if_qe.c revision 1.67.4.2
1 1.67.4.2 yamt /* $NetBSD: if_qe.c,v 1.67.4.2 2010/03/11 15:04:01 yamt Exp $ */ 2 1.1 ragge /* 3 1.37 ragge * Copyright (c) 1999 Ludd, University of Lule}, Sweden. All rights reserved. 4 1.1 ragge * 5 1.1 ragge * Redistribution and use in source and binary forms, with or without 6 1.1 ragge * modification, are permitted provided that the following conditions 7 1.1 ragge * are met: 8 1.1 ragge * 1. Redistributions of source code must retain the above copyright 9 1.1 ragge * notice, this list of conditions and the following disclaimer. 10 1.1 ragge * 2. Redistributions in binary form must reproduce the above copyright 11 1.1 ragge * notice, this list of conditions and the following disclaimer in the 12 1.1 ragge * documentation and/or other materials provided with the distribution. 13 1.1 ragge * 3. All advertising materials mentioning features or use of this software 14 1.1 ragge * must display the following acknowledgement: 15 1.59 simonb * This product includes software developed at Ludd, University of 16 1.37 ragge * Lule}, Sweden and its contributors. 17 1.37 ragge * 4. The name of the author may not be used to endorse or promote products 18 1.37 ragge * derived from this software without specific prior written permission 19 1.37 ragge * 20 1.37 ragge * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 21 1.37 ragge * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 22 1.37 ragge * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 23 1.37 ragge * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 24 1.37 ragge * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 25 1.37 ragge * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26 1.37 ragge * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 27 1.37 ragge * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 28 1.37 ragge * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 29 1.37 ragge * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 30 1.1 ragge */ 31 1.1 ragge 32 1.1 ragge /* 33 1.37 ragge * Driver for DEQNA/DELQA ethernet cards. 34 1.37 ragge * Things that is still to do: 35 1.37 ragge * Handle ubaresets. Does not work at all right now. 36 1.37 ragge * Fix ALLMULTI reception. But someone must tell me how... 37 1.37 ragge * Collect statistics. 38 1.1 ragge */ 39 1.49 lukem 40 1.49 lukem #include <sys/cdefs.h> 41 1.67.4.2 yamt __KERNEL_RCSID(0, "$NetBSD: if_qe.c,v 1.67.4.2 2010/03/11 15:04:01 yamt Exp $"); 42 1.22 ragge 43 1.27 jonathan #include "opt_inet.h" 44 1.22 ragge 45 1.9 mycroft #include <sys/param.h> 46 1.9 mycroft #include <sys/mbuf.h> 47 1.9 mycroft #include <sys/socket.h> 48 1.9 mycroft #include <sys/device.h> 49 1.37 ragge #include <sys/systm.h> 50 1.37 ragge #include <sys/sockio.h> 51 1.9 mycroft 52 1.9 mycroft #include <net/if.h> 53 1.20 is #include <net/if_ether.h> 54 1.21 ragge #include <net/if_dl.h> 55 1.1 ragge 56 1.9 mycroft #include <netinet/in.h> 57 1.20 is #include <netinet/if_inarp.h> 58 1.22 ragge 59 1.22 ragge #include <net/bpf.h> 60 1.22 ragge #include <net/bpfdesc.h> 61 1.22 ragge 62 1.65 ad #include <sys/bus.h> 63 1.1 ragge 64 1.37 ragge #include <dev/qbus/ubavar.h> 65 1.37 ragge #include <dev/qbus/if_qereg.h> 66 1.1 ragge 67 1.37 ragge #include "ioconf.h" 68 1.37 ragge 69 1.37 ragge #define RXDESCS 30 /* # of receive descriptors */ 70 1.37 ragge #define TXDESCS 60 /* # transmit descs */ 71 1.6 jtc 72 1.1 ragge /* 73 1.37 ragge * Structure containing the elements that must be in DMA-safe memory. 74 1.1 ragge */ 75 1.37 ragge struct qe_cdata { 76 1.37 ragge struct qe_ring qc_recv[RXDESCS+1]; /* Receive descriptors */ 77 1.37 ragge struct qe_ring qc_xmit[TXDESCS+1]; /* Transmit descriptors */ 78 1.37 ragge u_int8_t qc_setup[128]; /* Setup packet layout */ 79 1.37 ragge }; 80 1.37 ragge 81 1.1 ragge struct qe_softc { 82 1.67 matt device_t sc_dev; /* Configuration common part */ 83 1.67 matt struct uba_softc *sc_uh; /* our parent */ 84 1.41 matt struct evcnt sc_intrcnt; /* Interrupt counting */ 85 1.37 ragge struct ethercom sc_ec; /* Ethernet common part */ 86 1.37 ragge #define sc_if sc_ec.ec_if /* network-visible interface */ 87 1.37 ragge bus_space_tag_t sc_iot; 88 1.37 ragge bus_addr_t sc_ioh; 89 1.37 ragge bus_dma_tag_t sc_dmat; 90 1.37 ragge struct qe_cdata *sc_qedata; /* Descriptor struct */ 91 1.37 ragge struct qe_cdata *sc_pqedata; /* Unibus address of above */ 92 1.37 ragge struct mbuf* sc_txmbuf[TXDESCS]; 93 1.37 ragge struct mbuf* sc_rxmbuf[RXDESCS]; 94 1.37 ragge bus_dmamap_t sc_xmtmap[TXDESCS]; 95 1.37 ragge bus_dmamap_t sc_rcvmap[RXDESCS]; 96 1.57 bouyer bus_dmamap_t sc_nulldmamap; /* ethernet padding buffer */ 97 1.48 ragge struct ubinfo sc_ui; 98 1.37 ragge int sc_intvec; /* Interrupt vector */ 99 1.37 ragge int sc_nexttx; 100 1.37 ragge int sc_inq; 101 1.37 ragge int sc_lastack; 102 1.37 ragge int sc_nextrx; 103 1.37 ragge int sc_setup; /* Setup packet in queue */ 104 1.7 ragge }; 105 1.1 ragge 106 1.67 matt static int qematch(device_t, cfdata_t, void *); 107 1.67 matt static void qeattach(device_t, device_t, void *); 108 1.46 ragge static void qeinit(struct qe_softc *); 109 1.46 ragge static void qestart(struct ifnet *); 110 1.46 ragge static void qeintr(void *); 111 1.62 christos static int qeioctl(struct ifnet *, u_long, void *); 112 1.46 ragge static int qe_add_rxbuf(struct qe_softc *, int); 113 1.46 ragge static void qe_setup(struct qe_softc *); 114 1.46 ragge static void qetimeout(struct ifnet *); 115 1.1 ragge 116 1.67 matt CFATTACH_DECL_NEW(qe, sizeof(struct qe_softc), 117 1.55 thorpej qematch, qeattach, NULL, NULL); 118 1.23 thorpej 119 1.37 ragge #define QE_WCSR(csr, val) \ 120 1.37 ragge bus_space_write_2(sc->sc_iot, sc->sc_ioh, csr, val) 121 1.37 ragge #define QE_RCSR(csr) \ 122 1.37 ragge bus_space_read_2(sc->sc_iot, sc->sc_ioh, csr) 123 1.1 ragge 124 1.37 ragge #define LOWORD(x) ((int)(x) & 0xffff) 125 1.37 ragge #define HIWORD(x) (((int)(x) >> 16) & 0x3f) 126 1.7 ragge 127 1.57 bouyer #define ETHER_PAD_LEN (ETHER_MIN_LEN - ETHER_CRC_LEN) 128 1.57 bouyer 129 1.1 ragge /* 130 1.37 ragge * Check for present DEQNA. Done by sending a fake setup packet 131 1.37 ragge * and wait for interrupt. 132 1.1 ragge */ 133 1.7 ragge int 134 1.67 matt qematch(device_t parent, cfdata_t cf, void *aux) 135 1.7 ragge { 136 1.37 ragge struct qe_softc ssc; 137 1.37 ragge struct qe_softc *sc = &ssc; 138 1.7 ragge struct uba_attach_args *ua = aux; 139 1.67 matt struct uba_softc *uh = device_private(parent); 140 1.48 ragge struct ubinfo ui; 141 1.37 ragge 142 1.51 ragge #define PROBESIZE 4096 143 1.51 ragge struct qe_ring *ring; 144 1.21 ragge struct qe_ring *rp; 145 1.37 ragge int error; 146 1.1 ragge 147 1.67 matt ring = malloc(PROBESIZE, M_TEMP, M_WAITOK|M_ZERO); 148 1.67.4.1 yamt memset(sc, 0, sizeof(*sc)); 149 1.37 ragge sc->sc_iot = ua->ua_iot; 150 1.37 ragge sc->sc_ioh = ua->ua_ioh; 151 1.37 ragge sc->sc_dmat = ua->ua_dmat; 152 1.7 ragge 153 1.67 matt uh->uh_lastiv -= 4; 154 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RESET); 155 1.67 matt QE_WCSR(QE_CSR_VECTOR, uh->uh_lastiv); 156 1.1 ragge 157 1.1 ragge /* 158 1.59 simonb * Map the ring area. Actually this is done only to be able to 159 1.37 ragge * send and receive a internal packet; some junk is loopbacked 160 1.37 ragge * so that the DEQNA has a reason to interrupt. 161 1.1 ragge */ 162 1.48 ragge ui.ui_size = PROBESIZE; 163 1.62 christos ui.ui_vaddr = (void *)&ring[0]; 164 1.67 matt if ((error = uballoc(uh, &ui, UBA_CANTWAIT))) 165 1.37 ragge return 0; 166 1.1 ragge 167 1.1 ragge /* 168 1.37 ragge * Init a simple "fake" receive and transmit descriptor that 169 1.37 ragge * points to some unused area. Send a fake setup packet. 170 1.1 ragge */ 171 1.48 ragge rp = (void *)ui.ui_baddr; 172 1.37 ragge ring[0].qe_flag = ring[0].qe_status1 = QE_NOTYET; 173 1.37 ragge ring[0].qe_addr_lo = LOWORD(&rp[4]); 174 1.37 ragge ring[0].qe_addr_hi = HIWORD(&rp[4]) | QE_VALID | QE_EOMSG | QE_SETUP; 175 1.51 ragge ring[0].qe_buf_len = -64; 176 1.1 ragge 177 1.37 ragge ring[2].qe_flag = ring[2].qe_status1 = QE_NOTYET; 178 1.37 ragge ring[2].qe_addr_lo = LOWORD(&rp[4]); 179 1.37 ragge ring[2].qe_addr_hi = HIWORD(&rp[4]) | QE_VALID; 180 1.51 ragge ring[2].qe_buf_len = -(1500/2); 181 1.1 ragge 182 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RCSR(QE_CSR_CSR) & ~QE_RESET); 183 1.37 ragge DELAY(1000); 184 1.1 ragge 185 1.1 ragge /* 186 1.1 ragge * Start the interface and wait for the packet. 187 1.1 ragge */ 188 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_INT_ENABLE|QE_XMIT_INT|QE_RCV_INT); 189 1.37 ragge QE_WCSR(QE_CSR_RCLL, LOWORD(&rp[2])); 190 1.37 ragge QE_WCSR(QE_CSR_RCLH, HIWORD(&rp[2])); 191 1.37 ragge QE_WCSR(QE_CSR_XMTL, LOWORD(rp)); 192 1.37 ragge QE_WCSR(QE_CSR_XMTH, HIWORD(rp)); 193 1.1 ragge DELAY(10000); 194 1.37 ragge 195 1.1 ragge /* 196 1.1 ragge * All done with the bus resources. 197 1.1 ragge */ 198 1.67 matt ubfree(uh, &ui); 199 1.51 ragge free(ring, M_TEMP); 200 1.7 ragge return 1; 201 1.1 ragge } 202 1.1 ragge 203 1.1 ragge /* 204 1.1 ragge * Interface exists: make available by filling in network interface 205 1.1 ragge * record. System will initialize the interface when it is ready 206 1.1 ragge * to accept packets. 207 1.1 ragge */ 208 1.7 ragge void 209 1.67 matt qeattach(device_t parent, device_t self, void *aux) 210 1.7 ragge { 211 1.67 matt struct uba_attach_args *ua = aux; 212 1.67 matt struct qe_softc *sc = device_private(self); 213 1.67 matt struct ifnet *ifp = &sc->sc_if; 214 1.67 matt struct qe_ring *rp; 215 1.37 ragge u_int8_t enaddr[ETHER_ADDR_LEN]; 216 1.48 ragge int i, error; 217 1.57 bouyer char *nullbuf; 218 1.37 ragge 219 1.67 matt sc->sc_dev = self; 220 1.67 matt sc->sc_uh = device_private(parent); 221 1.37 ragge sc->sc_iot = ua->ua_iot; 222 1.37 ragge sc->sc_ioh = ua->ua_ioh; 223 1.37 ragge sc->sc_dmat = ua->ua_dmat; 224 1.37 ragge 225 1.59 simonb /* 226 1.59 simonb * Allocate DMA safe memory for descriptors and setup memory. 227 1.59 simonb */ 228 1.37 ragge 229 1.57 bouyer sc->sc_ui.ui_size = sizeof(struct qe_cdata) + ETHER_PAD_LEN; 230 1.67 matt if ((error = ubmemalloc(sc->sc_uh, &sc->sc_ui, 0))) { 231 1.67 matt aprint_error(": unable to ubmemalloc(), error = %d\n", error); 232 1.48 ragge return; 233 1.37 ragge } 234 1.48 ragge sc->sc_pqedata = (struct qe_cdata *)sc->sc_ui.ui_baddr; 235 1.48 ragge sc->sc_qedata = (struct qe_cdata *)sc->sc_ui.ui_vaddr; 236 1.37 ragge 237 1.37 ragge /* 238 1.37 ragge * Zero the newly allocated memory. 239 1.37 ragge */ 240 1.67.4.1 yamt memset(sc->sc_qedata, 0, sizeof(struct qe_cdata) + ETHER_PAD_LEN); 241 1.57 bouyer nullbuf = ((char*)sc->sc_qedata) + sizeof(struct qe_cdata); 242 1.37 ragge /* 243 1.37 ragge * Create the transmit descriptor DMA maps. We take advantage 244 1.59 simonb * of the fact that the Qbus address space is big, and therefore 245 1.37 ragge * allocate map registers for all transmit descriptors also, 246 1.37 ragge * so that we can avoid this each time we send a packet. 247 1.37 ragge */ 248 1.37 ragge for (i = 0; i < TXDESCS; i++) { 249 1.37 ragge if ((error = bus_dmamap_create(sc->sc_dmat, MCLBYTES, 250 1.37 ragge 1, MCLBYTES, 0, BUS_DMA_NOWAIT|BUS_DMA_ALLOCNOW, 251 1.37 ragge &sc->sc_xmtmap[i]))) { 252 1.67 matt aprint_error( 253 1.67 matt ": unable to create tx DMA map %d, error = %d\n", 254 1.37 ragge i, error); 255 1.37 ragge goto fail_4; 256 1.37 ragge } 257 1.37 ragge } 258 1.37 ragge 259 1.37 ragge /* 260 1.37 ragge * Create receive buffer DMA maps. 261 1.37 ragge */ 262 1.37 ragge for (i = 0; i < RXDESCS; i++) { 263 1.37 ragge if ((error = bus_dmamap_create(sc->sc_dmat, MCLBYTES, 1, 264 1.37 ragge MCLBYTES, 0, BUS_DMA_NOWAIT, 265 1.37 ragge &sc->sc_rcvmap[i]))) { 266 1.67 matt aprint_error( 267 1.67 matt ": unable to create rx DMA map %d, error = %d\n", 268 1.37 ragge i, error); 269 1.37 ragge goto fail_5; 270 1.37 ragge } 271 1.37 ragge } 272 1.37 ragge /* 273 1.37 ragge * Pre-allocate the receive buffers. 274 1.37 ragge */ 275 1.37 ragge for (i = 0; i < RXDESCS; i++) { 276 1.37 ragge if ((error = qe_add_rxbuf(sc, i)) != 0) { 277 1.67 matt aprint_error( 278 1.67 matt ": unable to allocate or map rx buffer %d," 279 1.37 ragge " error = %d\n", i, error); 280 1.37 ragge goto fail_6; 281 1.37 ragge } 282 1.37 ragge } 283 1.1 ragge 284 1.57 bouyer if ((error = bus_dmamap_create(sc->sc_dmat, ETHER_PAD_LEN, 1, 285 1.57 bouyer ETHER_PAD_LEN, 0, BUS_DMA_NOWAIT,&sc->sc_nulldmamap)) != 0) { 286 1.67 matt aprint_error( 287 1.67 matt ": unable to create pad buffer DMA map, error = %d\n", 288 1.67 matt error); 289 1.57 bouyer goto fail_6; 290 1.57 bouyer } 291 1.57 bouyer if ((error = bus_dmamap_load(sc->sc_dmat, sc->sc_nulldmamap, 292 1.57 bouyer nullbuf, ETHER_PAD_LEN, NULL, BUS_DMA_NOWAIT)) != 0) { 293 1.67 matt aprint_error( 294 1.67 matt ": unable to load pad buffer DMA map, error = %d\n", 295 1.67 matt error); 296 1.57 bouyer goto fail_7; 297 1.57 bouyer } 298 1.57 bouyer bus_dmamap_sync(sc->sc_dmat, sc->sc_nulldmamap, 0, ETHER_PAD_LEN, 299 1.57 bouyer BUS_DMASYNC_PREWRITE); 300 1.57 bouyer 301 1.1 ragge /* 302 1.37 ragge * Create ring loops of the buffer chains. 303 1.37 ragge * This is only done once. 304 1.1 ragge */ 305 1.37 ragge 306 1.37 ragge rp = sc->sc_qedata->qc_recv; 307 1.37 ragge rp[RXDESCS].qe_addr_lo = LOWORD(&sc->sc_pqedata->qc_recv[0]); 308 1.37 ragge rp[RXDESCS].qe_addr_hi = HIWORD(&sc->sc_pqedata->qc_recv[0]) | 309 1.37 ragge QE_VALID | QE_CHAIN; 310 1.37 ragge rp[RXDESCS].qe_flag = rp[RXDESCS].qe_status1 = QE_NOTYET; 311 1.37 ragge 312 1.37 ragge rp = sc->sc_qedata->qc_xmit; 313 1.37 ragge rp[TXDESCS].qe_addr_lo = LOWORD(&sc->sc_pqedata->qc_xmit[0]); 314 1.37 ragge rp[TXDESCS].qe_addr_hi = HIWORD(&sc->sc_pqedata->qc_xmit[0]) | 315 1.37 ragge QE_VALID | QE_CHAIN; 316 1.37 ragge rp[TXDESCS].qe_flag = rp[TXDESCS].qe_status1 = QE_NOTYET; 317 1.1 ragge 318 1.1 ragge /* 319 1.37 ragge * Get the vector that were set at match time, and remember it. 320 1.1 ragge */ 321 1.67 matt sc->sc_intvec = sc->sc_uh->uh_lastiv; 322 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RESET); 323 1.37 ragge DELAY(1000); 324 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RCSR(QE_CSR_CSR) & ~QE_RESET); 325 1.1 ragge 326 1.1 ragge /* 327 1.37 ragge * Read out ethernet address and tell which type this card is. 328 1.1 ragge */ 329 1.37 ragge for (i = 0; i < 6; i++) 330 1.37 ragge enaddr[i] = QE_RCSR(i * 2) & 0xff; 331 1.1 ragge 332 1.37 ragge QE_WCSR(QE_CSR_VECTOR, sc->sc_intvec | 1); 333 1.67 matt aprint_normal(": %s, hardware address %s\n", 334 1.37 ragge QE_RCSR(QE_CSR_VECTOR) & 1 ? "delqa":"deqna", 335 1.37 ragge ether_sprintf(enaddr)); 336 1.37 ragge 337 1.37 ragge QE_WCSR(QE_CSR_VECTOR, QE_RCSR(QE_CSR_VECTOR) & ~1); /* ??? */ 338 1.37 ragge 339 1.41 matt uba_intr_establish(ua->ua_icookie, ua->ua_cvec, qeintr, 340 1.41 matt sc, &sc->sc_intrcnt); 341 1.42 matt evcnt_attach_dynamic(&sc->sc_intrcnt, EVCNT_TYPE_INTR, ua->ua_evcnt, 342 1.67 matt device_xname(sc->sc_dev), "intr"); 343 1.39 matt 344 1.67 matt strcpy(ifp->if_xname, device_xname(sc->sc_dev)); 345 1.37 ragge ifp->if_softc = sc; 346 1.37 ragge ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; 347 1.1 ragge ifp->if_start = qestart; 348 1.1 ragge ifp->if_ioctl = qeioctl; 349 1.38 ragge ifp->if_watchdog = qetimeout; 350 1.45 thorpej IFQ_SET_READY(&ifp->if_snd); 351 1.37 ragge 352 1.37 ragge /* 353 1.37 ragge * Attach the interface. 354 1.37 ragge */ 355 1.1 ragge if_attach(ifp); 356 1.37 ragge ether_ifattach(ifp, enaddr); 357 1.22 ragge 358 1.37 ragge return; 359 1.1 ragge 360 1.37 ragge /* 361 1.37 ragge * Free any resources we've allocated during the failed attach 362 1.37 ragge * attempt. Do this in reverse order and fall through. 363 1.37 ragge */ 364 1.57 bouyer fail_7: 365 1.57 bouyer bus_dmamap_destroy(sc->sc_dmat, sc->sc_nulldmamap); 366 1.37 ragge fail_6: 367 1.37 ragge for (i = 0; i < RXDESCS; i++) { 368 1.37 ragge if (sc->sc_rxmbuf[i] != NULL) { 369 1.57 bouyer bus_dmamap_unload(sc->sc_dmat, sc->sc_rcvmap[i]); 370 1.37 ragge m_freem(sc->sc_rxmbuf[i]); 371 1.37 ragge } 372 1.37 ragge } 373 1.37 ragge fail_5: 374 1.37 ragge for (i = 0; i < RXDESCS; i++) { 375 1.37 ragge if (sc->sc_xmtmap[i] != NULL) 376 1.37 ragge bus_dmamap_destroy(sc->sc_dmat, sc->sc_xmtmap[i]); 377 1.37 ragge } 378 1.37 ragge fail_4: 379 1.37 ragge for (i = 0; i < TXDESCS; i++) { 380 1.37 ragge if (sc->sc_rcvmap[i] != NULL) 381 1.37 ragge bus_dmamap_destroy(sc->sc_dmat, sc->sc_rcvmap[i]); 382 1.37 ragge } 383 1.1 ragge } 384 1.1 ragge 385 1.1 ragge /* 386 1.1 ragge * Initialization of interface. 387 1.1 ragge */ 388 1.7 ragge void 389 1.46 ragge qeinit(struct qe_softc *sc) 390 1.1 ragge { 391 1.37 ragge struct ifnet *ifp = (struct ifnet *)&sc->sc_if; 392 1.37 ragge struct qe_cdata *qc = sc->sc_qedata; 393 1.4 ragge int i; 394 1.1 ragge 395 1.1 ragge 396 1.37 ragge /* 397 1.37 ragge * Reset the interface. 398 1.37 ragge */ 399 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RESET); 400 1.37 ragge DELAY(1000); 401 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RCSR(QE_CSR_CSR) & ~QE_RESET); 402 1.37 ragge QE_WCSR(QE_CSR_VECTOR, sc->sc_intvec); 403 1.37 ragge 404 1.37 ragge sc->sc_nexttx = sc->sc_inq = sc->sc_lastack = 0; 405 1.37 ragge /* 406 1.37 ragge * Release and init transmit descriptors. 407 1.37 ragge */ 408 1.37 ragge for (i = 0; i < TXDESCS; i++) { 409 1.37 ragge if (sc->sc_txmbuf[i]) { 410 1.37 ragge bus_dmamap_unload(sc->sc_dmat, sc->sc_xmtmap[i]); 411 1.37 ragge m_freem(sc->sc_txmbuf[i]); 412 1.37 ragge sc->sc_txmbuf[i] = 0; 413 1.1 ragge } 414 1.37 ragge qc->qc_xmit[i].qe_addr_hi = 0; /* Clear valid bit */ 415 1.37 ragge qc->qc_xmit[i].qe_status1 = qc->qc_xmit[i].qe_flag = QE_NOTYET; 416 1.1 ragge } 417 1.37 ragge 418 1.37 ragge 419 1.37 ragge /* 420 1.37 ragge * Init receive descriptors. 421 1.37 ragge */ 422 1.37 ragge for (i = 0; i < RXDESCS; i++) 423 1.37 ragge qc->qc_recv[i].qe_status1 = qc->qc_recv[i].qe_flag = QE_NOTYET; 424 1.37 ragge sc->sc_nextrx = 0; 425 1.37 ragge 426 1.37 ragge /* 427 1.37 ragge * Write the descriptor addresses to the device. 428 1.37 ragge * Receiving packets will be enabled in the interrupt routine. 429 1.37 ragge */ 430 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_INT_ENABLE|QE_XMIT_INT|QE_RCV_INT); 431 1.37 ragge QE_WCSR(QE_CSR_RCLL, LOWORD(sc->sc_pqedata->qc_recv)); 432 1.37 ragge QE_WCSR(QE_CSR_RCLH, HIWORD(sc->sc_pqedata->qc_recv)); 433 1.37 ragge 434 1.37 ragge ifp->if_flags |= IFF_RUNNING; 435 1.37 ragge ifp->if_flags &= ~IFF_OACTIVE; 436 1.37 ragge 437 1.1 ragge /* 438 1.37 ragge * Send a setup frame. 439 1.37 ragge * This will start the transmit machinery as well. 440 1.1 ragge */ 441 1.37 ragge qe_setup(sc); 442 1.37 ragge 443 1.1 ragge } 444 1.1 ragge 445 1.1 ragge /* 446 1.1 ragge * Start output on interface. 447 1.1 ragge */ 448 1.2 mycroft void 449 1.46 ragge qestart(struct ifnet *ifp) 450 1.1 ragge { 451 1.37 ragge struct qe_softc *sc = ifp->if_softc; 452 1.37 ragge struct qe_cdata *qc = sc->sc_qedata; 453 1.37 ragge paddr_t buffer; 454 1.37 ragge struct mbuf *m, *m0; 455 1.57 bouyer int idx, len, s, i, totlen, buflen, error; 456 1.46 ragge short orword, csr; 457 1.37 ragge 458 1.37 ragge if ((QE_RCSR(QE_CSR_CSR) & QE_RCV_ENABLE) == 0) 459 1.37 ragge return; 460 1.1 ragge 461 1.47 thorpej s = splnet(); 462 1.37 ragge while (sc->sc_inq < (TXDESCS - 1)) { 463 1.1 ragge 464 1.37 ragge if (sc->sc_setup) { 465 1.37 ragge qe_setup(sc); 466 1.37 ragge continue; 467 1.37 ragge } 468 1.37 ragge idx = sc->sc_nexttx; 469 1.45 thorpej IFQ_POLL(&ifp->if_snd, m); 470 1.37 ragge if (m == 0) 471 1.37 ragge goto out; 472 1.37 ragge /* 473 1.37 ragge * Count number of mbufs in chain. 474 1.37 ragge * Always do DMA directly from mbufs, therefore the transmit 475 1.37 ragge * ring is really big. 476 1.37 ragge */ 477 1.37 ragge for (m0 = m, i = 0; m0; m0 = m0->m_next) 478 1.38 ragge if (m0->m_len) 479 1.38 ragge i++; 480 1.57 bouyer if (m->m_pkthdr.len < ETHER_PAD_LEN) { 481 1.57 bouyer buflen = ETHER_PAD_LEN; 482 1.57 bouyer i++; 483 1.57 bouyer } else 484 1.57 bouyer buflen = m->m_pkthdr.len; 485 1.37 ragge if (i >= TXDESCS) 486 1.37 ragge panic("qestart"); 487 1.37 ragge 488 1.37 ragge if ((i + sc->sc_inq) >= (TXDESCS - 1)) { 489 1.38 ragge ifp->if_flags |= IFF_OACTIVE; 490 1.37 ragge goto out; 491 1.37 ragge } 492 1.45 thorpej 493 1.45 thorpej IFQ_DEQUEUE(&ifp->if_snd, m); 494 1.45 thorpej 495 1.37 ragge if (ifp->if_bpf) 496 1.67.4.2 yamt bpf_ops->bpf_mtap(ifp->if_bpf, m); 497 1.1 ragge /* 498 1.37 ragge * m now points to a mbuf chain that can be loaded. 499 1.37 ragge * Loop around and set it. 500 1.1 ragge */ 501 1.38 ragge totlen = 0; 502 1.57 bouyer for (m0 = m; ; m0 = m0->m_next) { 503 1.57 bouyer if (m0) { 504 1.57 bouyer if (m0->m_len == 0) 505 1.57 bouyer continue; 506 1.57 bouyer error = bus_dmamap_load(sc->sc_dmat, 507 1.57 bouyer sc->sc_xmtmap[idx], mtod(m0, void *), 508 1.57 bouyer m0->m_len, 0, 0); 509 1.57 bouyer buffer = sc->sc_xmtmap[idx]->dm_segs[0].ds_addr; 510 1.57 bouyer len = m0->m_len; 511 1.57 bouyer } else if (totlen < ETHER_PAD_LEN) { 512 1.57 bouyer buffer = sc->sc_nulldmamap->dm_segs[0].ds_addr; 513 1.57 bouyer len = ETHER_PAD_LEN - totlen; 514 1.57 bouyer } else { 515 1.57 bouyer break; 516 1.57 bouyer } 517 1.37 ragge 518 1.38 ragge totlen += len; 519 1.37 ragge /* Word alignment calc */ 520 1.37 ragge orword = 0; 521 1.57 bouyer if (totlen == buflen) { 522 1.37 ragge orword |= QE_EOMSG; 523 1.38 ragge sc->sc_txmbuf[idx] = m; 524 1.37 ragge } 525 1.37 ragge if ((buffer & 1) || (len & 1)) 526 1.37 ragge len += 2; 527 1.37 ragge if (buffer & 1) 528 1.37 ragge orword |= QE_ODDBEGIN; 529 1.37 ragge if ((buffer + len) & 1) 530 1.37 ragge orword |= QE_ODDEND; 531 1.37 ragge qc->qc_xmit[idx].qe_buf_len = -(len/2); 532 1.37 ragge qc->qc_xmit[idx].qe_addr_lo = LOWORD(buffer); 533 1.37 ragge qc->qc_xmit[idx].qe_addr_hi = HIWORD(buffer); 534 1.37 ragge qc->qc_xmit[idx].qe_flag = 535 1.37 ragge qc->qc_xmit[idx].qe_status1 = QE_NOTYET; 536 1.37 ragge qc->qc_xmit[idx].qe_addr_hi |= (QE_VALID | orword); 537 1.37 ragge if (++idx == TXDESCS) 538 1.37 ragge idx = 0; 539 1.37 ragge sc->sc_inq++; 540 1.57 bouyer if (m0 == NULL) 541 1.57 bouyer break; 542 1.37 ragge } 543 1.38 ragge #ifdef DIAGNOSTIC 544 1.57 bouyer if (totlen != buflen) 545 1.38 ragge panic("qestart: len fault"); 546 1.38 ragge #endif 547 1.37 ragge 548 1.37 ragge /* 549 1.37 ragge * Kick off the transmit logic, if it is stopped. 550 1.37 ragge */ 551 1.46 ragge csr = QE_RCSR(QE_CSR_CSR); 552 1.46 ragge if (csr & QE_XL_INVALID) { 553 1.37 ragge QE_WCSR(QE_CSR_XMTL, 554 1.37 ragge LOWORD(&sc->sc_pqedata->qc_xmit[sc->sc_nexttx])); 555 1.37 ragge QE_WCSR(QE_CSR_XMTH, 556 1.37 ragge HIWORD(&sc->sc_pqedata->qc_xmit[sc->sc_nexttx])); 557 1.37 ragge } 558 1.37 ragge sc->sc_nexttx = idx; 559 1.37 ragge } 560 1.37 ragge if (sc->sc_inq == (TXDESCS - 1)) 561 1.37 ragge ifp->if_flags |= IFF_OACTIVE; 562 1.38 ragge 563 1.38 ragge out: if (sc->sc_inq) 564 1.38 ragge ifp->if_timer = 5; /* If transmit logic dies */ 565 1.38 ragge splx(s); 566 1.1 ragge } 567 1.1 ragge 568 1.39 matt static void 569 1.46 ragge qeintr(void *arg) 570 1.1 ragge { 571 1.39 matt struct qe_softc *sc = arg; 572 1.37 ragge struct qe_cdata *qc = sc->sc_qedata; 573 1.37 ragge struct ifnet *ifp = &sc->sc_if; 574 1.37 ragge struct mbuf *m; 575 1.37 ragge int csr, status1, status2, len; 576 1.1 ragge 577 1.37 ragge csr = QE_RCSR(QE_CSR_CSR); 578 1.1 ragge 579 1.37 ragge QE_WCSR(QE_CSR_CSR, QE_RCV_ENABLE | QE_INT_ENABLE | QE_XMIT_INT | 580 1.37 ragge QE_RCV_INT | QE_ILOOP); 581 1.1 ragge 582 1.37 ragge if (csr & QE_RCV_INT) 583 1.37 ragge while (qc->qc_recv[sc->sc_nextrx].qe_status1 != QE_NOTYET) { 584 1.37 ragge status1 = qc->qc_recv[sc->sc_nextrx].qe_status1; 585 1.37 ragge status2 = qc->qc_recv[sc->sc_nextrx].qe_status2; 586 1.46 ragge 587 1.37 ragge m = sc->sc_rxmbuf[sc->sc_nextrx]; 588 1.37 ragge len = ((status1 & QE_RBL_HI) | 589 1.37 ragge (status2 & QE_RBL_LO)) + 60; 590 1.37 ragge qe_add_rxbuf(sc, sc->sc_nextrx); 591 1.37 ragge m->m_pkthdr.rcvif = ifp; 592 1.37 ragge m->m_pkthdr.len = m->m_len = len; 593 1.37 ragge if (++sc->sc_nextrx == RXDESCS) 594 1.37 ragge sc->sc_nextrx = 0; 595 1.43 thorpej if (ifp->if_bpf) 596 1.67.4.2 yamt bpf_ops->bpf_mtap(ifp->if_bpf, m); 597 1.46 ragge if ((status1 & QE_ESETUP) == 0) 598 1.46 ragge (*ifp->if_input)(ifp, m); 599 1.46 ragge else 600 1.46 ragge m_freem(m); 601 1.1 ragge } 602 1.37 ragge 603 1.46 ragge if (csr & (QE_XMIT_INT|QE_XL_INVALID)) { 604 1.37 ragge while (qc->qc_xmit[sc->sc_lastack].qe_status1 != QE_NOTYET) { 605 1.37 ragge int idx = sc->sc_lastack; 606 1.37 ragge 607 1.37 ragge sc->sc_inq--; 608 1.37 ragge if (++sc->sc_lastack == TXDESCS) 609 1.37 ragge sc->sc_lastack = 0; 610 1.37 ragge 611 1.37 ragge /* XXX collect statistics */ 612 1.37 ragge qc->qc_xmit[idx].qe_addr_hi &= ~QE_VALID; 613 1.37 ragge qc->qc_xmit[idx].qe_status1 = 614 1.37 ragge qc->qc_xmit[idx].qe_flag = QE_NOTYET; 615 1.37 ragge 616 1.37 ragge if (qc->qc_xmit[idx].qe_addr_hi & QE_SETUP) 617 1.37 ragge continue; 618 1.57 bouyer if (sc->sc_txmbuf[idx] == NULL || 619 1.57 bouyer sc->sc_txmbuf[idx]->m_pkthdr.len < ETHER_PAD_LEN) 620 1.57 bouyer bus_dmamap_unload(sc->sc_dmat, 621 1.57 bouyer sc->sc_xmtmap[idx]); 622 1.37 ragge if (sc->sc_txmbuf[idx]) { 623 1.37 ragge m_freem(sc->sc_txmbuf[idx]); 624 1.57 bouyer sc->sc_txmbuf[idx] = NULL; 625 1.37 ragge } 626 1.37 ragge } 627 1.38 ragge ifp->if_timer = 0; 628 1.37 ragge ifp->if_flags &= ~IFF_OACTIVE; 629 1.37 ragge qestart(ifp); /* Put in more in queue */ 630 1.1 ragge } 631 1.37 ragge /* 632 1.37 ragge * How can the receive list get invalid??? 633 1.37 ragge * Verified that it happens anyway. 634 1.1 ragge */ 635 1.37 ragge if ((qc->qc_recv[sc->sc_nextrx].qe_status1 == QE_NOTYET) && 636 1.37 ragge (QE_RCSR(QE_CSR_CSR) & QE_RL_INVALID)) { 637 1.37 ragge QE_WCSR(QE_CSR_RCLL, 638 1.37 ragge LOWORD(&sc->sc_pqedata->qc_recv[sc->sc_nextrx])); 639 1.37 ragge QE_WCSR(QE_CSR_RCLH, 640 1.37 ragge HIWORD(&sc->sc_pqedata->qc_recv[sc->sc_nextrx])); 641 1.1 ragge } 642 1.1 ragge } 643 1.1 ragge 644 1.1 ragge /* 645 1.1 ragge * Process an ioctl request. 646 1.1 ragge */ 647 1.7 ragge int 648 1.62 christos qeioctl(struct ifnet *ifp, u_long cmd, void *data) 649 1.1 ragge { 650 1.14 thorpej struct qe_softc *sc = ifp->if_softc; 651 1.1 ragge struct ifaddr *ifa = (struct ifaddr *)data; 652 1.8 mycroft int s = splnet(), error = 0; 653 1.1 ragge 654 1.1 ragge switch (cmd) { 655 1.1 ragge 656 1.67.4.1 yamt case SIOCINITIFADDR: 657 1.1 ragge ifp->if_flags |= IFF_UP; 658 1.1 ragge switch(ifa->ifa_addr->sa_family) { 659 1.1 ragge #ifdef INET 660 1.1 ragge case AF_INET: 661 1.37 ragge qeinit(sc); 662 1.20 is arp_ifinit(ifp, ifa); 663 1.1 ragge break; 664 1.1 ragge #endif 665 1.1 ragge } 666 1.1 ragge break; 667 1.1 ragge 668 1.1 ragge case SIOCSIFFLAGS: 669 1.67.4.1 yamt if ((error = ifioctl_common(ifp, cmd, data)) != 0) 670 1.67.4.1 yamt break; 671 1.67.4.1 yamt /* XXX re-use ether_ioctl() */ 672 1.67.4.1 yamt switch (ifp->if_flags & (IFF_UP|IFF_RUNNING)) { 673 1.67.4.1 yamt case IFF_RUNNING: 674 1.37 ragge /* 675 1.37 ragge * If interface is marked down and it is running, 676 1.37 ragge * stop it. (by disabling receive mechanism). 677 1.37 ragge */ 678 1.37 ragge QE_WCSR(QE_CSR_CSR, 679 1.37 ragge QE_RCSR(QE_CSR_CSR) & ~QE_RCV_ENABLE); 680 1.37 ragge ifp->if_flags &= ~IFF_RUNNING; 681 1.67.4.1 yamt break; 682 1.67.4.1 yamt case IFF_UP: 683 1.37 ragge /* 684 1.37 ragge * If interface it marked up and it is stopped, then 685 1.37 ragge * start it. 686 1.37 ragge */ 687 1.19 ragge qeinit(sc); 688 1.67.4.1 yamt break; 689 1.67.4.1 yamt case IFF_UP|IFF_RUNNING: 690 1.37 ragge /* 691 1.37 ragge * Send a new setup packet to match any new changes. 692 1.37 ragge * (Like IFF_PROMISC etc) 693 1.37 ragge */ 694 1.37 ragge qe_setup(sc); 695 1.67.4.1 yamt break; 696 1.67.4.1 yamt case 0: 697 1.67.4.1 yamt break; 698 1.37 ragge } 699 1.1 ragge break; 700 1.1 ragge 701 1.22 ragge case SIOCADDMULTI: 702 1.22 ragge case SIOCDELMULTI: 703 1.22 ragge /* 704 1.22 ragge * Update our multicast list. 705 1.22 ragge */ 706 1.63 dyoung if ((error = ether_ioctl(ifp, cmd, data)) == ENETRESET) { 707 1.22 ragge /* 708 1.22 ragge * Multicast list has changed; set the hardware filter 709 1.22 ragge * accordingly. 710 1.22 ragge */ 711 1.58 thorpej if (ifp->if_flags & IFF_RUNNING) 712 1.58 thorpej qe_setup(sc); 713 1.22 ragge error = 0; 714 1.22 ragge } 715 1.22 ragge break; 716 1.22 ragge 717 1.1 ragge default: 718 1.67.4.1 yamt error = ether_ioctl(ifp, cmd, data); 719 1.1 ragge } 720 1.1 ragge splx(s); 721 1.1 ragge return (error); 722 1.1 ragge } 723 1.1 ragge 724 1.1 ragge /* 725 1.37 ragge * Add a receive buffer to the indicated descriptor. 726 1.1 ragge */ 727 1.37 ragge int 728 1.59 simonb qe_add_rxbuf(struct qe_softc *sc, int i) 729 1.1 ragge { 730 1.37 ragge struct mbuf *m; 731 1.37 ragge struct qe_ring *rp; 732 1.37 ragge vaddr_t addr; 733 1.37 ragge int error; 734 1.37 ragge 735 1.37 ragge MGETHDR(m, M_DONTWAIT, MT_DATA); 736 1.37 ragge if (m == NULL) 737 1.37 ragge return (ENOBUFS); 738 1.37 ragge 739 1.37 ragge MCLGET(m, M_DONTWAIT); 740 1.37 ragge if ((m->m_flags & M_EXT) == 0) { 741 1.37 ragge m_freem(m); 742 1.37 ragge return (ENOBUFS); 743 1.37 ragge } 744 1.37 ragge 745 1.37 ragge if (sc->sc_rxmbuf[i] != NULL) 746 1.37 ragge bus_dmamap_unload(sc->sc_dmat, sc->sc_rcvmap[i]); 747 1.1 ragge 748 1.37 ragge error = bus_dmamap_load(sc->sc_dmat, sc->sc_rcvmap[i], 749 1.37 ragge m->m_ext.ext_buf, m->m_ext.ext_size, NULL, BUS_DMA_NOWAIT); 750 1.37 ragge if (error) 751 1.52 provos panic("%s: can't load rx DMA map %d, error = %d", 752 1.67 matt device_xname(sc->sc_dev), i, error); 753 1.37 ragge sc->sc_rxmbuf[i] = m; 754 1.1 ragge 755 1.37 ragge bus_dmamap_sync(sc->sc_dmat, sc->sc_rcvmap[i], 0, 756 1.37 ragge sc->sc_rcvmap[i]->dm_mapsize, BUS_DMASYNC_PREREAD); 757 1.1 ragge 758 1.1 ragge /* 759 1.37 ragge * We know that the mbuf cluster is page aligned. Also, be sure 760 1.37 ragge * that the IP header will be longword aligned. 761 1.1 ragge */ 762 1.37 ragge m->m_data += 2; 763 1.37 ragge addr = sc->sc_rcvmap[i]->dm_segs[0].ds_addr + 2; 764 1.37 ragge rp = &sc->sc_qedata->qc_recv[i]; 765 1.37 ragge rp->qe_flag = rp->qe_status1 = QE_NOTYET; 766 1.37 ragge rp->qe_addr_lo = LOWORD(addr); 767 1.37 ragge rp->qe_addr_hi = HIWORD(addr) | QE_VALID; 768 1.37 ragge rp->qe_buf_len = -(m->m_ext.ext_size - 2)/2; 769 1.1 ragge 770 1.37 ragge return (0); 771 1.1 ragge } 772 1.37 ragge 773 1.1 ragge /* 774 1.37 ragge * Create a setup packet and put in queue for sending. 775 1.1 ragge */ 776 1.7 ragge void 777 1.46 ragge qe_setup(struct qe_softc *sc) 778 1.1 ragge { 779 1.37 ragge struct ether_multi *enm; 780 1.37 ragge struct ether_multistep step; 781 1.37 ragge struct qe_cdata *qc = sc->sc_qedata; 782 1.37 ragge struct ifnet *ifp = &sc->sc_if; 783 1.66 tsutsui u_int8_t enaddr[ETHER_ADDR_LEN]; 784 1.37 ragge int i, j, k, idx, s; 785 1.37 ragge 786 1.47 thorpej s = splnet(); 787 1.37 ragge if (sc->sc_inq == (TXDESCS - 1)) { 788 1.37 ragge sc->sc_setup = 1; 789 1.37 ragge splx(s); 790 1.37 ragge return; 791 1.37 ragge } 792 1.37 ragge sc->sc_setup = 0; 793 1.1 ragge /* 794 1.37 ragge * Init the setup packet with valid info. 795 1.1 ragge */ 796 1.37 ragge memset(qc->qc_setup, 0xff, sizeof(qc->qc_setup)); /* Broadcast */ 797 1.66 tsutsui memcpy(enaddr, CLLADDR(ifp->if_sadl), sizeof(enaddr)); 798 1.37 ragge for (i = 0; i < ETHER_ADDR_LEN; i++) 799 1.37 ragge qc->qc_setup[i * 8 + 1] = enaddr[i]; /* Own address */ 800 1.37 ragge 801 1.1 ragge /* 802 1.59 simonb * Multicast handling. The DEQNA can handle up to 12 direct 803 1.37 ragge * ethernet addresses. 804 1.1 ragge */ 805 1.37 ragge j = 3; k = 0; 806 1.37 ragge ifp->if_flags &= ~IFF_ALLMULTI; 807 1.37 ragge ETHER_FIRST_MULTI(step, &sc->sc_ec, enm); 808 1.37 ragge while (enm != NULL) { 809 1.50 wiz if (memcmp(enm->enm_addrlo, enm->enm_addrhi, 6)) { 810 1.37 ragge ifp->if_flags |= IFF_ALLMULTI; 811 1.37 ragge break; 812 1.37 ragge } 813 1.37 ragge for (i = 0; i < ETHER_ADDR_LEN; i++) 814 1.37 ragge qc->qc_setup[i * 8 + j + k] = enm->enm_addrlo[i]; 815 1.37 ragge j++; 816 1.37 ragge if (j == 8) { 817 1.37 ragge j = 1; k += 64; 818 1.37 ragge } 819 1.37 ragge if (k > 64) { 820 1.37 ragge ifp->if_flags |= IFF_ALLMULTI; 821 1.37 ragge break; 822 1.22 ragge } 823 1.37 ragge ETHER_NEXT_MULTI(step, enm); 824 1.22 ragge } 825 1.37 ragge idx = sc->sc_nexttx; 826 1.37 ragge qc->qc_xmit[idx].qe_buf_len = -64; 827 1.1 ragge 828 1.1 ragge /* 829 1.37 ragge * How is the DEQNA turned in ALLMULTI mode??? 830 1.37 ragge * Until someone tells me, fall back to PROMISC when more than 831 1.37 ragge * 12 ethernet addresses. 832 1.1 ragge */ 833 1.43 thorpej if (ifp->if_flags & IFF_ALLMULTI) 834 1.43 thorpej ifp->if_flags |= IFF_PROMISC; 835 1.43 thorpej else if (ifp->if_pcount == 0) 836 1.43 thorpej ifp->if_flags &= ~IFF_PROMISC; 837 1.43 thorpej if (ifp->if_flags & IFF_PROMISC) 838 1.37 ragge qc->qc_xmit[idx].qe_buf_len = -65; 839 1.1 ragge 840 1.37 ragge qc->qc_xmit[idx].qe_addr_lo = LOWORD(sc->sc_pqedata->qc_setup); 841 1.37 ragge qc->qc_xmit[idx].qe_addr_hi = 842 1.37 ragge HIWORD(sc->sc_pqedata->qc_setup) | QE_SETUP | QE_EOMSG; 843 1.37 ragge qc->qc_xmit[idx].qe_status1 = qc->qc_xmit[idx].qe_flag = QE_NOTYET; 844 1.37 ragge qc->qc_xmit[idx].qe_addr_hi |= QE_VALID; 845 1.1 ragge 846 1.37 ragge if (QE_RCSR(QE_CSR_CSR) & QE_XL_INVALID) { 847 1.37 ragge QE_WCSR(QE_CSR_XMTL, 848 1.37 ragge LOWORD(&sc->sc_pqedata->qc_xmit[idx])); 849 1.37 ragge QE_WCSR(QE_CSR_XMTH, 850 1.37 ragge HIWORD(&sc->sc_pqedata->qc_xmit[idx])); 851 1.22 ragge } 852 1.1 ragge 853 1.37 ragge sc->sc_inq++; 854 1.37 ragge if (++sc->sc_nexttx == TXDESCS) 855 1.37 ragge sc->sc_nexttx = 0; 856 1.37 ragge splx(s); 857 1.38 ragge } 858 1.38 ragge 859 1.38 ragge /* 860 1.38 ragge * Check for dead transmit logic. Not uncommon. 861 1.38 ragge */ 862 1.38 ragge void 863 1.46 ragge qetimeout(struct ifnet *ifp) 864 1.38 ragge { 865 1.38 ragge struct qe_softc *sc = ifp->if_softc; 866 1.38 ragge 867 1.38 ragge if (sc->sc_inq == 0) 868 1.38 ragge return; 869 1.38 ragge 870 1.67 matt aprint_error_dev(sc->sc_dev, "xmit logic died, resetting...\n"); 871 1.38 ragge /* 872 1.38 ragge * Do a reset of interface, to get it going again. 873 1.38 ragge * Will it work by just restart the transmit logic? 874 1.38 ragge */ 875 1.38 ragge qeinit(sc); 876 1.1 ragge } 877
Indexes created Tue Oct 21 16:10:11 GMT 2025