virtio.c revision 1.48
1 1.48 skrll /* $NetBSD: virtio.c,v 1.48 2021/02/07 09:26:17 skrll Exp $ */ 2 1.1 hannken 3 1.1 hannken /* 4 1.43 reinoud * Copyright (c) 2020 The NetBSD Foundation, Inc. 5 1.43 reinoud * Copyright (c) 2012 Stefan Fritsch, Alexander Fiveg. 6 1.1 hannken * Copyright (c) 2010 Minoura Makoto. 7 1.1 hannken * All rights reserved. 8 1.1 hannken * 9 1.1 hannken * Redistribution and use in source and binary forms, with or without 10 1.1 hannken * modification, are permitted provided that the following conditions 11 1.1 hannken * are met: 12 1.1 hannken * 1. Redistributions of source code must retain the above copyright 13 1.1 hannken * notice, this list of conditions and the following disclaimer. 14 1.1 hannken * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 hannken * notice, this list of conditions and the following disclaimer in the 16 1.1 hannken * documentation and/or other materials provided with the distribution. 17 1.1 hannken * 18 1.1 hannken * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 19 1.1 hannken * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 20 1.1 hannken * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 21 1.1 hannken * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 22 1.1 hannken * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 23 1.1 hannken * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 24 1.1 hannken * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 25 1.1 hannken * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 26 1.1 hannken * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 27 1.1 hannken * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 28 1.1 hannken */ 29 1.1 hannken 30 1.1 hannken #include <sys/cdefs.h> 31 1.48 skrll __KERNEL_RCSID(0, "$NetBSD: virtio.c,v 1.48 2021/02/07 09:26:17 skrll Exp $"); 32 1.1 hannken 33 1.1 hannken #include <sys/param.h> 34 1.1 hannken #include <sys/systm.h> 35 1.1 hannken #include <sys/kernel.h> 36 1.1 hannken #include <sys/atomic.h> 37 1.1 hannken #include <sys/bus.h> 38 1.1 hannken #include <sys/device.h> 39 1.1 hannken #include <sys/kmem.h> 40 1.18 pgoyette #include <sys/module.h> 41 1.1 hannken 42 1.22 jdolecek #define VIRTIO_PRIVATE 43 1.22 jdolecek 44 1.29 cherry #include <dev/pci/virtioreg.h> /* XXX: move to non-pci */ 45 1.29 cherry #include <dev/pci/virtiovar.h> /* XXX: move to non-pci */ 46 1.1 hannken 47 1.1 hannken #define MINSEG_INDIRECT 2 /* use indirect if nsegs >= this value */ 48 1.1 hannken 49 1.43 reinoud /* incomplete list */ 50 1.43 reinoud static const char *virtio_device_name[] = { 51 1.43 reinoud "unknown (0)", /* 0 */ 52 1.43 reinoud "network", /* 1 */ 53 1.43 reinoud "block", /* 2 */ 54 1.43 reinoud "console", /* 3 */ 55 1.43 reinoud "entropy", /* 4 */ 56 1.43 reinoud "memory balloon", /* 5 */ 57 1.43 reinoud "I/O memory", /* 6 */ 58 1.43 reinoud "remote processor messaging", /* 7 */ 59 1.43 reinoud "SCSI", /* 8 */ 60 1.43 reinoud "9P transport", /* 9 */ 61 1.43 reinoud }; 62 1.43 reinoud #define NDEVNAMES __arraycount(virtio_device_name) 63 1.43 reinoud 64 1.1 hannken static void virtio_init_vq(struct virtio_softc *, 65 1.1 hannken struct virtqueue *, const bool); 66 1.1 hannken 67 1.29 cherry void 68 1.1 hannken virtio_set_status(struct virtio_softc *sc, int status) 69 1.1 hannken { 70 1.31 jakllsch sc->sc_ops->set_status(sc, status); 71 1.11 ozaki } 72 1.11 ozaki 73 1.1 hannken /* 74 1.1 hannken * Reset the device. 75 1.1 hannken */ 76 1.1 hannken /* 77 1.1 hannken * To reset the device to a known state, do following: 78 1.1 hannken * virtio_reset(sc); // this will stop the device activity 79 1.1 hannken * <dequeue finished requests>; // virtio_dequeue() still can be called 80 1.1 hannken * <revoke pending requests in the vqs if any>; 81 1.42 jakllsch * virtio_reinit_start(sc); // dequeue prohibitted 82 1.1 hannken * newfeatures = virtio_negotiate_features(sc, requestedfeatures); 83 1.1 hannken * <some other initialization>; 84 1.1 hannken * virtio_reinit_end(sc); // device activated; enqueue allowed 85 1.1 hannken * Once attached, feature negotiation can only be allowed after virtio_reset. 86 1.1 hannken */ 87 1.1 hannken void 88 1.1 hannken virtio_reset(struct virtio_softc *sc) 89 1.1 hannken { 90 1.1 hannken virtio_device_reset(sc); 91 1.1 hannken } 92 1.1 hannken 93 1.1 hannken void 94 1.1 hannken virtio_reinit_start(struct virtio_softc *sc) 95 1.1 hannken { 96 1.1 hannken int i; 97 1.1 hannken 98 1.1 hannken virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_ACK); 99 1.1 hannken virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER); 100 1.1 hannken for (i = 0; i < sc->sc_nvqs; i++) { 101 1.1 hannken int n; 102 1.1 hannken struct virtqueue *vq = &sc->sc_vqs[i]; 103 1.31 jakllsch n = sc->sc_ops->read_queue_size(sc, vq->vq_index); 104 1.1 hannken if (n == 0) /* vq disappeared */ 105 1.1 hannken continue; 106 1.1 hannken if (n != vq->vq_num) { 107 1.1 hannken panic("%s: virtqueue size changed, vq index %d\n", 108 1.1 hannken device_xname(sc->sc_dev), 109 1.1 hannken vq->vq_index); 110 1.1 hannken } 111 1.1 hannken virtio_init_vq(sc, vq, true); 112 1.31 jakllsch sc->sc_ops->setup_queue(sc, vq->vq_index, 113 1.43 reinoud vq->vq_dmamap->dm_segs[0].ds_addr); 114 1.11 ozaki } 115 1.1 hannken } 116 1.1 hannken 117 1.1 hannken void 118 1.1 hannken virtio_reinit_end(struct virtio_softc *sc) 119 1.1 hannken { 120 1.1 hannken virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER_OK); 121 1.1 hannken } 122 1.1 hannken 123 1.1 hannken /* 124 1.1 hannken * Feature negotiation. 125 1.1 hannken */ 126 1.43 reinoud void 127 1.43 reinoud virtio_negotiate_features(struct virtio_softc *sc, uint64_t guest_features) 128 1.1 hannken { 129 1.1 hannken if (!(device_cfdata(sc->sc_dev)->cf_flags & 1) && 130 1.1 hannken !(device_cfdata(sc->sc_child)->cf_flags & 1)) /* XXX */ 131 1.1 hannken guest_features |= VIRTIO_F_RING_INDIRECT_DESC; 132 1.43 reinoud sc->sc_ops->neg_features(sc, guest_features); 133 1.43 reinoud if (sc->sc_active_features & VIRTIO_F_RING_INDIRECT_DESC) 134 1.1 hannken sc->sc_indirect = true; 135 1.1 hannken else 136 1.1 hannken sc->sc_indirect = false; 137 1.43 reinoud } 138 1.1 hannken 139 1.1 hannken 140 1.1 hannken /* 141 1.43 reinoud * Device configuration registers readers/writers 142 1.1 hannken */ 143 1.43 reinoud #if 0 144 1.43 reinoud #define DPRINTFR(n, fmt, val, index, num) \ 145 1.43 reinoud printf("\n%s (", n); \ 146 1.43 reinoud for (int i = 0; i < num; i++) \ 147 1.43 reinoud printf("%02x ", bus_space_read_1(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index+i)); \ 148 1.43 reinoud printf(") -> "); printf(fmt, val); printf("\n"); 149 1.45 reinoud #define DPRINTFR2(n, fmt, val_s, val_n) \ 150 1.45 reinoud printf("%s ", n); \ 151 1.45 reinoud printf("\n stream "); printf(fmt, val_s); printf(" norm "); printf(fmt, val_n); printf("\n"); 152 1.43 reinoud #else 153 1.43 reinoud #define DPRINTFR(n, fmt, val, index, num) 154 1.45 reinoud #define DPRINTFR2(n, fmt, val_s, val_n) 155 1.43 reinoud #endif 156 1.43 reinoud 157 1.45 reinoud 158 1.1 hannken uint8_t 159 1.43 reinoud virtio_read_device_config_1(struct virtio_softc *sc, int index) { 160 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 161 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 162 1.43 reinoud uint8_t val; 163 1.45 reinoud 164 1.45 reinoud val = bus_space_read_1(iot, ioh, index); 165 1.45 reinoud 166 1.43 reinoud DPRINTFR("read_1", "%02x", val, index, 1); 167 1.43 reinoud return val; 168 1.43 reinoud } 169 1.43 reinoud 170 1.43 reinoud uint16_t 171 1.43 reinoud virtio_read_device_config_2(struct virtio_softc *sc, int index) { 172 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 173 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 174 1.43 reinoud uint16_t val; 175 1.45 reinoud 176 1.45 reinoud val = bus_space_read_2(iot, ioh, index); 177 1.45 reinoud if (BYTE_ORDER != sc->sc_bus_endian) 178 1.45 reinoud val = bswap16(val); 179 1.45 reinoud 180 1.43 reinoud DPRINTFR("read_2", "%04x", val, index, 2); 181 1.45 reinoud DPRINTFR2("read_2", "%04x", 182 1.45 reinoud bus_space_read_stream_2(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index), 183 1.45 reinoud bus_space_read_2(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index)); 184 1.43 reinoud return val; 185 1.43 reinoud } 186 1.43 reinoud 187 1.43 reinoud uint32_t 188 1.43 reinoud virtio_read_device_config_4(struct virtio_softc *sc, int index) { 189 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 190 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 191 1.43 reinoud uint32_t val; 192 1.45 reinoud 193 1.45 reinoud val = bus_space_read_4(iot, ioh, index); 194 1.45 reinoud if (BYTE_ORDER != sc->sc_bus_endian) 195 1.45 reinoud val = bswap32(val); 196 1.45 reinoud 197 1.43 reinoud DPRINTFR("read_4", "%08x", val, index, 4); 198 1.45 reinoud DPRINTFR2("read_4", "%08x", 199 1.45 reinoud bus_space_read_stream_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index), 200 1.45 reinoud bus_space_read_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index)); 201 1.43 reinoud return val; 202 1.43 reinoud } 203 1.43 reinoud 204 1.46 reinoud /* 205 1.46 reinoud * The Virtio spec explicitly tells that reading and writing 8 bytes are not 206 1.46 reinoud * considered atomic and no triggers may be connected to reading or writing 207 1.47 reinoud * it. We access it using two 32 reads. See virtio spec 4.1.3.1. 208 1.46 reinoud */ 209 1.43 reinoud uint64_t 210 1.43 reinoud virtio_read_device_config_8(struct virtio_softc *sc, int index) { 211 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 212 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 213 1.46 reinoud union { 214 1.46 reinoud uint64_t u64; 215 1.47 reinoud uint32_t l[2]; 216 1.46 reinoud } v; 217 1.46 reinoud uint64_t val; 218 1.46 reinoud 219 1.47 reinoud v.l[0] = bus_space_read_4(iot, ioh, index); 220 1.47 reinoud v.l[1] = bus_space_read_4(iot, ioh, index + 4); 221 1.47 reinoud if (sc->sc_bus_endian != sc->sc_struct_endian) { 222 1.47 reinoud v.l[0] = bswap32(v.l[0]); 223 1.47 reinoud v.l[1] = bswap32(v.l[1]); 224 1.47 reinoud } 225 1.46 reinoud val = v.u64; 226 1.45 reinoud 227 1.46 reinoud if (BYTE_ORDER != sc->sc_struct_endian) 228 1.46 reinoud val = bswap64(val); 229 1.45 reinoud 230 1.43 reinoud DPRINTFR("read_8", "%08lx", val, index, 8); 231 1.45 reinoud DPRINTFR2("read_8 low ", "%08x", 232 1.45 reinoud bus_space_read_stream_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index), 233 1.45 reinoud bus_space_read_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index)); 234 1.45 reinoud DPRINTFR2("read_8 high ", "%08x", 235 1.45 reinoud bus_space_read_stream_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index + 4), 236 1.45 reinoud bus_space_read_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, index + 4)); 237 1.43 reinoud return val; 238 1.1 hannken } 239 1.1 hannken 240 1.43 reinoud /* 241 1.43 reinoud * In the older virtio spec, device config registers are host endian. On newer 242 1.45 reinoud * they are little endian. Some newer devices however explicitly specify their 243 1.45 reinoud * register to always be little endian. These fuctions cater for these. 244 1.43 reinoud */ 245 1.1 hannken uint16_t 246 1.43 reinoud virtio_read_device_config_le_2(struct virtio_softc *sc, int index) { 247 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 248 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 249 1.43 reinoud uint16_t val; 250 1.43 reinoud 251 1.45 reinoud val = bus_space_read_2(iot, ioh, index); 252 1.45 reinoud if (sc->sc_bus_endian != LITTLE_ENDIAN) 253 1.45 reinoud val = bswap16(val); 254 1.45 reinoud 255 1.45 reinoud DPRINTFR("read_le_2", "%04x", val, index, 2); 256 1.45 reinoud DPRINTFR2("read_le_2", "%04x", 257 1.45 reinoud bus_space_read_stream_2(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, 0), 258 1.45 reinoud bus_space_read_2(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, 0)); 259 1.43 reinoud return val; 260 1.1 hannken } 261 1.1 hannken 262 1.1 hannken uint32_t 263 1.43 reinoud virtio_read_device_config_le_4(struct virtio_softc *sc, int index) { 264 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 265 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 266 1.43 reinoud uint32_t val; 267 1.43 reinoud 268 1.45 reinoud val = bus_space_read_4(iot, ioh, index); 269 1.45 reinoud if (sc->sc_bus_endian != LITTLE_ENDIAN) 270 1.45 reinoud val = bswap32(val); 271 1.45 reinoud 272 1.43 reinoud DPRINTFR("read_le_4", "%08x", val, index, 4); 273 1.45 reinoud DPRINTFR2("read_le_4", "%08x", 274 1.45 reinoud bus_space_read_stream_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, 0), 275 1.45 reinoud bus_space_read_4(sc->sc_devcfg_iot, sc->sc_devcfg_ioh, 0)); 276 1.43 reinoud return val; 277 1.43 reinoud } 278 1.43 reinoud 279 1.43 reinoud void 280 1.43 reinoud virtio_write_device_config_1(struct virtio_softc *sc, int index, uint8_t value) 281 1.1 hannken { 282 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 283 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 284 1.45 reinoud 285 1.45 reinoud bus_space_write_1(iot, ioh, index, value); 286 1.1 hannken } 287 1.1 hannken 288 1.43 reinoud void 289 1.43 reinoud virtio_write_device_config_2(struct virtio_softc *sc, int index, uint16_t value) 290 1.1 hannken { 291 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 292 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 293 1.45 reinoud 294 1.45 reinoud if (BYTE_ORDER != sc->sc_bus_endian) 295 1.45 reinoud value = bswap16(value); 296 1.45 reinoud bus_space_write_2(iot, ioh, index, value); 297 1.1 hannken } 298 1.1 hannken 299 1.1 hannken void 300 1.43 reinoud virtio_write_device_config_4(struct virtio_softc *sc, int index, uint32_t value) 301 1.1 hannken { 302 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 303 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 304 1.45 reinoud 305 1.45 reinoud if (BYTE_ORDER != sc->sc_bus_endian) 306 1.45 reinoud value = bswap32(value); 307 1.45 reinoud bus_space_write_4(iot, ioh, index, value); 308 1.1 hannken } 309 1.1 hannken 310 1.46 reinoud /* 311 1.46 reinoud * The Virtio spec explicitly tells that reading and writing 8 bytes are not 312 1.46 reinoud * considered atomic and no triggers may be connected to reading or writing 313 1.47 reinoud * it. We access it using two 32 bit writes. For good measure it is stated to 314 1.47 reinoud * always write lsb first just in case of a hypervisor bug. See See virtio 315 1.47 reinoud * spec 4.1.3.1. 316 1.46 reinoud */ 317 1.1 hannken void 318 1.43 reinoud virtio_write_device_config_8(struct virtio_softc *sc, int index, uint64_t value) 319 1.1 hannken { 320 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 321 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 322 1.46 reinoud union { 323 1.46 reinoud uint64_t u64; 324 1.47 reinoud uint32_t l[2]; 325 1.46 reinoud } v; 326 1.46 reinoud 327 1.46 reinoud if (BYTE_ORDER != sc->sc_struct_endian) 328 1.46 reinoud value = bswap64(value); 329 1.46 reinoud 330 1.46 reinoud v.u64 = value; 331 1.47 reinoud if (sc->sc_bus_endian != sc->sc_struct_endian) { 332 1.47 reinoud v.l[0] = bswap32(v.l[0]); 333 1.47 reinoud v.l[1] = bswap32(v.l[1]); 334 1.47 reinoud } 335 1.47 reinoud 336 1.47 reinoud if (sc->sc_struct_endian == LITTLE_ENDIAN) { 337 1.47 reinoud bus_space_write_4(iot, ioh, index, v.l[0]); 338 1.47 reinoud bus_space_write_4(iot, ioh, index + 4, v.l[1]); 339 1.47 reinoud } else { 340 1.47 reinoud bus_space_write_4(iot, ioh, index + 4, v.l[1]); 341 1.47 reinoud bus_space_write_4(iot, ioh, index, v.l[0]); 342 1.47 reinoud } 343 1.1 hannken } 344 1.1 hannken 345 1.43 reinoud /* 346 1.43 reinoud * In the older virtio spec, device config registers are host endian. On newer 347 1.45 reinoud * they are little endian. Some newer devices however explicitly specify their 348 1.45 reinoud * register to always be little endian. These fuctions cater for these. 349 1.43 reinoud */ 350 1.1 hannken void 351 1.43 reinoud virtio_write_device_config_le_2(struct virtio_softc *sc, int index, uint16_t value) 352 1.1 hannken { 353 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 354 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 355 1.45 reinoud 356 1.45 reinoud if (sc->sc_bus_endian != LITTLE_ENDIAN) 357 1.45 reinoud value = bswap16(value); 358 1.45 reinoud bus_space_write_2(iot, ioh, index, value); 359 1.1 hannken } 360 1.1 hannken 361 1.1 hannken void 362 1.43 reinoud virtio_write_device_config_le_4(struct virtio_softc *sc, int index, uint32_t value) 363 1.43 reinoud { 364 1.45 reinoud bus_space_tag_t iot = sc->sc_devcfg_iot; 365 1.45 reinoud bus_space_handle_t ioh = sc->sc_devcfg_ioh; 366 1.45 reinoud 367 1.45 reinoud if (sc->sc_bus_endian != LITTLE_ENDIAN) 368 1.45 reinoud value = bswap32(value); 369 1.45 reinoud bus_space_write_4(iot, ioh, index, value); 370 1.43 reinoud } 371 1.43 reinoud 372 1.45 reinoud 373 1.43 reinoud /* 374 1.43 reinoud * data structures endian helpers 375 1.43 reinoud */ 376 1.43 reinoud uint16_t virtio_rw16(struct virtio_softc *sc, uint16_t val) 377 1.1 hannken { 378 1.43 reinoud KASSERT(sc); 379 1.45 reinoud return BYTE_ORDER != sc->sc_struct_endian ? bswap16(val) : val; 380 1.1 hannken } 381 1.1 hannken 382 1.43 reinoud uint32_t virtio_rw32(struct virtio_softc *sc, uint32_t val) 383 1.43 reinoud { 384 1.43 reinoud KASSERT(sc); 385 1.45 reinoud return BYTE_ORDER != sc->sc_struct_endian ? bswap32(val) : val; 386 1.43 reinoud } 387 1.43 reinoud 388 1.43 reinoud uint64_t virtio_rw64(struct virtio_softc *sc, uint64_t val) 389 1.43 reinoud { 390 1.43 reinoud KASSERT(sc); 391 1.45 reinoud return BYTE_ORDER != sc->sc_struct_endian ? bswap64(val) : val; 392 1.43 reinoud } 393 1.43 reinoud 394 1.43 reinoud 395 1.1 hannken /* 396 1.1 hannken * Interrupt handler. 397 1.1 hannken */ 398 1.8 ozaki static void 399 1.8 ozaki virtio_soft_intr(void *arg) 400 1.8 ozaki { 401 1.8 ozaki struct virtio_softc *sc = arg; 402 1.8 ozaki 403 1.8 ozaki KASSERT(sc->sc_intrhand != NULL); 404 1.8 ozaki 405 1.8 ozaki (sc->sc_intrhand)(sc); 406 1.8 ozaki } 407 1.8 ozaki 408 1.1 hannken /* 409 1.1 hannken * dmamap sync operations for a virtqueue. 410 1.1 hannken */ 411 1.1 hannken static inline void 412 1.1 hannken vq_sync_descs(struct virtio_softc *sc, struct virtqueue *vq, int ops) 413 1.1 hannken { 414 1.1 hannken /* availoffset == sizeof(vring_desc)*vq_num */ 415 1.1 hannken bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap, 0, vq->vq_availoffset, 416 1.1 hannken ops); 417 1.1 hannken } 418 1.1 hannken 419 1.1 hannken static inline void 420 1.1 hannken vq_sync_aring(struct virtio_softc *sc, struct virtqueue *vq, int ops) 421 1.1 hannken { 422 1.43 reinoud uint16_t hdrlen = offsetof(struct vring_avail, ring); 423 1.43 reinoud if (sc->sc_active_features & VIRTIO_F_RING_EVENT_IDX) 424 1.43 reinoud hdrlen += sizeof(uint16_t); 425 1.43 reinoud 426 1.1 hannken bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap, 427 1.1 hannken vq->vq_availoffset, 428 1.43 reinoud hdrlen + sc->sc_nvqs * sizeof(uint16_t), 429 1.1 hannken ops); 430 1.1 hannken } 431 1.1 hannken 432 1.1 hannken static inline void 433 1.1 hannken vq_sync_uring(struct virtio_softc *sc, struct virtqueue *vq, int ops) 434 1.1 hannken { 435 1.43 reinoud uint16_t hdrlen = offsetof(struct vring_used, ring); 436 1.43 reinoud if (sc->sc_active_features & VIRTIO_F_RING_EVENT_IDX) 437 1.43 reinoud hdrlen += sizeof(uint16_t); 438 1.43 reinoud 439 1.1 hannken bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap, 440 1.1 hannken vq->vq_usedoffset, 441 1.43 reinoud hdrlen + sc->sc_nvqs * sizeof(struct vring_used_elem), 442 1.1 hannken ops); 443 1.1 hannken } 444 1.1 hannken 445 1.1 hannken static inline void 446 1.1 hannken vq_sync_indirect(struct virtio_softc *sc, struct virtqueue *vq, int slot, 447 1.1 hannken int ops) 448 1.1 hannken { 449 1.1 hannken int offset = vq->vq_indirectoffset 450 1.1 hannken + sizeof(struct vring_desc) * vq->vq_maxnsegs * slot; 451 1.1 hannken 452 1.1 hannken bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap, 453 1.1 hannken offset, sizeof(struct vring_desc) * vq->vq_maxnsegs, 454 1.1 hannken ops); 455 1.1 hannken } 456 1.1 hannken 457 1.1 hannken /* 458 1.1 hannken * Can be used as sc_intrhand. 459 1.1 hannken */ 460 1.1 hannken /* 461 1.1 hannken * Scan vq, bus_dmamap_sync for the vqs (not for the payload), 462 1.1 hannken * and calls (*vq_done)() if some entries are consumed. 463 1.1 hannken */ 464 1.41 yamaguch bool 465 1.41 yamaguch virtio_vq_is_enqueued(struct virtio_softc *sc, struct virtqueue *vq) 466 1.37 yamaguch { 467 1.37 yamaguch 468 1.37 yamaguch if (vq->vq_queued) { 469 1.37 yamaguch vq->vq_queued = 0; 470 1.37 yamaguch vq_sync_aring(sc, vq, BUS_DMASYNC_POSTWRITE); 471 1.37 yamaguch } 472 1.37 yamaguch vq_sync_uring(sc, vq, BUS_DMASYNC_POSTREAD); 473 1.37 yamaguch membar_consumer(); 474 1.37 yamaguch 475 1.43 reinoud return (vq->vq_used_idx != virtio_rw16(sc, vq->vq_used->idx)) ? 1 : 0; 476 1.37 yamaguch } 477 1.37 yamaguch 478 1.1 hannken int 479 1.1 hannken virtio_vq_intr(struct virtio_softc *sc) 480 1.1 hannken { 481 1.1 hannken struct virtqueue *vq; 482 1.1 hannken int i, r = 0; 483 1.1 hannken 484 1.1 hannken for (i = 0; i < sc->sc_nvqs; i++) { 485 1.1 hannken vq = &sc->sc_vqs[i]; 486 1.41 yamaguch if (virtio_vq_is_enqueued(sc, vq) == 1) { 487 1.41 yamaguch if (vq->vq_done) 488 1.41 yamaguch r |= (vq->vq_done)(vq); 489 1.41 yamaguch } 490 1.1 hannken } 491 1.1 hannken 492 1.1 hannken return r; 493 1.1 hannken } 494 1.1 hannken 495 1.41 yamaguch int 496 1.41 yamaguch virtio_vq_intrhand(struct virtio_softc *sc) 497 1.37 yamaguch { 498 1.41 yamaguch struct virtqueue *vq; 499 1.41 yamaguch int i, r = 0; 500 1.41 yamaguch 501 1.41 yamaguch for (i = 0; i < sc->sc_nvqs; i++) { 502 1.41 yamaguch vq = &sc->sc_vqs[i]; 503 1.41 yamaguch r |= (vq->vq_intrhand)(vq->vq_intrhand_arg); 504 1.41 yamaguch } 505 1.37 yamaguch 506 1.41 yamaguch return r; 507 1.37 yamaguch } 508 1.37 yamaguch 509 1.43 reinoud 510 1.43 reinoud /* 511 1.43 reinoud * Increase the event index in order to delay interrupts. 512 1.43 reinoud */ 513 1.43 reinoud int 514 1.43 reinoud virtio_postpone_intr(struct virtio_softc *sc, struct virtqueue *vq, 515 1.43 reinoud uint16_t nslots) 516 1.43 reinoud { 517 1.43 reinoud uint16_t idx, nused; 518 1.43 reinoud 519 1.43 reinoud idx = vq->vq_used_idx + nslots; 520 1.43 reinoud 521 1.43 reinoud /* set the new event index: avail_ring->used_event = idx */ 522 1.43 reinoud *vq->vq_used_event = virtio_rw16(sc, idx); 523 1.43 reinoud membar_producer(); 524 1.43 reinoud 525 1.43 reinoud vq_sync_aring(vq->vq_owner, vq, BUS_DMASYNC_PREWRITE); 526 1.43 reinoud vq->vq_queued++; 527 1.43 reinoud 528 1.43 reinoud nused = (uint16_t) 529 1.43 reinoud (virtio_rw16(sc, vq->vq_used->idx) - vq->vq_used_idx); 530 1.43 reinoud KASSERT(nused <= vq->vq_num); 531 1.43 reinoud 532 1.43 reinoud return nslots < nused; 533 1.43 reinoud } 534 1.43 reinoud 535 1.43 reinoud /* 536 1.43 reinoud * Postpone interrupt until 3/4 of the available descriptors have been 537 1.43 reinoud * consumed. 538 1.43 reinoud */ 539 1.43 reinoud int 540 1.43 reinoud virtio_postpone_intr_smart(struct virtio_softc *sc, struct virtqueue *vq) 541 1.43 reinoud { 542 1.43 reinoud uint16_t nslots; 543 1.43 reinoud 544 1.43 reinoud nslots = (uint16_t) 545 1.43 reinoud (virtio_rw16(sc, vq->vq_avail->idx) - vq->vq_used_idx) * 3 / 4; 546 1.43 reinoud 547 1.43 reinoud return virtio_postpone_intr(sc, vq, nslots); 548 1.43 reinoud } 549 1.43 reinoud 550 1.43 reinoud /* 551 1.43 reinoud * Postpone interrupt until all of the available descriptors have been 552 1.43 reinoud * consumed. 553 1.43 reinoud */ 554 1.43 reinoud int 555 1.43 reinoud virtio_postpone_intr_far(struct virtio_softc *sc, struct virtqueue *vq) 556 1.43 reinoud { 557 1.43 reinoud uint16_t nslots; 558 1.43 reinoud 559 1.43 reinoud nslots = (uint16_t) 560 1.43 reinoud (virtio_rw16(sc, vq->vq_avail->idx) - vq->vq_used_idx); 561 1.43 reinoud 562 1.43 reinoud return virtio_postpone_intr(sc, vq, nslots); 563 1.43 reinoud } 564 1.43 reinoud 565 1.1 hannken /* 566 1.1 hannken * Start/stop vq interrupt. No guarantee. 567 1.1 hannken */ 568 1.1 hannken void 569 1.1 hannken virtio_stop_vq_intr(struct virtio_softc *sc, struct virtqueue *vq) 570 1.1 hannken { 571 1.43 reinoud if (sc->sc_active_features & VIRTIO_F_RING_EVENT_IDX) { 572 1.43 reinoud /* 573 1.43 reinoud * No way to disable the interrupt completely with 574 1.43 reinoud * RingEventIdx. Instead advance used_event by half the 575 1.43 reinoud * possible value. This won't happen soon and is far enough in 576 1.43 reinoud * the past to not trigger a spurios interrupt. 577 1.43 reinoud */ 578 1.43 reinoud *vq->vq_used_event = virtio_rw16(sc, vq->vq_used_idx + 0x8000); 579 1.43 reinoud } else { 580 1.43 reinoud vq->vq_avail->flags |= virtio_rw16(sc, VRING_AVAIL_F_NO_INTERRUPT); 581 1.43 reinoud } 582 1.1 hannken vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE); 583 1.1 hannken vq->vq_queued++; 584 1.1 hannken } 585 1.1 hannken 586 1.43 reinoud int 587 1.1 hannken virtio_start_vq_intr(struct virtio_softc *sc, struct virtqueue *vq) 588 1.1 hannken { 589 1.43 reinoud if (sc->sc_active_features & VIRTIO_F_RING_EVENT_IDX) { 590 1.43 reinoud /* 591 1.43 reinoud * If event index feature is negotiated, enabling interrupts 592 1.43 reinoud * is done through setting the latest consumed index in the 593 1.43 reinoud * used_event field 594 1.43 reinoud */ 595 1.43 reinoud *vq->vq_used_event = virtio_rw16(sc, vq->vq_used_idx); 596 1.43 reinoud } else { 597 1.43 reinoud vq->vq_avail->flags &= ~virtio_rw16(sc, VRING_AVAIL_F_NO_INTERRUPT); 598 1.43 reinoud } 599 1.1 hannken vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE); 600 1.1 hannken vq->vq_queued++; 601 1.43 reinoud 602 1.43 reinoud return vq->vq_used_idx != virtio_rw16(sc, vq->vq_used->idx); 603 1.1 hannken } 604 1.1 hannken 605 1.1 hannken /* 606 1.1 hannken * Initialize vq structure. 607 1.1 hannken */ 608 1.1 hannken static void 609 1.15 msaitoh virtio_init_vq(struct virtio_softc *sc, struct virtqueue *vq, 610 1.15 msaitoh const bool reinit) 611 1.1 hannken { 612 1.1 hannken int i, j; 613 1.1 hannken int vq_size = vq->vq_num; 614 1.1 hannken 615 1.1 hannken memset(vq->vq_vaddr, 0, vq->vq_bytesize); 616 1.1 hannken 617 1.1 hannken /* build the indirect descriptor chain */ 618 1.1 hannken if (vq->vq_indirect != NULL) { 619 1.1 hannken struct vring_desc *vd; 620 1.1 hannken 621 1.1 hannken for (i = 0; i < vq_size; i++) { 622 1.1 hannken vd = vq->vq_indirect; 623 1.1 hannken vd += vq->vq_maxnsegs * i; 624 1.23 martin for (j = 0; j < vq->vq_maxnsegs-1; j++) { 625 1.43 reinoud vd[j].next = virtio_rw16(sc, j + 1); 626 1.23 martin } 627 1.1 hannken } 628 1.1 hannken } 629 1.1 hannken 630 1.1 hannken /* free slot management */ 631 1.1 hannken SIMPLEQ_INIT(&vq->vq_freelist); 632 1.1 hannken for (i = 0; i < vq_size; i++) { 633 1.1 hannken SIMPLEQ_INSERT_TAIL(&vq->vq_freelist, 634 1.1 hannken &vq->vq_entries[i], qe_list); 635 1.1 hannken vq->vq_entries[i].qe_index = i; 636 1.1 hannken } 637 1.1 hannken if (!reinit) 638 1.1 hannken mutex_init(&vq->vq_freelist_lock, MUTEX_SPIN, sc->sc_ipl); 639 1.1 hannken 640 1.1 hannken /* enqueue/dequeue status */ 641 1.1 hannken vq->vq_avail_idx = 0; 642 1.1 hannken vq->vq_used_idx = 0; 643 1.1 hannken vq->vq_queued = 0; 644 1.1 hannken if (!reinit) { 645 1.1 hannken mutex_init(&vq->vq_aring_lock, MUTEX_SPIN, sc->sc_ipl); 646 1.1 hannken mutex_init(&vq->vq_uring_lock, MUTEX_SPIN, sc->sc_ipl); 647 1.1 hannken } 648 1.1 hannken vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE); 649 1.1 hannken vq_sync_uring(sc, vq, BUS_DMASYNC_PREREAD); 650 1.1 hannken vq->vq_queued++; 651 1.1 hannken } 652 1.48 skrll 653 1.1 hannken /* 654 1.1 hannken * Allocate/free a vq. 655 1.1 hannken */ 656 1.1 hannken int 657 1.15 msaitoh virtio_alloc_vq(struct virtio_softc *sc, struct virtqueue *vq, int index, 658 1.15 msaitoh int maxsegsize, int maxnsegs, const char *name) 659 1.1 hannken { 660 1.1 hannken int vq_size, allocsize1, allocsize2, allocsize3, allocsize = 0; 661 1.43 reinoud int rsegs, r, hdrlen; 662 1.1 hannken #define VIRTQUEUE_ALIGN(n) (((n)+(VIRTIO_PAGE_SIZE-1))& \ 663 1.1 hannken ~(VIRTIO_PAGE_SIZE-1)) 664 1.1 hannken 665 1.22 jdolecek /* Make sure callers allocate vqs in order */ 666 1.22 jdolecek KASSERT(sc->sc_nvqs == index); 667 1.22 jdolecek 668 1.1 hannken memset(vq, 0, sizeof(*vq)); 669 1.1 hannken 670 1.31 jakllsch vq_size = sc->sc_ops->read_queue_size(sc, index); 671 1.1 hannken if (vq_size == 0) { 672 1.1 hannken aprint_error_dev(sc->sc_dev, 673 1.1 hannken "virtqueue not exist, index %d for %s\n", 674 1.1 hannken index, name); 675 1.1 hannken goto err; 676 1.1 hannken } 677 1.43 reinoud 678 1.43 reinoud hdrlen = sc->sc_active_features & VIRTIO_F_RING_EVENT_IDX ? 3 : 2; 679 1.43 reinoud 680 1.1 hannken /* allocsize1: descriptor table + avail ring + pad */ 681 1.1 hannken allocsize1 = VIRTQUEUE_ALIGN(sizeof(struct vring_desc)*vq_size 682 1.43 reinoud + sizeof(uint16_t)*(hdrlen + vq_size)); 683 1.1 hannken /* allocsize2: used ring + pad */ 684 1.43 reinoud allocsize2 = VIRTQUEUE_ALIGN(sizeof(uint16_t) * hdrlen 685 1.43 reinoud + sizeof(struct vring_used_elem)*vq_size); 686 1.1 hannken /* allocsize3: indirect table */ 687 1.1 hannken if (sc->sc_indirect && maxnsegs >= MINSEG_INDIRECT) 688 1.1 hannken allocsize3 = sizeof(struct vring_desc) * maxnsegs * vq_size; 689 1.1 hannken else 690 1.1 hannken allocsize3 = 0; 691 1.1 hannken allocsize = allocsize1 + allocsize2 + allocsize3; 692 1.1 hannken 693 1.1 hannken /* alloc and map the memory */ 694 1.1 hannken r = bus_dmamem_alloc(sc->sc_dmat, allocsize, VIRTIO_PAGE_SIZE, 0, 695 1.1 hannken &vq->vq_segs[0], 1, &rsegs, BUS_DMA_NOWAIT); 696 1.1 hannken if (r != 0) { 697 1.1 hannken aprint_error_dev(sc->sc_dev, 698 1.1 hannken "virtqueue %d for %s allocation failed, " 699 1.1 hannken "error code %d\n", index, name, r); 700 1.1 hannken goto err; 701 1.1 hannken } 702 1.43 reinoud r = bus_dmamem_map(sc->sc_dmat, &vq->vq_segs[0], rsegs, allocsize, 703 1.1 hannken &vq->vq_vaddr, BUS_DMA_NOWAIT); 704 1.1 hannken if (r != 0) { 705 1.1 hannken aprint_error_dev(sc->sc_dev, 706 1.1 hannken "virtqueue %d for %s map failed, " 707 1.1 hannken "error code %d\n", index, name, r); 708 1.1 hannken goto err; 709 1.1 hannken } 710 1.1 hannken r = bus_dmamap_create(sc->sc_dmat, allocsize, 1, allocsize, 0, 711 1.1 hannken BUS_DMA_NOWAIT, &vq->vq_dmamap); 712 1.1 hannken if (r != 0) { 713 1.1 hannken aprint_error_dev(sc->sc_dev, 714 1.1 hannken "virtqueue %d for %s dmamap creation failed, " 715 1.1 hannken "error code %d\n", index, name, r); 716 1.1 hannken goto err; 717 1.1 hannken } 718 1.1 hannken r = bus_dmamap_load(sc->sc_dmat, vq->vq_dmamap, 719 1.1 hannken vq->vq_vaddr, allocsize, NULL, BUS_DMA_NOWAIT); 720 1.1 hannken if (r != 0) { 721 1.1 hannken aprint_error_dev(sc->sc_dev, 722 1.1 hannken "virtqueue %d for %s dmamap load failed, " 723 1.1 hannken "error code %d\n", index, name, r); 724 1.1 hannken goto err; 725 1.1 hannken } 726 1.1 hannken 727 1.1 hannken /* remember addresses and offsets for later use */ 728 1.1 hannken vq->vq_owner = sc; 729 1.1 hannken vq->vq_num = vq_size; 730 1.1 hannken vq->vq_index = index; 731 1.1 hannken vq->vq_desc = vq->vq_vaddr; 732 1.1 hannken vq->vq_availoffset = sizeof(struct vring_desc)*vq_size; 733 1.1 hannken vq->vq_avail = (void*)(((char*)vq->vq_desc) + vq->vq_availoffset); 734 1.43 reinoud vq->vq_used_event = (uint16_t *) ((char *)vq->vq_avail + 735 1.43 reinoud offsetof(struct vring_avail, ring[vq->vq_num])); 736 1.1 hannken vq->vq_usedoffset = allocsize1; 737 1.1 hannken vq->vq_used = (void*)(((char*)vq->vq_desc) + vq->vq_usedoffset); 738 1.43 reinoud vq->vq_avail_event = (uint16_t *)((char *)vq->vq_used + 739 1.43 reinoud offsetof(struct vring_used, ring[vq->vq_num])); 740 1.43 reinoud 741 1.1 hannken if (allocsize3 > 0) { 742 1.1 hannken vq->vq_indirectoffset = allocsize1 + allocsize2; 743 1.1 hannken vq->vq_indirect = (void*)(((char*)vq->vq_desc) 744 1.1 hannken + vq->vq_indirectoffset); 745 1.1 hannken } 746 1.1 hannken vq->vq_bytesize = allocsize; 747 1.1 hannken vq->vq_maxsegsize = maxsegsize; 748 1.1 hannken vq->vq_maxnsegs = maxnsegs; 749 1.1 hannken 750 1.1 hannken /* free slot management */ 751 1.1 hannken vq->vq_entries = kmem_zalloc(sizeof(struct vq_entry)*vq_size, 752 1.38 chs KM_SLEEP); 753 1.1 hannken virtio_init_vq(sc, vq, false); 754 1.1 hannken 755 1.43 reinoud /* set the vq address */ 756 1.43 reinoud sc->sc_ops->setup_queue(sc, index, 757 1.43 reinoud vq->vq_dmamap->dm_segs[0].ds_addr); 758 1.43 reinoud 759 1.1 hannken aprint_verbose_dev(sc->sc_dev, 760 1.1 hannken "allocated %u byte for virtqueue %d for %s, " 761 1.1 hannken "size %d\n", allocsize, index, name, vq_size); 762 1.1 hannken if (allocsize3 > 0) 763 1.1 hannken aprint_verbose_dev(sc->sc_dev, 764 1.1 hannken "using %d byte (%d entries) " 765 1.1 hannken "indirect descriptors\n", 766 1.1 hannken allocsize3, maxnsegs * vq_size); 767 1.22 jdolecek 768 1.22 jdolecek sc->sc_nvqs++; 769 1.22 jdolecek 770 1.1 hannken return 0; 771 1.1 hannken 772 1.1 hannken err: 773 1.34 jakllsch sc->sc_ops->setup_queue(sc, index, 0); 774 1.1 hannken if (vq->vq_dmamap) 775 1.1 hannken bus_dmamap_destroy(sc->sc_dmat, vq->vq_dmamap); 776 1.1 hannken if (vq->vq_vaddr) 777 1.1 hannken bus_dmamem_unmap(sc->sc_dmat, vq->vq_vaddr, allocsize); 778 1.1 hannken if (vq->vq_segs[0].ds_addr) 779 1.1 hannken bus_dmamem_free(sc->sc_dmat, &vq->vq_segs[0], 1); 780 1.1 hannken memset(vq, 0, sizeof(*vq)); 781 1.1 hannken 782 1.1 hannken return -1; 783 1.1 hannken } 784 1.1 hannken 785 1.1 hannken int 786 1.1 hannken virtio_free_vq(struct virtio_softc *sc, struct virtqueue *vq) 787 1.1 hannken { 788 1.1 hannken struct vq_entry *qe; 789 1.1 hannken int i = 0; 790 1.1 hannken 791 1.1 hannken /* device must be already deactivated */ 792 1.1 hannken /* confirm the vq is empty */ 793 1.1 hannken SIMPLEQ_FOREACH(qe, &vq->vq_freelist, qe_list) { 794 1.1 hannken i++; 795 1.1 hannken } 796 1.1 hannken if (i != vq->vq_num) { 797 1.1 hannken printf("%s: freeing non-empty vq, index %d\n", 798 1.1 hannken device_xname(sc->sc_dev), vq->vq_index); 799 1.1 hannken return EBUSY; 800 1.1 hannken } 801 1.1 hannken 802 1.1 hannken /* tell device that there's no virtqueue any longer */ 803 1.31 jakllsch sc->sc_ops->setup_queue(sc, vq->vq_index, 0); 804 1.1 hannken 805 1.14 christos kmem_free(vq->vq_entries, sizeof(*vq->vq_entries) * vq->vq_num); 806 1.1 hannken bus_dmamap_unload(sc->sc_dmat, vq->vq_dmamap); 807 1.1 hannken bus_dmamap_destroy(sc->sc_dmat, vq->vq_dmamap); 808 1.1 hannken bus_dmamem_unmap(sc->sc_dmat, vq->vq_vaddr, vq->vq_bytesize); 809 1.1 hannken bus_dmamem_free(sc->sc_dmat, &vq->vq_segs[0], 1); 810 1.1 hannken mutex_destroy(&vq->vq_freelist_lock); 811 1.1 hannken mutex_destroy(&vq->vq_uring_lock); 812 1.1 hannken mutex_destroy(&vq->vq_aring_lock); 813 1.1 hannken memset(vq, 0, sizeof(*vq)); 814 1.1 hannken 815 1.22 jdolecek sc->sc_nvqs--; 816 1.22 jdolecek 817 1.1 hannken return 0; 818 1.1 hannken } 819 1.1 hannken 820 1.1 hannken /* 821 1.1 hannken * Free descriptor management. 822 1.1 hannken */ 823 1.1 hannken static struct vq_entry * 824 1.1 hannken vq_alloc_entry(struct virtqueue *vq) 825 1.1 hannken { 826 1.1 hannken struct vq_entry *qe; 827 1.1 hannken 828 1.1 hannken mutex_enter(&vq->vq_freelist_lock); 829 1.1 hannken if (SIMPLEQ_EMPTY(&vq->vq_freelist)) { 830 1.1 hannken mutex_exit(&vq->vq_freelist_lock); 831 1.1 hannken return NULL; 832 1.1 hannken } 833 1.1 hannken qe = SIMPLEQ_FIRST(&vq->vq_freelist); 834 1.1 hannken SIMPLEQ_REMOVE_HEAD(&vq->vq_freelist, qe_list); 835 1.1 hannken mutex_exit(&vq->vq_freelist_lock); 836 1.1 hannken 837 1.1 hannken return qe; 838 1.1 hannken } 839 1.1 hannken 840 1.1 hannken static void 841 1.1 hannken vq_free_entry(struct virtqueue *vq, struct vq_entry *qe) 842 1.1 hannken { 843 1.1 hannken mutex_enter(&vq->vq_freelist_lock); 844 1.1 hannken SIMPLEQ_INSERT_TAIL(&vq->vq_freelist, qe, qe_list); 845 1.1 hannken mutex_exit(&vq->vq_freelist_lock); 846 1.1 hannken 847 1.1 hannken return; 848 1.1 hannken } 849 1.1 hannken 850 1.1 hannken /* 851 1.1 hannken * Enqueue several dmamaps as a single request. 852 1.1 hannken */ 853 1.1 hannken /* 854 1.1 hannken * Typical usage: 855 1.1 hannken * <queue size> number of followings are stored in arrays 856 1.1 hannken * - command blocks (in dmamem) should be pre-allocated and mapped 857 1.1 hannken * - dmamaps for command blocks should be pre-allocated and loaded 858 1.1 hannken * - dmamaps for payload should be pre-allocated 859 1.1 hannken * r = virtio_enqueue_prep(sc, vq, &slot); // allocate a slot 860 1.1 hannken * if (r) // currently 0 or EAGAIN 861 1.1 hannken * return r; 862 1.1 hannken * r = bus_dmamap_load(dmat, dmamap_payload[slot], data, count, ..); 863 1.1 hannken * if (r) { 864 1.1 hannken * virtio_enqueue_abort(sc, vq, slot); 865 1.1 hannken * return r; 866 1.1 hannken * } 867 1.48 skrll * r = virtio_enqueue_reserve(sc, vq, slot, 868 1.1 hannken * dmamap_payload[slot]->dm_nsegs+1); 869 1.1 hannken * // ^ +1 for command 870 1.1 hannken * if (r) { // currently 0 or EAGAIN 871 1.1 hannken * bus_dmamap_unload(dmat, dmamap_payload[slot]); 872 1.1 hannken * return r; // do not call abort() 873 1.1 hannken * } 874 1.1 hannken * <setup and prepare commands> 875 1.1 hannken * bus_dmamap_sync(dmat, dmamap_cmd[slot],... BUS_DMASYNC_PREWRITE); 876 1.1 hannken * bus_dmamap_sync(dmat, dmamap_payload[slot],...); 877 1.1 hannken * virtio_enqueue(sc, vq, slot, dmamap_cmd[slot], false); 878 1.1 hannken * virtio_enqueue(sc, vq, slot, dmamap_payload[slot], iswrite); 879 1.1 hannken * virtio_enqueue_commit(sc, vq, slot, true); 880 1.1 hannken */ 881 1.1 hannken 882 1.1 hannken /* 883 1.1 hannken * enqueue_prep: allocate a slot number 884 1.1 hannken */ 885 1.1 hannken int 886 1.1 hannken virtio_enqueue_prep(struct virtio_softc *sc, struct virtqueue *vq, int *slotp) 887 1.1 hannken { 888 1.1 hannken struct vq_entry *qe1; 889 1.1 hannken 890 1.1 hannken KASSERT(slotp != NULL); 891 1.1 hannken 892 1.1 hannken qe1 = vq_alloc_entry(vq); 893 1.1 hannken if (qe1 == NULL) 894 1.1 hannken return EAGAIN; 895 1.1 hannken /* next slot is not allocated yet */ 896 1.1 hannken qe1->qe_next = -1; 897 1.1 hannken *slotp = qe1->qe_index; 898 1.1 hannken 899 1.1 hannken return 0; 900 1.1 hannken } 901 1.1 hannken 902 1.1 hannken /* 903 1.1 hannken * enqueue_reserve: allocate remaining slots and build the descriptor chain. 904 1.1 hannken */ 905 1.1 hannken int 906 1.1 hannken virtio_enqueue_reserve(struct virtio_softc *sc, struct virtqueue *vq, 907 1.1 hannken int slot, int nsegs) 908 1.1 hannken { 909 1.1 hannken int indirect; 910 1.1 hannken struct vq_entry *qe1 = &vq->vq_entries[slot]; 911 1.1 hannken 912 1.1 hannken KASSERT(qe1->qe_next == -1); 913 1.1 hannken KASSERT(1 <= nsegs && nsegs <= vq->vq_num); 914 1.1 hannken 915 1.1 hannken if ((vq->vq_indirect != NULL) && 916 1.1 hannken (nsegs >= MINSEG_INDIRECT) && 917 1.1 hannken (nsegs <= vq->vq_maxnsegs)) 918 1.1 hannken indirect = 1; 919 1.1 hannken else 920 1.1 hannken indirect = 0; 921 1.1 hannken qe1->qe_indirect = indirect; 922 1.1 hannken 923 1.1 hannken if (indirect) { 924 1.1 hannken struct vring_desc *vd; 925 1.43 reinoud uint64_t addr; 926 1.1 hannken int i; 927 1.1 hannken 928 1.1 hannken vd = &vq->vq_desc[qe1->qe_index]; 929 1.43 reinoud addr = vq->vq_dmamap->dm_segs[0].ds_addr 930 1.1 hannken + vq->vq_indirectoffset; 931 1.43 reinoud addr += sizeof(struct vring_desc) 932 1.1 hannken * vq->vq_maxnsegs * qe1->qe_index; 933 1.43 reinoud vd->addr = virtio_rw64(sc, addr); 934 1.43 reinoud vd->len = virtio_rw32(sc, sizeof(struct vring_desc) * nsegs); 935 1.43 reinoud vd->flags = virtio_rw16(sc, VRING_DESC_F_INDIRECT); 936 1.1 hannken 937 1.1 hannken vd = vq->vq_indirect; 938 1.1 hannken vd += vq->vq_maxnsegs * qe1->qe_index; 939 1.1 hannken qe1->qe_desc_base = vd; 940 1.1 hannken 941 1.1 hannken for (i = 0; i < nsegs-1; i++) { 942 1.43 reinoud vd[i].flags = virtio_rw16(sc, VRING_DESC_F_NEXT); 943 1.1 hannken } 944 1.43 reinoud vd[i].flags = virtio_rw16(sc, 0); 945 1.1 hannken qe1->qe_next = 0; 946 1.1 hannken 947 1.1 hannken return 0; 948 1.1 hannken } else { 949 1.1 hannken struct vring_desc *vd; 950 1.1 hannken struct vq_entry *qe; 951 1.1 hannken int i, s; 952 1.1 hannken 953 1.1 hannken vd = &vq->vq_desc[0]; 954 1.1 hannken qe1->qe_desc_base = vd; 955 1.1 hannken qe1->qe_next = qe1->qe_index; 956 1.1 hannken s = slot; 957 1.1 hannken for (i = 0; i < nsegs - 1; i++) { 958 1.1 hannken qe = vq_alloc_entry(vq); 959 1.1 hannken if (qe == NULL) { 960 1.43 reinoud vd[s].flags = virtio_rw16(sc, 0); 961 1.1 hannken virtio_enqueue_abort(sc, vq, slot); 962 1.1 hannken return EAGAIN; 963 1.1 hannken } 964 1.43 reinoud vd[s].flags = virtio_rw16(sc, VRING_DESC_F_NEXT); 965 1.43 reinoud vd[s].next = virtio_rw16(sc, qe->qe_index); 966 1.1 hannken s = qe->qe_index; 967 1.1 hannken } 968 1.43 reinoud vd[s].flags = virtio_rw16(sc, 0); 969 1.1 hannken 970 1.1 hannken return 0; 971 1.1 hannken } 972 1.1 hannken } 973 1.1 hannken 974 1.1 hannken /* 975 1.1 hannken * enqueue: enqueue a single dmamap. 976 1.1 hannken */ 977 1.1 hannken int 978 1.1 hannken virtio_enqueue(struct virtio_softc *sc, struct virtqueue *vq, int slot, 979 1.1 hannken bus_dmamap_t dmamap, bool write) 980 1.1 hannken { 981 1.1 hannken struct vq_entry *qe1 = &vq->vq_entries[slot]; 982 1.1 hannken struct vring_desc *vd = qe1->qe_desc_base; 983 1.1 hannken int i; 984 1.1 hannken int s = qe1->qe_next; 985 1.1 hannken 986 1.1 hannken KASSERT(s >= 0); 987 1.1 hannken KASSERT(dmamap->dm_nsegs > 0); 988 1.1 hannken 989 1.1 hannken for (i = 0; i < dmamap->dm_nsegs; i++) { 990 1.43 reinoud vd[s].addr = virtio_rw64(sc, dmamap->dm_segs[i].ds_addr); 991 1.43 reinoud vd[s].len = virtio_rw32(sc, dmamap->dm_segs[i].ds_len); 992 1.1 hannken if (!write) 993 1.43 reinoud vd[s].flags |= virtio_rw16(sc, VRING_DESC_F_WRITE); 994 1.43 reinoud s = virtio_rw16(sc, vd[s].next); 995 1.1 hannken } 996 1.1 hannken qe1->qe_next = s; 997 1.1 hannken 998 1.1 hannken return 0; 999 1.1 hannken } 1000 1.1 hannken 1001 1.1 hannken int 1002 1.1 hannken virtio_enqueue_p(struct virtio_softc *sc, struct virtqueue *vq, int slot, 1003 1.1 hannken bus_dmamap_t dmamap, bus_addr_t start, bus_size_t len, 1004 1.1 hannken bool write) 1005 1.1 hannken { 1006 1.1 hannken struct vq_entry *qe1 = &vq->vq_entries[slot]; 1007 1.1 hannken struct vring_desc *vd = qe1->qe_desc_base; 1008 1.1 hannken int s = qe1->qe_next; 1009 1.1 hannken 1010 1.1 hannken KASSERT(s >= 0); 1011 1.1 hannken KASSERT(dmamap->dm_nsegs == 1); /* XXX */ 1012 1.1 hannken KASSERT((dmamap->dm_segs[0].ds_len > start) && 1013 1.1 hannken (dmamap->dm_segs[0].ds_len >= start + len)); 1014 1.1 hannken 1015 1.43 reinoud vd[s].addr = virtio_rw64(sc, dmamap->dm_segs[0].ds_addr + start); 1016 1.43 reinoud vd[s].len = virtio_rw32(sc, len); 1017 1.1 hannken if (!write) 1018 1.43 reinoud vd[s].flags |= virtio_rw16(sc, VRING_DESC_F_WRITE); 1019 1.43 reinoud qe1->qe_next = virtio_rw16(sc, vd[s].next); 1020 1.1 hannken 1021 1.1 hannken return 0; 1022 1.1 hannken } 1023 1.1 hannken 1024 1.1 hannken /* 1025 1.1 hannken * enqueue_commit: add it to the aring. 1026 1.1 hannken */ 1027 1.1 hannken int 1028 1.1 hannken virtio_enqueue_commit(struct virtio_softc *sc, struct virtqueue *vq, int slot, 1029 1.1 hannken bool notifynow) 1030 1.1 hannken { 1031 1.1 hannken struct vq_entry *qe1; 1032 1.1 hannken 1033 1.1 hannken if (slot < 0) { 1034 1.1 hannken mutex_enter(&vq->vq_aring_lock); 1035 1.1 hannken goto notify; 1036 1.1 hannken } 1037 1.1 hannken vq_sync_descs(sc, vq, BUS_DMASYNC_PREWRITE); 1038 1.1 hannken qe1 = &vq->vq_entries[slot]; 1039 1.1 hannken if (qe1->qe_indirect) 1040 1.1 hannken vq_sync_indirect(sc, vq, slot, BUS_DMASYNC_PREWRITE); 1041 1.1 hannken mutex_enter(&vq->vq_aring_lock); 1042 1.43 reinoud vq->vq_avail->ring[(vq->vq_avail_idx++) % vq->vq_num] = 1043 1.43 reinoud virtio_rw16(sc, slot); 1044 1.1 hannken 1045 1.1 hannken notify: 1046 1.1 hannken if (notifynow) { 1047 1.43 reinoud uint16_t o, n, t; 1048 1.43 reinoud uint16_t flags; 1049 1.43 reinoud o = virtio_rw16(sc, vq->vq_avail->idx); 1050 1.43 reinoud n = vq->vq_avail_idx; 1051 1.43 reinoud 1052 1.43 reinoud /* publish avail idx */ 1053 1.1 hannken membar_producer(); 1054 1.43 reinoud vq->vq_avail->idx = virtio_rw16(sc, vq->vq_avail_idx); 1055 1.1 hannken vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE); 1056 1.1 hannken vq->vq_queued++; 1057 1.43 reinoud 1058 1.43 reinoud membar_consumer(); 1059 1.43 reinoud vq_sync_uring(sc, vq, BUS_DMASYNC_PREREAD); 1060 1.43 reinoud if (sc->sc_active_features & VIRTIO_F_RING_EVENT_IDX) { 1061 1.43 reinoud t = virtio_rw16(sc, *vq->vq_avail_event) + 1; 1062 1.43 reinoud if ((uint16_t) (n - t) < (uint16_t) (n - o)) 1063 1.43 reinoud sc->sc_ops->kick(sc, vq->vq_index); 1064 1.43 reinoud } else { 1065 1.43 reinoud flags = virtio_rw16(sc, vq->vq_used->flags); 1066 1.43 reinoud if (!(flags & VRING_USED_F_NO_NOTIFY)) 1067 1.43 reinoud sc->sc_ops->kick(sc, vq->vq_index); 1068 1.43 reinoud } 1069 1.1 hannken vq_sync_uring(sc, vq, BUS_DMASYNC_POSTREAD); 1070 1.43 reinoud vq_sync_aring(sc, vq, BUS_DMASYNC_POSTWRITE); 1071 1.1 hannken } 1072 1.1 hannken mutex_exit(&vq->vq_aring_lock); 1073 1.1 hannken 1074 1.1 hannken return 0; 1075 1.1 hannken } 1076 1.1 hannken 1077 1.1 hannken /* 1078 1.1 hannken * enqueue_abort: rollback. 1079 1.1 hannken */ 1080 1.1 hannken int 1081 1.1 hannken virtio_enqueue_abort(struct virtio_softc *sc, struct virtqueue *vq, int slot) 1082 1.1 hannken { 1083 1.1 hannken struct vq_entry *qe = &vq->vq_entries[slot]; 1084 1.1 hannken struct vring_desc *vd; 1085 1.1 hannken int s; 1086 1.1 hannken 1087 1.1 hannken if (qe->qe_next < 0) { 1088 1.1 hannken vq_free_entry(vq, qe); 1089 1.1 hannken return 0; 1090 1.1 hannken } 1091 1.1 hannken 1092 1.1 hannken s = slot; 1093 1.1 hannken vd = &vq->vq_desc[0]; 1094 1.43 reinoud while (virtio_rw16(sc, vd[s].flags) & VRING_DESC_F_NEXT) { 1095 1.43 reinoud s = virtio_rw16(sc, vd[s].next); 1096 1.1 hannken vq_free_entry(vq, qe); 1097 1.1 hannken qe = &vq->vq_entries[s]; 1098 1.1 hannken } 1099 1.1 hannken vq_free_entry(vq, qe); 1100 1.1 hannken return 0; 1101 1.1 hannken } 1102 1.1 hannken 1103 1.1 hannken /* 1104 1.1 hannken * Dequeue a request. 1105 1.1 hannken */ 1106 1.1 hannken /* 1107 1.1 hannken * dequeue: dequeue a request from uring; dmamap_sync for uring is 1108 1.1 hannken * already done in the interrupt handler. 1109 1.1 hannken */ 1110 1.1 hannken int 1111 1.1 hannken virtio_dequeue(struct virtio_softc *sc, struct virtqueue *vq, 1112 1.1 hannken int *slotp, int *lenp) 1113 1.1 hannken { 1114 1.1 hannken uint16_t slot, usedidx; 1115 1.1 hannken struct vq_entry *qe; 1116 1.1 hannken 1117 1.43 reinoud if (vq->vq_used_idx == virtio_rw16(sc, vq->vq_used->idx)) 1118 1.1 hannken return ENOENT; 1119 1.1 hannken mutex_enter(&vq->vq_uring_lock); 1120 1.1 hannken usedidx = vq->vq_used_idx++; 1121 1.1 hannken mutex_exit(&vq->vq_uring_lock); 1122 1.1 hannken usedidx %= vq->vq_num; 1123 1.43 reinoud slot = virtio_rw32(sc, vq->vq_used->ring[usedidx].id); 1124 1.1 hannken qe = &vq->vq_entries[slot]; 1125 1.1 hannken 1126 1.1 hannken if (qe->qe_indirect) 1127 1.1 hannken vq_sync_indirect(sc, vq, slot, BUS_DMASYNC_POSTWRITE); 1128 1.1 hannken 1129 1.1 hannken if (slotp) 1130 1.1 hannken *slotp = slot; 1131 1.1 hannken if (lenp) 1132 1.43 reinoud *lenp = virtio_rw32(sc, vq->vq_used->ring[usedidx].len); 1133 1.1 hannken 1134 1.1 hannken return 0; 1135 1.1 hannken } 1136 1.1 hannken 1137 1.1 hannken /* 1138 1.1 hannken * dequeue_commit: complete dequeue; the slot is recycled for future use. 1139 1.1 hannken * if you forget to call this the slot will be leaked. 1140 1.1 hannken */ 1141 1.1 hannken int 1142 1.1 hannken virtio_dequeue_commit(struct virtio_softc *sc, struct virtqueue *vq, int slot) 1143 1.1 hannken { 1144 1.1 hannken struct vq_entry *qe = &vq->vq_entries[slot]; 1145 1.1 hannken struct vring_desc *vd = &vq->vq_desc[0]; 1146 1.1 hannken int s = slot; 1147 1.1 hannken 1148 1.43 reinoud while (virtio_rw16(sc, vd[s].flags) & VRING_DESC_F_NEXT) { 1149 1.43 reinoud s = virtio_rw16(sc, vd[s].next); 1150 1.1 hannken vq_free_entry(vq, qe); 1151 1.1 hannken qe = &vq->vq_entries[s]; 1152 1.1 hannken } 1153 1.1 hannken vq_free_entry(vq, qe); 1154 1.1 hannken 1155 1.1 hannken return 0; 1156 1.1 hannken } 1157 1.18 pgoyette 1158 1.22 jdolecek /* 1159 1.22 jdolecek * Attach a child, fill all the members. 1160 1.22 jdolecek */ 1161 1.22 jdolecek void 1162 1.48 skrll virtio_child_attach_start(struct virtio_softc *sc, device_t child, int ipl, 1163 1.22 jdolecek struct virtqueue *vqs, 1164 1.22 jdolecek virtio_callback config_change, 1165 1.22 jdolecek virtio_callback intr_hand, 1166 1.22 jdolecek int req_flags, int req_features, const char *feat_bits) 1167 1.22 jdolecek { 1168 1.43 reinoud char buf[1024]; 1169 1.22 jdolecek 1170 1.22 jdolecek sc->sc_child = child; 1171 1.22 jdolecek sc->sc_ipl = ipl; 1172 1.22 jdolecek sc->sc_vqs = vqs; 1173 1.22 jdolecek sc->sc_config_change = config_change; 1174 1.22 jdolecek sc->sc_intrhand = intr_hand; 1175 1.22 jdolecek sc->sc_flags = req_flags; 1176 1.22 jdolecek 1177 1.43 reinoud virtio_negotiate_features(sc, req_features); 1178 1.43 reinoud snprintb(buf, sizeof(buf), feat_bits, sc->sc_active_features); 1179 1.43 reinoud aprint_normal(": features: %s\n", buf); 1180 1.22 jdolecek aprint_naive("\n"); 1181 1.22 jdolecek } 1182 1.22 jdolecek 1183 1.37 yamaguch void 1184 1.37 yamaguch virtio_child_attach_set_vqs(struct virtio_softc *sc, 1185 1.37 yamaguch struct virtqueue *vqs, int nvq_pairs) 1186 1.37 yamaguch { 1187 1.39 yamaguch 1188 1.39 yamaguch KASSERT(nvq_pairs == 1 || 1189 1.43 reinoud (sc->sc_flags & VIRTIO_F_INTR_SOFTINT) == 0); 1190 1.37 yamaguch if (nvq_pairs > 1) 1191 1.37 yamaguch sc->sc_child_mq = true; 1192 1.37 yamaguch 1193 1.37 yamaguch sc->sc_vqs = vqs; 1194 1.37 yamaguch } 1195 1.37 yamaguch 1196 1.22 jdolecek int 1197 1.22 jdolecek virtio_child_attach_finish(struct virtio_softc *sc) 1198 1.22 jdolecek { 1199 1.22 jdolecek int r; 1200 1.22 jdolecek 1201 1.44 reinoud sc->sc_finished_called = true; 1202 1.31 jakllsch r = sc->sc_ops->setup_interrupts(sc); 1203 1.22 jdolecek if (r != 0) { 1204 1.22 jdolecek aprint_error_dev(sc->sc_dev, "failed to setup interrupts\n"); 1205 1.31 jakllsch goto fail; 1206 1.31 jakllsch } 1207 1.31 jakllsch 1208 1.31 jakllsch KASSERT(sc->sc_soft_ih == NULL); 1209 1.43 reinoud if (sc->sc_flags & VIRTIO_F_INTR_SOFTINT) { 1210 1.48 skrll u_int flags = SOFTINT_NET; 1211 1.43 reinoud if (sc->sc_flags & VIRTIO_F_INTR_MPSAFE) 1212 1.31 jakllsch flags |= SOFTINT_MPSAFE; 1213 1.31 jakllsch 1214 1.31 jakllsch sc->sc_soft_ih = softint_establish(flags, virtio_soft_intr, sc); 1215 1.31 jakllsch if (sc->sc_soft_ih == NULL) { 1216 1.31 jakllsch sc->sc_ops->free_interrupts(sc); 1217 1.31 jakllsch aprint_error_dev(sc->sc_dev, 1218 1.31 jakllsch "failed to establish soft interrupt\n"); 1219 1.31 jakllsch goto fail; 1220 1.31 jakllsch } 1221 1.22 jdolecek } 1222 1.22 jdolecek 1223 1.22 jdolecek virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER_OK); 1224 1.31 jakllsch return 0; 1225 1.22 jdolecek 1226 1.31 jakllsch fail: 1227 1.37 yamaguch if (sc->sc_soft_ih) { 1228 1.37 yamaguch softint_disestablish(sc->sc_soft_ih); 1229 1.37 yamaguch sc->sc_soft_ih = NULL; 1230 1.37 yamaguch } 1231 1.37 yamaguch 1232 1.31 jakllsch virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_FAILED); 1233 1.31 jakllsch return 1; 1234 1.22 jdolecek } 1235 1.22 jdolecek 1236 1.22 jdolecek void 1237 1.22 jdolecek virtio_child_detach(struct virtio_softc *sc) 1238 1.22 jdolecek { 1239 1.22 jdolecek sc->sc_child = NULL; 1240 1.22 jdolecek sc->sc_vqs = NULL; 1241 1.22 jdolecek 1242 1.22 jdolecek virtio_device_reset(sc); 1243 1.22 jdolecek 1244 1.31 jakllsch sc->sc_ops->free_interrupts(sc); 1245 1.31 jakllsch 1246 1.31 jakllsch if (sc->sc_soft_ih) { 1247 1.31 jakllsch softint_disestablish(sc->sc_soft_ih); 1248 1.31 jakllsch sc->sc_soft_ih = NULL; 1249 1.31 jakllsch } 1250 1.22 jdolecek } 1251 1.22 jdolecek 1252 1.22 jdolecek void 1253 1.22 jdolecek virtio_child_attach_failed(struct virtio_softc *sc) 1254 1.22 jdolecek { 1255 1.22 jdolecek virtio_child_detach(sc); 1256 1.22 jdolecek 1257 1.22 jdolecek virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_FAILED); 1258 1.22 jdolecek 1259 1.22 jdolecek sc->sc_child = VIRTIO_CHILD_FAILED; 1260 1.22 jdolecek } 1261 1.22 jdolecek 1262 1.22 jdolecek bus_dma_tag_t 1263 1.22 jdolecek virtio_dmat(struct virtio_softc *sc) 1264 1.22 jdolecek { 1265 1.22 jdolecek return sc->sc_dmat; 1266 1.22 jdolecek } 1267 1.22 jdolecek 1268 1.22 jdolecek device_t 1269 1.22 jdolecek virtio_child(struct virtio_softc *sc) 1270 1.22 jdolecek { 1271 1.22 jdolecek return sc->sc_child; 1272 1.22 jdolecek } 1273 1.22 jdolecek 1274 1.22 jdolecek int 1275 1.22 jdolecek virtio_intrhand(struct virtio_softc *sc) 1276 1.22 jdolecek { 1277 1.22 jdolecek return (sc->sc_intrhand)(sc); 1278 1.22 jdolecek } 1279 1.22 jdolecek 1280 1.43 reinoud uint64_t 1281 1.22 jdolecek virtio_features(struct virtio_softc *sc) 1282 1.22 jdolecek { 1283 1.43 reinoud return sc->sc_active_features; 1284 1.22 jdolecek } 1285 1.22 jdolecek 1286 1.35 jakllsch int 1287 1.43 reinoud virtio_attach_failed(struct virtio_softc *sc) 1288 1.35 jakllsch { 1289 1.43 reinoud device_t self = sc->sc_dev; 1290 1.35 jakllsch 1291 1.43 reinoud /* no error if its not connected, but its failed */ 1292 1.43 reinoud if (sc->sc_childdevid == 0) 1293 1.43 reinoud return 1; 1294 1.36 jmcneill 1295 1.43 reinoud if (sc->sc_child == NULL) { 1296 1.43 reinoud aprint_error_dev(self, 1297 1.43 reinoud "no matching child driver; not configured\n"); 1298 1.43 reinoud return 1; 1299 1.43 reinoud } 1300 1.35 jakllsch 1301 1.43 reinoud if (sc->sc_child == VIRTIO_CHILD_FAILED) { 1302 1.43 reinoud aprint_error_dev(self, "virtio configuration failed\n"); 1303 1.43 reinoud return 1; 1304 1.43 reinoud } 1305 1.44 reinoud 1306 1.44 reinoud /* sanity check */ 1307 1.44 reinoud if (!sc->sc_finished_called) { 1308 1.44 reinoud aprint_error_dev(self, "virtio internal error, child driver " 1309 1.44 reinoud "signaled OK but didn't initialize interrupts\n"); 1310 1.44 reinoud return 1; 1311 1.44 reinoud } 1312 1.44 reinoud 1313 1.43 reinoud return 0; 1314 1.43 reinoud } 1315 1.43 reinoud 1316 1.43 reinoud void 1317 1.43 reinoud virtio_print_device_type(device_t self, int id, int revision) 1318 1.43 reinoud { 1319 1.43 reinoud aprint_normal_dev(self, "%s device (rev. 0x%02x)\n", 1320 1.43 reinoud (id < NDEVNAMES ? virtio_device_name[id] : "Unknown"), 1321 1.43 reinoud revision); 1322 1.35 jakllsch } 1323 1.35 jakllsch 1324 1.43 reinoud 1325 1.32 jakllsch MODULE(MODULE_CLASS_DRIVER, virtio, NULL); 1326 1.48 skrll 1327 1.18 pgoyette #ifdef _MODULE 1328 1.18 pgoyette #include "ioconf.c" 1329 1.18 pgoyette #endif 1330 1.48 skrll 1331 1.18 pgoyette static int 1332 1.18 pgoyette virtio_modcmd(modcmd_t cmd, void *opaque) 1333 1.18 pgoyette { 1334 1.18 pgoyette int error = 0; 1335 1.48 skrll 1336 1.18 pgoyette #ifdef _MODULE 1337 1.18 pgoyette switch (cmd) { 1338 1.18 pgoyette case MODULE_CMD_INIT: 1339 1.48 skrll error = config_init_component(cfdriver_ioconf_virtio, 1340 1.48 skrll cfattach_ioconf_virtio, cfdata_ioconf_virtio); 1341 1.18 pgoyette break; 1342 1.18 pgoyette case MODULE_CMD_FINI: 1343 1.48 skrll error = config_fini_component(cfdriver_ioconf_virtio, 1344 1.18 pgoyette cfattach_ioconf_virtio, cfdata_ioconf_virtio); 1345 1.18 pgoyette break; 1346 1.18 pgoyette default: 1347 1.18 pgoyette error = ENOTTY; 1348 1.18 pgoyette break; 1349 1.18 pgoyette } 1350 1.18 pgoyette #endif 1351 1.48 skrll 1352 1.48 skrll return error; 1353 1.18 pgoyette } 1354
Indexes created Mon Sep 22 05:09:51 GMT 2025