diff --git a/sys/conf/NOTES b/sys/conf/NOTES index 1bde93f91b32..85ff0e9f3b76 100644 --- a/sys/conf/NOTES +++ b/sys/conf/NOTES @@ -1720,6 +1720,7 @@ device miibus # lge: Support for PCI gigabit ethernet adapters based on the Level 1 # LXT1001 NetCellerator chipset. This includes the D-Link DGE-500SX, # SMC TigerCard 1000 (SMC9462SX), and some Addtron cards. +# lmc: Support for the LMC/SBE wide-area network interface cards. # my: Myson Fast Ethernet (MTD80X, MTD89X) # nge: Support for PCI gigabit ethernet adapters based on the National # Semiconductor DP83820 and DP83821 chipset. This includes the @@ -1845,6 +1846,9 @@ device sk device ti device fpa +# PCI WAN adapters. +device lmc + # Use "private" jumbo buffers allocated exclusively for the ti(4) driver. # This option is incompatible with the TI_JUMBO_HDRSPLIT option below. #options TI_PRIVATE_JUMBOS diff --git a/sys/conf/files b/sys/conf/files index 1af4da63b4f6..1c70b98ffc77 100644 --- a/sys/conf/files +++ b/sys/conf/files @@ -689,6 +689,7 @@ dev/joy/joy_pccard.c optional joy pccard dev/kbdmux/kbdmux.c optional kbdmux dev/led/led.c standard dev/lge/if_lge.c optional lge +dev/lmc/if_lmc.c optional lmc dev/lnc/if_lnc.c optional lnc dev/lnc/if_lnc_pci.c optional lnc pci dev/mc146818/mc146818.c optional mc146818 diff --git a/sys/dev/lmc/if_lmc.c b/sys/dev/lmc/if_lmc.c new file mode 100644 index 000000000000..d475babe7f58 --- /dev/null +++ b/sys/dev/lmc/if_lmc.c @@ -0,0 +1,7026 @@ +/* + * $FreeBSD$ + * + * Copyright (c) 2002-2004 David Boggs. + * 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. + * + * Description: + * + * This is an open-source Unix device driver for PCI-bus WAN interface cards. + * It sends and receives packets in HDLC frames over synchronous links. + * A generic PC plus Unix plus some SBE/LMC cards makes an OPEN router. + * This driver works with FreeBSD, NetBSD, OpenBSD, BSD/OS and Linux. + * It has been tested on i386 (32-bit little-end), Sparc (64-bit big-end), + * and Alpha (64-bit little-end) architectures. + * + * History and Authors: + * + * Ron Crane had the neat idea to use a Fast Ethernet chip as a PCI + * interface and add an Ethernet-to-HDLC gate array to make a WAN card. + * David Boggs designed the Ethernet-to-HDLC gate arrays and PC cards. + * We did this at our company, LAN Media Corporation (LMC). + * SBE Corp aquired LMC and continues to make the cards. + * + * Since the cards use Tulip Ethernet chips, we started with Matt Thomas' + * ubiquitous "de" driver. Michael Graff stripped out the Ethernet stuff + * and added HSSI stuff. Basil Gunn ported it to Solaris (lost) and + * Rob Braun ported it to Linux. Andrew Stanley-Jones added support + * for three more cards and wrote the first version of lmcconfig. + * During 2002-5 David Boggs rewrote it and now feels responsible for it. + * + * Responsible Individual: + * + * Send bug reports and improvements to . + */ +#if __FreeBSD__ +# include /* OS version */ +# define IFNET 1 +# include "opt_inet.h" /* INET */ +# include "opt_inet6.h" /* INET6 */ +# include "opt_netgraph.h" /* NETGRAPH */ +# ifndef NETGRAPH +# define NETGRAPH 0 +# endif +# define P2P 0 /* not in FreeBSD */ +# include "opt_global.h"/* ALTQ, DEVICE_POLLING */ +# if (__FreeBSD_version >= 500000) +# define NSPPP 1 /* No count devices in FreeBSD 5 */ +# include "opt_bpf.h" /* DEV_BPF */ +# define NBPFILTER DEV_BPF +# else /* FreeBSD-4 */ +# include "sppp.h" /* NSPPP */ +# include "bpf.h" /* NBPF */ +# define NBPFILTER NBPF +# endif +# define GEN_HDLC 0 /* not in FreeBSD */ +# +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# if (__FreeBSD_version >= 500000) +# include +# include +# else /* FreeBSD-4 */ +# include +# include +# endif +# if NETGRAPH +# include +# include +# endif +# if (INET || INET6) +# include +# include +# endif +# if NSPPP +# include +# endif +# if NBPFILTER +# include +# endif +/* and finally... */ +# include +#endif /*__FreeBSD__*/ + +#if __NetBSD__ +# include /* OS version */ +# define IFNET 1 +# include "opt_inet.h" /* INET6, INET */ +# define NETGRAPH 0 /* not in NetBSD */ +# include "sppp.h" /* NSPPP */ +# define P2P 0 /* not in NetBSD */ +# include "opt_altq_enabled.h" /* ALTQ */ +# include "bpfilter.h" /* NBPFILTER */ +# define GEN_HDLC 0 /* not in NetBSD */ +# +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# if (__NetBSD_Version__ >= 106000000) +# include +# else +# include +# endif +# if (INET || INET6) +# include +# include +# endif +# if NSPPP +# if (__NetBSD_Version__ >= 106000000) +# include +# else +# include +# endif +# endif +# if NBPFILTER +# include +# endif +/* and finally... */ +# include "if_lmc.h" +#endif /*__NetBSD__*/ + +#if __OpenBSD__ +# include /* OS version */ +# define IFNET 1 +/* -DINET is passed on the compiler command line */ +/* -DINET6 is passed on the compiler command line */ +# define NETGRAPH 0 /* not in OpenBSD */ +# include "sppp.h" /* NSPPP */ +# define P2P 0 /* not in OpenBSD */ +/* -DALTQ is passed on the compiler command line */ +# include "bpfilter.h" /* NBPFILTER */ +# define GEN_HDLC 0 /* not in OpenBSD */ +# +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# if (OpenBSD >= 200206) +# include +# else +# include +# endif +# if (INET || INET6) +# include +# include +# endif +# if NSPPP +# include +# endif +# if NBPFILTER +# include +# endif +/* and finally... */ +# include "if_lmc.h" +#endif /*__OpenBSD__*/ + +#if __bsdi__ +# include /* OS version */ +# define IFNET 1 +/* -DINET is passed on the compiler command line */ +/* -DINET6 is passed on the compiler command line */ +# define NETGRAPH 0 /* not in BSD/OS */ +# define NSPPP 0 /* not in BSD/OS */ +/* -DPPP is passed on the compiler command line */ +/* -DCISCO_HDLC is passed on the compiler command line */ +/* -DFR is passed on the compiler command line */ +# if (PPP || CISCO_HDLC || FR) +# define P2P 1 +# else +# define P2P 0 +# endif +# define ALTQ 0 /* not in BSD/OS */ +# include "bpfilter.h" /* NBPFILTER */ +# define GEN_HDLC 0 /* not in BSD/OS */ +# +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# include +# if (INET || INET6) +# include +# include +# endif +# if P2P +# include +# include +# endif +# if NBPFILTER +# include +# endif +/* and finally... */ +# include "if_lmc.h" +#endif /*__bsdi__*/ + +#if __linux__ +# include +# if (CONFIG_HDLC || CONFIG_HDLC_MODULE) +# define GEN_HDLC 1 +# else +# define GEN_HDLC 0 +# endif +# define IFNET 0 /* different in Linux */ +# define NETGRAPH 0 /* not in Linux */ +# define NSPPP 0 /* different in Linux */ +# define P2P 0 /* not in Linux */ +# define ALTQ 0 /* different in Linux */ +# define NBPFILTER 0 /* different in Linux */ +# +# include +# include +# include +# include +# if GEN_HDLC +# include +# endif +/* and finally... */ +# include "if_lmc.h" +#endif /* __linux__ */ + +/* The SROM is a generic 93C46 serial EEPROM (64 words by 16 bits). */ +/* Data is set up before the RISING edge of CLK; CLK is parked low. */ +static void +shift_srom_bits(softc_t *sc, u_int32_t data, u_int32_t len) + { + u_int32_t csr = READ_CSR(TLP_SROM_MII); + for (; len>0; len--) + { /* MSB first */ + if (data & (1<<(len-1))) + csr |= TLP_SROM_DIN; /* DIN setup */ + else + csr &= ~TLP_SROM_DIN; /* DIN setup */ + WRITE_CSR(TLP_SROM_MII, csr); + csr |= TLP_SROM_CLK; /* CLK rising edge */ + WRITE_CSR(TLP_SROM_MII, csr); + csr &= ~TLP_SROM_CLK; /* CLK falling edge */ + WRITE_CSR(TLP_SROM_MII, csr); + } + } + +/* Data is sampled on the RISING edge of CLK; CLK is parked low. */ +static u_int16_t +read_srom(softc_t *sc, u_int8_t addr) + { + int i; + u_int32_t csr; + u_int16_t data; + + /* Enable SROM access. */ + csr = (TLP_SROM_SEL | TLP_SROM_RD | TLP_MII_MDOE); + WRITE_CSR(TLP_SROM_MII, csr); + /* CS rising edge prepares SROM for a new cycle. */ + csr |= TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* assert CS */ + shift_srom_bits(sc, 6, 4); /* issue read cmd */ + shift_srom_bits(sc, addr, 6); /* issue address */ + for (data=0, i=16; i>=0; i--) /* read ->17<- bits of data */ + { /* MSB first */ + csr = READ_CSR(TLP_SROM_MII); /* DOUT sampled */ + data = (data<<1) | ((csr & TLP_SROM_DOUT) ? 1:0); + csr |= TLP_SROM_CLK; /* CLK rising edge */ + WRITE_CSR(TLP_SROM_MII, csr); + csr &= ~TLP_SROM_CLK; /* CLK falling edge */ + WRITE_CSR(TLP_SROM_MII, csr); + } + /* Disable SROM access. */ + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOE); + + return data; + } + +/* The SROM is formatted by the mfgr and should NOT be written! */ +/* But lmcconfig can rewrite it in case it gets overwritten somehow. */ +/* IOCTL SYSCALL: can sleep. */ +static void +write_srom(softc_t *sc, u_int8_t addr, u_int16_t data) + { + u_int32_t csr; + int i; + + /* Enable SROM access. */ + csr = (TLP_SROM_SEL | TLP_SROM_RD | TLP_MII_MDOE); + WRITE_CSR(TLP_SROM_MII, csr); + + /* Issue write-enable command. */ + csr |= TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* assert CS */ + shift_srom_bits(sc, 4, 4); /* issue write enable cmd */ + shift_srom_bits(sc, 63, 6); /* issue address */ + csr &= ~TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* deassert CS */ + + /* Issue erase command. */ + csr |= TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* assert CS */ + shift_srom_bits(sc, 7, 4); /* issue erase cmd */ + shift_srom_bits(sc, addr, 6); /* issue address */ + csr &= ~TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* deassert CS */ + + /* Issue write command. */ + csr |= TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* assert CS */ + for (i=0; i<10; i++) /* 100 ms max wait */ + if ((READ_CSR(TLP_SROM_MII) & TLP_SROM_DOUT)==0) SLEEP(10000); + shift_srom_bits(sc, 5, 4); /* issue write cmd */ + shift_srom_bits(sc, addr, 6); /* issue address */ + shift_srom_bits(sc, data, 16); /* issue data */ + csr &= ~TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* deassert CS */ + + /* Issue write-disable command. */ + csr |= TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* assert CS */ + for (i=0; i<10; i++) /* 100 ms max wait */ + if ((READ_CSR(TLP_SROM_MII) & TLP_SROM_DOUT)==0) SLEEP(10000); + shift_srom_bits(sc, 4, 4); /* issue write disable cmd */ + shift_srom_bits(sc, 0, 6); /* issue address */ + csr &= ~TLP_SROM_CS; + WRITE_CSR(TLP_SROM_MII, csr); /* deassert CS */ + + /* Disable SROM access. */ + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOE); + } + +/* Not all boards have BIOS roms. */ +/* The BIOS ROM is an AMD 29F010 1Mbit (128K by 8) EEPROM. */ +static u_int8_t +read_bios(softc_t *sc, u_int32_t addr) + { + u_int32_t srom_mii; + + /* Load the BIOS rom address register. */ + WRITE_CSR(TLP_BIOS_ROM, addr); + + /* Enable the BIOS rom. */ + srom_mii = TLP_BIOS_SEL | TLP_BIOS_RD | TLP_MII_MDOE; + WRITE_CSR(TLP_SROM_MII, srom_mii); + + /* Wait at least 20 PCI cycles. */ + DELAY(20); + + /* Read the BIOS rom data. */ + srom_mii = READ_CSR(TLP_SROM_MII); + + /* Disable the BIOS rom. */ + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOE); + + return (u_int8_t)srom_mii & 0xFF; + } + +static void +write_bios_phys(softc_t *sc, u_int32_t addr, u_int8_t data) + { + u_int32_t srom_mii; + + /* Load the BIOS rom address register. */ + WRITE_CSR(TLP_BIOS_ROM, addr); + + /* Enable the BIOS rom. */ + srom_mii = TLP_BIOS_SEL | TLP_BIOS_WR | TLP_MII_MDOE; + + /* Load the data into the data register. */ + srom_mii = (srom_mii & 0xFFFFFF00) | (data & 0xFF); + WRITE_CSR(TLP_SROM_MII, srom_mii); + + /* Wait at least 20 PCI cycles. */ + DELAY(20); + + /* Disable the BIOS rom. */ + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOE); + } + +/* IOCTL SYSCALL: can sleep. */ +static void +write_bios(softc_t *sc, u_int32_t addr, u_int8_t data) + { + u_int8_t read_data; + + /* this sequence enables writing */ + write_bios_phys(sc, 0x5555, 0xAA); + write_bios_phys(sc, 0x2AAA, 0x55); + write_bios_phys(sc, 0x5555, 0xA0); + write_bios_phys(sc, addr, data); + + /* Wait for the write operation to complete. */ + for (;;) /* interruptable syscall */ + { + for (;;) + { + read_data = read_bios(sc, addr); + if ((read_data & 0x80) == (data & 0x80)) break; + if (read_data & 0x20) + { /* Data sheet says read it again. */ + read_data = read_bios(sc, addr); + if ((read_data & 0x80) == (data & 0x80)) break; + if (DRIVER_DEBUG) + printf("%s: write_bios() failed; rom addr=0x%x\n", + NAME_UNIT, addr); + return; + } + } + read_data = read_bios(sc, addr); + if (read_data == data) break; + } + } + +/* IOCTL SYSCALL: can sleep. */ +static void +erase_bios(softc_t *sc) + { + unsigned char read_data; + + /* This sequence enables erasing: */ + write_bios_phys(sc, 0x5555, 0xAA); + write_bios_phys(sc, 0x2AAA, 0x55); + write_bios_phys(sc, 0x5555, 0x80); + write_bios_phys(sc, 0x5555, 0xAA); + write_bios_phys(sc, 0x2AAA, 0x55); + write_bios_phys(sc, 0x5555, 0x10); + + /* Wait for the erase operation to complete. */ + for (;;) /* interruptable syscall */ + { + for (;;) + { + read_data = read_bios(sc, 0); + if (read_data & 0x80) break; + if (read_data & 0x20) + { /* Data sheet says read it again. */ + read_data = read_bios(sc, 0); + if (read_data & 0x80) break; + if (DRIVER_DEBUG) + printf("%s: erase_bios() failed\n", NAME_UNIT); + return; + } + } + read_data = read_bios(sc, 0); + if (read_data == 0xFF) break; + } + } + +/* MDIO is 3-stated between tranactions. */ +/* MDIO is set up before the RISING edge of MDC; MDC is parked low. */ +static void +shift_mii_bits(softc_t *sc, u_int32_t data, u_int32_t len) + { + u_int32_t csr = READ_CSR(TLP_SROM_MII); + for (; len>0; len--) + { /* MSB first */ + if (data & (1<<(len-1))) + csr |= TLP_MII_MDOUT; /* MDOUT setup */ + else + csr &= ~TLP_MII_MDOUT; /* MDOUT setup */ + WRITE_CSR(TLP_SROM_MII, csr); + csr |= TLP_MII_MDC; /* MDC rising edge */ + WRITE_CSR(TLP_SROM_MII, csr); + csr &= ~TLP_MII_MDC; /* MDC falling edge */ + WRITE_CSR(TLP_SROM_MII, csr); + } + } + +/* The specification for the MII is IEEE Std 802.3 clause 22. */ +/* MDIO is sampled on the RISING edge of MDC; MDC is parked low. */ +static u_int16_t +read_mii(softc_t *sc, u_int8_t regad) + { + int i; + u_int32_t csr; + u_int16_t data = 0; + + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOUT); + + shift_mii_bits(sc, 0xFFFFF, 20); /* preamble */ + shift_mii_bits(sc, 0xFFFFF, 20); /* preamble */ + shift_mii_bits(sc, 1, 2); /* start symbol */ + shift_mii_bits(sc, 2, 2); /* read op */ + shift_mii_bits(sc, 0, 5); /* phyad=0 */ + shift_mii_bits(sc, regad, 5); /* regad */ + csr = READ_CSR(TLP_SROM_MII); + csr |= TLP_MII_MDOE; + WRITE_CSR(TLP_SROM_MII, csr); + shift_mii_bits(sc, 0, 2); /* turn-around */ + for (i=15; i>=0; i--) /* data */ + { /* MSB first */ + csr = READ_CSR(TLP_SROM_MII); /* MDIN sampled */ + data = (data<<1) | ((csr & TLP_MII_MDIN) ? 1:0); + csr |= TLP_MII_MDC; /* MDC rising edge */ + WRITE_CSR(TLP_SROM_MII, csr); + csr &= ~TLP_MII_MDC; /* MDC falling edge */ + WRITE_CSR(TLP_SROM_MII, csr); + } + return data; + } + +static void +write_mii(softc_t *sc, u_int8_t regad, u_int16_t data) + { + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOUT); + shift_mii_bits(sc, 0xFFFFF, 20); /* preamble */ + shift_mii_bits(sc, 0xFFFFF, 20); /* preamble */ + shift_mii_bits(sc, 1, 2); /* start symbol */ + shift_mii_bits(sc, 1, 2); /* write op */ + shift_mii_bits(sc, 0, 5); /* phyad=0 */ + shift_mii_bits(sc, regad, 5); /* regad */ + shift_mii_bits(sc, 2, 2); /* turn-around */ + shift_mii_bits(sc, data, 16); /* data */ + WRITE_CSR(TLP_SROM_MII, TLP_MII_MDOE); + if (regad == 16) sc->led_state = data; /* a small optimization */ + } + +static void +set_mii16_bits(softc_t *sc, u_int16_t bits) + { + u_int16_t mii16 = read_mii(sc, 16); + mii16 |= bits; + write_mii(sc, 16, mii16); + } + +static void +clr_mii16_bits(softc_t *sc, u_int16_t bits) + { + u_int16_t mii16 = read_mii(sc, 16); + mii16 &= ~bits; + write_mii(sc, 16, mii16); + } + +static void +set_mii17_bits(softc_t *sc, u_int16_t bits) + { + u_int16_t mii17 = read_mii(sc, 17); + mii17 |= bits; + write_mii(sc, 17, mii17); + } + +static void +clr_mii17_bits(softc_t *sc, u_int16_t bits) + { + u_int16_t mii17 = read_mii(sc, 17); + mii17 &= ~bits; + write_mii(sc, 17, mii17); + } + +/* + * Watchdog code is more readable if it refreshes LEDs + * once a second whether they need it or not. + * But MII refs take 150 uSecs each, so remember the last value + * written to MII16 and avoid LED writes that do nothing. + */ + +static void +led_off(softc_t *sc, u_int16_t led) + { + if ((led & sc->led_state) == led) return; + set_mii16_bits(sc, led); + } + +static void +led_on(softc_t *sc, u_int16_t led) + { + if ((led & sc->led_state) == 0) return; + clr_mii16_bits(sc, led); + } + +static void +led_inv(softc_t *sc, u_int16_t led) + { + u_int16_t mii16 = read_mii(sc, 16); + mii16 ^= led; + write_mii(sc, 16, mii16); + } + +/* + * T1 & T3 framer registers are accessed through MII regs 17 & 18. + * Write the address to MII reg 17 then R/W data through MII reg 18. + * The hardware interface is an Intel-style 8-bit muxed A/D bus. + */ +static void +write_framer(softc_t *sc, u_int16_t addr, u_int8_t data) + { + write_mii(sc, 17, addr); + write_mii(sc, 18, data); + } + +static u_int8_t +read_framer(softc_t *sc, u_int16_t addr) + { + write_mii(sc, 17, addr); + return (u_int8_t)read_mii(sc, 18); + } + +/* Tulip's hardware implementation of General Purpose IO + * (GPIO) pins makes life difficult for software. + * Bits 7-0 in the Tulip GPIO CSR are used for two purposes + * depending on the state of bit 8. + * If bit 8 is 0 then bits 7-0 are "data" bits. + * If bit 8 is 1 then bits 7-0 are "direction" bits. + * If a direction bit is one, the data bit is an output. + * The problem is that the direction bits are WRITE-ONLY. + * Software must remember the direction bits in a shadow copy. + * (sc->gpio_dir) in order to change some but not all of the bits. + * All accesses to the Tulip GPIO register use these five procedures. + */ + +static void +make_gpio_input(softc_t *sc, u_int32_t bits) + { + sc->gpio_dir &= ~bits; + WRITE_CSR(TLP_GPIO, TLP_GPIO_DIR | (sc->gpio_dir)); + } + +static void +make_gpio_output(softc_t *sc, u_int32_t bits) + { + sc->gpio_dir |= bits; + WRITE_CSR(TLP_GPIO, TLP_GPIO_DIR | (sc->gpio_dir)); + } + +static u_int32_t +read_gpio(softc_t *sc) + { + return READ_CSR(TLP_GPIO); + } + +static void +set_gpio_bits(softc_t *sc, u_int32_t bits) + { + WRITE_CSR(TLP_GPIO, (read_gpio(sc) | bits) & 0xFF); + } + +static void +clr_gpio_bits(softc_t *sc, u_int32_t bits) + { + WRITE_CSR(TLP_GPIO, (read_gpio(sc) & ~bits) & 0xFF); + } + +/* Reset ALL of the flip-flops in the gate array to zero. */ +/* This does NOT change the gate array programming. */ +/* Called during initialization so it must not sleep. */ +static void +reset_xilinx(softc_t *sc) + { + /* Drive RESET low to force initialization. */ + clr_gpio_bits(sc, GPIO_RESET); + make_gpio_output(sc, GPIO_RESET); + + /* Hold RESET low for more than 10 uSec. */ + DELAY(50); + + /* Done with RESET; make it an input. */ + make_gpio_input(sc, GPIO_RESET); + } + +/* Load Xilinx gate array program from on-board rom. */ +/* This changes the gate array programming. */ +/* IOCTL SYSCALL: can sleep. */ +static void +load_xilinx_from_rom(softc_t *sc) + { + int i; + + /* Drive MODE low to load from ROM rather than GPIO. */ + clr_gpio_bits(sc, GPIO_MODE); + make_gpio_output(sc, GPIO_MODE); + + /* Drive DP & RESET low to force configuration. */ + clr_gpio_bits(sc, GPIO_RESET | GPIO_DP); + make_gpio_output(sc, GPIO_RESET | GPIO_DP); + + /* Hold RESET & DP low for more than 10 uSec. */ + DELAY(50); + + /* Done with RESET & DP; make them inputs. */ + make_gpio_input(sc, GPIO_DP | GPIO_RESET); + + /* BUSY-WAIT for Xilinx chip to configure itself from ROM bits. */ + for (i=0; i<100; i++) /* 1 sec max delay */ + if ((read_gpio(sc) & GPIO_DP) == 0) SLEEP(10000); + + /* Done with MODE; make it an input. */ + make_gpio_input(sc, GPIO_MODE); + } + +/* Load the Xilinx gate array program from userland bits. */ +/* This changes the gate array programming. */ +/* IOCTL SYSCALL: can sleep. */ +static int +load_xilinx_from_file(softc_t *sc, char *addr, u_int32_t len) + { + char *data; + int i, j, error; + + /* Get some pages to hold the Xilinx bits; biggest file is < 6 KB. */ + if (len > 8192) return EFBIG; /* too big */ + data = malloc(len, M_DEVBUF, M_WAITOK); + if (data == NULL) return ENOMEM; + + /* Copy the Xilinx bits from userland. */ + if ((error = copyin(addr, data, len))) + { + free(data, M_DEVBUF); + return error; + } + + /* Drive MODE high to load from GPIO rather than ROM. */ + set_gpio_bits(sc, GPIO_MODE); + make_gpio_output(sc, GPIO_MODE); + + /* Drive DP & RESET low to force configuration. */ + clr_gpio_bits(sc, GPIO_RESET | GPIO_DP); + make_gpio_output(sc, GPIO_RESET | GPIO_DP); + + /* Hold RESET & DP low for more than 10 uSec. */ + DELAY(50); + + /* Done with RESET & DP; make them inputs. */ + make_gpio_input(sc, GPIO_RESET | GPIO_DP); + + /* BUSY-WAIT for Xilinx chip to clear its config memory. */ + make_gpio_input(sc, GPIO_INIT); + for (i=0; i<10000; i++) /* 1 sec max delay */ + if ((read_gpio(sc) & GPIO_INIT)==0) SLEEP(10000); + + /* Configure CLK and DATA as outputs. */ + set_gpio_bits(sc, GPIO_CLK); /* park CLK high */ + make_gpio_output(sc, GPIO_CLK | GPIO_DATA); + + /* Write bits to Xilinx; CLK is parked HIGH. */ + /* DATA is set up before the RISING edge of CLK. */ + for (i=0; istatus.card_type == TLP_CSID_SSI) + { + if (synth->prescale == 9) /* divide by 512 */ + set_mii17_bits(sc, MII17_SSI_PRESCALE); + else /* divide by 32 */ + clr_mii17_bits(sc, MII17_SSI_PRESCALE); + } + + clr_gpio_bits(sc, GPIO_DATA | GPIO_CLK); + make_gpio_output(sc, GPIO_DATA | GPIO_CLK); + + /* SYNTH is a low-true chip enable for the AV9110 chip. */ + set_gpio_bits(sc, GPIO_SSI_SYNTH); + make_gpio_output(sc, GPIO_SSI_SYNTH); + clr_gpio_bits(sc, GPIO_SSI_SYNTH); + + /* Serially shift the command into the AV9110 chip. */ + shift_synth_bits(sc, synth->n, 7); + shift_synth_bits(sc, synth->m, 7); + shift_synth_bits(sc, synth->v, 1); + shift_synth_bits(sc, synth->x, 2); + shift_synth_bits(sc, synth->r, 2); + shift_synth_bits(sc, 0x16, 5); /* enable clk/x output */ + + /* SYNTH (chip enable) going high ends the command. */ + set_gpio_bits(sc, GPIO_SSI_SYNTH); + make_gpio_input(sc, GPIO_SSI_SYNTH); + + /* Stop driving serial-related signals; pullups/pulldowns take over. */ + make_gpio_input(sc, GPIO_DATA | GPIO_CLK); + + /* remember the new synthesizer parameters */ + if (&sc->config.synth != synth) sc->config.synth = *synth; + } + +/* Write a command to the DAC controlling the VCXO on some T3 adapters. */ +/* The DAC is a TI-TLV5636: 12-bit resolution and a serial interface. */ +/* DATA is set up before the FALLING edge of CLK. CLK is parked HIGH. */ +static void +write_dac(softc_t *sc, u_int16_t data) + { + int i; + + /* Prepare to use DATA and CLK. */ + set_gpio_bits(sc, GPIO_DATA | GPIO_CLK); + make_gpio_output(sc, GPIO_DATA | GPIO_CLK); + + /* High-to-low transition prepares DAC for new value. */ + set_gpio_bits(sc, GPIO_T3_DAC); + make_gpio_output(sc, GPIO_T3_DAC); + clr_gpio_bits(sc, GPIO_T3_DAC); + + /* Serially shift command bits into DAC. */ + for (i=0; i<16; i++) + { /* MSB first */ + if ((data & (1<<(15-i))) != 0) + set_gpio_bits(sc, GPIO_DATA); /* DATA setup */ + else + clr_gpio_bits(sc, GPIO_DATA); /* DATA setup */ + clr_gpio_bits(sc, GPIO_CLK); /* CLK falling edge */ + set_gpio_bits(sc, GPIO_CLK); /* CLK rising edge */ + } + + /* Done with DAC; make it an input; loads new value into DAC. */ + set_gpio_bits(sc, GPIO_T3_DAC); + make_gpio_input(sc, GPIO_T3_DAC); + + /* Stop driving serial-related signals; pullups/pulldowns take over. */ + make_gpio_input(sc, GPIO_DATA | GPIO_CLK); + } + +/* begin HSSI card code */ + +/* Must not sleep. */ +static void +hssi_config(softc_t *sc) + { + if (sc->status.card_type == 0) + { /* defaults */ + sc->status.card_type = READ_PCI_CFG(sc, TLP_CSID); + sc->config.crc_len = CFG_CRC_16; + sc->config.loop_back = CFG_LOOP_NONE; + sc->config.tx_clk_src = CFG_CLKMUX_ST; + sc->config.dte_dce = CFG_DTE; + sc->config.synth.n = 52; /* 52.000 Mbs */ + sc->config.synth.m = 5; + sc->config.synth.v = 0; + sc->config.synth.x = 0; + sc->config.synth.r = 0; + sc->config.synth.prescale = 2; + } + + /* set CRC length */ + if (sc->config.crc_len == CFG_CRC_32) + set_mii16_bits(sc, MII16_HSSI_CRC32); + else + clr_mii16_bits(sc, MII16_HSSI_CRC32); + + /* Assert pin LA in HSSI conn: ask modem for local loop. */ + if (sc->config.loop_back == CFG_LOOP_LL) + set_mii16_bits(sc, MII16_HSSI_LA); + else + clr_mii16_bits(sc, MII16_HSSI_LA); + + /* Assert pin LB in HSSI conn: ask modem for remote loop. */ + if (sc->config.loop_back == CFG_LOOP_RL) + set_mii16_bits(sc, MII16_HSSI_LB); + else + clr_mii16_bits(sc, MII16_HSSI_LB); + + if (sc->status.card_type == TLP_CSID_HSSI) + { + /* set TXCLK src */ + if (sc->config.tx_clk_src == CFG_CLKMUX_ST) + set_gpio_bits(sc, GPIO_HSSI_TXCLK); + else + clr_gpio_bits(sc, GPIO_HSSI_TXCLK); + make_gpio_output(sc, GPIO_HSSI_TXCLK); + } + else if (sc->status.card_type == TLP_CSID_HSSIc) + { /* cPCI HSSI rev C has extra features */ + /* Set TXCLK source. */ + u_int16_t mii16 = read_mii(sc, 16); + mii16 &= ~MII16_HSSI_CLKMUX; + mii16 |= (sc->config.tx_clk_src&3)<<13; + write_mii(sc, 16, mii16); + + /* cPCI HSSI implements loopback towards the net. */ + if (sc->config.loop_back == CFG_LOOP_LINE) + set_mii16_bits(sc, MII16_HSSI_LOOP); + else + clr_mii16_bits(sc, MII16_HSSI_LOOP); + + /* Set DTE/DCE mode. */ + if (sc->config.dte_dce == CFG_DCE) + set_gpio_bits(sc, GPIO_HSSI_DCE); + else + clr_gpio_bits(sc, GPIO_HSSI_DCE); + make_gpio_output(sc, GPIO_HSSI_DCE); + + /* Program the synthesized oscillator. */ + write_synth(sc, &sc->config.synth); + } + } + +static void +hssi_ident(softc_t *sc) + { + } + +/* Called once a second; must not sleep. */ +static int +hssi_watchdog(softc_t *sc) + { + u_int16_t mii16 = read_mii(sc, 16) & MII16_HSSI_MODEM; + int link_status = STATUS_UP; + + led_inv(sc, MII16_HSSI_LED_UL); /* Software is alive. */ + led_on(sc, MII16_HSSI_LED_LL); /* always on (SSI cable) */ + + /* Check the transmit clock. */ + if (sc->status.tx_speed == 0) + { + led_on(sc, MII16_HSSI_LED_UR); + link_status = STATUS_DOWN; + } + else + led_off(sc, MII16_HSSI_LED_UR); + + /* Is the modem ready? */ + if ((mii16 & MII16_HSSI_CA) == 0) + { + led_off(sc, MII16_HSSI_LED_LR); + link_status = STATUS_DOWN; + } + else + led_on(sc, MII16_HSSI_LED_LR); + + /* Print the modem control signals if they changed. */ + if ((DRIVER_DEBUG) && (mii16 != sc->last_mii16)) + { + char *on = "ON ", *off = "OFF"; + printf("%s: TA=%s CA=%s LA=%s LB=%s LC=%s TM=%s\n", NAME_UNIT, + (mii16 & MII16_HSSI_TA) ? on : off, + (mii16 & MII16_HSSI_CA) ? on : off, + (mii16 & MII16_HSSI_LA) ? on : off, + (mii16 & MII16_HSSI_LB) ? on : off, + (mii16 & MII16_HSSI_LC) ? on : off, + (mii16 & MII16_HSSI_TM) ? on : off); + } + + /* SNMP one-second-report */ + sc->status.snmp.hssi.sigs = mii16 & MII16_HSSI_MODEM; + + /* Remember this state until next time. */ + sc->last_mii16 = mii16; + + /* If a loop back is in effect, link status is UP */ + if (sc->config.loop_back != CFG_LOOP_NONE) + link_status = STATUS_UP; + + return link_status; + } + +/* IOCTL SYSCALL: can sleep (but doesn't). */ +static int +hssi_ioctl(softc_t *sc, struct ioctl *ioctl) + { + int error = 0; + + if (ioctl->cmd == IOCTL_SNMP_SIGS) + { + u_int16_t mii16 = read_mii(sc, 16); + mii16 &= ~MII16_HSSI_MODEM; + mii16 |= (MII16_HSSI_MODEM & ioctl->data); + write_mii(sc, 16, mii16); + } + else if (ioctl->cmd == IOCTL_SET_STATUS) + { + if (ioctl->data != 0) + set_mii16_bits(sc, MII16_HSSI_TA); + else + clr_mii16_bits(sc, MII16_HSSI_TA); + } + else + error = EINVAL; + + return error; + } + +/* begin DS3 card code */ + +/* Must not sleep. */ +static void +t3_config(softc_t *sc) + { + int i; + u_int8_t ctl1; + + if (sc->status.card_type == 0) + { /* defaults */ + sc->status.card_type = TLP_CSID_T3; + sc->config.crc_len = CFG_CRC_16; + sc->config.loop_back = CFG_LOOP_NONE; + sc->config.format = CFG_FORMAT_T3CPAR; + sc->config.cable_len = 10; /* meters */ + sc->config.scrambler = CFG_SCRAM_DL_KEN; + sc->config.tx_clk_src = CFG_CLKMUX_INT; + + /* Center the VCXO -- get within 20 PPM of 44736000. */ + write_dac(sc, 0x9002); /* set Vref = 2.048 volts */ + write_dac(sc, 2048); /* range is 0..4095 */ + } + + /* Set cable length. */ + if (sc->config.cable_len > 30) + clr_mii16_bits(sc, MII16_DS3_ZERO); + else + set_mii16_bits(sc, MII16_DS3_ZERO); + + /* Set payload scrambler polynomial. */ + if (sc->config.scrambler == CFG_SCRAM_LARS) + set_mii16_bits(sc, MII16_DS3_POLY); + else + clr_mii16_bits(sc, MII16_DS3_POLY); + + /* Set payload scrambler on/off. */ + if (sc->config.scrambler == CFG_SCRAM_OFF) + clr_mii16_bits(sc, MII16_DS3_SCRAM); + else + set_mii16_bits(sc, MII16_DS3_SCRAM); + + /* Set CRC length. */ + if (sc->config.crc_len == CFG_CRC_32) + set_mii16_bits(sc, MII16_DS3_CRC32); + else + clr_mii16_bits(sc, MII16_DS3_CRC32); + + /* Loopback towards host thru the line interface. */ + if (sc->config.loop_back == CFG_LOOP_OTHER) + set_mii16_bits(sc, MII16_DS3_TRLBK); + else + clr_mii16_bits(sc, MII16_DS3_TRLBK); + + /* Loopback towards network thru the line interface. */ + if (sc->config.loop_back == CFG_LOOP_LINE) + set_mii16_bits(sc, MII16_DS3_LNLBK); + else if (sc->config.loop_back == CFG_LOOP_DUAL) + set_mii16_bits(sc, MII16_DS3_LNLBK); + else + clr_mii16_bits(sc, MII16_DS3_LNLBK); + + /* Configure T3 framer chip; write EVERY writeable register. */ + ctl1 = CTL1_SER | CTL1_XTX; + if (sc->config.loop_back == CFG_LOOP_INWARD) ctl1 |= CTL1_3LOOP; + if (sc->config.loop_back == CFG_LOOP_DUAL) ctl1 |= CTL1_3LOOP; + if (sc->config.format == CFG_FORMAT_T3M13) ctl1 |= CTL1_M13MODE; + write_framer(sc, T3CSR_CTL1, ctl1); + write_framer(sc, T3CSR_TX_FEAC, CTL5_EMODE); + write_framer(sc, T3CSR_CTL8, CTL8_FBEC); + write_framer(sc, T3CSR_CTL12, CTL12_DLCB1 | CTL12_C21 | CTL12_MCB1); + write_framer(sc, T3CSR_DBL_FEAC, 0); + write_framer(sc, T3CSR_CTL14, CTL14_RGCEN | CTL14_TGCEN); + write_framer(sc, T3CSR_INTEN, 0); + write_framer(sc, T3CSR_CTL20, CTL20_CVEN); + + /* Clear error counters and latched error bits */ + /* that may have happened while initializing. */ + for (i=0; i<21; i++) read_framer(sc, i); + } + +static void +t3_ident(softc_t *sc) + { + printf(", TXC03401 rev B"); + } + +/* Called once a second; must not sleep. */ +static int +t3_watchdog(softc_t *sc) + { + u_int16_t CV; + u_int8_t CERR, PERR, MERR, FERR, FEBE; + u_int8_t ctl1, stat16, feac; + int link_status = STATUS_UP; + u_int16_t mii16; + + /* Read the alarm registers. */ + ctl1 = read_framer(sc, T3CSR_CTL1); + stat16 = read_framer(sc, T3CSR_STAT16); + mii16 = read_mii(sc, 16); + + /* Always ignore the RTLOC alarm bit. */ + stat16 &= ~STAT16_RTLOC; + + /* Software is alive. */ + led_inv(sc, MII16_DS3_LED_GRN); + + /* Receiving Alarm Indication Signal (AIS). */ + if ((stat16 & STAT16_RAIS) != 0) /* receiving ais */ + led_on(sc, MII16_DS3_LED_BLU); + else if (ctl1 & CTL1_TXAIS) /* sending ais */ + led_inv(sc, MII16_DS3_LED_BLU); + else + led_off(sc, MII16_DS3_LED_BLU); + + /* Receiving Remote Alarm Indication (RAI). */ + if ((stat16 & STAT16_XERR) != 0) /* receiving rai */ + led_on(sc, MII16_DS3_LED_YEL); + else if ((ctl1 & CTL1_XTX) == 0) /* sending rai */ + led_inv(sc, MII16_DS3_LED_YEL); + else + led_off(sc, MII16_DS3_LED_YEL); + + /* If certain status bits are set then the link is 'down'. */ + /* The bad bits are: rxlos rxoof rxais rxidl xerr. */ + if ((stat16 & ~(STAT16_FEAC | STAT16_SEF)) != 0) + link_status = STATUS_DOWN; + + /* Declare local Red Alarm if the link is down. */ + if (link_status == STATUS_DOWN) + led_on(sc, MII16_DS3_LED_RED); + else if (sc->loop_timer != 0) /* loopback is active */ + led_inv(sc, MII16_DS3_LED_RED); + else + led_off(sc, MII16_DS3_LED_RED); + + /* Print latched error bits if they changed. */ + if ((DRIVER_DEBUG) && ((stat16 & ~STAT16_FEAC) != sc->last_stat16)) + { + char *on = "ON ", *off = "OFF"; + printf("%s: RLOS=%s ROOF=%s RAIS=%s RIDL=%s SEF=%s XERR=%s\n", + NAME_UNIT, + (stat16 & STAT16_RLOS) ? on : off, + (stat16 & STAT16_ROOF) ? on : off, + (stat16 & STAT16_RAIS) ? on : off, + (stat16 & STAT16_RIDL) ? on : off, + (stat16 & STAT16_SEF) ? on : off, + (stat16 & STAT16_XERR) ? on : off); + } + + /* Check and print error counters if non-zero. */ + CV = read_framer(sc, T3CSR_CVHI)<<8; + CV += read_framer(sc, T3CSR_CVLO); + PERR = read_framer(sc, T3CSR_PERR); + CERR = read_framer(sc, T3CSR_CERR); + FERR = read_framer(sc, T3CSR_FERR); + MERR = read_framer(sc, T3CSR_MERR); + FEBE = read_framer(sc, T3CSR_FEBE); + + /* CV is invalid during LOS. */ + if ((stat16 & STAT16_RLOS)!=0) CV = 0; + /* CERR & FEBE are invalid in M13 mode */ + if (sc->config.format == CFG_FORMAT_T3M13) CERR = FEBE = 0; + /* FEBE is invalid during AIS. */ + if ((stat16 & STAT16_RAIS)!=0) FEBE = 0; + if (DRIVER_DEBUG && (CV || PERR || CERR || FERR || MERR || FEBE)) + printf("%s: CV=%u PERR=%u CERR=%u FERR=%u MERR=%u FEBE=%u\n", + NAME_UNIT, CV, PERR, CERR, FERR, MERR, FEBE); + + /* Driver keeps crude link-level error counters (SNMP is better). */ + sc->status.cntrs.lcv_errs += CV; + sc->status.cntrs.par_errs += PERR; + sc->status.cntrs.cpar_errs += CERR; + sc->status.cntrs.frm_errs += FERR; + sc->status.cntrs.mfrm_errs += MERR; + sc->status.cntrs.febe_errs += FEBE; + + /* Check for FEAC messages (FEAC not defined in M13 mode). */ + if (FORMAT_T3CPAR && (stat16 & STAT16_FEAC)) do + { + feac = read_framer(sc, T3CSR_FEAC_STK); + if ((feac & FEAC_STK_VALID)==0) break; + /* Ignore RxFEACs while a far end loopback has been requested. */ + if ((sc->status.snmp.t3.line & TLOOP_FAR_LINE)!=0) continue; + switch (feac & FEAC_STK_FEAC) + { + case T3BOP_LINE_UP: break; + case T3BOP_LINE_DOWN: break; + case T3BOP_LOOP_DS3: + { + if (sc->last_FEAC == T3BOP_LINE_DOWN) + { + if (DRIVER_DEBUG) + printf("%s: Received a 'line loopback deactivate' FEAC msg\n", NAME_UNIT); + clr_mii16_bits(sc, MII16_DS3_LNLBK); + sc->loop_timer = 0; + } + if (sc->last_FEAC == T3BOP_LINE_UP) + { + if (DRIVER_DEBUG) + printf("%s: Received a 'line loopback activate' FEAC msg\n", NAME_UNIT); + set_mii16_bits(sc, MII16_DS3_LNLBK); + sc->loop_timer = 300; + } + break; + } + case T3BOP_OOF: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'far end LOF' FEAC msg\n", NAME_UNIT); + break; + } + case T3BOP_IDLE: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'far end IDL' FEAC msg\n", NAME_UNIT); + break; + } + case T3BOP_AIS: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'far end AIS' FEAC msg\n", NAME_UNIT); + break; + } + case T3BOP_LOS: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'far end LOS' FEAC msg\n", NAME_UNIT); + break; + } + default: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'type 0x%02X' FEAC msg\n", NAME_UNIT, feac & FEAC_STK_FEAC); + break; + } + } + sc->last_FEAC = feac & FEAC_STK_FEAC; + } while ((feac & FEAC_STK_MORE) != 0); + stat16 &= ~STAT16_FEAC; + + /* Send Service-Affecting priority FEAC messages */ + if (((sc->last_stat16 ^ stat16) & 0xF0) && (FORMAT_T3CPAR)) + { + /* Transmit continuous FEACs */ + write_framer(sc, T3CSR_CTL14, + read_framer(sc, T3CSR_CTL14) & ~CTL14_FEAC10); + if ((stat16 & STAT16_RLOS)!=0) + write_framer(sc, T3CSR_TX_FEAC, 0xC0 + T3BOP_LOS); + else if ((stat16 & STAT16_ROOF)!=0) + write_framer(sc, T3CSR_TX_FEAC, 0xC0 + T3BOP_OOF); + else if ((stat16 & STAT16_RAIS)!=0) + write_framer(sc, T3CSR_TX_FEAC, 0xC0 + T3BOP_AIS); + else if ((stat16 & STAT16_RIDL)!=0) + write_framer(sc, T3CSR_TX_FEAC, 0xC0 + T3BOP_IDLE); + else + write_framer(sc, T3CSR_TX_FEAC, CTL5_EMODE); + } + + /* Start sending RAI, Remote Alarm Indication. */ + if (((stat16 & STAT16_ROOF)!=0) && ((stat16 & STAT16_RLOS)==0) && + ((sc->last_stat16 & STAT16_ROOF)==0)) + write_framer(sc, T3CSR_CTL1, ctl1 &= ~CTL1_XTX); + /* Stop sending RAI, Remote Alarm Indication. */ + else if (((stat16 & STAT16_ROOF)==0) && ((sc->last_stat16 & STAT16_ROOF)!=0)) + write_framer(sc, T3CSR_CTL1, ctl1 |= CTL1_XTX); + + /* Start sending AIS, Alarm Indication Signal */ + if (((stat16 & STAT16_RLOS)!=0) && ((sc->last_stat16 & STAT16_RLOS)==0)) + { + set_mii16_bits(sc, MII16_DS3_FRAME); + write_framer(sc, T3CSR_CTL1, ctl1 | CTL1_TXAIS); + } + /* Stop sending AIS, Alarm Indication Signal */ + else if (((stat16 & STAT16_RLOS)==0) && ((sc->last_stat16 & STAT16_RLOS)!=0)) + { + clr_mii16_bits(sc, MII16_DS3_FRAME); + write_framer(sc, T3CSR_CTL1, ctl1 & ~CTL1_TXAIS); + } + + /* Time out loopback requests. */ + if (sc->loop_timer != 0) + if (--sc->loop_timer == 0) + if ((mii16 & MII16_DS3_LNLBK)!=0) + { + if (DRIVER_DEBUG) + printf("%s: Timeout: Loop Down after 300 seconds\n", NAME_UNIT); + clr_mii16_bits(sc, MII16_DS3_LNLBK); /* line loopback off */ + } + + /* SNMP error counters */ + sc->status.snmp.t3.lcv = CV; + sc->status.snmp.t3.pcv = PERR; + sc->status.snmp.t3.ccv = CERR; + sc->status.snmp.t3.febe = FEBE; + + /* SNMP Line Status */ + sc->status.snmp.t3.line = 0; + if ((ctl1 & CTL1_XTX)==0) sc->status.snmp.t3.line |= TLINE_TX_RAI; + if (stat16 & STAT16_XERR) sc->status.snmp.t3.line |= TLINE_RX_RAI; + if (ctl1 & CTL1_TXAIS) sc->status.snmp.t3.line |= TLINE_TX_AIS; + if (stat16 & STAT16_RAIS) sc->status.snmp.t3.line |= TLINE_RX_AIS; + if (stat16 & STAT16_ROOF) sc->status.snmp.t3.line |= TLINE_LOF; + if (stat16 & STAT16_RLOS) sc->status.snmp.t3.line |= TLINE_LOS; + if (stat16 & STAT16_SEF) sc->status.snmp.t3.line |= T3LINE_SEF; + + /* SNMP Loopback Status */ + sc->status.snmp.t3.loop &= ~TLOOP_FAR_LINE; + if (sc->config.loop_back == CFG_LOOP_TULIP) + sc->status.snmp.t3.loop |= TLOOP_NEAR_OTHER; + if (ctl1 & CTL1_3LOOP) sc->status.snmp.t3.loop |= TLOOP_NEAR_INWARD; + if (mii16 & MII16_DS3_TRLBK) sc->status.snmp.t3.loop |= TLOOP_NEAR_OTHER; + if (mii16 & MII16_DS3_LNLBK) sc->status.snmp.t3.loop |= TLOOP_NEAR_LINE; +/*if (ctl12 & CTL12_RTPLOOP) sc->status.snmp.t3.loop |= TLOOP_NEAR_PAYLOAD; */ + + /* Remember this state until next time. */ + sc->last_stat16 = stat16; + + /* If an INWARD loopback is in effect, link status is UP */ + if (sc->config.loop_back != CFG_LOOP_NONE) /* XXX INWARD ONLY */ + link_status = STATUS_UP; + + return link_status; + } + +/* IOCTL SYSCALL: can sleep. */ +static void +t3_send_dbl_feac(softc_t *sc, int feac1, int feac2) + { + u_int8_t tx_feac; + int i; + + /* The FEAC transmitter could be sending a continuous */ + /* FEAC msg when told to send a double FEAC message. */ + /* So save the current state of the FEAC transmitter. */ + tx_feac = read_framer(sc, T3CSR_TX_FEAC); + /* Load second FEAC code and stop FEAC transmitter. */ + write_framer(sc, T3CSR_TX_FEAC, CTL5_EMODE + feac2); + /* FEAC transmitter sends 10 more FEACs and then stops. */ + SLEEP(20000); /* sending one FEAC takes 1700 uSecs */ + /* Load first FEAC code and start FEAC transmitter. */ + write_framer(sc, T3CSR_DBL_FEAC, CTL13_DFEXEC + feac1); + /* Wait for double FEAC sequence to complete -- about 70 ms. */ + for (i=0; i<10; i++) /* max delay 100 ms */ + if (read_framer(sc, T3CSR_DBL_FEAC) & CTL13_DFEXEC) SLEEP(10000); + /* Flush received FEACS; don't respond to our own loop cmd! */ + while (read_framer(sc, T3CSR_FEAC_STK) & FEAC_STK_VALID) DELAY(1); /* XXX HANG */ + /* Restore previous state of the FEAC transmitter. */ + /* If it was sending a continous FEAC, it will resume. */ + write_framer(sc, T3CSR_TX_FEAC, tx_feac); + } + +/* IOCTL SYSCALL: can sleep. */ +static int +t3_ioctl(softc_t *sc, struct ioctl *ioctl) + { + int error = 0; + + switch (ioctl->cmd) + { + case IOCTL_SNMP_SEND: /* set opstatus? */ + { + if (sc->config.format != CFG_FORMAT_T3CPAR) + error = EINVAL; + else if (ioctl->data == TSEND_LINE) + { + sc->status.snmp.t3.loop |= TLOOP_FAR_LINE; + t3_send_dbl_feac(sc, T3BOP_LINE_UP, T3BOP_LOOP_DS3); + } + else if (ioctl->data == TSEND_RESET) + { + t3_send_dbl_feac(sc, T3BOP_LINE_DOWN, T3BOP_LOOP_DS3); + sc->status.snmp.t3.loop &= ~TLOOP_FAR_LINE; + } + else + error = EINVAL; + break; + } + case IOCTL_SNMP_LOOP: /* set opstatus = test? */ + { + if (ioctl->data == CFG_LOOP_NONE) + { + clr_mii16_bits(sc, MII16_DS3_FRAME); + clr_mii16_bits(sc, MII16_DS3_TRLBK); + clr_mii16_bits(sc, MII16_DS3_LNLBK); + write_framer(sc, T3CSR_CTL1, + read_framer(sc, T3CSR_CTL1) & ~CTL1_3LOOP); + write_framer(sc, T3CSR_CTL12, + read_framer(sc, T3CSR_CTL12) & ~(CTL12_RTPLOOP | CTL12_RTPLLEN)); + } + else if (ioctl->data == CFG_LOOP_LINE) + set_mii16_bits(sc, MII16_DS3_LNLBK); + else if (ioctl->data == CFG_LOOP_OTHER) + set_mii16_bits(sc, MII16_DS3_TRLBK); + else if (ioctl->data == CFG_LOOP_INWARD) + write_framer(sc, T3CSR_CTL1, + read_framer(sc, T3CSR_CTL1) | CTL1_3LOOP); + else if (ioctl->data == CFG_LOOP_DUAL) + { + set_mii16_bits(sc, MII16_DS3_LNLBK); + write_framer(sc, T3CSR_CTL1, + read_framer(sc, T3CSR_CTL1) | CTL1_3LOOP); + } + else if (ioctl->data == CFG_LOOP_PAYLOAD) + { + set_mii16_bits(sc, MII16_DS3_FRAME); + write_framer(sc, T3CSR_CTL12, + read_framer(sc, T3CSR_CTL12) | CTL12_RTPLOOP); + write_framer(sc, T3CSR_CTL12, + read_framer(sc, T3CSR_CTL12) | CTL12_RTPLLEN); + DELAY(25); /* at least two frames (22 uS) */ + write_framer(sc, T3CSR_CTL12, + read_framer(sc, T3CSR_CTL12) & ~CTL12_RTPLLEN); + } + else + error = EINVAL; + break; + } + default: + error = EINVAL; + break; + } + + return error; + } + +/* begin SSI card code */ + +/* Must not sleep. */ +static void +ssi_config(softc_t *sc) + { + if (sc->status.card_type == 0) + { /* defaults */ + sc->status.card_type = TLP_CSID_SSI; + sc->config.crc_len = CFG_CRC_16; + sc->config.loop_back = CFG_LOOP_NONE; + sc->config.tx_clk_src = CFG_CLKMUX_ST; + sc->config.dte_dce = CFG_DTE; + sc->config.synth.n = 51; /* 1.536 MHz */ + sc->config.synth.m = 83; + sc->config.synth.v = 1; + sc->config.synth.x = 1; + sc->config.synth.r = 1; + sc->config.synth.prescale = 4; + } + + /* Disable the TX clock driver while programming the oscillator. */ + clr_gpio_bits(sc, GPIO_SSI_DCE); + make_gpio_output(sc, GPIO_SSI_DCE); + + /* Program the synthesized oscillator. */ + write_synth(sc, &sc->config.synth); + + /* Set DTE/DCE mode. */ + /* If DTE mode then DCD & TXC are received. */ + /* If DCE mode then DCD & TXC are driven. */ + /* Boards with MII rev=4.0 don't drive DCD. */ + if (sc->config.dte_dce == CFG_DCE) + set_gpio_bits(sc, GPIO_SSI_DCE); + else + clr_gpio_bits(sc, GPIO_SSI_DCE); + make_gpio_output(sc, GPIO_SSI_DCE); + + /* Set CRC length. */ + if (sc->config.crc_len == CFG_CRC_32) + set_mii16_bits(sc, MII16_SSI_CRC32); + else + clr_mii16_bits(sc, MII16_SSI_CRC32); + + /* Loop towards host thru cable drivers and receivers. */ + /* Asserts DCD at the far end of a null modem cable. */ + if (sc->config.loop_back == CFG_LOOP_PINS) + set_mii16_bits(sc, MII16_SSI_LOOP); + else + clr_mii16_bits(sc, MII16_SSI_LOOP); + + /* Assert pin LL in modem conn: ask modem for local loop. */ + /* Asserts TM at the far end of a null modem cable. */ + if (sc->config.loop_back == CFG_LOOP_LL) + set_mii16_bits(sc, MII16_SSI_LL); + else + clr_mii16_bits(sc, MII16_SSI_LL); + + /* Assert pin RL in modem conn: ask modem for remote loop. */ + if (sc->config.loop_back == CFG_LOOP_RL) + set_mii16_bits(sc, MII16_SSI_RL); + else + clr_mii16_bits(sc, MII16_SSI_RL); + } + +static void +ssi_ident(softc_t *sc) + { + printf(", LTC1343/44"); + } + +/* Called once a second; must not sleep. */ +static int +ssi_watchdog(softc_t *sc) + { + u_int16_t cable; + u_int16_t mii16 = read_mii(sc, 16) & MII16_SSI_MODEM; + int link_status = STATUS_UP; + + /* Software is alive. */ + led_inv(sc, MII16_SSI_LED_UL); + + /* Check the transmit clock. */ + if (sc->status.tx_speed == 0) + { + led_on(sc, MII16_SSI_LED_UR); + link_status = STATUS_DOWN; + } + else + led_off(sc, MII16_SSI_LED_UR); + + /* Check the external cable. */ + cable = read_mii(sc, 17); + cable = cable & MII17_SSI_CABLE_MASK; + cable = cable >> MII17_SSI_CABLE_SHIFT; + if (cable == 7) + { + led_off(sc, MII16_SSI_LED_LL); /* no cable */ + link_status = STATUS_DOWN; + } + else + led_on(sc, MII16_SSI_LED_LL); + + /* The unit at the other end of the cable is ready if: */ + /* DTE mode and DCD pin is asserted */ + /* DCE mode and DSR pin is asserted */ + if (((sc->config.dte_dce == CFG_DTE) && ((mii16 & MII16_SSI_DCD)==0)) || + ((sc->config.dte_dce == CFG_DCE) && ((mii16 & MII16_SSI_DSR)==0))) + { + led_off(sc, MII16_SSI_LED_LR); + link_status = STATUS_DOWN; + } + else + led_on(sc, MII16_SSI_LED_LR); + + if (DRIVER_DEBUG && (cable != sc->status.cable_type)) + printf("%s: SSI cable type changed to '%s'\n", + NAME_UNIT, ssi_cables[cable]); + sc->status.cable_type = cable; + + /* Print the modem control signals if they changed. */ + if ((DRIVER_DEBUG) && (mii16 != sc->last_mii16)) + { + char *on = "ON ", *off = "OFF"; + printf("%s: DTR=%s DSR=%s RTS=%s CTS=%s DCD=%s RI=%s LL=%s RL=%s TM=%s\n", + NAME_UNIT, + (mii16 & MII16_SSI_DTR) ? on : off, + (mii16 & MII16_SSI_DSR) ? on : off, + (mii16 & MII16_SSI_RTS) ? on : off, + (mii16 & MII16_SSI_CTS) ? on : off, + (mii16 & MII16_SSI_DCD) ? on : off, + (mii16 & MII16_SSI_RI) ? on : off, + (mii16 & MII16_SSI_LL) ? on : off, + (mii16 & MII16_SSI_RL) ? on : off, + (mii16 & MII16_SSI_TM) ? on : off); + } + + /* SNMP one-second report */ + sc->status.snmp.ssi.sigs = mii16 & MII16_SSI_MODEM; + + /* Remember this state until next time. */ + sc->last_mii16 = mii16; + + /* If a loop back is in effect, link status is UP */ + if (sc->config.loop_back != CFG_LOOP_NONE) + link_status = STATUS_UP; + + return link_status; + } + +/* IOCTL SYSCALL: can sleep (but doesn't). */ +static int +ssi_ioctl(softc_t *sc, struct ioctl *ioctl) + { + int error = 0; + + if (ioctl->cmd == IOCTL_SNMP_SIGS) + { + u_int16_t mii16 = read_mii(sc, 16); + mii16 &= ~MII16_SSI_MODEM; + mii16 |= (MII16_SSI_MODEM & ioctl->data); + write_mii(sc, 16, mii16); + } + else if (ioctl->cmd == IOCTL_SET_STATUS) + { + if (ioctl->data != 0) + set_mii16_bits(sc, (MII16_SSI_DTR | MII16_SSI_RTS | MII16_SSI_DCD)); + else + clr_mii16_bits(sc, (MII16_SSI_DTR | MII16_SSI_RTS | MII16_SSI_DCD)); + } + else + error = EINVAL; + + return error; + } + +/* begin T1E1 card code */ + +/* Must not sleep. */ +static void +t1_config(softc_t *sc) + { + int i; + u_int8_t pulse, lbo, gain; + + if (sc->status.card_type == 0) + { /* defaults */ + sc->status.card_type = TLP_CSID_T1E1; + sc->config.crc_len = CFG_CRC_16; + sc->config.loop_back = CFG_LOOP_NONE; + sc->config.tx_clk_src = CFG_CLKMUX_INT; + sc->config.format = CFG_FORMAT_T1ESF; + sc->config.cable_len = 10; + sc->config.time_slots = 0x01FFFFFE; + sc->config.tx_pulse = CFG_PULSE_AUTO; + sc->config.rx_gain = CFG_GAIN_AUTO; + sc->config.tx_lbo = CFG_LBO_AUTO; + + /* Bt8370 occasionally powers up in a loopback mode. */ + /* Data sheet says zero LOOP reg and do a s/w reset. */ + write_framer(sc, Bt8370_LOOP, 0x00); /* no loopback */ + write_framer(sc, Bt8370_CR0, 0x80); /* s/w reset */ + for (i=0; i<10; i++) /* max delay 10 ms */ + if (read_framer(sc, Bt8370_CR0) & 0x80) DELAY(1000); + } + + /* Set CRC length. */ + if (sc->config.crc_len == CFG_CRC_32) + set_mii16_bits(sc, MII16_T1_CRC32); + else + clr_mii16_bits(sc, MII16_T1_CRC32); + + /* Invert HDLC payload data in SF/AMI mode. */ + /* HDLC stuff bits satisfy T1 pulse density. */ + if (FORMAT_T1SF) + set_mii16_bits(sc, MII16_T1_INVERT); + else + clr_mii16_bits(sc, MII16_T1_INVERT); + + /* Set the transmitter output impedance. */ + if (FORMAT_E1ANY) set_mii16_bits(sc, MII16_T1_Z); + + /* 001:CR0 -- Control Register 0 - T1/E1 and frame format */ + write_framer(sc, Bt8370_CR0, sc->config.format); + + /* 002:JAT_CR -- Jitter Attenuator Control Register */ + if (sc->config.tx_clk_src == CFG_CLKMUX_RT) /* loop timing */ + write_framer(sc, Bt8370_JAT_CR, 0xA3); /* JAT in RX path */ + else + { /* 64-bit elastic store; free-running JCLK and CLADO */ + write_framer(sc, Bt8370_JAT_CR, 0x4B); /* assert jcenter */ + write_framer(sc, Bt8370_JAT_CR, 0x43); /* release jcenter */ + } + + /* 00C-013:IERn -- Interrupt Enable Registers */ + for (i=Bt8370_IER7; i<=Bt8370_IER0; i++) + write_framer(sc, i, 0); /* no interrupts; polled */ + + /* 014:LOOP -- loopbacks */ + if (sc->config.loop_back == CFG_LOOP_PAYLOAD) + write_framer(sc, Bt8370_LOOP, LOOP_PAYLOAD); + else if (sc->config.loop_back == CFG_LOOP_LINE) + write_framer(sc, Bt8370_LOOP, LOOP_LINE); + else if (sc->config.loop_back == CFG_LOOP_OTHER) + write_framer(sc, Bt8370_LOOP, LOOP_ANALOG); + else if (sc->config.loop_back == CFG_LOOP_INWARD) + write_framer(sc, Bt8370_LOOP, LOOP_FRAMER); + else if (sc->config.loop_back == CFG_LOOP_DUAL) + write_framer(sc, Bt8370_LOOP, LOOP_DUAL); + else + write_framer(sc, Bt8370_LOOP, 0x00); /* no loopback */ + + /* 015:DL3_TS -- Data Link 3 */ + write_framer(sc, Bt8370_DL3_TS, 0x00); /* disabled */ + + /* 018:PIO -- Programmable I/O */ + write_framer(sc, Bt8370_PIO, 0xFF); /* all pins are outputs */ + + /* 019:POE -- Programmable Output Enable */ + write_framer(sc, Bt8370_POE, 0x00); /* all outputs are enabled */ + + /* 01A;CMUX -- Clock Input Mux */ + if (sc->config.tx_clk_src == CFG_CLKMUX_EXT) + write_framer(sc, Bt8370_CMUX, 0x0C); /* external timing */ + else + write_framer(sc, Bt8370_CMUX, 0x0F); /* internal timing */ + + /* 020:LIU_CR -- Line Interface Unit Config Register */ + write_framer(sc, Bt8370_LIU_CR, 0xC1); /* reset LIU, squelch */ + + /* 022:RLIU_CR -- RX Line Interface Unit Config Reg */ + /* Errata sheet says don't use freeze-short, but we do anyway! */ + write_framer(sc, Bt8370_RLIU_CR, 0xB1); /* AGC=2048, Long Eye */ + + /* Select Rx sensitivity based on cable length. */ + if ((gain = sc->config.rx_gain) == CFG_GAIN_AUTO) + { + if (sc->config.cable_len > 2000) + gain = CFG_GAIN_EXTEND; + else if (sc->config.cable_len > 1000) + gain = CFG_GAIN_LONG; + else if (sc->config.cable_len > 100) + gain = CFG_GAIN_MEDIUM; + else + gain = CFG_GAIN_SHORT; + } + + /* 024:VGA_MAX -- Variable Gain Amplifier Max gain */ + write_framer(sc, Bt8370_VGA_MAX, gain); + + /* 028:PRE_EQ -- Pre Equalizer */ + if (gain == CFG_GAIN_EXTEND) + write_framer(sc, Bt8370_PRE_EQ, 0xE6); /* ON; thresh 6 */ + else + write_framer(sc, Bt8370_PRE_EQ, 0xA6); /* OFF; thresh 6 */ + + /* 038-03C:GAINn -- RX Equalizer gain thresholds */ + write_framer(sc, Bt8370_GAIN0, 0x24); + write_framer(sc, Bt8370_GAIN1, 0x28); + write_framer(sc, Bt8370_GAIN2, 0x2C); + write_framer(sc, Bt8370_GAIN3, 0x30); + write_framer(sc, Bt8370_GAIN4, 0x34); + + /* 040:RCR0 -- Receiver Control Register 0 */ + if (FORMAT_T1ESF) + write_framer(sc, Bt8370_RCR0, 0x05); /* B8ZS, 2/5 FErrs */ + else if (FORMAT_T1SF) + write_framer(sc, Bt8370_RCR0, 0x84); /* AMI, 2/5 FErrs */ + else if (FORMAT_E1NONE) + write_framer(sc, Bt8370_RCR0, 0x41); /* HDB3, rabort */ + else if (FORMAT_E1CRC) + write_framer(sc, Bt8370_RCR0, 0x09); /* HDB3, 3 FErrs or 915 CErrs */ + else /* E1 no CRC */ + write_framer(sc, Bt8370_RCR0, 0x19); /* HDB3, 3 FErrs */ + + /* 041:RPATT -- Receive Test Pattern configuration */ + write_framer(sc, Bt8370_RPATT, 0x3E); /* looking for framed QRSS */ + + /* 042:RLB -- Receive Loop Back code detector config */ + write_framer(sc, Bt8370_RLB, 0x09); /* 6 bits down; 5 bits up */ + + /* 043:LBA -- Loop Back Activate code */ + write_framer(sc, Bt8370_LBA, 0x08); /* 10000 10000 10000 ... */ + + /* 044:LBD -- Loop Back Deactivate code */ + write_framer(sc, Bt8370_LBD, 0x24); /* 100100 100100 100100 ... */ + + /* 045:RALM -- Receive Alarm signal configuration */ + write_framer(sc, Bt8370_RALM, 0x0C); /* yel_intg rlof_intg */ + + /* 046:LATCH -- Alarm/Error/Counter Latch register */ + write_framer(sc, Bt8370_LATCH, 0x1F); /* stop_cnt latch_{cnt,err,alm} */ + + /* Select Pulse Shape based on cable length (T1 only). */ + if ((pulse = sc->config.tx_pulse) == CFG_PULSE_AUTO) + { + if (FORMAT_T1ANY) + { + if (sc->config.cable_len > 200) + pulse = CFG_PULSE_T1CSU; + else if (sc->config.cable_len > 160) + pulse = CFG_PULSE_T1DSX4; + else if (sc->config.cable_len > 120) + pulse = CFG_PULSE_T1DSX3; + else if (sc->config.cable_len > 80) + pulse = CFG_PULSE_T1DSX2; + else if (sc->config.cable_len > 40) + pulse = CFG_PULSE_T1DSX1; + else + pulse = CFG_PULSE_T1DSX0; + } + else + pulse = CFG_PULSE_E1TWIST; + } + + /* Select Line Build Out based on cable length (T1CSU only). */ + if ((lbo = sc->config.tx_lbo) == CFG_LBO_AUTO) + { + if (pulse == CFG_PULSE_T1CSU) + { + if (sc->config.cable_len > 1500) + lbo = CFG_LBO_0DB; + else if (sc->config.cable_len > 1000) + lbo = CFG_LBO_7DB; + else if (sc->config.cable_len > 500) + lbo = CFG_LBO_15DB; + else + lbo = CFG_LBO_22DB; + } + else + lbo = 0; + } + + /* 068:TLIU_CR -- Transmit LIU Control Register */ + write_framer(sc, Bt8370_TLIU_CR, (0x40 | (lbo & 0x30) | (pulse & 0x0E))); + + /* 070:TCR0 -- Transmit Framer Configuration */ + write_framer(sc, Bt8370_TCR0, sc->config.format>>1); + + /* 071:TCR1 -- Transmitter Configuration */ + if (FORMAT_T1SF) + write_framer(sc, Bt8370_TCR1, 0x43); /* tabort, AMI PDV enforced */ + else + write_framer(sc, Bt8370_TCR1, 0x41); /* tabort, B8ZS or HDB3 */ + + /* 072:TFRM -- Transmit Frame format MYEL YEL MF FE CRC FBIT */ + if (sc->config.format == CFG_FORMAT_T1ESF) + write_framer(sc, Bt8370_TFRM, 0x0B); /* - YEL MF - CRC FBIT */ + else if (sc->config.format == CFG_FORMAT_T1SF) + write_framer(sc, Bt8370_TFRM, 0x19); /* - YEL MF - - FBIT */ + else if (sc->config.format == CFG_FORMAT_E1FAS) + write_framer(sc, Bt8370_TFRM, 0x11); /* - YEL - - - FBIT */ + else if (sc->config.format == CFG_FORMAT_E1FASCRC) + write_framer(sc, Bt8370_TFRM, 0x1F); /* - YEL MF FE CRC FBIT */ + else if (sc->config.format == CFG_FORMAT_E1FASCAS) + write_framer(sc, Bt8370_TFRM, 0x31); /* MYEL YEL - - - FBIT */ + else if (sc->config.format == CFG_FORMAT_E1FASCRCCAS) + write_framer(sc, Bt8370_TFRM, 0x3F); /* MYEL YEL MF FE CRC FBIT */ + else if (sc->config.format == CFG_FORMAT_E1NONE) + write_framer(sc, Bt8370_TFRM, 0x00); /* NO FRAMING BITS AT ALL! */ + + /* 073:TERROR -- Transmit Error Insert */ + write_framer(sc, Bt8370_TERROR, 0x00); /* no errors, please! */ + + /* 074:TMAN -- Transmit Manual Sa-byte/FEBE configuration */ + write_framer(sc, Bt8370_TMAN, 0x00); /* none */ + + /* 075:TALM -- Transmit Alarm Signal Configuration */ + if (FORMAT_E1ANY) + write_framer(sc, Bt8370_TALM, 0x38); /* auto_myel auto_yel auto_ais */ + else if (FORMAT_T1ANY) + write_framer(sc, Bt8370_TALM, 0x18); /* auto_yel auto_ais */ + + /* 076:TPATT -- Transmit Test Pattern Configuration */ + write_framer(sc, Bt8370_TPATT, 0x00); /* disabled */ + + /* 077:TLB -- Transmit Inband Loopback Code Configuration */ + write_framer(sc, Bt8370_TLB, 0x00); /* disabled */ + + /* 090:CLAD_CR -- Clack Rate Adapter Configuration */ + if (FORMAT_T1ANY) + write_framer(sc, Bt8370_CLAD_CR, 0x06); /* loop filter gain 1/2^6 */ + else + write_framer(sc, Bt8370_CLAD_CR, 0x08); /* loop filter gain 1/2^8 */ + + /* 091:CSEL -- CLAD frequency Select */ + if (FORMAT_T1ANY) + write_framer(sc, Bt8370_CSEL, 0x55); /* 1544 kHz */ + else + write_framer(sc, Bt8370_CSEL, 0x11); /* 2048 kHz */ + + /* 092:CPHASE -- CLAD Phase detector */ + if (FORMAT_T1ANY) + write_framer(sc, Bt8370_CPHASE, 0x22); /* phase compare @ 386 kHz */ + else + write_framer(sc, Bt8370_CPHASE, 0x00); /* phase compare @ 2048 kHz */ + + if (FORMAT_T1ESF) /* BOP & PRM are enabled in T1ESF mode only. */ + { + /* 0A0:BOP -- Bit Oriented Protocol messages */ + write_framer(sc, Bt8370_BOP, RBOP_25 | TBOP_OFF); + /* 0A4:DL1_TS -- Data Link 1 Time Slot Enable */ + write_framer(sc, Bt8370_DL1_TS, 0x40); /* FDL bits in odd frames */ + /* 0A6:DL1_CTL -- Data Link 1 Control */ + write_framer(sc, Bt8370_DL1_CTL, 0x03); /* FCS mode, TX on, RX on */ + /* 0A7:RDL1_FFC -- Rx Data Link 1 Fifo Fill Control */ + write_framer(sc, Bt8370_RDL1_FFC, 0x30); /* assert "near full" at 48 */ + /* 0AA:PRM -- Performance Report Messages */ + write_framer(sc, Bt8370_PRM, 0x80); + } + + /* 0D0:SBI_CR -- System Bus Interface Configuration Register */ + if (FORMAT_T1ANY) + write_framer(sc, Bt8370_SBI_CR, 0x47); /* 1.544 with 24 TS +Fbits */ + else + write_framer(sc, Bt8370_SBI_CR, 0x46); /* 2.048 with 32 TS */ + + /* 0D1:RSB_CR -- Receive System Bus Configuration Register */ + /* Change RINDO & RFSYNC on falling edge of RSBCLKI. */ + write_framer(sc, Bt8370_RSB_CR, 0x70); + + /* 0D2,0D3:RSYNC_{TS,BIT} -- Receive frame Sync offset */ + write_framer(sc, Bt8370_RSYNC_BIT, 0x00); + write_framer(sc, Bt8370_RSYNC_TS, 0x00); + + /* 0D4:TSB_CR -- Transmit System Bus Configuration Register */ + /* Change TINDO & TFSYNC on falling edge of TSBCLKI. */ + write_framer(sc, Bt8370_TSB_CR, 0x30); + + /* 0D5,0D6:TSYNC_{TS,BIT} -- Transmit frame Sync offset */ + write_framer(sc, Bt8370_TSYNC_BIT, 0x00); + write_framer(sc, Bt8370_TSYNC_TS, 0x00); + + /* 0D7:RSIG_CR -- Receive SIGnalling Configuratin Register */ + write_framer(sc, Bt8370_RSIG_CR, 0x00); + + /* Assign and configure 64Kb TIME SLOTS. */ + /* TS24..TS1 must be assigned for T1, TS31..TS0 for E1. */ + /* Timeslots with no user data have RINDO and TINDO off. */ + for (i=0; i<32; i++) + { + /* 0E0-0FF:SBCn -- System Bus Per-Channel Control */ + if (FORMAT_T1ANY && (i==0 || i>24)) + write_framer(sc, Bt8370_SBCn +i, 0x00); /* not assigned in T1 mode */ + else if (FORMAT_E1ANY && (i==0) && !FORMAT_E1NONE) + write_framer(sc, Bt8370_SBCn +i, 0x01); /* assigned, TS0 o/h bits */ + else if (FORMAT_E1CAS && (i==16) && !FORMAT_E1NONE) + write_framer(sc, Bt8370_SBCn +i, 0x01); /* assigned, TS16 o/h bits */ + else if ((sc->config.time_slots & (1<config.time_slots & (1<>4, + read_framer(sc, Bt8370_DID)&0x0F); + } + +/* Called once a second; must not sleep. */ +static int +t1_watchdog(softc_t *sc) + { + u_int16_t LCV = 0, FERR = 0, CRC = 0, FEBE = 0; + u_int8_t alm1, alm3, loop, isr0; + int link_status = STATUS_UP; + int i; + + /* Read the alarm registers */ + alm1 = read_framer(sc, Bt8370_ALM1); + alm3 = read_framer(sc, Bt8370_ALM3); + loop = read_framer(sc, Bt8370_LOOP); + isr0 = read_framer(sc, Bt8370_ISR0); + + /* Always ignore the SIGFRZ alarm bit, */ + alm1 &= ~ALM1_SIGFRZ; + if (FORMAT_T1ANY) /* ignore RYEL in T1 modes */ + alm1 &= ~ALM1_RYEL; + else if (FORMAT_E1NONE) /* ignore all alarms except LOS */ + alm1 &= ALM1_RLOS; + + /* Software is alive. */ + led_inv(sc, MII16_T1_LED_GRN); + + /* Receiving Alarm Indication Signal (AIS). */ + if ((alm1 & ALM1_RAIS)!=0) /* receiving ais */ + led_on(sc, MII16_T1_LED_BLU); + else if ((alm1 & ALM1_RLOS)!=0) /* sending ais */ + led_inv(sc, MII16_T1_LED_BLU); + else + led_off(sc, MII16_T1_LED_BLU); + + /* Receiving Remote Alarm Indication (RAI). */ + if ((alm1 & (ALM1_RMYEL | ALM1_RYEL))!=0) /* receiving rai */ + led_on(sc, MII16_T1_LED_YEL); + else if ((alm1 & ALM1_RLOF)!=0) /* sending rai */ + led_inv(sc, MII16_T1_LED_YEL); + else + led_off(sc, MII16_T1_LED_YEL); + + /* If any alarm bits are set then the link is 'down'. */ + /* The bad bits are: rmyel ryel rais ralos rlos rlof. */ + /* Some alarm bits have been masked by this point. */ + if (alm1 != 0) link_status = STATUS_DOWN; + + /* Declare local Red Alarm if the link is down. */ + if (link_status == STATUS_DOWN) + led_on(sc, MII16_T1_LED_RED); + else if (sc->loop_timer != 0) /* loopback is active */ + led_inv(sc, MII16_T1_LED_RED); + else + led_off(sc, MII16_T1_LED_RED); + + /* Print latched error bits if they changed. */ + if ((DRIVER_DEBUG) && (alm1 != sc->last_alm1)) + { + char *on = "ON ", *off = "OFF"; + printf("%s: RLOF=%s RLOS=%s RALOS=%s RAIS=%s RYEL=%s RMYEL=%s\n", + NAME_UNIT, + (alm1 & ALM1_RLOF) ? on : off, + (alm1 & ALM1_RLOS) ? on : off, + (alm1 & ALM1_RALOS) ? on : off, + (alm1 & ALM1_RAIS) ? on : off, + (alm1 & ALM1_RYEL) ? on : off, + (alm1 & ALM1_RMYEL) ? on : off); + } + + /* Check and print error counters if non-zero. */ + LCV = read_framer(sc, Bt8370_LCV_LO) + + (read_framer(sc, Bt8370_LCV_HI)<<8); + if (!FORMAT_E1NONE) + FERR = read_framer(sc, Bt8370_FERR_LO) + + (read_framer(sc, Bt8370_FERR_HI)<<8); + if (FORMAT_E1CRC || FORMAT_T1ESF) + CRC = read_framer(sc, Bt8370_CRC_LO) + + (read_framer(sc, Bt8370_CRC_HI)<<8); + if (FORMAT_E1CRC) + FEBE = read_framer(sc, Bt8370_FEBE_LO) + + (read_framer(sc, Bt8370_FEBE_HI)<<8); + /* Only LCV is valid if Out-Of-Frame */ + if (FORMAT_E1NONE) FERR = CRC = FEBE = 0; + if ((DRIVER_DEBUG) && (LCV || FERR || CRC || FEBE)) + printf("%s: LCV=%u FERR=%u CRC=%u FEBE=%u\n", + NAME_UNIT, LCV, FERR, CRC, FEBE); + + /* Driver keeps crude link-level error counters (SNMP is better). */ + sc->status.cntrs.lcv_errs += LCV; + sc->status.cntrs.frm_errs += FERR; + sc->status.cntrs.crc_errs += CRC; + sc->status.cntrs.febe_errs += FEBE; + + /* Check for BOP messages in the ESF Facility Data Link. */ + if ((FORMAT_T1ESF) && (read_framer(sc, Bt8370_ISR1) & 0x80)) + { + u_int8_t bop_code = read_framer(sc, Bt8370_RBOP) & 0x3F; + + switch (bop_code) + { + case T1BOP_OOF: + { + if ((DRIVER_DEBUG) && ((sc->last_alm1 & ALM1_RMYEL)==0)) + printf("%s: Receiving a 'yellow alarm' BOP msg\n", NAME_UNIT); + break; + } + case T1BOP_LINE_UP: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'line loopback activate' BOP msg\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, LOOP_LINE); + sc->loop_timer = 305; + break; + } + case T1BOP_LINE_DOWN: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'line loopback deactivate' BOP msg\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, + read_framer(sc, Bt8370_LOOP) & ~LOOP_LINE); + sc->loop_timer = 0; + break; + } + case T1BOP_PAY_UP: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'payload loopback activate' BOP msg\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, LOOP_PAYLOAD); + sc->loop_timer = 305; + break; + } + case T1BOP_PAY_DOWN: + { + if (DRIVER_DEBUG) + printf("%s: Received a 'payload loopback deactivate' BOP msg\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, + read_framer(sc, Bt8370_LOOP) & ~LOOP_PAYLOAD); + sc->loop_timer = 0; + break; + } + default: + { + if (DRIVER_DEBUG) + printf("%s: Received a type 0x%02X BOP msg\n", NAME_UNIT, bop_code); + break; + } + } + } + + /* Check for HDLC pkts in the ESF Facility Data Link. */ + if ((FORMAT_T1ESF) && (read_framer(sc, Bt8370_ISR2) & 0x70)) + { + /* while (not fifo-empty && not start-of-msg) flush fifo */ + while ((read_framer(sc, Bt8370_RDL1_STAT) & 0x0C) == 0) + read_framer(sc, Bt8370_RDL1); + /* If (not fifo-empty), then begin processing fifo contents. */ + if ((read_framer(sc, Bt8370_RDL1_STAT) & 0x0C) == 0x08) + { + u_int8_t msg[64]; + u_int8_t stat = read_framer(sc, Bt8370_RDL1); + sc->status.cntrs.fdl_pkts++; + for (i=0; i<(stat & 0x3F); i++) + msg[i] = read_framer(sc, Bt8370_RDL1); + /* Is this FDL message a T1.403 performance report? */ + if (((stat & 0x3F)==11) && + ((msg[0]==0x38) || (msg[0]==0x3A)) && + (msg[1]==1) && (msg[2]==3)) + /* Copy 4 PRs from FDL pkt to SNMP struct. */ + memcpy(sc->status.snmp.t1.prm, msg+3, 8); + } + } + + /* Check for inband loop up/down commands. */ + if (FORMAT_T1ANY) + { + u_int8_t isr6 = read_framer(sc, Bt8370_ISR6); + u_int8_t alarm2 = read_framer(sc, Bt8370_ALM2); + u_int8_t tlb = read_framer(sc, Bt8370_TLB); + + /* Inband Code == Loop Up && On Transition && Inband Tx Inactive */ + if ((isr6 & 0x40) && (alarm2 & 0x40) && ((tlb & 1)==0)) + { /* CSU loop up is 10000 10000 ... */ + if (DRIVER_DEBUG) + printf("%s: Received a 'CSU Loop Up' inband msg\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, LOOP_LINE); /* Loop up */ + sc->loop_timer = 305; + } + /* Inband Code == Loop Down && On Transition && Inband Tx Inactive */ + if ((isr6 & 0x80) && (alarm2 & 0x80) && ((tlb & 1)==0)) + { /* CSU loop down is 100 100 100 ... */ + if (DRIVER_DEBUG) + printf("%s: Received a 'CSU Loop Down' inband msg\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, + read_framer(sc, Bt8370_LOOP) & ~LOOP_LINE); /* loop down */ + sc->loop_timer = 0; + } + } + + /* Manually send Yellow Alarm BOP msgs. */ + if (FORMAT_T1ESF) + { + u_int8_t isr7 = read_framer(sc, Bt8370_ISR7); + + if ((isr7 & 0x02) && (alm1 & 0x02)) /* RLOF on-transition */ + { /* Start sending continuous Yellow Alarm BOP messages. */ + write_framer(sc, Bt8370_BOP, RBOP_25 | TBOP_CONT); + write_framer(sc, Bt8370_TBOP, 0x00); /* send BOP; order matters */ + } + else if ((isr7 & 0x02) && ((alm1 & 0x02)==0)) /* RLOF off-transition */ + { /* Stop sending continuous Yellow Alarm BOP messages. */ + write_framer(sc, Bt8370_BOP, RBOP_25 | TBOP_OFF); + } + } + + /* Time out loopback requests. */ + if (sc->loop_timer != 0) + if (--sc->loop_timer == 0) + if (loop != 0) + { + if (DRIVER_DEBUG) + printf("%s: Timeout: Loop Down after 300 seconds\n", NAME_UNIT); + write_framer(sc, Bt8370_LOOP, loop & ~(LOOP_PAYLOAD | LOOP_LINE)); + } + + /* RX Test Pattern status */ + if ((DRIVER_DEBUG) && (isr0 & 0x10)) + printf("%s: RX Test Pattern Sync\n", NAME_UNIT); + + /* SNMP Error Counters */ + sc->status.snmp.t1.lcv = LCV; + sc->status.snmp.t1.fe = FERR; + sc->status.snmp.t1.crc = CRC; + sc->status.snmp.t1.febe = FEBE; + + /* SNMP Line Status */ + sc->status.snmp.t1.line = 0; + if (alm1 & ALM1_RMYEL) sc->status.snmp.t1.line |= TLINE_RX_RAI; + if (alm1 & ALM1_RYEL) sc->status.snmp.t1.line |= TLINE_RX_RAI; + if (alm1 & ALM1_RLOF) sc->status.snmp.t1.line |= TLINE_TX_RAI; + if (alm1 & ALM1_RAIS) sc->status.snmp.t1.line |= TLINE_RX_AIS; + if (alm1 & ALM1_RLOS) sc->status.snmp.t1.line |= TLINE_TX_AIS; + if (alm1 & ALM1_RLOF) sc->status.snmp.t1.line |= TLINE_LOF; + if (alm1 & ALM1_RLOS) sc->status.snmp.t1.line |= TLINE_LOS; + if (alm3 & ALM3_RMAIS) sc->status.snmp.t1.line |= T1LINE_RX_TS16_AIS; + if (alm3 & ALM3_SRED) sc->status.snmp.t1.line |= T1LINE_TX_TS16_LOMF; + if (alm3 & ALM3_SEF) sc->status.snmp.t1.line |= T1LINE_SEF; + if (isr0 & 0x10) sc->status.snmp.t1.line |= T1LINE_RX_TEST; + if ((alm1 & ALM1_RMYEL) && (FORMAT_E1CAS)) + sc->status.snmp.t1.line |= T1LINE_RX_TS16_LOMF; + + /* SNMP Loopback Status */ + sc->status.snmp.t1.loop &= ~(TLOOP_FAR_LINE | TLOOP_FAR_PAYLOAD); + if (sc->config.loop_back == CFG_LOOP_TULIP) + sc->status.snmp.t1.loop |= TLOOP_NEAR_OTHER; + if (loop & LOOP_PAYLOAD) sc->status.snmp.t1.loop |= TLOOP_NEAR_PAYLOAD; + if (loop & LOOP_LINE) sc->status.snmp.t1.loop |= TLOOP_NEAR_LINE; + if (loop & LOOP_ANALOG) sc->status.snmp.t1.loop |= TLOOP_NEAR_OTHER; + if (loop & LOOP_FRAMER) sc->status.snmp.t1.loop |= TLOOP_NEAR_INWARD; + + /* Remember this state until next time. */ + sc->last_alm1 = alm1; + + /* If an INWARD loopback is in effect, link status is UP */ + if (sc->config.loop_back != CFG_LOOP_NONE) /* XXX INWARD ONLY */ + link_status = STATUS_UP; + + return link_status; + } + +/* IOCTL SYSCALL: can sleep. */ +static void +t1_send_bop(softc_t *sc, int bop_code) + { + u_int8_t bop; + int i; + + /* The BOP transmitter could be sending a continuous */ + /* BOP msg when told to send this BOP_25 message. */ + /* So save and restore the state of the BOP machine. */ + bop = read_framer(sc, Bt8370_BOP); + write_framer(sc, Bt8370_BOP, RBOP_OFF | TBOP_OFF); + for (i=0; i<40; i++) /* max delay 400 ms. */ + if (read_framer(sc, Bt8370_BOP_STAT) & 0x80) SLEEP(10000); + /* send 25 repetitions of bop_code */ + write_framer(sc, Bt8370_BOP, RBOP_OFF | TBOP_25); + write_framer(sc, Bt8370_TBOP, bop_code); /* order matters */ + /* wait for tx to stop */ + for (i=0; i<40; i++) /* max delay 400 ms. */ + if (read_framer(sc, Bt8370_BOP_STAT) & 0x80) SLEEP(10000); + /* Restore previous state of the BOP machine. */ + write_framer(sc, Bt8370_BOP, bop); + } + +/* IOCTL SYSCALL: can sleep. */ +static int +t1_ioctl(softc_t *sc, struct ioctl *ioctl) + { + int error = 0; + + switch (ioctl->cmd) + { + case IOCTL_SNMP_SEND: /* set opstatus? */ + { + switch (ioctl->data) + { + case TSEND_NORMAL: + { + write_framer(sc, Bt8370_TPATT, 0x00); /* tx pattern generator off */ + write_framer(sc, Bt8370_RPATT, 0x00); /* rx pattern detector off */ + write_framer(sc, Bt8370_TLB, 0x00); /* tx inband generator off */ + break; + } + case TSEND_LINE: + { + if (FORMAT_T1ESF) + t1_send_bop(sc, T1BOP_LINE_UP); + else if (FORMAT_T1SF) + { + write_framer(sc, Bt8370_LBP, 0x08); /* 10000 10000 ... */ + write_framer(sc, Bt8370_TLB, 0x05); /* 5 bits, framed, start */ + } + sc->status.snmp.t1.loop |= TLOOP_FAR_LINE; + break; + } + case TSEND_PAYLOAD: + { + t1_send_bop(sc, T1BOP_PAY_UP); + sc->status.snmp.t1.loop |= TLOOP_FAR_PAYLOAD; + break; + } + case TSEND_RESET: + { + if (sc->status.snmp.t1.loop == TLOOP_FAR_LINE) + { + if (FORMAT_T1ESF) + t1_send_bop(sc, T1BOP_LINE_DOWN); + else if (FORMAT_T1SF) + { + write_framer(sc, Bt8370_LBP, 0x24); /* 100100 100100 ... */ + write_framer(sc, Bt8370_TLB, 0x09); /* 6 bits, framed, start */ + } + sc->status.snmp.t1.loop &= ~TLOOP_FAR_LINE; + } + if (sc->status.snmp.t1.loop == TLOOP_FAR_PAYLOAD) + { + t1_send_bop(sc, T1BOP_PAY_DOWN); + sc->status.snmp.t1.loop &= ~TLOOP_FAR_PAYLOAD; + } + break; + } + case TSEND_QRS: + { + write_framer(sc, Bt8370_TPATT, 0x1E); /* framed QRSS */ + break; + } + default: + { + error = EINVAL; + break; + } + } + break; + } + case IOCTL_SNMP_LOOP: /* set opstatus = test? */ + { + u_int8_t new_loop = 0; + + if (ioctl->data == CFG_LOOP_NONE) + new_loop = 0; + else if (ioctl->data == CFG_LOOP_PAYLOAD) + new_loop = LOOP_PAYLOAD; + else if (ioctl->data == CFG_LOOP_LINE) + new_loop = LOOP_LINE; + else if (ioctl->data == CFG_LOOP_OTHER) + new_loop = LOOP_ANALOG; + else if (ioctl->data == CFG_LOOP_INWARD) + new_loop = LOOP_FRAMER; + else if (ioctl->data == CFG_LOOP_DUAL) + new_loop = LOOP_DUAL; + else + error = EINVAL; + if (error == 0) + { + write_framer(sc, Bt8370_LOOP, new_loop); + sc->config.loop_back = ioctl->data; + } + break; + } + default: + error = EINVAL; + break; + } + + return error; + } + +static +struct card hssi_card = + { + .config = hssi_config, + .ident = hssi_ident, + .watchdog = hssi_watchdog, + .ioctl = hssi_ioctl, + }; + +static +struct card t3_card = + { + .config = t3_config, + .ident = t3_ident, + .watchdog = t3_watchdog, + .ioctl = t3_ioctl, + }; + +static +struct card ssi_card = + { + .config = ssi_config, + .ident = ssi_ident, + .watchdog = ssi_watchdog, + .ioctl = ssi_ioctl, + }; + +static +struct card t1_card = + { + .config = t1_config, + .ident = t1_ident, + .watchdog = t1_watchdog, + .ioctl = t1_ioctl, + }; + +/* RAWIP is raw IP packets (v4 or v6) in HDLC frames with NO HEADERS. */ +/* No HDLC Address/Control fields! No line control protocol at all! */ +/* This code is BSD/ifnet-specific; Linux and Netgraph also do RAWIP. */ + +#if IFNET + +# if ((__FreeBSD__ && (__FreeBSD_version < 500000)) ||\ + __NetBSD__ || __OpenBSD__ || __bsdi__) +static void +netisr_dispatch(int isr, struct mbuf *mbuf) + { + struct ifqueue *intrq = NULL; + int qfull = 0; + +#if INET + if (isr == NETISR_IP) intrq = &ipintrq; +#endif +#if INET6 + if (isr == NETISR_IPV6) intrq = &ip6intrq; +#endif + + if ((intrq != NULL) && ((qfull = IF_QFULL(intrq)) == 0)) + { + /* rxintr_cleanup() ENQUEUES in a hard interrupt. */ + /* networking code DEQUEUES in a soft interrupt. */ + /* Some BSD QUEUE routines are not interrupt-safe. */ + DISABLE_INTR; /* noop in FreeBSD */ + IF_ENQUEUE(intrq, mbuf); + ENABLE_INTR; + schednetisr(isr); /* schedule a soft interrupt */ + } + else + { + m_freem(mbuf); + if ((intrq != NULL) && (qfull != 0)) + IF_DROP(intrq); + } + } +# endif /* ((__FreeBSD__ && (__FreeBSD_version < 500000)) || */ + /* __NetBSD__ || __OpenBSD__ || __bsdi__) */ + +/* rxintr_cleanup calls this to give a newly arrived pkt to higher levels. */ +static void +raw_input(struct ifnet *ifp, struct mbuf *mbuf) + { + softc_t *sc = IFP2SC(ifp); + +# if INET + if (mbuf->m_data[0]>>4 == 4) + netisr_dispatch(NETISR_IP, mbuf); + else +# endif +# if INET6 + if (mbuf->m_data[0]>>4 == 6) + netisr_dispatch(NETISR_IPV6, mbuf); + else +# endif + { + m_freem(mbuf); + sc->status.cntrs.idiscards++; + if (DRIVER_DEBUG) + printf("%s: raw_input: rx pkt discarded: not IPv4 or IPv6\n", NAME_UNIT); + } + } + +#endif /* IFNET */ + +/* There are TWO VERSIONS of interrupt/DMA code: Linux & BSD. + * Handling Linux and the BSDs with CPP directives would + * make the code unreadable, so there are two versions. + * Conceptually, the two versions do the same thing and + * core_interrupt() doesn't know they are different. + * + * We are "standing on the head of a pin" in these routines. + * Tulip CSRs can be accessed, but nothing else is interrupt-safe! + * Do NOT access: MII, GPIO, SROM, BIOSROM, XILINX, SYNTH, or DAC. + */ + +#if BSD /* BSD version of interrupt/DMA code */ + +/* Singly-linked tail-queues hold mbufs with active DMA. + * For RX, single mbuf clusters; for TX, mbuf chains are queued. + * NB: mbufs are linked through their m_nextpkt field. + * Callers must hold sc->bottom_lock; not otherwise locked. + */ + +/* Put an mbuf (chain) on the tail of the descriptor ring queue. */ +static void /* BSD version */ +mbuf_enqueue(struct desc_ring *ring, struct mbuf *m) + { + m->m_nextpkt = NULL; + if (ring->tail == NULL) + ring->head = m; + else + ring->tail->m_nextpkt = m; + ring->tail = m; + } + +/* Get an mbuf (chain) from the head of the descriptor ring queue. */ +static struct mbuf* /* BSD version */ +mbuf_dequeue(struct desc_ring *ring) + { + struct mbuf *m = ring->head; + if (m != NULL) + if ((ring->head = m->m_nextpkt) == NULL) + ring->tail = NULL; + return m; + } + +# if __FreeBSD__ +static void /* *** FreeBSD ONLY *** Callout from bus_dmamap_load() */ +fbsd_dmamap_load(void *arg, bus_dma_segment_t *segs, int nsegs, int error) + { + struct desc_ring *ring = arg; + ring->nsegs = error ? 0 : nsegs; + ring->segs[0] = segs[0]; + ring->segs[1] = segs[1]; + } +# endif + +/* Initialize a DMA descriptor ring. */ +static int /* BSD version */ +create_ring(softc_t *sc, struct desc_ring *ring, int num_descs) + { + struct dma_desc *descs; + int size_descs = sizeof(struct dma_desc)*num_descs; + int i, error = 0; + + /* The DMA descriptor array must not cross a page boundary. */ + if (size_descs > PAGE_SIZE) + { + printf("%s: DMA descriptor array > PAGE_SIZE (%d)\n", NAME_UNIT, PAGE_SIZE); + return EINVAL; + } + +#if __FreeBSD__ + + /* Create a DMA tag for descriptors and buffers. */ + if ((error = bus_dma_tag_create(NULL, 4, 0, BUS_SPACE_MAXADDR_32BIT, + BUS_SPACE_MAXADDR, NULL, NULL, PAGE_SIZE, 2, PAGE_SIZE, BUS_DMA_ALLOCNOW, +# if (__FreeBSD_version >= 502000) + NULL, NULL, +# endif + &ring->tag))) + { + printf("%s: bus_dma_tag_create() failed: error %d\n", NAME_UNIT, error); + return error; + } + + /* Allocate wired physical memory for DMA descriptor array */ + /* and map physical address to kernel virtual address. */ + if ((error = bus_dmamem_alloc(ring->tag, (void**)&ring->first, + BUS_DMA_NOWAIT | BUS_DMA_COHERENT | BUS_DMA_ZERO, &ring->map))) + { + printf("%s: bus_dmamem_alloc() failed; error %d\n", NAME_UNIT, error); + return error; + } + descs = ring->first; + + /* Map kernel virtual address to PCI address for DMA descriptor array. */ + if ((error = bus_dmamap_load(ring->tag, ring->map, descs, size_descs, + fbsd_dmamap_load, ring, 0))) + { + printf("%s: bus_dmamap_load() failed; error %d\n", NAME_UNIT, error); + return error; + } + ring->dma_addr = ring->segs[0].ds_addr; + + /* Allocate dmamaps for each DMA descriptor. */ + for (i=0; itag, 0, &descs[i].map))) + { + printf("%s: bus_dmamap_create() failed; error %d\n", NAME_UNIT, error); + return error; + } + +#elif (__NetBSD__ || __OpenBSD__) + + /* Use the DMA tag passed to attach() for descriptors and buffers. */ + ring->tag = sc->pa_dmat; + + /* Allocate wired physical memory for DMA descriptor array. */ + if ((error = bus_dmamem_alloc(ring->tag, size_descs, PAGE_SIZE, 0, + ring->segs, 1, &ring->nsegs, BUS_DMA_NOWAIT))) + { + printf("%s: bus_dmamem_alloc() failed; error %d\n", NAME_UNIT, error); + return error; + } + + /* Map physical address to kernel virtual address. */ + if ((error = bus_dmamem_map(ring->tag, ring->segs, ring->nsegs, + size_descs, (caddr_t *)&ring->first, BUS_DMA_NOWAIT | BUS_DMA_COHERENT))) + { + printf("%s: bus_dmamem_map() failed; error %d\n", NAME_UNIT, error); + return error; + } + descs = ring->first; /* suppress compiler warning about aliasing */ + memset(descs, 0, size_descs); + + /* Allocate dmamap for PCI access to DMA descriptor array. */ + if ((error = bus_dmamap_create(ring->tag, size_descs, 1, + size_descs, 0, BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &ring->map))) + { + printf("%s: bus_dmamap_create() failed; error %d\n", NAME_UNIT, error); + return error; + } + + /* Map kernel virtual address to PCI address for DMA descriptor array. */ + if ((error = bus_dmamap_load(ring->tag, ring->map, descs, size_descs, + 0, BUS_DMA_NOWAIT))) + { + printf("%s: bus_dmamap_load() failed; error %d\n", NAME_UNIT, error); + return error; + } + ring->dma_addr = ring->map->dm_segs[0].ds_addr; + + /* Allocate dmamaps for each DMA descriptor. */ + for (i=0; itag, MAX_DESC_LEN, 2, + MAX_CHUNK_LEN, 0, BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &descs[i].map))) + { + printf("%s: bus_dmamap_create() failed; error %d\n", NAME_UNIT, error); + return error; + } + +#elif __bsdi__ + + /* Allocate wired physical memory for DMA descriptor array. */ + if ((ring->first = malloc(size_descs, M_DEVBUF, M_NOWAIT)) == NULL) + { + printf("%s: malloc() failed for DMA descriptor array\n", NAME_UNIT); + return ENOMEM; + } + descs = ring->first; + memset(descs, 0, size_descs); + + /* Map kernel virtual address to PCI address for DMA descriptor array. */ + ring->dma_addr = vtophys(descs); /* Relax! BSD/OS only. */ + +#endif + + ring->read = descs; + ring->write = descs; + ring->first = descs; + ring->last = descs + num_descs -1; + ring->last->control = TLP_DCTL_END_RING; + ring->num_descs = num_descs; + ring->size_descs = size_descs; + ring->head = NULL; + ring->tail = NULL; + + return 0; + } + +/* Destroy a DMA descriptor ring */ +static void /* BSD version */ +destroy_ring(softc_t *sc, struct desc_ring *ring) + { + struct dma_desc *desc; + struct mbuf *m; + + /* Free queued mbufs. */ + while ((m = mbuf_dequeue(ring)) != NULL) + m_freem(m); + + /* TX may have one pkt that is not on any queue. */ + if (sc->tx_mbuf != NULL) + { + m_freem(sc->tx_mbuf); + sc->tx_mbuf = NULL; + } + + /* Unmap active DMA descriptors. */ + while (ring->read != ring->write) + { + bus_dmamap_unload(ring->tag, ring->read->map); + if (ring->read++ == ring->last) ring->read = ring->first; + } + +#if __FreeBSD__ + + /* Free the dmamaps of all DMA descriptors. */ + for (desc=ring->first; desc!=ring->last+1; desc++) + if (desc->map != NULL) + bus_dmamap_destroy(ring->tag, desc->map); + + /* Unmap PCI address for DMA descriptor array. */ + if (ring->dma_addr != 0) + bus_dmamap_unload(ring->tag, ring->map); + /* Free kernel memory for DMA descriptor array. */ + if (ring->first != NULL) + bus_dmamem_free(ring->tag, ring->first, ring->map); + /* Free the DMA tag created for this ring. */ + if (ring->tag != NULL) + bus_dma_tag_destroy(ring->tag); + +#elif (__NetBSD__ || __OpenBSD__) + + /* Free the dmamaps of all DMA descriptors. */ + for (desc=ring->first; desc!=ring->last+1; desc++) + if (desc->map != NULL) + bus_dmamap_destroy(ring->tag, desc->map); + + /* Unmap PCI address for DMA descriptor array. */ + if (ring->dma_addr != 0) + bus_dmamap_unload(ring->tag, ring->map); + /* Free dmamap for DMA descriptor array. */ + if (ring->map != NULL) + bus_dmamap_destroy(ring->tag, ring->map); + /* Unmap kernel address for DMA descriptor array. */ + if (ring->first != NULL) + bus_dmamem_unmap(ring->tag, (caddr_t)ring->first, ring->size_descs); + /* Free kernel memory for DMA descriptor array. */ + if (ring->segs[0].ds_addr != 0) + bus_dmamem_free(ring->tag, ring->segs, ring->nsegs); + +#elif __bsdi__ + + /* Free kernel memory for DMA descriptor array. */ + if (ring->first != NULL) + free(ring->first, M_DEVBUF); + +#endif + } + +/* Clean up after a packet has been received. */ +static int /* BSD version */ +rxintr_cleanup(softc_t *sc) + { + struct desc_ring *ring = &sc->rxring; + struct dma_desc *first_desc, *last_desc; + struct mbuf *first_mbuf=NULL, *last_mbuf=NULL; + struct mbuf *new_mbuf; + int pkt_len, desc_len; + +#if (__FreeBSD__ && DEVICE_POLLING) + /* Input packet flow control (livelock prevention): */ + /* Give pkts to higher levels only if quota is > 0. */ + if (sc->quota <= 0) return 0; +#endif + + /* This looks complicated, but remember: typically packets up */ + /* to 2048 bytes long fit in one mbuf and use one descriptor. */ + + first_desc = last_desc = ring->read; + + /* ASSERTION: If there is a descriptor in the ring and the hardware has */ + /* finished with it, then that descriptor will have RX_FIRST_DESC set. */ + if ((ring->read != ring->write) && /* descriptor ring not empty */ + ((ring->read->status & TLP_DSTS_OWNER) == 0) && /* hardware done */ + ((ring->read->status & TLP_DSTS_RX_FIRST_DESC) == 0)) /* should be set */ + panic("%s: rxintr_cleanup: rx-first-descriptor not set.\n", NAME_UNIT); + + /* First decide if a complete packet has arrived. */ + /* Run down DMA descriptors looking for one marked "last". */ + /* Bail out if an active descriptor is encountered. */ + /* Accumulate most significant bits of packet length. */ + pkt_len = 0; + for (;;) + { + if (last_desc == ring->write) return 0; /* no more descs */ + if (last_desc->status & TLP_DSTS_OWNER) return 0; /* still active */ + if (last_desc->status & TLP_DSTS_RX_LAST_DESC) break; /* end of packet */ + pkt_len += last_desc->length1 + last_desc->length2; /* entire desc filled */ + if (last_desc++->control & TLP_DCTL_END_RING) last_desc = ring->first; /* ring wrap */ + } + + /* A complete packet has arrived; how long is it? */ + /* H/w ref man shows RX pkt length as a 14-bit field. */ + /* An experiment found that only the 12 LSBs work. */ + if (((last_desc->status>>16)&0xFFF) == 0) pkt_len += 4096; /* carry-bit */ + pkt_len = (pkt_len & 0xF000) + ((last_desc->status>>16) & 0x0FFF); + /* Subtract the CRC length unless doing so would underflow. */ + if (pkt_len >= sc->config.crc_len) pkt_len -= sc->config.crc_len; + + /* Run down DMA descriptors again doing the following: + * 1) put pkt info in pkthdr of first mbuf, + * 2) link mbufs, + * 3) set mbuf lengths. + */ + first_desc = ring->read; + do + { + /* Read a DMA descriptor from the ring. */ + last_desc = ring->read; + /* Advance the ring read pointer. */ + if (ring->read++ == ring->last) ring->read = ring->first; + + /* Dequeue the corresponding cluster mbuf. */ + new_mbuf = mbuf_dequeue(ring); + if (new_mbuf == NULL) + panic("%s: rxintr_cleanup: expected an mbuf\n", NAME_UNIT); + + desc_len = last_desc->length1 + last_desc->length2; + /* If bouncing, copy bounce buf to mbuf. */ + DMA_SYNC(last_desc->map, desc_len, BUS_DMASYNC_POSTREAD); + /* Unmap kernel virtual address to PCI address. */ + bus_dmamap_unload(ring->tag, last_desc->map); + + /* 1) Put pkt info in pkthdr of first mbuf. */ + if (last_desc == first_desc) + { + first_mbuf = new_mbuf; + first_mbuf->m_pkthdr.len = pkt_len; /* total pkt length */ +#if IFNET + first_mbuf->m_pkthdr.rcvif = sc->ifp; /* how it got here */ +#else + first_mbuf->m_pkthdr.rcvif = NULL; +#endif + } + else /* 2) link mbufs. */ + { + last_mbuf->m_next = new_mbuf; + /* M_PKTHDR should be set in the first mbuf only. */ + new_mbuf->m_flags &= ~M_PKTHDR; + } + last_mbuf = new_mbuf; + + /* 3) Set mbuf lengths. */ + new_mbuf->m_len = (pkt_len >= desc_len) ? desc_len : pkt_len; + pkt_len -= new_mbuf->m_len; + } while ((last_desc->status & TLP_DSTS_RX_LAST_DESC) == 0); + + /* Decide whether to accept or to discard this packet. */ + /* RxHDLC sets MIIERR for bad CRC, abort and partial byte at pkt end. */ + if (((last_desc->status & TLP_DSTS_RX_BAD) == 0) && + (sc->status.oper_status == STATUS_UP) && + (first_mbuf->m_pkthdr.len > 0)) + { + /* Optimization: copy a small pkt into a small mbuf. */ + if (first_mbuf->m_pkthdr.len <= COPY_BREAK) + { + MGETHDR(new_mbuf, M_DONTWAIT, MT_DATA); + if (new_mbuf != NULL) + { + new_mbuf->m_pkthdr.rcvif = first_mbuf->m_pkthdr.rcvif; + new_mbuf->m_pkthdr.len = first_mbuf->m_pkthdr.len; + new_mbuf->m_len = first_mbuf->m_len; + memcpy(new_mbuf->m_data, first_mbuf->m_data, + first_mbuf->m_pkthdr.len); + m_freem(first_mbuf); + first_mbuf = new_mbuf; + } + } + /* Include CRC and one flag byte in input byte count. */ + sc->status.cntrs.ibytes += first_mbuf->m_pkthdr.len + sc->config.crc_len +1; + sc->status.cntrs.ipackets++; +#if IFNET + sc->ifp->if_ipackets++; + LMC_BPF_MTAP(first_mbuf); +#endif +#if (__FreeBSD__ && DEVICE_POLLING) + sc->quota--; +#endif + + /* Give this good packet to the network stacks. */ +#if NETGRAPH + if (sc->ng_hook != NULL) /* is hook connected? */ + { +# if (__FreeBSD_version >= 500000) + int error; /* ignore error */ + NG_SEND_DATA_ONLY(error, sc->ng_hook, first_mbuf); +# else /* FreeBSD-4 */ + ng_queue_data(sc->ng_hook, first_mbuf, NULL); +# endif + return 1; /* did something */ + } +#endif /* NETGRAPH */ + if (sc->config.line_pkg == PKG_RAWIP) + raw_input(sc->ifp, first_mbuf); + else + { +#if NSPPP + sppp_input(sc->ifp, first_mbuf); +#elif P2P + new_mbuf = first_mbuf; + while (new_mbuf != NULL) + { + sc->p2p->p2p_hdrinput(sc->p2p, new_mbuf->m_data, new_mbuf->m_len); + new_mbuf = new_mbuf->m_next; + } + sc->p2p->p2p_input(sc->p2p, NULL); + m_freem(first_mbuf); +#else + m_freem(first_mbuf); + sc->status.cntrs.idiscards++; +#endif + } + } + else if (sc->status.oper_status != STATUS_UP) + { + /* If the link is down, this packet is probably noise. */ + m_freem(first_mbuf); + sc->status.cntrs.idiscards++; + if (DRIVER_DEBUG) + printf("%s: rxintr_cleanup: rx pkt discarded: link down\n", NAME_UNIT); + } + else /* Log and discard this bad packet. */ + { + if (DRIVER_DEBUG) + printf("%s: RX bad pkt; len=%d %s%s%s%s\n", + NAME_UNIT, first_mbuf->m_pkthdr.len, + (last_desc->status & TLP_DSTS_RX_MII_ERR) ? " miierr" : "", + (last_desc->status & TLP_DSTS_RX_DRIBBLE) ? " dribble" : "", + (last_desc->status & TLP_DSTS_RX_DESC_ERR) ? " descerr" : "", + (last_desc->status & TLP_DSTS_RX_OVERRUN) ? " overrun" : ""); + if (last_desc->status & TLP_DSTS_RX_OVERRUN) + sc->status.cntrs.fifo_over++; + else + sc->status.cntrs.ierrors++; + m_freem(first_mbuf); + } + + return 1; /* did something */ + } + +/* Setup (prepare) to receive a packet. */ +/* Try to keep the RX descriptor ring full of empty buffers. */ +static int /* BSD version */ +rxintr_setup(softc_t *sc) + { + struct desc_ring *ring = &sc->rxring; + struct dma_desc *desc; + struct mbuf *m; + int desc_len; + int error; + + /* Ring is full if (wrap(write+1)==read) */ + if (((ring->write == ring->last) ? ring->first : ring->write+1) == ring->read) + return 0; /* ring is full; nothing to do */ + + /* Allocate a small mbuf and attach an mbuf cluster. */ + MGETHDR(m, M_DONTWAIT, MT_DATA); + if (m == NULL) + { + sc->status.cntrs.rxdma++; + if (DRIVER_DEBUG) + printf("%s: rxintr_setup: MGETHDR() failed\n", NAME_UNIT); + return 0; + } + MCLGET(m, M_DONTWAIT); + if ((m->m_flags & M_EXT) == 0) + { + m_freem(m); + sc->status.cntrs.rxdma++; + if (DRIVER_DEBUG) + printf("%s: rxintr_setup: MCLGET() failed\n", NAME_UNIT); + return 0; + } + + /* Queue the mbuf for later processing by rxintr_cleanup. */ + mbuf_enqueue(ring, m); + + /* Write a DMA descriptor into the ring. */ + /* Hardware won't see it until the OWNER bit is set. */ + desc = ring->write; + /* Advance the ring write pointer. */ + if (ring->write++ == ring->last) ring->write = ring->first; + + desc_len = (MCLBYTES < MAX_DESC_LEN) ? MCLBYTES : MAX_DESC_LEN; + /* Map kernel virtual address to PCI address. */ + if ((error = DMA_LOAD(desc->map, m->m_data, desc_len))) + printf("%s: bus_dmamap_load(rx) failed; error %d\n", NAME_UNIT, error); + /* Invalidate the cache for this mbuf. */ + DMA_SYNC(desc->map, desc_len, BUS_DMASYNC_PREREAD); + + /* Set up the DMA descriptor. */ +#if __FreeBSD__ + desc->address1 = ring->segs[0].ds_addr; +#elif (__NetBSD__ || __OpenBSD__) + desc->address1 = desc->map->dm_segs[0].ds_addr; +#elif __bsdi__ + desc->address1 = vtophys(m->m_data); /* Relax! BSD/OS only. */ +#endif + desc->length1 = desc_len>>1; + desc->address2 = desc->address1 + desc->length1; + desc->length2 = desc_len>>1; + + /* Before setting the OWNER bit, flush the cache (memory barrier). */ + DMA_SYNC(ring->map, ring->size_descs, BUS_DMASYNC_PREWRITE); + + /* Commit the DMA descriptor to the hardware. */ + desc->status = TLP_DSTS_OWNER; + + /* Notify the receiver that there is another buffer available. */ + WRITE_CSR(TLP_RX_POLL, 1); + + return 1; /* did something */ + } + +/* Clean up after a packet has been transmitted. */ +/* Free the mbuf chain and update the DMA descriptor ring. */ +static int /* BSD version */ +txintr_cleanup(softc_t *sc) + { + struct desc_ring *ring = &sc->txring; + struct dma_desc *desc; + + while ((ring->read != ring->write) && /* while ring is not empty */ + ((ring->read->status & TLP_DSTS_OWNER) == 0)) + { + /* Read a DMA descriptor from the ring. */ + desc = ring->read; + /* Advance the ring read pointer. */ + if (ring->read++ == ring->last) ring->read = ring->first; + + /* This is a no-op on most architectures. */ + DMA_SYNC(desc->map, desc->length1 + desc->length2, BUS_DMASYNC_POSTWRITE); + /* Unmap kernel virtual address to PCI address. */ + bus_dmamap_unload(ring->tag, desc->map); + + /* If this descriptor is the last segment of a packet, */ + /* then dequeue and free the corresponding mbuf chain. */ + if ((desc->control & TLP_DCTL_TX_LAST_SEG) != 0) + { + struct mbuf *m; + if ((m = mbuf_dequeue(ring)) == NULL) + panic("%s: txintr_cleanup: expected an mbuf\n", NAME_UNIT); + + /* Include CRC and one flag byte in output byte count. */ + sc->status.cntrs.obytes += m->m_pkthdr.len + sc->config.crc_len +1; + sc->status.cntrs.opackets++; +#if IFNET + sc->ifp->if_opackets++; + LMC_BPF_MTAP(m); +#endif + /* The only bad TX status is fifo underrun. */ + if ((desc->status & TLP_DSTS_TX_UNDERRUN) != 0) + sc->status.cntrs.fifo_under++; + + m_freem(m); + return 1; /* did something */ + } + } + + return 0; + } + +/* Build DMA descriptors for a transmit packet mbuf chain. */ +static int /* 0=success; 1=error */ /* BSD version */ +txintr_setup_mbuf(softc_t *sc, struct mbuf *m) + { + struct desc_ring *ring = &sc->txring; + struct dma_desc *desc; + unsigned int desc_len; + + /* build DMA descriptors for a chain of mbufs. */ + while (m != NULL) + { + char *data = m->m_data; + int length = m->m_len; /* zero length mbufs happen! */ + + /* Build DMA descriptors for one mbuf. */ + while (length > 0) + { + int error; + + /* Ring is full if (wrap(write+1)==read) */ + if (((ring->temp==ring->last) ? ring->first : ring->temp+1) == ring->read) + { /* Not enough DMA descriptors; try later. */ + for (; ring->temp!=ring->write; + ring->temp = (ring->temp==ring->first)? ring->last : ring->temp-1) + bus_dmamap_unload(ring->tag, ring->temp->map); + sc->status.cntrs.txdma++; + return 1; + } + + /* Provisionally, write a descriptor into the ring. */ + /* But don't change the REAL ring write pointer. */ + /* Hardware won't see it until the OWNER bit is set. */ + desc = ring->temp; + /* Advance the temporary ring write pointer. */ + if (ring->temp++ == ring->last) ring->temp = ring->first; + + /* Clear all control bits except the END_RING bit. */ + desc->control &= TLP_DCTL_END_RING; + /* Don't pad short packets up to 64 bytes. */ + desc->control |= TLP_DCTL_TX_NO_PAD; + /* Use Tulip's CRC-32 generator, if appropriate. */ + if (sc->config.crc_len != CFG_CRC_32) + desc->control |= TLP_DCTL_TX_NO_CRC; + /* Set the OWNER bit, except in the first descriptor. */ + if (desc != ring->write) + desc->status = TLP_DSTS_OWNER; + + desc_len = (length > MAX_CHUNK_LEN) ? MAX_CHUNK_LEN : length; + /* Map kernel virtual address to PCI address. */ + if ((error = DMA_LOAD(desc->map, data, desc_len))) + printf("%s: bus_dmamap_load(tx) failed; error %d\n", NAME_UNIT, error); + /* Flush the cache and if bouncing, copy mbuf to bounce buf. */ + DMA_SYNC(desc->map, desc_len, BUS_DMASYNC_PREWRITE); + + /* Prevent wild fetches if mapping fails (nsegs==0). */ + desc->length1 = desc->length2 = 0; + desc->address1 = desc->address2 = 0; +#if (__FreeBSD__ || __NetBSD__ || __OpenBSD__) + { +# if __FreeBSD__ + bus_dma_segment_t *segs = ring->segs; + int nsegs = ring->nsegs; +# elif (__NetBSD__ || __OpenBSD__) + bus_dma_segment_t *segs = desc->map->dm_segs; + int nsegs = desc->map->dm_nsegs; +# endif + if (nsegs >= 1) + { + desc->address1 = segs[0].ds_addr; + desc->length1 = segs[0].ds_len; + } + if (nsegs == 2) + { + desc->address2 = segs[1].ds_addr; + desc->length2 = segs[1].ds_len; + } + } +#elif __bsdi__ + desc->address1 = vtophys(data); /* Relax! BSD/OS only. */ + desc->length1 = desc_len; +#endif + + data += desc_len; + length -= desc_len; + } /* while (length > 0) */ + + m = m->m_next; + } /* while (m != NULL) */ + + return 0; /* success */ + } + +/* Setup (prepare) to transmit a packet. */ +/* Select a packet, build DMA descriptors and give packet to hardware. */ +/* If DMA descriptors run out, abandon the attempt and return 0. */ +static int /* BSD version */ +txintr_setup(softc_t *sc) + { + struct desc_ring *ring = &sc->txring; + struct dma_desc *first_desc, *last_desc; + + /* Protect against half-up links: Don't transmit */ + /* if the receiver can't hear the far end. */ + if (sc->status.oper_status != STATUS_UP) return 0; + + /* Pick a packet to transmit. */ +#if NETGRAPH + if ((sc->ng_hook != NULL) && (sc->tx_mbuf == NULL)) + { + if (!IFQ_IS_EMPTY(&sc->ng_fastq)) + IFQ_DEQUEUE(&sc->ng_fastq, sc->tx_mbuf); + else + IFQ_DEQUEUE(&sc->ng_sndq, sc->tx_mbuf); + } + else +#endif + if (sc->tx_mbuf == NULL) + { + if (sc->config.line_pkg == PKG_RAWIP) + IFQ_DEQUEUE(&sc->ifp->if_snd, sc->tx_mbuf); + else + { +#if NSPPP + sc->tx_mbuf = sppp_dequeue(sc->ifp); +#elif P2P + if (!IFQ_IS_EMPTY(&sc->p2p->p2p_isnd)) + IFQ_DEQUEUE(&sc->p2p->p2p_isnd, sc->tx_mbuf); + else + IFQ_DEQUEUE(&sc->ifp->if_snd, sc->tx_mbuf); +#endif + } + } + if (sc->tx_mbuf == NULL) return 0; /* no pkt to transmit */ + + /* Build DMA descriptors for an outgoing mbuf chain. */ + ring->temp = ring->write; /* temporary ring write pointer */ + if (txintr_setup_mbuf(sc, sc->tx_mbuf) != 0) return 0; + + /* Enqueue the mbuf; txintr_cleanup will free it. */ + mbuf_enqueue(ring, sc->tx_mbuf); + + /* The transmitter has room for another packet. */ + sc->tx_mbuf = NULL; + + /* Set first & last segment bits. */ + /* last_desc is the desc BEFORE the one pointed to by ring->temp. */ + first_desc = ring->write; + first_desc->control |= TLP_DCTL_TX_FIRST_SEG; + last_desc = (ring->temp==ring->first)? ring->last : ring->temp-1; + last_desc->control |= TLP_DCTL_TX_LAST_SEG; + /* Interrupt at end-of-transmission? Why bother the poor computer! */ +/* last_desc->control |= TLP_DCTL_TX_INTERRUPT; */ + + /* Make sure the OWNER bit is not set in the next descriptor. */ + /* The OWNER bit may have been set if a previous call aborted. */ + ring->temp->status = 0; + + /* Commit the DMA descriptors to the software. */ + ring->write = ring->temp; + + /* Before setting the OWNER bit, flush the cache (memory barrier). */ + DMA_SYNC(ring->map, ring->size_descs, BUS_DMASYNC_PREWRITE); + + /* Commit the DMA descriptors to the hardware. */ + first_desc->status = TLP_DSTS_OWNER; + + /* Notify the transmitter that there is another packet to send. */ + WRITE_CSR(TLP_TX_POLL, 1); + + return 1; /* did something */ + } + +#endif /* BSD */ + +#if __linux__ +/* NOTE: this is the LINUX version of the interrupt/DMA code, */ + +/* Singly-linked tail-queues hold sk_buffs with active DMA. + * skbuffs are linked through their sk_buff.next field. + * Callers must hold sc->bottom_lock; not otherwise locked. + */ + +/* Put an skbuff on the tail of the descriptor ring queue. */ +static void /* Linux version */ +skbuff_enqueue(struct desc_ring *ring, struct sk_buff *skb) + { + skb->next = NULL; + if (ring->tail == NULL) + ring->head = skb; + else + ring->tail->next = skb; + ring->tail = skb; + } + +/* Get an skbuff from the head of the descriptor ring queue. */ +static struct sk_buff* /* Linux version */ +skbuff_dequeue(struct desc_ring *ring) + { + struct sk_buff *skb = ring->head; + if (skb != NULL) + if ((ring->head = skb->next) == NULL) + ring->tail = NULL; + return skb; + } + +/* Initialize a DMA descriptor ring. */ +static int /* Linux version */ +create_ring(softc_t *sc, struct desc_ring *ring, int num_descs) + { + struct dma_desc *descs; + int size_descs = sizeof(struct dma_desc)*num_descs; + + /* Allocate and map memory for DMA descriptor array. */ + if ((descs = pci_alloc_consistent(sc->pci_dev, size_descs, + &ring->dma_addr)) == NULL) + { + printk("%s: pci_alloc_consistent() failed\n", NAME_UNIT); + return ENOMEM; + } + memset(descs, 0, size_descs); + + ring->read = descs; + ring->write = descs; + ring->first = descs; + ring->last = descs + num_descs -1; + ring->last->control = TLP_DCTL_END_RING; + ring->num_descs = num_descs; + ring->size_descs = size_descs; + ring->head = NULL; + ring->tail = NULL; + + return 0; + } + +/* Destroy a DMA descriptor ring */ +static void /* Linux version */ +destroy_ring(softc_t *sc, struct desc_ring *ring) + { + struct sk_buff *skb; + + /* Free queued skbuffs. */ + while ((skb = skbuff_dequeue(ring)) != NULL) + dev_kfree_skb(skb); + + /* TX may have one pkt that is not on any queue. */ + if (sc->tx_skb != NULL) + { + dev_kfree_skb(sc->tx_skb); + sc->tx_skb = NULL; + } + + if (ring->first != NULL) + { + /* Unmap active DMA descriptors. */ + while (ring->read != ring->write) + { + pci_unmap_single(sc->pci_dev, ring->read->address1, + ring->read->length1 + ring->read->length2, PCI_DMA_BIDIRECTIONAL); + if (ring->read++ == ring->last) ring->read = ring->first; + } + + /* Unmap and free memory for DMA descriptor array. */ + pci_free_consistent(sc->pci_dev, ring->size_descs, ring->first, + ring->dma_addr); + } + } + +static int /* Linux version */ +rxintr_cleanup(softc_t *sc) + { + struct desc_ring *ring = &sc->rxring; + struct dma_desc *first_desc, *last_desc; + struct sk_buff *first_skb=NULL, *last_skb=NULL; + struct sk_buff *new_skb; + int pkt_len, desc_len; + + /* Input packet flow control (livelock prevention): */ + /* Give pkts to higher levels only if quota is > 0. */ + if (sc->quota <= 0) return 0; + + /* This looks complicated, but remember: packets up to 4032 */ + /* bytes long fit in one skbuff and use one DMA descriptor. */ + + first_desc = last_desc = ring->read; + + /* ASSERTION: If there is a descriptor in the ring and the hardware has */ + /* finished with it, then that descriptor will have RX_FIRST_DESC set. */ + if ((ring->read != ring->write) && /* descriptor ring not empty */ + ((ring->read->status & TLP_DSTS_OWNER) == 0) && /* hardware done */ + ((ring->read->status & TLP_DSTS_RX_FIRST_DESC) == 0)) /* should be set */ + panic("%s: rxintr_cleanup: rx-first-descriptor not set.\n", NAME_UNIT); + + /* First decide if a complete packet has arrived. */ + /* Run down DMA descriptors looking for one marked "last". */ + /* Bail out if an active descriptor is encountered. */ + /* Accumulate most significant bits of packet length. */ + pkt_len = 0; + for (;;) + { + if (last_desc == ring->write) return 0; /* no more descs */ + if (last_desc->status & TLP_DSTS_OWNER) return 0; /* still active */ + if (last_desc->status & TLP_DSTS_RX_LAST_DESC) break; /* end of packet */ + pkt_len += last_desc->length1 + last_desc->length2; /* entire desc filled */ + if (last_desc++->control & TLP_DCTL_END_RING) last_desc = ring->first; /* ring wrap */ + } + + /* A complete packet has arrived; how long is it? */ + /* H/w ref man shows RX pkt length as a 14-bit field. */ + /* An experiment found that only the 12 LSBs work. */ + if (((last_desc->status>>16)&0xFFF) == 0) pkt_len += 4096; /* carry-bit */ + pkt_len = (pkt_len & 0xF000) + ((last_desc->status>>16) & 0x0FFF); + /* Subtract the CRC length unless doing so would underflow. */ + if (pkt_len >= sc->config.crc_len) pkt_len -= sc->config.crc_len; + + /* Run down DMA descriptors again doing the following: + * 1) put pkt info in hdr of first skbuff. + * 2) put additional skbuffs on frag_list. + * 3) set skbuff lengths. + */ + first_desc = ring->read; + do + { + /* Read a DMA descriptor from the ring. */ + last_desc = ring->read; + /* Advance the ring read pointer. */ + if (ring->read++ == ring->last) ring->read = ring->first; + + /* Dequeue the corresponding skbuff. */ + new_skb = skbuff_dequeue(ring); + if (new_skb == NULL) + panic("%s: rxintr_cleanup: expected an skbuff\n", NAME_UNIT); + + desc_len = last_desc->length1 + last_desc->length2; + /* Unmap kernel virtual addresss to PCI address. */ + pci_unmap_single(sc->pci_dev, last_desc->address1, + desc_len, PCI_DMA_FROMDEVICE); + + /* Set skbuff length. */ + skb_put(new_skb, (pkt_len >= desc_len) ? desc_len : pkt_len); + pkt_len -= new_skb->len; + + /* 1) Put pkt info in hdr of first skbuff. */ + if (last_desc == first_desc) + { + first_skb = new_skb; + if (sc->config.line_pkg == PKG_RAWIP) + { + if (first_skb->data[0]>>4 == 4) + first_skb->protocol = htons(ETH_P_IP); + else if (first_skb->data[0]>>4 == 6) + first_skb->protocol = htons(ETH_P_IPV6); + } + else +#if GEN_HDLC + first_skb->protocol = hdlc_type_trans(first_skb, sc->net_dev); +#else + first_skb->protocol = htons(ETH_P_HDLC); +#endif + first_skb->mac.raw = first_skb->data; + first_skb->dev = sc->net_dev; + do_gettimeofday(&first_skb->stamp); + sc->net_dev->last_rx = jiffies; + } + else /* 2) link skbuffs. */ + { + /* Put this skbuff on the frag_list of the first skbuff. */ + new_skb->next = NULL; + if (skb_shinfo(first_skb)->frag_list == NULL) + skb_shinfo(first_skb)->frag_list = new_skb; + else + last_skb->next = new_skb; + /* 3) set skbuff lengths. */ + first_skb->len += new_skb->len; + first_skb->data_len += new_skb->len; + } + last_skb = new_skb; + } while ((last_desc->status & TLP_DSTS_RX_LAST_DESC) == 0); + + /* Decide whether to accept or to discard this packet. */ + /* RxHDLC sets MIIERR for bad CRC, abort and partial byte at pkt end. */ + if (((last_desc->status & TLP_DSTS_RX_BAD) == 0) && + (sc->status.oper_status == STATUS_UP) && + (first_skb->len > 0)) + { + /* Optimization: copy a small pkt into a small skbuff. */ + if (first_skb->len <= COPY_BREAK) + if ((new_skb = skb_copy(first_skb, GFP_ATOMIC)) != NULL) + { + dev_kfree_skb_any(first_skb); + first_skb = new_skb; + } + + /* Include CRC and one flag byte in input byte count. */ + sc->status.cntrs.ibytes += first_skb->len + sc->config.crc_len +1; + sc->status.cntrs.ipackets++; + + /* Give this good packet to the network stacks. */ + netif_receive_skb(first_skb); /* NAPI */ + sc->quota--; + } + else if (sc->status.oper_status != STATUS_UP) + { + /* If the link is down, this packet is probably noise. */ + sc->status.cntrs.idiscards++; + dev_kfree_skb_any(first_skb); + if (DRIVER_DEBUG) + printk("%s: rxintr_cleanup: rx pkt discarded: link down\n", NAME_UNIT); + } + else /* Log and discard this bad packet. */ + { + if (DRIVER_DEBUG) + printk("%s: RX bad pkt; len=%d %s%s%s%s\n", + NAME_UNIT, first_skb->len, + (last_desc->status & TLP_DSTS_RX_MII_ERR) ? " miierr" : "", + (last_desc->status & TLP_DSTS_RX_DRIBBLE) ? " dribble" : "", + (last_desc->status & TLP_DSTS_RX_DESC_ERR) ? " descerr" : "", + (last_desc->status & TLP_DSTS_RX_OVERRUN) ? " overrun" : ""); + if (last_desc->status & TLP_DSTS_RX_OVERRUN) + sc->status.cntrs.fifo_over++; + else + sc->status.cntrs.ierrors++; + dev_kfree_skb_any(first_skb); + } + + return 1; /* did something */ + } + +/* Setup (prepare) to receive a packet. */ +/* Try to keep the RX descriptor ring full of empty buffers. */ +static int /* Linux version */ +rxintr_setup(softc_t *sc) + { + struct desc_ring *ring = &sc->rxring; + struct dma_desc *desc; + struct sk_buff *skb; + u_int32_t dma_addr; + + /* Ring is full if (wrap(write+1)==read) */ + if (((ring->write == ring->last) ? ring->first : ring->write+1) == ring->read) + return 0; /* ring is full; nothing to do */ + + /* Allocate an skbuff. */ + if ((skb = dev_alloc_skb(MAX_DESC_LEN)) == NULL) + { + sc->status.cntrs.rxdma++; + if (DRIVER_DEBUG) + printk("%s: rxintr_setup: dev_alloc_skb() failed\n", NAME_UNIT); + return 0; + } + skb->dev = sc->net_dev; + + /* Queue the skbuff for later processing by rxintr_cleanup. */ + skbuff_enqueue(ring, skb); + + /* Write a DMA descriptor into the ring. */ + /* Hardware won't see it until the OWNER bit is set. */ + desc = ring->write; + /* Advance the ring write pointer. */ + if (ring->write++ == ring->last) ring->write = ring->first; + + /* Map kernel virtual addresses to PCI addresses. */ + dma_addr = pci_map_single(sc->pci_dev, skb->data, + MAX_DESC_LEN, PCI_DMA_FROMDEVICE); + /* Set up the DMA descriptor. */ + desc->address1 = dma_addr; + desc->length1 = MAX_CHUNK_LEN; + desc->address2 = desc->address1 + desc->length1; + desc->length2 = MAX_CHUNK_LEN; + + /* Before setting the OWNER bit, flush the cache (memory barrier). */ + wmb(); /* write memory barrier */ + + /* Commit the DMA descriptor to the hardware. */ + desc->status = TLP_DSTS_OWNER; + + /* Notify the receiver that there is another buffer available. */ + WRITE_CSR(TLP_RX_POLL, 1); + + return 1; /* did something */ + } + +/* Clean up after a packet has been transmitted. */ +/* Free the sk_buff and update the DMA descriptor ring. */ +static int /* Linux version */ +txintr_cleanup(softc_t *sc) + { + struct desc_ring *ring = &sc->txring; + struct dma_desc *desc; + + while ((ring->read != ring->write) && /* ring is not empty */ + ((ring->read->status & TLP_DSTS_OWNER) == 0)) + { + /* Read a DMA descriptor from the ring. */ + desc = ring->read; + /* Advance the ring read pointer. */ + if (ring->read++ == ring->last) ring->read = ring->first; + /* Unmap kernel virtual address to PCI address. */ + pci_unmap_single(sc->pci_dev, desc->address1, + desc->length1 + desc->length2, PCI_DMA_TODEVICE); + + /* If this descriptor is the last segment of a packet, */ + /* then dequeue and free the corresponding skbuff. */ + if ((desc->control & TLP_DCTL_TX_LAST_SEG) != 0) + { + struct sk_buff *skb; + if ((skb = skbuff_dequeue(ring)) == NULL) + panic("%s: txintr_cleanup: expected an sk_buff\n", NAME_UNIT); + + /* Include CRC and one flag byte in output byte count. */ + sc->status.cntrs.obytes += skb->len + sc->config.crc_len +1; + sc->status.cntrs.opackets++; + + /* The only bad TX status is fifo underrun. */ + if ((desc->status & TLP_DSTS_TX_UNDERRUN) != 0) + { + sc->status.cntrs.fifo_under++; /* also increment oerrors? */ + if (DRIVER_DEBUG) + printk("%s: txintr_cleanup: tx fifo underrun\n", NAME_UNIT); + } + + dev_kfree_skb_any(skb); + return 1; /* did something */ + } + } + + return 0; + } + +/* Build DMA descriptors for a tranmit packet fragment, */ +/* Assertion: fragment is contiguous in physical memory. */ +static int /* 0=success; 1=error */ /* linux version */ +txintr_setup_frag(softc_t *sc, char *data, int length) + { + struct desc_ring *ring = &sc->txring; + struct dma_desc *desc; + unsigned int desc_len; + u_int32_t dma_addr; + + while (length > 0) + { + /* Ring is full if (wrap(write+1)==read) */ + if (((ring->temp==ring->last) ? ring->first : ring->temp+1) == ring->read) + { /* Not enough DMA descriptors; try later. */ + for (; ring->temp!=ring->write; + ring->temp = (ring->temp==ring->first)? ring->last : ring->temp-1) + pci_unmap_single(sc->pci_dev, ring->temp->address1, + ring->temp->length1 + ring->temp->length2, PCI_DMA_FROMDEVICE); + sc->status.cntrs.txdma++; + return 1; + } + + /* Provisionally, write a DMA descriptor into the ring. */ + /* But don't change the REAL ring write pointer. */ + /* Hardware won't see it until the OWNER bit is set. */ + desc = ring->temp; + /* Advance the temporary ring write pointer. */ + if (ring->temp++ == ring->last) ring->temp = ring->first; + + /* Clear all control bits except the END_RING bit. */ + desc->control &= TLP_DCTL_END_RING; + /* Don't pad short packets up to 64 bytes */ + desc->control |= TLP_DCTL_TX_NO_PAD; + /* Use Tulip's CRC-32 generator, if appropriate. */ + if (sc->config.crc_len != CFG_CRC_32) + desc->control |= TLP_DCTL_TX_NO_CRC; + /* Set the OWNER bit, except in the first descriptor. */ + if (desc != ring->write) + desc->status = TLP_DSTS_OWNER; + + desc_len = (length >= MAX_DESC_LEN) ? MAX_DESC_LEN : length; + /* Map kernel virtual address to PCI address. */ + dma_addr = pci_map_single(sc->pci_dev, data, desc_len, PCI_DMA_TODEVICE); + /* If it will fit in one chunk, do so, otherwise split it. */ + if (desc_len <= MAX_CHUNK_LEN) + { + desc->address1 = dma_addr; + desc->length1 = desc_len; + desc->address2 = 0; + desc->length2 = 0; + } + else + { + desc->address1 = dma_addr; + desc->length1 = desc_len>>1; + desc->address2 = desc->address1 + desc->length1; + desc->length2 = desc_len>>1; + if (desc_len & 1) desc->length2++; + } + + data += desc_len; + length -= desc_len; + } /* while (length > 0) */ + + return 0; /* success */ + } + +/* NB: this procedure is recursive! */ +static int /* 0=success; 1=error */ +txintr_setup_skb(softc_t *sc, struct sk_buff *skb) + { + struct sk_buff *list; + int i; + + /* First, handle the data in the skbuff itself. */ + if (txintr_setup_frag(sc, skb->data, skb_headlen(skb))) + return 1; + + /* Next, handle the VM pages in the Scatter/Gather list. */ + if (skb_shinfo(skb)->nr_frags != 0) + for (i=0; inr_frags; i++) + { + skb_frag_t *frag = &skb_shinfo(skb)->frags[i]; + if (txintr_setup_frag(sc, page_address(frag->page) + + frag->page_offset, frag->size)) + return 1; + } + + /* Finally, handle the skbuffs in the frag_list. */ + if ((list = skb_shinfo(skb)->frag_list) != NULL) + for (; list; list=list->next) + if (txintr_setup_skb(sc, list)) /* recursive! */ + return 1; + + return 0; + } + +/* Setup (prepare) to transmit a packet. */ +/* Select a packet, build DMA descriptors and give packet to hardware. */ +/* If DMA descriptors run out, abandon the attempt and return 0. */ +static int /* Linux version */ +txintr_setup(softc_t *sc) + { + struct desc_ring *ring = &sc->txring; + struct dma_desc *first_desc, *last_desc; + + /* Protect against half-up links: Don't transmit */ + /* if the receiver can't hear the far end. */ + if (sc->status.oper_status != STATUS_UP) return 0; + + /* Pick a packet to transmit. */ + /* linux_start() puts packets in sc->tx_skb. */ + if (sc->tx_skb == NULL) + { + if (netif_queue_stopped(sc->net_dev) != 0) + netif_wake_queue(sc->net_dev); + return 0; /* no pkt to transmit */ + } + + /* Build DMA descriptors for an outgoing skbuff. */ + ring->temp = ring->write; /* temporary ring write pointer */ + if (txintr_setup_skb(sc, sc->tx_skb) != 0) return 0; + + /* Enqueue the skbuff; txintr_cleanup will free it. */ + skbuff_enqueue(ring, sc->tx_skb); + + /* The transmitter has room for another packet. */ + sc->tx_skb = NULL; + + /* Set first & last segment bits. */ + /* last_desc is the desc BEFORE the one pointed to by ring->temp. */ + first_desc = ring->write; + first_desc->control |= TLP_DCTL_TX_FIRST_SEG; + last_desc = (ring->temp==ring->first)? ring->last : ring->temp-1; + last_desc->control |= TLP_DCTL_TX_LAST_SEG; + /* Interrupt at end-of-transmission? Why bother the poor computer! */ +/* last_desc->control |= TLP_DCTL_TX_INTERRUPT; */ + + /* Make sure the OWNER bit is not set in the next descriptor. */ + /* The OWNER bit may have been set if a previous call aborted. */ + ring->temp->status = 0; + + /* Commit the DMA descriptors to the software. */ + ring->write = ring->temp; + + /* Before setting the OWNER bit, flush the cache (memory barrier). */ + wmb(); /* write memory barrier */ + + /* Commit the DMA descriptors to the hardware. */ + first_desc->status = TLP_DSTS_OWNER; + + /* Notify the transmitter that there is another packet to send. */ + WRITE_CSR(TLP_TX_POLL, 1); + + sc->net_dev->trans_start = jiffies; + + return 1; /* did something */ + } + +#endif /* __linux__ */ + +static void +check_intr_status(softc_t *sc) + { + u_int32_t status, cfcs, op_mode; + u_int32_t missed, overruns; + + /* Check for four unusual events: + * 1) fatal PCI bus errors - some are recoverable + * 2) transmitter FIFO underruns - increase fifo threshold + * 3) receiver FIFO overruns - clear potential hangup + * 4) no receive descs or bufs - count missed packets + */ + + /* 1) A fatal bus error causes a Tulip to stop initiating bus cycles. */ + /* Module unload/load or boot are the only fixes for Parity Errors. */ + /* Master and Target Aborts can be cleared and life may continue. */ + status = READ_CSR(TLP_STATUS); + if ((status & TLP_STAT_FATAL_ERROR) != 0) + { + u_int32_t fatal = (status & TLP_STAT_FATAL_BITS)>>TLP_STAT_FATAL_SHIFT; + printf("%s: FATAL PCI BUS ERROR: %s%s%s%s\n", NAME_UNIT, + (fatal == 0) ? "PARITY ERROR" : "", + (fatal == 1) ? "MASTER ABORT" : "", + (fatal == 2) ? "TARGET ABORT" : "", + (fatal >= 3) ? "RESERVED (?)" : ""); + cfcs = READ_PCI_CFG(sc, TLP_CFCS); /* try to clear it */ + cfcs &= ~(TLP_CFCS_MSTR_ABORT | TLP_CFCS_TARG_ABORT); + WRITE_PCI_CFG(sc, TLP_CFCS, cfcs); + } + + /* 2) If the transmitter fifo underruns, increase the transmit fifo */ + /* threshold: the number of bytes required to be in the fifo */ + /* before starting the transmitter (cost: increased tx delay). */ + /* The TX_FSM must be stopped to change this parameter. */ + if ((status & TLP_STAT_TX_UNDERRUN) != 0) + { + op_mode = READ_CSR(TLP_OP_MODE); + /* enable store-and-forward mode if tx_threshold tops out? */ + if ((op_mode & TLP_OP_TX_THRESH) < TLP_OP_TX_THRESH) + { + op_mode += 0x4000; /* increment TX_THRESH field; can't overflow */ + WRITE_CSR(TLP_OP_MODE, op_mode & ~TLP_OP_TX_RUN); + /* Wait for the TX FSM to stop; it might be processing a pkt. */ + while (READ_CSR(TLP_STATUS) & TLP_STAT_TX_FSM); /* XXX HANG */ + WRITE_CSR(TLP_OP_MODE, op_mode); /* restart tx */ + if (DRIVER_DEBUG) + printf("%s: tx underrun; tx fifo threshold now %d bytes\n", + NAME_UNIT, 128<<((op_mode>>TLP_OP_TR_SHIFT)&3)); + } + } + + /* 3) Errata memo from Digital Equipment Corp warns that 21140A */ + /* receivers through rev 2.2 can hang if the fifo overruns. */ + /* Recommended fix: stop and start the RX FSM after an overrun. */ + missed = READ_CSR(TLP_MISSED); + if ((overruns = ((missed & TLP_MISS_OVERRUN)>>TLP_OVERRUN_SHIFT)) != 0) + { + if (DRIVER_DEBUG) + printf("%s: rx overrun cntr=%d\n", NAME_UNIT, overruns); + sc->status.cntrs.overruns += overruns; + if ((READ_PCI_CFG(sc, TLP_CFRV) & 0xFF) <= 0x22) + { + op_mode = READ_CSR(TLP_OP_MODE); + WRITE_CSR(TLP_OP_MODE, op_mode & ~TLP_OP_RX_RUN); + /* Wait for the RX FSM to stop; it might be processing a pkt. */ + while (READ_CSR(TLP_STATUS) & TLP_STAT_RX_FSM); /* XXX HANG */ + WRITE_CSR(TLP_OP_MODE, op_mode); /* restart rx */ + } + } + + /* 4) When the receiver is enabled and a packet arrives, but no DMA */ + /* descriptor is available, the packet is counted as 'missed'. */ + /* The receiver should never miss packets; warn if it happens. */ + if ((missed = (missed & TLP_MISS_MISSED)) != 0) + { + if (DRIVER_DEBUG) + printf("%s: rx missed %d pkts\n", NAME_UNIT, missed); + sc->status.cntrs.missed += missed; + } + } + +static void /* This is where the work gets done. */ +core_interrupt(void *arg, int check_status) + { + softc_t *sc = arg; + int activity; + + /* If any CPU is inside this critical section, then */ + /* other CPUs should go away without doing anything. */ + if (BOTTOM_TRYLOCK == 0) + { + sc->status.cntrs.lck_intr++; + return; + } + + /* Clear pending card interrupts. */ + WRITE_CSR(TLP_STATUS, READ_CSR(TLP_STATUS)); + + /* In Linux, pci_alloc_consistent() means DMA descriptors */ + /* don't need explicit syncing. */ +#if BSD + { + struct desc_ring *ring = &sc->txring; + DMA_SYNC(sc->txring.map, sc->txring.size_descs, + BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); + ring = &sc->rxring; + DMA_SYNC(sc->rxring.map, sc->rxring.size_descs, + BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); + } +#endif + + do /* This is the main loop for interrupt processing. */ + { + activity = txintr_cleanup(sc); + activity += txintr_setup(sc); + activity += rxintr_cleanup(sc); + activity += rxintr_setup(sc); + } while (activity); + +#if BSD + { + struct desc_ring *ring = &sc->txring; + DMA_SYNC(sc->txring.map, sc->txring.size_descs, + BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); + ring = &sc->rxring; + DMA_SYNC(sc->rxring.map, sc->rxring.size_descs, + BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); + } +#endif + + /* As the interrupt is dismissed, check for four unusual events. */ + if (check_status) check_intr_status(sc); + + BOTTOM_UNLOCK; + } + +/* user_interrupt() may be called from a syscall or a softirq */ +static void +user_interrupt(softc_t *sc, int check_status) + { + DISABLE_INTR; /* noop on FreeBSD-5 and Linux */ + core_interrupt(sc, check_status); + ENABLE_INTR; /* noop on FreeBSD-5 and Linux */ + } + +#if BSD + +# if (__FreeBSD__ && DEVICE_POLLING) + +/* Service the card from the kernel idle loop without interrupts. */ +static void +fbsd_poll(struct ifnet *ifp, enum poll_cmd cmd, int count) + { + softc_t *sc = IFP2SC(ifp); + +#if (__FreeBSD_version < 500000) + if ((ifp->if_capenable & IFCAP_POLLING) == 0) + { + ether_poll_deregister(ifp); + cmd = POLL_DEREGISTER; + } + + if (cmd == POLL_DEREGISTER) + { + /* Last call -- reenable card interrupts. */ + WRITE_CSR(TLP_INT_ENBL, TLP_INT_TXRX); + return; + } +#endif + + sc->quota = count; + core_interrupt(sc, (cmd==POLL_AND_CHECK_STATUS)); + } + +# endif /* (__FreeBSD__ && DEVICE_POLLING) */ + +/* BSD kernels call this procedure when an interrupt happens. */ +static intr_return_t +bsd_interrupt(void *arg) + { + softc_t *sc = arg; + + /* Cut losses early if this is not our interrupt. */ + if ((READ_CSR(TLP_STATUS) & TLP_INT_TXRX) == 0) + return IRQ_NONE; + +# if (__FreeBSD__ && DEVICE_POLLING) + if (sc->ifp->if_capenable & IFCAP_POLLING) + return IRQ_NONE; + + if ((sc->ifp->if_capabilities & IFCAP_POLLING) && + (ether_poll_register(fbsd_poll, sc->ifp))) + { + WRITE_CSR(TLP_INT_ENBL, TLP_INT_DISABLE); + return IRQ_NONE; + } + else + sc->quota = sc->rxring.num_descs; /* input flow control */ +# endif /* (__FreeBSD__ && DEVICE_POLLING) */ + + /* Disable card interrupts. */ + WRITE_CSR(TLP_INT_ENBL, TLP_INT_DISABLE); + + core_interrupt(sc, 0); + + /* Enable card interrupts. */ + WRITE_CSR(TLP_INT_ENBL, TLP_INT_TXRX); + + return IRQ_HANDLED; + } + +#endif /* BSD */ + +/* Administrative status of the driver (UP or DOWN) has changed. */ +/* A card-specific action may be required: T1 and T3 cards: no-op. */ +/* HSSI and SSI cards change the state of modem ready signals. */ +static void +set_status(softc_t *sc, int status) + { + struct ioctl ioctl; + + ioctl.cmd = IOCTL_SET_STATUS; + ioctl.data = status; + + sc->card->ioctl(sc, &ioctl); + } + +#if P2P + +/* Callout from P2P: */ +/* Get the state of DCD (Data Carrier Detect). */ +static int +p2p_getmdm(struct p2pcom *p2p, caddr_t result) + { + softc_t *sc = IFP2SC(&p2p->p2p_if); + + /* Non-zero isn't good enough; TIOCM_CAR is 0x40. */ + *(int *)result = (sc->status.oper_status==STATUS_UP) ? TIOCM_CAR : 0; + + return 0; + } + +/* Callout from P2P: */ +/* Set the state of DTR (Data Terminal Ready). */ +static int +p2p_mdmctl(struct p2pcom *p2p, int flag) + { + softc_t *sc = IFP2SC(&p2p->p2p_if); + + set_status(sc, flag); + + return 0; + } + +#endif /* P2P */ + +#if NSPPP + +# ifndef PP_FR +# define PP_FR 0 +# endif + +/* Callout from SPPP: */ +static void +sppp_tls(struct sppp *sppp) + { +# if __FreeBSD__ + if (!(sppp->pp_mode & IFF_LINK2) && + !(sppp->pp_flags & PP_FR)) +# elif __NetBSD__ || __OpenBSD__ + if (!(sppp->pp_flags & PP_CISCO)) +# endif + sppp->pp_up(sppp); + } + +/* Callout from SPPP: */ +static void +sppp_tlf(struct sppp *sppp) + { +# if __FreeBSD__ + if (!(sppp->pp_mode & IFF_LINK2) && + !(sppp->pp_flags & PP_FR)) +# elif __NetBSD__ || __OpenBSD__ + if (!(sppp->pp_flags & PP_CISCO)) +# endif + sppp->pp_down(sppp); + } + +#endif /* NSPPP */ + +/* Configure line protocol stuff. + * Called by attach_card() during module init. + * Called by core_ioctl() when lmcconfig writes sc->config. + * Called by detach_card() during module shutdown. + */ +static void +config_proto(softc_t *sc, struct config *config) + { + /* Use line protocol stack instead of RAWIP mode. */ + if ((sc->config.line_pkg == PKG_RAWIP) && + (config->line_pkg != PKG_RAWIP)) + { +#if NSPPP + LMC_BPF_DETACH; + sppp_attach(sc->ifp); + LMC_BPF_ATTACH(DLT_PPP, 4); + sc->sppp->pp_tls = sppp_tls; + sc->sppp->pp_tlf = sppp_tlf; + /* Force reconfiguration of SPPP params. */ + sc->config.line_prot = 0; + sc->config.keep_alive = config->keep_alive ? 0:1; +#elif P2P + int error = 0; + sc->p2p->p2p_proto = 0; /* force p2p_attach */ + if ((error = p2p_attach(sc->p2p))) /* calls bpfattach() */ + { + printf("%s: p2p_attach() failed; error %d\n", NAME_UNIT, error); + config->line_pkg = PKG_RAWIP; /* still in RAWIP mode */ + } + else + { + sc->p2p->p2p_mdmctl = p2p_mdmctl; /* set DTR */ + sc->p2p->p2p_getmdm = p2p_getmdm; /* get DCD */ + } +#elif GEN_HDLC + int error = 0; + sc->net_dev->mtu = HDLC_MAX_MTU; + if ((error = hdlc_open(sc->net_dev))) + { + printf("%s: hdlc_open() failed; error %d\n", NAME_UNIT, error); + printf("%s: Try 'sethdlc %s ppp'\n", NAME_UNIT, NAME_UNIT); + config->line_pkg = PKG_RAWIP; /* still in RAWIP mode */ + } +#else /* no line protocol stack was configured */ + config->line_pkg = PKG_RAWIP; /* still in RAWIP mode */ +#endif + } + + /* Bypass line protocol stack and return to RAWIP mode. */ + if ((sc->config.line_pkg != PKG_RAWIP) && + (config->line_pkg == PKG_RAWIP)) + { +#if NSPPP + LMC_BPF_DETACH; + sppp_flush(sc->ifp); + sppp_detach(sc->ifp); + setup_ifnet(sc->ifp); + LMC_BPF_ATTACH(DLT_RAW, 0); +#elif P2P + int error = 0; + if_qflush(&sc->p2p->p2p_isnd); + if ((error = p2p_detach(sc->p2p))) + { + printf("%s: p2p_detach() failed; error %d\n", NAME_UNIT, error); + printf("%s: Try 'ifconfig %s down -remove'\n", NAME_UNIT, NAME_UNIT); + config->line_pkg = PKG_P2P; /* not in RAWIP mode; still attached to P2P */ + } + else + { + setup_ifnet(sc->ifp); + LMC_BPF_ATTACH(DLT_RAW, 0); + } +#elif GEN_HDLC + hdlc_proto_detach(sc->hdlc_dev); + hdlc_close(sc->net_dev); + setup_netdev(sc->net_dev); +#endif + } + +#if NSPPP + + if (config->line_pkg != PKG_RAWIP) + { + /* Check for change to PPP protocol. */ + if ((sc->config.line_prot != PROT_PPP) && + (config->line_prot == PROT_PPP)) + { + LMC_BPF_DETACH; +# if (__NetBSD__ || __OpenBSD__) + sc->sppp->pp_flags &= ~PP_CISCO; +# elif __FreeBSD__ + sc->ifp->if_flags &= ~IFF_LINK2; + sc->sppp->pp_flags &= ~PP_FR; +# endif + LMC_BPF_ATTACH(DLT_PPP, 4); + sppp_ioctl(sc->ifp, SIOCSIFFLAGS, NULL); + } + +# ifndef DLT_C_HDLC +# define DLT_C_HDLC DLT_PPP +# endif + + /* Check for change to C_HDLC protocol. */ + if ((sc->config.line_prot != PROT_C_HDLC) && + (config->line_prot == PROT_C_HDLC)) + { + LMC_BPF_DETACH; +# if (__NetBSD__ || __OpenBSD__) + sc->sppp->pp_flags |= PP_CISCO; +# elif __FreeBSD__ + sc->ifp->if_flags |= IFF_LINK2; + sc->sppp->pp_flags &= ~PP_FR; +# endif + LMC_BPF_ATTACH(DLT_C_HDLC, 4); + sppp_ioctl(sc->ifp, SIOCSIFFLAGS, NULL); + } + + /* Check for change to Frame Relay protocol. */ + if ((sc->config.line_prot != PROT_FRM_RLY) && + (config->line_prot == PROT_FRM_RLY)) + { + LMC_BPF_DETACH; +# if (__NetBSD__ || __OpenBSD__) + sc->sppp->pp_flags &= ~PP_CISCO; +# elif __FreeBSD__ + sc->ifp->if_flags &= ~IFF_LINK2; + sc->sppp->pp_flags |= PP_FR; +# endif + LMC_BPF_ATTACH(DLT_FRELAY, 4); + sppp_ioctl(sc->ifp, SIOCSIFFLAGS, NULL); + } + + /* Check for disabling keep-alives. */ + if ((sc->config.keep_alive != 0) && + (config->keep_alive == 0)) + sc->sppp->pp_flags &= ~PP_KEEPALIVE; + + /* Check for enabling keep-alives. */ + if ((sc->config.keep_alive == 0) && + (config->keep_alive != 0)) + sc->sppp->pp_flags |= PP_KEEPALIVE; + } + +#endif /* NSPPP */ + + /* Loop back through the TULIP Ethernet chip; (no CRC). */ + /* Data sheet says stop DMA before changing OPMODE register. */ + /* But that's not as simple as it sounds; works anyway. */ + /* Check for enabling loopback thru Tulip chip. */ + if ((sc->config.loop_back != CFG_LOOP_TULIP) && + (config->loop_back == CFG_LOOP_TULIP)) + { + u_int32_t op_mode = READ_CSR(TLP_OP_MODE); + op_mode |= TLP_OP_INT_LOOP; + WRITE_CSR(TLP_OP_MODE, op_mode); + config->crc_len = CFG_CRC_0; + } + + /* Check for disabling loopback thru Tulip chip. */ + if ((sc->config.loop_back == CFG_LOOP_TULIP) && + (config->loop_back != CFG_LOOP_TULIP)) + { + u_int32_t op_mode = READ_CSR(TLP_OP_MODE); + op_mode &= ~TLP_OP_LOOP_MODE; + WRITE_CSR(TLP_OP_MODE, op_mode); + config->crc_len = CFG_CRC_16; + } + } + +/* This is the core ioctl procedure. */ +/* It handles IOCTLs from lmcconfig(8). */ +/* It must not run when card watchdogs run. */ +/* Called from a syscall (user context; no spinlocks). */ +/* This procedure can SLEEP. */ +static int +core_ioctl(softc_t *sc, u_long cmd, caddr_t data) + { + struct iohdr *iohdr = (struct iohdr *) data; + struct ioctl *ioctl = (struct ioctl *) data; + struct status *status = (struct status *) data; + struct config *config = (struct config *) data; + int error = 0; + + /* All structs start with a string and a cookie. */ + if (((struct iohdr *)data)->cookie != NGM_LMC_COOKIE) + return EINVAL; + + while (TOP_TRYLOCK == 0) + { + sc->status.cntrs.lck_ioctl++; + SLEEP(10000); /* yield? */ + } + switch (cmd) + { + case LMCIOCGSTAT: + { + *status = sc->status; + iohdr->cookie = NGM_LMC_COOKIE; + break; + } + case LMCIOCGCFG: + { + *config = sc->config; + iohdr->cookie = NGM_LMC_COOKIE; + break; + } + case LMCIOCSCFG: + { + if ((error = CHECK_CAP)) break; + config_proto(sc, config); + sc->config = *config; + sc->card->config(sc); + break; + } + case LMCIOCREAD: + { + if (ioctl->cmd == IOCTL_RW_PCI) + { + if (ioctl->address > 252) { error = EFAULT; break; } + ioctl->data = READ_PCI_CFG(sc, ioctl->address); + } + else if (ioctl->cmd == IOCTL_RW_CSR) + { + if (ioctl->address > 15) { error = EFAULT; break; } + ioctl->data = READ_CSR(ioctl->address*TLP_CSR_STRIDE); + } + else if (ioctl->cmd == IOCTL_RW_SROM) + { + if (ioctl->address > 63) { error = EFAULT; break; } + ioctl->data = read_srom(sc, ioctl->address); + } + else if (ioctl->cmd == IOCTL_RW_BIOS) + ioctl->data = read_bios(sc, ioctl->address); + else if (ioctl->cmd == IOCTL_RW_MII) + ioctl->data = read_mii(sc, ioctl->address); + else if (ioctl->cmd == IOCTL_RW_FRAME) + ioctl->data = read_framer(sc, ioctl->address); + else + error = EINVAL; + break; + } + case LMCIOCWRITE: + { + if ((error = CHECK_CAP)) break; + if (ioctl->cmd == IOCTL_RW_PCI) + { + if (ioctl->address > 252) { error = EFAULT; break; } + WRITE_PCI_CFG(sc, ioctl->address, ioctl->data); + } + else if (ioctl->cmd == IOCTL_RW_CSR) + { + if (ioctl->address > 15) { error = EFAULT; break; } + WRITE_CSR(ioctl->address*TLP_CSR_STRIDE, ioctl->data); + } + else if (ioctl->cmd == IOCTL_RW_SROM) + { + if (ioctl->address > 63) { error = EFAULT; break; } + write_srom(sc, ioctl->address, ioctl->data); /* can sleep */ + } + else if (ioctl->cmd == IOCTL_RW_BIOS) + { + if (ioctl->address == 0) erase_bios(sc); + write_bios(sc, ioctl->address, ioctl->data); /* can sleep */ + } + else if (ioctl->cmd == IOCTL_RW_MII) + write_mii(sc, ioctl->address, ioctl->data); + else if (ioctl->cmd == IOCTL_RW_FRAME) + write_framer(sc, ioctl->address, ioctl->data); + else if (ioctl->cmd == IOCTL_WO_SYNTH) + write_synth(sc, (struct synth *)&ioctl->data); + else if (ioctl->cmd == IOCTL_WO_DAC) + { + write_dac(sc, 0x9002); /* set Vref = 2.048 volts */ + write_dac(sc, ioctl->data & 0xFFF); + } + else + error = EINVAL; + break; + } + case LMCIOCTL: + { + if ((error = CHECK_CAP)) break; + if (ioctl->cmd == IOCTL_XILINX_RESET) + { + reset_xilinx(sc); + sc->card->config(sc); + } + else if (ioctl->cmd == IOCTL_XILINX_ROM) + { + load_xilinx_from_rom(sc); /* can sleep */ + sc->card->config(sc); + } + else if (ioctl->cmd == IOCTL_XILINX_FILE) + { + /* load_xilinx_from_file() can sleep. */ + error = load_xilinx_from_file(sc, ioctl->ucode, ioctl->data); + if (error != 0) load_xilinx_from_rom(sc); /* try the rom */ + sc->card->config(sc); + set_status(sc, (error==0)); /* XXX */ + } + else if (ioctl->cmd == IOCTL_RESET_CNTRS) + { + memset(&sc->status.cntrs, 0, sizeof(struct event_cntrs)); + microtime(&sc->status.cntrs.reset_time); + } + else + error = sc->card->ioctl(sc, ioctl); /* can sleep */ + break; + } + default: + error = EINVAL; + break; + } + TOP_UNLOCK; + + return error; + } + +/* This is the core watchdog procedure. */ +/* It calculates link speed, and calls the card-specific watchdog code. */ +/* Calls interrupt() in case one got lost; also kick-starts the device. */ +/* ioctl syscalls and card watchdog routines must be interlocked. */ +/* This procedure must not sleep. */ +static void +core_watchdog(softc_t *sc) + { + /* Read and restart the Tulip timer. */ + u_int32_t tx_speed = READ_CSR(TLP_TIMER); + WRITE_CSR(TLP_TIMER, 0xFFFF); + + /* Measure MII clock using a timer in the Tulip chip. + * This timer counts transmitter bits divided by 4096. + * Since this is called once a second the math is easy. + * This is only correct when the link is NOT sending pkts. + * On a fully-loaded link, answer will be HALF actual rate. + * Clock rate during pkt is HALF clk rate between pkts. + * Measuring clock rate really measures link utilization! + */ + sc->status.tx_speed = (0xFFFF - (tx_speed & 0xFFFF)) << 12; + + /* The first status reset time is when the calendar clock is set. */ + if (sc->status.cntrs.reset_time.tv_sec < 1000) + microtime(&sc->status.cntrs.reset_time); + + /* Update hardware (operational) status. */ + /* Call the card-specific watchdog routines. */ + if (TOP_TRYLOCK != 0) + { + sc->status.oper_status = sc->card->watchdog(sc); + + /* Increment a counter which tells user-land */ + /* observers that SNMP state has been updated. */ + sc->status.ticks++; + + TOP_UNLOCK; + } + else + sc->status.cntrs.lck_watch++; + + /* In case an interrupt gets lost... */ + user_interrupt(sc, 1); + } + +#if IFNET + +/* Called from a syscall (user context; no spinlocks). */ +static int +raw_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data) + { + struct ifreq *ifr = (struct ifreq *) data; + int error = 0; + + switch (cmd) + { +# if (__FreeBSD__ && DEVICE_POLLING) /* XXX necessary? */ + case SIOCSIFCAP: +# endif + case SIOCSIFDSTADDR: + case SIOCAIFADDR: + case SIOCSIFFLAGS: +#if 0 + case SIOCADDMULTI: + case SIOCDELMULTI: + break; +#endif + case SIOCSIFADDR: + ifp->if_flags |= IFF_UP; /* a Unix tradition */ + break; + case SIOCSIFMTU: + ifp->if_mtu = ifr->ifr_mtu; + break; + default: + error = EINVAL; + break; + } + return error; + } + +/* Called from a syscall (user context; no spinlocks). */ +static int +ifnet_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data) + { + softc_t *sc = IFP2SC(ifp); +# if __OpenBSD__ + struct ifreq *ifr = (struct ifreq *) data; +# endif + int error = 0; + + switch (cmd) + { + /* Catch the IOCTLs used by lmcconfig. */ + case LMCIOCGSTAT: + case LMCIOCGCFG: + case LMCIOCSCFG: + case LMCIOCREAD: + case LMCIOCWRITE: + case LMCIOCTL: + error = core_ioctl(sc, cmd, data); + break; +# if __OpenBSD__ + /* Catch the IOCTLs used by ifconfig. */ + case SIOCSIFMEDIA: + if ((error = CHECK_CAP)) break; + case SIOCGIFMEDIA: + error = ifmedia_ioctl(ifp, ifr, &sc->ifm, cmd); + break; + case SIOCSIFTIMESLOT: + if ((error = CHECK_CAP)) break; + if (sc->status.card_type == TLP_CSID_T1E1) + { + struct config config = sc->config; + if ((error = copyin(ifr->ifr_data, &config.time_slots, + sizeof config.time_slots))) break; + config.iohdr.cookie = NGM_LMC_COOKIE; + error = core_ioctl(sc, LMCIOCSCFG, (caddr_t)&config); + } + else + error = EINVAL; + break; + case SIOCGIFTIMESLOT: + if (sc->status.card_type == TLP_CSID_T1E1) + error = copyout(&sc->config.time_slots, ifr->ifr_data, + sizeof sc->config.time_slots); + else + error = EINVAL; + break; +# endif + /* Pass the rest to the line protocol. */ + default: + if (sc->config.line_pkg == PKG_RAWIP) + error = raw_ioctl(ifp, cmd, data); + else +# if NSPPP + error = sppp_ioctl(ifp, cmd, data); +# elif P2P + error = p2p_ioctl(ifp, cmd, data); +# else + error = EINVAL; +# endif + break; + } + + if (DRIVER_DEBUG && (error!=0)) + printf("%s: ifnet_ioctl; cmd=0x%08lx error=%d\n", + NAME_UNIT, cmd, error); + + return error; + } + +/* Called from a syscall (user context; no spinlocks). */ +static void +ifnet_start(struct ifnet *ifp) + { + softc_t *sc = IFP2SC(ifp); + + /* Start the transmitter; incoming pkts are NOT processed. */ + user_interrupt(sc, 0); + } + +/* sppp and p2p replace this with their own proc. */ +/* RAWIP mode is the only time this is used. */ +/* Called from a syscall (user context; no spinlocks). */ +static int +raw_output(struct ifnet *ifp, struct mbuf *m, + struct sockaddr *dst, struct rtentry *rt) + { + softc_t *sc = IFP2SC(ifp); + int error = 0; + + /* Fail if the link is down. */ + if (sc->status.oper_status != STATUS_UP) + { + m_freem(m); + sc->status.cntrs.odiscards++; + if (DRIVER_DEBUG) + printf("%s: raw_output: tx pkt discarded: link down\n", NAME_UNIT); + return ENETDOWN; + } + +# if NETGRAPH + /* Netgraph has priority over the ifnet kernel interface. */ + if (sc->ng_hook != NULL) + { + m_freem(m); + sc->status.cntrs.odiscards++; + if (DRIVER_DEBUG) + printf("%s: raw_output: tx pkt discarded: netgraph active\n", NAME_UNIT); + return EBUSY; + } +# endif + + /* raw_output() ENQUEUEs in a syscall or softirq. */ + /* txintr_setup() DEQUEUEs in a hard interrupt. */ + /* Some BSD QUEUE routines are not interrupt-safe. */ + { + DISABLE_INTR; +# if (__FreeBSD_version >= 503000) + IFQ_ENQUEUE(&ifp->if_snd, m, error); +# else + IFQ_ENQUEUE(&ifp->if_snd, m, NULL, error); +# endif + ENABLE_INTR; + } + + if (error==0) + user_interrupt(sc, 0); /* start the transmitter */ + else + { + m_freem(m); + sc->status.cntrs.odiscards++; + if (DRIVER_DEBUG) + printf("%s: raw_output: IFQ_ENQUEUE() failed; error %d\n", + NAME_UNIT, error); + } + + return error; + } + +/* Called from a softirq once a second. */ +static void +ifnet_watchdog(struct ifnet *ifp) + { + softc_t *sc = IFP2SC(ifp); + u_int8_t old_oper_status = sc->status.oper_status; + struct event_cntrs *cntrs = &sc->status.cntrs; + + core_watchdog(sc); /* updates oper_status */ + +#if NETGRAPH + if (sc->ng_hook != NULL) + { + sc->status.line_pkg = PKG_NG; + sc->status.line_prot = 0; + } + else +#endif + if (sc->config.line_pkg == PKG_RAWIP) + { + sc->status.line_pkg = PKG_RAWIP; + sc->status.line_prot = PROT_IP_HDLC; + } + else + { +# if P2P + /* Notice change in link status. */ + if ((old_oper_status != sc->status.oper_status) && (sc->p2p->p2p_modem)) + (*sc->p2p->p2p_modem)(sc->p2p, sc->status.oper_status==STATUS_UP); + + /* Notice change in line protocol. */ + sc->status.line_pkg = PKG_P2P; + switch (sc->ifp->if_type) + { + case IFT_PPP: + sc->status.line_prot = PROT_PPP; + break; + case IFT_PTPSERIAL: + sc->status.line_prot = PROT_C_HDLC; + break; + case IFT_FRELAY: + sc->status.line_prot = PROT_FRM_RLY; + break; + default: + sc->status.line_prot = 0; + break; + } + +# elif NSPPP + /* Notice change in link status. */ + if ((old_oper_status != STATUS_UP) && + (sc->status.oper_status == STATUS_UP)) /* link came up */ + sppp_tls(sc->sppp); + if ((old_oper_status == STATUS_UP) && + (sc->status.oper_status != STATUS_UP)) /* link went down */ + sppp_tlf(sc->sppp); + + /* Notice change in line protocol. */ + sc->status.line_pkg = PKG_SPPP; +# if __FreeBSD__ + if (sc->sppp->pp_flags & PP_FR) + sc->status.line_prot = PROT_FRM_RLY; + else if (sc->ifp->if_flags & IFF_LINK2) +# elif (__NetBSD__ || __OpenBSD__) + if (sc->sppp->pp_flags & PP_CISCO) +# endif + sc->status.line_prot = PROT_C_HDLC; + else + sc->status.line_prot = PROT_PPP; + +# else + /* Suppress compiler warning. */ + if (old_oper_status == STATUS_UP); +# endif + } + + /* Copy statistics from sc to ifp. */ + ifp->if_baudrate = sc->status.tx_speed; + ifp->if_ipackets = cntrs->ipackets; + ifp->if_opackets = cntrs->opackets; + ifp->if_ibytes = cntrs->ibytes; + ifp->if_obytes = cntrs->obytes; + ifp->if_ierrors = cntrs->ierrors; + ifp->if_oerrors = cntrs->oerrors; + ifp->if_iqdrops = cntrs->idiscards; + +# if ((__FreeBSD_version >= 500000) || __OpenBSD__ || __NetBSD__) + if (sc->status.oper_status == STATUS_UP) + ifp->if_link_state = LINK_STATE_UP; + else + ifp->if_link_state = LINK_STATE_DOWN; +# endif + + /* Call this procedure again after one second. */ + ifp->if_timer = 1; + } + +# if __OpenBSD__ + +/* Callback from ifmedia. */ +static int +ifmedia_change(struct ifnet *ifp) + { + softc_t *sc = IFP2SC(ifp); + struct config config = sc->config; + int media = sc->ifm.ifm_media; + int error; + + /* ifconfig lmc0 media t1 */ + if (sc->status.card_type == TLP_CSID_T3) + { + if ((media & IFM_TMASK) == IFM_TDM_T3) + config.format = CFG_FORMAT_T3CPAR; + else if ((media & IFM_TMASK) == IFM_TDM_T3_M13) + config.format = CFG_FORMAT_T3M13; + } + else if (sc->status.card_type == TLP_CSID_T1E1) + { + if ((media & IFM_TMASK) == IFM_TDM_T1) + config.format = CFG_FORMAT_T1ESF; + else if ((media & IFM_TMASK) == IFM_TDM_T1_AMI) + config.format = CFG_FORMAT_T1SF; + else if ((media & IFM_TMASK) == IFM_TDM_E1) + config.format = CFG_FORMAT_E1NONE; + else if ((media & IFM_TMASK) == IFM_TDM_E1_G704) + config.format = CFG_FORMAT_E1FASCRC; + } + + /* ifconfig lmc0 mediaopt loopback */ + if (media & IFM_LOOP) + config.loop_back = CFG_LOOP_TULIP; + else + config.loop_back = CFG_LOOP_NONE; + + /* ifconfig lmc0 mediaopt crc16 */ + if (media & IFM_TDM_HDLC_CRC16) + config.crc_len = CFG_CRC_16; + else + config.crc_len = CFG_CRC_32; + + /* Set ConFiGuration. */ + config.iohdr.cookie = NGM_LMC_COOKIE; + error = core_ioctl(sc, LMCIOCSCFG, (caddr_t)&config); + + return error; + } + +/* Callback from ifmedia. */ +static void +ifmedia_status(struct ifnet *ifp, struct ifmediareq *ifmr) + { + softc_t *sc = IFP2SC(ifp); + + /* ifconfig wants to know if the hardware link is up. */ + ifmr->ifm_status = IFM_AVALID; + if (sc->status.oper_status == STATUS_UP) + ifmr->ifm_status |= IFM_ACTIVE; + + ifmr->ifm_active = sc->ifm.ifm_cur->ifm_media; + + if (sc->config.loop_back != CFG_LOOP_NONE) + ifmr->ifm_active |= IFM_LOOP; + + if (sc->config.crc_len == CFG_CRC_16) + ifmr->ifm_active |= IFM_TDM_HDLC_CRC16; + } + +# endif /* __OpenBSD__ */ + +static void +setup_ifnet(struct ifnet *ifp) + { + softc_t *sc = ifp->if_softc; + + /* Initialize the generic network interface. */ + /* Note similarity to linux's setup_netdev(). */ + ifp->if_flags = IFF_POINTOPOINT; + ifp->if_flags |= IFF_RUNNING; + ifp->if_ioctl = ifnet_ioctl; + ifp->if_start = ifnet_start; /* sppp changes this */ + ifp->if_output = raw_output; /* sppp & p2p change this */ + ifp->if_input = raw_input; + ifp->if_watchdog = ifnet_watchdog; + ifp->if_timer = 1; + ifp->if_mtu = MAX_DESC_LEN; /* sppp & p2p change this */ + ifp->if_type = IFT_PTPSERIAL; /* p2p changes this */ + +# if (__FreeBSD__ && DEVICE_POLLING) + ifp->if_capabilities |= IFCAP_POLLING; +# if (__FreeBSD_version < 500000) + ifp->if_capenable |= IFCAP_POLLING; +# endif +# endif + + /* Every OS does it differently! */ +# if (__FreeBSD__ && (__FreeBSD_version < 502000)) + (const char *)ifp->if_name = device_get_name(sc->dev); + ifp->if_unit = device_get_unit(sc->dev); +# elif (__FreeBSD_version >= 502000) + ifp->if_dname = device_get_name(sc->dev); + ifp->if_dunit = device_get_unit(sc->dev); + strlcpy(ifp->if_xname, device_get_nameunit(sc->dev), IFNAMSIZ); +# elif __NetBSD__ + strcpy(ifp->if_xname, sc->dev.dv_xname); +# elif __OpenBSD__ + bcopy(sc->dev.dv_xname, ifp->if_xname, IFNAMSIZ); +# elif __bsdi__ + ifp->if_name = sc->dev.dv_cfdata->cf_driver->cd_name; + ifp->if_unit = sc->dev.dv_unit; +# endif + } + +static int +ifnet_attach(softc_t *sc) + { +# if (__FreeBSD_version >= 600000) + sc->ifp = if_alloc(NSPPP ? IFT_PPP : IFT_OTHER); + if (sc->ifp == NULL) return ENOMEM; +# endif +# if NSPPP +# if (__FreeBSD_version >= 600000) + sc->sppp = sc->ifp->if_l2com; +# else + sc->ifp = &sc->spppcom.pp_if; + sc->sppp = &sc->spppcom; +# endif +# elif P2P + sc->ifp = &sc->p2pcom.p2p_if; + sc->p2p = &sc->p2pcom; +# elif (__FreeBSD_version < 600000) + sc->ifp = &sc->ifnet; +# endif + + /* Initialize the network interface struct. */ + sc->ifp->if_softc = sc; + setup_ifnet(sc->ifp); + + /* ALTQ output queue initialization. */ + IFQ_SET_MAXLEN(&sc->ifp->if_snd, SNDQ_MAXLEN); + IFQ_SET_READY(&sc->ifp->if_snd); + + /* Attach to the ifnet kernel interface. */ + if_attach(sc->ifp); + +# if ((__NetBSD_Version__ >= 106000000) || (OpenBSD >= 200211)) + if_alloc_sadl(sc->ifp); +# endif + + /* Attach Berkeley Packet Filter. */ + LMC_BPF_ATTACH(DLT_RAW, 0); + +# if __OpenBSD__ + /* Initialize ifmedia mechanism. */ + ifmedia_init(&sc->ifm, IFM_OMASK | IFM_GMASK | IFM_IMASK, + ifmedia_change, ifmedia_status); + if (sc->status.card_type == TLP_CSID_T3) + { + ifmedia_add(&sc->ifm, IFM_TDM | IFM_TDM_T3, 0, NULL); + ifmedia_add(&sc->ifm, IFM_TDM | IFM_TDM_T3_M13, 0, NULL); + ifmedia_set(&sc->ifm, IFM_TDM | IFM_TDM_T3); + } + else if (sc->status.card_type == TLP_CSID_T1E1) + { + ifmedia_add(&sc->ifm, IFM_TDM | IFM_TDM_T1, 0, NULL); + ifmedia_add(&sc->ifm, IFM_TDM | IFM_TDM_T1_AMI, 0, NULL); + ifmedia_add(&sc->ifm, IFM_TDM | IFM_TDM_E1, 0, NULL); + ifmedia_add(&sc->ifm, IFM_TDM | IFM_TDM_E1_G704, 0, NULL); + ifmedia_set(&sc->ifm, IFM_TDM | IFM_TDM_T1); + } + else if ((sc->status.card_type == TLP_CSID_HSSI) || + (sc->status.card_type == TLP_CSID_SSI)) + { + ifmedia_add(&sc->ifm, IFM_TDM | IFM_NONE, 0, NULL); + ifmedia_set(&sc->ifm, IFM_TDM | IFM_NONE); + } +# endif /* __OpenBSD__ */ + + return 0; + } + +static void +ifnet_detach(softc_t *sc) + { +# if __OpenBSD__ + ifmedia_delete_instance(&sc->ifm, IFM_INST_ANY); +# endif + +# if (__FreeBSD__ && DEVICE_POLLING) + if (sc->ifp->if_capenable & IFCAP_POLLING) + ether_poll_deregister(sc->ifp); +# endif + + /* Detach Berkeley Packet Filter. */ + LMC_BPF_DETACH; + +# if ((__NetBSD_Version__ >= 106000000) || (OpenBSD >= 200211)) + if_free_sadl(sc->ifp); +# endif + + /* Detach from the ifnet kernel interface. */ + if_detach(sc->ifp); + +# if (__FreeBSD_version >= 600000) + if_free_type(sc->ifp, NSPPP ? IFT_PPP : IFT_OTHER); +# endif + } + +#endif /* IFNET */ + +#if NETGRAPH + +/* Netgraph changed significantly between FreeBSD-4 and -5. */ +/* These are backward compatibility hacks for FreeBSD-4. */ +# if (__FreeBSD_version >= 500000) +/* These next two macros should be added to netgraph */ +# define NG_TYPE_REF(type) atomic_add_int(&(type)->refs, 1) +# define NG_TYPE_UNREF(type) \ +do { \ + if ((type)->refs == 1) \ + ng_rmtype(type); \ + else \ + atomic_subtract_int(&(type)->refs, 1); \ + } while (0) +# else /* FreeBSD-4 */ +# define NGI_GET_MSG(item, msg) /* nothing */ +# define NG_HOOK_FORCE_QUEUE(hook) /* nothing */ +# define NG_TYPE_REF(type) atomic_add_int(&(type)->refs, 1) +# define NG_TYPE_UNREF(type) \ +do { \ + if ((type)->refs == 1) \ + LIST_REMOVE(type, types); \ + else \ + atomic_subtract_int(&(type)->refs, 1); \ + } while (0) +# endif + +/* It is an error to construct new copies of this Netgraph node. */ +/* All instances are constructed by ng_attach and are persistent. */ +# if (__FreeBSD_version >= 500000) +static int ng_constructor(node_p node) { return EINVAL; } +# else /* FreeBSD-4 */ +static int ng_constructor(node_p *node) { return EINVAL; } +# endif + +/* Incoming Netgraph control message. */ +# if (__FreeBSD_version >= 500000) +static int +ng_rcvmsg(node_p node, item_p item, hook_p lasthook) + { + struct ng_mesg *msg; +# else /* FreeBSD-4 */ +static int +ng_rcvmsg(node_p node, struct ng_mesg *msg, + const char *retaddr, struct ng_mesg **rptr) + { +# endif + struct ng_mesg *resp = NULL; + softc_t *sc = NG_NODE_PRIVATE(node); + int error = 0; + + NGI_GET_MSG(item, msg); + if (msg->header.typecookie == NGM_LMC_COOKIE) + { + switch (msg->header.cmd) + { + case LMCIOCGSTAT: + case LMCIOCGCFG: + case LMCIOCSCFG: + case LMCIOCREAD: + case LMCIOCWRITE: + case LMCIOCTL: + { + /* Call the core ioctl procedure. */ + error = core_ioctl(sc, msg->header.cmd, msg->data); + if ((msg->header.cmd & IOC_OUT) != 0) + { /* synchronous response */ + NG_MKRESPONSE(resp, msg, sizeof(struct ng_mesg) + + IOCPARM_LEN(msg->header.cmd), M_NOWAIT); + if (resp == NULL) + error = ENOMEM; + else + memcpy(resp->data, msg->data, IOCPARM_LEN(msg->header.cmd)); + } + break; + } + default: + error = EINVAL; + break; + } + } + else if ((msg->header.typecookie == NGM_GENERIC_COOKIE) && + (msg->header.cmd == NGM_TEXT_STATUS)) + { /* synchronous response */ + NG_MKRESPONSE(resp, msg, sizeof(struct ng_mesg) + + NG_TEXTRESPONSE, M_NOWAIT); + if (resp == NULL) + error = ENOMEM; + else + { + char *s = resp->data; + sprintf(s, "Card type = <%s>\n" + "This driver considers the link to be %s.\n" + "Use lmcconfig to configure this interface.\n", + sc->dev_desc, (sc->status.oper_status==STATUS_UP) ? "UP" : "DOWN"); + resp->header.arglen = strlen(s) +1; + } + } + else +/* Netgraph should be able to read and write these + * parameters with text-format control messages: + * SSI HSSI T1E1 T3 + * crc crc crc crc + * loop loop loop loop + * clksrc clksrc + * dte dte format format + * synth synth cablen cablen + * cable timeslot scram + * gain + * pulse + * lbo + * Someday I'll implement this... + */ + error = EINVAL; + + /* Handle synchronous response. */ +# if (__FreeBSD_version >= 500000) + NG_RESPOND_MSG(error, node, item, resp); + NG_FREE_MSG(msg); +# else /* FreeBSD-4 */ + if (rptr != NULL) + *rptr = resp; + else if (resp != NULL) + FREE(resp, M_NETGRAPH); + FREE(msg, M_NETGRAPH); +# endif + + return error; + } + +/* This is a persistent netgraph node. */ +static int +ng_shutdown(node_p node) + { +# if (__FreeBSD_version >= 500000) + /* unless told to really die, bounce back to life */ + if ((node->nd_flags & NG_REALLY_DIE)==0) + node->nd_flags &= ~NG_INVALID; /* bounce back to life */ +# else /* FreeBSD-4 */ + ng_cutlinks(node); + node->flags &= ~NG_INVALID; /* bounce back to life */ +# endif + + return 0; + } + +/* ng_disconnect is the opposite of this procedure. */ +static int +ng_newhook(node_p node, hook_p hook, const char *name) + { + softc_t *sc = NG_NODE_PRIVATE(node); + + /* Hook name must be 'rawdata'. */ + if (strncmp(name, "rawdata", 7) != 0) return EINVAL; + + /* Is our hook connected? */ + if (sc->ng_hook != NULL) return EBUSY; + + /* Accept the hook. */ + sc->ng_hook = hook; + + return 0; + } + +/* Both ends have accepted their hooks and the links have been made. */ +/* This is the last chance to reject the connection request. */ +static int +ng_connect(hook_p hook) + { + /* Probably not at splnet, force outward queueing. (huh?) */ + NG_HOOK_FORCE_QUEUE(NG_HOOK_PEER(hook)); + return 0; /* always accept */ + } + +/* Receive data in mbufs from another Netgraph node. */ +/* Transmit an mbuf-chain on the communication link. */ +/* This procedure is very similar to raw_output(). */ +/* Called from a syscall (user context; no spinlocks). */ +# if (__FreeBSD_version >= 500000) +static int +ng_rcvdata(hook_p hook, item_p item) + { + softc_t *sc = NG_NODE_PRIVATE(NG_HOOK_NODE(hook)); + int error = 0; + struct mbuf *m; + meta_p meta = NULL; + + NGI_GET_M(item, m); + NGI_GET_META(item, meta); + NG_FREE_ITEM(item); +# else /* FreeBSD-4 */ +static int +ng_rcvdata(hook_p hook, struct mbuf *m, meta_p meta) + { + softc_t *sc = NG_NODE_PRIVATE(NG_HOOK_NODE(hook)); + int error = 0; +# endif + + /* This macro must not store into meta! */ + NG_FREE_META(meta); + + /* Fail if the link is down. */ + if (sc->status.oper_status != STATUS_UP) + { + m_freem(m); + sc->status.cntrs.odiscards++; + if (DRIVER_DEBUG) + printf("%s: ng_rcvdata: tx pkt discarded: link down\n", NAME_UNIT); + return ENETDOWN; + } + + /* ng_rcvdata() ENQUEUEs in a syscall or softirq. */ + /* txintr_setup() DEQUEUEs in a hard interrupt. */ + /* Some BSD QUEUE routines are not interrupt-safe. */ + { + DISABLE_INTR; +# if (__FreeBSD_version >= 503000) + if (meta==NULL) + IFQ_ENQUEUE(&sc->ng_sndq, m, error); + else + IFQ_ENQUEUE(&sc->ng_fastq, m, error); +# else + if (meta==NULL) + IFQ_ENQUEUE(&sc->ng_sndq, m, NULL, error); + else + IFQ_ENQUEUE(&sc->ng_fastq, m, NULL, error); +# endif + ENABLE_INTR; + } + + if (error==0) + user_interrupt(sc, 0); /* start the transmitter */ + else + { + m_freem(m); + sc->status.cntrs.odiscards++; + if (DRIVER_DEBUG) + printf("%s: ng_rcvdata: IFQ_ENQUEUE() failed; error %d\n", + NAME_UNIT, error); + } + + return error; + } + +/* ng_newhook is the opposite of this procedure, not */ +/* ng_connect, as you might expect from the names. */ +static int +ng_disconnect(hook_p hook) + { + softc_t *sc = NG_NODE_PRIVATE(NG_HOOK_NODE(hook)); + + /* Disconnect the hook. */ + sc->ng_hook = NULL; + + return 0; + } + +static +struct ng_type ng_type = + { + .version = NG_ABI_VERSION, + .name = NG_LMC_NODE_TYPE, + .mod_event = NULL, + .constructor = ng_constructor, + .rcvmsg = ng_rcvmsg, +# if (__FreeBSD_version >=503000) + .close = NULL, +# endif + .shutdown = ng_shutdown, + .newhook = ng_newhook, + .findhook = NULL, + .connect = ng_connect, + .rcvdata = ng_rcvdata, +# if (__FreeBSD__ && (__FreeBSD_version < 500000)) + .rcvdataq = ng_rcvdata, +# endif + .disconnect = ng_disconnect, + }; + +# if (IFNET == 0) +/* Called from a softirq once a second. */ +static void +ng_watchdog(void *arg) + { + softc_t *sc = arg; + + /* Call the core watchdog procedure. */ + core_watchdog(sc); + + /* Set line protocol and package status. */ + sc->status.line_pkg = PKG_NG; + sc->status.line_prot = 0; + + /* Call this procedure again after one second. */ + callout_reset(&sc->ng_callout, hz, ng_watchdog, sc); + } +# endif + +/* Attach to the Netgraph kernel interface (/sys/netgraph). + * It is called once for each physical card during device attach. + * This is effectively ng_constructor. + */ +static int +ng_attach(softc_t *sc) + { + int error; + + /* If this node type is not known to Netgraph then register it. */ + if (ng_type.refs == 0) /* or: if (ng_findtype(&ng_type) == NULL) */ + { + if ((error = ng_newtype(&ng_type))) + { + printf("%s: ng_newtype() failed; error %d\n", NAME_UNIT, error); + return error; + } + } + else + NG_TYPE_REF(&ng_type); + + /* Call the superclass node constructor. */ + if ((error = ng_make_node_common(&ng_type, &sc->ng_node))) + { + NG_TYPE_UNREF(&ng_type); + printf("%s: ng_make_node_common() failed; error %d\n", NAME_UNIT, error); + return error; + } + + /* Associate a name with this netgraph node. */ + if ((error = ng_name_node(sc->ng_node, NAME_UNIT))) + { + NG_NODE_UNREF(sc->ng_node); + NG_TYPE_UNREF(&ng_type); + printf("%s: ng_name_node() failed; error %d\n", NAME_UNIT, error); + return error; + } + +# if (__FreeBSD_version >= 500000) + /* Initialize the send queue mutexes. */ + mtx_init(&sc->ng_sndq.ifq_mtx, NAME_UNIT, "sndq", MTX_DEF); + mtx_init(&sc->ng_fastq.ifq_mtx, NAME_UNIT, "fastq", MTX_DEF); +# endif + + /* Put a backpointer to the softc in the netgraph node. */ + NG_NODE_SET_PRIVATE(sc->ng_node, sc); + + /* ALTQ output queue initialization. */ + IFQ_SET_MAXLEN(&sc->ng_fastq, SNDQ_MAXLEN); + IFQ_SET_READY(&sc->ng_fastq); + IFQ_SET_MAXLEN(&sc->ng_sndq, SNDQ_MAXLEN); + IFQ_SET_READY(&sc->ng_sndq); + + /* If ifnet is present, it will call watchdog. */ + /* Otherwise, arrange to call watchdog here. */ +# if (IFNET == 0) + /* Arrange to call ng_watchdog() once a second. */ +# if (__FreeBSD_version >= 500000) + callout_init(&sc->ng_callout, 0); +# else /* FreeBSD-4 */ + callout_init(&sc->ng_callout); +# endif + callout_reset(&sc->ng_callout, hz, ng_watchdog, sc); +# endif + + return 0; + } + +static void +ng_detach(softc_t *sc) + { +# if (IFNET == 0) + callout_stop(&sc->ng_callout); +# endif +# if (__FreeBSD_version >= 500000) + mtx_destroy(&sc->ng_sndq.ifq_mtx); + mtx_destroy(&sc->ng_fastq.ifq_mtx); + ng_rmnode_self(sc->ng_node); /* free hook */ + NG_NODE_UNREF(sc->ng_node); /* free node */ + NG_TYPE_UNREF(&ng_type); +# else /* FreeBSD-4 */ + ng_unname(sc->ng_node); /* free name */ + ng_cutlinks(sc->ng_node); /* free hook */ + NG_NODE_UNREF(sc->ng_node); /* free node */ + NG_TYPE_UNREF(&ng_type); +# endif + } + +#endif /* NETGRAPH */ + +/* The next few procedures initialize the card. */ + +/* Returns 0 on success; error code on failure. */ +static int +startup_card(softc_t *sc) + { + int num_rx_descs, error = 0; + u_int32_t tlp_bus_pbl, tlp_bus_cal, tlp_op_tr; + u_int32_t tlp_cfdd, tlp_cfcs; + u_int32_t tlp_cflt, tlp_csid, tlp_cfit; + + /* Make sure the COMMAND bits are reasonable. */ + tlp_cfcs = READ_PCI_CFG(sc, TLP_CFCS); + tlp_cfcs &= ~TLP_CFCS_MWI_ENABLE; + tlp_cfcs |= TLP_CFCS_BUS_MASTER; + tlp_cfcs |= TLP_CFCS_MEM_ENABLE; + tlp_cfcs |= TLP_CFCS_IO_ENABLE; + tlp_cfcs |= TLP_CFCS_PAR_ERROR; + tlp_cfcs |= TLP_CFCS_SYS_ERROR; + WRITE_PCI_CFG(sc, TLP_CFCS, tlp_cfcs); + + /* Set the LATENCY TIMER to the recommended value, */ + /* and make sure the CACHE LINE SIZE is reasonable. */ + tlp_cfit = READ_PCI_CFG(sc, TLP_CFIT); + tlp_cflt = READ_PCI_CFG(sc, TLP_CFLT); + tlp_cflt &= ~TLP_CFLT_LATENCY; + tlp_cflt |= (tlp_cfit & TLP_CFIT_MAX_LAT)>>16; + /* "prgmbl burst length" and "cache alignment" used below. */ + switch(tlp_cflt & TLP_CFLT_CACHE) + { + case 8: /* 8 bytes per cache line */ + { tlp_bus_pbl = 32; tlp_bus_cal = 1; break; } + case 16: + { tlp_bus_pbl = 32; tlp_bus_cal = 2; break; } + case 32: + { tlp_bus_pbl = 32; tlp_bus_cal = 3; break; } + default: + { + tlp_bus_pbl = 32; tlp_bus_cal = 1; + tlp_cflt &= ~TLP_CFLT_CACHE; + tlp_cflt |= 8; + break; + } + } + WRITE_PCI_CFG(sc, TLP_CFLT, tlp_cflt); + + /* Make sure SNOOZE and SLEEP modes are disabled. */ + tlp_cfdd = READ_PCI_CFG(sc, TLP_CFDD); + tlp_cfdd &= ~TLP_CFDD_SLEEP; + tlp_cfdd &= ~TLP_CFDD_SNOOZE; + WRITE_PCI_CFG(sc, TLP_CFDD, tlp_cfdd); + DELAY(11*1000); /* Tulip wakes up in 10 ms max */ + + /* Software Reset the Tulip chip; stops DMA and Interrupts. */ + /* This does not change the PCI config regs just set above. */ + WRITE_CSR(TLP_BUS_MODE, TLP_BUS_RESET); /* self-clearing */ + DELAY(5); /* Tulip is dead for 50 PCI cycles after reset. */ + + /* Reset the Xilinx Field Programmable Gate Array. */ + reset_xilinx(sc); /* side effect: turns on all four LEDs */ + + /* Configure card-specific stuff (framers, line interfaces, etc.). */ + sc->card->config(sc); + + /* Initializing cards can glitch clocks and upset fifos. */ + /* Reset the FIFOs between the Tulip and Xilinx chips. */ + set_mii16_bits(sc, MII16_FIFO); + clr_mii16_bits(sc, MII16_FIFO); + + /* Initialize the PCI busmode register. */ + /* The PCI bus cycle type "Memory Write and Invalidate" does NOT */ + /* work cleanly in any version of the 21140A, so don't enable it! */ + WRITE_CSR(TLP_BUS_MODE, + (tlp_bus_cal ? TLP_BUS_READ_LINE : 0) | + (tlp_bus_cal ? TLP_BUS_READ_MULT : 0) | + (tlp_bus_pbl<txring, NUM_TX_DESCS))) return error; + WRITE_CSR(TLP_TX_LIST, sc->txring.dma_addr); + if ((error = create_ring(sc, &sc->rxring, num_rx_descs))) return error; + WRITE_CSR(TLP_RX_LIST, sc->rxring.dma_addr); + + /* Initialize the operating mode register. */ + WRITE_CSR(TLP_OP_MODE, TLP_OP_INIT | (tlp_op_tr<txring); + destroy_ring(sc, &sc->rxring); + } + +/* Start the card and attach a kernel interface and line protocol. */ +static int +attach_card(softc_t *sc, const char *intrstr) + { + struct config config; + u_int32_t tlp_cfrv; + u_int16_t mii3; + u_int8_t *ieee; + int i, error = 0; + + /* Start the card. */ + if ((error = startup_card(sc))) return error; + + /* Attach a kernel interface. */ +#if NETGRAPH + if ((error = ng_attach(sc))) return error; + sc->flags |= FLAG_NETGRAPH; +#endif +#if IFNET + if ((error = ifnet_attach(sc))) return error; + sc->flags |= FLAG_IFNET; +#endif + + /* Attach a line protocol stack. */ + sc->config.line_pkg = PKG_RAWIP; + config = sc->config; /* get current config */ + config.line_pkg = 0; /* select external stack */ + config.line_prot = PROT_C_HDLC; + config.keep_alive = 1; + config_proto(sc, &config); /* reconfigure */ + sc->config = config; /* save new configuration */ + + /* Print interesting hardware-related things. */ + mii3 = read_mii(sc, 3); + tlp_cfrv = READ_PCI_CFG(sc, TLP_CFRV); + printf("%s: PCI rev %d.%d, MII rev %d.%d", NAME_UNIT, + (tlp_cfrv>>4) & 0xF, tlp_cfrv & 0xF, (mii3>>4) & 0xF, mii3 & 0xF); + ieee = (u_int8_t *)sc->status.ieee; + for (i=0; i<3; i++) sc->status.ieee[i] = read_srom(sc, 10+i); + printf(", IEEE addr %02x:%02x:%02x:%02x:%02x:%02x", + ieee[0], ieee[1], ieee[2], ieee[3], ieee[4], ieee[5]); + sc->card->ident(sc); + printf(" %s\n", intrstr); + + /* Print interesting software-related things. */ + printf("%s: Driver rev %d.%d.%d", NAME_UNIT, + DRIVER_MAJOR_VERSION, DRIVER_MINOR_VERSION, DRIVER_SUB_VERSION); + printf(", Options %s%s%s%s%s%s%s%s%s\n", + NETGRAPH ? "NETGRAPH " : "", GEN_HDLC ? "GEN_HDLC " : "", + NSPPP ? "SPPP " : "", P2P ? "P2P " : "", + ALTQ_PRESENT ? "ALTQ " : "", NBPFILTER ? "BPF " : "", + DEV_POLL ? "POLL " : "", IOREF_CSR ? "IO_CSR " : "MEM_CSR ", + (BYTE_ORDER == BIG_ENDIAN) ? "BIG_END " : "LITTLE_END "); + + /* Make the local hardware ready. */ + set_status(sc, 1); + + return 0; + } + +/* Detach from the kernel in all ways. */ +static void +detach_card(softc_t *sc) + { + struct config config; + + /* Make the local hardware NOT ready. */ + set_status(sc, 0); + + /* Detach external line protocol stack. */ + if (sc->config.line_pkg != PKG_RAWIP) + { + config = sc->config; + config.line_pkg = PKG_RAWIP; + config_proto(sc, &config); + sc->config = config; + } + + /* Detach kernel interfaces. */ +#if NETGRAPH + if (sc->flags & FLAG_NETGRAPH) + { + IFQ_PURGE(&sc->ng_fastq); + IFQ_PURGE(&sc->ng_sndq); + ng_detach(sc); + sc->flags &= ~FLAG_NETGRAPH; + } +#endif +#if IFNET + if (sc->flags & FLAG_IFNET) + { + IFQ_PURGE(&sc->ifp->if_snd); + ifnet_detach(sc); + sc->flags &= ~FLAG_IFNET; + } +#endif + + /* Reset the Tulip chip; stops DMA and Interrupts. */ + shutdown_card(sc); + } + +/* This is the I/O configuration interface for FreeBSD */ + +#if __FreeBSD__ + +static int +fbsd_probe(device_t dev) + { + u_int32_t cfid = pci_read_config(dev, TLP_CFID, 4); + u_int32_t csid = pci_read_config(dev, TLP_CSID, 4); + + /* Looking for a DEC 21140A chip on any Lan Media Corp card. */ + if (cfid != TLP_CFID_TULIP) return ENXIO; + switch (csid) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + device_set_desc(dev, HSSI_DESC); + break; + case TLP_CSID_T3: + device_set_desc(dev, T3_DESC); + break; + case TLP_CSID_SSI: + device_set_desc(dev, SSI_DESC); + break; + case TLP_CSID_T1E1: + device_set_desc(dev, T1E1_DESC); + break; + default: + return ENXIO; + } + return 0; + } + +static int +fbsd_detach(device_t dev) + { + softc_t *sc = device_get_softc(dev); + + /* Stop the card and detach from the kernel. */ + detach_card(sc); + + /* Release resources. */ + if (sc->irq_cookie != NULL) + { + bus_teardown_intr(dev, sc->irq_res, sc->irq_cookie); + sc->irq_cookie = NULL; + } + if (sc->irq_res != NULL) + { + bus_release_resource(dev, SYS_RES_IRQ, sc->irq_res_id, sc->irq_res); + sc->irq_res = NULL; + } + if (sc->csr_res != NULL) + { + bus_release_resource(dev, sc->csr_res_type, sc->csr_res_id, sc->csr_res); + sc->csr_res = NULL; + } + +# if (__FreeBSD_version >= 500000) + mtx_destroy(&sc->top_mtx); + mtx_destroy(&sc->bottom_mtx); +# endif + return 0; /* no error */ + } + +static void +fbsd_shutdown(device_t dev) + { + shutdown_card(device_get_softc(dev)); + } + +static int +fbsd_attach(device_t dev) + { + softc_t *sc = device_get_softc(dev); + int error; + + /* READ/WRITE_PCI_CFG need this. */ + sc->dev = dev; + + /* What kind of card are we driving? */ + switch (READ_PCI_CFG(sc, TLP_CSID)) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + sc->card = &hssi_card; + break; + case TLP_CSID_T3: + sc->card = &t3_card; + break; + case TLP_CSID_SSI: + sc->card = &ssi_card; + break; + case TLP_CSID_T1E1: + sc->card = &t1_card; + break; + default: + return ENXIO; + } + sc->dev_desc = device_get_desc(dev); + + /* Allocate PCI memory or IO resources to access the Tulip chip CSRs. */ +# if IOREF_CSR + sc->csr_res_id = TLP_CBIO; + sc->csr_res_type = SYS_RES_IOPORT; +# else + sc->csr_res_id = TLP_CBMA; + sc->csr_res_type = SYS_RES_MEMORY; +# endif + sc->csr_res = bus_alloc_resource(dev, sc->csr_res_type, &sc->csr_res_id, + 0, ~0, 1, RF_ACTIVE); + if (sc->csr_res == NULL) + { + printf("%s: bus_alloc_resource(csr) failed.\n", NAME_UNIT); + return ENXIO; + } + sc->csr_tag = rman_get_bustag(sc->csr_res); + sc->csr_handle = rman_get_bushandle(sc->csr_res); + + /* Allocate PCI interrupt resources for the card. */ + sc->irq_res_id = 0; + sc->irq_res = bus_alloc_resource(dev, SYS_RES_IRQ, &sc->irq_res_id, + 0, ~0, 1, RF_ACTIVE | RF_SHAREABLE); + if (sc->irq_res == NULL) + { + printf("%s: bus_alloc_resource(irq) failed.\n", NAME_UNIT); + fbsd_detach(dev); + return ENXIO; + } + if ((error = bus_setup_intr(dev, sc->irq_res, INTR_TYPE_NET | INTR_MPSAFE, + bsd_interrupt, sc, &sc->irq_cookie))) + { + printf("%s: bus_setup_intr() failed; error %d\n", NAME_UNIT, error); + fbsd_detach(dev); + return error; + } + +# if (__FreeBSD_version >= 500000) + /* Initialize the top-half and bottom-half locks. */ + mtx_init(&sc->top_mtx, NAME_UNIT, "top half lock", MTX_DEF); + mtx_init(&sc->bottom_mtx, NAME_UNIT, "bottom half lock", MTX_DEF); +# endif + + /* Start the card and attach a kernel interface and line protocol. */ + if ((error = attach_card(sc, ""))) detach_card(sc); + return error; + } + +static device_method_t methods[] = + { + DEVMETHOD(device_probe, fbsd_probe), + DEVMETHOD(device_attach, fbsd_attach), + DEVMETHOD(device_detach, fbsd_detach), + DEVMETHOD(device_shutdown, fbsd_shutdown), + /* This driver does not suspend and resume. */ + { 0, 0 } + }; + +static driver_t driver = + { + .name = DEVICE_NAME, + .methods = methods, +# if (__FreeBSD_version >= 500000) + .size = sizeof(softc_t), +# else /* FreeBSD-4 */ + .softc = sizeof(softc_t), +# endif + }; + +static devclass_t devclass; + +DRIVER_MODULE(if_lmc, pci, driver, devclass, 0, 0); +MODULE_VERSION(if_lmc, 2); +MODULE_DEPEND(if_lmc, pci, 1, 1, 1); +# if NETGRAPH +MODULE_DEPEND(if_lmc, netgraph, NG_ABI_VERSION, NG_ABI_VERSION, NG_ABI_VERSION); +# endif +# if NSPPP +MODULE_DEPEND(if_lmc, sppp, 1, 1, 1); +# endif + +#endif /* __FreeBSD__ */ + +/* This is the I/O configuration interface for NetBSD. */ + +#if __NetBSD__ + +static int +nbsd_match(struct device *parent, struct cfdata *match, void *aux) + { + struct pci_attach_args *pa = aux; + u_int32_t cfid = pci_conf_read(pa->pa_pc, pa->pa_tag, TLP_CFID); + u_int32_t csid = pci_conf_read(pa->pa_pc, pa->pa_tag, TLP_CSID); + + /* Looking for a DEC 21140A chip on any Lan Media Corp card. */ + if (cfid != TLP_CFID_TULIP) return 0; + switch (csid) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + case TLP_CSID_T3: + case TLP_CSID_SSI: + case TLP_CSID_T1E1: + return 100; + default: + return 0; + } + } + +static int +nbsd_detach(struct device *self, int flags) + { + softc_t *sc = (softc_t *)self; /* device is first in softc */ + + /* Stop the card and detach from the kernel. */ + detach_card(sc); + + /* Release resources. */ + if (sc->sdh_cookie != NULL) + { + shutdownhook_disestablish(sc->sdh_cookie); + sc->sdh_cookie = NULL; + } + if (sc->irq_cookie != NULL) + { + pci_intr_disestablish(sc->pa_pc, sc->irq_cookie); + sc->irq_cookie = NULL; + } + if (sc->csr_handle) + { + bus_space_unmap(sc->csr_tag, sc->csr_handle, TLP_CSR_SIZE); + sc->csr_handle = 0; + } + + return 0; /* no error */ + } + +static void +nbsd_attach(struct device *parent, struct device *self, void *aux) + { + softc_t *sc = (softc_t *)self; /* device is first in softc */ + struct pci_attach_args *pa = aux; + const char *intrstr; + bus_addr_t csr_addr; + int error; + + /* READ/WRITE_PCI_CFG need these. */ + sc->pa_pc = pa->pa_pc; + sc->pa_tag = pa->pa_tag; + /* bus_dma needs this. */ + sc->pa_dmat = pa->pa_dmat; + + /* What kind of card are we driving? */ + switch (READ_PCI_CFG(sc, TLP_CSID)) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + sc->dev_desc = HSSI_DESC; + sc->card = &hssi_card; + break; + case TLP_CSID_T3: + sc->dev_desc = T3_DESC; + sc->card = &t3_card; + break; + case TLP_CSID_SSI: + sc->dev_desc = SSI_DESC; + sc->card = &ssi_card; + break; + case TLP_CSID_T1E1: + sc->dev_desc = T1E1_DESC; + sc->card = &t1_card; + break; + default: + return; + } + printf(": %s\n", sc->dev_desc); + + /* Allocate PCI resources to access the Tulip chip CSRs. */ +# if IOREF_CSR + csr_addr = (bus_addr_t)READ_PCI_CFG(sc, TLP_CBIO) & -2; + sc->csr_tag = pa->pa_iot; /* bus_space tag for IO refs */ +# else + csr_addr = (bus_addr_t)READ_PCI_CFG(sc, TLP_CBMA); + sc->csr_tag = pa->pa_memt; /* bus_space tag for MEM refs */ +# endif + if ((error = bus_space_map(sc->csr_tag, csr_addr, + TLP_CSR_SIZE, 0, &sc->csr_handle))) + { + printf("%s: bus_space_map() failed; error %d\n", NAME_UNIT, error); + return; + } + + /* Allocate PCI interrupt resources. */ + if ((error = pci_intr_map(pa, &sc->intr_handle))) + { + printf("%s: pci_intr_map() failed; error %d\n", NAME_UNIT, error); + nbsd_detach(self, 0); + return; + } + sc->irq_cookie = pci_intr_establish(pa->pa_pc, sc->intr_handle, + IPL_NET, bsd_interrupt, sc); + if (sc->irq_cookie == NULL) + { + printf("%s: pci_intr_establish() failed\n", NAME_UNIT); + nbsd_detach(self, 0); + return; + } + intrstr = pci_intr_string(pa->pa_pc, sc->intr_handle); + + /* Install a shutdown hook. */ + sc->sdh_cookie = shutdownhook_establish(shutdown_card, sc); + if (sc->sdh_cookie == NULL) + { + printf("%s: shutdown_hook_establish() failed\n", NAME_UNIT); + nbsd_detach(self, 0); + return; + } + + /* Initialize the top-half and bottom-half locks. */ + simple_lock_init(&sc->top_lock); + simple_lock_init(&sc->bottom_lock); + + /* Start the card and attach a kernel interface and line protocol. */ + if ((error = attach_card(sc, intrstr))) detach_card(sc); + } + +# if (__NetBSD_Version__ >= 106080000) /* 1.6H */ +CFATTACH_DECL(lmc, sizeof(softc_t), + nbsd_match, nbsd_attach, nbsd_detach, NULL); +# else +struct cfattach lmc_ca = + { +/*.ca_name = DEVICE_NAME, */ + .ca_devsize = sizeof(softc_t), + .ca_match = nbsd_match, + .ca_attach = nbsd_attach, + .ca_detach = nbsd_detach, + .ca_activate = NULL, + }; +# endif + +# if (__NetBSD_Version__ >= 106080000) +CFDRIVER_DECL(lmc, DV_IFNET, NULL); +# else +static struct cfdriver lmc_cd = + { + .cd_name = DEVICE_NAME, + .cd_class = DV_IFNET, + .cd_ndevs = 0, + .cd_devs = NULL, + }; +# endif + +/* cfdata is declared static, unseen outside this module. */ +/* It is used for LKM; config builds its own in ioconf.c. */ +static struct cfdata lmc_cf = + { +# if (__NetBSD_Version__ >= 106080000) + .cf_name = DEVICE_NAME, + .cf_atname = DEVICE_NAME, +# else + .cf_driver = &lmc_cd, + .cf_attach = &lmc_ca, +# endif + .cf_unit = 0, + .cf_fstate = FSTATE_STAR, + }; + +# if (__NetBSD_Version__ >= 106080000) +MOD_MISC(DEVICE_NAME) +# else +static struct lkm_misc _module = + { + .lkm_name = DEVICE_NAME, + .lkm_type = LM_MISC, + .lkm_offset = 0, + .lkm_ver = LKM_VERSION, + }; +# endif + +/* From /sys/dev/pci/pci.c (no public prototype). */ +int pciprint(void *, const char *); + +static int lkm_nbsd_match(struct pci_attach_args *pa) + { return nbsd_match(0, 0, pa); } + +/* LKM loader finds this by appending "_lkmentry" to filename "if_lmc". */ +int if_lmc_lkmentry(struct lkm_table *lkmtp, int cmd, int ver) + { + int i, error = 0; + + if (ver != LKM_VERSION) return EINVAL; + switch (cmd) + { + case LKM_E_LOAD: + { + struct cfdriver* pcicd; + + lkmtp->private.lkm_misc = &_module; + if ((pcicd = config_cfdriver_lookup("pci")) == NULL) + { + printf("%s: config_cfdriver_lookup(pci) failed; error %d\n", + lmc_cd.cd_name, error); + return error; + } +# if (__NetBSD_Version__ >= 106080000) + if ((error = config_cfdriver_attach(&lmc_cd))) + { + printf("%s: config_cfdriver_attach() failed; error %d\n", + lmc_cd.cd_name, error); + return error; + } + if ((error = config_cfattach_attach(lmc_cd.cd_name, &lmc_ca))) + { + printf("%s: config_cfattach_attach() failed; error %d\n", + lmc_cd.cd_name, error); + config_cfdriver_detach(&lmc_cd); + return error; + } +# endif + for (i=0; icd_ndevs; i++) + { + int dev; + /* A pointer to a device is a pointer to its softc. */ + struct pci_softc *sc = pcicd->cd_devs[i]; + if (sc == NULL) continue; + for (dev=0; devsc_maxndevs; dev++) + { + struct pci_attach_args pa; + pcitag_t tag = pci_make_tag(sc->sc_pc, sc->sc_bus, dev, 0); + if (pci_probe_device(sc, tag, lkm_nbsd_match, &pa) != 0) + config_attach(pcicd->cd_devs[i], &lmc_cf, &pa, pciprint); + /* config_attach doesn't return on failure; it calls panic. */ + } + } + break; + } + case LKM_E_UNLOAD: + { + for (i=lmc_cd.cd_ndevs-1; i>=0; i--) + { + struct device *dev = lmc_cd.cd_devs[i]; + if (dev == NULL) continue; + if ((error = config_detach(dev, 0))) + { + printf("%s: config_detach() failed; error %d\n", + dev->dv_xname, error); + return error; + } + } +# if (__NetBSD_Version__ >= 106080000) + if ((error = config_cfattach_detach(lmc_cd.cd_name, &lmc_ca))) + { + printf("%s: config_cfattach_detach() failed; error %d\n", + lmc_cd.cd_name, error); + return error; + } + if ((error = config_cfdriver_detach(&lmc_cd))) + { + printf("%s: config_cfdriver_detach() failed; error %d\n", + lmc_cd.cd_name, error); + return error; + } +# endif + break; + } + case LKM_E_STAT: + break; + } + + return error; + } + +#endif /* __NetBSD__ */ + +/* This is the I/O configuration interface for OpenBSD. */ + +#if __OpenBSD__ + +static int +obsd_match(struct device *parent, void *match, void *aux) + { + struct pci_attach_args *pa = aux; + u_int32_t cfid = pci_conf_read(pa->pa_pc, pa->pa_tag, TLP_CFID); + u_int32_t csid = pci_conf_read(pa->pa_pc, pa->pa_tag, TLP_CSID); + + /* Looking for a DEC 21140A chip on any Lan Media Corp card. */ + if (cfid != TLP_CFID_TULIP) return 0; + switch (csid) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + case TLP_CSID_T3: + case TLP_CSID_SSI: + case TLP_CSID_T1E1: + return 100; /* match better than other 21140 drivers */ + default: + return 0; + } + } + +static int +obsd_detach(struct device *self, int flags) + { + softc_t *sc = (softc_t *)self; /* device is first in softc */ + + /* Stop the card and detach from the kernel. */ + detach_card(sc); + + /* Release resources. */ + if (sc->sdh_cookie != NULL) + { + shutdownhook_disestablish(sc->sdh_cookie); + sc->sdh_cookie = NULL; + } + if (sc->irq_cookie != NULL) + { + pci_intr_disestablish(sc->pa_pc, sc->irq_cookie); + sc->irq_cookie = NULL; + } + if (sc->csr_handle) + { + bus_space_unmap(sc->csr_tag, sc->csr_handle, TLP_CSR_SIZE); + sc->csr_handle = 0; + } + + return 0; /* no error */ + } + +static void +obsd_attach(struct device *parent, struct device *self, void *aux) + { + softc_t *sc = (softc_t *)self; /* device is first in softc */ + struct pci_attach_args *pa = aux; + const char *intrstr; + bus_addr_t csr_addr; + int error; + + /* READ/WRITE_PCI_CFG need these. */ + sc->pa_pc = pa->pa_pc; + sc->pa_tag = pa->pa_tag; + /* bus_dma needs this. */ + sc->pa_dmat = pa->pa_dmat; + + /* What kind of card are we driving? */ + switch (READ_PCI_CFG(sc, TLP_CSID)) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + sc->dev_desc = HSSI_DESC; + sc->card = &hssi_card; + break; + case TLP_CSID_T3: + sc->dev_desc = T3_DESC; + sc->card = &t3_card; + break; + case TLP_CSID_SSI: + sc->dev_desc = SSI_DESC; + sc->card = &ssi_card; + break; + case TLP_CSID_T1E1: + sc->dev_desc = T1E1_DESC; + sc->card = &t1_card; + break; + default: + return; + } + printf(": %s\n", sc->dev_desc); + + /* Allocate PCI resources to access the Tulip chip CSRs. */ +# if IOREF_CSR + csr_addr = (bus_addr_t)READ_PCI_CFG(sc, TLP_CBIO) & -2; + sc->csr_tag = pa->pa_iot; /* bus_space tag for IO refs */ +# else + csr_addr = (bus_addr_t)READ_PCI_CFG(sc, TLP_CBMA); + sc->csr_tag = pa->pa_memt; /* bus_space tag for MEM refs */ +# endif + if ((error = bus_space_map(sc->csr_tag, csr_addr, + TLP_CSR_SIZE, 0, &sc->csr_handle))) + { + printf("%s: bus_space_map() failed; error %d\n", NAME_UNIT, error); + return; + } + + /* Allocate PCI interrupt resources. */ + if ((error = pci_intr_map(pa, &sc->intr_handle))) + { + printf("%s: pci_intr_map() failed; error %d\n", NAME_UNIT, error); + obsd_detach(self, 0); + return; + } + sc->irq_cookie = pci_intr_establish(pa->pa_pc, sc->intr_handle, + IPL_NET, bsd_interrupt, sc, self->dv_xname); + if (sc->irq_cookie == NULL) + { + printf("%s: pci_intr_establish() failed\n", NAME_UNIT); + obsd_detach(self, 0); + return; + } + intrstr = pci_intr_string(pa->pa_pc, sc->intr_handle); + + /* Install a shutdown hook. */ + sc->sdh_cookie = shutdownhook_establish(shutdown_card, sc); + if (sc->sdh_cookie == NULL) + { + printf("%s: shutdown_hook_establish() failed\n", NAME_UNIT); + obsd_detach(self, 0); + return; + } + + /* Initialize the top-half and bottom-half locks. */ + simple_lock_init(&sc->top_lock); + simple_lock_init(&sc->bottom_lock); + + /* Start the card and attach a kernel interface and line protocol. */ + if ((error = attach_card(sc, intrstr))) detach_card(sc); + } + +struct cfattach lmc_ca = + { + .ca_devsize = sizeof(softc_t), + .ca_match = obsd_match, + .ca_attach = obsd_attach, + .ca_detach = obsd_detach, + .ca_activate = NULL, + }; + +struct cfdriver lmc_cd = + { + .cd_name = DEVICE_NAME, + .cd_devs = NULL, + .cd_class = DV_IFNET, + .cd_indirect = 0, + .cd_ndevs = 0, + }; + +/* cfdata is declared static, unseen outside this module. */ +/* It is used for LKM; config builds its own in ioconf.c. */ +static struct cfdata lmc_cfdata = + { + .cf_attach = &lmc_ca, + .cf_driver = &lmc_cd, + .cf_unit = 0, + .cf_fstate = FSTATE_STAR, + }; + +static struct lkm_any _module = + { + .lkm_name = DEVICE_NAME, + .lkm_type = LM_MISC, + .lkm_offset = 0, + .lkm_ver = LKM_VERSION, + }; + +/* From /sys/dev/pci/pci.c (no public prototype). */ +int pciprint(void *, const char *); + +extern struct cfdriver pci_cd; + +/* LKM loader finds this by appending "_lkmentry" to filename "if_lmc". */ +int if_lmc_lkmentry(struct lkm_table *lkmtp, int cmd, int ver) + { + int i, error = 0; + + if (ver != LKM_VERSION) return EINVAL; + switch (cmd) + { + case LKM_E_LOAD: + { /* XXX This works for ONE card on pci0 of a i386 machine! XXX */ + lkmtp->private.lkm_any = &_module; + for (i=0; idv_unit)!=0) continue; /* only bus zero */ + /* XXX For machine independence, need: pcibus_attach_args. XXX */ + /* XXX See NetBSD's sys/dev/pci/pci.c/pci_probe_device. XXX */ + /* XXX Why isn't there an LKM network interface module? XXX */ + pa.pa_pc = NULL; /* XXX */ + pa.pa_bus = 0; /* XXX */ + pa.pa_iot = I386_BUS_SPACE_IO; /* XXX */ + pa.pa_memt = I386_BUS_SPACE_MEM; /* XXX */ + pa.pa_dmat = &pci_bus_dma_tag; /* XXX */ + for (pa.pa_device=0; pa.pa_device<32; pa.pa_device++) /* XXX */ + { + int intr; + pa.pa_function = 0; /* DEC-21140A has function 0 only XXX */ + pa.pa_tag = pci_make_tag(pa.pa_pc, pa.pa_bus, pa.pa_device, 0); + pa.pa_id = pci_conf_read(pa.pa_pc, pa.pa_tag, PCI_ID_REG); + if ((pa.pa_id & 0xFFFF) == 0xFFFF) continue; + if ((pa.pa_id & 0xFFFF) == 0) continue; + /* XXX this only works for pci0 -- no swizzelling XXX */ + pa.pa_intrswiz = 0; + pa.pa_intrtag = pa.pa_tag; + intr = pci_conf_read(pa.pa_pc, pa.pa_tag, PCI_INTERRUPT_REG); + pa.pa_intrline = PCI_INTERRUPT_LINE(intr); + pa.pa_intrpin = ((PCI_INTERRUPT_PIN(intr) -1) % 4) +1; + if (obsd_match(parent, &lmc_cfdata, &pa)) + config_attach(parent, &lmc_cfdata, &pa, pciprint); + /* config_attach doesn't return on failure; it calls panic. */ + } + } + break; + } + case LKM_E_UNLOAD: + { + for (i=lmc_cd.cd_ndevs-1; i>=0; i--) + { + struct device *dev = lmc_cd.cd_devs[i]; + if (dev == NULL) continue; + if ((error = config_detach(dev, 0))) + printf("%s: config_detach() failed; error %d\n", dev->dv_xname, error); + } + break; + } + case LKM_E_STAT: + break; + } + + return error; + } + +#endif /* __OpenBSD__ */ + +/* This is the I/O configuration interface for BSD/OS. */ + +#if __bsdi__ + +static int +bsdi_match(pci_devaddr_t *pa) + { + u_int32_t cfid = pci_inl(pa, TLP_CFID); + u_int32_t csid = pci_inl(pa, TLP_CSID); + + /* Looking for a DEC 21140A chip on any Lan Media Corp card. */ + if (cfid != TLP_CFID_TULIP) return 0; + switch (csid) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + case TLP_CSID_T3: + case TLP_CSID_SSI: + case TLP_CSID_T1E1: + return 1; + default: + return 0; + } + } + +static int +bsdi_probe(struct device *parent, struct cfdata *cf, void *aux) + { + struct isa_attach_args *ia = aux; + pci_devaddr_t *pa = NULL; + pci_devres_t res; + + /* This must be a PCI bus. */ + if (ia->ia_bustype != BUS_PCI) return 0; + + /* Scan PCI bus for our boards. */ + if ((pa = pci_scan(bsdi_match)) == 0) return 0; + + /* Scan config space for IO and MEM base registers and IRQ info. */ + pci_getres(pa, &res, 1, ia); + + /* Crucial: pass pci_devaddr to bsdi_attach in ia_aux. */ + ia->ia_aux = (void *)pa; + + return 1; + } + +static void +bsdi_attach(struct device *parent, struct device *self, void *aux) + { + softc_t *sc = (softc_t *)self; /* device is first in softc */ + struct isa_attach_args *ia = aux; + pci_devaddr_t *pa = ia->ia_aux; /* this is crucial! */ + int error; + + /* READ/WRITE_PCI_CFG need this. */ + sc->cfgbase = *pa; + + /* What kind of card are we driving? */ + switch (READ_PCI_CFG(sc, TLP_CSID)) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + sc->dev_desc = HSSI_DESC; + sc->card = &hssi_card; + break; + case TLP_CSID_T3: + sc->dev_desc = T3_DESC; + sc->card = &t3_card; + break; + case TLP_CSID_SSI: + sc->dev_desc = SSI_DESC; + sc->card = &ssi_card; + break; + case TLP_CSID_T1E1: + sc->dev_desc = T1E1_DESC; + sc->card = &t1_card; + break; + default: + return; + } + printf(": %s\n", sc->dev_desc); + + /* Allocate PCI memory or IO resources to access the Tulip chip CSRs. */ + sc->csr_iobase = ia->ia_iobase; + sc->csr_membase = (u_int32_t *)mapphys((vm_offset_t)ia->ia_maddr, TLP_CSR_SIZE); + + /* Attach to the PCI bus. */ + isa_establish(&sc->id, &sc->dev); + + /* Allocate PCI interrupt resources for the card. */ + sc->ih.ih_fun = bsd_interrupt; + sc->ih.ih_arg = sc; + intr_establish(ia->ia_irq, &sc->ih, DV_NET); + + /* Install a shutdown hook. */ + sc->ats.func = shutdown_card; + sc->ats.arg = sc; + atshutdown(&sc->ats, ATSH_ADD); + + /* Initialize the top-half and bottom-half locks. */ + simple_lock_init(&sc->top_lock); + simple_lock_init(&sc->bottom_lock); + + /* Start the card and attach a kernel interface and line protocol. */ + if ((error = attach_card(sc, ""))) detach_card(sc); + } + +struct cfdriver lmccd = + { + .cd_devs = NULL, + .cd_name = DEVICE_NAME, + .cd_match = bsdi_probe, + .cd_attach = bsdi_attach, + .cd_class = DV_IFNET, + .cd_devsize = sizeof(softc_t), + }; +#endif /* __bsdi__ */ + +#if __linux__ + +/* The kernel calls this procedure when an interrupt happens. */ +static irqreturn_t +linux_interrupt(int irq, void *dev, struct pt_regs *regs) + { + struct net_device *net_dev = dev; + softc_t *sc = dev_to_hdlc(net_dev)->priv; + + /* Cut losses early if this is not our interrupt. */ + if ((READ_CSR(TLP_STATUS) & TLP_INT_TXRX) == 0) + return IRQ_NONE; + + /* Disable card interrupts. */ + WRITE_CSR(TLP_INT_ENBL, TLP_INT_DISABLE); + + /* Handle the card interrupt with the dev->poll method. */ + if (netif_rx_schedule_prep(net_dev)) + __netif_rx_schedule(net_dev); /* NAPI - add to poll list */ + else + printk("%s: interrupt while on poll list\n", NAME_UNIT); + + return IRQ_HANDLED; + } + +/* This net_device method services interrupts in a softirq. */ +/* With rxintr_cleanup(), it implements input flow control. */ +static int +linux_poll(struct net_device *net_dev, int *budget) + { + softc_t *sc = dev_to_hdlc(net_dev)->priv; + int received; + + /* Yes, we do NAPI. */ + /* Allow processing up to net_dev->quota incoming packets. */ + /* This is the ONLY time core_interrupt() may process rx pkts. */ + /* Otherwise (sc->quota == 0) and rxintr_cleanup() is a NOOP. */ + sc->quota = net_dev->quota; + + /* Handle the card interrupt with kernel ints enabled. */ + /* Process rx pkts (and tx pkts, too). */ + /* Card interrupts are disabled. */ + core_interrupt(sc, 0); + + /* Report number of rx packets processed. */ + received = net_dev->quota - sc->quota; + net_dev->quota -= received; + *budget -= received; + + /* if quota prevented processing all rx pkts, leave rx ints disabled */ + if (sc->quota == 0) /* this is off by one...but harmless */ + { + WRITE_CSR(TLP_INT_ENBL, TLP_INT_TX); + return 1; /* more pkts to handle -- reschedule */ + } + + sc->quota = 0; /* disable rx pkt processing by rxintr_cleanup() */ + netif_rx_complete(net_dev); /* NAPI - remove from poll list */ + + /* Enable card interrupts. */ + WRITE_CSR(TLP_INT_ENBL, TLP_INT_TXRX); + return 0; + } + +/* These next routines are similar to BSD's ifnet kernel/driver interface. */ + +/* This net_device method hands outgoing packets to the transmitter. */ +/* With txintr_setup(), it implements output flow control. */ +/* Called from a syscall (user context; no spinlocks). */ +static int +linux_start(struct sk_buff *skb, struct net_device *net_dev) + { + softc_t *sc = dev_to_hdlc(net_dev)->priv; + + if (sc->tx_skb == NULL) + { + /* Put this skb where the transmitter will see it. */ + sc->tx_skb = skb; + + /* Start the transmitter; incoming pkts are NOT processed. */ + user_interrupt(sc, 0); + + /* If the tx didn't take the skb then stop the queue. */ + /* This can happen if another CPU is in core_interrupt(). */ + if (sc->tx_skb != NULL) netif_stop_queue(net_dev); + + return 0; + } + + /* This shouldn't happen; skb is NOT consumed. */ + if (netif_queue_stopped(net_dev)) + printk("%s: dev->start() called with queue stopped\n", NAME_UNIT); + else + netif_stop_queue(net_dev); + + return 1; + } + +/* This net_device method restarts the transmitter if it hangs. */ +/* Called from a softirq. */ +static void +linux_timeout(struct net_device *net_dev) + { + softc_t *sc = dev_to_hdlc(net_dev)->priv; + + /* Start the transmitter; incoming packets are NOT processed. */ + user_interrupt(sc, 1); + } + +/* This net_device method handles IOCTL syscalls. */ +/* Called from a syscall (user context; no spinlocks; can sleep). */ +static int +linux_ioctl(struct net_device *net_dev, struct ifreq *ifr, int cmd) + { + softc_t *sc = dev_to_hdlc(net_dev)->priv; + int error = 0; + + if ((cmd >= SIOCDEVPRIVATE) && (cmd <= SIOCDEVPRIVATE+15)) + { + struct iohdr *iohdr = (struct iohdr *)ifr; + u_int16_t direction = iohdr->direction; + u_int16_t length = iohdr->length; + char *user_addr = (char *)iohdr->iohdr; + char *kern_addr; + + if (iohdr->cookie != NGM_LMC_COOKIE) return -EINVAL; + + /* Emulate a BSD-style IOCTL syscall. */ + kern_addr = kmalloc(length, GFP_KERNEL); + if (kern_addr == NULL) + error = -ENOMEM; + if ((error == 0) && ((direction & DIR_IOW) != 0)) + error = copy_from_user(kern_addr, user_addr, length); + if (error == 0) + error = -core_ioctl(sc, (unsigned long)cmd, kern_addr); + if ((error == 0) && ((direction & DIR_IOR) != 0)) + error = copy_to_user(user_addr, kern_addr, length); + kfree(kern_addr); + } +# if GEN_HDLC + else if (cmd == SIOCWANDEV) + { + const size_t size = sizeof(sync_serial_settings); + + switch (ifr->ifr_settings.type) + { + case IF_GET_IFACE: /* get interface config */ + { + ifr->ifr_settings.type = IF_IFACE_SYNC_SERIAL; + if (ifr->ifr_settings.size < size) + { + ifr->ifr_settings.size = size; + error = -ENOBUFS; + } + else + { + if (sc->config.tx_clk_src == CFG_CLKMUX_ST) + sc->hdlc_settings.clock_type = CLOCK_EXT; + if (sc->config.tx_clk_src == CFG_CLKMUX_INT) + sc->hdlc_settings.clock_type = CLOCK_TXINT; + if (sc->config.tx_clk_src == CFG_CLKMUX_RT) + sc->hdlc_settings.clock_type = CLOCK_TXFROMRX; + sc->hdlc_settings.loopback = (sc->config.loop_back != CFG_LOOP_NONE) ? 1:0; + sc->hdlc_settings.clock_rate = sc->status.tx_speed; + error = copy_to_user(ifr->ifr_settings.ifs_ifsu.sync, + &sc->hdlc_settings, size); + } + break; + } + case IF_IFACE_SYNC_SERIAL: /* set interface config */ + { + if (!capable(CAP_NET_ADMIN)) + error = -EPERM; + if (error == 0) + error = copy_from_user(&sc->hdlc_settings, + ifr->ifr_settings.ifs_ifsu.sync, size); + /* hdlc_settings are currently ignored. */ + break; + } + default: /* Pass the rest to the line protocol code. */ + { + error = hdlc_ioctl(net_dev, ifr, cmd); + break; + } + } + } +# endif /* GEN_HDLC */ + else /* unknown IOCTL command */ + error = -EINVAL; + + if (DRIVER_DEBUG) + printk("%s: linux_ioctl; cmd=0x%08x error=%d\n", + NAME_UNIT, cmd, error); + + return error; + } + +/* This net_device method returns a pointer to device statistics. */ +static struct net_device_stats * +linux_stats(struct net_device *net_dev) + { +# if GEN_HDLC + return &dev_to_hdlc(net_dev)->stats; +# else + softc_t *sc = net_dev->priv; + return &sc->net_stats; +# endif + } + +/* Called from a softirq once a second. */ +static void +linux_watchdog(unsigned long softc) + { + softc_t *sc = (softc_t *)softc; + u_int8_t old_oper_status = sc->status.oper_status; + struct event_cntrs *cntrs = &sc->status.cntrs; + struct net_device_stats *stats = linux_stats(sc->net_dev); + + core_watchdog(sc); /* updates oper_status */ + + /* Notice change in link status. */ + if ((old_oper_status != STATUS_UP) && + (sc->status.oper_status == STATUS_UP)) /* link came up */ + { + hdlc_set_carrier(1, sc->net_dev); + netif_wake_queue(sc->net_dev); + } + if ((old_oper_status == STATUS_UP) && + (sc->status.oper_status != STATUS_UP)) /* link went down */ + { + hdlc_set_carrier(0, sc->net_dev); + netif_stop_queue(sc->net_dev); + } + + /* Notice change in line protocol. */ + if (sc->config.line_pkg == PKG_RAWIP) + { + sc->status.line_pkg = PKG_RAWIP; + sc->status.line_prot = PROT_IP_HDLC; + } +# if GEN_HDLC + else + { + sc->status.line_pkg = PKG_GEN_HDLC; + switch (sc->hdlc_dev->proto.id) + { + case IF_PROTO_PPP: + sc->status.line_prot = PROT_PPP; + break; + case IF_PROTO_CISCO: + sc->status.line_prot = PROT_C_HDLC; + break; + case IF_PROTO_FR: + sc->status.line_prot = PROT_FRM_RLY; + break; + case IF_PROTO_HDLC: + sc->status.line_prot = PROT_IP_HDLC; + break; + case IF_PROTO_X25: + sc->status.line_prot = PROT_X25; + break; + case IF_PROTO_HDLC_ETH: + sc->status.line_prot = PROT_ETH_HDLC; + break; + default: + sc->status.line_prot = 0; + break; + } + } +# endif /* GEN_HDLC */ + + /* Copy statistics from sc to net_dev for get_stats(). */ + stats->rx_packets = cntrs->ipackets; + stats->tx_packets = cntrs->opackets; + stats->rx_bytes = cntrs->ibytes; + stats->tx_bytes = cntrs->obytes; + stats->rx_errors = cntrs->ierrors; + stats->tx_errors = cntrs->oerrors; + stats->rx_dropped = cntrs->idiscards; + stats->tx_dropped = cntrs->odiscards; + stats->rx_fifo_errors = cntrs->fifo_over; + stats->tx_fifo_errors = cntrs->fifo_under; + stats->rx_missed_errors = cntrs->missed; + stats->rx_over_errors = cntrs->overruns; + + /* Call this procedure again after one second. */ + sc->wd_timer.expires = jiffies + HZ; /* now plus one second */ + add_timer(&sc->wd_timer); + } + +/* This is the I/O configuration interface for Linux. */ + +/* This net_device method is called when IFF_UP goes false. */ +static int +linux_stop(struct net_device *net_dev) + { + softc_t *sc = dev_to_hdlc(net_dev)->priv; + + /* Stop the card and detach from the kernel. */ + detach_card(sc); /* doesn't fail */ + + free_irq(net_dev->irq, net_dev); /* doesn't fail */ + + del_timer(&sc->wd_timer); /* return value ignored */ + + return 0; + } + +/* This net_device method is called when IFF_UP goes true. */ +static int +linux_open(struct net_device *net_dev) + { + softc_t *sc = dev_to_hdlc(net_dev)->priv; + int error; + + /* Allocate PCI interrupt resources for the card. */ + if ((error = request_irq(net_dev->irq, &linux_interrupt, SA_SHIRQ, + NAME_UNIT, net_dev))) + { + printk("%s: request_irq() failed; error %d\n", NAME_UNIT, error); + return error; + } + + /* Arrange to call linux_watchdog() once a second. */ + init_timer(&sc->wd_timer); + sc->wd_timer.expires = jiffies + HZ; /* now plus one second */ + sc->wd_timer.function = &linux_watchdog; + sc->wd_timer.data = (unsigned long) sc; + add_timer(&sc->wd_timer); + + /* Start the card and attach a kernel interface and line protocol. */ + if ((error = -attach_card(sc, ""))) + linux_stop(net_dev); + else + { + net_dev->weight = sc->rxring.num_descs; /* input flow control */ + netif_start_queue(net_dev); /* output flow control */ + } + + return error; + } + +# if GEN_HDLC +static int +hdlc_attach(struct net_device *net_dev, + unsigned short encoding, unsigned short parity) + { return 0; } +# endif + +/* This pci_driver method is called during shutdown or module-unload. */ +/* This is called from user context; can sleep; no spinlocks! */ +static void __exit +linux_remove(struct pci_dev *pci_dev) + { + struct net_device *net_dev = (struct net_device *)pci_get_drvdata(pci_dev); + softc_t *sc = dev_to_hdlc(net_dev)->priv; + + if (net_dev == NULL) return; + + /* Assume that linux_stop() has already been called. */ + if (sc->flags & FLAG_NETDEV) +# if GEN_HDLC + unregister_hdlc_device(net_dev); +# else + unregister_netdev(net_dev); +# endif + +# if (IOREF_CSR == 0) + if (sc->csr_membase != NULL) + iounmap(sc->csr_membase); +# endif + + pci_disable_device(pci_dev); + + if (sc->csr_iobase != 0) + pci_release_regions(pci_dev); + + pci_set_drvdata(pci_dev, NULL); + + kfree(sc); + free_netdev(net_dev); + } + +static void +setup_netdev(struct net_device *net_dev) + { + /* Initialize the generic network device. */ + /* Note similarity to BSD's ifnet_attach(). */ + net_dev->flags = IFF_POINTOPOINT; + net_dev->flags |= IFF_RUNNING; + net_dev->open = linux_open; + net_dev->stop = linux_stop; + net_dev->hard_start_xmit = linux_start; + net_dev->do_ioctl = linux_ioctl; + net_dev->get_stats = linux_stats; + net_dev->tx_timeout = linux_timeout; + net_dev->poll = linux_poll; + net_dev->watchdog_timeo = 1 * HZ; + net_dev->tx_queue_len = SNDQ_MAXLEN; + net_dev->mtu = MAX_DESC_LEN; + net_dev->type = ARPHRD_RAWHDLC; +/* The receiver generates frag-lists for packets >4032 bytes. */ +/* The transmitter accepts scatter/gather lists and frag-lists. */ +/* However Linux linearizes outgoing packets since our hardware */ +/* doesn't compute soft checksums. All that work for nothing! */ +/*net_dev->features |= NETIF_F_SG; */ +/*net_dev->features |= NETIF_F_FRAGLIST; */ + } + +/* This pci_driver method is called during boot or module-load. */ +/* This is called from user context; can sleep; no spinlocks! */ +static int __init +linux_probe(struct pci_dev *pci_dev, const struct pci_device_id *id) + { + u_int32_t cfid, csid; + struct net_device *net_dev; + softc_t *sc; + int error; + + /* Looking for a DEC 21140A chip on any Lan Media Corp card. */ + pci_read_config_dword(pci_dev, TLP_CFID, &cfid); + if (cfid != TLP_CFID_TULIP) return -ENXIO; + pci_read_config_dword(pci_dev, TLP_CSID, &csid); + switch (csid) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + case TLP_CSID_T3: + case TLP_CSID_SSI: + case TLP_CSID_T1E1: + break; + default: + return -ENXIO; + } + + /* Declare that these cards use 32-bit single-address PCI cycles. */ + if ((error = pci_set_dma_mask(pci_dev, DMA_32BIT_MASK))) + { + printk("%s: pci_set_dma_mask() failed; error %d\n", DEVICE_NAME, error); + return error; + } + pci_set_consistent_dma_mask(pci_dev, DMA_32BIT_MASK); /* can't fail */ + +# if GEN_HDLC /* generic-hdlc line protocols */ + + /* device driver instance data, aka Soft Context or sc */ + if ((sc = kmalloc(sizeof(softc_t), GFP_KERNEL)) == NULL) + { + printk("%s: kmalloc() failed\n", DEVICE_NAME); + return -ENOMEM; + } + memset(sc, 0, sizeof(softc_t)); + + /* Allocate space for the HDLC network device struct. */ + if ((net_dev = alloc_hdlcdev(sc)) == NULL) + { + printk("%s: alloc_hdlcdev() failed\n", DEVICE_NAME); + kfree(sc); + return -ENOMEM; + } + + /* Initialize the network device struct. */ + setup_netdev(net_dev); + + /* Initialize the HDLC extension to the network device. */ + sc->hdlc_dev = dev_to_hdlc(net_dev); + sc->hdlc_dev->attach = hdlc_attach; /* noop for this driver */ + sc->hdlc_dev->xmit = linux_start; /* the REAL hard_start_xmit() */ + +# else /* GEN_HDLC */ /* no line protocol. */ + + /* Allocate space for the bare network device struct. */ + net_dev = alloc_netdev(sizeof(softc_t), DEVICE_NAME"%d", setup_netdev); + if (net_dev == NULL) + { + printk("%s: alloc_netdev() failed\n", DEVICE_NAME); + return -ENOMEM; + } + /* device driver instance data, aka Soft Context or sc */ + sc = net_dev->priv; + +# endif /* GEN_HDLC */ + + sc->net_dev = net_dev; /* NAME_UNIT macro needs this */ + sc->pci_dev = pci_dev; /* READ/WRITE_PCI_CFG macros need this */ + + /* Cross-link pci_dev and net_dev. */ + pci_set_drvdata(pci_dev, net_dev); /* pci_dev->driver_data = net_dev */ + SET_NETDEV_DEV(net_dev, &pci_dev->dev); /* net_dev->class_dev.dev = &pci_dev->dev */ + SET_MODULE_OWNER(net_dev); /* ??? NOOP in linux-2.6.3. ??? */ + + /* Sets cfcs.io and cfcs.mem; sets pci_dev->irq based on cfit.int */ + if ((error = pci_enable_device(pci_dev))) + { + printk("%s: pci_enable_device() failed; error %d\n", DEVICE_NAME, error); + linux_remove(pci_dev); + return error; + } + net_dev->irq = pci_dev->irq; /* linux_open/stop need this */ + + /* Allocate PCI memory and IO resources to access the Tulip chip CSRs. */ + if ((error = pci_request_regions(pci_dev, DEVICE_NAME))) + { + printk("%s: pci_request_regions() failed; error %d\n", DEVICE_NAME, error); + linux_remove(pci_dev); + return error; + } + net_dev->base_addr = pci_resource_start(pci_dev, 0); + net_dev->mem_start = pci_resource_start(pci_dev, 1); + net_dev->mem_end = pci_resource_end(pci_dev, 1); + sc->csr_iobase = net_dev->base_addr; + +# if (IOREF_CSR == 0) + sc->csr_membase = ioremap_nocache(net_dev->mem_start, TLP_CSR_SIZE); + if (sc->csr_membase == NULL) + { + printk("%s: ioremap_nocache() failed\n", DEVICE_NAME); + linux_remove(pci_dev); + return -EFAULT; + } +# endif + + /* Sets cfcs.master, enabling PCI DMA; checks latency timer value. */ + pci_set_master(pci_dev); /* Later, attach_card() does this too. */ + + /* Initialize the top-half and bottom-half locks. */ + /* Top_lock must be initialized before net_dev is registered. */ + init_MUTEX(&sc->top_lock); + spin_lock_init(&sc->bottom_lock); + +# if GEN_HDLC + if ((error = register_hdlc_device(net_dev))) + { + printk("%s: register_hdlc_device() failed; error %d\n", DEVICE_NAME, error); + linux_remove(pci_dev); + return error; + } +# else + if ((error = register_netdev(net_dev))) + { + printk("%s: register_netdev() failed; error %d\n", DEVICE_NAME, error); + linux_remove(pci_dev); + return error; + } +# endif + /* The NAME_UNIT macro now works. Use DEVICE_NAME before this. */ + sc->flags |= FLAG_NETDEV; + + /* What kind of card are we driving? */ + switch (READ_PCI_CFG(sc, TLP_CSID)) + { + case TLP_CSID_HSSI: + case TLP_CSID_HSSIc: + sc->dev_desc = HSSI_DESC; + sc->card = &hssi_card; + break; + case TLP_CSID_T3: + sc->dev_desc = T3_DESC; + sc->card = &t3_card; + break; + case TLP_CSID_SSI: + sc->dev_desc = SSI_DESC; + sc->card = &ssi_card; + break; + case TLP_CSID_T1E1: + sc->dev_desc = T1E1_DESC; + sc->card = &t1_card; + break; + default: /* shouldn't happen! */ + linux_remove(pci_dev); + return -ENXIO; + } + + /* Announce the hardware on the console. */ + printk("%s: <%s> io 0x%04lx/9 mem 0x%08lx/25 rom 0x%08lx/14 irq %d pci %s\n", + NAME_UNIT, sc->dev_desc, pci_resource_start(pci_dev, 0), + pci_resource_start(pci_dev, 1), pci_resource_start(pci_dev, 6), + pci_dev->irq, pci_name(pci_dev)); + + return 0; + } + +/* This pci driver knows how to drive these devices: */ +static __initdata struct pci_device_id pci_device_id_tbl[] = + { + /* Looking for a DEC 21140A chip on any Lan Media Corp card. */ + { 0x1011, 0x0009, 0x1376, PCI_ANY_ID, 0, 0, 0 }, + { 0, 0, 0, 0, 0, 0, 0 } + }; +MODULE_DEVICE_TABLE(pci, pci_device_id_tbl); + +static struct pci_driver pci_driver = + { + .name = DEVICE_NAME, + .id_table = pci_device_id_tbl, + .probe = linux_probe, + .remove = __devexit_p(linux_remove), + /* This driver does not suspend and resume. */ + }; + +/* This ultimately calls our pci_driver.probe() method. */ +static int __init linux_modload(void) + { return pci_module_init(&pci_driver); } +module_init(linux_modload); + +/* This ultimately calls our pci_driver.remove() method. */ +static void __exit linux_modunload(void) + { pci_unregister_driver(&pci_driver); } +module_exit(linux_modunload); + +MODULE_LICENSE("Dual BSD/GPL"); +MODULE_DESCRIPTION("Device driver for SBE/LMC Wide-Area Network cards"); +MODULE_AUTHOR("David Boggs "); + +#endif /* __linux__ */ diff --git a/sys/dev/lmc/if_lmc.h b/sys/dev/lmc/if_lmc.h new file mode 100644 index 000000000000..2d024bd264e3 --- /dev/null +++ b/sys/dev/lmc/if_lmc.h @@ -0,0 +1,1687 @@ +/* + * $FreeBSD$ + * + * 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) +#elif __linux__ /* sigh */ +# define LMCIOCGSTAT SIOCDEVPRIVATE+0 +# define LMCIOCGCFG SIOCDEVPRIVATE+1 +# define LMCIOCSCFG SIOCDEVPRIVATE+2 +# define LMCIOCREAD SIOCDEVPRIVATE+3 +# define LMCIOCWRITE SIOCDEVPRIVATE+4 +# define LMCIOCTL SIOCDEVPRIVATE+5 +#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! */ +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 */ +#if (__FreeBSD__ || __NetBSD__ || __OpenBSD__) + bus_dmamap_t map; /* bus dmamap for this descriptor */ +# define TLP_BUS_DSL_VAL (sizeof(bus_dmamap_t) & TLP_BUS_DSL) +#else +# define TLP_BUS_DSL_VAL 0 +#endif + } __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 __linux__ + struct sk_buff *head; /* tail-queue of skbuffs */ + struct sk_buff *tail; +#elif BSD + struct mbuf *head; /* tail-queue of mbufs */ + struct mbuf *tail; +# if (__FreeBSD__ || __NetBSD__ || __OpenBSD__) + 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 +#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 (__FreeBSD__ && DEVICE_POLLING) +# define DEV_POLL 1 +#else +# define DEV_POLL 0 +#endif + +#if (ALTQ != 0) +# 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 + { +#if (__NetBSD__ || __OpenBSD__) + struct device dev; /* base device -- must be first in softc */ + pcitag_t pa_tag; /* pci_conf_read/write need this */ + pci_chipset_tag_t pa_pc; /* pci_conf_read/write need this */ + bus_dma_tag_t pa_dmat; /* bus_dma needs this */ + bus_space_tag_t csr_tag; /* bus_space needs this */ + bus_space_handle_t csr_handle;/* bus_space needs this */ + pci_intr_handle_t intr_handle;/* interrupt handle */ + void *irq_cookie; /* pci_intr_disestablish needs this */ + void *sdh_cookie; /* shutdownhook_disestablish needs this */ + struct simplelock top_lock; /* lock card->watchdog vs core_ioctl */ + struct simplelock bottom_lock;/* lock for buf queues & descriptor rings */ + struct mbuf *tx_mbuf; /* hang mbuf here while building dma descs */ +#endif /* __NetBSD__ || __OpenBSD__ */ + +#if __bsdi__ + struct device dev; /* base device -- must be first in softc */ + struct isadev id; /* bus resource */ + struct intrhand ih; /* interrupt vectoring */ + struct atshutdown ats; /* shutdown hook */ + pci_devaddr_t cfgbase; /* base address of PCI config regs */ + u_int16_t csr_iobase; /* io base address of Tulip CSRs */ + u_int32_t *csr_membase; /* kv mem base address of Tulip CSRs */ + struct simplelock top_lock; /* lock card->watchdog vs core_ioctl */ + struct simplelock bottom_lock;/* lock for buf queues & descriptor rings */ + struct mbuf *tx_mbuf; /* hang mbuf here while building dma descs */ +#endif /* __bsdi__ */ + + /* 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 __linux__ +# if GEN_HDLC + hdlc_device *hdlc_dev; /* state for HDLC code */ + sync_serial_settings hdlc_settings; /* state set by sethdlc program */ +# else + struct net_device_stats net_stats; /* linux_stats storage */ +# endif +#endif + +#if NETGRAPH + struct callout ng_callout; /* ng_watchdog needs this */ + 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 + +#if __FreeBSD__ + 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 */ +# if 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 +#endif /* __FreeBSD__ */ + +#if __linux__ + struct pci_dev *pci_dev; /* READ/WRITE_PCI_CFG macros need this */ + struct net_device *net_dev; /* NAME_UNIT macro needs this */ + struct timer_list wd_timer; /* timer calls watchdog() once a second */ + u_int32_t csr_iobase; /* io base address of Tulip CSRs */ + void *csr_membase; /* kv mem base address of Tulip CSRs */ + struct sk_buff *tx_skb; /* hang skb here while building dma descs */ + int quota; /* used for incoming packet flow control */ + struct semaphore top_lock; /* lock card->watchdog vs core_ioctl */ + spinlock_t bottom_lock; /* lock for buf queues & descriptor rings */ +#endif /* __linux__ */ + + /* 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 */ + +#if __FreeBSD__ + 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) +# define CHECK_CAP suser(curthread) +# 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) if (sc->ifp->if_bpf) bpf_mtap(sc->ifp->if_bpf, 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 +#endif /* __FreeBSD__ */ + +#if __NetBSD__ + typedef int intr_return_t; +# define READ_PCI_CFG(sc, addr) pci_conf_read ((sc)->pa_pc, (sc)->pa_tag, addr) +# define WRITE_PCI_CFG(sc, addr, data) pci_conf_write((sc)->pa_pc, (sc)->pa_tag, addr, data) +# 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 sc->dev.dv_xname +# define DRIVER_DEBUG ((sc->config.debug) || (sc->ifp->if_flags & IFF_DEBUG)) +# define TOP_TRYLOCK simple_lock_try(&sc->top_lock) +# define TOP_UNLOCK simple_unlock (&sc->top_lock) +# define BOTTOM_TRYLOCK simple_lock_try(&sc->bottom_lock) +# define BOTTOM_UNLOCK simple_unlock (&sc->bottom_lock) +# define CHECK_CAP suser(curproc->p_ucred, &curproc->p_acflag) +# define DISABLE_INTR int spl = splnet() +# define ENABLE_INTR splx(spl) +# define IRQ_NONE 0 +# define IRQ_HANDLED 1 +# 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, 0, size, flags) +# define DMA_LOAD(map, addr, size) bus_dmamap_load(ring->tag, map, addr, size, 0, BUS_DMA_NOWAIT) +# if (NBPFILTER != 0) +# define LMC_BPF_MTAP(mbuf) if (sc->ifp->if_bpf) bpf_mtap(sc->ifp->if_bpf, mbuf) +# define LMC_BPF_ATTACH(dlt, len) bpfattach(sc->ifp, dlt, len) +# define LMC_BPF_DETACH bpfdetach(sc->ifp) +# endif +#endif /* __NetBSD__ */ + +#if __OpenBSD__ + typedef int intr_return_t; +# define READ_PCI_CFG(sc, addr) pci_conf_read ((sc)->pa_pc, (sc)->pa_tag, addr) +# define WRITE_PCI_CFG(sc, addr, data) pci_conf_write((sc)->pa_pc, (sc)->pa_tag, addr, data) +# 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 sc->dev.dv_xname +# define DRIVER_DEBUG ((sc->config.debug) || (sc->ifp->if_flags & IFF_DEBUG)) +# define TOP_TRYLOCK simple_lock_try(&sc->top_lock) +# define TOP_UNLOCK simple_unlock (&sc->top_lock) +# define BOTTOM_TRYLOCK simple_lock_try(&sc->bottom_lock) +# define BOTTOM_UNLOCK simple_unlock (&sc->bottom_lock) +# define CHECK_CAP suser(curproc, 0) +# define DISABLE_INTR int spl = splnet() +# define ENABLE_INTR splx(spl) +# define IRQ_NONE 0 +# define IRQ_HANDLED 1 +# 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, 0, size, flags) +# define DMA_LOAD(map, addr, size) bus_dmamap_load(ring->tag, map, addr, size, 0, BUS_DMA_NOWAIT) +# if (NBPFILTER != 0) +# define LMC_BPF_MTAP(mbuf) if (sc->ifp->if_bpf) bpf_mtap(sc->ifp->if_bpf, mbuf) +# define LMC_BPF_ATTACH(dlt, len) bpfattach(&sc->ifp->if_bpf, sc->ifp, dlt, len) +# define LMC_BPF_DETACH bpfdetach(sc->ifp) +# endif +#endif /* __OpenBSD__ */ + +#if __bsdi__ + typedef int intr_return_t; +# define READ_PCI_CFG(sc, addr) pci_inl(&(sc)->cfgbase, addr) +# define WRITE_PCI_CFG(sc, addr, data) pci_outl(&(sc)->cfgbase, addr, data) +# if IOREF_CSR +# define READ_CSR(csr) inl(sc->csr_iobase+(csr)) +# define WRITE_CSR(csr, val) outl(sc->csr_iobase+(csr), (val)) +# else +# error Memory refs to Tulip CSRs cause page faults in BSD/OS +# define READ_CSR(csr) (0 + *(sc->csr_membase+(csr))) +# define WRITE_CSR(csr, val) ((void)(*(sc->csr_membase+(csr)) = (val))) +# endif +# define NAME_UNIT sc->dev.dv_xname +# define DRIVER_DEBUG ((sc->config.debug) || (sc->ifp->if_flags & IFF_DEBUG)) +# define TOP_TRYLOCK simple_lock_try(&sc->top_lock) +# define TOP_UNLOCK simple_unlock (&sc->top_lock) +# define BOTTOM_TRYLOCK simple_lock_try(&sc->bottom_lock) +# define BOTTOM_UNLOCK simple_unlock (&sc->bottom_lock) +# define CHECK_CAP suser(PCPU(curproc)->p_ucred, &PCPU(curproc)->p_acflag) +# define DISABLE_INTR int spl = splimp() +# define ENABLE_INTR splx(spl) +# define IRQ_NONE 1 /* XXX 0 */ +# define IRQ_HANDLED 1 +# 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) /* nothing */ +# define DMA_LOAD(map, addr, size) 0 +# define bus_dmamap_unload(tag, map) /* nothing */ +# define bus_dmamap_destroy(tag, map) /* nothing */ +# if (NBPFILTER != 0) +# define LMC_BPF_MTAP(mbuf) if (sc->ifp->if_bpf) bpf_mtap(sc->ifp->if_bpf, mbuf) +# define LMC_BPF_ATTACH(dlt, len) bpfattach(&sc->ifp->if_bpf, sc->ifp, dlt, len) +# define LMC_BPF_DETACH /* bpfdetach(sc->ifp) */ +# endif +# define memcpy(dst, src, len) bcopy(src, dst, len) +# define if_detach(ifp) /* nothing */ + +/* BSD/OS-4.1 doesn't have a back pointer to softc in struct ifnet, */ +/* and it passes a unit number not a struct ifnet* to watchdog. */ +# if (_BSDI_VERSION <= 199910) + extern struct cfdriver lmccd; +# undef IFP2SC +# define UNIT2SC(unit) ((softc_t *)lmccd.cd_devs[unit]) +# define IFP2SC(ifp) (UNIT2SC((ifp)->if_unit)) +# endif +#endif /* __bsdi__ */ + +#if __linux__ +static u_int32_t /* inline? so rare it doesn't matter */ +READ_PCI_CFG(softc_t *sc, u_int32_t addr) + { + u_int32_t data; + pci_read_config_dword(sc->pci_dev, addr, &data); + return data; + } +# define WRITE_PCI_CFG(sc, addr, data) pci_write_config_dword(sc->pci_dev, addr, data) +# if IOREF_CSR +# define READ_CSR(csr) inl((sc->csr_iobase+(csr))) +# define WRITE_CSR(csr, val) outl((val),(sc->csr_iobase+(csr))) +# else +# define READ_CSR(csr) readl((sc->csr_membase+(csr))) +# define WRITE_CSR(csr, val) writel((val),(sc->csr_membase+(csr))) +# endif +# define NAME_UNIT sc->net_dev->name +# define DRIVER_DEBUG ((sc->config.debug) || (sc->net_dev->flags & IFF_DEBUG)) +# define TOP_TRYLOCK ((down_trylock(&sc->top_lock)==0) ? 1:0) +# define TOP_UNLOCK up(&sc->top_lock) +# define BOTTOM_TRYLOCK spin_trylock_bh(&sc->bottom_lock) +# define BOTTOM_UNLOCK spin_unlock_bh(&sc->bottom_lock) +# define CHECK_CAP capable(CAP_NET_ADMIN)? 0 : -EPERM +# define DISABLE_INTR /* nothing */ +# define ENABLE_INTR /* nothing */ +# define COPY_BREAK 200 +# define DELAY(usecs) udelay(usecs) +# define SLEEP(usecs) do { set_current_state(TASK_INTERRUPTIBLE);\ + schedule_timeout(1+(usecs*HZ)/1000000UL); } while (0) +# define printf printk +# define copyin(u, k, len) copy_from_user(k, u, len) +# define microtime(time) do_gettimeofday(time) +# define malloc(len, t, f) kmalloc(len, GFP_KERNEL) +# define free(addr, t) kfree(addr) +# define LITTLE_ENDIAN 4321 +# define BIG_ENDIAN 1234 +# if defined(__LITTLE_ENDIAN) +# define BYTE_ORDER LITTLE_ENDIAN +# elif defined(__BIG_ENDIAN) +# define BYTE_ORDER BIG_ENDIAN +# else +# error "asm/byteorder.h is wrong" +# endif +# if (GEN_HDLC == 0) +# define dev_to_hdlc(net_dev) net_dev +# define hdlc_set_carrier(val, net_dev) /* nothing */ +# endif +#endif /* __linux__ */ + +#if (NBPFILTER == 0) +# define LMC_BPF_MTAP(mbuf) /* nothing */ +# define LMC_BPF_ATTACH(dlt, len) /* nothing */ +# define LMC_BPF_DETACH /* nothing */ +#endif + +#if (__bsdi__ || /* unconditionally */ \ + (__FreeBSD__ && (__FreeBSD_version < 503000)) || \ + (__NetBSD__ && (__NetBSD_Version__ < 106000000)) || \ + (__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 ((__FreeBSD__ && (__FreeBSD_version < 500000)) ||\ + __NetBSD__ || __OpenBSD__ || __bsdi__) +static void netisr_dispatch(int, struct mbuf *); +# endif +static void 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 *); +# if __FreeBSD__ +static void fbsd_dmamap_load(void *, bus_dma_segment_t *, int, int); +# endif +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 */ + +#if __linux__ +static void skbuff_enqueue(struct desc_ring *, struct sk_buff *); +static struct sk_buff* skbuff_dequeue(struct desc_ring *); +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 *sc); +static int txintr_setup_frag(softc_t *, char *, int); +static int txintr_setup_skb(softc_t *, struct sk_buff *); +static int txintr_setup(softc_t *); +#endif /* __linux__ */ + +static void check_intr_status(softc_t *); +static void core_interrupt(void *, int); +static void user_interrupt(softc_t *, int); +#if BSD +# if (__FreeBSD__ && DEVICE_POLLING) +static void 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 raw_ioctl(struct ifnet *, u_long, caddr_t); +static int ifnet_ioctl(struct ifnet *, u_long, caddr_t); +static void ifnet_start(struct ifnet *); +static int raw_output(struct ifnet *, struct mbuf *, + struct sockaddr *, struct rtentry *); +static void ifnet_watchdog(struct ifnet *); +# if __OpenBSD__ +static int ifmedia_change(struct ifnet *); +static void ifmedia_status(struct ifnet *, struct ifmediareq *); +# endif /* __OpenBSD__ */ +static void setup_ifnet(struct ifnet *); +static int ifnet_attach(softc_t *); +static void 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 *); + +#if __FreeBSD__ +static int fbsd_probe(device_t); +static int fbsd_detach(device_t); +static void fbsd_shutdown(device_t); +static int fbsd_attach(device_t); +#endif /* __FreeBSD__ */ + +#if __NetBSD__ +static int nbsd_match(struct device *t, struct cfdata *, void *); +static int nbsd_detach(struct device *, int); +static void nbsd_attach(struct device *, struct device *, void *); +static int lkm_nbsd_match(struct pci_attach_args *); +int if_lmc_lkmentry(struct lkm_table *, int, int); +#endif /* __NetBSD__ */ + +#if __OpenBSD__ +static int obsd_match(struct device *, void *, void *); +static int obsd_detach(struct device *, int); +static void obsd_attach(struct device *, struct device *, void *); +int if_lmc_lkmentry(struct lkm_table *, int, int); +#endif /* __OpenBSD__ */ + +#if __bsdi__ +static int bsdi_match(pci_devaddr_t *); +static int bsdi_probe(struct device *, struct cfdata *, void *); +static void bsdi_attach(struct device *, struct device *, void *); +#endif /* __bsdi__ */ + +#if __linux__ +static irqreturn_t linux_interrupt(int, void *, struct pt_regs *); +static int linux_poll(struct net_device *, int *); +static int linux_start(struct sk_buff *, struct net_device *); +static void linux_timeout(struct net_device *); +static int linux_ioctl(struct net_device *, struct ifreq *, int); +static struct net_device_stats * linux_stats(struct net_device *); +static void linux_watchdog(unsigned long); +static int linux_stop(struct net_device *); +static int linux_open(struct net_device *); +# if GEN_HDLC +static int hdlc_attach(struct net_device *, + unsigned short, unsigned short); +# endif +static void __exit linux_remove(struct pci_dev *); +static void setup_netdev(struct net_device *); +static int __init linux_probe(struct pci_dev *, const struct pci_device_id *); +#endif /* __linux__ */ + +#endif /* KERNEL */ + +#endif /* IF_LMC_H */ diff --git a/sys/modules/Makefile b/sys/modules/Makefile index e570a89177a7..32a86c7effb1 100644 --- a/sys/modules/Makefile +++ b/sys/modules/Makefile @@ -131,6 +131,7 @@ SUBDIR= ${_3dfx} \ libmchain \ ${_linprocfs} \ ${_linux} \ + lmc \ ${_lnc} \ lpt \ mac_biba \ diff --git a/sys/modules/lmc/Makefile b/sys/modules/lmc/Makefile new file mode 100644 index 000000000000..fa565794e9f4 --- /dev/null +++ b/sys/modules/lmc/Makefile @@ -0,0 +1,25 @@ +# $FreeBSD$ + +KMOD = if_lmc +.PATH: ${.CURDIR}/../../dev/lmc + +SRCS = if_lmc.c if_lmc.h +SRCS += device_if.h bus_if.h pci_if.h +SRCS += opt_inet.h opt_inet6.h +SRCS += opt_netgraph.h +SRCS += opt_global.h +SRCS += opt_bpf.h + +opt_inet.h: + echo "#define INET 1" > ${.TARGET} +opt_inet6.h: + echo "#define INET6 0" > ${.TARGET} +opt_netgraph.h: + echo "#define NETGRAPH 1" > ${.TARGET} +opt_global.h: + echo "#define ALTQ 1" > ${.TARGET} + echo "#define DEVICE_POLLING 1" >> ${.TARGET} +opt_bpf.h: # FreeBSD-5: + echo "#define DEV_BPF 1" > ${.TARGET} + +.include