1a17c678eSDavid Greenman /* 2a17c678eSDavid Greenman * Copyright (c) 1995, David Greenman 3a17c678eSDavid Greenman * All rights reserved. 4a17c678eSDavid Greenman * 5ba8c6fd5SDavid Greenman * Modifications to support NetBSD and media selection: 6ba8c6fd5SDavid Greenman * Copyright (c) 1997 Jason R. Thorpe. All rights reserved. 7ba8c6fd5SDavid Greenman * 8a17c678eSDavid Greenman * Redistribution and use in source and binary forms, with or without 9a17c678eSDavid Greenman * modification, are permitted provided that the following conditions 10a17c678eSDavid Greenman * are met: 11a17c678eSDavid Greenman * 1. Redistributions of source code must retain the above copyright 12a17c678eSDavid Greenman * notice unmodified, this list of conditions, and the following 13a17c678eSDavid Greenman * disclaimer. 14a17c678eSDavid Greenman * 2. Redistributions in binary form must reproduce the above copyright 15a17c678eSDavid Greenman * notice, this list of conditions and the following disclaimer in the 16a17c678eSDavid Greenman * documentation and/or other materials provided with the distribution. 17a17c678eSDavid Greenman * 18a17c678eSDavid Greenman * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 19a17c678eSDavid Greenman * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20a17c678eSDavid Greenman * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21a17c678eSDavid Greenman * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 22a17c678eSDavid Greenman * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23a17c678eSDavid Greenman * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 24a17c678eSDavid Greenman * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25a17c678eSDavid Greenman * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26a17c678eSDavid Greenman * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27a17c678eSDavid Greenman * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28a17c678eSDavid Greenman * SUCH DAMAGE. 29a17c678eSDavid Greenman * 30c3aac50fSPeter Wemm * $FreeBSD$ 31a17c678eSDavid Greenman */ 32a17c678eSDavid Greenman 33a17c678eSDavid Greenman /* 34ae12cddaSDavid Greenman * Intel EtherExpress Pro/100B PCI Fast Ethernet driver 35a17c678eSDavid Greenman */ 36a17c678eSDavid Greenman 37a17c678eSDavid Greenman #include <sys/param.h> 38a17c678eSDavid Greenman #include <sys/systm.h> 39a17c678eSDavid Greenman #include <sys/mbuf.h> 40a17c678eSDavid Greenman #include <sys/malloc.h> 41a17c678eSDavid Greenman #include <sys/kernel.h> 424458ac71SBruce Evans #include <sys/socket.h> 43a17c678eSDavid Greenman 44a17c678eSDavid Greenman #include <net/if.h> 45397f9dfeSDavid Greenman #include <net/if_dl.h> 46ba8c6fd5SDavid Greenman #include <net/if_media.h> 47a17c678eSDavid Greenman 48a17c678eSDavid Greenman #ifdef NS 49a17c678eSDavid Greenman #include <netns/ns.h> 50a17c678eSDavid Greenman #include <netns/ns_if.h> 51a17c678eSDavid Greenman #endif 52a17c678eSDavid Greenman 53a17c678eSDavid Greenman #include <net/bpf.h> 54a17c678eSDavid Greenman 55ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 56ba8c6fd5SDavid Greenman 57ba8c6fd5SDavid Greenman #include <sys/ioctl.h> 58ba8c6fd5SDavid Greenman #include <sys/errno.h> 59ba8c6fd5SDavid Greenman #include <sys/device.h> 60ba8c6fd5SDavid Greenman 61ba8c6fd5SDavid Greenman #include <net/if_dl.h> 62ba8c6fd5SDavid Greenman #include <net/if_ether.h> 63ba8c6fd5SDavid Greenman 64ba8c6fd5SDavid Greenman #include <netinet/if_inarp.h> 65ba8c6fd5SDavid Greenman 66ba8c6fd5SDavid Greenman #include <vm/vm.h> 67ba8c6fd5SDavid Greenman 68ba8c6fd5SDavid Greenman #include <machine/cpu.h> 69ba8c6fd5SDavid Greenman #include <machine/bus.h> 70ba8c6fd5SDavid Greenman #include <machine/intr.h> 71ba8c6fd5SDavid Greenman 72ba8c6fd5SDavid Greenman #include <dev/pci/if_fxpreg.h> 73ba8c6fd5SDavid Greenman #include <dev/pci/if_fxpvar.h> 74ba8c6fd5SDavid Greenman 75ba8c6fd5SDavid Greenman #include <dev/pci/pcivar.h> 76ba8c6fd5SDavid Greenman #include <dev/pci/pcireg.h> 77ba8c6fd5SDavid Greenman #include <dev/pci/pcidevs.h> 78ba8c6fd5SDavid Greenman 79ba8c6fd5SDavid Greenman 80ba8c6fd5SDavid Greenman #else /* __FreeBSD__ */ 81ba8c6fd5SDavid Greenman 82ba8c6fd5SDavid Greenman #include <sys/sockio.h> 836182fdbdSPeter Wemm #include <sys/bus.h> 846182fdbdSPeter Wemm #include <machine/bus.h> 856182fdbdSPeter Wemm #include <sys/rman.h> 866182fdbdSPeter Wemm #include <machine/resource.h> 8787807fdeSChuck Paterson #include <sys/proc.h> 880f4dc94cSChuck Paterson #include <machine/mutex.h> 89ba8c6fd5SDavid Greenman 901d5e9e22SEivind Eklund #include <net/ethernet.h> 911d5e9e22SEivind Eklund #include <net/if_arp.h> 92ba8c6fd5SDavid Greenman 93dfe61cf1SDavid Greenman #include <vm/vm.h> /* for vtophys */ 94efeaf95aSDavid Greenman #include <vm/pmap.h> /* for vtophys */ 95dfe61cf1SDavid Greenman #include <machine/clock.h> /* for DELAY */ 96a17c678eSDavid Greenman 97a17c678eSDavid Greenman #include <pci/pcivar.h> 98df373873SWes Peters #include <pci/pcireg.h> /* for PCIM_CMD_xxx */ 99a17c678eSDavid Greenman #include <pci/if_fxpreg.h> 100ba8c6fd5SDavid Greenman #include <pci/if_fxpvar.h> 101a17c678eSDavid Greenman 102ba8c6fd5SDavid Greenman #endif /* __NetBSD__ */ 103a17c678eSDavid Greenman 1044fc1dda9SAndrew Gallatin #ifdef __alpha__ /* XXX */ 1054fc1dda9SAndrew Gallatin /* XXX XXX NEED REAL DMA MAPPING SUPPORT XXX XXX */ 1064fc1dda9SAndrew Gallatin #undef vtophys 1074fc1dda9SAndrew Gallatin #define vtophys(va) alpha_XXX_dmamap((vm_offset_t)(va)) 1084fc1dda9SAndrew Gallatin #endif /* __alpha__ */ 1094fc1dda9SAndrew Gallatin 110ba8c6fd5SDavid Greenman /* 111ba8c6fd5SDavid Greenman * NOTE! On the Alpha, we have an alignment constraint. The 112ba8c6fd5SDavid Greenman * card DMAs the packet immediately following the RFA. However, 113ba8c6fd5SDavid Greenman * the first thing in the packet is a 14-byte Ethernet header. 114ba8c6fd5SDavid Greenman * This means that the packet is misaligned. To compensate, 115ba8c6fd5SDavid Greenman * we actually offset the RFA 2 bytes into the cluster. This 116ba8c6fd5SDavid Greenman * alignes the packet after the Ethernet header at a 32-bit 117ba8c6fd5SDavid Greenman * boundary. HOWEVER! This means that the RFA is misaligned! 118ba8c6fd5SDavid Greenman */ 119ba8c6fd5SDavid Greenman #define RFA_ALIGNMENT_FUDGE 2 120ba8c6fd5SDavid Greenman 121ba8c6fd5SDavid Greenman /* 122ba8c6fd5SDavid Greenman * Inline function to copy a 16-bit aligned 32-bit quantity. 123ba8c6fd5SDavid Greenman */ 124ba8c6fd5SDavid Greenman static __inline void fxp_lwcopy __P((volatile u_int32_t *, 125ba8c6fd5SDavid Greenman volatile u_int32_t *)); 126ba8c6fd5SDavid Greenman static __inline void 127ba8c6fd5SDavid Greenman fxp_lwcopy(src, dst) 128ba8c6fd5SDavid Greenman volatile u_int32_t *src, *dst; 129ba8c6fd5SDavid Greenman { 130aed53495SDavid Greenman #ifdef __i386__ 131aed53495SDavid Greenman *dst = *src; 132aed53495SDavid Greenman #else 133fe08c21aSMatthew Dillon volatile u_int16_t *a = (volatile u_int16_t *)src; 134fe08c21aSMatthew Dillon volatile u_int16_t *b = (volatile u_int16_t *)dst; 135ba8c6fd5SDavid Greenman 136ba8c6fd5SDavid Greenman b[0] = a[0]; 137ba8c6fd5SDavid Greenman b[1] = a[1]; 138aed53495SDavid Greenman #endif 139ba8c6fd5SDavid Greenman } 140a17c678eSDavid Greenman 141a17c678eSDavid Greenman /* 142a17c678eSDavid Greenman * Template for default configuration parameters. 143a17c678eSDavid Greenman * See struct fxp_cb_config for the bit definitions. 144a17c678eSDavid Greenman */ 145a17c678eSDavid Greenman static u_char fxp_cb_config_template[] = { 146a17c678eSDavid Greenman 0x0, 0x0, /* cb_status */ 147a17c678eSDavid Greenman 0x80, 0x2, /* cb_command */ 148a17c678eSDavid Greenman 0xff, 0xff, 0xff, 0xff, /* link_addr */ 149a17c678eSDavid Greenman 0x16, /* 0 */ 150a17c678eSDavid Greenman 0x8, /* 1 */ 151a17c678eSDavid Greenman 0x0, /* 2 */ 152a17c678eSDavid Greenman 0x0, /* 3 */ 153a17c678eSDavid Greenman 0x0, /* 4 */ 154a17c678eSDavid Greenman 0x80, /* 5 */ 155a17c678eSDavid Greenman 0xb2, /* 6 */ 156a17c678eSDavid Greenman 0x3, /* 7 */ 157a17c678eSDavid Greenman 0x1, /* 8 */ 158a17c678eSDavid Greenman 0x0, /* 9 */ 159a17c678eSDavid Greenman 0x26, /* 10 */ 160a17c678eSDavid Greenman 0x0, /* 11 */ 161a17c678eSDavid Greenman 0x60, /* 12 */ 162a17c678eSDavid Greenman 0x0, /* 13 */ 163a17c678eSDavid Greenman 0xf2, /* 14 */ 164a17c678eSDavid Greenman 0x48, /* 15 */ 165a17c678eSDavid Greenman 0x0, /* 16 */ 166a17c678eSDavid Greenman 0x40, /* 17 */ 167a17c678eSDavid Greenman 0xf3, /* 18 */ 168a17c678eSDavid Greenman 0x0, /* 19 */ 169a17c678eSDavid Greenman 0x3f, /* 20 */ 170397f9dfeSDavid Greenman 0x5 /* 21 */ 171a17c678eSDavid Greenman }; 172a17c678eSDavid Greenman 173ba8c6fd5SDavid Greenman /* Supported media types. */ 174ba8c6fd5SDavid Greenman struct fxp_supported_media { 175ba8c6fd5SDavid Greenman const int fsm_phy; /* PHY type */ 176ba8c6fd5SDavid Greenman const int *fsm_media; /* the media array */ 177ba8c6fd5SDavid Greenman const int fsm_nmedia; /* the number of supported media */ 178ba8c6fd5SDavid Greenman const int fsm_defmedia; /* default media for this PHY */ 179ba8c6fd5SDavid Greenman }; 180ba8c6fd5SDavid Greenman 181303b270bSEivind Eklund static const int fxp_media_standard[] = { 182ba8c6fd5SDavid Greenman IFM_ETHER|IFM_10_T, 183ba8c6fd5SDavid Greenman IFM_ETHER|IFM_10_T|IFM_FDX, 184ba8c6fd5SDavid Greenman IFM_ETHER|IFM_100_TX, 185ba8c6fd5SDavid Greenman IFM_ETHER|IFM_100_TX|IFM_FDX, 186ba8c6fd5SDavid Greenman IFM_ETHER|IFM_AUTO, 187ba8c6fd5SDavid Greenman }; 188ba8c6fd5SDavid Greenman #define FXP_MEDIA_STANDARD_DEFMEDIA (IFM_ETHER|IFM_AUTO) 189ba8c6fd5SDavid Greenman 190303b270bSEivind Eklund static const int fxp_media_default[] = { 191ba8c6fd5SDavid Greenman IFM_ETHER|IFM_MANUAL, /* XXX IFM_AUTO ? */ 192ba8c6fd5SDavid Greenman }; 193ba8c6fd5SDavid Greenman #define FXP_MEDIA_DEFAULT_DEFMEDIA (IFM_ETHER|IFM_MANUAL) 194ba8c6fd5SDavid Greenman 195303b270bSEivind Eklund static const struct fxp_supported_media fxp_media[] = { 196ba8c6fd5SDavid Greenman { FXP_PHY_DP83840, fxp_media_standard, 197ba8c6fd5SDavid Greenman sizeof(fxp_media_standard) / sizeof(fxp_media_standard[0]), 198ba8c6fd5SDavid Greenman FXP_MEDIA_STANDARD_DEFMEDIA }, 199ba8c6fd5SDavid Greenman { FXP_PHY_DP83840A, fxp_media_standard, 200ba8c6fd5SDavid Greenman sizeof(fxp_media_standard) / sizeof(fxp_media_standard[0]), 201ba8c6fd5SDavid Greenman FXP_MEDIA_STANDARD_DEFMEDIA }, 20292924291SDavid Greenman { FXP_PHY_82553A, fxp_media_standard, 20392924291SDavid Greenman sizeof(fxp_media_standard) / sizeof(fxp_media_standard[0]), 20492924291SDavid Greenman FXP_MEDIA_STANDARD_DEFMEDIA }, 20592924291SDavid Greenman { FXP_PHY_82553C, fxp_media_standard, 20692924291SDavid Greenman sizeof(fxp_media_standard) / sizeof(fxp_media_standard[0]), 20792924291SDavid Greenman FXP_MEDIA_STANDARD_DEFMEDIA }, 208ba8c6fd5SDavid Greenman { FXP_PHY_82555, fxp_media_standard, 209ba8c6fd5SDavid Greenman sizeof(fxp_media_standard) / sizeof(fxp_media_standard[0]), 210ba8c6fd5SDavid Greenman FXP_MEDIA_STANDARD_DEFMEDIA }, 21192924291SDavid Greenman { FXP_PHY_82555B, fxp_media_standard, 21292924291SDavid Greenman sizeof(fxp_media_standard) / sizeof(fxp_media_standard[0]), 21392924291SDavid Greenman FXP_MEDIA_STANDARD_DEFMEDIA }, 214ba8c6fd5SDavid Greenman { FXP_PHY_80C24, fxp_media_default, 215ba8c6fd5SDavid Greenman sizeof(fxp_media_default) / sizeof(fxp_media_default[0]), 216ba8c6fd5SDavid Greenman FXP_MEDIA_DEFAULT_DEFMEDIA }, 217ba8c6fd5SDavid Greenman }; 218ba8c6fd5SDavid Greenman #define NFXPMEDIA (sizeof(fxp_media) / sizeof(fxp_media[0])) 219ba8c6fd5SDavid Greenman 220ba8c6fd5SDavid Greenman static int fxp_mediachange __P((struct ifnet *)); 221ba8c6fd5SDavid Greenman static void fxp_mediastatus __P((struct ifnet *, struct ifmediareq *)); 222303b270bSEivind Eklund static void fxp_set_media __P((struct fxp_softc *, int)); 223c1087c13SBruce Evans static __inline void fxp_scb_wait __P((struct fxp_softc *)); 2247dced78aSDavid Greenman static __inline void fxp_dma_wait __P((volatile u_int16_t *, struct fxp_softc *sc)); 225ba8c6fd5SDavid Greenman static FXP_INTR_TYPE fxp_intr __P((void *)); 226a17c678eSDavid Greenman static void fxp_start __P((struct ifnet *)); 227ba8c6fd5SDavid Greenman static int fxp_ioctl __P((struct ifnet *, 228ba8c6fd5SDavid Greenman FXP_IOCTLCMD_TYPE, caddr_t)); 229fb583156SDavid Greenman static void fxp_init __P((void *)); 2304a5f1499SDavid Greenman static void fxp_stop __P((struct fxp_softc *)); 2314a5f1499SDavid Greenman static void fxp_watchdog __P((struct ifnet *)); 232a17c678eSDavid Greenman static int fxp_add_rfabuf __P((struct fxp_softc *, struct mbuf *)); 233ba8c6fd5SDavid Greenman static int fxp_mdi_read __P((struct fxp_softc *, int, int)); 234ba8c6fd5SDavid Greenman static void fxp_mdi_write __P((struct fxp_softc *, int, int, int)); 235e9bf2fa7SDavid Greenman static void fxp_autosize_eeprom __P((struct fxp_softc *)); 236ba8c6fd5SDavid Greenman static void fxp_read_eeprom __P((struct fxp_softc *, u_int16_t *, 237ba8c6fd5SDavid Greenman int, int)); 238ba8c6fd5SDavid Greenman static int fxp_attach_common __P((struct fxp_softc *, u_int8_t *)); 239303b270bSEivind Eklund static void fxp_stats_update __P((void *)); 240397f9dfeSDavid Greenman static void fxp_mc_setup __P((struct fxp_softc *)); 241a17c678eSDavid Greenman 242a17c678eSDavid Greenman /* 243f9be9005SDavid Greenman * Set initial transmit threshold at 64 (512 bytes). This is 244f9be9005SDavid Greenman * increased by 64 (512 bytes) at a time, to maximum of 192 245f9be9005SDavid Greenman * (1536 bytes), if an underrun occurs. 246f9be9005SDavid Greenman */ 247f9be9005SDavid Greenman static int tx_threshold = 64; 248f9be9005SDavid Greenman 249f9be9005SDavid Greenman /* 250a17c678eSDavid Greenman * Number of transmit control blocks. This determines the number 251a17c678eSDavid Greenman * of transmit buffers that can be chained in the CB list. 252a17c678eSDavid Greenman * This must be a power of two. 253a17c678eSDavid Greenman */ 2541cd443acSDavid Greenman #define FXP_NTXCB 128 255a17c678eSDavid Greenman 256a17c678eSDavid Greenman /* 2573114fdb4SDavid Greenman * Number of completed TX commands at which point an interrupt 2583114fdb4SDavid Greenman * will be generated to garbage collect the attached buffers. 2593114fdb4SDavid Greenman * Must be at least one less than FXP_NTXCB, and should be 2603114fdb4SDavid Greenman * enough less so that the transmitter doesn't becomes idle 2613114fdb4SDavid Greenman * during the buffer rundown (which would reduce performance). 2623114fdb4SDavid Greenman */ 2633114fdb4SDavid Greenman #define FXP_CXINT_THRESH 120 2643114fdb4SDavid Greenman 2653114fdb4SDavid Greenman /* 266a17c678eSDavid Greenman * TxCB list index mask. This is used to do list wrap-around. 267a17c678eSDavid Greenman */ 268a17c678eSDavid Greenman #define FXP_TXCB_MASK (FXP_NTXCB - 1) 269a17c678eSDavid Greenman 270a17c678eSDavid Greenman /* 271a17c678eSDavid Greenman * Number of receive frame area buffers. These are large so chose 272a17c678eSDavid Greenman * wisely. 273a17c678eSDavid Greenman */ 2746f5818b0SDavid Greenman #define FXP_NRFABUFS 64 275a17c678eSDavid Greenman 276dfe61cf1SDavid Greenman /* 277397f9dfeSDavid Greenman * Maximum number of seconds that the receiver can be idle before we 278397f9dfeSDavid Greenman * assume it's dead and attempt to reset it by reprogramming the 279397f9dfeSDavid Greenman * multicast filter. This is part of a work-around for a bug in the 280397f9dfeSDavid Greenman * NIC. See fxp_stats_update(). 281397f9dfeSDavid Greenman */ 282397f9dfeSDavid Greenman #define FXP_MAX_RX_IDLE 15 283397f9dfeSDavid Greenman 284397f9dfeSDavid Greenman /* 285dfe61cf1SDavid Greenman * Wait for the previous command to be accepted (but not necessarily 286dfe61cf1SDavid Greenman * completed). 287dfe61cf1SDavid Greenman */ 288c1087c13SBruce Evans static __inline void 289ba8c6fd5SDavid Greenman fxp_scb_wait(sc) 290ba8c6fd5SDavid Greenman struct fxp_softc *sc; 291a17c678eSDavid Greenman { 292a17c678eSDavid Greenman int i = 10000; 293a17c678eSDavid Greenman 2947dced78aSDavid Greenman while (CSR_READ_1(sc, FXP_CSR_SCB_COMMAND) && --i) 2957dced78aSDavid Greenman DELAY(2); 2967dced78aSDavid Greenman if (i == 0) 2977dced78aSDavid Greenman printf(FXP_FORMAT ": SCB timeout\n", FXP_ARGS(sc)); 2987dced78aSDavid Greenman } 2997dced78aSDavid Greenman 3007dced78aSDavid Greenman static __inline void 3017dced78aSDavid Greenman fxp_dma_wait(status, sc) 3027dced78aSDavid Greenman volatile u_int16_t *status; 3037dced78aSDavid Greenman struct fxp_softc *sc; 3047dced78aSDavid Greenman { 3057dced78aSDavid Greenman int i = 10000; 3067dced78aSDavid Greenman 3077dced78aSDavid Greenman while (!(*status & FXP_CB_STATUS_C) && --i) 3087dced78aSDavid Greenman DELAY(2); 3097dced78aSDavid Greenman if (i == 0) 3107dced78aSDavid Greenman printf(FXP_FORMAT ": DMA timeout\n", FXP_ARGS(sc)); 311a17c678eSDavid Greenman } 312a17c678eSDavid Greenman 313ba8c6fd5SDavid Greenman /************************************************************* 314ba8c6fd5SDavid Greenman * Operating system-specific autoconfiguration glue 315ba8c6fd5SDavid Greenman *************************************************************/ 316ba8c6fd5SDavid Greenman 317ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 318ba8c6fd5SDavid Greenman 319ba8c6fd5SDavid Greenman #ifdef __BROKEN_INDIRECT_CONFIG 320ba8c6fd5SDavid Greenman static int fxp_match __P((struct device *, void *, void *)); 321ba8c6fd5SDavid Greenman #else 322ba8c6fd5SDavid Greenman static int fxp_match __P((struct device *, struct cfdata *, void *)); 323ba8c6fd5SDavid Greenman #endif 324ba8c6fd5SDavid Greenman static void fxp_attach __P((struct device *, struct device *, void *)); 325ba8c6fd5SDavid Greenman 326ba8c6fd5SDavid Greenman static void fxp_shutdown __P((void *)); 327ba8c6fd5SDavid Greenman 328ba8c6fd5SDavid Greenman /* Compensate for lack of a generic ether_ioctl() */ 329ba8c6fd5SDavid Greenman static int fxp_ether_ioctl __P((struct ifnet *, 330ba8c6fd5SDavid Greenman FXP_IOCTLCMD_TYPE, caddr_t)); 331ba8c6fd5SDavid Greenman #define ether_ioctl fxp_ether_ioctl 332ba8c6fd5SDavid Greenman 333ba8c6fd5SDavid Greenman struct cfattach fxp_ca = { 334ba8c6fd5SDavid Greenman sizeof(struct fxp_softc), fxp_match, fxp_attach 335ba8c6fd5SDavid Greenman }; 336ba8c6fd5SDavid Greenman 337ba8c6fd5SDavid Greenman struct cfdriver fxp_cd = { 338ba8c6fd5SDavid Greenman NULL, "fxp", DV_IFNET 339ba8c6fd5SDavid Greenman }; 340ba8c6fd5SDavid Greenman 341ba8c6fd5SDavid Greenman /* 342ba8c6fd5SDavid Greenman * Check if a device is an 82557. 343ba8c6fd5SDavid Greenman */ 344ba8c6fd5SDavid Greenman static int 345ba8c6fd5SDavid Greenman fxp_match(parent, match, aux) 346ba8c6fd5SDavid Greenman struct device *parent; 347ba8c6fd5SDavid Greenman #ifdef __BROKEN_INDIRECT_CONFIG 348ba8c6fd5SDavid Greenman void *match; 349ba8c6fd5SDavid Greenman #else 350ba8c6fd5SDavid Greenman struct cfdata *match; 351ba8c6fd5SDavid Greenman #endif 352ba8c6fd5SDavid Greenman void *aux; 353ba8c6fd5SDavid Greenman { 354ba8c6fd5SDavid Greenman struct pci_attach_args *pa = aux; 355ba8c6fd5SDavid Greenman 356ba8c6fd5SDavid Greenman if (PCI_VENDOR(pa->pa_id) != PCI_VENDOR_INTEL) 357ba8c6fd5SDavid Greenman return (0); 358ba8c6fd5SDavid Greenman 359ba8c6fd5SDavid Greenman switch (PCI_PRODUCT(pa->pa_id)) { 360ba8c6fd5SDavid Greenman case PCI_PRODUCT_INTEL_82557: 361ba8c6fd5SDavid Greenman return (1); 362ba8c6fd5SDavid Greenman } 363ba8c6fd5SDavid Greenman 364ba8c6fd5SDavid Greenman return (0); 365ba8c6fd5SDavid Greenman } 366ba8c6fd5SDavid Greenman 367ba8c6fd5SDavid Greenman static void 368ba8c6fd5SDavid Greenman fxp_attach(parent, self, aux) 369ba8c6fd5SDavid Greenman struct device *parent, *self; 370ba8c6fd5SDavid Greenman void *aux; 371ba8c6fd5SDavid Greenman { 372ba8c6fd5SDavid Greenman struct fxp_softc *sc = (struct fxp_softc *)self; 373ba8c6fd5SDavid Greenman struct pci_attach_args *pa = aux; 374ba8c6fd5SDavid Greenman pci_chipset_tag_t pc = pa->pa_pc; 375ba8c6fd5SDavid Greenman pci_intr_handle_t ih; 376ba8c6fd5SDavid Greenman const char *intrstr = NULL; 377ba8c6fd5SDavid Greenman u_int8_t enaddr[6]; 378ba8c6fd5SDavid Greenman struct ifnet *ifp; 379ba8c6fd5SDavid Greenman 380ba8c6fd5SDavid Greenman /* 381ba8c6fd5SDavid Greenman * Map control/status registers. 382ba8c6fd5SDavid Greenman */ 383ba8c6fd5SDavid Greenman if (pci_mapreg_map(pa, FXP_PCI_MMBA, PCI_MAPREG_TYPE_MEM, 0, 384ba8c6fd5SDavid Greenman &sc->sc_st, &sc->sc_sh, NULL, NULL)) { 385ba8c6fd5SDavid Greenman printf(": can't map registers\n"); 386ba8c6fd5SDavid Greenman return; 387ba8c6fd5SDavid Greenman } 388ba8c6fd5SDavid Greenman printf(": Intel EtherExpress Pro 10/100B Ethernet\n"); 389ba8c6fd5SDavid Greenman 390ba8c6fd5SDavid Greenman /* 391ba8c6fd5SDavid Greenman * Allocate our interrupt. 392ba8c6fd5SDavid Greenman */ 393ba8c6fd5SDavid Greenman if (pci_intr_map(pc, pa->pa_intrtag, pa->pa_intrpin, 394ba8c6fd5SDavid Greenman pa->pa_intrline, &ih)) { 395ba8c6fd5SDavid Greenman printf("%s: couldn't map interrupt\n", sc->sc_dev.dv_xname); 396ba8c6fd5SDavid Greenman return; 397ba8c6fd5SDavid Greenman } 398ba8c6fd5SDavid Greenman intrstr = pci_intr_string(pc, ih); 399ba8c6fd5SDavid Greenman sc->sc_ih = pci_intr_establish(pc, ih, IPL_NET, fxp_intr, sc); 400ba8c6fd5SDavid Greenman if (sc->sc_ih == NULL) { 401ba8c6fd5SDavid Greenman printf("%s: couldn't establish interrupt", 402ba8c6fd5SDavid Greenman sc->sc_dev.dv_xname); 403ba8c6fd5SDavid Greenman if (intrstr != NULL) 404ba8c6fd5SDavid Greenman printf(" at %s", intrstr); 405ba8c6fd5SDavid Greenman printf("\n"); 406ba8c6fd5SDavid Greenman return; 407ba8c6fd5SDavid Greenman } 408ba8c6fd5SDavid Greenman printf("%s: interrupting at %s\n", sc->sc_dev.dv_xname, intrstr); 409ba8c6fd5SDavid Greenman 410ba8c6fd5SDavid Greenman /* Do generic parts of attach. */ 411ba8c6fd5SDavid Greenman if (fxp_attach_common(sc, enaddr)) { 412ba8c6fd5SDavid Greenman /* Failed! */ 413ba8c6fd5SDavid Greenman return; 414ba8c6fd5SDavid Greenman } 415ba8c6fd5SDavid Greenman 416ba8c6fd5SDavid Greenman printf("%s: Ethernet address %s%s\n", sc->sc_dev.dv_xname, 417ba8c6fd5SDavid Greenman ether_sprintf(enaddr), sc->phy_10Mbps_only ? ", 10Mbps" : ""); 418ba8c6fd5SDavid Greenman 419ba8c6fd5SDavid Greenman ifp = &sc->sc_ethercom.ec_if; 420ba8c6fd5SDavid Greenman bcopy(sc->sc_dev.dv_xname, ifp->if_xname, IFNAMSIZ); 421ba8c6fd5SDavid Greenman ifp->if_softc = sc; 422ba8c6fd5SDavid Greenman ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; 423ba8c6fd5SDavid Greenman ifp->if_ioctl = fxp_ioctl; 424ba8c6fd5SDavid Greenman ifp->if_start = fxp_start; 425ba8c6fd5SDavid Greenman ifp->if_watchdog = fxp_watchdog; 426ba8c6fd5SDavid Greenman 427ba8c6fd5SDavid Greenman /* 428ba8c6fd5SDavid Greenman * Attach the interface. 429ba8c6fd5SDavid Greenman */ 430ba8c6fd5SDavid Greenman if_attach(ifp); 431483b9871SDavid Greenman /* 4323114fdb4SDavid Greenman * Let the system queue as many packets as we have available 4333114fdb4SDavid Greenman * TX descriptors. 434483b9871SDavid Greenman */ 4353114fdb4SDavid Greenman ifp->if_snd.ifq_maxlen = FXP_NTXCB - 1; 436ba8c6fd5SDavid Greenman ether_ifattach(ifp, enaddr); 437ba8c6fd5SDavid Greenman bpfattach(&sc->sc_ethercom.ec_if.if_bpf, ifp, DLT_EN10MB, 438ba8c6fd5SDavid Greenman sizeof(struct ether_header)); 439ba8c6fd5SDavid Greenman 440ba8c6fd5SDavid Greenman /* 441ba8c6fd5SDavid Greenman * Add shutdown hook so that DMA is disabled prior to reboot. Not 442ba8c6fd5SDavid Greenman * doing do could allow DMA to corrupt kernel memory during the 443ba8c6fd5SDavid Greenman * reboot before the driver initializes. 444ba8c6fd5SDavid Greenman */ 445ba8c6fd5SDavid Greenman shutdownhook_establish(fxp_shutdown, sc); 446ba8c6fd5SDavid Greenman } 447ba8c6fd5SDavid Greenman 448ba8c6fd5SDavid Greenman /* 449ba8c6fd5SDavid Greenman * Device shutdown routine. Called at system shutdown after sync. The 450ba8c6fd5SDavid Greenman * main purpose of this routine is to shut off receiver DMA so that 451ba8c6fd5SDavid Greenman * kernel memory doesn't get clobbered during warmboot. 452ba8c6fd5SDavid Greenman */ 453ba8c6fd5SDavid Greenman static void 454ba8c6fd5SDavid Greenman fxp_shutdown(sc) 455ba8c6fd5SDavid Greenman void *sc; 456ba8c6fd5SDavid Greenman { 457ba8c6fd5SDavid Greenman fxp_stop((struct fxp_softc *) sc); 458ba8c6fd5SDavid Greenman } 459ba8c6fd5SDavid Greenman 460ba8c6fd5SDavid Greenman static int 461ba8c6fd5SDavid Greenman fxp_ether_ioctl(ifp, cmd, data) 462ba8c6fd5SDavid Greenman struct ifnet *ifp; 463ba8c6fd5SDavid Greenman FXP_IOCTLCMD_TYPE cmd; 464ba8c6fd5SDavid Greenman caddr_t data; 465ba8c6fd5SDavid Greenman { 466ba8c6fd5SDavid Greenman struct ifaddr *ifa = (struct ifaddr *) data; 467ba8c6fd5SDavid Greenman struct fxp_softc *sc = ifp->if_softc; 468ba8c6fd5SDavid Greenman 469ba8c6fd5SDavid Greenman switch (cmd) { 470ba8c6fd5SDavid Greenman case SIOCSIFADDR: 471ba8c6fd5SDavid Greenman ifp->if_flags |= IFF_UP; 472ba8c6fd5SDavid Greenman 473ba8c6fd5SDavid Greenman switch (ifa->ifa_addr->sa_family) { 474ba8c6fd5SDavid Greenman #ifdef INET 475ba8c6fd5SDavid Greenman case AF_INET: 476ba8c6fd5SDavid Greenman fxp_init(sc); 477ba8c6fd5SDavid Greenman arp_ifinit(ifp, ifa); 478ba8c6fd5SDavid Greenman break; 479ba8c6fd5SDavid Greenman #endif 480ba8c6fd5SDavid Greenman #ifdef NS 481ba8c6fd5SDavid Greenman case AF_NS: 482ba8c6fd5SDavid Greenman { 483ba8c6fd5SDavid Greenman register struct ns_addr *ina = &IA_SNS(ifa)->sns_addr; 484ba8c6fd5SDavid Greenman 485ba8c6fd5SDavid Greenman if (ns_nullhost(*ina)) 486ba8c6fd5SDavid Greenman ina->x_host = *(union ns_host *) 487ba8c6fd5SDavid Greenman LLADDR(ifp->if_sadl); 488ba8c6fd5SDavid Greenman else 489ba8c6fd5SDavid Greenman bcopy(ina->x_host.c_host, LLADDR(ifp->if_sadl), 490ba8c6fd5SDavid Greenman ifp->if_addrlen); 491ba8c6fd5SDavid Greenman /* Set new address. */ 492ba8c6fd5SDavid Greenman fxp_init(sc); 493ba8c6fd5SDavid Greenman break; 494ba8c6fd5SDavid Greenman } 495ba8c6fd5SDavid Greenman #endif 496ba8c6fd5SDavid Greenman default: 497ba8c6fd5SDavid Greenman fxp_init(sc); 498ba8c6fd5SDavid Greenman break; 499ba8c6fd5SDavid Greenman } 500ba8c6fd5SDavid Greenman break; 501ba8c6fd5SDavid Greenman 502ba8c6fd5SDavid Greenman default: 503ba8c6fd5SDavid Greenman return (EINVAL); 504ba8c6fd5SDavid Greenman } 505ba8c6fd5SDavid Greenman 506ba8c6fd5SDavid Greenman return (0); 507ba8c6fd5SDavid Greenman } 508ba8c6fd5SDavid Greenman 509ba8c6fd5SDavid Greenman #else /* __FreeBSD__ */ 510ba8c6fd5SDavid Greenman 511dfe61cf1SDavid Greenman /* 512dfe61cf1SDavid Greenman * Return identification string if this is device is ours. 513dfe61cf1SDavid Greenman */ 5146182fdbdSPeter Wemm static int 5156182fdbdSPeter Wemm fxp_probe(device_t dev) 516a17c678eSDavid Greenman { 51755ce7b51SDavid Greenman if (pci_get_vendor(dev) == FXP_VENDORID_INTEL) { 51855ce7b51SDavid Greenman switch (pci_get_device(dev)) { 51955ce7b51SDavid Greenman 52055ce7b51SDavid Greenman case FXP_DEVICEID_i82557: 52155ce7b51SDavid Greenman device_set_desc(dev, "Intel Pro 10/100B/100+ Ethernet"); 5226182fdbdSPeter Wemm return 0; 52355ce7b51SDavid Greenman case FXP_DEVICEID_i82559: 524dd68ef16SPeter Wemm device_set_desc(dev, "Intel InBusiness 10/100 Ethernet"); 525dd68ef16SPeter Wemm return 0; 52655ce7b51SDavid Greenman case FXP_DEVICEID_i82559ER: 52755ce7b51SDavid Greenman device_set_desc(dev, "Intel Embedded 10/100 Ethernet"); 52855ce7b51SDavid Greenman return 0; 52955ce7b51SDavid Greenman default: 53055ce7b51SDavid Greenman break; 53155ce7b51SDavid Greenman } 532dd68ef16SPeter Wemm } 533a17c678eSDavid Greenman 5346182fdbdSPeter Wemm return ENXIO; 5356182fdbdSPeter Wemm } 5366182fdbdSPeter Wemm 5376182fdbdSPeter Wemm static int 5386182fdbdSPeter Wemm fxp_attach(device_t dev) 539a17c678eSDavid Greenman { 5406182fdbdSPeter Wemm int error = 0; 5416182fdbdSPeter Wemm struct fxp_softc *sc = device_get_softc(dev); 542ba8c6fd5SDavid Greenman struct ifnet *ifp; 5430f4dc94cSChuck Paterson FXP_SPLVAR(s) 544df373873SWes Peters u_long val; 5456182fdbdSPeter Wemm int rid; 546a17c678eSDavid Greenman 5470f4dc94cSChuck Paterson #if !defined(__NetBSD__) 5480f4dc94cSChuck Paterson mtx_init(&sc->sc_mtx, "fxp", MTX_DEF); 5490f4dc94cSChuck Paterson #endif 5506c951b44SJustin T. Gibbs callout_handle_init(&sc->stat_ch); 551a17c678eSDavid Greenman 5520f4dc94cSChuck Paterson FXP_LOCK(sc, s); 553a17c678eSDavid Greenman 554dfe61cf1SDavid Greenman /* 555df373873SWes Peters * Enable bus mastering. 556df373873SWes Peters */ 5576182fdbdSPeter Wemm val = pci_read_config(dev, PCIR_COMMAND, 2); 558df373873SWes Peters val |= (PCIM_CMD_MEMEN|PCIM_CMD_BUSMASTEREN); 5596182fdbdSPeter Wemm pci_write_config(dev, PCIR_COMMAND, val, 2); 560df373873SWes Peters 561df373873SWes Peters /* 562dfe61cf1SDavid Greenman * Map control/status registers. 563dfe61cf1SDavid Greenman */ 5646182fdbdSPeter Wemm rid = FXP_PCI_MMBA; 5656182fdbdSPeter Wemm sc->mem = bus_alloc_resource(dev, SYS_RES_MEMORY, &rid, 5666182fdbdSPeter Wemm 0, ~0, 1, RF_ACTIVE); 5676182fdbdSPeter Wemm if (!sc->mem) { 5686182fdbdSPeter Wemm device_printf(dev, "could not map memory\n"); 5696182fdbdSPeter Wemm error = ENXIO; 570a17c678eSDavid Greenman goto fail; 571a17c678eSDavid Greenman } 5724fc1dda9SAndrew Gallatin 5734fc1dda9SAndrew Gallatin sc->sc_st = rman_get_bustag(sc->mem); 5744fc1dda9SAndrew Gallatin sc->sc_sh = rman_get_bushandle(sc->mem); 575a17c678eSDavid Greenman 576a17c678eSDavid Greenman /* 577dfe61cf1SDavid Greenman * Allocate our interrupt. 578dfe61cf1SDavid Greenman */ 5796182fdbdSPeter Wemm rid = 0; 5806182fdbdSPeter Wemm sc->irq = bus_alloc_resource(dev, SYS_RES_IRQ, &rid, 0, ~0, 1, 5816182fdbdSPeter Wemm RF_SHAREABLE | RF_ACTIVE); 5826182fdbdSPeter Wemm if (sc->irq == NULL) { 5836182fdbdSPeter Wemm device_printf(dev, "could not map interrupt\n"); 5846182fdbdSPeter Wemm error = ENXIO; 5856182fdbdSPeter Wemm goto fail; 5866182fdbdSPeter Wemm } 5876182fdbdSPeter Wemm 588566643e3SDoug Rabson error = bus_setup_intr(dev, sc->irq, INTR_TYPE_NET, 589566643e3SDoug Rabson fxp_intr, sc, &sc->ih); 5906182fdbdSPeter Wemm if (error) { 5916182fdbdSPeter Wemm device_printf(dev, "could not setup irq\n"); 592a17c678eSDavid Greenman goto fail; 593a17c678eSDavid Greenman } 594a17c678eSDavid Greenman 595ba8c6fd5SDavid Greenman /* Do generic parts of attach. */ 596ba8c6fd5SDavid Greenman if (fxp_attach_common(sc, sc->arpcom.ac_enaddr)) { 597ba8c6fd5SDavid Greenman /* Failed! */ 5986182fdbdSPeter Wemm bus_teardown_intr(dev, sc->irq, sc->ih); 5996182fdbdSPeter Wemm bus_release_resource(dev, SYS_RES_IRQ, 0, sc->irq); 6006182fdbdSPeter Wemm bus_release_resource(dev, SYS_RES_MEMORY, FXP_PCI_MMBA, sc->mem); 6016182fdbdSPeter Wemm error = ENXIO; 602ba8c6fd5SDavid Greenman goto fail; 603a17c678eSDavid Greenman } 604a17c678eSDavid Greenman 6056182fdbdSPeter Wemm device_printf(dev, "Ethernet address %6D%s\n", 606ba8c6fd5SDavid Greenman sc->arpcom.ac_enaddr, ":", sc->phy_10Mbps_only ? ", 10Mbps" : ""); 607dccee1a1SDavid Greenman 608a17c678eSDavid Greenman ifp = &sc->arpcom.ac_if; 6096182fdbdSPeter Wemm ifp->if_unit = device_get_unit(dev); 610a17c678eSDavid Greenman ifp->if_name = "fxp"; 611a17c678eSDavid Greenman ifp->if_output = ether_output; 612a330e1f1SGary Palmer ifp->if_baudrate = 100000000; 613fb583156SDavid Greenman ifp->if_init = fxp_init; 614ba8c6fd5SDavid Greenman ifp->if_softc = sc; 615ba8c6fd5SDavid Greenman ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; 616ba8c6fd5SDavid Greenman ifp->if_ioctl = fxp_ioctl; 617ba8c6fd5SDavid Greenman ifp->if_start = fxp_start; 618ba8c6fd5SDavid Greenman ifp->if_watchdog = fxp_watchdog; 619a17c678eSDavid Greenman 620dfe61cf1SDavid Greenman /* 621dfe61cf1SDavid Greenman * Attach the interface. 622dfe61cf1SDavid Greenman */ 62321b8ebd9SArchie Cobbs ether_ifattach(ifp, ETHER_BPF_SUPPORTED); 624483b9871SDavid Greenman /* 6253114fdb4SDavid Greenman * Let the system queue as many packets as we have available 6263114fdb4SDavid Greenman * TX descriptors. 627483b9871SDavid Greenman */ 6283114fdb4SDavid Greenman ifp->if_snd.ifq_maxlen = FXP_NTXCB - 1; 6294a684684SDavid Greenman 6300f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 6316182fdbdSPeter Wemm return 0; 632a17c678eSDavid Greenman 633a17c678eSDavid Greenman fail: 6340f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 6350f4dc94cSChuck Paterson mtx_destroy(&sc->sc_mtx); 6366182fdbdSPeter Wemm return error; 6376182fdbdSPeter Wemm } 6386182fdbdSPeter Wemm 6396182fdbdSPeter Wemm /* 6406182fdbdSPeter Wemm * Detach interface. 6416182fdbdSPeter Wemm */ 6426182fdbdSPeter Wemm static int 6436182fdbdSPeter Wemm fxp_detach(device_t dev) 6446182fdbdSPeter Wemm { 6456182fdbdSPeter Wemm struct fxp_softc *sc = device_get_softc(dev); 6460f4dc94cSChuck Paterson FXP_SPLVAR(s) 6476182fdbdSPeter Wemm 6480f4dc94cSChuck Paterson FXP_LOCK(sc, s); 6496182fdbdSPeter Wemm 6506182fdbdSPeter Wemm /* 6516182fdbdSPeter Wemm * Close down routes etc. 6526182fdbdSPeter Wemm */ 65321b8ebd9SArchie Cobbs ether_ifdetach(&sc->arpcom.ac_if, ETHER_BPF_SUPPORTED); 6546182fdbdSPeter Wemm 6556182fdbdSPeter Wemm /* 6566182fdbdSPeter Wemm * Stop DMA and drop transmit queue. 6576182fdbdSPeter Wemm */ 6586182fdbdSPeter Wemm fxp_stop(sc); 6596182fdbdSPeter Wemm 6606182fdbdSPeter Wemm /* 6616182fdbdSPeter Wemm * Deallocate resources. 6626182fdbdSPeter Wemm */ 6636182fdbdSPeter Wemm bus_teardown_intr(dev, sc->irq, sc->ih); 6646182fdbdSPeter Wemm bus_release_resource(dev, SYS_RES_IRQ, 0, sc->irq); 6656182fdbdSPeter Wemm bus_release_resource(dev, SYS_RES_MEMORY, FXP_PCI_MMBA, sc->mem); 6666182fdbdSPeter Wemm 6676182fdbdSPeter Wemm /* 6686182fdbdSPeter Wemm * Free all the receive buffers. 6696182fdbdSPeter Wemm */ 6706182fdbdSPeter Wemm if (sc->rfa_headm != NULL) 6716182fdbdSPeter Wemm m_freem(sc->rfa_headm); 6726182fdbdSPeter Wemm 6736182fdbdSPeter Wemm /* 6746182fdbdSPeter Wemm * Free all media structures. 6756182fdbdSPeter Wemm */ 6766182fdbdSPeter Wemm ifmedia_removeall(&sc->sc_media); 6776182fdbdSPeter Wemm 6786182fdbdSPeter Wemm /* 6796182fdbdSPeter Wemm * Free anciliary structures. 6806182fdbdSPeter Wemm */ 6816182fdbdSPeter Wemm free(sc->cbl_base, M_DEVBUF); 6826182fdbdSPeter Wemm free(sc->fxp_stats, M_DEVBUF); 6836182fdbdSPeter Wemm free(sc->mcsp, M_DEVBUF); 6846182fdbdSPeter Wemm 6850f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 6866182fdbdSPeter Wemm 6876182fdbdSPeter Wemm return 0; 688a17c678eSDavid Greenman } 689a17c678eSDavid Greenman 690a17c678eSDavid Greenman /* 6914a684684SDavid Greenman * Device shutdown routine. Called at system shutdown after sync. The 692a17c678eSDavid Greenman * main purpose of this routine is to shut off receiver DMA so that 693a17c678eSDavid Greenman * kernel memory doesn't get clobbered during warmboot. 694a17c678eSDavid Greenman */ 6956182fdbdSPeter Wemm static int 6966182fdbdSPeter Wemm fxp_shutdown(device_t dev) 697a17c678eSDavid Greenman { 6986182fdbdSPeter Wemm /* 6996182fdbdSPeter Wemm * Make sure that DMA is disabled prior to reboot. Not doing 7006182fdbdSPeter Wemm * do could allow DMA to corrupt kernel memory during the 7016182fdbdSPeter Wemm * reboot before the driver initializes. 7026182fdbdSPeter Wemm */ 7036182fdbdSPeter Wemm fxp_stop((struct fxp_softc *) device_get_softc(dev)); 7046182fdbdSPeter Wemm return 0; 705a17c678eSDavid Greenman } 706a17c678eSDavid Greenman 7077dced78aSDavid Greenman /* 7087dced78aSDavid Greenman * Device suspend routine. Stop the interface and save some PCI 7097dced78aSDavid Greenman * settings in case the BIOS doesn't restore them properly on 7107dced78aSDavid Greenman * resume. 7117dced78aSDavid Greenman */ 7127dced78aSDavid Greenman static int 7137dced78aSDavid Greenman fxp_suspend(device_t dev) 7147dced78aSDavid Greenman { 7157dced78aSDavid Greenman struct fxp_softc *sc = device_get_softc(dev); 7167dced78aSDavid Greenman int i, s; 7177dced78aSDavid Greenman 7187dced78aSDavid Greenman s = splimp(); 7197dced78aSDavid Greenman 7207dced78aSDavid Greenman fxp_stop(sc); 7217dced78aSDavid Greenman 7227dced78aSDavid Greenman for (i=0; i<5; i++) 7237dced78aSDavid Greenman sc->saved_maps[i] = pci_read_config(dev, PCIR_MAPS + i*4, 4); 7247dced78aSDavid Greenman sc->saved_biosaddr = pci_read_config(dev, PCIR_BIOS, 4); 7257dced78aSDavid Greenman sc->saved_intline = pci_read_config(dev, PCIR_INTLINE, 1); 7267dced78aSDavid Greenman sc->saved_cachelnsz = pci_read_config(dev, PCIR_CACHELNSZ, 1); 7277dced78aSDavid Greenman sc->saved_lattimer = pci_read_config(dev, PCIR_LATTIMER, 1); 7287dced78aSDavid Greenman 7297dced78aSDavid Greenman sc->suspended = 1; 7307dced78aSDavid Greenman 7317dced78aSDavid Greenman splx(s); 7327dced78aSDavid Greenman 7337dced78aSDavid Greenman return 0; 7347dced78aSDavid Greenman } 7357dced78aSDavid Greenman 7367dced78aSDavid Greenman /* 7377dced78aSDavid Greenman * Device resume routine. Restore some PCI settings in case the BIOS 7387dced78aSDavid Greenman * doesn't, re-enable busmastering, and restart the interface if 7397dced78aSDavid Greenman * appropriate. 7407dced78aSDavid Greenman */ 7417dced78aSDavid Greenman static int 7427dced78aSDavid Greenman fxp_resume(device_t dev) 7437dced78aSDavid Greenman { 7447dced78aSDavid Greenman struct fxp_softc *sc = device_get_softc(dev); 7457dced78aSDavid Greenman struct ifnet *ifp = &sc->sc_if; 7467dced78aSDavid Greenman u_int16_t pci_command; 7477dced78aSDavid Greenman int i, s; 7487dced78aSDavid Greenman 7497dced78aSDavid Greenman s = splimp(); 7507dced78aSDavid Greenman 7517dced78aSDavid Greenman /* better way to do this? */ 7527dced78aSDavid Greenman for (i=0; i<5; i++) 7537dced78aSDavid Greenman pci_write_config(dev, PCIR_MAPS + i*4, sc->saved_maps[i], 4); 7547dced78aSDavid Greenman pci_write_config(dev, PCIR_BIOS, sc->saved_biosaddr, 4); 7557dced78aSDavid Greenman pci_write_config(dev, PCIR_INTLINE, sc->saved_intline, 1); 7567dced78aSDavid Greenman pci_write_config(dev, PCIR_CACHELNSZ, sc->saved_cachelnsz, 1); 7577dced78aSDavid Greenman pci_write_config(dev, PCIR_LATTIMER, sc->saved_lattimer, 1); 7587dced78aSDavid Greenman 7597dced78aSDavid Greenman /* reenable busmastering */ 7607dced78aSDavid Greenman pci_command = pci_read_config(dev, PCIR_COMMAND, 2); 7617dced78aSDavid Greenman pci_command |= (PCIM_CMD_MEMEN|PCIM_CMD_BUSMASTEREN); 7627dced78aSDavid Greenman pci_write_config(dev, PCIR_COMMAND, pci_command, 2); 7637dced78aSDavid Greenman 7647dced78aSDavid Greenman CSR_WRITE_4(sc, FXP_CSR_PORT, FXP_PORT_SELECTIVE_RESET); 7657dced78aSDavid Greenman DELAY(10); 7667dced78aSDavid Greenman 7677dced78aSDavid Greenman /* reinitialize interface if necessary */ 7687dced78aSDavid Greenman if (ifp->if_flags & IFF_UP) 7697dced78aSDavid Greenman fxp_init(sc); 7707dced78aSDavid Greenman 7717dced78aSDavid Greenman sc->suspended = 0; 7727dced78aSDavid Greenman 7737dced78aSDavid Greenman splx(s); 7747dced78aSDavid Greenman 7757dced78aSDavid Greenman return 0; 7767dced78aSDavid Greenman } 7777dced78aSDavid Greenman 7786182fdbdSPeter Wemm static device_method_t fxp_methods[] = { 7796182fdbdSPeter Wemm /* Device interface */ 7806182fdbdSPeter Wemm DEVMETHOD(device_probe, fxp_probe), 7816182fdbdSPeter Wemm DEVMETHOD(device_attach, fxp_attach), 7826182fdbdSPeter Wemm DEVMETHOD(device_detach, fxp_detach), 7836182fdbdSPeter Wemm DEVMETHOD(device_shutdown, fxp_shutdown), 7847dced78aSDavid Greenman DEVMETHOD(device_suspend, fxp_suspend), 7857dced78aSDavid Greenman DEVMETHOD(device_resume, fxp_resume), 7866182fdbdSPeter Wemm 7876182fdbdSPeter Wemm { 0, 0 } 7886182fdbdSPeter Wemm }; 7896182fdbdSPeter Wemm 7906182fdbdSPeter Wemm static driver_t fxp_driver = { 7916182fdbdSPeter Wemm "fxp", 7926182fdbdSPeter Wemm fxp_methods, 7936182fdbdSPeter Wemm sizeof(struct fxp_softc), 7946182fdbdSPeter Wemm }; 7956182fdbdSPeter Wemm 7966182fdbdSPeter Wemm static devclass_t fxp_devclass; 7976182fdbdSPeter Wemm 7989e4c647cSBill Paul DRIVER_MODULE(if_fxp, pci, fxp_driver, fxp_devclass, 0, 0); 7996182fdbdSPeter Wemm 800ba8c6fd5SDavid Greenman #endif /* __NetBSD__ */ 801ba8c6fd5SDavid Greenman 802ba8c6fd5SDavid Greenman /************************************************************* 803ba8c6fd5SDavid Greenman * End of operating system-specific autoconfiguration glue 804ba8c6fd5SDavid Greenman *************************************************************/ 805ba8c6fd5SDavid Greenman 806ba8c6fd5SDavid Greenman /* 807ba8c6fd5SDavid Greenman * Do generic parts of attach. 808ba8c6fd5SDavid Greenman */ 809ba8c6fd5SDavid Greenman static int 810ba8c6fd5SDavid Greenman fxp_attach_common(sc, enaddr) 811ba8c6fd5SDavid Greenman struct fxp_softc *sc; 812ba8c6fd5SDavid Greenman u_int8_t *enaddr; 813ba8c6fd5SDavid Greenman { 814ba8c6fd5SDavid Greenman u_int16_t data; 815ba8c6fd5SDavid Greenman int i, nmedia, defmedia; 816ba8c6fd5SDavid Greenman const int *media; 817ba8c6fd5SDavid Greenman 818ba8c6fd5SDavid Greenman /* 819ba8c6fd5SDavid Greenman * Reset to a stable state. 820ba8c6fd5SDavid Greenman */ 821ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_PORT, FXP_PORT_SELECTIVE_RESET); 822ba8c6fd5SDavid Greenman DELAY(10); 823ba8c6fd5SDavid Greenman 824ba8c6fd5SDavid Greenman sc->cbl_base = malloc(sizeof(struct fxp_cb_tx) * FXP_NTXCB, 825ba8c6fd5SDavid Greenman M_DEVBUF, M_NOWAIT); 826ba8c6fd5SDavid Greenman if (sc->cbl_base == NULL) 827ba8c6fd5SDavid Greenman goto fail; 82891aa9f90SDavid Greenman bzero(sc->cbl_base, sizeof(struct fxp_cb_tx) * FXP_NTXCB); 829ba8c6fd5SDavid Greenman 830ba8c6fd5SDavid Greenman sc->fxp_stats = malloc(sizeof(struct fxp_stats), M_DEVBUF, M_NOWAIT); 831ba8c6fd5SDavid Greenman if (sc->fxp_stats == NULL) 832ba8c6fd5SDavid Greenman goto fail; 833ba8c6fd5SDavid Greenman bzero(sc->fxp_stats, sizeof(struct fxp_stats)); 834ba8c6fd5SDavid Greenman 835397f9dfeSDavid Greenman sc->mcsp = malloc(sizeof(struct fxp_cb_mcs), M_DEVBUF, M_NOWAIT); 836397f9dfeSDavid Greenman if (sc->mcsp == NULL) 837397f9dfeSDavid Greenman goto fail; 838397f9dfeSDavid Greenman 839ba8c6fd5SDavid Greenman /* 840ba8c6fd5SDavid Greenman * Pre-allocate our receive buffers. 841ba8c6fd5SDavid Greenman */ 842ba8c6fd5SDavid Greenman for (i = 0; i < FXP_NRFABUFS; i++) { 843ba8c6fd5SDavid Greenman if (fxp_add_rfabuf(sc, NULL) != 0) { 844ba8c6fd5SDavid Greenman goto fail; 845ba8c6fd5SDavid Greenman } 846ba8c6fd5SDavid Greenman } 847ba8c6fd5SDavid Greenman 848ba8c6fd5SDavid Greenman /* 849e9bf2fa7SDavid Greenman * Find out how large of an SEEPROM we have. 850e9bf2fa7SDavid Greenman */ 851e9bf2fa7SDavid Greenman fxp_autosize_eeprom(sc); 852e9bf2fa7SDavid Greenman 853e9bf2fa7SDavid Greenman /* 854ba8c6fd5SDavid Greenman * Get info about the primary PHY 855ba8c6fd5SDavid Greenman */ 856ba8c6fd5SDavid Greenman fxp_read_eeprom(sc, (u_int16_t *)&data, 6, 1); 857ba8c6fd5SDavid Greenman sc->phy_primary_addr = data & 0xff; 858ba8c6fd5SDavid Greenman sc->phy_primary_device = (data >> 8) & 0x3f; 859ba8c6fd5SDavid Greenman sc->phy_10Mbps_only = data >> 15; 860ba8c6fd5SDavid Greenman 861ba8c6fd5SDavid Greenman /* 862ba8c6fd5SDavid Greenman * Read MAC address. 863ba8c6fd5SDavid Greenman */ 864ba8c6fd5SDavid Greenman fxp_read_eeprom(sc, (u_int16_t *)enaddr, 0, 3); 865ba8c6fd5SDavid Greenman 866ba8c6fd5SDavid Greenman /* 867ba8c6fd5SDavid Greenman * Initialize the media structures. 868ba8c6fd5SDavid Greenman */ 869ba8c6fd5SDavid Greenman 870ba8c6fd5SDavid Greenman media = fxp_media_default; 871ba8c6fd5SDavid Greenman nmedia = sizeof(fxp_media_default) / sizeof(fxp_media_default[0]); 872ba8c6fd5SDavid Greenman defmedia = FXP_MEDIA_DEFAULT_DEFMEDIA; 873ba8c6fd5SDavid Greenman 874ba8c6fd5SDavid Greenman for (i = 0; i < NFXPMEDIA; i++) { 875ba8c6fd5SDavid Greenman if (sc->phy_primary_device == fxp_media[i].fsm_phy) { 876ba8c6fd5SDavid Greenman media = fxp_media[i].fsm_media; 877ba8c6fd5SDavid Greenman nmedia = fxp_media[i].fsm_nmedia; 878ba8c6fd5SDavid Greenman defmedia = fxp_media[i].fsm_defmedia; 879ba8c6fd5SDavid Greenman } 880ba8c6fd5SDavid Greenman } 881ba8c6fd5SDavid Greenman 882ba8c6fd5SDavid Greenman ifmedia_init(&sc->sc_media, 0, fxp_mediachange, fxp_mediastatus); 883ba8c6fd5SDavid Greenman for (i = 0; i < nmedia; i++) { 884ba8c6fd5SDavid Greenman if (IFM_SUBTYPE(media[i]) == IFM_100_TX && sc->phy_10Mbps_only) 885ba8c6fd5SDavid Greenman continue; 886ba8c6fd5SDavid Greenman ifmedia_add(&sc->sc_media, media[i], 0, NULL); 887ba8c6fd5SDavid Greenman } 888ba8c6fd5SDavid Greenman ifmedia_set(&sc->sc_media, defmedia); 889ba8c6fd5SDavid Greenman 890ba8c6fd5SDavid Greenman return (0); 891ba8c6fd5SDavid Greenman 892ba8c6fd5SDavid Greenman fail: 893ba8c6fd5SDavid Greenman printf(FXP_FORMAT ": Failed to malloc memory\n", FXP_ARGS(sc)); 894ba8c6fd5SDavid Greenman if (sc->cbl_base) 895ba8c6fd5SDavid Greenman free(sc->cbl_base, M_DEVBUF); 896ba8c6fd5SDavid Greenman if (sc->fxp_stats) 897ba8c6fd5SDavid Greenman free(sc->fxp_stats, M_DEVBUF); 898397f9dfeSDavid Greenman if (sc->mcsp) 899397f9dfeSDavid Greenman free(sc->mcsp, M_DEVBUF); 900ba8c6fd5SDavid Greenman /* frees entire chain */ 901ba8c6fd5SDavid Greenman if (sc->rfa_headm) 902ba8c6fd5SDavid Greenman m_freem(sc->rfa_headm); 903ba8c6fd5SDavid Greenman 904ba8c6fd5SDavid Greenman return (ENOMEM); 905ba8c6fd5SDavid Greenman } 906ba8c6fd5SDavid Greenman 907ba8c6fd5SDavid Greenman /* 908e9bf2fa7SDavid Greenman * From NetBSD: 909e9bf2fa7SDavid Greenman * 910e9bf2fa7SDavid Greenman * Figure out EEPROM size. 911e9bf2fa7SDavid Greenman * 912e9bf2fa7SDavid Greenman * 559's can have either 64-word or 256-word EEPROMs, the 558 913e9bf2fa7SDavid Greenman * datasheet only talks about 64-word EEPROMs, and the 557 datasheet 914e9bf2fa7SDavid Greenman * talks about the existance of 16 to 256 word EEPROMs. 915e9bf2fa7SDavid Greenman * 916e9bf2fa7SDavid Greenman * The only known sizes are 64 and 256, where the 256 version is used 917e9bf2fa7SDavid Greenman * by CardBus cards to store CIS information. 918e9bf2fa7SDavid Greenman * 919e9bf2fa7SDavid Greenman * The address is shifted in msb-to-lsb, and after the last 920e9bf2fa7SDavid Greenman * address-bit the EEPROM is supposed to output a `dummy zero' bit, 921e9bf2fa7SDavid Greenman * after which follows the actual data. We try to detect this zero, by 922e9bf2fa7SDavid Greenman * probing the data-out bit in the EEPROM control register just after 923e9bf2fa7SDavid Greenman * having shifted in a bit. If the bit is zero, we assume we've 924e9bf2fa7SDavid Greenman * shifted enough address bits. The data-out should be tri-state, 925e9bf2fa7SDavid Greenman * before this, which should translate to a logical one. 926e9bf2fa7SDavid Greenman * 927e9bf2fa7SDavid Greenman * Other ways to do this would be to try to read a register with known 928e9bf2fa7SDavid Greenman * contents with a varying number of address bits, but no such 929e9bf2fa7SDavid Greenman * register seem to be available. The high bits of register 10 are 01 930e9bf2fa7SDavid Greenman * on the 558 and 559, but apparently not on the 557. 931e9bf2fa7SDavid Greenman * 932e9bf2fa7SDavid Greenman * The Linux driver computes a checksum on the EEPROM data, but the 933e9bf2fa7SDavid Greenman * value of this checksum is not very well documented. 934e9bf2fa7SDavid Greenman */ 935e9bf2fa7SDavid Greenman static void 936e9bf2fa7SDavid Greenman fxp_autosize_eeprom(sc) 937e9bf2fa7SDavid Greenman struct fxp_softc *sc; 938e9bf2fa7SDavid Greenman { 939e9bf2fa7SDavid Greenman u_int16_t reg; 940e9bf2fa7SDavid Greenman int x; 941e9bf2fa7SDavid Greenman 942e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, FXP_EEPROM_EECS); 943e9bf2fa7SDavid Greenman /* 944e9bf2fa7SDavid Greenman * Shift in read opcode. 945e9bf2fa7SDavid Greenman */ 946e9bf2fa7SDavid Greenman for (x = 3; x > 0; x--) { 947e9bf2fa7SDavid Greenman if (FXP_EEPROM_OPC_READ & (1 << (x - 1))) { 948e9bf2fa7SDavid Greenman reg = FXP_EEPROM_EECS | FXP_EEPROM_EEDI; 949e9bf2fa7SDavid Greenman } else { 950e9bf2fa7SDavid Greenman reg = FXP_EEPROM_EECS; 951e9bf2fa7SDavid Greenman } 952e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 953e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 954e9bf2fa7SDavid Greenman reg | FXP_EEPROM_EESK); 955e9bf2fa7SDavid Greenman DELAY(1); 956e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 957e9bf2fa7SDavid Greenman DELAY(1); 958e9bf2fa7SDavid Greenman } 959e9bf2fa7SDavid Greenman /* 960e9bf2fa7SDavid Greenman * Shift in address. 961e9bf2fa7SDavid Greenman * Wait for the dummy zero following a correct address shift. 962e9bf2fa7SDavid Greenman */ 963e9bf2fa7SDavid Greenman for (x = 1; x <= 8; x++) { 964e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, FXP_EEPROM_EECS); 965e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 966e9bf2fa7SDavid Greenman FXP_EEPROM_EECS | FXP_EEPROM_EESK); 967e9bf2fa7SDavid Greenman DELAY(1); 968e9bf2fa7SDavid Greenman if ((CSR_READ_2(sc, FXP_CSR_EEPROMCONTROL) & FXP_EEPROM_EEDO) == 0) 969e9bf2fa7SDavid Greenman break; 970e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, FXP_EEPROM_EECS); 971e9bf2fa7SDavid Greenman DELAY(1); 972e9bf2fa7SDavid Greenman } 973e9bf2fa7SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 0); 974e9bf2fa7SDavid Greenman DELAY(1); 975e9bf2fa7SDavid Greenman sc->eeprom_size = x; 976e9bf2fa7SDavid Greenman } 977e9bf2fa7SDavid Greenman /* 978ba8c6fd5SDavid Greenman * Read from the serial EEPROM. Basically, you manually shift in 979ba8c6fd5SDavid Greenman * the read opcode (one bit at a time) and then shift in the address, 980ba8c6fd5SDavid Greenman * and then you shift out the data (all of this one bit at a time). 981ba8c6fd5SDavid Greenman * The word size is 16 bits, so you have to provide the address for 982ba8c6fd5SDavid Greenman * every 16 bits of data. 983ba8c6fd5SDavid Greenman */ 984ba8c6fd5SDavid Greenman static void 985ba8c6fd5SDavid Greenman fxp_read_eeprom(sc, data, offset, words) 986ba8c6fd5SDavid Greenman struct fxp_softc *sc; 987ba8c6fd5SDavid Greenman u_short *data; 988ba8c6fd5SDavid Greenman int offset; 989ba8c6fd5SDavid Greenman int words; 990ba8c6fd5SDavid Greenman { 991ba8c6fd5SDavid Greenman u_int16_t reg; 992ba8c6fd5SDavid Greenman int i, x; 993ba8c6fd5SDavid Greenman 994ba8c6fd5SDavid Greenman for (i = 0; i < words; i++) { 995ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, FXP_EEPROM_EECS); 996ba8c6fd5SDavid Greenman /* 997ba8c6fd5SDavid Greenman * Shift in read opcode. 998ba8c6fd5SDavid Greenman */ 999ba8c6fd5SDavid Greenman for (x = 3; x > 0; x--) { 1000ba8c6fd5SDavid Greenman if (FXP_EEPROM_OPC_READ & (1 << (x - 1))) { 1001ba8c6fd5SDavid Greenman reg = FXP_EEPROM_EECS | FXP_EEPROM_EEDI; 1002ba8c6fd5SDavid Greenman } else { 1003ba8c6fd5SDavid Greenman reg = FXP_EEPROM_EECS; 1004ba8c6fd5SDavid Greenman } 1005ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 1006ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 1007ba8c6fd5SDavid Greenman reg | FXP_EEPROM_EESK); 1008ba8c6fd5SDavid Greenman DELAY(1); 1009ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 1010ba8c6fd5SDavid Greenman DELAY(1); 1011ba8c6fd5SDavid Greenman } 1012ba8c6fd5SDavid Greenman /* 1013ba8c6fd5SDavid Greenman * Shift in address. 1014ba8c6fd5SDavid Greenman */ 1015e9bf2fa7SDavid Greenman for (x = sc->eeprom_size; x > 0; x--) { 1016ba8c6fd5SDavid Greenman if ((i + offset) & (1 << (x - 1))) { 1017ba8c6fd5SDavid Greenman reg = FXP_EEPROM_EECS | FXP_EEPROM_EEDI; 1018ba8c6fd5SDavid Greenman } else { 1019ba8c6fd5SDavid Greenman reg = FXP_EEPROM_EECS; 1020ba8c6fd5SDavid Greenman } 1021ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 1022ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 1023ba8c6fd5SDavid Greenman reg | FXP_EEPROM_EESK); 1024ba8c6fd5SDavid Greenman DELAY(1); 1025ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 1026ba8c6fd5SDavid Greenman DELAY(1); 1027ba8c6fd5SDavid Greenman } 1028ba8c6fd5SDavid Greenman reg = FXP_EEPROM_EECS; 1029ba8c6fd5SDavid Greenman data[i] = 0; 1030ba8c6fd5SDavid Greenman /* 1031ba8c6fd5SDavid Greenman * Shift out data. 1032ba8c6fd5SDavid Greenman */ 1033ba8c6fd5SDavid Greenman for (x = 16; x > 0; x--) { 1034ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 1035ba8c6fd5SDavid Greenman reg | FXP_EEPROM_EESK); 1036ba8c6fd5SDavid Greenman DELAY(1); 1037ba8c6fd5SDavid Greenman if (CSR_READ_2(sc, FXP_CSR_EEPROMCONTROL) & 1038ba8c6fd5SDavid Greenman FXP_EEPROM_EEDO) 1039ba8c6fd5SDavid Greenman data[i] |= (1 << (x - 1)); 1040ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, reg); 1041ba8c6fd5SDavid Greenman DELAY(1); 1042ba8c6fd5SDavid Greenman } 1043ba8c6fd5SDavid Greenman CSR_WRITE_2(sc, FXP_CSR_EEPROMCONTROL, 0); 1044ba8c6fd5SDavid Greenman DELAY(1); 1045ba8c6fd5SDavid Greenman } 1046ba8c6fd5SDavid Greenman } 1047ba8c6fd5SDavid Greenman 1048a17c678eSDavid Greenman /* 1049a17c678eSDavid Greenman * Start packet transmission on the interface. 1050a17c678eSDavid Greenman */ 1051a17c678eSDavid Greenman static void 1052a17c678eSDavid Greenman fxp_start(ifp) 1053a17c678eSDavid Greenman struct ifnet *ifp; 1054a17c678eSDavid Greenman { 10559b44ff22SGarrett Wollman struct fxp_softc *sc = ifp->if_softc; 1056a17c678eSDavid Greenman struct fxp_cb_tx *txp; 1057a17c678eSDavid Greenman 10580f4dc94cSChuck Paterson #if !defined(__NetBSD__) 10590f4dc94cSChuck Paterson FXP_LOCK(sc, s); 10600f4dc94cSChuck Paterson #endif 1061a17c678eSDavid Greenman /* 1062483b9871SDavid Greenman * See if we need to suspend xmit until the multicast filter 1063483b9871SDavid Greenman * has been reprogrammed (which can only be done at the head 1064483b9871SDavid Greenman * of the command chain). 1065a17c678eSDavid Greenman */ 10660f4dc94cSChuck Paterson if (sc->need_mcsetup) { 10670f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 1068a17c678eSDavid Greenman return; 10690f4dc94cSChuck Paterson } 10701cd443acSDavid Greenman 1071483b9871SDavid Greenman txp = NULL; 1072483b9871SDavid Greenman 1073483b9871SDavid Greenman /* 1074483b9871SDavid Greenman * We're finished if there is nothing more to add to the list or if 1075483b9871SDavid Greenman * we're all filled up with buffers to transmit. 10763114fdb4SDavid Greenman * NOTE: One TxCB is reserved to guarantee that fxp_mc_setup() can add 10773114fdb4SDavid Greenman * a NOP command when needed. 1078483b9871SDavid Greenman */ 10793114fdb4SDavid Greenman while (ifp->if_snd.ifq_head != NULL && sc->tx_queued < FXP_NTXCB - 1) { 1080483b9871SDavid Greenman struct mbuf *m, *mb_head; 1081483b9871SDavid Greenman int segment; 1082483b9871SDavid Greenman 1083dfe61cf1SDavid Greenman /* 1084dfe61cf1SDavid Greenman * Grab a packet to transmit. 1085dfe61cf1SDavid Greenman */ 10866318197eSDavid Greenman IF_DEQUEUE(&ifp->if_snd, mb_head); 1087a17c678eSDavid Greenman 1088dfe61cf1SDavid Greenman /* 1089483b9871SDavid Greenman * Get pointer to next available tx desc. 1090dfe61cf1SDavid Greenman */ 1091a17c678eSDavid Greenman txp = sc->cbl_last->next; 1092a17c678eSDavid Greenman 1093a17c678eSDavid Greenman /* 1094a17c678eSDavid Greenman * Go through each of the mbufs in the chain and initialize 1095483b9871SDavid Greenman * the transmit buffer descriptors with the physical address 1096a17c678eSDavid Greenman * and size of the mbuf. 1097a17c678eSDavid Greenman */ 109823a0ed7cSDavid Greenman tbdinit: 1099a17c678eSDavid Greenman for (m = mb_head, segment = 0; m != NULL; m = m->m_next) { 1100a17c678eSDavid Greenman if (m->m_len != 0) { 1101a17c678eSDavid Greenman if (segment == FXP_NTXSEG) 1102a17c678eSDavid Greenman break; 1103a17c678eSDavid Greenman txp->tbd[segment].tb_addr = 1104a17c678eSDavid Greenman vtophys(mtod(m, vm_offset_t)); 1105a17c678eSDavid Greenman txp->tbd[segment].tb_size = m->m_len; 1106a17c678eSDavid Greenman segment++; 1107a17c678eSDavid Greenman } 1108a17c678eSDavid Greenman } 1109fb583156SDavid Greenman if (m != NULL) { 111023a0ed7cSDavid Greenman struct mbuf *mn; 111123a0ed7cSDavid Greenman 1112a17c678eSDavid Greenman /* 1113a17c678eSDavid Greenman * We ran out of segments. We have to recopy this mbuf 1114483b9871SDavid Greenman * chain first. Bail out if we can't get the new buffers. 1115a17c678eSDavid Greenman */ 111623a0ed7cSDavid Greenman MGETHDR(mn, M_DONTWAIT, MT_DATA); 111723a0ed7cSDavid Greenman if (mn == NULL) { 111823a0ed7cSDavid Greenman m_freem(mb_head); 1119483b9871SDavid Greenman break; 1120a17c678eSDavid Greenman } 112123a0ed7cSDavid Greenman if (mb_head->m_pkthdr.len > MHLEN) { 112223a0ed7cSDavid Greenman MCLGET(mn, M_DONTWAIT); 112323a0ed7cSDavid Greenman if ((mn->m_flags & M_EXT) == 0) { 112423a0ed7cSDavid Greenman m_freem(mn); 112523a0ed7cSDavid Greenman m_freem(mb_head); 1126483b9871SDavid Greenman break; 112723a0ed7cSDavid Greenman } 112823a0ed7cSDavid Greenman } 1129ba8c6fd5SDavid Greenman m_copydata(mb_head, 0, mb_head->m_pkthdr.len, 1130ba8c6fd5SDavid Greenman mtod(mn, caddr_t)); 113123a0ed7cSDavid Greenman mn->m_pkthdr.len = mn->m_len = mb_head->m_pkthdr.len; 113223a0ed7cSDavid Greenman m_freem(mb_head); 113323a0ed7cSDavid Greenman mb_head = mn; 113423a0ed7cSDavid Greenman goto tbdinit; 113523a0ed7cSDavid Greenman } 113623a0ed7cSDavid Greenman 113723a0ed7cSDavid Greenman txp->tbd_number = segment; 11381cd443acSDavid Greenman txp->mb_head = mb_head; 1139a17c678eSDavid Greenman txp->cb_status = 0; 11403114fdb4SDavid Greenman if (sc->tx_queued != FXP_CXINT_THRESH - 1) { 1141a17c678eSDavid Greenman txp->cb_command = 1142a17c678eSDavid Greenman FXP_CB_COMMAND_XMIT | FXP_CB_COMMAND_SF | FXP_CB_COMMAND_S; 11433114fdb4SDavid Greenman } else { 11443114fdb4SDavid Greenman txp->cb_command = 11453114fdb4SDavid Greenman FXP_CB_COMMAND_XMIT | FXP_CB_COMMAND_SF | FXP_CB_COMMAND_S | FXP_CB_COMMAND_I; 11463114fdb4SDavid Greenman /* 11473114fdb4SDavid Greenman * Set a 5 second timer just in case we don't hear from the 11483114fdb4SDavid Greenman * card again. 11493114fdb4SDavid Greenman */ 11503114fdb4SDavid Greenman ifp->if_timer = 5; 11513114fdb4SDavid Greenman } 1152f9be9005SDavid Greenman txp->tx_threshold = tx_threshold; 1153a17c678eSDavid Greenman 1154a17c678eSDavid Greenman /* 1155483b9871SDavid Greenman * Advance the end of list forward. 1156a17c678eSDavid Greenman */ 115706175228SAndrew Gallatin 115806175228SAndrew Gallatin #ifdef __alpha__ 115906175228SAndrew Gallatin /* 116006175228SAndrew Gallatin * On platforms which can't access memory in 16-bit 116106175228SAndrew Gallatin * granularities, we must prevent the card from DMA'ing 116206175228SAndrew Gallatin * up the status while we update the command field. 116306175228SAndrew Gallatin * This could cause us to overwrite the completion status. 116406175228SAndrew Gallatin */ 116506175228SAndrew Gallatin atomic_clear_short(&sc->cbl_last->cb_command, 116606175228SAndrew Gallatin FXP_CB_COMMAND_S); 116706175228SAndrew Gallatin #else 1168a17c678eSDavid Greenman sc->cbl_last->cb_command &= ~FXP_CB_COMMAND_S; 116906175228SAndrew Gallatin #endif /*__alpha__*/ 1170a17c678eSDavid Greenman sc->cbl_last = txp; 1171a17c678eSDavid Greenman 1172a17c678eSDavid Greenman /* 11731cd443acSDavid Greenman * Advance the beginning of the list forward if there are 11741cd443acSDavid Greenman * no other packets queued (when nothing is queued, cbl_first 1175483b9871SDavid Greenman * sits on the last TxCB that was sent out). 1176a17c678eSDavid Greenman */ 11771cd443acSDavid Greenman if (sc->tx_queued == 0) 1178a17c678eSDavid Greenman sc->cbl_first = txp; 1179a17c678eSDavid Greenman 11801cd443acSDavid Greenman sc->tx_queued++; 11811cd443acSDavid Greenman 1182a17c678eSDavid Greenman /* 1183a17c678eSDavid Greenman * Pass packet to bpf if there is a listener. 1184a17c678eSDavid Greenman */ 1185fb583156SDavid Greenman if (ifp->if_bpf) 1186ba8c6fd5SDavid Greenman bpf_mtap(FXP_BPFTAP_ARG(ifp), mb_head); 1187483b9871SDavid Greenman } 1188483b9871SDavid Greenman 1189483b9871SDavid Greenman /* 1190483b9871SDavid Greenman * We're finished. If we added to the list, issue a RESUME to get DMA 1191483b9871SDavid Greenman * going again if suspended. 1192483b9871SDavid Greenman */ 1193483b9871SDavid Greenman if (txp != NULL) { 1194483b9871SDavid Greenman fxp_scb_wait(sc); 1195483b9871SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_RESUME); 1196483b9871SDavid Greenman } 11970f4dc94cSChuck Paterson #if !defined(__NetBSD__) 11980f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 11990f4dc94cSChuck Paterson #endif 1200a17c678eSDavid Greenman } 1201a17c678eSDavid Greenman 1202a17c678eSDavid Greenman /* 12039c7d2607SDavid Greenman * Process interface interrupts. 1204a17c678eSDavid Greenman */ 1205ba8c6fd5SDavid Greenman static FXP_INTR_TYPE 1206a17c678eSDavid Greenman fxp_intr(arg) 1207a17c678eSDavid Greenman void *arg; 1208a17c678eSDavid Greenman { 1209a17c678eSDavid Greenman struct fxp_softc *sc = arg; 1210ba8c6fd5SDavid Greenman struct ifnet *ifp = &sc->sc_if; 12111cd443acSDavid Greenman u_int8_t statack; 1212ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 1213ba8c6fd5SDavid Greenman int claimed = 0; 12140f4dc94cSChuck Paterson #else 12150f4dc94cSChuck Paterson 12160f4dc94cSChuck Paterson FXP_LOCK(sc, s); 1217ba8c6fd5SDavid Greenman #endif 1218a17c678eSDavid Greenman 12197dced78aSDavid Greenman while (!sc->suspended && (statack = CSR_READ_1(sc, FXP_CSR_SCB_STATACK)) != 0) { 1220ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 1221ba8c6fd5SDavid Greenman claimed = 1; 1222ba8c6fd5SDavid Greenman #endif 1223a17c678eSDavid Greenman /* 1224a17c678eSDavid Greenman * First ACK all the interrupts in this pass. 1225a17c678eSDavid Greenman */ 1226ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_STATACK, statack); 1227a17c678eSDavid Greenman 1228a17c678eSDavid Greenman /* 12293114fdb4SDavid Greenman * Free any finished transmit mbuf chains. 123006936301SBill Paul * 123106936301SBill Paul * Handle the CNA event likt a CXTNO event. It used to 123206936301SBill Paul * be that this event (control unit not ready) was not 123306936301SBill Paul * encountered, but it is now with the SMPng modifications. 123406936301SBill Paul * The exact sequence of events that occur when the interface 123506936301SBill Paul * is brought up are different now, and if this event 123606936301SBill Paul * goes unhandled, the configuration/rxfilter setup sequence 123706936301SBill Paul * can stall for several seconds. The result is that no 123806936301SBill Paul * packets go out onto the wire for about 5 to 10 seconds 123906936301SBill Paul * after the interface is ifconfig'ed for the first time. 12403114fdb4SDavid Greenman */ 124106936301SBill Paul if (statack & (FXP_SCB_STATACK_CXTNO | FXP_SCB_STATACK_CNA)) { 12423114fdb4SDavid Greenman struct fxp_cb_tx *txp; 12433114fdb4SDavid Greenman 12443114fdb4SDavid Greenman for (txp = sc->cbl_first; sc->tx_queued && 12453114fdb4SDavid Greenman (txp->cb_status & FXP_CB_STATUS_C) != 0; 12463114fdb4SDavid Greenman txp = txp->next) { 12473114fdb4SDavid Greenman if (txp->mb_head != NULL) { 12483114fdb4SDavid Greenman m_freem(txp->mb_head); 12493114fdb4SDavid Greenman txp->mb_head = NULL; 12503114fdb4SDavid Greenman } 12513114fdb4SDavid Greenman sc->tx_queued--; 12523114fdb4SDavid Greenman } 12533114fdb4SDavid Greenman sc->cbl_first = txp; 12543114fdb4SDavid Greenman ifp->if_timer = 0; 12553114fdb4SDavid Greenman if (sc->tx_queued == 0) { 12563114fdb4SDavid Greenman if (sc->need_mcsetup) 12573114fdb4SDavid Greenman fxp_mc_setup(sc); 12583114fdb4SDavid Greenman } 12593114fdb4SDavid Greenman /* 12603114fdb4SDavid Greenman * Try to start more packets transmitting. 12613114fdb4SDavid Greenman */ 12623114fdb4SDavid Greenman if (ifp->if_snd.ifq_head != NULL) 12633114fdb4SDavid Greenman fxp_start(ifp); 12643114fdb4SDavid Greenman } 12653114fdb4SDavid Greenman /* 1266a17c678eSDavid Greenman * Process receiver interrupts. If a no-resource (RNR) 1267a17c678eSDavid Greenman * condition exists, get whatever packets we can and 1268a17c678eSDavid Greenman * re-start the receiver. 1269a17c678eSDavid Greenman */ 1270a17c678eSDavid Greenman if (statack & (FXP_SCB_STATACK_FR | FXP_SCB_STATACK_RNR)) { 1271a17c678eSDavid Greenman struct mbuf *m; 1272a17c678eSDavid Greenman struct fxp_rfa *rfa; 1273a17c678eSDavid Greenman rcvloop: 1274a17c678eSDavid Greenman m = sc->rfa_headm; 1275ba8c6fd5SDavid Greenman rfa = (struct fxp_rfa *)(m->m_ext.ext_buf + 1276ba8c6fd5SDavid Greenman RFA_ALIGNMENT_FUDGE); 1277a17c678eSDavid Greenman 1278a17c678eSDavid Greenman if (rfa->rfa_status & FXP_RFA_STATUS_C) { 1279dfe61cf1SDavid Greenman /* 1280dfe61cf1SDavid Greenman * Remove first packet from the chain. 1281dfe61cf1SDavid Greenman */ 1282a17c678eSDavid Greenman sc->rfa_headm = m->m_next; 1283a17c678eSDavid Greenman m->m_next = NULL; 1284a17c678eSDavid Greenman 1285dfe61cf1SDavid Greenman /* 1286ba8c6fd5SDavid Greenman * Add a new buffer to the receive chain. 1287ba8c6fd5SDavid Greenman * If this fails, the old buffer is recycled 1288ba8c6fd5SDavid Greenman * instead. 1289dfe61cf1SDavid Greenman */ 1290a17c678eSDavid Greenman if (fxp_add_rfabuf(sc, m) == 0) { 1291a17c678eSDavid Greenman struct ether_header *eh; 1292aed53495SDavid Greenman int total_len; 1293a17c678eSDavid Greenman 1294ba8c6fd5SDavid Greenman total_len = rfa->actual_size & 1295ba8c6fd5SDavid Greenman (MCLBYTES - 1); 1296ba8c6fd5SDavid Greenman if (total_len < 1297ba8c6fd5SDavid Greenman sizeof(struct ether_header)) { 129806339180SDavid Greenman m_freem(m); 129906339180SDavid Greenman goto rcvloop; 130006339180SDavid Greenman } 1301a17c678eSDavid Greenman m->m_pkthdr.rcvif = ifp; 13022e2de7f2SArchie Cobbs m->m_pkthdr.len = m->m_len = total_len; 1303a17c678eSDavid Greenman eh = mtod(m, struct ether_header *); 1304ba8c6fd5SDavid Greenman m->m_data += 1305ba8c6fd5SDavid Greenman sizeof(struct ether_header); 1306ab090e5bSLuigi Rizzo m->m_len -= 1307ab090e5bSLuigi Rizzo sizeof(struct ether_header); 1308ab090e5bSLuigi Rizzo m->m_pkthdr.len = m->m_len; 1309a17c678eSDavid Greenman ether_input(ifp, eh, m); 1310a17c678eSDavid Greenman } 1311a17c678eSDavid Greenman goto rcvloop; 1312a17c678eSDavid Greenman } 1313a17c678eSDavid Greenman if (statack & FXP_SCB_STATACK_RNR) { 1314ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1315ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_SCB_GENERAL, 1316ba8c6fd5SDavid Greenman vtophys(sc->rfa_headm->m_ext.ext_buf) + 1317ba8c6fd5SDavid Greenman RFA_ALIGNMENT_FUDGE); 1318ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, 1319ba8c6fd5SDavid Greenman FXP_SCB_COMMAND_RU_START); 1320a17c678eSDavid Greenman } 1321a17c678eSDavid Greenman } 1322a17c678eSDavid Greenman } 1323ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 1324ba8c6fd5SDavid Greenman return (claimed); 13250f4dc94cSChuck Paterson #else 13260f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 1327ba8c6fd5SDavid Greenman #endif 1328a17c678eSDavid Greenman } 1329a17c678eSDavid Greenman 1330dfe61cf1SDavid Greenman /* 1331dfe61cf1SDavid Greenman * Update packet in/out/collision statistics. The i82557 doesn't 1332dfe61cf1SDavid Greenman * allow you to access these counters without doing a fairly 1333dfe61cf1SDavid Greenman * expensive DMA to get _all_ of the statistics it maintains, so 1334dfe61cf1SDavid Greenman * we do this operation here only once per second. The statistics 1335dfe61cf1SDavid Greenman * counters in the kernel are updated from the previous dump-stats 1336dfe61cf1SDavid Greenman * DMA and then a new dump-stats DMA is started. The on-chip 1337dfe61cf1SDavid Greenman * counters are zeroed when the DMA completes. If we can't start 1338dfe61cf1SDavid Greenman * the DMA immediately, we don't wait - we just prepare to read 1339dfe61cf1SDavid Greenman * them again next time. 1340dfe61cf1SDavid Greenman */ 1341303b270bSEivind Eklund static void 1342a17c678eSDavid Greenman fxp_stats_update(arg) 1343a17c678eSDavid Greenman void *arg; 1344a17c678eSDavid Greenman { 1345a17c678eSDavid Greenman struct fxp_softc *sc = arg; 1346ba8c6fd5SDavid Greenman struct ifnet *ifp = &sc->sc_if; 1347a17c678eSDavid Greenman struct fxp_stats *sp = sc->fxp_stats; 1348c8cc6fcaSDavid Greenman struct fxp_cb_tx *txp; 13490f4dc94cSChuck Paterson FXP_SPLVAR(s) 1350a17c678eSDavid Greenman 1351a17c678eSDavid Greenman ifp->if_opackets += sp->tx_good; 1352a17c678eSDavid Greenman ifp->if_collisions += sp->tx_total_collisions; 1353397f9dfeSDavid Greenman if (sp->rx_good) { 1354397f9dfeSDavid Greenman ifp->if_ipackets += sp->rx_good; 1355397f9dfeSDavid Greenman sc->rx_idle_secs = 0; 1356397f9dfeSDavid Greenman } else { 1357c8cc6fcaSDavid Greenman /* 1358c8cc6fcaSDavid Greenman * Receiver's been idle for another second. 1359c8cc6fcaSDavid Greenman */ 1360397f9dfeSDavid Greenman sc->rx_idle_secs++; 1361397f9dfeSDavid Greenman } 13623ba65732SDavid Greenman ifp->if_ierrors += 13633ba65732SDavid Greenman sp->rx_crc_errors + 13643ba65732SDavid Greenman sp->rx_alignment_errors + 13653ba65732SDavid Greenman sp->rx_rnr_errors + 13666e39e599SDavid Greenman sp->rx_overrun_errors; 1367a17c678eSDavid Greenman /* 1368f9be9005SDavid Greenman * If any transmit underruns occured, bump up the transmit 1369f9be9005SDavid Greenman * threshold by another 512 bytes (64 * 8). 1370f9be9005SDavid Greenman */ 1371f9be9005SDavid Greenman if (sp->tx_underruns) { 1372f9be9005SDavid Greenman ifp->if_oerrors += sp->tx_underruns; 1373f9be9005SDavid Greenman if (tx_threshold < 192) 1374f9be9005SDavid Greenman tx_threshold += 64; 1375f9be9005SDavid Greenman } 13760f4dc94cSChuck Paterson FXP_LOCK(sc, s); 1377397f9dfeSDavid Greenman /* 1378c8cc6fcaSDavid Greenman * Release any xmit buffers that have completed DMA. This isn't 1379c8cc6fcaSDavid Greenman * strictly necessary to do here, but it's advantagous for mbufs 1380c8cc6fcaSDavid Greenman * with external storage to be released in a timely manner rather 1381c8cc6fcaSDavid Greenman * than being defered for a potentially long time. This limits 1382c8cc6fcaSDavid Greenman * the delay to a maximum of one second. 1383c8cc6fcaSDavid Greenman */ 1384c8cc6fcaSDavid Greenman for (txp = sc->cbl_first; sc->tx_queued && 1385c8cc6fcaSDavid Greenman (txp->cb_status & FXP_CB_STATUS_C) != 0; 1386c8cc6fcaSDavid Greenman txp = txp->next) { 1387c8cc6fcaSDavid Greenman if (txp->mb_head != NULL) { 1388c8cc6fcaSDavid Greenman m_freem(txp->mb_head); 1389c8cc6fcaSDavid Greenman txp->mb_head = NULL; 1390c8cc6fcaSDavid Greenman } 1391c8cc6fcaSDavid Greenman sc->tx_queued--; 1392c8cc6fcaSDavid Greenman } 1393c8cc6fcaSDavid Greenman sc->cbl_first = txp; 1394c8cc6fcaSDavid Greenman /* 1395397f9dfeSDavid Greenman * If we haven't received any packets in FXP_MAC_RX_IDLE seconds, 1396397f9dfeSDavid Greenman * then assume the receiver has locked up and attempt to clear 1397397f9dfeSDavid Greenman * the condition by reprogramming the multicast filter. This is 1398397f9dfeSDavid Greenman * a work-around for a bug in the 82557 where the receiver locks 1399397f9dfeSDavid Greenman * up if it gets certain types of garbage in the syncronization 1400397f9dfeSDavid Greenman * bits prior to the packet header. This bug is supposed to only 1401397f9dfeSDavid Greenman * occur in 10Mbps mode, but has been seen to occur in 100Mbps 1402397f9dfeSDavid Greenman * mode as well (perhaps due to a 10/100 speed transition). 1403397f9dfeSDavid Greenman */ 1404397f9dfeSDavid Greenman if (sc->rx_idle_secs > FXP_MAX_RX_IDLE) { 1405397f9dfeSDavid Greenman sc->rx_idle_secs = 0; 1406397f9dfeSDavid Greenman fxp_mc_setup(sc); 1407397f9dfeSDavid Greenman } 1408f9be9005SDavid Greenman /* 14093ba65732SDavid Greenman * If there is no pending command, start another stats 14103ba65732SDavid Greenman * dump. Otherwise punt for now. 1411a17c678eSDavid Greenman */ 1412397f9dfeSDavid Greenman if (CSR_READ_1(sc, FXP_CSR_SCB_COMMAND) == 0) { 1413a17c678eSDavid Greenman /* 1414397f9dfeSDavid Greenman * Start another stats dump. 1415a17c678eSDavid Greenman */ 1416ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, 1417ba8c6fd5SDavid Greenman FXP_SCB_COMMAND_CU_DUMPRESET); 1418dfe61cf1SDavid Greenman } else { 1419dfe61cf1SDavid Greenman /* 1420dfe61cf1SDavid Greenman * A previous command is still waiting to be accepted. 1421dfe61cf1SDavid Greenman * Just zero our copy of the stats and wait for the 14223ba65732SDavid Greenman * next timer event to update them. 1423dfe61cf1SDavid Greenman */ 1424dfe61cf1SDavid Greenman sp->tx_good = 0; 1425f9be9005SDavid Greenman sp->tx_underruns = 0; 1426dfe61cf1SDavid Greenman sp->tx_total_collisions = 0; 14273ba65732SDavid Greenman 1428dfe61cf1SDavid Greenman sp->rx_good = 0; 14293ba65732SDavid Greenman sp->rx_crc_errors = 0; 14303ba65732SDavid Greenman sp->rx_alignment_errors = 0; 14313ba65732SDavid Greenman sp->rx_rnr_errors = 0; 14323ba65732SDavid Greenman sp->rx_overrun_errors = 0; 1433dfe61cf1SDavid Greenman } 14340f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 1435a17c678eSDavid Greenman /* 1436a17c678eSDavid Greenman * Schedule another timeout one second from now. 1437a17c678eSDavid Greenman */ 1438397f9dfeSDavid Greenman sc->stat_ch = timeout(fxp_stats_update, sc, hz); 1439a17c678eSDavid Greenman } 1440a17c678eSDavid Greenman 1441a17c678eSDavid Greenman /* 1442a17c678eSDavid Greenman * Stop the interface. Cancels the statistics updater and resets 1443a17c678eSDavid Greenman * the interface. 1444a17c678eSDavid Greenman */ 1445a17c678eSDavid Greenman static void 14464a5f1499SDavid Greenman fxp_stop(sc) 14474a5f1499SDavid Greenman struct fxp_softc *sc; 1448a17c678eSDavid Greenman { 1449ba8c6fd5SDavid Greenman struct ifnet *ifp = &sc->sc_if; 14503ba65732SDavid Greenman struct fxp_cb_tx *txp; 14513ba65732SDavid Greenman int i; 1452a17c678eSDavid Greenman 14530f4dc94cSChuck Paterson #if !defined(__NetBSD__) 14540f4dc94cSChuck Paterson FXP_LOCK(sc, s); 14550f4dc94cSChuck Paterson #endif 14560f4dc94cSChuck Paterson 14577dced78aSDavid Greenman ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE); 14587dced78aSDavid Greenman ifp->if_timer = 0; 14597dced78aSDavid Greenman 1460a17c678eSDavid Greenman /* 1461a17c678eSDavid Greenman * Cancel stats updater. 1462a17c678eSDavid Greenman */ 14636c951b44SJustin T. Gibbs untimeout(fxp_stats_update, sc, sc->stat_ch); 14643ba65732SDavid Greenman 14653ba65732SDavid Greenman /* 14663ba65732SDavid Greenman * Issue software reset 14673ba65732SDavid Greenman */ 1468ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_PORT, FXP_PORT_SELECTIVE_RESET); 1469a17c678eSDavid Greenman DELAY(10); 1470a17c678eSDavid Greenman 14713ba65732SDavid Greenman /* 14723ba65732SDavid Greenman * Release any xmit buffers. 14733ba65732SDavid Greenman */ 1474da91462dSDavid Greenman txp = sc->cbl_base; 1475da91462dSDavid Greenman if (txp != NULL) { 1476da91462dSDavid Greenman for (i = 0; i < FXP_NTXCB; i++) { 1477da91462dSDavid Greenman if (txp[i].mb_head != NULL) { 1478da91462dSDavid Greenman m_freem(txp[i].mb_head); 1479da91462dSDavid Greenman txp[i].mb_head = NULL; 1480da91462dSDavid Greenman } 1481da91462dSDavid Greenman } 14823ba65732SDavid Greenman } 14833ba65732SDavid Greenman sc->tx_queued = 0; 14843ba65732SDavid Greenman 14853ba65732SDavid Greenman /* 14863ba65732SDavid Greenman * Free all the receive buffers then reallocate/reinitialize 14873ba65732SDavid Greenman */ 14883ba65732SDavid Greenman if (sc->rfa_headm != NULL) 14893ba65732SDavid Greenman m_freem(sc->rfa_headm); 14903ba65732SDavid Greenman sc->rfa_headm = NULL; 14913ba65732SDavid Greenman sc->rfa_tailm = NULL; 14923ba65732SDavid Greenman for (i = 0; i < FXP_NRFABUFS; i++) { 14933ba65732SDavid Greenman if (fxp_add_rfabuf(sc, NULL) != 0) { 14943ba65732SDavid Greenman /* 14953ba65732SDavid Greenman * This "can't happen" - we're at splimp() 14963ba65732SDavid Greenman * and we just freed all the buffers we need 14973ba65732SDavid Greenman * above. 14983ba65732SDavid Greenman */ 14993ba65732SDavid Greenman panic("fxp_stop: no buffers!"); 15003ba65732SDavid Greenman } 15013ba65732SDavid Greenman } 15023ba65732SDavid Greenman 15030f4dc94cSChuck Paterson #if !defined(__NetBSD__) 15040f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 15050f4dc94cSChuck Paterson #endif 1506a17c678eSDavid Greenman } 1507a17c678eSDavid Greenman 1508a17c678eSDavid Greenman /* 1509a17c678eSDavid Greenman * Watchdog/transmission transmit timeout handler. Called when a 1510a17c678eSDavid Greenman * transmission is started on the interface, but no interrupt is 1511a17c678eSDavid Greenman * received before the timeout. This usually indicates that the 1512a17c678eSDavid Greenman * card has wedged for some reason. 1513a17c678eSDavid Greenman */ 1514a17c678eSDavid Greenman static void 15154a5f1499SDavid Greenman fxp_watchdog(ifp) 15164a5f1499SDavid Greenman struct ifnet *ifp; 1517a17c678eSDavid Greenman { 1518ba8c6fd5SDavid Greenman struct fxp_softc *sc = ifp->if_softc; 1519ba8c6fd5SDavid Greenman 1520397f9dfeSDavid Greenman printf(FXP_FORMAT ": device timeout\n", FXP_ARGS(sc)); 15214a5f1499SDavid Greenman ifp->if_oerrors++; 1522a17c678eSDavid Greenman 1523ba8c6fd5SDavid Greenman fxp_init(sc); 1524a17c678eSDavid Greenman } 1525a17c678eSDavid Greenman 1526a17c678eSDavid Greenman static void 1527fb583156SDavid Greenman fxp_init(xsc) 1528fb583156SDavid Greenman void *xsc; 1529a17c678eSDavid Greenman { 1530fb583156SDavid Greenman struct fxp_softc *sc = xsc; 1531ba8c6fd5SDavid Greenman struct ifnet *ifp = &sc->sc_if; 1532a17c678eSDavid Greenman struct fxp_cb_config *cbp; 1533a17c678eSDavid Greenman struct fxp_cb_ias *cb_ias; 1534a17c678eSDavid Greenman struct fxp_cb_tx *txp; 15350f4dc94cSChuck Paterson int i, prm; 15360f4dc94cSChuck Paterson FXP_SPLVAR(s) 1537a17c678eSDavid Greenman 15380f4dc94cSChuck Paterson FXP_LOCK(sc, s); 1539a17c678eSDavid Greenman /* 15403ba65732SDavid Greenman * Cancel any pending I/O 1541a17c678eSDavid Greenman */ 15423ba65732SDavid Greenman fxp_stop(sc); 1543a17c678eSDavid Greenman 1544a17c678eSDavid Greenman prm = (ifp->if_flags & IFF_PROMISC) ? 1 : 0; 1545a17c678eSDavid Greenman 1546a17c678eSDavid Greenman /* 1547a17c678eSDavid Greenman * Initialize base of CBL and RFA memory. Loading with zero 1548a17c678eSDavid Greenman * sets it up for regular linear addressing. 1549a17c678eSDavid Greenman */ 1550ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_SCB_GENERAL, 0); 1551ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_BASE); 1552a17c678eSDavid Greenman 1553ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1554ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_RU_BASE); 1555a17c678eSDavid Greenman 1556a17c678eSDavid Greenman /* 1557a17c678eSDavid Greenman * Initialize base of dump-stats buffer. 1558a17c678eSDavid Greenman */ 1559ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1560ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_SCB_GENERAL, vtophys(sc->fxp_stats)); 1561ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_DUMP_ADR); 1562a17c678eSDavid Greenman 1563a17c678eSDavid Greenman /* 1564a17c678eSDavid Greenman * We temporarily use memory that contains the TxCB list to 1565a17c678eSDavid Greenman * construct the config CB. The TxCB list memory is rebuilt 1566a17c678eSDavid Greenman * later. 1567a17c678eSDavid Greenman */ 1568a17c678eSDavid Greenman cbp = (struct fxp_cb_config *) sc->cbl_base; 1569a17c678eSDavid Greenman 1570a17c678eSDavid Greenman /* 1571a17c678eSDavid Greenman * This bcopy is kind of disgusting, but there are a bunch of must be 1572a17c678eSDavid Greenman * zero and must be one bits in this structure and this is the easiest 1573a17c678eSDavid Greenman * way to initialize them all to proper values. 1574a17c678eSDavid Greenman */ 1575d244b0e9SPeter Wemm bcopy(fxp_cb_config_template, 1576d244b0e9SPeter Wemm (void *)(uintptr_t)(volatile void *)&cbp->cb_status, 1577397f9dfeSDavid Greenman sizeof(fxp_cb_config_template)); 1578a17c678eSDavid Greenman 1579a17c678eSDavid Greenman cbp->cb_status = 0; 1580a17c678eSDavid Greenman cbp->cb_command = FXP_CB_COMMAND_CONFIG | FXP_CB_COMMAND_EL; 1581a17c678eSDavid Greenman cbp->link_addr = -1; /* (no) next command */ 1582a17c678eSDavid Greenman cbp->byte_count = 22; /* (22) bytes to config */ 1583001696daSDavid Greenman cbp->rx_fifo_limit = 8; /* rx fifo threshold (32 bytes) */ 1584001696daSDavid Greenman cbp->tx_fifo_limit = 0; /* tx fifo threshold (0 bytes) */ 1585a17c678eSDavid Greenman cbp->adaptive_ifs = 0; /* (no) adaptive interframe spacing */ 1586001696daSDavid Greenman cbp->rx_dma_bytecount = 0; /* (no) rx DMA max */ 1587001696daSDavid Greenman cbp->tx_dma_bytecount = 0; /* (no) tx DMA max */ 1588001696daSDavid Greenman cbp->dma_bce = 0; /* (disable) dma max counters */ 1589a17c678eSDavid Greenman cbp->late_scb = 0; /* (don't) defer SCB update */ 1590a17c678eSDavid Greenman cbp->tno_int = 0; /* (disable) tx not okay interrupt */ 15913114fdb4SDavid Greenman cbp->ci_int = 1; /* interrupt on CU idle */ 1592a17c678eSDavid Greenman cbp->save_bf = prm; /* save bad frames */ 1593a17c678eSDavid Greenman cbp->disc_short_rx = !prm; /* discard short packets */ 1594a17c678eSDavid Greenman cbp->underrun_retry = 1; /* retry mode (1) on DMA underrun */ 1595dccee1a1SDavid Greenman cbp->mediatype = !sc->phy_10Mbps_only; /* interface mode */ 1596a17c678eSDavid Greenman cbp->nsai = 1; /* (don't) disable source addr insert */ 1597a17c678eSDavid Greenman cbp->preamble_length = 2; /* (7 byte) preamble */ 1598a17c678eSDavid Greenman cbp->loopback = 0; /* (don't) loopback */ 1599a17c678eSDavid Greenman cbp->linear_priority = 0; /* (normal CSMA/CD operation) */ 1600a17c678eSDavid Greenman cbp->linear_pri_mode = 0; /* (wait after xmit only) */ 1601a17c678eSDavid Greenman cbp->interfrm_spacing = 6; /* (96 bits of) interframe spacing */ 1602a17c678eSDavid Greenman cbp->promiscuous = prm; /* promiscuous mode */ 1603a17c678eSDavid Greenman cbp->bcast_disable = 0; /* (don't) disable broadcasts */ 1604001696daSDavid Greenman cbp->crscdt = 0; /* (CRS only) */ 1605a17c678eSDavid Greenman cbp->stripping = !prm; /* truncate rx packet to byte count */ 1606a17c678eSDavid Greenman cbp->padding = 1; /* (do) pad short tx packets */ 1607a17c678eSDavid Greenman cbp->rcv_crc_xfer = 0; /* (don't) xfer CRC to host */ 1608a17c678eSDavid Greenman cbp->force_fdx = 0; /* (don't) force full duplex */ 16093ba65732SDavid Greenman cbp->fdx_pin_en = 1; /* (enable) FDX# pin */ 1610a17c678eSDavid Greenman cbp->multi_ia = 0; /* (don't) accept multiple IAs */ 1611397f9dfeSDavid Greenman cbp->mc_all = sc->all_mcasts;/* accept all multicasts */ 1612a17c678eSDavid Greenman 1613a17c678eSDavid Greenman /* 1614a17c678eSDavid Greenman * Start the config command/DMA. 1615a17c678eSDavid Greenman */ 1616ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1617397f9dfeSDavid Greenman CSR_WRITE_4(sc, FXP_CSR_SCB_GENERAL, vtophys(&cbp->cb_status)); 1618ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_START); 1619a17c678eSDavid Greenman /* ...and wait for it to complete. */ 16207dced78aSDavid Greenman fxp_dma_wait(&cbp->cb_status, sc); 1621a17c678eSDavid Greenman 1622a17c678eSDavid Greenman /* 1623a17c678eSDavid Greenman * Now initialize the station address. Temporarily use the TxCB 1624a17c678eSDavid Greenman * memory area like we did above for the config CB. 1625a17c678eSDavid Greenman */ 1626a17c678eSDavid Greenman cb_ias = (struct fxp_cb_ias *) sc->cbl_base; 1627a17c678eSDavid Greenman cb_ias->cb_status = 0; 1628a17c678eSDavid Greenman cb_ias->cb_command = FXP_CB_COMMAND_IAS | FXP_CB_COMMAND_EL; 1629a17c678eSDavid Greenman cb_ias->link_addr = -1; 1630ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 1631ba8c6fd5SDavid Greenman bcopy(LLADDR(ifp->if_sadl), (void *)cb_ias->macaddr, 6); 1632ba8c6fd5SDavid Greenman #else 1633d244b0e9SPeter Wemm bcopy(sc->arpcom.ac_enaddr, 1634d244b0e9SPeter Wemm (void *)(uintptr_t)(volatile void *)cb_ias->macaddr, 1635a17c678eSDavid Greenman sizeof(sc->arpcom.ac_enaddr)); 1636ba8c6fd5SDavid Greenman #endif /* __NetBSD__ */ 1637a17c678eSDavid Greenman 1638a17c678eSDavid Greenman /* 1639a17c678eSDavid Greenman * Start the IAS (Individual Address Setup) command/DMA. 1640a17c678eSDavid Greenman */ 1641ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1642ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_START); 1643a17c678eSDavid Greenman /* ...and wait for it to complete. */ 16447dced78aSDavid Greenman fxp_dma_wait(&cb_ias->cb_status, sc); 1645a17c678eSDavid Greenman 1646a17c678eSDavid Greenman /* 1647a17c678eSDavid Greenman * Initialize transmit control block (TxCB) list. 1648a17c678eSDavid Greenman */ 1649a17c678eSDavid Greenman 1650a17c678eSDavid Greenman txp = sc->cbl_base; 1651a17c678eSDavid Greenman bzero(txp, sizeof(struct fxp_cb_tx) * FXP_NTXCB); 1652a17c678eSDavid Greenman for (i = 0; i < FXP_NTXCB; i++) { 1653a17c678eSDavid Greenman txp[i].cb_status = FXP_CB_STATUS_C | FXP_CB_STATUS_OK; 1654a17c678eSDavid Greenman txp[i].cb_command = FXP_CB_COMMAND_NOP; 1655397f9dfeSDavid Greenman txp[i].link_addr = vtophys(&txp[(i + 1) & FXP_TXCB_MASK].cb_status); 1656a17c678eSDavid Greenman txp[i].tbd_array_addr = vtophys(&txp[i].tbd[0]); 1657a17c678eSDavid Greenman txp[i].next = &txp[(i + 1) & FXP_TXCB_MASK]; 1658a17c678eSDavid Greenman } 1659a17c678eSDavid Greenman /* 1660397f9dfeSDavid Greenman * Set the suspend flag on the first TxCB and start the control 1661a17c678eSDavid Greenman * unit. It will execute the NOP and then suspend. 1662a17c678eSDavid Greenman */ 1663a17c678eSDavid Greenman txp->cb_command = FXP_CB_COMMAND_NOP | FXP_CB_COMMAND_S; 1664a17c678eSDavid Greenman sc->cbl_first = sc->cbl_last = txp; 1665397f9dfeSDavid Greenman sc->tx_queued = 1; 1666a17c678eSDavid Greenman 1667ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1668ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_START); 1669a17c678eSDavid Greenman 1670a17c678eSDavid Greenman /* 1671a17c678eSDavid Greenman * Initialize receiver buffer area - RFA. 1672a17c678eSDavid Greenman */ 1673ba8c6fd5SDavid Greenman fxp_scb_wait(sc); 1674ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_SCB_GENERAL, 1675ba8c6fd5SDavid Greenman vtophys(sc->rfa_headm->m_ext.ext_buf) + RFA_ALIGNMENT_FUDGE); 1676ba8c6fd5SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_RU_START); 1677a17c678eSDavid Greenman 1678dccee1a1SDavid Greenman /* 1679ba8c6fd5SDavid Greenman * Set current media. 1680dccee1a1SDavid Greenman */ 1681ba8c6fd5SDavid Greenman fxp_set_media(sc, sc->sc_media.ifm_cur->ifm_media); 1682dccee1a1SDavid Greenman 1683a17c678eSDavid Greenman ifp->if_flags |= IFF_RUNNING; 1684a17c678eSDavid Greenman ifp->if_flags &= ~IFF_OACTIVE; 16850f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 1686a17c678eSDavid Greenman 1687a17c678eSDavid Greenman /* 1688a17c678eSDavid Greenman * Start stats updater. 1689a17c678eSDavid Greenman */ 16906c951b44SJustin T. Gibbs sc->stat_ch = timeout(fxp_stats_update, sc, hz); 1691a17c678eSDavid Greenman } 1692a17c678eSDavid Greenman 1693303b270bSEivind Eklund static void 1694ba8c6fd5SDavid Greenman fxp_set_media(sc, media) 1695ba8c6fd5SDavid Greenman struct fxp_softc *sc; 1696ba8c6fd5SDavid Greenman int media; 1697ba8c6fd5SDavid Greenman { 1698ba8c6fd5SDavid Greenman 1699ba8c6fd5SDavid Greenman switch (sc->phy_primary_device) { 1700ba8c6fd5SDavid Greenman case FXP_PHY_DP83840: 1701ba8c6fd5SDavid Greenman case FXP_PHY_DP83840A: 1702ba8c6fd5SDavid Greenman fxp_mdi_write(sc, sc->phy_primary_addr, FXP_DP83840_PCR, 1703ba8c6fd5SDavid Greenman fxp_mdi_read(sc, sc->phy_primary_addr, FXP_DP83840_PCR) | 1704ba8c6fd5SDavid Greenman FXP_DP83840_PCR_LED4_MODE | /* LED4 always indicates duplex */ 1705ba8c6fd5SDavid Greenman FXP_DP83840_PCR_F_CONNECT | /* force link disconnect bypass */ 1706ba8c6fd5SDavid Greenman FXP_DP83840_PCR_BIT10); /* XXX I have no idea */ 1707ba8c6fd5SDavid Greenman /* fall through */ 170892924291SDavid Greenman case FXP_PHY_82553A: 170992924291SDavid Greenman case FXP_PHY_82553C: /* untested */ 1710ba8c6fd5SDavid Greenman case FXP_PHY_82555: 171192924291SDavid Greenman case FXP_PHY_82555B: 1712ba8c6fd5SDavid Greenman if (IFM_SUBTYPE(media) != IFM_AUTO) { 1713ba8c6fd5SDavid Greenman int flags; 1714ba8c6fd5SDavid Greenman 1715ba8c6fd5SDavid Greenman flags = (IFM_SUBTYPE(media) == IFM_100_TX) ? 1716ba8c6fd5SDavid Greenman FXP_PHY_BMCR_SPEED_100M : 0; 1717ba8c6fd5SDavid Greenman flags |= (media & IFM_FDX) ? 1718ba8c6fd5SDavid Greenman FXP_PHY_BMCR_FULLDUPLEX : 0; 1719ba8c6fd5SDavid Greenman fxp_mdi_write(sc, sc->phy_primary_addr, 1720ba8c6fd5SDavid Greenman FXP_PHY_BMCR, 1721ba8c6fd5SDavid Greenman (fxp_mdi_read(sc, sc->phy_primary_addr, 1722ba8c6fd5SDavid Greenman FXP_PHY_BMCR) & 1723ba8c6fd5SDavid Greenman ~(FXP_PHY_BMCR_AUTOEN | FXP_PHY_BMCR_SPEED_100M | 1724ba8c6fd5SDavid Greenman FXP_PHY_BMCR_FULLDUPLEX)) | flags); 1725ba8c6fd5SDavid Greenman } else { 1726ba8c6fd5SDavid Greenman fxp_mdi_write(sc, sc->phy_primary_addr, 1727ba8c6fd5SDavid Greenman FXP_PHY_BMCR, 1728ba8c6fd5SDavid Greenman (fxp_mdi_read(sc, sc->phy_primary_addr, 1729ba8c6fd5SDavid Greenman FXP_PHY_BMCR) | FXP_PHY_BMCR_AUTOEN)); 1730ba8c6fd5SDavid Greenman } 1731ba8c6fd5SDavid Greenman break; 1732ba8c6fd5SDavid Greenman /* 1733ba8c6fd5SDavid Greenman * The Seeq 80c24 doesn't have a PHY programming interface, so do 1734ba8c6fd5SDavid Greenman * nothing. 1735ba8c6fd5SDavid Greenman */ 1736ba8c6fd5SDavid Greenman case FXP_PHY_80C24: 1737ba8c6fd5SDavid Greenman break; 1738ba8c6fd5SDavid Greenman default: 1739ba8c6fd5SDavid Greenman printf(FXP_FORMAT 1740ba8c6fd5SDavid Greenman ": warning: unsupported PHY, type = %d, addr = %d\n", 1741ba8c6fd5SDavid Greenman FXP_ARGS(sc), sc->phy_primary_device, 1742ba8c6fd5SDavid Greenman sc->phy_primary_addr); 1743ba8c6fd5SDavid Greenman } 1744ba8c6fd5SDavid Greenman } 1745ba8c6fd5SDavid Greenman 1746ba8c6fd5SDavid Greenman /* 1747ba8c6fd5SDavid Greenman * Change media according to request. 1748ba8c6fd5SDavid Greenman */ 1749ba8c6fd5SDavid Greenman int 1750ba8c6fd5SDavid Greenman fxp_mediachange(ifp) 1751ba8c6fd5SDavid Greenman struct ifnet *ifp; 1752ba8c6fd5SDavid Greenman { 1753ba8c6fd5SDavid Greenman struct fxp_softc *sc = ifp->if_softc; 1754ba8c6fd5SDavid Greenman struct ifmedia *ifm = &sc->sc_media; 1755ba8c6fd5SDavid Greenman 1756ba8c6fd5SDavid Greenman if (IFM_TYPE(ifm->ifm_media) != IFM_ETHER) 1757ba8c6fd5SDavid Greenman return (EINVAL); 1758ba8c6fd5SDavid Greenman 1759ba8c6fd5SDavid Greenman fxp_set_media(sc, ifm->ifm_media); 1760ba8c6fd5SDavid Greenman return (0); 1761ba8c6fd5SDavid Greenman } 1762ba8c6fd5SDavid Greenman 1763ba8c6fd5SDavid Greenman /* 1764ba8c6fd5SDavid Greenman * Notify the world which media we're using. 1765ba8c6fd5SDavid Greenman */ 1766ba8c6fd5SDavid Greenman void 1767ba8c6fd5SDavid Greenman fxp_mediastatus(ifp, ifmr) 1768ba8c6fd5SDavid Greenman struct ifnet *ifp; 1769ba8c6fd5SDavid Greenman struct ifmediareq *ifmr; 1770ba8c6fd5SDavid Greenman { 1771ba8c6fd5SDavid Greenman struct fxp_softc *sc = ifp->if_softc; 1772a7280784SJulian Elischer int flags, stsflags; 1773ba8c6fd5SDavid Greenman 1774ba8c6fd5SDavid Greenman switch (sc->phy_primary_device) { 1775ba8c6fd5SDavid Greenman case FXP_PHY_82555: 177635517ab7SDavid Greenman case FXP_PHY_82555B: 1777a7280784SJulian Elischer case FXP_PHY_DP83840: 1778a7280784SJulian Elischer case FXP_PHY_DP83840A: 1779a7280784SJulian Elischer ifmr->ifm_status = IFM_AVALID; /* IFM_ACTIVE will be valid */ 1780ba8c6fd5SDavid Greenman ifmr->ifm_active = IFM_ETHER; 1781a7280784SJulian Elischer /* 1782a7280784SJulian Elischer * the following is not an error. 1783a7280784SJulian Elischer * You need to read this register twice to get current 1784a7280784SJulian Elischer * status. This is correct documented behaviour, the 1785a7280784SJulian Elischer * first read gets latched values. 1786a7280784SJulian Elischer */ 1787a7280784SJulian Elischer stsflags = fxp_mdi_read(sc, sc->phy_primary_addr, FXP_PHY_STS); 1788a7280784SJulian Elischer stsflags = fxp_mdi_read(sc, sc->phy_primary_addr, FXP_PHY_STS); 1789a7280784SJulian Elischer if (stsflags & FXP_PHY_STS_LINK_STS) 1790a7280784SJulian Elischer ifmr->ifm_status |= IFM_ACTIVE; 1791a7280784SJulian Elischer 1792a7280784SJulian Elischer /* 1793a7280784SJulian Elischer * If we are in auto mode, then try report the result. 1794a7280784SJulian Elischer */ 1795a7280784SJulian Elischer flags = fxp_mdi_read(sc, sc->phy_primary_addr, FXP_PHY_BMCR); 1796f1bf08c2SJulian Elischer if (flags & FXP_PHY_BMCR_AUTOEN) { 1797f1bf08c2SJulian Elischer ifmr->ifm_active |= IFM_AUTO; /* XXX presently 0 */ 1798a7280784SJulian Elischer if (stsflags & FXP_PHY_STS_AUTO_DONE) { 1799f1bf08c2SJulian Elischer /* 1800a7280784SJulian Elischer * Intel and National parts report 1801a7280784SJulian Elischer * differently on what they found. 1802f1bf08c2SJulian Elischer */ 1803f1bf08c2SJulian Elischer if ((sc->phy_primary_device == FXP_PHY_82555) 1804f1bf08c2SJulian Elischer || (sc->phy_primary_device == FXP_PHY_82555B)) { 1805f1bf08c2SJulian Elischer flags = fxp_mdi_read(sc, 1806a7280784SJulian Elischer sc->phy_primary_addr, 1807a7280784SJulian Elischer FXP_PHY_USC); 1808f1bf08c2SJulian Elischer 1809f1bf08c2SJulian Elischer if (flags & FXP_PHY_USC_SPEED) 1810f1bf08c2SJulian Elischer ifmr->ifm_active |= IFM_100_TX; 1811f1bf08c2SJulian Elischer else 1812f1bf08c2SJulian Elischer ifmr->ifm_active |= IFM_10_T; 1813f1bf08c2SJulian Elischer 1814f1bf08c2SJulian Elischer if (flags & FXP_PHY_USC_DUPLEX) 1815f1bf08c2SJulian Elischer ifmr->ifm_active |= IFM_FDX; 1816a7280784SJulian Elischer } else { /* it's National. only know speed */ 1817a7280784SJulian Elischer flags = fxp_mdi_read(sc, 1818a7280784SJulian Elischer sc->phy_primary_addr, 1819a7280784SJulian Elischer FXP_DP83840_PAR); 1820a7280784SJulian Elischer 1821a7280784SJulian Elischer if (flags & FXP_DP83840_PAR_SPEED_10) 1822a7280784SJulian Elischer ifmr->ifm_active |= IFM_10_T; 1823a7280784SJulian Elischer else 1824a7280784SJulian Elischer ifmr->ifm_active |= IFM_100_TX; 1825f1bf08c2SJulian Elischer } 1826a7280784SJulian Elischer } 1827a7280784SJulian Elischer } else { /* in manual mode.. just report what we were set to */ 1828ba8c6fd5SDavid Greenman if (flags & FXP_PHY_BMCR_SPEED_100M) 1829ba8c6fd5SDavid Greenman ifmr->ifm_active |= IFM_100_TX; 1830ba8c6fd5SDavid Greenman else 1831ba8c6fd5SDavid Greenman ifmr->ifm_active |= IFM_10_T; 1832ba8c6fd5SDavid Greenman 1833ba8c6fd5SDavid Greenman if (flags & FXP_PHY_BMCR_FULLDUPLEX) 1834ba8c6fd5SDavid Greenman ifmr->ifm_active |= IFM_FDX; 1835ba8c6fd5SDavid Greenman } 1836ba8c6fd5SDavid Greenman break; 1837ba8c6fd5SDavid Greenman 1838ba8c6fd5SDavid Greenman case FXP_PHY_80C24: 1839ba8c6fd5SDavid Greenman default: 1840ba8c6fd5SDavid Greenman ifmr->ifm_active = IFM_ETHER|IFM_MANUAL; /* XXX IFM_AUTO ? */ 1841ba8c6fd5SDavid Greenman } 1842ba8c6fd5SDavid Greenman } 1843ba8c6fd5SDavid Greenman 1844a17c678eSDavid Greenman /* 1845a17c678eSDavid Greenman * Add a buffer to the end of the RFA buffer list. 1846a17c678eSDavid Greenman * Return 0 if successful, 1 for failure. A failure results in 1847a17c678eSDavid Greenman * adding the 'oldm' (if non-NULL) on to the end of the list - 1848dc733423SDag-Erling Smørgrav * tossing out its old contents and recycling it. 1849a17c678eSDavid Greenman * The RFA struct is stuck at the beginning of mbuf cluster and the 1850a17c678eSDavid Greenman * data pointer is fixed up to point just past it. 1851a17c678eSDavid Greenman */ 1852a17c678eSDavid Greenman static int 1853a17c678eSDavid Greenman fxp_add_rfabuf(sc, oldm) 1854a17c678eSDavid Greenman struct fxp_softc *sc; 1855a17c678eSDavid Greenman struct mbuf *oldm; 1856a17c678eSDavid Greenman { 1857ba8c6fd5SDavid Greenman u_int32_t v; 1858a17c678eSDavid Greenman struct mbuf *m; 1859a17c678eSDavid Greenman struct fxp_rfa *rfa, *p_rfa; 1860a17c678eSDavid Greenman 1861a17c678eSDavid Greenman MGETHDR(m, M_DONTWAIT, MT_DATA); 1862a17c678eSDavid Greenman if (m != NULL) { 1863a17c678eSDavid Greenman MCLGET(m, M_DONTWAIT); 1864a17c678eSDavid Greenman if ((m->m_flags & M_EXT) == 0) { 1865a17c678eSDavid Greenman m_freem(m); 1866eadd5e3aSDavid Greenman if (oldm == NULL) 1867eadd5e3aSDavid Greenman return 1; 1868a17c678eSDavid Greenman m = oldm; 1869eadd5e3aSDavid Greenman m->m_data = m->m_ext.ext_buf; 1870a17c678eSDavid Greenman } 1871a17c678eSDavid Greenman } else { 1872eadd5e3aSDavid Greenman if (oldm == NULL) 1873a17c678eSDavid Greenman return 1; 1874eadd5e3aSDavid Greenman m = oldm; 1875eadd5e3aSDavid Greenman m->m_data = m->m_ext.ext_buf; 1876eadd5e3aSDavid Greenman } 1877ba8c6fd5SDavid Greenman 1878ba8c6fd5SDavid Greenman /* 1879ba8c6fd5SDavid Greenman * Move the data pointer up so that the incoming data packet 1880ba8c6fd5SDavid Greenman * will be 32-bit aligned. 1881ba8c6fd5SDavid Greenman */ 1882ba8c6fd5SDavid Greenman m->m_data += RFA_ALIGNMENT_FUDGE; 1883ba8c6fd5SDavid Greenman 1884eadd5e3aSDavid Greenman /* 1885eadd5e3aSDavid Greenman * Get a pointer to the base of the mbuf cluster and move 1886eadd5e3aSDavid Greenman * data start past it. 1887eadd5e3aSDavid Greenman */ 1888a17c678eSDavid Greenman rfa = mtod(m, struct fxp_rfa *); 1889eadd5e3aSDavid Greenman m->m_data += sizeof(struct fxp_rfa); 18904fc1dda9SAndrew Gallatin rfa->size = (u_int16_t)(MCLBYTES - sizeof(struct fxp_rfa) - RFA_ALIGNMENT_FUDGE); 1891eadd5e3aSDavid Greenman 1892ba8c6fd5SDavid Greenman /* 1893ba8c6fd5SDavid Greenman * Initialize the rest of the RFA. Note that since the RFA 1894ba8c6fd5SDavid Greenman * is misaligned, we cannot store values directly. Instead, 1895ba8c6fd5SDavid Greenman * we use an optimized, inline copy. 1896ba8c6fd5SDavid Greenman */ 18974fc1dda9SAndrew Gallatin 1898a17c678eSDavid Greenman rfa->rfa_status = 0; 1899a17c678eSDavid Greenman rfa->rfa_control = FXP_RFA_CONTROL_EL; 1900a17c678eSDavid Greenman rfa->actual_size = 0; 1901ba8c6fd5SDavid Greenman 1902ba8c6fd5SDavid Greenman v = -1; 19034fc1dda9SAndrew Gallatin fxp_lwcopy(&v, (volatile u_int32_t *) rfa->link_addr); 19044fc1dda9SAndrew Gallatin fxp_lwcopy(&v, (volatile u_int32_t *) rfa->rbd_addr); 1905ba8c6fd5SDavid Greenman 1906dfe61cf1SDavid Greenman /* 1907dfe61cf1SDavid Greenman * If there are other buffers already on the list, attach this 1908dfe61cf1SDavid Greenman * one to the end by fixing up the tail to point to this one. 1909dfe61cf1SDavid Greenman */ 1910a17c678eSDavid Greenman if (sc->rfa_headm != NULL) { 1911ba8c6fd5SDavid Greenman p_rfa = (struct fxp_rfa *) (sc->rfa_tailm->m_ext.ext_buf + 1912ba8c6fd5SDavid Greenman RFA_ALIGNMENT_FUDGE); 1913a17c678eSDavid Greenman sc->rfa_tailm->m_next = m; 1914ba8c6fd5SDavid Greenman v = vtophys(rfa); 19154fc1dda9SAndrew Gallatin fxp_lwcopy(&v, (volatile u_int32_t *) p_rfa->link_addr); 1916aed53495SDavid Greenman p_rfa->rfa_control = 0; 1917a17c678eSDavid Greenman } else { 1918a17c678eSDavid Greenman sc->rfa_headm = m; 1919a17c678eSDavid Greenman } 1920a17c678eSDavid Greenman sc->rfa_tailm = m; 1921a17c678eSDavid Greenman 1922dfe61cf1SDavid Greenman return (m == oldm); 1923a17c678eSDavid Greenman } 1924a17c678eSDavid Greenman 19256ebc3153SDavid Greenman static volatile int 1926ba8c6fd5SDavid Greenman fxp_mdi_read(sc, phy, reg) 1927ba8c6fd5SDavid Greenman struct fxp_softc *sc; 1928dccee1a1SDavid Greenman int phy; 1929dccee1a1SDavid Greenman int reg; 1930dccee1a1SDavid Greenman { 1931dccee1a1SDavid Greenman int count = 10000; 19326ebc3153SDavid Greenman int value; 1933dccee1a1SDavid Greenman 1934ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_MDICONTROL, 1935ba8c6fd5SDavid Greenman (FXP_MDI_READ << 26) | (reg << 16) | (phy << 21)); 1936dccee1a1SDavid Greenman 1937ba8c6fd5SDavid Greenman while (((value = CSR_READ_4(sc, FXP_CSR_MDICONTROL)) & 0x10000000) == 0 1938ba8c6fd5SDavid Greenman && count--) 19396ebc3153SDavid Greenman DELAY(10); 1940dccee1a1SDavid Greenman 1941dccee1a1SDavid Greenman if (count <= 0) 1942ba8c6fd5SDavid Greenman printf(FXP_FORMAT ": fxp_mdi_read: timed out\n", 1943ba8c6fd5SDavid Greenman FXP_ARGS(sc)); 1944dccee1a1SDavid Greenman 19456ebc3153SDavid Greenman return (value & 0xffff); 1946dccee1a1SDavid Greenman } 1947dccee1a1SDavid Greenman 1948dccee1a1SDavid Greenman static void 1949ba8c6fd5SDavid Greenman fxp_mdi_write(sc, phy, reg, value) 1950ba8c6fd5SDavid Greenman struct fxp_softc *sc; 1951dccee1a1SDavid Greenman int phy; 1952dccee1a1SDavid Greenman int reg; 1953dccee1a1SDavid Greenman int value; 1954dccee1a1SDavid Greenman { 1955dccee1a1SDavid Greenman int count = 10000; 1956dccee1a1SDavid Greenman 1957ba8c6fd5SDavid Greenman CSR_WRITE_4(sc, FXP_CSR_MDICONTROL, 1958ba8c6fd5SDavid Greenman (FXP_MDI_WRITE << 26) | (reg << 16) | (phy << 21) | 1959ba8c6fd5SDavid Greenman (value & 0xffff)); 1960dccee1a1SDavid Greenman 1961ba8c6fd5SDavid Greenman while((CSR_READ_4(sc, FXP_CSR_MDICONTROL) & 0x10000000) == 0 && 1962ba8c6fd5SDavid Greenman count--) 19636ebc3153SDavid Greenman DELAY(10); 1964dccee1a1SDavid Greenman 1965dccee1a1SDavid Greenman if (count <= 0) 1966ba8c6fd5SDavid Greenman printf(FXP_FORMAT ": fxp_mdi_write: timed out\n", 1967ba8c6fd5SDavid Greenman FXP_ARGS(sc)); 1968dccee1a1SDavid Greenman } 1969dccee1a1SDavid Greenman 1970dccee1a1SDavid Greenman static int 1971a17c678eSDavid Greenman fxp_ioctl(ifp, command, data) 1972a17c678eSDavid Greenman struct ifnet *ifp; 1973ba8c6fd5SDavid Greenman FXP_IOCTLCMD_TYPE command; 1974a17c678eSDavid Greenman caddr_t data; 1975a17c678eSDavid Greenman { 19769b44ff22SGarrett Wollman struct fxp_softc *sc = ifp->if_softc; 1977a17c678eSDavid Greenman struct ifreq *ifr = (struct ifreq *)data; 19780f4dc94cSChuck Paterson FXP_SPLVAR(s) 19790f4dc94cSChuck Paterson int error = 0; 1980a17c678eSDavid Greenman 19810f4dc94cSChuck Paterson FXP_LOCK(sc, s); 1982a17c678eSDavid Greenman 1983a17c678eSDavid Greenman switch (command) { 1984a17c678eSDavid Greenman 1985a17c678eSDavid Greenman case SIOCSIFADDR: 1986ba8c6fd5SDavid Greenman #if !defined(__NetBSD__) 1987a17c678eSDavid Greenman case SIOCGIFADDR: 1988fb583156SDavid Greenman case SIOCSIFMTU: 1989ba8c6fd5SDavid Greenman #endif 1990fb583156SDavid Greenman error = ether_ioctl(ifp, command, data); 1991a17c678eSDavid Greenman break; 1992a17c678eSDavid Greenman 1993a17c678eSDavid Greenman case SIOCSIFFLAGS: 1994397f9dfeSDavid Greenman sc->all_mcasts = (ifp->if_flags & IFF_ALLMULTI) ? 1 : 0; 1995a17c678eSDavid Greenman 1996a17c678eSDavid Greenman /* 1997a17c678eSDavid Greenman * If interface is marked up and not running, then start it. 1998a17c678eSDavid Greenman * If it is marked down and running, stop it. 1999a17c678eSDavid Greenman * XXX If it's up then re-initialize it. This is so flags 2000a17c678eSDavid Greenman * such as IFF_PROMISC are handled. 2001a17c678eSDavid Greenman */ 2002a17c678eSDavid Greenman if (ifp->if_flags & IFF_UP) { 2003fb583156SDavid Greenman fxp_init(sc); 2004a17c678eSDavid Greenman } else { 2005a17c678eSDavid Greenman if (ifp->if_flags & IFF_RUNNING) 20064a5f1499SDavid Greenman fxp_stop(sc); 2007a17c678eSDavid Greenman } 2008a17c678eSDavid Greenman break; 2009a17c678eSDavid Greenman 2010a17c678eSDavid Greenman case SIOCADDMULTI: 2011a17c678eSDavid Greenman case SIOCDELMULTI: 2012397f9dfeSDavid Greenman sc->all_mcasts = (ifp->if_flags & IFF_ALLMULTI) ? 1 : 0; 2013ba8c6fd5SDavid Greenman #if defined(__NetBSD__) 2014ba8c6fd5SDavid Greenman error = (command == SIOCADDMULTI) ? 2015ba8c6fd5SDavid Greenman ether_addmulti(ifr, &sc->sc_ethercom) : 2016ba8c6fd5SDavid Greenman ether_delmulti(ifr, &sc->sc_ethercom); 2017ba8c6fd5SDavid Greenman 2018ba8c6fd5SDavid Greenman if (error == ENETRESET) { 2019ba8c6fd5SDavid Greenman /* 2020ba8c6fd5SDavid Greenman * Multicast list has changed; set the hardware 2021ba8c6fd5SDavid Greenman * filter accordingly. 2022ba8c6fd5SDavid Greenman */ 2023397f9dfeSDavid Greenman if (!sc->all_mcasts) 2024397f9dfeSDavid Greenman fxp_mc_setup(sc); 2025397f9dfeSDavid Greenman /* 2026397f9dfeSDavid Greenman * fxp_mc_setup() can turn on all_mcasts if we run 2027397f9dfeSDavid Greenman * out of space, so check it again rather than else {}. 2028397f9dfeSDavid Greenman */ 2029397f9dfeSDavid Greenman if (sc->all_mcasts) 2030ba8c6fd5SDavid Greenman fxp_init(sc); 2031ba8c6fd5SDavid Greenman error = 0; 2032ba8c6fd5SDavid Greenman } 2033ba8c6fd5SDavid Greenman #else /* __FreeBSD__ */ 2034a17c678eSDavid Greenman /* 2035a17c678eSDavid Greenman * Multicast list has changed; set the hardware filter 2036a17c678eSDavid Greenman * accordingly. 2037a17c678eSDavid Greenman */ 2038397f9dfeSDavid Greenman if (!sc->all_mcasts) 2039397f9dfeSDavid Greenman fxp_mc_setup(sc); 2040397f9dfeSDavid Greenman /* 2041397f9dfeSDavid Greenman * fxp_mc_setup() can turn on sc->all_mcasts, so check it 2042397f9dfeSDavid Greenman * again rather than else {}. 2043397f9dfeSDavid Greenman */ 2044397f9dfeSDavid Greenman if (sc->all_mcasts) 2045fb583156SDavid Greenman fxp_init(sc); 2046a17c678eSDavid Greenman error = 0; 2047ba8c6fd5SDavid Greenman #endif /* __NetBSD__ */ 2048ba8c6fd5SDavid Greenman break; 2049ba8c6fd5SDavid Greenman 2050ba8c6fd5SDavid Greenman case SIOCSIFMEDIA: 2051ba8c6fd5SDavid Greenman case SIOCGIFMEDIA: 2052ba8c6fd5SDavid Greenman error = ifmedia_ioctl(ifp, ifr, &sc->sc_media, command); 2053a17c678eSDavid Greenman break; 2054a17c678eSDavid Greenman 2055a17c678eSDavid Greenman default: 2056a17c678eSDavid Greenman error = EINVAL; 2057a17c678eSDavid Greenman } 20580f4dc94cSChuck Paterson FXP_UNLOCK(sc, s); 2059a17c678eSDavid Greenman return (error); 2060a17c678eSDavid Greenman } 2061397f9dfeSDavid Greenman 2062397f9dfeSDavid Greenman /* 2063397f9dfeSDavid Greenman * Program the multicast filter. 2064397f9dfeSDavid Greenman * 2065397f9dfeSDavid Greenman * We have an artificial restriction that the multicast setup command 2066397f9dfeSDavid Greenman * must be the first command in the chain, so we take steps to ensure 20673114fdb4SDavid Greenman * this. By requiring this, it allows us to keep up the performance of 2068397f9dfeSDavid Greenman * the pre-initialized command ring (esp. link pointers) by not actually 2069dc733423SDag-Erling Smørgrav * inserting the mcsetup command in the ring - i.e. its link pointer 2070397f9dfeSDavid Greenman * points to the TxCB ring, but the mcsetup descriptor itself is not part 2071397f9dfeSDavid Greenman * of it. We then can do 'CU_START' on the mcsetup descriptor and have it 2072397f9dfeSDavid Greenman * lead into the regular TxCB ring when it completes. 2073397f9dfeSDavid Greenman * 2074397f9dfeSDavid Greenman * This function must be called at splimp. 2075397f9dfeSDavid Greenman */ 2076397f9dfeSDavid Greenman static void 2077397f9dfeSDavid Greenman fxp_mc_setup(sc) 2078397f9dfeSDavid Greenman struct fxp_softc *sc; 2079397f9dfeSDavid Greenman { 2080397f9dfeSDavid Greenman struct fxp_cb_mcs *mcsp = sc->mcsp; 2081397f9dfeSDavid Greenman struct ifnet *ifp = &sc->sc_if; 2082397f9dfeSDavid Greenman struct ifmultiaddr *ifma; 2083397f9dfeSDavid Greenman int nmcasts; 20847dced78aSDavid Greenman int count; 2085397f9dfeSDavid Greenman 20863114fdb4SDavid Greenman /* 20873114fdb4SDavid Greenman * If there are queued commands, we must wait until they are all 20883114fdb4SDavid Greenman * completed. If we are already waiting, then add a NOP command 20893114fdb4SDavid Greenman * with interrupt option so that we're notified when all commands 20903114fdb4SDavid Greenman * have been completed - fxp_start() ensures that no additional 20913114fdb4SDavid Greenman * TX commands will be added when need_mcsetup is true. 20923114fdb4SDavid Greenman */ 2093397f9dfeSDavid Greenman if (sc->tx_queued) { 20943114fdb4SDavid Greenman struct fxp_cb_tx *txp; 20953114fdb4SDavid Greenman 20963114fdb4SDavid Greenman /* 20973114fdb4SDavid Greenman * need_mcsetup will be true if we are already waiting for the 20983114fdb4SDavid Greenman * NOP command to be completed (see below). In this case, bail. 20993114fdb4SDavid Greenman */ 21003114fdb4SDavid Greenman if (sc->need_mcsetup) 21013114fdb4SDavid Greenman return; 2102397f9dfeSDavid Greenman sc->need_mcsetup = 1; 21033114fdb4SDavid Greenman 21043114fdb4SDavid Greenman /* 21053114fdb4SDavid Greenman * Add a NOP command with interrupt so that we are notified when all 21063114fdb4SDavid Greenman * TX commands have been processed. 21073114fdb4SDavid Greenman */ 21083114fdb4SDavid Greenman txp = sc->cbl_last->next; 21093114fdb4SDavid Greenman txp->mb_head = NULL; 21103114fdb4SDavid Greenman txp->cb_status = 0; 21113114fdb4SDavid Greenman txp->cb_command = FXP_CB_COMMAND_NOP | FXP_CB_COMMAND_S | FXP_CB_COMMAND_I; 21123114fdb4SDavid Greenman /* 21133114fdb4SDavid Greenman * Advance the end of list forward. 21143114fdb4SDavid Greenman */ 21153114fdb4SDavid Greenman sc->cbl_last->cb_command &= ~FXP_CB_COMMAND_S; 21163114fdb4SDavid Greenman sc->cbl_last = txp; 21173114fdb4SDavid Greenman sc->tx_queued++; 21183114fdb4SDavid Greenman /* 21193114fdb4SDavid Greenman * Issue a resume in case the CU has just suspended. 21203114fdb4SDavid Greenman */ 21213114fdb4SDavid Greenman fxp_scb_wait(sc); 21223114fdb4SDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_RESUME); 21233114fdb4SDavid Greenman /* 21243114fdb4SDavid Greenman * Set a 5 second timer just in case we don't hear from the 21253114fdb4SDavid Greenman * card again. 21263114fdb4SDavid Greenman */ 21273114fdb4SDavid Greenman ifp->if_timer = 5; 21283114fdb4SDavid Greenman 2129397f9dfeSDavid Greenman return; 2130397f9dfeSDavid Greenman } 2131397f9dfeSDavid Greenman sc->need_mcsetup = 0; 2132397f9dfeSDavid Greenman 2133397f9dfeSDavid Greenman /* 2134397f9dfeSDavid Greenman * Initialize multicast setup descriptor. 2135397f9dfeSDavid Greenman */ 2136397f9dfeSDavid Greenman mcsp->next = sc->cbl_base; 2137397f9dfeSDavid Greenman mcsp->mb_head = NULL; 2138397f9dfeSDavid Greenman mcsp->cb_status = 0; 21393114fdb4SDavid Greenman mcsp->cb_command = FXP_CB_COMMAND_MCAS | FXP_CB_COMMAND_S | FXP_CB_COMMAND_I; 2140397f9dfeSDavid Greenman mcsp->link_addr = vtophys(&sc->cbl_base->cb_status); 2141397f9dfeSDavid Greenman 2142397f9dfeSDavid Greenman nmcasts = 0; 2143397f9dfeSDavid Greenman if (!sc->all_mcasts) { 2144397f9dfeSDavid Greenman for (ifma = ifp->if_multiaddrs.lh_first; ifma != NULL; 2145397f9dfeSDavid Greenman ifma = ifma->ifma_link.le_next) { 2146397f9dfeSDavid Greenman if (ifma->ifma_addr->sa_family != AF_LINK) 2147397f9dfeSDavid Greenman continue; 2148397f9dfeSDavid Greenman if (nmcasts >= MAXMCADDR) { 2149397f9dfeSDavid Greenman sc->all_mcasts = 1; 2150397f9dfeSDavid Greenman nmcasts = 0; 2151397f9dfeSDavid Greenman break; 2152397f9dfeSDavid Greenman } 2153397f9dfeSDavid Greenman bcopy(LLADDR((struct sockaddr_dl *)ifma->ifma_addr), 2154d244b0e9SPeter Wemm (void *)(uintptr_t)(volatile void *) 2155d244b0e9SPeter Wemm &sc->mcsp->mc_addr[nmcasts][0], 6); 2156397f9dfeSDavid Greenman nmcasts++; 2157397f9dfeSDavid Greenman } 2158397f9dfeSDavid Greenman } 2159397f9dfeSDavid Greenman mcsp->mc_cnt = nmcasts * 6; 2160397f9dfeSDavid Greenman sc->cbl_first = sc->cbl_last = (struct fxp_cb_tx *) mcsp; 2161397f9dfeSDavid Greenman sc->tx_queued = 1; 2162397f9dfeSDavid Greenman 2163397f9dfeSDavid Greenman /* 2164397f9dfeSDavid Greenman * Wait until command unit is not active. This should never 2165397f9dfeSDavid Greenman * be the case when nothing is queued, but make sure anyway. 2166397f9dfeSDavid Greenman */ 21677dced78aSDavid Greenman count = 100; 2168397f9dfeSDavid Greenman while ((CSR_READ_1(sc, FXP_CSR_SCB_RUSCUS) >> 6) == 21697dced78aSDavid Greenman FXP_SCB_CUS_ACTIVE && --count) 21707dced78aSDavid Greenman DELAY(10); 21717dced78aSDavid Greenman if (count == 0) { 21727dced78aSDavid Greenman printf(FXP_FORMAT ": command queue timeout\n", FXP_ARGS(sc)); 21737dced78aSDavid Greenman return; 21747dced78aSDavid Greenman } 2175397f9dfeSDavid Greenman 2176397f9dfeSDavid Greenman /* 2177397f9dfeSDavid Greenman * Start the multicast setup command. 2178397f9dfeSDavid Greenman */ 2179397f9dfeSDavid Greenman fxp_scb_wait(sc); 2180397f9dfeSDavid Greenman CSR_WRITE_4(sc, FXP_CSR_SCB_GENERAL, vtophys(&mcsp->cb_status)); 2181397f9dfeSDavid Greenman CSR_WRITE_1(sc, FXP_CSR_SCB_COMMAND, FXP_SCB_COMMAND_CU_START); 2182397f9dfeSDavid Greenman 21833114fdb4SDavid Greenman ifp->if_timer = 2; 2184397f9dfeSDavid Greenman return; 2185397f9dfeSDavid Greenman } 2186