa5 Byte Buffer */
#define Bt8370_TSA6 0x07D /* RW: Tx Sa6 Byte Buffer */
#define Bt8370_TSA7 0x07E /* RW: Tx Sa7 Byte Buffer */
#define Bt8370_TSA8 0x07F /* RW: Tx Sa8 Byte Buffer */
#define Bt8370_CLAD_CR 0x090 /* RW: Clock Rate Adapter Config */
#define Bt8370_CSEL 0x091 /* RW: CLAD Frequency Select */
#define Bt8370_CPHASE 0x092 /* RW: CLAD Phase Det Scale Factor */
#define Bt8370_CTEST 0x093 /* RW: CLAD Test */
#define Bt8370_BOP 0x0A0 /* RW: Bit Oriented Protocol Xcvr */
#define Bt8370_TBOP 0x0A1 /* RW: Tx BOP Codeword */
#define Bt8370_RBOP 0x0A2 /* RO; Rx BOP Codeword */
#define Bt8370_BOP_STAT 0x0A3 /* RO: BOP Status */
#define Bt8370_DL1_TS 0x0A4 /* RW: DL1 Time Slot Enable */
#define Bt8370_DL1_BIT 0x0A5 /* RW: DL1 Bit Enable */
#define Bt8370_DL1_CTL 0x0A6 /* RW: DL1 Control */
#define Bt8370_RDL1_FFC 0x0A7 /* RW: RDL1 FIFO Fill Control */
#define Bt8370_RDL1 0x0A8 /* RO: RDL1 FIFO */
#define Bt8370_RDL1_STAT 0x0A9 /* RO: RDL1 Status */
#define Bt8370_PRM 0x0AA /* RW: Performance Report Message */
#define Bt8370_TDL1_FEC 0x0AB /* RW: TDL1 FIFO Empty Control */
#define Bt8370_TDL1_EOM 0x0AC /* WO: TDL1 End Of Message Control */
#define Bt8370_TDL1 0x0AD /* RW: TDL1 FIFO */
#define Bt8370_TDL1_STAT 0x0AE /* RO: TDL1 Status */
#define Bt8370_DL2_TS 0x0AF /* RW: DL2 Time Slot Enable */
#define Bt8370_DL2_BIT 0x0B0 /* RW: DL2 Bit Enable */
#define Bt8370_DL2_CTL 0x0B1 /* RW: DL2 Control */
#define Bt8370_RDL2_FFC 0x0B2 /* RW: RDL2 FIFO Fill Control */
#define Bt8370_RDL2 0x0B3 /* RO: RDL2 FIFO */
#define Bt8370_RDL2_STAT 0x0B4 /* RO: RDL2 Status */
#define Bt8370_TDL2_FEC 0x0B6 /* RW: TDL2 FIFO Empty Control */
#define Bt8370_TDL2_EOM 0x0B7 /* WO; TDL2 End Of Message Control */
#define Bt8370_TDL2 0x0B8 /* RW: TDL2 FIFO */
#define Bt8370_TDL2_STAT 0x0B9 /* RO: TDL2 Status */
#define Bt8370_DL_TEST1 0x0BA /* RW: DLINK Test Config */
#define Bt8370_DL_TEST2 0x0BB /* RW: DLINK Test Status */
#define Bt8370_DL_TEST3 0x0BC /* RW: DLINK Test Status */
#define Bt8370_DL_TEST4 0x0BD /* RW: DLINK Test Control */
#define Bt8370_DL_TEST5 0x0BE /* RW: DLINK Test Control */
#define Bt8370_SBI_CR 0x0D0 /* RW: System Bus Interface Config */
#define Bt8370_RSB_CR 0x0D1 /* RW: Rx System Bus Config */
#define Bt8370_RSYNC_BIT 0x0D2 /* RW: Rx System Bus Sync Bit Offs */
#define Bt8370_RSYNC_TS 0x0D3 /* RW: Rx System Bus Sync TS Offs */
#define Bt8370_TSB_CR 0x0D4 /* RW: Tx System Bus Config */
#define Bt8370_TSYNC_BIT 0x0D5 /* RW: Tx System Bus Sync Bit OFfs */
#define Bt8370_TSYNC_TS 0x0D6 /* RW: Tx System Bus Sync TS Offs */
#define Bt8370_RSIG_CR 0x0D7 /* RW: Rx Siganalling Config */
#define Bt8370_RSYNC_FRM 0x0D8 /* RW: Sig Reinsertion Frame Offs */
#define Bt8370_SSTAT 0x0D9 /* RO: Slip Buffer Status */
#define Bt8370_STACK 0x0DA /* RO: Rx Signalling Stack */
#define Bt8370_RPHASE 0x0DB /* RO: RSLIP Phase Status */
#define Bt8370_TPHASE 0x0DC /* RO: TSLIP Phase Status */
#define Bt8370_PERR 0x0DD /* RO: RAM Parity Status */
#define Bt8370_SBCn 0x0E0 /* RW: System Bus Per-Channel Ctl */
#define Bt8370_TPCn 0x100 /* RW: Tx Per-Channel Control */
#define Bt8370_TSIGn 0x120 /* RW: Tx Signalling Buffer */
#define Bt8370_TSLIP_LOn 0x140 /* RW: Tx PCM Slip Buffer Lo */
#define Bt8370_TSLIP_HIn 0x160 /* RW: Tx PCM Slip Buffer Hi */
#define Bt8370_RPCn 0x180 /* RW: Rx Per-Channel Control */
#define Bt8370_RSIGn 0x1A0 /* RW: Rx Signalling Buffer */
#define Bt8370_RSLIP_LOn 0x1C0 /* RW: Rx PCM Slip Buffer Lo */
#define Bt8370_RSLIP_HIn 0x1E0 /* RW: Rx PCM Slip Buffer Hi */
/* Bt8370_LOOP (0x14) framer loopback control register bits */
#define LOOP_ANALOG 0x01 /* inward loop thru LIU */
#define LOOP_FRAMER 0x02 /* inward loop thru framer */
#define LOOP_LINE 0x04 /* outward loop thru LIU */
#define LOOP_PAYLOAD 0x08 /* outward loop of payload */
#define LOOP_DUAL 0x06 /* inward framer + outward line */
/* Bt8370_ALM1 (0x47) receiver alarm status register bits */
#define ALM1_SIGFRZ 0x01 /* Rx Signalling Freeze */
#define ALM1_RLOF 0x02 /* Rx loss of frame alignment */
#define ALM1_RLOS 0x04 /* Rx digital loss of signal */
#define ALM1_RALOS 0x08 /* Rx analog loss of signal */
#define ALM1_RAIS 0x10 /* Rx Alarm Indication Signal */
#define ALM1_RYEL 0x40 /* Rx Yellow alarm indication */
#define ALM1_RMYEL 0x80 /* Rx multiframe YELLOW alarm */
/* Bt8370_ALM3 (0x49) receive framer status register bits */
#define ALM3_FRED 0x04 /* Rx Out Of T1/FAS alignment */
#define ALM3_MRED 0x08 /* Rx Out Of MFAS alignment */
#define ALM3_SRED 0x10 /* Rx Out Of CAS alignment */
#define ALM3_SEF 0x20 /* Rx Severely Errored Frame */
#define ALM3_RMAIS 0x40 /* Rx TS16 AIS (CAS) */
/* Bt8370_TALM (0x75) transmit alarm control register bits */
#define TALM_TAIS 0x01 /* Tx Alarm Indication Signal */
#define TALM_TYEL 0x02 /* Tx Yellow alarm */
#define TALM_TMYEL 0x04 /* Tx Multiframe Yellow alarm */
#define TALM_AUTO_AIS 0x08 /* auto send AIS on LOS */
#define TALM_AUTO_YEL 0x10 /* auto send YEL on LOF */
#define TALM_AUTO_MYEL 0x20 /* auto send E1-Y16 on loss-of-CAS */
/* 8370 BOP (Bit Oriented Protocol) command fragments */
#define RBOP_OFF 0x00 /* BOP Rx disabled */
#define RBOP_25 0xE0 /* BOP Rx requires 25 BOPs */
#define TBOP_OFF 0x00 /* BOP Tx disabled */
#define TBOP_25 0x0B /* BOP Tx sends 25 BOPs */
#define TBOP_CONT 0x0F /* BOP Tx sends continuously */
/* T1.403 Bit-Oriented ESF Data-Link Message codes */
#define T1BOP_OOF 0x00 /* Yellow alarm status */
#define T1BOP_LINE_UP 0x07 /* line loopback activate */
#define T1BOP_LINE_DOWN 0x1C /* line loopback deactivate */
#define T1BOP_PAY_UP 0x0A /* payload loopback activate */
#define T1BOP_PAY_DOWN 0x19 /* payload loopback deactivate */
#define T1BOP_NET_UP 0x09 /* network loopback activate */
#define T1BOP_NET_DOWN 0x12 /* network loopback deactivate */
/* Unix & Linux reserve 16 device-private IOCTLs */
#if BSD
# define LMCIOCGSTAT _IOWR('i', 240, struct status)
# define LMCIOCGCFG _IOWR('i', 241, struct config)
# define LMCIOCSCFG _IOW('i', 242, struct config)
# define LMCIOCREAD _IOWR('i', 243, struct ioctl)
# define LMCIOCWRITE _IOW('i', 244, struct ioctl)
# define LMCIOCTL _IOWR('i', 245, struct ioctl)
#endif
struct iohdr /* all LMCIOCs begin with this */
{
char ifname[IFNAMSIZ]; /* interface name, e.g. "lmc0" */
u_int32_t cookie; /* interface version number */
u_int16_t direction; /* missing in Linux IOCTL */
u_int16_t length; /* missing in Linux IOCTL */
struct iohdr *iohdr; /* missing in Linux IOCTL */
u_int32_t spare; /* pad this struct to **32 bytes** */
};
#define DIR_IO 0
#define DIR_IOW 1 /* copy data user->kernel */
#define DIR_IOR 2 /* copy data kernel->user */
#define DIR_IOWR 3 /* copy data kernel<->user */
struct hssi_snmp
{
u_int16_t sigs; /* MII16_HSSI & MII16_HSSI_MODEM */
};
struct ssi_snmp
{
u_int16_t sigs; /* MII16_SSI & MII16_SSI_MODEM */
};
struct t3_snmp
{
u_int16_t febe; /* 8 bits - Far End Block err cnt */
u_int16_t lcv; /* 16 bits - BPV err cnt */
u_int16_t pcv; /* 8 bits - P-bit err cnt */
u_int16_t ccv; /* 8 bits - C-bit err cnt */
u_int16_t line; /* line status bit vector */
u_int16_t loop; /* loop status bit vector */
};
struct t1_snmp
{
u_int16_t prm[4]; /* T1.403 Performance Report Msg */
u_int16_t febe; /* 10 bits - E1 FAR CRC err cnt */
u_int16_t lcv; /* 16 bits - BPV + EXZ err cnt */
u_int16_t fe; /* 12 bits - Ft/Fs/FPS/FAS err cnt */
u_int16_t crc; /* 10 bits - CRC6/CRC4 err cnt */
u_int16_t line; /* line status bit vector */
u_int16_t loop; /* loop status bit vector */
};
/* SNMP trunk MIB Send codes */
#define TSEND_NORMAL 1 /* Send data (normal or looped) */
#define TSEND_LINE 2 /* Send 'line loopback activate' */
#define TSEND_PAYLOAD 3 /* Send 'payload loop activate' */
#define TSEND_RESET 4 /* Send 'loopback deactivate' */
#define TSEND_QRS 5 /* Send Quasi Random Signal */
/* ANSI T1.403 Performance Report Msg -- once a second from the far end */
#define T1PRM_FE 0x8000 /* Frame Sync Bit Error Event >= 1 */
#define T1PRM_SE 0x4000 /* Severely Err Framing Event >= 1 */
#define T1PRM_LB 0x2000 /* Payload Loopback Activated */
#define T1PRM_G1 0x1000 /* CRC Error Event = 1 */
#define T1PRM_R 0x0800 /* Reserved */
#define T1PRM_G2 0x0400 /* 1 < CRC Error Event <= 5 */
#define T1PRM_SEQ 0x0300 /* modulo 4 counter */
#define T1PRM_G3 0x0080 /* 5 < CRC Error Event <= 10 */
#define T1PRM_LV 0x0040 /* Line Code Violation Event >= 1 */
#define T1PRM_G4 0x0020 /* 10 < CRC Error Event <= 100 */
#define T1PRM_U 0x0018 /* Under study for synchronization */
#define T1PRM_G5 0x0004 /* 100 < CRC Error Event <= 319 */
#define T1PRM_SL 0x0002 /* Slip Event >= 1 */
#define T1PRM_G6 0x0001 /* CRC Error Event >= 320 */
/* SNMP Line Status */
#define TLINE_NORM 0x0001 /* no alarm present */
#define TLINE_RX_RAI 0x0002 /* receiving RAI = Yellow alarm */
#define TLINE_TX_RAI 0x0004 /* sending RAI = Yellow alarm */
#define TLINE_RX_AIS 0x0008 /* receiving AIS = blue alarm */
#define TLINE_TX_AIS 0x0010 /* sending AIS = blue alarm */
#define TLINE_LOF 0x0020 /* near end LOF = red alarm */
#define TLINE_LOS 0x0040 /* near end loss of Signal */
#define TLINE_LOOP 0x0080 /* near end is looped */
#define T1LINE_RX_TS16_AIS 0x0100 /* near end receiving TS16 AIS */
#define T1LINE_RX_TS16_LOMF 0x0200 /* near end sending TS16 LOMF */
#define T1LINE_TX_TS16_LOMF 0x0400 /* near end receiving TS16 LOMF */
#define T1LINE_RX_TEST 0x0800 /* near end receiving QRS Signal */
#define T1LINE_SEF 0x1000 /* near end severely errored frame */
#define T3LINE_RX_IDLE 0x0100 /* near end receiving IDLE signal */
#define T3LINE_SEF 0x0200 /* near end severely errored frame */
/* SNMP Loopback Status */
#define TLOOP_NONE 0x01 /* no loopback */
#define TLOOP_NEAR_PAYLOAD 0x02 /* near end payload loopback */
#define TLOOP_NEAR_LINE 0x04 /* near end line loopback */
#define TLOOP_NEAR_OTHER 0x08 /* near end looped somehow */
#define TLOOP_NEAR_INWARD 0x10 /* near end looped inward */
#define TLOOP_FAR_PAYLOAD 0x20 /* far end payload loopback */
#define TLOOP_FAR_LINE 0x40 /* far end line loopback */
/* event counters record interesting statistics */
struct event_cntrs
{
struct timeval reset_time; /* time when cntrs were reset */
u_int64_t ibytes; /* Rx bytes with good status */
u_int64_t obytes; /* Tx bytes */
u_int64_t ipackets; /* Rx packets with good status */
u_int64_t opackets; /* Tx packets */
u_int32_t ierrors; /* Rx packets with bad status */
u_int32_t oerrors; /* Tx packets with bad status */
u_int32_t idiscards; /* Rx packets discarded */
u_int32_t odiscards; /* Tx packets discarded */
u_int32_t fifo_over; /* Rx fifo overruns */
u_int32_t fifo_under; /* Tx fifo underruns */
u_int32_t missed; /* Rx pkts missed: no DMA descs */
u_int32_t overruns; /* Rx pkts missed: fifo overrun */
u_int32_t fdl_pkts; /* Rx T1 Facility Data Link pkts */
u_int32_t crc_errs; /* Rx T1 frame CRC errors */
u_int32_t lcv_errs; /* Rx T1 T3 Line Coding Violation */
u_int32_t frm_errs; /* Rx T1 T3 Frame bit errors */
u_int32_t febe_errs; /* Rx T1 T3 Far End Bit Errors */
u_int32_t par_errs; /* Rx T3 P-bit parity errors */
u_int32_t cpar_errs; /* Rx T3 C-bit parity errors */
u_int32_t mfrm_errs; /* Rx T3 Multi-frame bit errors */
u_int32_t rxdma; /* Rx out of kernel buffers */
u_int32_t txdma; /* Tx out of DMA desciptors */
u_int32_t lck_watch; /* try_lock conflict in watchdog */
u_int32_t lck_ioctl; /* try_lock conflict in ioctl */
u_int32_t lck_intr; /* try_lock conflict in interrupt */
};
/* sc->status is the READ ONLY status of the card. */
/* Accessed using socket IO control calls or netgraph control messages. */
struct status
{
struct iohdr iohdr; /* common ioctl header */
u_int32_t card_type; /* PCI device number */
u_int16_t ieee[3]; /* IEEE MAC-addr from Tulip SROM */
u_int16_t oper_status; /* actual state: up, down, test */
u_int32_t tx_speed; /* measured TX bits/sec */
u_int32_t cable_type; /* SSI only: cable type */
u_int32_t line_pkg; /* actual line pkg in use */
u_int32_t line_prot; /* actual line proto in use */
u_int32_t ticks; /* incremented by watchdog @ 1 Hz */
struct event_cntrs cntrs; /* event counters */
union
{
struct hssi_snmp hssi; /* data for RFC-???? HSSI MIB */
struct t3_snmp t3; /* data for RFC-2496 T3 MIB */
struct ssi_snmp ssi; /* data for RFC-1659 RS232 MIB */
struct t1_snmp t1; /* data for RFC-2495 T1 MIB */
} snmp;
};
/* line protocol package codes fnobl */
#define PKG_RAWIP 1 /* driver yyyyy */
#define PKG_SPPP 2 /* fbsd, nbsd, obsd yyynn */
#define PKG_P2P 3 /* bsd/os nnnyn */
#define PKG_NG 4 /* fbsd ynnnn */
#define PKG_GEN_HDLC 5 /* linux nnnny */
/* line protocol codes fnobl */
#define PROT_PPP 1 /* Point-to-Point Protocol yyyyy */
#define PROT_C_HDLC 2 /* Cisco HDLC Protocol yyyyy */
#define PROT_FRM_RLY 3 /* Frame Relay Protocol ynnyy */
#define PROT_X25 4 /* X.25/LAPB Protocol nnnny */
#define PROT_ETH_HDLC 5 /* raw Ether pkts in HDLC nnnny */
#define PROT_IP_HDLC 6 /* raw IP4/6 pkts in HDLC yyyyy */
/* oper_status codes (same as SNMP status codes) */
#define STATUS_UP 1 /* may/will tx/rx pkts */
#define STATUS_DOWN 2 /* can't/won't tx/rx pkts */
#define STATUS_TEST 3 /* currently not used */
struct synth /* programmable oscillator params */
{
unsigned n :7; /* numerator (3..127) */
unsigned m :7; /* denominator (3..127) */
unsigned v :1; /* mul by 1|8 */
unsigned x :2; /* div by 1|2|4|8 */
unsigned r :2; /* div by 1|2|4|8 */
unsigned prescale :13; /* log(final divisor): 2, 4 or 9 */
} __attribute__ ((packed));
#define SYNTH_FREF 20e6 /* reference xtal = 20 MHz */
#define SYNTH_FMIN 50e6 /* internal VCO min 50 MHz */
#define SYNTH_FMAX 250e6 /* internal VCO max 250 MHz */
/* sc->config is the READ/WRITE configuration of the card. */
/* Accessed using socket IO control calls or netgraph control messages. */
struct config
{
struct iohdr iohdr; /* common ioctl header */
u_int32_t crc_len; /* ALL: CRC-16 or CRC-32 or none */
u_int32_t loop_back; /* ALL: many kinds of loopbacks */
u_int32_t tx_clk_src; /* T1, HSSI: ST, RT, int, ext */
u_int32_t format; /* T3, T1: ckt framing format */
u_int32_t time_slots; /* T1: 64Kb time slot config */
u_int32_t cable_len; /* T3, T1: cable length in meters */
u_int32_t scrambler; /* T3: payload scrambler config */
u_int32_t dte_dce; /* SSI, HSSIc: drive TXCLK */
struct synth synth; /* SSI, HSSIc: synth oscil params */
u_int32_t rx_gain; /* T1: receiver gain limit 0-50 dB */
u_int32_t tx_pulse; /* T1: transmitter pulse shape */
u_int32_t tx_lbo; /* T1: transmitter atten 0-22.5 dB */
u_int32_t debug; /* ALL: extra printout */
u_int32_t line_pkg; /* ALL: use this line pkg */
u_int32_t line_prot; /* SPPP: use this line proto */
u_int32_t keep_alive; /* SPPP: use keep-alive packets */
};
#define CFG_CRC_0 0 /* no CRC */
#define CFG_CRC_16 2 /* X^16+X^12+X^5+1 (default) */
#define CFG_CRC_32 4 /* X^32+X^26+X^23+X^22+X^16+X^12+ */
/* X^11+X^10+X^8+X^7+X^5+X^4+X^2+X+1 */
#define CFG_LOOP_NONE 1 /* SNMP don't loop back anything */
#define CFG_LOOP_PAYLOAD 2 /* SNMP loop outward thru framer */
#define CFG_LOOP_LINE 3 /* SNMP loop outward thru LIU */
#define CFG_LOOP_OTHER 4 /* SNMP loop inward thru LIU */
#define CFG_LOOP_INWARD 5 /* SNMP loop inward thru framer */
#define CFG_LOOP_DUAL 6 /* SNMP loop inward & outward */
#define CFG_LOOP_TULIP 16 /* ALL: loop inward thru Tulip */
#define CFG_LOOP_PINS 17 /* HSSIc, SSI: loop inward-pins */
#define CFG_LOOP_LL 18 /* HSSI, SSI: assert LA/LL mdm pin */
#define CFG_LOOP_RL 19 /* HSSI, SSI: assert LB/RL mdm pin */
#define CFG_CLKMUX_ST 1 /* TX clk <- Send timing */
#define CFG_CLKMUX_INT 2 /* TX clk <- internal source */
#define CFG_CLKMUX_RT 3 /* TX clk <- Receive (loop) timing */
#define CFG_CLKMUX_EXT 4 /* TX clk <- ext connector */
/* values 0-31 are Bt8370 CR0 register values (LSB is zero if E1). */
/* values 32-99 are reserved for other T1E1 formats, (even number if E1) */
/* values 100 and up are used for T3 frame formats. */
#define CFG_FORMAT_T1SF 9 /* T1-SF AMI */
#define CFG_FORMAT_T1ESF 27 /* T1-ESF+CRC B8ZS X^6+X+1 */
#define CFG_FORMAT_E1FAS 0 /* E1-FAS HDB3 TS0 */
#define CFG_FORMAT_E1FASCRC 8 /* E1-FAS+CRC HDB3 TS0 X^4+X+1 */
#define CFG_FORMAT_E1FASCAS 16 /* E1-FAS +CAS HDB3 TS0 & TS16 */
#define CFG_FORMAT_E1FASCRCCAS 24 /* E1-FAS+CRC+CAS HDB3 TS0 & TS16 */
#define CFG_FORMAT_E1NONE 32 /* E1-NO framing HDB3 */
#define CFG_FORMAT_T3CPAR 100 /* T3-C-Bit par B3ZS */
#define CFG_FORMAT_T3M13 101 /* T3-M13 format B3ZS */
/* format aliases that improve code readability */
#define FORMAT_T1ANY ((sc->config.format & 1)==1)
#define FORMAT_E1ANY ((sc->config.format & 1)==0)
#define FORMAT_E1CAS ((sc->config.format & 0x11)==0x10)
#define FORMAT_E1CRC ((sc->config.format & 0x09)==0x08)
#define FORMAT_E1NONE (sc->config.format == CFG_FORMAT_E1NONE)
#define FORMAT_T1ESF (sc->config.format == CFG_FORMAT_T1ESF)
#define FORMAT_T1SF (sc->config.format == CFG_FORMAT_T1SF)
#define FORMAT_T3CPAR (sc->config.format == CFG_FORMAT_T3CPAR)
#define CFG_SCRAM_OFF 1 /* DS3 payload scrambler off */
#define CFG_SCRAM_DL_KEN 2 /* DS3 DigitalLink/Kentrox X^43+1 */
#define CFG_SCRAM_LARS 3 /* DS3 Larscom X^20+X^17+1 w/28ZS */
#define CFG_DTE 1 /* HSSIc, SSI: rcv TXCLK; rcv DCD */
#define CFG_DCE 2 /* HSSIc, SSI: drv TXCLK; drv DCD */
#define CFG_GAIN_SHORT 0x24 /* 0-20 dB of equalized gain */
#define CFG_GAIN_MEDIUM 0x2C /* 0-30 dB of equalized gain */
#define CFG_GAIN_LONG 0x34 /* 0-40 dB of equalized gain */
#define CFG_GAIN_EXTEND 0x3F /* 0-64 dB of equalized gain */
#define CFG_GAIN_AUTO 0xFF /* auto-set based on cable length */
#define CFG_PULSE_T1DSX0 0 /* T1 DSX 0- 40 meters */
#define CFG_PULSE_T1DSX1 2 /* T1 DSX 40- 80 meters */
#define CFG_PULSE_T1DSX2 4 /* T1 DSX 80-120 meters */
#define CFG_PULSE_T1DSX3 6 /* T1 DSX 120-160 meters */
#define CFG_PULSE_T1DSX4 8 /* T1 DSX 160-200 meters */
#define CFG_PULSE_E1COAX 10 /* E1 75 ohm coax pair */
#define CFG_PULSE_E1TWIST 12 /* E1 120 ohm twisted pairs */
#define CFG_PULSE_T1CSU 14 /* T1 CSU 200-2000 meters; set LBO */
#define CFG_PULSE_AUTO 0xFF /* auto-set based on cable length */
#define CFG_LBO_0DB 0 /* T1CSU LBO = 0.0 dB; FCC opt A */
#define CFG_LBO_7DB 16 /* T1CSU LBO = 7.5 dB; FCC opt B */
#define CFG_LBO_15DB 32 /* T1CSU LBO = 15.0 dB; FCC opt C */
#define CFG_LBO_22DB 48 /* T1CSU LBO = 22.5 dB; final span */
#define CFG_LBO_AUTO 0xFF /* auto-set based on cable length */
struct ioctl
{
struct iohdr iohdr; /* common ioctl header */
u_int32_t cmd; /* command */
u_int32_t address; /* command address */
u_int32_t data; /* command data */
char *ucode; /* user-land address of ucode */
};
#define IOCTL_RW_PCI 1 /* RW: Tulip PCI config registers */
#define IOCTL_RW_CSR 2 /* RW: Tulip Control & Status Regs */
#define IOCTL_RW_SROM 3 /* RW: Tulip Serial Rom */
#define IOCTL_RW_BIOS 4 /* RW: Tulip Boot rom */
#define IOCTL_RW_MII 5 /* RW: MII registers */
#define IOCTL_RW_FRAME 6 /* RW: Framer registers */
#define IOCTL_WO_SYNTH 7 /* WO: Synthesized oscillator */
#define IOCTL_WO_DAC 8 /* WO: Digital/Analog Converter */
#define IOCTL_XILINX_RESET 16 /* reset Xilinx: all FFs set to 0 */
#define IOCTL_XILINX_ROM 17 /* load Xilinx program from ROM */
#define IOCTL_XILINX_FILE 18 /* load Xilinx program from file */
#define IOCTL_SET_STATUS 50 /* set mdm ctrl bits (internal use)*/
#define IOCTL_SNMP_SEND 51 /* trunk MIB send code */
#define IOCTL_SNMP_LOOP 52 /* trunk MIB loop configuration */
#define IOCTL_SNMP_SIGS 53 /* RS232-like modem control sigs */
#define IOCTL_RESET_CNTRS 54 /* reset event counters */
/* storage for these strings is allocated here! */
static const char *ssi_cables[] =
{
"V.10/EIA423",
"V.11/EIA530A",
"RESERVED",
"X.21",
"V.35",
"V.36/EIA449",
"V.28/EIA232",
"NO CABLE",
NULL,
};
/***************************************************************************/
/* Declarations above here are shared with the user lmcconfig program. */
/* Declarations below here are private to the kernel device driver. */
/***************************************************************************/
#if (_KERNEL || KERNEL || __KERNEL__)
#define SNDQ_MAXLEN 32 /* packets awaiting transmission */
#define DESCS_PER_PKT 4 /* DMA descriptors per TX pkt */
#define NUM_TX_DESCS (DESCS_PER_PKT * SNDQ_MAXLEN)
/* Increase DESCS_PER_PKT if status.cntrs.txdma increments. */
/* A Tulip DMA descriptor can point to two chunks of memory.
* Each chunk has a max length of 2047 bytes (ask the VMS guys...).
* 2047 isn't a multiple of a cache line size (32 bytes typically).
* So back off to 2048-32 = 2016 bytes per chunk (2 chunks per descr).
*/
#define MAX_CHUNK_LEN 2016
#define MAX_DESC_LEN (2 * MAX_CHUNK_LEN)
/* Tulip DMA descriptor; THIS STRUCT MUST MATCH THE HARDWARE */
struct dma_desc
{
u_int32_t status; /* hardware->to->software */
#if (BYTE_ORDER == LITTLE_ENDIAN) /* left-to-right packing by compiler */
unsigned length1:11; /* buffer1 length */
unsigned length2:11; /* buffer2 length */
unsigned control:10; /* software->to->hardware */
#else /* right-to-left packing by compiler */
unsigned control:10; /* software->to->hardware */
unsigned length2:11; /* buffer2 length */
unsigned length1:11; /* buffer1 length */
#endif
u_int32_t address1; /* buffer1 bus address */
u_int32_t address2; /* buffer2 bus address */
bus_dmamap_t map; /* bus dmamap for this descriptor */
# define TLP_BUS_DSL_VAL (sizeof(bus_dmamap_t) & TLP_BUS_DSL)
} __attribute__ ((packed));
/* Tulip DMA descriptor status bits */
#define TLP_DSTS_OWNER 0x80000000
#define TLP_DSTS_RX_DESC_ERR 0x00004000
#define TLP_DSTS_RX_FIRST_DESC 0x00000200
#define TLP_DSTS_RX_LAST_DESC 0x00000100
#define TLP_DSTS_RX_MII_ERR 0x00000008
#define TLP_DSTS_RX_DRIBBLE 0x00000004
#define TLP_DSTS_TX_UNDERRUN 0x00000002
#define TLP_DSTS_RX_OVERRUN 0x00000001 /* not documented in rev AF */
#define TLP_DSTS_RX_BAD (TLP_DSTS_RX_MII_ERR | \
TLP_DSTS_RX_DRIBBLE | \
TLP_DSTS_RX_DESC_ERR | \
TLP_DSTS_RX_OVERRUN)
/* Tulip DMA descriptor control bits */
#define TLP_DCTL_TX_INTERRUPT 0x0200
#define TLP_DCTL_TX_LAST_SEG 0x0100
#define TLP_DCTL_TX_FIRST_SEG 0x0080
#define TLP_DCTL_TX_NO_CRC 0x0010
#define TLP_DCTL_END_RING 0x0008
#define TLP_DCTL_TX_NO_PAD 0x0002
/* DMA descriptors are kept in a ring.
* Ring is empty when (read == write).
* Ring is full when (read == wrap(write+1)),
* The ring also contains a tailq of data buffers.
*/
struct desc_ring
{
struct dma_desc *read; /* next descriptor to be read */
struct dma_desc *write; /* next descriptor to be written */
struct dma_desc *first; /* first descriptor in ring */
struct dma_desc *last; /* last descriptor in ring */
struct dma_desc *temp; /* temporary write pointer for tx */
u_int32_t dma_addr; /* bus address for desc array */
int size_descs; /* bus_dmamap_sync needs this */
int num_descs; /* used to set rx quota */
#if BSD
struct mbuf *head; /* tail-queue of mbufs */
struct mbuf *tail;
bus_dma_tag_t tag; /* bus_dma tag for desc array */
bus_dmamap_t map; /* bus_dma map for desc array */
bus_dma_segment_t segs[2]; /* bus_dmamap_load() or bus_dmamem_alloc() */
int nsegs; /* bus_dmamap_load() or bus_dmamem_alloc() */
#endif
};
/* break circular definition */
typedef struct softc softc_t;
/* card-dependent methods */
struct card
{
void (* config)(softc_t *);
void (* ident)(softc_t *);
int (* watchdog)(softc_t *); /* must not sleep */
int (* ioctl)(softc_t *, struct ioctl *); /* can sleep */
};
/* flag bits in sc->flags */
#define FLAG_IFNET 0x00000002 /* IFNET is attached */
#define FLAG_NETDEV 0x00000004 /* NETDEV is registered */
#define FLAG_NETGRAPH 0x00000008 /* NETGRAPH is attached */
/* Accessing Tulip CSRs:
* There are two ways: IO instruction (default) and memory reference.
* IO refs are used if IOREF_CSR is defined; otherwise memory refs are used.
* MEMORY REFERENCES DO NOT WORK in BSD/OS: page faults happen.
*/
#define IOREF_CSR 1 /* access Tulip CSRs with IO cycles if 1 */
#if (defined(__FreeBSD__) && defined(DEVICE_POLLING))
# define DEV_POLL 1
#else
# define DEV_POLL 0
#endif
#if defined(ALTQ) && ALTQ
# define ALTQ_PRESENT 1
#else
# define ALTQ_PRESENT 0
#endif
/* This is the instance data, or "software context" for the device driver. */
/* NetBSD, OpenBSD and BSD/OS want struct device first in the softc. */
/* FreeBSD wants struct ifnet first in the softc. */
struct softc
{
/* State for kernel-resident Line Protocols */
#if IFNET
struct ifnet *ifp;
struct ifmedia ifm; /* hooks for ifconfig(8) */
# if NSPPP
# if (__FreeBSD_version < 600000)
struct sppp spppcom; /* must be first in sc for fbsd < 6 */
# endif
struct sppp *sppp;
# elif P2P
struct p2pcom p2pcom;
struct p2pcom *p2p;
# elif (__FreeBSD_version < 600000)
struct ifnet ifnet; /* must be first in sc for fbsd < 6 */
# endif
#endif
#if NETGRAPH
node_p ng_node; /* pointer to our node struct */
hook_p ng_hook; /* non-zero means NETGRAPH owns device */
# if (__FreeBSD_version >= 503000)
struct ifaltq ng_sndq;
struct ifaltq ng_fastq;
# else
struct ifqueue ng_sndq;
struct ifqueue ng_fastq;
# endif
#endif
struct callout callout; /* watchdog needs this */
struct device *dev; /* base device pointer */
bus_space_tag_t csr_tag; /* bus_space needs this */
bus_space_handle_t csr_handle;/* bus_space_needs this */
void *irq_cookie; /* bus_teardown_intr needs this */
struct resource *irq_res; /* bus_release_resource needs this */
int irq_res_id; /* bus_release_resource needs this */
struct resource *csr_res; /* bus_release_resource needs this */
int csr_res_id; /* bus_release resource needs this */
int csr_res_type; /* bus_release resource needs this */
struct mbuf *tx_mbuf; /* hang mbuf here while building dma descs */
# ifdef DEVICE_POLLING
int quota; /* used for incoming packet flow control */
# endif
# if (__FreeBSD_version >= 500000)
struct mtx top_mtx; /* lock card->watchdog vs core_ioctl */
struct mtx bottom_mtx; /* lock for buf queues & descriptor rings */
# else /* FreeBSD-4 */
int top_spl; /* lock card->watchdog vs core_ioctl */
int bottom_spl; /* lock for buf queues & descriptor rings */
# endif
/* Top-half state used by all card types; lock with top_lock, */
const char *dev_desc; /* string describing type of board */
struct status status; /* driver status lmcconfig can read */
struct config config; /* driver config lmcconfig can read/write */
struct card *card; /* card methods: config, ioctl, watchdog */
u_int32_t gpio_dir; /* s/w copy of GPIO direction register */
u_int16_t led_state; /* last value written to mii16 */
u_int32_t flags; /* driver-global flags */
/* Top-half state used by card-specific watchdogs; lock with top_lock. */
u_int32_t last_mii16; /* SSI, HSSI: MII reg 16 one second ago */
u_int32_t last_stat16; /* T3: framer reg 16 one second ago */
u_int32_t last_alm1; /* T1E1: framer reg 47 one second ago */
u_int32_t last_FEAC; /* last FEAC msg code received */
u_int32_t loop_timer; /* seconds until loopback expires */
/* Bottom-half state used by the interrupt code; lock with bottom_lock. */
struct desc_ring txring; /* tx descriptor ring state */
struct desc_ring rxring; /* rx descriptor ring state */
}; /* end of softc */
/* Hide the minor differences between OS versions */
typedef void intr_return_t;
# define READ_PCI_CFG(sc, addr) pci_read_config ((sc)->dev, addr, 4)
# define WRITE_PCI_CFG(sc, addr, data) pci_write_config((sc)->dev, addr, data, 4)
# define READ_CSR(csr) bus_space_read_4 (sc->csr_tag, sc->csr_handle, csr)
# define WRITE_CSR(csr, val) bus_space_write_4(sc->csr_tag, sc->csr_handle, csr, val)
# define NAME_UNIT device_get_nameunit(sc->dev)
# define DRIVER_DEBUG ((sc->config.debug) || (sc->ifp->if_flags & IFF_DEBUG))
# if (__FreeBSD_version >= 500000)
# define TOP_TRYLOCK mtx_trylock(&sc->top_mtx)
# define TOP_UNLOCK mtx_unlock (&sc->top_mtx)
# define BOTTOM_TRYLOCK mtx_trylock(&sc->bottom_mtx)
# define BOTTOM_UNLOCK mtx_unlock (&sc->bottom_mtx)
# if (__FreeBSD_version >= 700000)
# define CHECK_CAP priv_check(curthread, PRIV_DRIVER)
# else
# define CHECK_CAP suser(curthread)
# endif
# else /* FreeBSD-4 */
# define TOP_TRYLOCK (sc->top_spl = splimp())
# define TOP_UNLOCK splx(sc->top_spl)
# define BOTTOM_TRYLOCK 1 /* giant_lock protects */
# define BOTTOM_UNLOCK /* nothing */
# define CHECK_CAP suser(curproc)
# endif
# define DISABLE_INTR /* nothing */
# define ENABLE_INTR /* nothing */
# define IRQ_NONE /* nothing */
# define IRQ_HANDLED /* nothing */
# define IFP2SC(ifp) (ifp)->if_softc
# define COPY_BREAK MHLEN
# define SLEEP(usecs) tsleep(sc, PCATCH | PZERO, DEVICE_NAME, 1+(usecs/tick))
# define DMA_SYNC(map, size, flags) bus_dmamap_sync(ring->tag, map, flags)
# define DMA_LOAD(map, addr, size) bus_dmamap_load(ring->tag, map, addr, size, fbsd_dmamap_load, ring, 0)
# if (NBPFILTER != 0)
# if (__FreeBSD_version >= 500000)
# define LMC_BPF_MTAP(mbuf) BPF_MTAP(sc->ifp, mbuf)
# else /* FreeBSD-4 */
# define LMC_BPF_MTAP(mbuf) if (sc->ifp->if_bpf) bpf_mtap(sc->ifp, mbuf)
# endif
# define LMC_BPF_ATTACH(dlt, len) bpfattach(sc->ifp, dlt, len)
# define LMC_BPF_DETACH bpfdetach(sc->ifp)
# endif
# if (__FreeBSD_version >= 500000)
# define IF_DROP(ifq) _IF_DROP(ifq)
# define IF_QFULL(ifq) _IF_QFULL(ifq)
# endif
# if (__FreeBSD_version < 500000)
# define INTR_MPSAFE 0
# define BUS_DMA_COHERENT 0
# endif
# if (__FreeBSD_version >= 600000)
# define IFF_RUNNING IFF_DRV_RUNNING
# endif
#if (NBPFILTER == 0)
# define LMC_BPF_MTAP(mbuf) /* nothing */
# define LMC_BPF_ATTACH(dlt, len) /* nothing */
# define LMC_BPF_DETACH /* nothing */
#endif
#if (defined(__bsdi__) || /* unconditionally */ \
(defined(__FreeBSD__) && (__FreeBSD_version < 503000)) || \
(defined(__NetBSD__) && (__NetBSD_Version__ < 106000000)) || \
(defined(__OpenBSD__) && ( OpenBSD < 200111)))
# define IFQ_ENQUEUE(ifq, m, pa, err) \
do { \
if (pa==0); /* suppress warning */ \
if (IF_QFULL(ifq)) \
{ \
IF_DROP(ifq); \
m_freem(m); \
err = ENOBUFS; \
} \
else \
{ \
IF_ENQUEUE(ifq, m); \
err = 0; \
} \
} while (0)
# define IFQ_DEQUEUE(ifq, m) do { IF_DEQUEUE((ifq), m) } while (0)
# define IFQ_IS_EMPTY(ifq) ((ifq)->ifq_head == NULL)
# define IFQ_SET_MAXLEN(ifq, len) (ifq)->ifq_maxlen = len
# define IFQ_SET_READY(ifq) /* nothing */
# define IFQ_PURGE(ifq) \
do { \
while ((ifq)->ifq_head != NULL) \
{ \
struct mbuf *m; \
IF_DEQUEUE(ifq, m); \
m_freem(m); \
} \
} while (0)
#endif
#define HSSI_DESC "SBE/LMC HSSI Card"
#define T3_DESC "SBE/LMC T3 Card"
#define SSI_DESC "SBE/LMC SSI Card"
#define T1E1_DESC "SBE/LMC T1E1 Card"
/* procedure prototypes */
static void shift_srom_bits(softc_t *, u_int32_t, u_int32_t);
static u_int16_t read_srom(softc_t *, u_int8_t);
static void write_srom(softc_t *, u_int8_t, u_int16_t);
static u_int8_t read_bios(softc_t *, u_int32_t);
static void write_bios_phys(softc_t *, u_int32_t, u_int8_t);
static void write_bios(softc_t *, u_int32_t, u_int8_t);
static void erase_bios(softc_t *);
static void shift_mii_bits(softc_t *, u_int32_t, u_int32_t);
static u_int16_t read_mii(softc_t *, u_int8_t);
static void write_mii(softc_t *, u_int8_t, u_int16_t);
static void set_mii16_bits(softc_t *, u_int16_t);
static void clr_mii16_bits(softc_t *, u_int16_t);
static void set_mii17_bits(softc_t *, u_int16_t);
static void clr_mii17_bits(softc_t *, u_int16_t);
static void led_off(softc_t *, u_int16_t);
static void led_on(softc_t *, u_int16_t);
static void led_inv(softc_t *, u_int16_t);
static void write_framer(softc_t *, u_int16_t, u_int8_t);
static u_int8_t read_framer(softc_t *, u_int16_t);
static void make_gpio_input(softc_t *, u_int32_t);
static void make_gpio_output(softc_t *, u_int32_t);
static u_int32_t read_gpio(softc_t *);
static void set_gpio_bits(softc_t *, u_int32_t);
static void clr_gpio_bits(softc_t *, u_int32_t);
static void reset_xilinx(softc_t *);
static void load_xilinx_from_rom(softc_t *);
static int load_xilinx_from_file(softc_t *, char *, u_int32_t);
static void shift_synth_bits(softc_t *, u_int32_t, u_int32_t);
static void write_synth(softc_t *, struct synth *);
static void write_dac(softc_t *, u_int16_t);
static void hssi_config(softc_t *);
static void hssi_ident(softc_t *);
static int hssi_watchdog(softc_t *);
static int hssi_ioctl(softc_t *, struct ioctl *);
static void t3_config(softc_t *);
static void t3_ident(softc_t *);
static int t3_watchdog(softc_t *);
static void t3_send_dbl_feac(softc_t *, int, int);
static int t3_ioctl(softc_t *, struct ioctl *);
static void ssi_config(softc_t *);
static void ssi_ident(softc_t *);
static int ssi_watchdog(softc_t *);
static int ssi_ioctl(softc_t *, struct ioctl *);
static void t1_config(softc_t *);
static void t1_ident(softc_t *);
static int t1_watchdog(softc_t *);
static void t1_send_bop(softc_t *, int);
static int t1_ioctl(softc_t *, struct ioctl *);
#if IFNET
# if ((defined(__FreeBSD__) && (__FreeBSD_version < 500000)) ||\
defined(__NetBSD__) || defined(__OpenBSD__) || defined(__bsdi__))
static void netisr_dispatch(int, struct mbuf *);
# endif
static void lmc_raw_input(struct ifnet *, struct mbuf *);
#endif /* IFNET */
#if BSD
static void mbuf_enqueue(struct desc_ring *, struct mbuf *);
static struct mbuf* mbuf_dequeue(struct desc_ring *);
static void fbsd_dmamap_load(void *, bus_dma_segment_t *, int, int);
static int create_ring(softc_t *, struct desc_ring *, int);
static void destroy_ring(softc_t *, struct desc_ring *);
static int rxintr_cleanup(softc_t *);
static int rxintr_setup(softc_t *);
static int txintr_cleanup(softc_t *);
static int txintr_setup_mbuf(softc_t *, struct mbuf *);
static int txintr_setup(softc_t *);
#endif /* BSD */
static void check_intr_status(softc_t *);
static void core_interrupt(void *, int);
static void user_interrupt(softc_t *, int);
#if BSD
# if (defined(__FreeBSD__) && defined(DEVICE_POLLING))
static int fbsd_poll(struct ifnet *, enum poll_cmd, int);
# endif
static intr_return_t bsd_interrupt(void *);
#endif /* BSD */
static void set_status(softc_t *, int);
#if P2P
static int p2p_getmdm(struct p2pcom *, caddr_t);
static int p2p_mdmctl(struct p2pcom *, int);
#endif
#if NSPPP
static void sppp_tls(struct sppp *);
static void sppp_tlf(struct sppp *);
#endif
static void config_proto(softc_t *, struct config *);
static int core_ioctl(softc_t *, u_long, caddr_t);
static void core_watchdog(softc_t *);
#if IFNET
static int lmc_raw_ioctl(struct ifnet *, u_long, caddr_t);
static int lmc_ifnet_ioctl(struct ifnet *, u_long, caddr_t);
static void lmc_ifnet_start(struct ifnet *);
static int lmc_raw_output(struct ifnet *, struct mbuf *,
const struct sockaddr *, struct route *);
static void setup_ifnet(struct ifnet *);
static int lmc_ifnet_attach(softc_t *);
static void lmc_ifnet_detach(softc_t *);
#endif /* IFNET */
#if NETGRAPH
# if (__FreeBSD_version >= 500000)
static int ng_constructor(node_p);
# else /* FreeBSD-4 */
static int ng_constructor(node_p *);
# endif
# if (__FreeBSD_version >= 500000)
static int ng_rcvmsg(node_p, item_p, hook_p);
# else /* FreeBSD-4 */
static int ng_rcvmsg(node_p, struct ng_mesg *,
const char *, struct ng_mesg **);
# endif
static int ng_shutdown(node_p);
static int ng_newhook(node_p, hook_p, const char *);
static int ng_connect(hook_p);
# if (__FreeBSD_version >= 500000)
static int ng_rcvdata(hook_p, item_p);
# else /* FreeBSD-4 */
static int ng_rcvdata(hook_p, struct mbuf *, meta_p);
# endif
static int ng_disconnect(hook_p);
# if (IFNET == 0)
static void ng_watchdog(void *);
# endif
static int ng_attach(softc_t *);
static void ng_detach(softc_t *);
#endif /* NETGRAPH */
static int startup_card(softc_t *);
static void shutdown_card(void *);
static int attach_card(softc_t *, const char *);
static void detach_card(softc_t *);
static int fbsd_probe(device_t);
static int fbsd_detach(device_t);
static int fbsd_shutdown(device_t);
static int fbsd_attach(device_t);
#endif /* KERNEL */
#endif /* IF_LMC_H */