if_tl.c revision 1.39.2.6
1 1.39.2.6 nathanw /* $NetBSD: if_tl.c,v 1.39.2.6 2002/06/20 03:45:30 nathanw Exp $ */ 2 1.1 bouyer 3 1.1 bouyer /* 4 1.1 bouyer * Copyright (c) 1997 Manuel Bouyer. All rights reserved. 5 1.1 bouyer * 6 1.1 bouyer * Redistribution and use in source and binary forms, with or without 7 1.1 bouyer * modification, are permitted provided that the following conditions 8 1.1 bouyer * are met: 9 1.1 bouyer * 1. Redistributions of source code must retain the above copyright 10 1.1 bouyer * notice, this list of conditions and the following disclaimer. 11 1.1 bouyer * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 bouyer * notice, this list of conditions and the following disclaimer in the 13 1.1 bouyer * documentation and/or other materials provided with the distribution. 14 1.1 bouyer * 3. All advertising materials mentioning features or use of this software 15 1.1 bouyer * must display the following acknowledgement: 16 1.1 bouyer * This product includes software developed by Manuel Bouyer. 17 1.1 bouyer * 4. The name of the author may not be used to endorse or promote products 18 1.1 bouyer * derived from this software without specific prior written permission. 19 1.1 bouyer * 20 1.1 bouyer * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 21 1.1 bouyer * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 22 1.1 bouyer * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 23 1.1 bouyer * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 24 1.1 bouyer * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 25 1.1 bouyer * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26 1.1 bouyer * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 27 1.1 bouyer * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 28 1.1 bouyer * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 29 1.1 bouyer * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 30 1.1 bouyer */ 31 1.1 bouyer 32 1.1 bouyer /* 33 1.2 bouyer * Texas Instruments ThunderLAN ethernet controller 34 1.1 bouyer * ThunderLAN Programmer's Guide (TI Literature Number SPWU013A) 35 1.1 bouyer * available from www.ti.com 36 1.1 bouyer */ 37 1.39.2.3 nathanw 38 1.39.2.3 nathanw #include <sys/cdefs.h> 39 1.39.2.6 nathanw __KERNEL_RCSID(0, "$NetBSD: if_tl.c,v 1.39.2.6 2002/06/20 03:45:30 nathanw Exp $"); 40 1.1 bouyer 41 1.1 bouyer #undef TLDEBUG 42 1.1 bouyer #define TL_PRIV_STATS 43 1.1 bouyer #undef TLDEBUG_RX 44 1.1 bouyer #undef TLDEBUG_TX 45 1.1 bouyer #undef TLDEBUG_ADDR 46 1.12 jonathan 47 1.12 jonathan #include "opt_inet.h" 48 1.13 jonathan #include "opt_ns.h" 49 1.1 bouyer 50 1.1 bouyer #include <sys/param.h> 51 1.1 bouyer #include <sys/systm.h> 52 1.1 bouyer #include <sys/mbuf.h> 53 1.1 bouyer #include <sys/protosw.h> 54 1.1 bouyer #include <sys/socket.h> 55 1.1 bouyer #include <sys/ioctl.h> 56 1.1 bouyer #include <sys/errno.h> 57 1.1 bouyer #include <sys/malloc.h> 58 1.1 bouyer #include <sys/kernel.h> 59 1.1 bouyer #include <sys/proc.h> /* only for declaration of wakeup() used by vm.h */ 60 1.1 bouyer #include <sys/device.h> 61 1.1 bouyer 62 1.1 bouyer #include <net/if.h> 63 1.1 bouyer #if defined(SIOCSIFMEDIA) 64 1.1 bouyer #include <net/if_media.h> 65 1.1 bouyer #endif 66 1.1 bouyer #include <net/if_types.h> 67 1.1 bouyer #include <net/if_dl.h> 68 1.1 bouyer #include <net/route.h> 69 1.1 bouyer #include <net/netisr.h> 70 1.1 bouyer 71 1.1 bouyer #include "bpfilter.h" 72 1.1 bouyer #if NBPFILTER > 0 73 1.1 bouyer #include <net/bpf.h> 74 1.1 bouyer #include <net/bpfdesc.h> 75 1.1 bouyer #endif 76 1.1 bouyer 77 1.1 bouyer #ifdef INET 78 1.1 bouyer #include <netinet/in.h> 79 1.1 bouyer #include <netinet/in_systm.h> 80 1.1 bouyer #include <netinet/in_var.h> 81 1.1 bouyer #include <netinet/ip.h> 82 1.1 bouyer #endif 83 1.1 bouyer 84 1.1 bouyer #ifdef NS 85 1.1 bouyer #include <netns/ns.h> 86 1.1 bouyer #include <netns/ns_if.h> 87 1.1 bouyer #endif 88 1.1 bouyer 89 1.1 bouyer #if defined(__NetBSD__) 90 1.1 bouyer #include <net/if_ether.h> 91 1.34 mrg #include <uvm/uvm_extern.h> 92 1.1 bouyer #if defined(INET) 93 1.1 bouyer #include <netinet/if_inarp.h> 94 1.1 bouyer #endif 95 1.4 thorpej 96 1.1 bouyer #include <machine/bus.h> 97 1.1 bouyer #include <machine/intr.h> 98 1.4 thorpej 99 1.1 bouyer #include <dev/pci/pcireg.h> 100 1.1 bouyer #include <dev/pci/pcivar.h> 101 1.1 bouyer #include <dev/pci/pcidevs.h> 102 1.15 thorpej 103 1.1 bouyer #include <dev/i2c/i2c_bus.h> 104 1.1 bouyer #include <dev/i2c/i2c_eeprom.h> 105 1.15 thorpej 106 1.15 thorpej #include <dev/mii/mii.h> 107 1.15 thorpej #include <dev/mii/miivar.h> 108 1.15 thorpej 109 1.15 thorpej #include <dev/mii/tlphyvar.h> 110 1.15 thorpej 111 1.1 bouyer #include <dev/pci/if_tlregs.h> 112 1.15 thorpej #include <dev/pci/if_tlvar.h> 113 1.1 bouyer #endif /* __NetBSD__ */ 114 1.1 bouyer 115 1.1 bouyer /* number of transmit/receive buffers */ 116 1.1 bouyer #ifndef TL_NBUF 117 1.1 bouyer #define TL_NBUF 10 118 1.1 bouyer #endif 119 1.1 bouyer 120 1.7 drochner static int tl_pci_match __P((struct device *, struct cfdata *, void *)); 121 1.1 bouyer static void tl_pci_attach __P((struct device *, struct device *, void *)); 122 1.1 bouyer static int tl_intr __P((void *)); 123 1.1 bouyer 124 1.1 bouyer static int tl_ifioctl __P((struct ifnet *, ioctl_cmd_t, caddr_t)); 125 1.1 bouyer static int tl_mediachange __P((struct ifnet *)); 126 1.1 bouyer static void tl_mediastatus __P((struct ifnet *, struct ifmediareq *)); 127 1.1 bouyer static void tl_ifwatchdog __P((struct ifnet *)); 128 1.1 bouyer static void tl_shutdown __P((void*)); 129 1.1 bouyer 130 1.1 bouyer static void tl_ifstart __P((struct ifnet *)); 131 1.1 bouyer static void tl_reset __P((tl_softc_t*)); 132 1.39.2.2 nathanw static int tl_init __P((struct ifnet *)); 133 1.39.2.2 nathanw static void tl_stop __P((struct ifnet *, int)); 134 1.1 bouyer static void tl_restart __P((void *)); 135 1.39.2.1 nathanw static int tl_add_RxBuff __P((tl_softc_t*, struct Rx_list*, struct mbuf*)); 136 1.1 bouyer static void tl_read_stats __P((tl_softc_t*)); 137 1.1 bouyer static void tl_ticks __P((void*)); 138 1.1 bouyer static int tl_multicast_hash __P((u_int8_t*)); 139 1.1 bouyer static void tl_addr_filter __P((tl_softc_t*)); 140 1.1 bouyer 141 1.1 bouyer static u_int32_t tl_intreg_read __P((tl_softc_t*, u_int32_t)); 142 1.1 bouyer static void tl_intreg_write __P((tl_softc_t*, u_int32_t, u_int32_t)); 143 1.1 bouyer static u_int8_t tl_intreg_read_byte __P((tl_softc_t*, u_int32_t)); 144 1.1 bouyer static void tl_intreg_write_byte __P((tl_softc_t*, u_int32_t, u_int8_t)); 145 1.1 bouyer 146 1.28 tron void tl_mii_sync __P((struct tl_softc *)); 147 1.28 tron void tl_mii_sendbits __P((struct tl_softc *, u_int32_t, int)); 148 1.28 tron 149 1.28 tron 150 1.1 bouyer #if defined(TLDEBUG_RX) 151 1.1 bouyer static void ether_printheader __P((struct ether_header*)); 152 1.1 bouyer #endif 153 1.1 bouyer 154 1.15 thorpej int tl_mii_read __P((struct device *, int, int)); 155 1.15 thorpej void tl_mii_write __P((struct device *, int, int, int)); 156 1.15 thorpej 157 1.15 thorpej void tl_statchg __P((struct device *)); 158 1.1 bouyer 159 1.1 bouyer void tl_i2c_set __P((void*, u_int8_t)); 160 1.1 bouyer void tl_i2c_clr __P((void*, u_int8_t)); 161 1.1 bouyer int tl_i2c_read __P((void*, u_int8_t)); 162 1.1 bouyer 163 1.1 bouyer static __inline void netsio_clr __P((tl_softc_t*, u_int8_t)); 164 1.1 bouyer static __inline void netsio_set __P((tl_softc_t*, u_int8_t)); 165 1.1 bouyer static __inline u_int8_t netsio_read __P((tl_softc_t*, u_int8_t)); 166 1.1 bouyer static __inline void netsio_clr(sc, bits) 167 1.1 bouyer tl_softc_t* sc; 168 1.1 bouyer u_int8_t bits; 169 1.1 bouyer { 170 1.1 bouyer tl_intreg_write_byte(sc, TL_INT_NET + TL_INT_NetSio, 171 1.17 bouyer tl_intreg_read_byte(sc, TL_INT_NET + TL_INT_NetSio) & (~bits)); 172 1.1 bouyer } 173 1.1 bouyer static __inline void netsio_set(sc, bits) 174 1.1 bouyer tl_softc_t* sc; 175 1.1 bouyer u_int8_t bits; 176 1.1 bouyer { 177 1.1 bouyer tl_intreg_write_byte(sc, TL_INT_NET + TL_INT_NetSio, 178 1.17 bouyer tl_intreg_read_byte(sc, TL_INT_NET + TL_INT_NetSio) | bits); 179 1.1 bouyer } 180 1.1 bouyer static __inline u_int8_t netsio_read(sc, bits) 181 1.1 bouyer tl_softc_t* sc; 182 1.1 bouyer u_int8_t bits; 183 1.1 bouyer { 184 1.4 thorpej return (tl_intreg_read_byte(sc, TL_INT_NET + TL_INT_NetSio) & bits); 185 1.1 bouyer } 186 1.1 bouyer 187 1.1 bouyer struct cfattach tl_ca = { 188 1.4 thorpej sizeof(tl_softc_t), tl_pci_match, tl_pci_attach 189 1.1 bouyer }; 190 1.1 bouyer 191 1.4 thorpej const struct tl_product_desc tl_compaq_products[] = { 192 1.15 thorpej { PCI_PRODUCT_COMPAQ_N100TX, TLPHY_MEDIA_NO_10_T, 193 1.22 tron "Compaq Netelligent 10/100 TX" }, 194 1.15 thorpej { PCI_PRODUCT_COMPAQ_N10T, TLPHY_MEDIA_10_5, 195 1.22 tron "Compaq Netelligent 10 T" }, 196 1.15 thorpej { PCI_PRODUCT_COMPAQ_IntNF3P, TLPHY_MEDIA_10_2, 197 1.22 tron "Compaq Integrated NetFlex 3/P" }, 198 1.15 thorpej { PCI_PRODUCT_COMPAQ_IntPL100TX, TLPHY_MEDIA_10_2|TLPHY_MEDIA_NO_10_T, 199 1.22 tron "Compaq ProLiant Integrated Netelligent 10/100 TX" }, 200 1.15 thorpej { PCI_PRODUCT_COMPAQ_DPNet100TX, TLPHY_MEDIA_10_5|TLPHY_MEDIA_NO_10_T, 201 1.22 tron "Compaq Dual Port Netelligent 10/100 TX" }, 202 1.39.2.1 nathanw { PCI_PRODUCT_COMPAQ_DP4000, TLPHY_MEDIA_10_5|TLPHY_MEDIA_NO_10_T, 203 1.22 tron "Compaq Deskpro 4000 5233MMX" }, 204 1.15 thorpej { PCI_PRODUCT_COMPAQ_NF3P_BNC, TLPHY_MEDIA_10_2, 205 1.22 tron "Compaq NetFlex 3/P w/ BNC" }, 206 1.15 thorpej { PCI_PRODUCT_COMPAQ_NF3P, TLPHY_MEDIA_10_5, 207 1.22 tron "Compaq NetFlex 3/P" }, 208 1.4 thorpej { 0, 0, NULL }, 209 1.4 thorpej }; 210 1.4 thorpej 211 1.4 thorpej const struct tl_product_desc tl_ti_products[] = { 212 1.10 thorpej /* 213 1.10 thorpej * Built-in Ethernet on the TI TravelMate 5000 214 1.10 thorpej * docking station; better product description? 215 1.10 thorpej */ 216 1.15 thorpej { PCI_PRODUCT_TI_TLAN, 0, 217 1.22 tron "Texas Instruments ThunderLAN" }, 218 1.4 thorpej { 0, 0, NULL }, 219 1.4 thorpej }; 220 1.4 thorpej 221 1.4 thorpej struct tl_vendor_desc { 222 1.4 thorpej u_int32_t tv_vendor; 223 1.4 thorpej const struct tl_product_desc *tv_products; 224 1.4 thorpej }; 225 1.4 thorpej 226 1.4 thorpej const struct tl_vendor_desc tl_vendors[] = { 227 1.4 thorpej { PCI_VENDOR_COMPAQ, tl_compaq_products }, 228 1.4 thorpej { PCI_VENDOR_TI, tl_ti_products }, 229 1.4 thorpej { 0, NULL }, 230 1.4 thorpej }; 231 1.4 thorpej 232 1.4 thorpej const struct tl_product_desc *tl_lookup_product __P((u_int32_t)); 233 1.4 thorpej 234 1.4 thorpej const struct tl_product_desc * 235 1.4 thorpej tl_lookup_product(id) 236 1.4 thorpej u_int32_t id; 237 1.4 thorpej { 238 1.4 thorpej const struct tl_product_desc *tp; 239 1.4 thorpej const struct tl_vendor_desc *tv; 240 1.4 thorpej 241 1.4 thorpej for (tv = tl_vendors; tv->tv_products != NULL; tv++) 242 1.4 thorpej if (PCI_VENDOR(id) == tv->tv_vendor) 243 1.4 thorpej break; 244 1.4 thorpej 245 1.4 thorpej if ((tp = tv->tv_products) == NULL) 246 1.4 thorpej return (NULL); 247 1.4 thorpej 248 1.4 thorpej for (; tp->tp_desc != NULL; tp++) 249 1.4 thorpej if (PCI_PRODUCT(id) == tp->tp_product) 250 1.4 thorpej break; 251 1.4 thorpej 252 1.4 thorpej if (tp->tp_desc == NULL) 253 1.4 thorpej return (NULL); 254 1.4 thorpej 255 1.4 thorpej return (tp); 256 1.4 thorpej } 257 1.4 thorpej 258 1.1 bouyer static int 259 1.4 thorpej tl_pci_match(parent, match, aux) 260 1.1 bouyer struct device *parent; 261 1.7 drochner struct cfdata *match; 262 1.1 bouyer void *aux; 263 1.1 bouyer { 264 1.1 bouyer struct pci_attach_args *pa = (struct pci_attach_args *) aux; 265 1.1 bouyer 266 1.4 thorpej if (tl_lookup_product(pa->pa_id) != NULL) 267 1.4 thorpej return (1); 268 1.4 thorpej 269 1.4 thorpej return (0); 270 1.1 bouyer } 271 1.1 bouyer 272 1.1 bouyer static void 273 1.1 bouyer tl_pci_attach(parent, self, aux) 274 1.1 bouyer struct device * parent; 275 1.1 bouyer struct device * self; 276 1.1 bouyer void * aux; 277 1.1 bouyer { 278 1.1 bouyer tl_softc_t *sc = (tl_softc_t *)self; 279 1.1 bouyer struct pci_attach_args * const pa = (struct pci_attach_args *) aux; 280 1.4 thorpej const struct tl_product_desc *tp; 281 1.1 bouyer struct ifnet * const ifp = &sc->tl_if; 282 1.1 bouyer bus_space_tag_t iot, memt; 283 1.1 bouyer bus_space_handle_t ioh, memh; 284 1.1 bouyer pci_intr_handle_t intrhandle; 285 1.4 thorpej const char *intrstr; 286 1.4 thorpej int i, tmp, ioh_valid, memh_valid; 287 1.23 bouyer int reg_io, reg_mem; 288 1.23 bouyer pcireg_t reg10, reg14; 289 1.4 thorpej pcireg_t csr; 290 1.4 thorpej 291 1.4 thorpej printf("\n"); 292 1.4 thorpej 293 1.32 thorpej callout_init(&sc->tl_tick_ch); 294 1.32 thorpej callout_init(&sc->tl_restart_ch); 295 1.32 thorpej 296 1.10 thorpej tp = tl_lookup_product(pa->pa_id); 297 1.10 thorpej if (tp == NULL) 298 1.10 thorpej panic("tl_pci_attach: impossible"); 299 1.15 thorpej sc->tl_product = tp; 300 1.10 thorpej 301 1.23 bouyer /* 302 1.39.2.6 nathanw * Map the card space. First we have to find the I/O and MEM 303 1.23 bouyer * registers. I/O is supposed to be at 0x10, MEM at 0x14, 304 1.23 bouyer * but some boards (Compaq Netflex 3/P PCI) seem to have it reversed. 305 1.23 bouyer * The ThunderLAN manual is not consistent about this either (there 306 1.23 bouyer * are both cases in code examples). 307 1.23 bouyer */ 308 1.23 bouyer reg10 = pci_conf_read(pa->pa_pc, pa->pa_tag, 0x10); 309 1.23 bouyer reg14 = pci_conf_read(pa->pa_pc, pa->pa_tag, 0x14); 310 1.23 bouyer if (PCI_MAPREG_TYPE(reg10) == PCI_MAPREG_TYPE_IO) 311 1.23 bouyer reg_io = 0x10; 312 1.23 bouyer else if (PCI_MAPREG_TYPE(reg14) == PCI_MAPREG_TYPE_IO) 313 1.23 bouyer reg_io = 0x14; 314 1.23 bouyer else 315 1.23 bouyer reg_io = 0; 316 1.23 bouyer if (PCI_MAPREG_TYPE(reg10) == PCI_MAPREG_TYPE_MEM) 317 1.23 bouyer reg_mem = 0x10; 318 1.23 bouyer else if (PCI_MAPREG_TYPE(reg14) == PCI_MAPREG_TYPE_MEM) 319 1.23 bouyer reg_mem = 0x14; 320 1.23 bouyer else 321 1.23 bouyer reg_mem = 0; 322 1.23 bouyer 323 1.23 bouyer if (reg_io != 0) 324 1.23 bouyer ioh_valid = (pci_mapreg_map(pa, reg_io, PCI_MAPREG_TYPE_IO, 325 1.23 bouyer 0, &iot, &ioh, NULL, NULL) == 0); 326 1.23 bouyer else 327 1.23 bouyer ioh_valid = 0; 328 1.23 bouyer if (reg_mem != 0) 329 1.23 bouyer memh_valid = (pci_mapreg_map(pa, PCI_CBMA, 330 1.23 bouyer PCI_MAPREG_TYPE_MEM | PCI_MAPREG_MEM_TYPE_32BIT, 331 1.23 bouyer 0, &memt, &memh, NULL, NULL) == 0); 332 1.23 bouyer else 333 1.23 bouyer memh_valid = 0; 334 1.4 thorpej 335 1.22 tron if (ioh_valid) { 336 1.22 tron sc->tl_bustag = iot; 337 1.22 tron sc->tl_bushandle = ioh; 338 1.22 tron } else if (memh_valid) { 339 1.4 thorpej sc->tl_bustag = memt; 340 1.4 thorpej sc->tl_bushandle = memh; 341 1.1 bouyer } else { 342 1.4 thorpej printf("%s: unable to map device registers\n", 343 1.4 thorpej sc->sc_dev.dv_xname); 344 1.4 thorpej return; 345 1.1 bouyer } 346 1.39.2.1 nathanw sc->tl_dmatag = pa->pa_dmat; 347 1.1 bouyer 348 1.4 thorpej /* Enable the device. */ 349 1.4 thorpej csr = pci_conf_read(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG); 350 1.4 thorpej pci_conf_write(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG, 351 1.4 thorpej csr | PCI_COMMAND_MASTER_ENABLE); 352 1.1 bouyer 353 1.4 thorpej printf("%s: %s\n", sc->sc_dev.dv_xname, tp->tp_desc); 354 1.1 bouyer 355 1.1 bouyer tl_reset(sc); 356 1.1 bouyer 357 1.1 bouyer /* fill in the i2c struct */ 358 1.1 bouyer sc->i2cbus.adapter_softc = sc; 359 1.1 bouyer sc->i2cbus.set_bit = tl_i2c_set; 360 1.1 bouyer sc->i2cbus.clr_bit = tl_i2c_clr; 361 1.1 bouyer sc->i2cbus.read_bit = tl_i2c_read; 362 1.1 bouyer 363 1.1 bouyer #ifdef TLDEBUG 364 1.1 bouyer printf("default values of INTreg: 0x%x\n", 365 1.17 bouyer tl_intreg_read(sc, TL_INT_Defaults)); 366 1.1 bouyer #endif 367 1.1 bouyer 368 1.1 bouyer /* read mac addr */ 369 1.1 bouyer for (i=0; i<ETHER_ADDR_LEN; i++) { 370 1.1 bouyer tmp = i2c_eeprom_read(&sc->i2cbus, 0x83 + i); 371 1.1 bouyer if (tmp < 0) { 372 1.4 thorpej printf("%s: error reading Ethernet adress\n", 373 1.4 thorpej sc->sc_dev.dv_xname); 374 1.1 bouyer return; 375 1.1 bouyer } else { 376 1.1 bouyer sc->tl_enaddr[i] = tmp; 377 1.1 bouyer } 378 1.1 bouyer } 379 1.4 thorpej printf("%s: Ethernet address %s\n", sc->sc_dev.dv_xname, 380 1.17 bouyer ether_sprintf(sc->tl_enaddr)); 381 1.1 bouyer 382 1.4 thorpej /* Map and establish interrupts */ 383 1.39 sommerfe if (pci_intr_map(pa, &intrhandle)) { 384 1.4 thorpej printf("%s: couldn't map interrupt\n", sc->sc_dev.dv_xname); 385 1.4 thorpej return; 386 1.4 thorpej } 387 1.4 thorpej intrstr = pci_intr_string(pa->pa_pc, intrhandle); 388 1.39.2.5 nathanw sc->tl_if.if_softc = sc; 389 1.4 thorpej sc->tl_ih = pci_intr_establish(pa->pa_pc, intrhandle, IPL_NET, 390 1.17 bouyer tl_intr, sc); 391 1.4 thorpej if (sc->tl_ih == NULL) { 392 1.4 thorpej printf("%s: couldn't establish interrupt", 393 1.4 thorpej sc->sc_dev.dv_xname); 394 1.4 thorpej if (intrstr != NULL) 395 1.4 thorpej printf(" at %s", intrstr); 396 1.4 thorpej printf("\n"); 397 1.4 thorpej return; 398 1.4 thorpej } 399 1.4 thorpej printf("%s: interrupting at %s\n", sc->sc_dev.dv_xname, intrstr); 400 1.4 thorpej 401 1.39.2.1 nathanw /* init these pointers, so that tl_shutdown won't try to read them */ 402 1.39.2.1 nathanw sc->Rx_list = NULL; 403 1.39.2.1 nathanw sc->Tx_list = NULL; 404 1.39.2.1 nathanw 405 1.39.2.2 nathanw /* allocate DMA-safe memory for control structs */ 406 1.39.2.2 nathanw if (bus_dmamem_alloc(sc->tl_dmatag, 407 1.39.2.2 nathanw PAGE_SIZE, 0, PAGE_SIZE, 408 1.39.2.2 nathanw &sc->ctrl_segs, 1, &sc->ctrl_nsegs, BUS_DMA_NOWAIT) != 0 || 409 1.39.2.2 nathanw bus_dmamem_map(sc->tl_dmatag, &sc->ctrl_segs, 410 1.39.2.2 nathanw sc->ctrl_nsegs, PAGE_SIZE, (caddr_t*)&sc->ctrl, 411 1.39.2.2 nathanw BUS_DMA_NOWAIT | BUS_DMA_COHERENT) != 0) { 412 1.39.2.2 nathanw printf("%s: can't allocate DMA memory for lists\n", 413 1.39.2.2 nathanw sc->sc_dev.dv_xname); 414 1.39.2.2 nathanw return; 415 1.39.2.2 nathanw } 416 1.4 thorpej /* 417 1.4 thorpej * Add shutdown hook so that DMA is disabled prior to reboot. Not 418 1.39.2.6 nathanw * doing 419 1.4 thorpej * reboot before the driver initializes. 420 1.4 thorpej */ 421 1.39.2.2 nathanw (void) shutdownhook_establish(tl_shutdown, ifp); 422 1.4 thorpej 423 1.15 thorpej /* 424 1.15 thorpej * Initialize our media structures and probe the MII. 425 1.15 thorpej * 426 1.15 thorpej * Note that we don't care about the media instance. We 427 1.15 thorpej * are expecting to have multiple PHYs on the 10/100 cards, 428 1.15 thorpej * and on those cards we exclude the internal PHY from providing 429 1.15 thorpej * 10baseT. By ignoring the instance, it allows us to not have 430 1.15 thorpej * to specify it on the command line when switching media. 431 1.15 thorpej */ 432 1.15 thorpej sc->tl_mii.mii_ifp = ifp; 433 1.15 thorpej sc->tl_mii.mii_readreg = tl_mii_read; 434 1.15 thorpej sc->tl_mii.mii_writereg = tl_mii_write; 435 1.15 thorpej sc->tl_mii.mii_statchg = tl_statchg; 436 1.15 thorpej ifmedia_init(&sc->tl_mii.mii_media, IFM_IMASK, tl_mediachange, 437 1.15 thorpej tl_mediastatus); 438 1.29 thorpej mii_attach(self, &sc->tl_mii, 0xffffffff, MII_PHY_ANY, 439 1.30 thorpej MII_OFFSET_ANY, 0); 440 1.15 thorpej if (LIST_FIRST(&sc->tl_mii.mii_phys) == NULL) { 441 1.15 thorpej ifmedia_add(&sc->tl_mii.mii_media, IFM_ETHER|IFM_NONE, 0, NULL); 442 1.15 thorpej ifmedia_set(&sc->tl_mii.mii_media, IFM_ETHER|IFM_NONE); 443 1.15 thorpej } else 444 1.15 thorpej ifmedia_set(&sc->tl_mii.mii_media, IFM_ETHER|IFM_AUTO); 445 1.1 bouyer 446 1.39.2.1 nathanw strcpy(ifp->if_xname, sc->sc_dev.dv_xname); 447 1.1 bouyer ifp->if_flags = IFF_BROADCAST|IFF_SIMPLEX|IFF_NOTRAILERS|IFF_MULTICAST; 448 1.1 bouyer ifp->if_ioctl = tl_ifioctl; 449 1.1 bouyer ifp->if_start = tl_ifstart; 450 1.1 bouyer ifp->if_watchdog = tl_ifwatchdog; 451 1.39.2.2 nathanw ifp->if_init = tl_init; 452 1.39.2.2 nathanw ifp->if_stop = tl_stop; 453 1.1 bouyer ifp->if_timer = 0; 454 1.39.2.5 nathanw IFQ_SET_READY(&ifp->if_snd); 455 1.1 bouyer if_attach(ifp); 456 1.1 bouyer ether_ifattach(&(sc)->tl_if, (sc)->tl_enaddr); 457 1.1 bouyer } 458 1.1 bouyer 459 1.1 bouyer static void 460 1.1 bouyer tl_reset(sc) 461 1.1 bouyer tl_softc_t *sc; 462 1.1 bouyer { 463 1.1 bouyer int i; 464 1.1 bouyer 465 1.1 bouyer /* read stats */ 466 1.1 bouyer if (sc->tl_if.if_flags & IFF_RUNNING) { 467 1.32 thorpej callout_stop(&sc->tl_tick_ch); 468 1.1 bouyer tl_read_stats(sc); 469 1.1 bouyer } 470 1.1 bouyer /* Reset adapter */ 471 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 472 1.17 bouyer TL_HR_READ(sc, TL_HOST_CMD) | HOST_CMD_Ad_Rst); 473 1.1 bouyer DELAY(100000); 474 1.1 bouyer /* Disable interrupts */ 475 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_IntOff); 476 1.1 bouyer /* setup aregs & hash */ 477 1.1 bouyer for (i = TL_INT_Areg0; i <= TL_INT_HASH2; i = i + 4) 478 1.1 bouyer tl_intreg_write(sc, i, 0); 479 1.1 bouyer #ifdef TLDEBUG_ADDR 480 1.1 bouyer printf("Areg & hash registers: \n"); 481 1.1 bouyer for (i = TL_INT_Areg0; i <= TL_INT_HASH2; i = i + 4) 482 1.1 bouyer printf(" reg %x: %x\n", i, tl_intreg_read(sc, i)); 483 1.1 bouyer #endif 484 1.1 bouyer /* Setup NetConfig */ 485 1.1 bouyer tl_intreg_write(sc, TL_INT_NetConfig, 486 1.17 bouyer TL_NETCONFIG_1F | TL_NETCONFIG_1chn | TL_NETCONFIG_PHY_EN); 487 1.1 bouyer /* Bsize: accept default */ 488 1.1 bouyer /* TX commit in Acommit: accept default */ 489 1.1 bouyer /* Load Ld_tmr and Ld_thr */ 490 1.1 bouyer /* Ld_tmr = 3 */ 491 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 0x3 | HOST_CMD_LdTmr); 492 1.1 bouyer /* Ld_thr = 0 */ 493 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 0x0 | HOST_CMD_LdThr); 494 1.1 bouyer /* Unreset MII */ 495 1.1 bouyer netsio_set(sc, TL_NETSIO_NMRST); 496 1.1 bouyer DELAY(100000); 497 1.15 thorpej sc->tl_mii.mii_media_status &= ~IFM_ACTIVE; 498 1.1 bouyer } 499 1.1 bouyer 500 1.1 bouyer static void tl_shutdown(v) 501 1.1 bouyer void *v; 502 1.1 bouyer { 503 1.39.2.2 nathanw tl_stop(v, 1); 504 1.39.2.2 nathanw } 505 1.39.2.2 nathanw 506 1.39.2.2 nathanw static void tl_stop(ifp, disable) 507 1.39.2.2 nathanw struct ifnet *ifp; 508 1.39.2.2 nathanw int disable; 509 1.39.2.2 nathanw { 510 1.39.2.2 nathanw tl_softc_t *sc = ifp->if_softc; 511 1.1 bouyer struct Tx_list *Tx; 512 1.1 bouyer int i; 513 1.1 bouyer 514 1.39.2.2 nathanw if ((ifp->if_flags & IFF_RUNNING) == 0) 515 1.1 bouyer return; 516 1.1 bouyer /* disable interrupts */ 517 1.17 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_IntOff); 518 1.1 bouyer /* stop TX and RX channels */ 519 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 520 1.17 bouyer HOST_CMD_STOP | HOST_CMD_RT | HOST_CMD_Nes); 521 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_STOP); 522 1.1 bouyer DELAY(100000); 523 1.1 bouyer 524 1.1 bouyer /* stop statistics reading loop, read stats */ 525 1.32 thorpej callout_stop(&sc->tl_tick_ch); 526 1.1 bouyer tl_read_stats(sc); 527 1.26 thorpej 528 1.26 thorpej /* Down the MII. */ 529 1.26 thorpej mii_down(&sc->tl_mii); 530 1.1 bouyer 531 1.1 bouyer /* deallocate memory allocations */ 532 1.39.2.1 nathanw if (sc->Rx_list) { 533 1.39.2.1 nathanw for (i=0; i< TL_NBUF; i++) { 534 1.39.2.1 nathanw if (sc->Rx_list[i].m) { 535 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, 536 1.39.2.1 nathanw sc->Rx_list[i].m_dmamap); 537 1.39.2.1 nathanw m_freem(sc->Rx_list[i].m); 538 1.39.2.1 nathanw } 539 1.39.2.1 nathanw bus_dmamap_destroy(sc->tl_dmatag, 540 1.39.2.1 nathanw sc->Rx_list[i].m_dmamap); 541 1.39.2.1 nathanw sc->Rx_list[i].m = NULL; 542 1.39.2.1 nathanw } 543 1.39.2.1 nathanw free(sc->Rx_list, M_DEVBUF); 544 1.39.2.1 nathanw sc->Rx_list = NULL; 545 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, sc->Rx_dmamap); 546 1.39.2.1 nathanw bus_dmamap_destroy(sc->tl_dmatag, sc->Rx_dmamap); 547 1.39.2.1 nathanw sc->hw_Rx_list = NULL; 548 1.39.2.1 nathanw while ((Tx = sc->active_Tx) != NULL) { 549 1.39.2.1 nathanw Tx->hw_list->stat = 0; 550 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, Tx->m_dmamap); 551 1.39.2.1 nathanw bus_dmamap_destroy(sc->tl_dmatag, Tx->m_dmamap); 552 1.39.2.1 nathanw m_freem(Tx->m); 553 1.39.2.1 nathanw sc->active_Tx = Tx->next; 554 1.39.2.1 nathanw Tx->next = sc->Free_Tx; 555 1.39.2.1 nathanw sc->Free_Tx = Tx; 556 1.39.2.1 nathanw } 557 1.39.2.1 nathanw sc->last_Tx = NULL; 558 1.39.2.1 nathanw free(sc->Tx_list, M_DEVBUF); 559 1.39.2.1 nathanw sc->Tx_list = NULL; 560 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, sc->Tx_dmamap); 561 1.39.2.1 nathanw bus_dmamap_destroy(sc->tl_dmatag, sc->Tx_dmamap); 562 1.39.2.1 nathanw sc->hw_Tx_list = NULL; 563 1.1 bouyer } 564 1.39.2.2 nathanw ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE); 565 1.39.2.2 nathanw ifp->if_timer = 0; 566 1.15 thorpej sc->tl_mii.mii_media_status &= ~IFM_ACTIVE; 567 1.1 bouyer } 568 1.1 bouyer 569 1.1 bouyer static void tl_restart(v) 570 1.1 bouyer void *v; 571 1.1 bouyer { 572 1.1 bouyer tl_init(v); 573 1.1 bouyer } 574 1.1 bouyer 575 1.39.2.2 nathanw static int tl_init(ifp) 576 1.39.2.2 nathanw struct ifnet *ifp; 577 1.1 bouyer { 578 1.39.2.2 nathanw tl_softc_t *sc = ifp->if_softc; 579 1.39.2.1 nathanw int i, s, error; 580 1.39.2.1 nathanw char *errstring; 581 1.39.2.1 nathanw char *nullbuf; 582 1.1 bouyer 583 1.14 mycroft s = splnet(); 584 1.1 bouyer /* cancel any pending IO */ 585 1.39.2.2 nathanw tl_stop(ifp, 1); 586 1.1 bouyer tl_reset(sc); 587 1.1 bouyer if ((sc->tl_if.if_flags & IFF_UP) == 0) { 588 1.1 bouyer splx(s); 589 1.1 bouyer return 0; 590 1.1 bouyer } 591 1.1 bouyer /* Set various register to reasonable value */ 592 1.1 bouyer /* setup NetCmd in promisc mode if needed */ 593 1.1 bouyer i = (ifp->if_flags & IFF_PROMISC) ? TL_NETCOMMAND_CAF : 0; 594 1.1 bouyer tl_intreg_write_byte(sc, TL_INT_NET + TL_INT_NetCmd, 595 1.17 bouyer TL_NETCOMMAND_NRESET | TL_NETCOMMAND_NWRAP | i); 596 1.1 bouyer /* Max receive size : MCLBYTES */ 597 1.1 bouyer tl_intreg_write_byte(sc, TL_INT_MISC + TL_MISC_MaxRxL, MCLBYTES & 0xff); 598 1.1 bouyer tl_intreg_write_byte(sc, TL_INT_MISC + TL_MISC_MaxRxH, 599 1.17 bouyer (MCLBYTES >> 8) & 0xff); 600 1.1 bouyer 601 1.1 bouyer /* init MAC addr */ 602 1.1 bouyer for (i = 0; i < ETHER_ADDR_LEN; i++) 603 1.1 bouyer tl_intreg_write_byte(sc, TL_INT_Areg0 + i , sc->tl_enaddr[i]); 604 1.1 bouyer /* add multicast filters */ 605 1.1 bouyer tl_addr_filter(sc); 606 1.1 bouyer #ifdef TLDEBUG_ADDR 607 1.1 bouyer printf("Wrote Mac addr, Areg & hash registers are now: \n"); 608 1.1 bouyer for (i = TL_INT_Areg0; i <= TL_INT_HASH2; i = i + 4) 609 1.1 bouyer printf(" reg %x: %x\n", i, tl_intreg_read(sc, i)); 610 1.1 bouyer #endif 611 1.1 bouyer 612 1.1 bouyer /* Pre-allocate receivers mbuf, make the lists */ 613 1.17 bouyer sc->Rx_list = malloc(sizeof(struct Rx_list) * TL_NBUF, M_DEVBUF, 614 1.39.2.4 nathanw M_NOWAIT|M_ZERO); 615 1.17 bouyer sc->Tx_list = malloc(sizeof(struct Tx_list) * TL_NBUF, M_DEVBUF, 616 1.39.2.4 nathanw M_NOWAIT|M_ZERO); 617 1.1 bouyer if (sc->Rx_list == NULL || sc->Tx_list == NULL) { 618 1.39.2.1 nathanw errstring = "out of memory for lists"; 619 1.39.2.1 nathanw error = ENOMEM; 620 1.39.2.1 nathanw goto bad; 621 1.39.2.1 nathanw } 622 1.39.2.1 nathanw error = bus_dmamap_create(sc->tl_dmatag, 623 1.39.2.1 nathanw sizeof(struct tl_Rx_list) * TL_NBUF, 1, 624 1.39.2.1 nathanw sizeof(struct tl_Rx_list) * TL_NBUF, 0, BUS_DMA_WAITOK, 625 1.39.2.1 nathanw &sc->Rx_dmamap); 626 1.39.2.1 nathanw if (error == 0) 627 1.39.2.1 nathanw error = bus_dmamap_create(sc->tl_dmatag, 628 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 1, 629 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 0, BUS_DMA_WAITOK, 630 1.39.2.1 nathanw &sc->Tx_dmamap); 631 1.39.2.1 nathanw if (error == 0) 632 1.39.2.1 nathanw error = bus_dmamap_create(sc->tl_dmatag, ETHER_MIN_TX, 1, 633 1.39.2.1 nathanw ETHER_MIN_TX, 0, BUS_DMA_WAITOK, 634 1.39.2.1 nathanw &sc->null_dmamap); 635 1.39.2.1 nathanw if (error) { 636 1.39.2.1 nathanw errstring = "can't allocate DMA maps for lists"; 637 1.39.2.1 nathanw goto bad; 638 1.39.2.1 nathanw } 639 1.39.2.2 nathanw memset(sc->ctrl, 0, PAGE_SIZE); 640 1.39.2.2 nathanw sc->hw_Rx_list = (void *)sc->ctrl; 641 1.39.2.2 nathanw sc->hw_Tx_list = 642 1.39.2.2 nathanw (void *)(sc->ctrl + sizeof(struct tl_Rx_list) * TL_NBUF); 643 1.39.2.2 nathanw nullbuf = sc->ctrl + sizeof(struct tl_Rx_list) * TL_NBUF + 644 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF; 645 1.39.2.1 nathanw error = bus_dmamap_load(sc->tl_dmatag, sc->Rx_dmamap, 646 1.39.2.1 nathanw sc->hw_Rx_list, sizeof(struct tl_Rx_list) * TL_NBUF, NULL, 647 1.39.2.1 nathanw BUS_DMA_WAITOK); 648 1.39.2.1 nathanw if (error == 0) 649 1.39.2.1 nathanw error = bus_dmamap_load(sc->tl_dmatag, sc->Tx_dmamap, 650 1.39.2.1 nathanw sc->hw_Tx_list, sizeof(struct tl_Tx_list) * TL_NBUF, NULL, 651 1.39.2.1 nathanw BUS_DMA_WAITOK); 652 1.39.2.1 nathanw if (error == 0) 653 1.39.2.1 nathanw error = bus_dmamap_load(sc->tl_dmatag, sc->null_dmamap, 654 1.39.2.1 nathanw nullbuf, ETHER_MIN_TX, NULL, BUS_DMA_WAITOK); 655 1.39.2.1 nathanw if (error) { 656 1.39.2.1 nathanw errstring = "can't DMA map DMA memory for lists"; 657 1.39.2.1 nathanw goto bad; 658 1.1 bouyer } 659 1.1 bouyer for (i=0; i< TL_NBUF; i++) { 660 1.39.2.1 nathanw error = bus_dmamap_create(sc->tl_dmatag, MCLBYTES, 661 1.39.2.1 nathanw 1, MCLBYTES, 0, BUS_DMA_WAITOK | BUS_DMA_ALLOCNOW, 662 1.39.2.1 nathanw &sc->Rx_list[i].m_dmamap); 663 1.39.2.1 nathanw if (error == 0) { 664 1.39.2.1 nathanw error = bus_dmamap_create(sc->tl_dmatag, MCLBYTES, 665 1.39.2.1 nathanw TL_NSEG, MCLBYTES, 0, 666 1.39.2.1 nathanw BUS_DMA_WAITOK | BUS_DMA_ALLOCNOW, 667 1.39.2.1 nathanw &sc->Tx_list[i].m_dmamap); 668 1.39.2.1 nathanw } 669 1.39.2.1 nathanw if (error) { 670 1.39.2.1 nathanw errstring = "can't allocate DMA maps for mbufs"; 671 1.39.2.1 nathanw goto bad; 672 1.39.2.1 nathanw } 673 1.39.2.1 nathanw sc->Rx_list[i].hw_list = &sc->hw_Rx_list[i]; 674 1.39.2.1 nathanw sc->Rx_list[i].hw_listaddr = sc->Rx_dmamap->dm_segs[0].ds_addr 675 1.39.2.1 nathanw + sizeof(struct tl_Rx_list) * i; 676 1.39.2.1 nathanw sc->Tx_list[i].hw_list = &sc->hw_Tx_list[i]; 677 1.39.2.1 nathanw sc->Tx_list[i].hw_listaddr = sc->Tx_dmamap->dm_segs[0].ds_addr 678 1.39.2.1 nathanw + sizeof(struct tl_Tx_list) * i; 679 1.39.2.1 nathanw if (tl_add_RxBuff(sc, &sc->Rx_list[i], NULL) == 0) { 680 1.39.2.1 nathanw errstring = "out of mbuf for receive list"; 681 1.39.2.1 nathanw error = ENOMEM; 682 1.39.2.1 nathanw goto bad; 683 1.1 bouyer } 684 1.1 bouyer if (i > 0) { /* chain the list */ 685 1.1 bouyer sc->Rx_list[i-1].next = &sc->Rx_list[i]; 686 1.39.2.1 nathanw sc->hw_Rx_list[i-1].fwd = 687 1.39.2.1 nathanw htole32(sc->Rx_list[i].hw_listaddr); 688 1.1 bouyer sc->Tx_list[i-1].next = &sc->Tx_list[i]; 689 1.1 bouyer } 690 1.1 bouyer } 691 1.39.2.1 nathanw sc->hw_Rx_list[TL_NBUF-1].fwd = 0; 692 1.1 bouyer sc->Rx_list[TL_NBUF-1].next = NULL; 693 1.39.2.1 nathanw sc->hw_Tx_list[TL_NBUF-1].fwd = 0; 694 1.1 bouyer sc->Tx_list[TL_NBUF-1].next = NULL; 695 1.1 bouyer 696 1.1 bouyer sc->active_Rx = &sc->Rx_list[0]; 697 1.1 bouyer sc->last_Rx = &sc->Rx_list[TL_NBUF-1]; 698 1.1 bouyer sc->active_Tx = sc->last_Tx = NULL; 699 1.1 bouyer sc->Free_Tx = &sc->Tx_list[0]; 700 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Rx_dmamap, 0, 701 1.39.2.1 nathanw sizeof(struct tl_Rx_list) * TL_NBUF, 702 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 703 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Tx_dmamap, 0, 704 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 705 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 706 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->null_dmamap, 0, ETHER_MIN_TX, 707 1.39.2.1 nathanw BUS_DMASYNC_PREWRITE); 708 1.1 bouyer 709 1.15 thorpej /* set media */ 710 1.15 thorpej mii_mediachg(&sc->tl_mii); 711 1.1 bouyer 712 1.1 bouyer /* start ticks calls */ 713 1.32 thorpej callout_reset(&sc->tl_tick_ch, hz, tl_ticks, sc); 714 1.1 bouyer /* write adress of Rx list and enable interrupts */ 715 1.39.2.1 nathanw TL_HR_WRITE(sc, TL_HOST_CH_PARM, sc->Rx_list[0].hw_listaddr); 716 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 717 1.17 bouyer HOST_CMD_GO | HOST_CMD_RT | HOST_CMD_Nes | HOST_CMD_IntOn); 718 1.1 bouyer sc->tl_if.if_flags |= IFF_RUNNING; 719 1.1 bouyer sc->tl_if.if_flags &= ~IFF_OACTIVE; 720 1.1 bouyer return 0; 721 1.39.2.1 nathanw bad: 722 1.39.2.1 nathanw printf("%s: %s\n", sc->sc_dev.dv_xname, errstring); 723 1.39.2.1 nathanw splx(s); 724 1.39.2.1 nathanw return error; 725 1.1 bouyer } 726 1.1 bouyer 727 1.1 bouyer 728 1.1 bouyer static u_int32_t 729 1.1 bouyer tl_intreg_read(sc, reg) 730 1.1 bouyer tl_softc_t *sc; 731 1.1 bouyer u_int32_t reg; 732 1.1 bouyer { 733 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_INTR_DIOADR, reg & TL_HOST_DIOADR_MASK); 734 1.1 bouyer return TL_HR_READ(sc, TL_HOST_DIO_DATA); 735 1.1 bouyer } 736 1.1 bouyer 737 1.1 bouyer static u_int8_t 738 1.1 bouyer tl_intreg_read_byte(sc, reg) 739 1.1 bouyer tl_softc_t *sc; 740 1.1 bouyer u_int32_t reg; 741 1.1 bouyer { 742 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_INTR_DIOADR, 743 1.17 bouyer (reg & (~0x07)) & TL_HOST_DIOADR_MASK); 744 1.1 bouyer return TL_HR_READ_BYTE(sc, TL_HOST_DIO_DATA + (reg & 0x07)); 745 1.1 bouyer } 746 1.1 bouyer 747 1.1 bouyer static void 748 1.1 bouyer tl_intreg_write(sc, reg, val) 749 1.1 bouyer tl_softc_t *sc; 750 1.1 bouyer u_int32_t reg; 751 1.1 bouyer u_int32_t val; 752 1.1 bouyer { 753 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_INTR_DIOADR, reg & TL_HOST_DIOADR_MASK); 754 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_DIO_DATA, val); 755 1.1 bouyer } 756 1.1 bouyer 757 1.1 bouyer static void 758 1.1 bouyer tl_intreg_write_byte(sc, reg, val) 759 1.1 bouyer tl_softc_t *sc; 760 1.1 bouyer u_int32_t reg; 761 1.1 bouyer u_int8_t val; 762 1.1 bouyer { 763 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_INTR_DIOADR, 764 1.17 bouyer (reg & (~0x03)) & TL_HOST_DIOADR_MASK); 765 1.1 bouyer TL_HR_WRITE_BYTE(sc, TL_HOST_DIO_DATA + (reg & 0x03), val); 766 1.1 bouyer } 767 1.1 bouyer 768 1.28 tron void 769 1.28 tron tl_mii_sync(sc) 770 1.28 tron struct tl_softc *sc; 771 1.1 bouyer { 772 1.28 tron int i; 773 1.1 bouyer 774 1.28 tron netsio_clr(sc, TL_NETSIO_MTXEN); 775 1.28 tron for (i = 0; i < 32; i++) { 776 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 777 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 778 1.28 tron } 779 1.1 bouyer } 780 1.1 bouyer 781 1.15 thorpej void 782 1.28 tron tl_mii_sendbits(sc, data, nbits) 783 1.28 tron struct tl_softc *sc; 784 1.28 tron u_int32_t data; 785 1.28 tron int nbits; 786 1.1 bouyer { 787 1.28 tron int i; 788 1.1 bouyer 789 1.28 tron netsio_set(sc, TL_NETSIO_MTXEN); 790 1.28 tron for (i = 1 << (nbits - 1); i; i = i >> 1) { 791 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 792 1.28 tron netsio_read(sc, TL_NETSIO_MCLK); 793 1.28 tron if (data & i) 794 1.28 tron netsio_set(sc, TL_NETSIO_MDATA); 795 1.28 tron else 796 1.28 tron netsio_clr(sc, TL_NETSIO_MDATA); 797 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 798 1.28 tron netsio_read(sc, TL_NETSIO_MCLK); 799 1.28 tron } 800 1.1 bouyer } 801 1.1 bouyer 802 1.15 thorpej int 803 1.15 thorpej tl_mii_read(self, phy, reg) 804 1.15 thorpej struct device *self; 805 1.15 thorpej int phy, reg; 806 1.1 bouyer { 807 1.28 tron struct tl_softc *sc = (struct tl_softc *)self; 808 1.28 tron int val = 0, i, err; 809 1.28 tron 810 1.28 tron /* 811 1.28 tron * Read the PHY register by manually driving the MII control lines. 812 1.28 tron */ 813 1.1 bouyer 814 1.28 tron tl_mii_sync(sc); 815 1.28 tron tl_mii_sendbits(sc, MII_COMMAND_START, 2); 816 1.28 tron tl_mii_sendbits(sc, MII_COMMAND_READ, 2); 817 1.28 tron tl_mii_sendbits(sc, phy, 5); 818 1.28 tron tl_mii_sendbits(sc, reg, 5); 819 1.28 tron 820 1.28 tron netsio_clr(sc, TL_NETSIO_MTXEN); 821 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 822 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 823 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 824 1.28 tron 825 1.28 tron err = netsio_read(sc, TL_NETSIO_MDATA); 826 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 827 1.28 tron 828 1.28 tron /* Even if an error occurs, must still clock out the cycle. */ 829 1.28 tron for (i = 0; i < 16; i++) { 830 1.28 tron val <<= 1; 831 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 832 1.28 tron if (err == 0 && netsio_read(sc, TL_NETSIO_MDATA)) 833 1.28 tron val |= 1; 834 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 835 1.28 tron } 836 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 837 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 838 1.28 tron 839 1.28 tron return (err ? 0 : val); 840 1.15 thorpej } 841 1.15 thorpej 842 1.15 thorpej void 843 1.15 thorpej tl_mii_write(self, phy, reg, val) 844 1.15 thorpej struct device *self; 845 1.15 thorpej int phy, reg, val; 846 1.15 thorpej { 847 1.28 tron struct tl_softc *sc = (struct tl_softc *)self; 848 1.28 tron 849 1.28 tron /* 850 1.28 tron * Write the PHY register by manually driving the MII control lines. 851 1.28 tron */ 852 1.28 tron 853 1.28 tron tl_mii_sync(sc); 854 1.28 tron tl_mii_sendbits(sc, MII_COMMAND_START, 2); 855 1.28 tron tl_mii_sendbits(sc, MII_COMMAND_WRITE, 2); 856 1.28 tron tl_mii_sendbits(sc, phy, 5); 857 1.28 tron tl_mii_sendbits(sc, reg, 5); 858 1.28 tron tl_mii_sendbits(sc, MII_COMMAND_ACK, 2); 859 1.28 tron tl_mii_sendbits(sc, val, 16); 860 1.15 thorpej 861 1.28 tron netsio_clr(sc, TL_NETSIO_MCLK); 862 1.28 tron netsio_set(sc, TL_NETSIO_MCLK); 863 1.15 thorpej } 864 1.15 thorpej 865 1.15 thorpej void 866 1.15 thorpej tl_statchg(self) 867 1.15 thorpej struct device *self; 868 1.15 thorpej { 869 1.15 thorpej tl_softc_t *sc = (struct tl_softc *)self; 870 1.15 thorpej u_int32_t reg; 871 1.15 thorpej 872 1.15 thorpej #ifdef TLDEBUG 873 1.15 thorpej printf("tl_statchg, media %x\n", sc->tl_ifmedia.ifm_media); 874 1.15 thorpej #endif 875 1.15 thorpej 876 1.15 thorpej /* 877 1.15 thorpej * We must keep the ThunderLAN and the PHY in sync as 878 1.15 thorpej * to the status of full-duplex! 879 1.15 thorpej */ 880 1.15 thorpej reg = tl_intreg_read_byte(sc, TL_INT_NET + TL_INT_NetCmd); 881 1.15 thorpej if (sc->tl_mii.mii_media_active & IFM_FDX) 882 1.15 thorpej reg |= TL_NETCOMMAND_DUPLEX; 883 1.15 thorpej else 884 1.15 thorpej reg &= ~TL_NETCOMMAND_DUPLEX; 885 1.15 thorpej tl_intreg_write_byte(sc, TL_INT_NET + TL_INT_NetCmd, reg); 886 1.1 bouyer } 887 1.1 bouyer 888 1.1 bouyer void tl_i2c_set(v, bit) 889 1.1 bouyer void *v; 890 1.1 bouyer u_int8_t bit; 891 1.1 bouyer { 892 1.1 bouyer tl_softc_t *sc = v; 893 1.1 bouyer 894 1.1 bouyer switch (bit) { 895 1.1 bouyer case I2C_DATA: 896 1.1 bouyer netsio_set(sc, TL_NETSIO_EDATA); 897 1.1 bouyer break; 898 1.1 bouyer case I2C_CLOCK: 899 1.1 bouyer netsio_set(sc, TL_NETSIO_ECLOCK); 900 1.1 bouyer break; 901 1.1 bouyer case I2C_TXEN: 902 1.1 bouyer netsio_set(sc, TL_NETSIO_ETXEN); 903 1.1 bouyer break; 904 1.1 bouyer default: 905 1.1 bouyer printf("tl_i2c_set: unknown bit %d\n", bit); 906 1.1 bouyer } 907 1.1 bouyer return; 908 1.1 bouyer } 909 1.1 bouyer 910 1.1 bouyer void tl_i2c_clr(v, bit) 911 1.1 bouyer void *v; 912 1.1 bouyer u_int8_t bit; 913 1.1 bouyer { 914 1.1 bouyer tl_softc_t *sc = v; 915 1.1 bouyer 916 1.1 bouyer switch (bit) { 917 1.1 bouyer case I2C_DATA: 918 1.1 bouyer netsio_clr(sc, TL_NETSIO_EDATA); 919 1.1 bouyer break; 920 1.1 bouyer case I2C_CLOCK: 921 1.1 bouyer netsio_clr(sc, TL_NETSIO_ECLOCK); 922 1.1 bouyer break; 923 1.1 bouyer case I2C_TXEN: 924 1.1 bouyer netsio_clr(sc, TL_NETSIO_ETXEN); 925 1.1 bouyer break; 926 1.1 bouyer default: 927 1.1 bouyer printf("tl_i2c_clr: unknown bit %d\n", bit); 928 1.1 bouyer } 929 1.1 bouyer return; 930 1.1 bouyer } 931 1.1 bouyer 932 1.1 bouyer int tl_i2c_read(v, bit) 933 1.1 bouyer void *v; 934 1.1 bouyer u_int8_t bit; 935 1.1 bouyer { 936 1.1 bouyer tl_softc_t *sc = v; 937 1.1 bouyer 938 1.1 bouyer switch (bit) { 939 1.1 bouyer case I2C_DATA: 940 1.1 bouyer return netsio_read(sc, TL_NETSIO_EDATA); 941 1.1 bouyer break; 942 1.1 bouyer case I2C_CLOCK: 943 1.1 bouyer return netsio_read(sc, TL_NETSIO_ECLOCK); 944 1.1 bouyer break; 945 1.1 bouyer case I2C_TXEN: 946 1.1 bouyer return netsio_read(sc, TL_NETSIO_ETXEN); 947 1.1 bouyer break; 948 1.1 bouyer default: 949 1.1 bouyer printf("tl_i2c_read: unknown bit %d\n", bit); 950 1.1 bouyer return -1; 951 1.1 bouyer } 952 1.1 bouyer } 953 1.1 bouyer 954 1.1 bouyer static int 955 1.1 bouyer tl_intr(v) 956 1.1 bouyer void *v; 957 1.1 bouyer { 958 1.1 bouyer tl_softc_t *sc = v; 959 1.1 bouyer struct ifnet *ifp = &sc->tl_if; 960 1.1 bouyer struct Rx_list *Rx; 961 1.1 bouyer struct Tx_list *Tx; 962 1.1 bouyer struct mbuf *m; 963 1.1 bouyer u_int32_t int_type, int_reg; 964 1.1 bouyer int ack = 0; 965 1.1 bouyer int size; 966 1.1 bouyer 967 1.1 bouyer int_reg = TL_HR_READ(sc, TL_HOST_INTR_DIOADR); 968 1.1 bouyer int_type = int_reg & TL_INTR_MASK; 969 1.1 bouyer if (int_type == 0) 970 1.1 bouyer return 0; 971 1.1 bouyer #if defined(TLDEBUG_RX) || defined(TLDEBUG_TX) 972 1.1 bouyer printf("%s: interrupt type %x, intr_reg %x\n", sc->sc_dev.dv_xname, 973 1.17 bouyer int_type, int_reg); 974 1.1 bouyer #endif 975 1.1 bouyer /* disable interrupts */ 976 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_IntOff); 977 1.1 bouyer switch(int_type & TL_INTR_MASK) { 978 1.1 bouyer case TL_INTR_RxEOF: 979 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Rx_dmamap, 0, 980 1.39.2.1 nathanw sizeof(struct tl_Rx_list) * TL_NBUF, 981 1.39.2.1 nathanw BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 982 1.39.2.1 nathanw while(le32toh(sc->active_Rx->hw_list->stat) & 983 1.39.2.1 nathanw TL_RX_CSTAT_CPLT) { 984 1.1 bouyer /* dequeue and requeue at end of list */ 985 1.1 bouyer ack++; 986 1.1 bouyer Rx = sc->active_Rx; 987 1.1 bouyer sc->active_Rx = Rx->next; 988 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, Rx->m_dmamap, 0, 989 1.39.2.1 nathanw MCLBYTES, BUS_DMASYNC_POSTREAD); 990 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, Rx->m_dmamap); 991 1.1 bouyer m = Rx->m; 992 1.39.2.1 nathanw size = le32toh(Rx->hw_list->stat) >> 16; 993 1.1 bouyer #ifdef TLDEBUG_RX 994 1.17 bouyer printf("tl_intr: RX list complete, Rx %p, size=%d\n", 995 1.17 bouyer Rx, size); 996 1.1 bouyer #endif 997 1.39.2.1 nathanw if (tl_add_RxBuff(sc, Rx, m ) == 0) { 998 1.17 bouyer /* 999 1.17 bouyer * No new mbuf, reuse the same. This means 1000 1.17 bouyer * that this packet 1001 1.17 bouyer * is lost 1002 1.17 bouyer */ 1003 1.1 bouyer m = NULL; 1004 1.1 bouyer #ifdef TL_PRIV_STATS 1005 1.1 bouyer sc->ierr_nomem++; 1006 1.1 bouyer #endif 1007 1.1 bouyer #ifdef TLDEBUG 1008 1.1 bouyer printf("%s: out of mbuf, lost input packet\n", 1009 1.17 bouyer sc->sc_dev.dv_xname); 1010 1.1 bouyer #endif 1011 1.1 bouyer } 1012 1.1 bouyer Rx->next = NULL; 1013 1.39.2.1 nathanw Rx->hw_list->fwd = 0; 1014 1.39.2.1 nathanw sc->last_Rx->hw_list->fwd = htole32(Rx->hw_listaddr); 1015 1.1 bouyer sc->last_Rx->next = Rx; 1016 1.1 bouyer sc->last_Rx = Rx; 1017 1.1 bouyer 1018 1.1 bouyer /* deliver packet */ 1019 1.1 bouyer if (m) { 1020 1.1 bouyer if (size < sizeof(struct ether_header)) { 1021 1.1 bouyer m_freem(m); 1022 1.1 bouyer continue; 1023 1.1 bouyer } 1024 1.1 bouyer m->m_pkthdr.rcvif = ifp; 1025 1.24 thorpej m->m_pkthdr.len = m->m_len = size; 1026 1.1 bouyer #ifdef TLDEBUG_RX 1027 1.36 thorpej { struct ether_header *eh = 1028 1.36 thorpej mtod(m, struct ether_header *); 1029 1.1 bouyer printf("tl_intr: Rx packet:\n"); 1030 1.36 thorpej ether_printheader(eh); } 1031 1.1 bouyer #endif 1032 1.1 bouyer #if NBPFILTER > 0 1033 1.36 thorpej if (ifp->if_bpf) 1034 1.36 thorpej bpf_mtap(ifp->if_bpf, m); 1035 1.1 bouyer #endif /* NBPFILTER > 0 */ 1036 1.24 thorpej (*ifp->if_input)(ifp, m); 1037 1.1 bouyer } 1038 1.1 bouyer } 1039 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Rx_dmamap, 0, 1040 1.39.2.1 nathanw sizeof(struct tl_Rx_list) * TL_NBUF, 1041 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1042 1.1 bouyer #ifdef TLDEBUG_RX 1043 1.1 bouyer printf("TL_INTR_RxEOF: ack %d\n", ack); 1044 1.1 bouyer #else 1045 1.1 bouyer if (ack == 0) { 1046 1.1 bouyer printf("%s: EOF intr without anything to read !\n", 1047 1.17 bouyer sc->sc_dev.dv_xname); 1048 1.1 bouyer tl_reset(sc); 1049 1.1 bouyer /* shedule reinit of the board */ 1050 1.32 thorpej callout_reset(&sc->tl_restart_ch, 1, tl_restart, sc); 1051 1.1 bouyer return(1); 1052 1.1 bouyer } 1053 1.1 bouyer #endif 1054 1.1 bouyer break; 1055 1.1 bouyer case TL_INTR_RxEOC: 1056 1.1 bouyer ack++; 1057 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Rx_dmamap, 0, 1058 1.39.2.1 nathanw sizeof(struct tl_Rx_list) * TL_NBUF, 1059 1.39.2.1 nathanw BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 1060 1.1 bouyer #ifdef TLDEBUG_RX 1061 1.1 bouyer printf("TL_INTR_RxEOC: ack %d\n", ack); 1062 1.1 bouyer #endif 1063 1.1 bouyer #ifdef DIAGNOSTIC 1064 1.39.2.1 nathanw if (le32toh(sc->active_Rx->hw_list->stat) & TL_RX_CSTAT_CPLT) { 1065 1.39.2.1 nathanw printf("%s: Rx EOC interrupt and active Tx list not " 1066 1.17 bouyer "cleared\n", sc->sc_dev.dv_xname); 1067 1.1 bouyer return 0; 1068 1.1 bouyer } else 1069 1.1 bouyer #endif 1070 1.1 bouyer { 1071 1.17 bouyer /* 1072 1.17 bouyer * write adress of Rx list and send Rx GO command, ack 1073 1.17 bouyer * interrupt and enable interrupts in one command 1074 1.17 bouyer */ 1075 1.39.2.1 nathanw TL_HR_WRITE(sc, TL_HOST_CH_PARM, sc->active_Rx->hw_listaddr); 1076 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 1077 1.17 bouyer HOST_CMD_GO | HOST_CMD_RT | HOST_CMD_Nes | ack | int_type | 1078 1.17 bouyer HOST_CMD_ACK | HOST_CMD_IntOn); 1079 1.1 bouyer return 1; 1080 1.1 bouyer } 1081 1.1 bouyer case TL_INTR_TxEOF: 1082 1.1 bouyer case TL_INTR_TxEOC: 1083 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Tx_dmamap, 0, 1084 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 1085 1.39.2.1 nathanw BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 1086 1.1 bouyer while ((Tx = sc->active_Tx) != NULL) { 1087 1.39.2.1 nathanw if((le32toh(Tx->hw_list->stat) & TL_TX_CSTAT_CPLT) == 0) 1088 1.1 bouyer break; 1089 1.1 bouyer ack++; 1090 1.1 bouyer #ifdef TLDEBUG_TX 1091 1.39.2.1 nathanw printf("TL_INTR_TxEOC: list 0x%x done\n", 1092 1.39.2.1 nathanw (int)Tx->hw_listaddr); 1093 1.1 bouyer #endif 1094 1.39.2.1 nathanw Tx->hw_list->stat = 0; 1095 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, Tx->m_dmamap, 0, 1096 1.39.2.1 nathanw MCLBYTES, BUS_DMASYNC_POSTWRITE); 1097 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, Tx->m_dmamap); 1098 1.1 bouyer m_freem(Tx->m); 1099 1.1 bouyer Tx->m = NULL; 1100 1.1 bouyer sc->active_Tx = Tx->next; 1101 1.1 bouyer if (sc->active_Tx == NULL) 1102 1.1 bouyer sc->last_Tx = NULL; 1103 1.1 bouyer Tx->next = sc->Free_Tx; 1104 1.1 bouyer sc->Free_Tx = Tx; 1105 1.1 bouyer } 1106 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Tx_dmamap, 0, 1107 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 1108 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1109 1.1 bouyer /* if this was an EOC, ACK immediatly */ 1110 1.39.2.1 nathanw if (ack) 1111 1.39.2.1 nathanw sc->tl_if.if_flags &= ~IFF_OACTIVE; 1112 1.1 bouyer if (int_type == TL_INTR_TxEOC) { 1113 1.1 bouyer #ifdef TLDEBUG_TX 1114 1.17 bouyer printf("TL_INTR_TxEOC: ack %d (will be set to 1)\n", 1115 1.17 bouyer ack); 1116 1.1 bouyer #endif 1117 1.17 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, 1 | int_type | 1118 1.17 bouyer HOST_CMD_ACK | HOST_CMD_IntOn); 1119 1.17 bouyer if ( sc->active_Tx != NULL) { 1120 1.17 bouyer /* needs a Tx go command */ 1121 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CH_PARM, 1122 1.39.2.1 nathanw sc->active_Tx->hw_listaddr); 1123 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_GO); 1124 1.1 bouyer } 1125 1.1 bouyer sc->tl_if.if_timer = 0; 1126 1.39.2.5 nathanw if (IFQ_IS_EMPTY(&sc->tl_if.if_snd) == 0) 1127 1.1 bouyer tl_ifstart(&sc->tl_if); 1128 1.1 bouyer return 1; 1129 1.1 bouyer } 1130 1.1 bouyer #ifdef TLDEBUG 1131 1.1 bouyer else { 1132 1.1 bouyer printf("TL_INTR_TxEOF: ack %d\n", ack); 1133 1.1 bouyer } 1134 1.1 bouyer #endif 1135 1.1 bouyer sc->tl_if.if_timer = 0; 1136 1.39.2.5 nathanw if (IFQ_IS_EMPTY(&sc->tl_if.if_snd) == 0) 1137 1.1 bouyer tl_ifstart(&sc->tl_if); 1138 1.1 bouyer break; 1139 1.1 bouyer case TL_INTR_Stat: 1140 1.1 bouyer ack++; 1141 1.1 bouyer #ifdef TLDEBUG 1142 1.1 bouyer printf("TL_INTR_Stat: ack %d\n", ack); 1143 1.1 bouyer #endif 1144 1.1 bouyer tl_read_stats(sc); 1145 1.1 bouyer break; 1146 1.1 bouyer case TL_INTR_Adc: 1147 1.1 bouyer if (int_reg & TL_INTVec_MASK) { 1148 1.1 bouyer /* adapter check conditions */ 1149 1.17 bouyer printf("%s: check condition, intvect=0x%x, " 1150 1.17 bouyer "ch_param=0x%x\n", sc->sc_dev.dv_xname, 1151 1.17 bouyer int_reg & TL_INTVec_MASK, 1152 1.17 bouyer TL_HR_READ(sc, TL_HOST_CH_PARM)); 1153 1.1 bouyer tl_reset(sc); 1154 1.1 bouyer /* shedule reinit of the board */ 1155 1.32 thorpej callout_reset(&sc->tl_restart_ch, 1, tl_restart, sc); 1156 1.1 bouyer return(1); 1157 1.1 bouyer } else { 1158 1.1 bouyer u_int8_t netstat; 1159 1.1 bouyer /* Network status */ 1160 1.17 bouyer netstat = 1161 1.17 bouyer tl_intreg_read_byte(sc, TL_INT_NET+TL_INT_NetSts); 1162 1.1 bouyer printf("%s: network status, NetSts=%x\n", 1163 1.17 bouyer sc->sc_dev.dv_xname, netstat); 1164 1.1 bouyer /* Ack interrupts */ 1165 1.17 bouyer tl_intreg_write_byte(sc, TL_INT_NET+TL_INT_NetSts, 1166 1.17 bouyer netstat); 1167 1.1 bouyer ack++; 1168 1.1 bouyer } 1169 1.1 bouyer break; 1170 1.1 bouyer default: 1171 1.1 bouyer printf("%s: unhandled interrupt code %x!\n", 1172 1.17 bouyer sc->sc_dev.dv_xname, int_type); 1173 1.1 bouyer ack++; 1174 1.1 bouyer } 1175 1.1 bouyer 1176 1.1 bouyer if (ack) { 1177 1.1 bouyer /* Ack the interrupt and enable interrupts */ 1178 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, ack | int_type | HOST_CMD_ACK | 1179 1.17 bouyer HOST_CMD_IntOn); 1180 1.1 bouyer return 1; 1181 1.1 bouyer } 1182 1.1 bouyer /* ack = 0 ; interrupt was perhaps not our. Just enable interrupts */ 1183 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_IntOn); 1184 1.1 bouyer return 0; 1185 1.1 bouyer } 1186 1.1 bouyer 1187 1.1 bouyer static int 1188 1.1 bouyer tl_ifioctl(ifp, cmd, data) 1189 1.1 bouyer struct ifnet *ifp; 1190 1.1 bouyer ioctl_cmd_t cmd; 1191 1.1 bouyer caddr_t data; 1192 1.1 bouyer { 1193 1.1 bouyer struct tl_softc *sc = ifp->if_softc; 1194 1.1 bouyer struct ifreq *ifr = (struct ifreq *)data; 1195 1.1 bouyer int s, error; 1196 1.1 bouyer 1197 1.14 mycroft s = splnet(); 1198 1.1 bouyer switch(cmd) { 1199 1.1 bouyer case SIOCSIFMEDIA: 1200 1.1 bouyer case SIOCGIFMEDIA: 1201 1.15 thorpej error = ifmedia_ioctl(ifp, ifr, &sc->tl_mii.mii_media, cmd); 1202 1.1 bouyer break; 1203 1.1 bouyer default: 1204 1.39.2.2 nathanw error = ether_ioctl(ifp, cmd, data); 1205 1.39.2.2 nathanw if (error == ENETRESET) { 1206 1.39.2.2 nathanw tl_addr_filter(sc); 1207 1.39.2.2 nathanw error = 0; 1208 1.39.2.2 nathanw } 1209 1.1 bouyer } 1210 1.1 bouyer splx(s); 1211 1.1 bouyer return error; 1212 1.1 bouyer } 1213 1.1 bouyer 1214 1.1 bouyer static void 1215 1.1 bouyer tl_ifstart(ifp) 1216 1.1 bouyer struct ifnet *ifp; 1217 1.1 bouyer { 1218 1.1 bouyer tl_softc_t *sc = ifp->if_softc; 1219 1.39.2.1 nathanw struct mbuf *mb_head; 1220 1.1 bouyer struct Tx_list *Tx; 1221 1.1 bouyer int segment, size; 1222 1.39.2.1 nathanw int again, error; 1223 1.39.2.1 nathanw 1224 1.39.2.1 nathanw if ((sc->tl_if.if_flags & (IFF_RUNNING|IFF_OACTIVE)) != IFF_RUNNING) 1225 1.39.2.1 nathanw return; 1226 1.1 bouyer txloop: 1227 1.1 bouyer /* If we don't have more space ... */ 1228 1.1 bouyer if (sc->Free_Tx == NULL) { 1229 1.1 bouyer #ifdef TLDEBUG 1230 1.1 bouyer printf("tl_ifstart: No free TX list\n"); 1231 1.1 bouyer #endif 1232 1.39.2.1 nathanw sc->tl_if.if_flags |= IFF_OACTIVE; 1233 1.1 bouyer return; 1234 1.1 bouyer } 1235 1.1 bouyer /* Grab a paquet for output */ 1236 1.39.2.5 nathanw IFQ_DEQUEUE(&ifp->if_snd, mb_head); 1237 1.1 bouyer if (mb_head == NULL) { 1238 1.1 bouyer #ifdef TLDEBUG_TX 1239 1.1 bouyer printf("tl_ifstart: nothing to send\n"); 1240 1.1 bouyer #endif 1241 1.1 bouyer return; 1242 1.1 bouyer } 1243 1.1 bouyer Tx = sc->Free_Tx; 1244 1.1 bouyer sc->Free_Tx = Tx->next; 1245 1.39.2.1 nathanw Tx->next = NULL; 1246 1.39.2.1 nathanw again = 0; 1247 1.1 bouyer /* 1248 1.1 bouyer * Go through each of the mbufs in the chain and initialize 1249 1.1 bouyer * the transmit list descriptors with the physical address 1250 1.1 bouyer * and size of the mbuf. 1251 1.1 bouyer */ 1252 1.1 bouyer tbdinit: 1253 1.39.2.1 nathanw memset(Tx->hw_list, 0, sizeof(struct tl_Tx_list)); 1254 1.1 bouyer Tx->m = mb_head; 1255 1.39.2.1 nathanw size = mb_head->m_pkthdr.len; 1256 1.39.2.1 nathanw if ((error = bus_dmamap_load_mbuf(sc->tl_dmatag, Tx->m_dmamap, mb_head, 1257 1.39.2.1 nathanw BUS_DMA_NOWAIT)) || (size < ETHER_MIN_TX && 1258 1.39.2.1 nathanw Tx->m_dmamap->dm_nsegs == TL_NSEG)) { 1259 1.39.2.1 nathanw struct mbuf *mn; 1260 1.1 bouyer /* 1261 1.17 bouyer * We ran out of segments, or we will. We have to recopy this 1262 1.17 bouyer * mbuf chain first. 1263 1.1 bouyer */ 1264 1.39.2.1 nathanw if (error == 0) 1265 1.39.2.1 nathanw bus_dmamap_unload(sc->tl_dmatag, Tx->m_dmamap); 1266 1.39.2.1 nathanw if (again) { 1267 1.39.2.1 nathanw /* already copyed, can't do much more */ 1268 1.39.2.1 nathanw m_freem(mb_head); 1269 1.39.2.1 nathanw goto bad; 1270 1.39.2.1 nathanw } 1271 1.39.2.1 nathanw again = 1; 1272 1.1 bouyer #ifdef TLDEBUG_TX 1273 1.1 bouyer printf("tl_ifstart: need to copy mbuf\n"); 1274 1.1 bouyer #endif 1275 1.1 bouyer #ifdef TL_PRIV_STATS 1276 1.1 bouyer sc->oerr_mcopy++; 1277 1.1 bouyer #endif 1278 1.1 bouyer MGETHDR(mn, M_DONTWAIT, MT_DATA); 1279 1.1 bouyer if (mn == NULL) { 1280 1.1 bouyer m_freem(mb_head); 1281 1.1 bouyer goto bad; 1282 1.1 bouyer } 1283 1.1 bouyer if (mb_head->m_pkthdr.len > MHLEN) { 1284 1.1 bouyer MCLGET(mn, M_DONTWAIT); 1285 1.1 bouyer if ((mn->m_flags & M_EXT) == 0) { 1286 1.1 bouyer m_freem(mn); 1287 1.1 bouyer m_freem(mb_head); 1288 1.1 bouyer goto bad; 1289 1.1 bouyer } 1290 1.1 bouyer } 1291 1.1 bouyer m_copydata(mb_head, 0, mb_head->m_pkthdr.len, 1292 1.17 bouyer mtod(mn, caddr_t)); 1293 1.1 bouyer mn->m_pkthdr.len = mn->m_len = mb_head->m_pkthdr.len; 1294 1.1 bouyer m_freem(mb_head); 1295 1.1 bouyer mb_head = mn; 1296 1.1 bouyer goto tbdinit; 1297 1.1 bouyer } 1298 1.39.2.1 nathanw for (segment = 0; segment < Tx->m_dmamap->dm_nsegs; segment++) { 1299 1.39.2.1 nathanw Tx->hw_list->seg[segment].data_addr = 1300 1.39.2.1 nathanw htole32(Tx->m_dmamap->dm_segs[segment].ds_addr); 1301 1.39.2.1 nathanw Tx->hw_list->seg[segment].data_count = 1302 1.39.2.1 nathanw htole32(Tx->m_dmamap->dm_segs[segment].ds_len); 1303 1.39.2.1 nathanw } 1304 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, Tx->m_dmamap, 0, size, 1305 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1306 1.1 bouyer /* We are at end of mbuf chain. check the size and 1307 1.1 bouyer * see if it needs to be extended 1308 1.1 bouyer */ 1309 1.1 bouyer if (size < ETHER_MIN_TX) { 1310 1.1 bouyer #ifdef DIAGNOSTIC 1311 1.1 bouyer if (segment >= TL_NSEG) { 1312 1.1 bouyer panic("tl_ifstart: to much segmets (%d)\n", segment); 1313 1.1 bouyer } 1314 1.1 bouyer #endif 1315 1.1 bouyer /* 1316 1.1 bouyer * add the nullbuf in the seg 1317 1.1 bouyer */ 1318 1.39.2.1 nathanw Tx->hw_list->seg[segment].data_count = 1319 1.39.2.1 nathanw htole32(ETHER_MIN_TX - size); 1320 1.39.2.1 nathanw Tx->hw_list->seg[segment].data_addr = 1321 1.39.2.1 nathanw htole32(sc->null_dmamap->dm_segs[0].ds_addr); 1322 1.1 bouyer size = ETHER_MIN_TX; 1323 1.1 bouyer segment++; 1324 1.1 bouyer } 1325 1.1 bouyer /* The list is done, finish the list init */ 1326 1.39.2.1 nathanw Tx->hw_list->seg[segment-1].data_count |= 1327 1.39.2.1 nathanw htole32(TL_LAST_SEG); 1328 1.39.2.1 nathanw Tx->hw_list->stat = htole32((size << 16) | 0x3000); 1329 1.1 bouyer #ifdef TLDEBUG_TX 1330 1.1 bouyer printf("%s: sending, Tx : stat = 0x%x\n", sc->sc_dev.dv_xname, 1331 1.39.2.1 nathanw le32toh(Tx->hw_list->stat)); 1332 1.1 bouyer #if 0 1333 1.1 bouyer for(segment = 0; segment < TL_NSEG; segment++) { 1334 1.1 bouyer printf(" seg %d addr 0x%x len 0x%x\n", 1335 1.17 bouyer segment, 1336 1.39.2.1 nathanw le32toh(Tx->hw_list->seg[segment].data_addr), 1337 1.39.2.1 nathanw le32toh(Tx->hw_list->seg[segment].data_count)); 1338 1.1 bouyer } 1339 1.1 bouyer #endif 1340 1.1 bouyer #endif 1341 1.1 bouyer if (sc->active_Tx == NULL) { 1342 1.1 bouyer sc->active_Tx = sc->last_Tx = Tx; 1343 1.1 bouyer #ifdef TLDEBUG_TX 1344 1.39.2.1 nathanw printf("%s: Tx GO, addr=0x%ux\n", sc->sc_dev.dv_xname, 1345 1.39.2.1 nathanw (int)Tx->hw_listaddr); 1346 1.1 bouyer #endif 1347 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Tx_dmamap, 0, 1348 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 1349 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1350 1.39.2.1 nathanw TL_HR_WRITE(sc, TL_HOST_CH_PARM, Tx->hw_listaddr); 1351 1.1 bouyer TL_HR_WRITE(sc, TL_HOST_CMD, HOST_CMD_GO); 1352 1.1 bouyer } else { 1353 1.1 bouyer #ifdef TLDEBUG_TX 1354 1.39.2.1 nathanw printf("%s: Tx addr=0x%ux queued\n", sc->sc_dev.dv_xname, 1355 1.39.2.1 nathanw (int)Tx->hw_listaddr); 1356 1.1 bouyer #endif 1357 1.39.2.1 nathanw sc->last_Tx->hw_list->fwd = htole32(Tx->hw_listaddr); 1358 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, sc->Tx_dmamap, 0, 1359 1.39.2.1 nathanw sizeof(struct tl_Tx_list) * TL_NBUF, 1360 1.39.2.1 nathanw BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1361 1.1 bouyer sc->last_Tx->next = Tx; 1362 1.1 bouyer sc->last_Tx = Tx; 1363 1.1 bouyer #ifdef DIAGNOSTIC 1364 1.39.2.1 nathanw if (sc->last_Tx->hw_list->fwd & 0x7) 1365 1.17 bouyer printf("%s: physical addr 0x%x of list not properly " 1366 1.17 bouyer "aligned\n", 1367 1.39.2.1 nathanw sc->sc_dev.dv_xname, sc->last_Rx->hw_list->fwd); 1368 1.1 bouyer #endif 1369 1.1 bouyer } 1370 1.1 bouyer #if NBPFILTER > 0 1371 1.1 bouyer /* Pass packet to bpf if there is a listener */ 1372 1.1 bouyer if (ifp->if_bpf) 1373 1.1 bouyer bpf_mtap(ifp->if_bpf, mb_head); 1374 1.1 bouyer #endif 1375 1.17 bouyer /* 1376 1.17 bouyer * Set a 5 second timer just in case we don't hear from the card again. 1377 1.17 bouyer */ 1378 1.1 bouyer ifp->if_timer = 5; 1379 1.1 bouyer goto txloop; 1380 1.1 bouyer bad: 1381 1.1 bouyer #ifdef TLDEBUG 1382 1.1 bouyer printf("tl_ifstart: Out of mbuf, Tx pkt lost\n"); 1383 1.1 bouyer #endif 1384 1.1 bouyer Tx->next = sc->Free_Tx; 1385 1.1 bouyer sc->Free_Tx = Tx; 1386 1.1 bouyer return; 1387 1.1 bouyer } 1388 1.1 bouyer 1389 1.1 bouyer static void 1390 1.1 bouyer tl_ifwatchdog(ifp) 1391 1.1 bouyer struct ifnet *ifp; 1392 1.1 bouyer { 1393 1.1 bouyer tl_softc_t *sc = ifp->if_softc; 1394 1.1 bouyer 1395 1.1 bouyer if ((ifp->if_flags & IFF_RUNNING) == 0) 1396 1.1 bouyer return; 1397 1.1 bouyer printf("%s: device timeout\n", sc->sc_dev.dv_xname); 1398 1.1 bouyer ifp->if_oerrors++; 1399 1.39.2.2 nathanw tl_init(ifp); 1400 1.1 bouyer } 1401 1.1 bouyer 1402 1.1 bouyer static int 1403 1.1 bouyer tl_mediachange(ifp) 1404 1.1 bouyer struct ifnet *ifp; 1405 1.1 bouyer { 1406 1.15 thorpej 1407 1.15 thorpej if (ifp->if_flags & IFF_UP) 1408 1.39.2.5 nathanw tl_init(ifp); 1409 1.15 thorpej return (0); 1410 1.1 bouyer } 1411 1.1 bouyer 1412 1.1 bouyer static void 1413 1.1 bouyer tl_mediastatus(ifp, ifmr) 1414 1.1 bouyer struct ifnet *ifp; 1415 1.1 bouyer struct ifmediareq *ifmr; 1416 1.1 bouyer { 1417 1.1 bouyer tl_softc_t *sc = ifp->if_softc; 1418 1.15 thorpej 1419 1.15 thorpej mii_pollstat(&sc->tl_mii); 1420 1.15 thorpej ifmr->ifm_active = sc->tl_mii.mii_media_active; 1421 1.15 thorpej ifmr->ifm_status = sc->tl_mii.mii_media_status; 1422 1.1 bouyer } 1423 1.1 bouyer 1424 1.39.2.1 nathanw static int tl_add_RxBuff(sc, Rx, oldm) 1425 1.39.2.1 nathanw tl_softc_t *sc; 1426 1.1 bouyer struct Rx_list *Rx; 1427 1.1 bouyer struct mbuf *oldm; 1428 1.1 bouyer { 1429 1.1 bouyer struct mbuf *m; 1430 1.39.2.1 nathanw int error; 1431 1.1 bouyer 1432 1.1 bouyer MGETHDR(m, M_DONTWAIT, MT_DATA); 1433 1.1 bouyer if (m != NULL) { 1434 1.1 bouyer MCLGET(m, M_DONTWAIT); 1435 1.1 bouyer if ((m->m_flags & M_EXT) == 0) { 1436 1.1 bouyer m_freem(m); 1437 1.1 bouyer if (oldm == NULL) 1438 1.1 bouyer return 0; 1439 1.1 bouyer m = oldm; 1440 1.1 bouyer m->m_data = m->m_ext.ext_buf; 1441 1.1 bouyer } 1442 1.1 bouyer } else { 1443 1.1 bouyer if (oldm == NULL) 1444 1.1 bouyer return 0; 1445 1.1 bouyer m = oldm; 1446 1.1 bouyer m->m_data = m->m_ext.ext_buf; 1447 1.1 bouyer } 1448 1.39.2.1 nathanw 1449 1.39.2.1 nathanw /* (re)init the Rx_list struct */ 1450 1.39.2.1 nathanw 1451 1.39.2.1 nathanw Rx->m = m; 1452 1.39.2.1 nathanw if ((error = bus_dmamap_load(sc->tl_dmatag, Rx->m_dmamap, 1453 1.39.2.1 nathanw m->m_ext.ext_buf, m->m_ext.ext_size, NULL, BUS_DMA_NOWAIT)) != 0) { 1454 1.39.2.1 nathanw printf("%s: bus_dmamap_load() failed (error %d) for " 1455 1.39.2.1 nathanw "tl_add_RxBuff\n", sc->sc_dev.dv_xname, error); 1456 1.39.2.1 nathanw printf("size %d (%d)\n", m->m_pkthdr.len, MCLBYTES); 1457 1.39.2.1 nathanw m_freem(m); 1458 1.39.2.1 nathanw Rx->m = NULL; 1459 1.39.2.1 nathanw return 0; 1460 1.39.2.1 nathanw } 1461 1.39.2.1 nathanw bus_dmamap_sync(sc->tl_dmatag, Rx->m_dmamap, 0, 1462 1.39.2.1 nathanw MCLBYTES, BUS_DMASYNC_PREREAD); 1463 1.1 bouyer /* 1464 1.1 bouyer * Move the data pointer up so that the incoming data packet 1465 1.1 bouyer * will be 32-bit aligned. 1466 1.1 bouyer */ 1467 1.1 bouyer m->m_data += 2; 1468 1.1 bouyer 1469 1.39.2.1 nathanw Rx->hw_list->stat = 1470 1.39.2.1 nathanw htole32(((Rx->m_dmamap->dm_segs[0].ds_len -2) << 16) | 0x3000); 1471 1.39.2.1 nathanw Rx->hw_list->seg.data_count = 1472 1.39.2.1 nathanw htole32(Rx->m_dmamap->dm_segs[0].ds_len -2); 1473 1.39.2.1 nathanw Rx->hw_list->seg.data_addr = 1474 1.39.2.1 nathanw htole32(Rx->m_dmamap->dm_segs[0].ds_addr + 2); 1475 1.1 bouyer return (m != oldm); 1476 1.1 bouyer } 1477 1.1 bouyer 1478 1.1 bouyer static void tl_ticks(v) 1479 1.1 bouyer void *v; 1480 1.1 bouyer { 1481 1.1 bouyer tl_softc_t *sc = v; 1482 1.1 bouyer 1483 1.1 bouyer tl_read_stats(sc); 1484 1.19 thorpej 1485 1.19 thorpej /* Tick the MII. */ 1486 1.19 thorpej mii_tick(&sc->tl_mii); 1487 1.19 thorpej 1488 1.17 bouyer /* read statistics every seconds */ 1489 1.32 thorpej callout_reset(&sc->tl_tick_ch, hz, tl_ticks, sc); 1490 1.17 bouyer } 1491 1.17 bouyer 1492 1.17 bouyer static void 1493 1.17 bouyer tl_read_stats(sc) 1494 1.17 bouyer tl_softc_t *sc; 1495 1.17 bouyer { 1496 1.17 bouyer u_int32_t reg; 1497 1.17 bouyer int ierr_overr; 1498 1.17 bouyer int ierr_code; 1499 1.17 bouyer int ierr_crc; 1500 1.17 bouyer int oerr_underr; 1501 1.17 bouyer int oerr_deffered; 1502 1.17 bouyer int oerr_coll; 1503 1.17 bouyer int oerr_multicoll; 1504 1.17 bouyer int oerr_exesscoll; 1505 1.17 bouyer int oerr_latecoll; 1506 1.17 bouyer int oerr_carrloss; 1507 1.17 bouyer struct ifnet *ifp = &sc->tl_if; 1508 1.17 bouyer 1509 1.17 bouyer reg = tl_intreg_read(sc, TL_INT_STATS_TX); 1510 1.17 bouyer ifp->if_opackets += reg & 0x00ffffff; 1511 1.17 bouyer oerr_underr = reg >> 24; 1512 1.17 bouyer 1513 1.17 bouyer reg = tl_intreg_read(sc, TL_INT_STATS_RX); 1514 1.17 bouyer ifp->if_ipackets += reg & 0x00ffffff; 1515 1.17 bouyer ierr_overr = reg >> 24; 1516 1.17 bouyer 1517 1.17 bouyer reg = tl_intreg_read(sc, TL_INT_STATS_FERR); 1518 1.17 bouyer ierr_crc = (reg & TL_FERR_CRC) >> 16; 1519 1.17 bouyer ierr_code = (reg & TL_FERR_CODE) >> 24; 1520 1.17 bouyer oerr_deffered = (reg & TL_FERR_DEF); 1521 1.17 bouyer 1522 1.17 bouyer reg = tl_intreg_read(sc, TL_INT_STATS_COLL); 1523 1.17 bouyer oerr_multicoll = (reg & TL_COL_MULTI); 1524 1.17 bouyer oerr_coll = (reg & TL_COL_SINGLE) >> 16; 1525 1.17 bouyer 1526 1.17 bouyer reg = tl_intreg_read(sc, TL_INT_LERR); 1527 1.17 bouyer oerr_exesscoll = (reg & TL_LERR_ECOLL); 1528 1.17 bouyer oerr_latecoll = (reg & TL_LERR_LCOLL) >> 8; 1529 1.17 bouyer oerr_carrloss = (reg & TL_LERR_CL) >> 16; 1530 1.17 bouyer 1531 1.17 bouyer 1532 1.17 bouyer ifp->if_oerrors += oerr_underr + oerr_exesscoll + oerr_latecoll + 1533 1.17 bouyer oerr_carrloss; 1534 1.17 bouyer ifp->if_collisions += oerr_coll + oerr_multicoll; 1535 1.17 bouyer ifp->if_ierrors += ierr_overr + ierr_code + ierr_crc; 1536 1.17 bouyer 1537 1.17 bouyer if (ierr_overr) 1538 1.17 bouyer printf("%s: receiver ring buffer overrun\n", 1539 1.17 bouyer sc->sc_dev.dv_xname); 1540 1.17 bouyer if (oerr_underr) 1541 1.17 bouyer printf("%s: transmit buffer underrun\n", 1542 1.17 bouyer sc->sc_dev.dv_xname); 1543 1.17 bouyer #ifdef TL_PRIV_STATS 1544 1.17 bouyer sc->ierr_overr += ierr_overr; 1545 1.17 bouyer sc->ierr_code += ierr_code; 1546 1.17 bouyer sc->ierr_crc += ierr_crc; 1547 1.17 bouyer sc->oerr_underr += oerr_underr; 1548 1.17 bouyer sc->oerr_deffered += oerr_deffered; 1549 1.17 bouyer sc->oerr_coll += oerr_coll; 1550 1.17 bouyer sc->oerr_multicoll += oerr_multicoll; 1551 1.17 bouyer sc->oerr_exesscoll += oerr_exesscoll; 1552 1.17 bouyer sc->oerr_latecoll += oerr_latecoll; 1553 1.17 bouyer sc->oerr_carrloss += oerr_carrloss; 1554 1.17 bouyer #endif 1555 1.17 bouyer } 1556 1.1 bouyer 1557 1.17 bouyer static void tl_addr_filter(sc) 1558 1.17 bouyer tl_softc_t *sc; 1559 1.17 bouyer { 1560 1.17 bouyer struct ether_multistep step; 1561 1.17 bouyer struct ether_multi *enm; 1562 1.17 bouyer u_int32_t hash[2] = {0, 0}; 1563 1.17 bouyer int i; 1564 1.1 bouyer 1565 1.17 bouyer sc->tl_if.if_flags &= ~IFF_ALLMULTI; 1566 1.17 bouyer ETHER_FIRST_MULTI(step, &sc->tl_ec, enm); 1567 1.17 bouyer while (enm != NULL) { 1568 1.17 bouyer #ifdef TLDEBUG 1569 1.17 bouyer printf("tl_addr_filter: addrs %s %s\n", 1570 1.17 bouyer ether_sprintf(enm->enm_addrlo), 1571 1.17 bouyer ether_sprintf(enm->enm_addrhi)); 1572 1.17 bouyer #endif 1573 1.17 bouyer if (memcmp(enm->enm_addrlo, enm->enm_addrhi, 6) == 0) { 1574 1.17 bouyer i = tl_multicast_hash(enm->enm_addrlo); 1575 1.17 bouyer hash[i/32] |= 1 << (i%32); 1576 1.17 bouyer } else { 1577 1.17 bouyer hash[0] = hash[1] = 0xffffffff; 1578 1.17 bouyer sc->tl_if.if_flags |= IFF_ALLMULTI; 1579 1.17 bouyer break; 1580 1.1 bouyer } 1581 1.17 bouyer ETHER_NEXT_MULTI(step, enm); 1582 1.17 bouyer } 1583 1.17 bouyer #ifdef TLDEBUG 1584 1.17 bouyer printf("tl_addr_filer: hash1 %x has2 %x\n", hash[0], hash[1]); 1585 1.17 bouyer #endif 1586 1.17 bouyer tl_intreg_write(sc, TL_INT_HASH1, hash[0]); 1587 1.17 bouyer tl_intreg_write(sc, TL_INT_HASH2, hash[1]); 1588 1.17 bouyer } 1589 1.1 bouyer 1590 1.17 bouyer static int tl_multicast_hash(a) 1591 1.17 bouyer u_int8_t *a; 1592 1.17 bouyer { 1593 1.17 bouyer int hash; 1594 1.17 bouyer 1595 1.17 bouyer #define DA(addr,bit) (addr[5 - (bit/8)] & (1 << bit%8)) 1596 1.17 bouyer #define xor8(a,b,c,d,e,f,g,h) (((a != 0) + (b != 0) + (c != 0) + (d != 0) + (e != 0) + (f != 0) + (g != 0) + (h != 0)) & 1) 1597 1.17 bouyer 1598 1.17 bouyer hash = xor8( DA(a,0), DA(a, 6), DA(a,12), DA(a,18), DA(a,24), DA(a,30), 1599 1.17 bouyer DA(a,36), DA(a,42)); 1600 1.17 bouyer hash |= xor8( DA(a,1), DA(a, 7), DA(a,13), DA(a,19), DA(a,25), DA(a,31), 1601 1.17 bouyer DA(a,37), DA(a,43)) << 1; 1602 1.17 bouyer hash |= xor8( DA(a,2), DA(a, 8), DA(a,14), DA(a,20), DA(a,26), DA(a,32), 1603 1.17 bouyer DA(a,38), DA(a,44)) << 2; 1604 1.17 bouyer hash |= xor8( DA(a,3), DA(a, 9), DA(a,15), DA(a,21), DA(a,27), DA(a,33), 1605 1.17 bouyer DA(a,39), DA(a,45)) << 3; 1606 1.17 bouyer hash |= xor8( DA(a,4), DA(a,10), DA(a,16), DA(a,22), DA(a,28), DA(a,34), 1607 1.17 bouyer DA(a,40), DA(a,46)) << 4; 1608 1.17 bouyer hash |= xor8( DA(a,5), DA(a,11), DA(a,17), DA(a,23), DA(a,29), DA(a,35), 1609 1.17 bouyer DA(a,41), DA(a,47)) << 5; 1610 1.1 bouyer 1611 1.17 bouyer return hash; 1612 1.17 bouyer } 1613 1.1 bouyer 1614 1.17 bouyer #if defined(TLDEBUG_RX) 1615 1.17 bouyer void 1616 1.17 bouyer ether_printheader(eh) 1617 1.17 bouyer struct ether_header *eh; 1618 1.17 bouyer { 1619 1.17 bouyer u_char *c = (char*)eh; 1620 1.17 bouyer int i; 1621 1.17 bouyer for (i=0; i<sizeof(struct ether_header); i++) 1622 1.17 bouyer printf("%x ", (u_int)c[i]); 1623 1.17 bouyer printf("\n"); 1624 1.17 bouyer } 1625 1.1 bouyer #endif 1626
Indexes created Sun Oct 19 22:09:57 GMT 2025