sbt.c revision 1.2.4.2
1 1.2.4.2 sborrill /* $NetBSD: sbt.c,v 1.2.4.2 2009/10/07 15:41:13 sborrill Exp $ */ 2 1.2.4.2 sborrill /* $OpenBSD: sbt.c,v 1.9 2007/06/19 07:59:57 uwe Exp $ */ 3 1.2.4.2 sborrill 4 1.2.4.2 sborrill /* 5 1.2.4.2 sborrill * Copyright (c) 2007 Uwe Stuehler <uwe (at) openbsd.org> 6 1.2.4.2 sborrill * 7 1.2.4.2 sborrill * Permission to use, copy, modify, and distribute this software for any 8 1.2.4.2 sborrill * purpose with or without fee is hereby granted, provided that the above 9 1.2.4.2 sborrill * copyright notice and this permission notice appear in all copies. 10 1.2.4.2 sborrill * 11 1.2.4.2 sborrill * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 12 1.2.4.2 sborrill * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 13 1.2.4.2 sborrill * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 14 1.2.4.2 sborrill * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 15 1.2.4.2 sborrill * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 16 1.2.4.2 sborrill * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 17 1.2.4.2 sborrill * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 18 1.2.4.2 sborrill */ 19 1.2.4.2 sborrill 20 1.2.4.2 sborrill /* Driver for Type-A/B SDIO Bluetooth cards */ 21 1.2.4.2 sborrill 22 1.2.4.2 sborrill #include <sys/cdefs.h> 23 1.2.4.2 sborrill __KERNEL_RCSID(0, "$NetBSD: sbt.c,v 1.2.4.2 2009/10/07 15:41:13 sborrill Exp $"); 24 1.2.4.2 sborrill 25 1.2.4.2 sborrill #include <sys/param.h> 26 1.2.4.2 sborrill #include <sys/device.h> 27 1.2.4.2 sborrill #include <sys/malloc.h> 28 1.2.4.2 sborrill #include <sys/mbuf.h> 29 1.2.4.2 sborrill #include <sys/proc.h> 30 1.2.4.2 sborrill #include <sys/queue.h> 31 1.2.4.2 sborrill #include <sys/socket.h> 32 1.2.4.2 sborrill #include <sys/systm.h> 33 1.2.4.2 sborrill 34 1.2.4.2 sborrill #include <netbt/hci.h> 35 1.2.4.2 sborrill 36 1.2.4.2 sborrill #include <dev/sdmmc/sdmmcdevs.h> 37 1.2.4.2 sborrill #include <dev/sdmmc/sdmmcvar.h> 38 1.2.4.2 sborrill 39 1.2.4.2 sborrill #define CSR_READ_1(sc, reg) sdmmc_io_read_1((sc)->sc_sf, (reg)) 40 1.2.4.2 sborrill #define CSR_WRITE_1(sc, reg, val) sdmmc_io_write_1((sc)->sc_sf, (reg), (val)) 41 1.2.4.2 sborrill 42 1.2.4.2 sborrill #define SBT_REG_DAT 0x00 /* receiver/transmitter data */ 43 1.2.4.2 sborrill #define SBT_REG_RPC 0x10 /* read packet control */ 44 1.2.4.2 sborrill #define RPC_PCRRT (1<<0) /* packet read retry */ 45 1.2.4.2 sborrill #define SBT_REG_WPC 0x11 /* write packet control */ 46 1.2.4.2 sborrill #define WPC_PCWRT (1<<0) /* packet write retry */ 47 1.2.4.2 sborrill #define SBT_REG_RC 0x12 /* retry control status/set */ 48 1.2.4.2 sborrill #define SBT_REG_ISTAT 0x13 /* interrupt status */ 49 1.2.4.2 sborrill #define ISTAT_INTRD (1<<0) /* packet available for read */ 50 1.2.4.2 sborrill #define SBT_REG_ICLR 0x13 /* interrupt clear */ 51 1.2.4.2 sborrill #define SBT_REG_IENA 0x14 /* interrupt enable */ 52 1.2.4.2 sborrill #define SBT_REG_BTMODE 0x20 /* SDIO Bluetooth card mode */ 53 1.2.4.2 sborrill #define BTMODE_TYPEB (1<<0) /* 1=Type-B, 0=Type-A */ 54 1.2.4.2 sborrill 55 1.2.4.2 sborrill #define SBT_PKT_BUFSIZ 65540 56 1.2.4.2 sborrill #define SBT_RXTRY_MAX 5 57 1.2.4.2 sborrill 58 1.2.4.2 sborrill struct sbt_softc { 59 1.2.4.2 sborrill device_t sc_dev; /* base device */ 60 1.2.4.2 sborrill int sc_flags; 61 1.2.4.2 sborrill struct hci_unit *sc_unit; /* Bluetooth HCI Unit */ 62 1.2.4.2 sborrill struct bt_stats sc_stats; 63 1.2.4.2 sborrill struct sdmmc_function *sc_sf; /* SDIO function */ 64 1.2.4.2 sborrill int sc_dying; /* shutdown in progress */ 65 1.2.4.2 sborrill void *sc_ih; 66 1.2.4.2 sborrill u_char *sc_buf; 67 1.2.4.2 sborrill int sc_rxtry; 68 1.2.4.2 sborrill 69 1.2.4.2 sborrill /* transmit queues */ 70 1.2.4.2 sborrill MBUFQ_HEAD() sc_cmdq; 71 1.2.4.2 sborrill MBUFQ_HEAD() sc_aclq; 72 1.2.4.2 sborrill MBUFQ_HEAD() sc_scoq; 73 1.2.4.2 sborrill }; 74 1.2.4.2 sborrill 75 1.2.4.2 sborrill /* sc_flags */ 76 1.2.4.2 sborrill #define SBT_XMIT (1 << 0) /* transmit is active */ 77 1.2.4.2 sborrill #define SBT_ENABLED (1 << 1) /* device is enabled */ 78 1.2.4.2 sborrill 79 1.2.4.2 sborrill static int sbt_match(device_t, cfdata_t, void *); 80 1.2.4.2 sborrill static void sbt_attach(device_t, device_t, void *); 81 1.2.4.2 sborrill static int sbt_detach(device_t, int); 82 1.2.4.2 sborrill 83 1.2.4.2 sborrill CFATTACH_DECL_NEW(sbt, sizeof(struct sbt_softc), 84 1.2.4.2 sborrill sbt_match, sbt_attach, sbt_detach, NULL); 85 1.2.4.2 sborrill 86 1.2.4.2 sborrill static int sbt_write_packet(struct sbt_softc *, u_char *, size_t); 87 1.2.4.2 sborrill static int sbt_read_packet(struct sbt_softc *, u_char *, size_t *); 88 1.2.4.2 sborrill static void sbt_start(struct sbt_softc *); 89 1.2.4.2 sborrill 90 1.2.4.2 sborrill static int sbt_intr(void *); 91 1.2.4.2 sborrill 92 1.2.4.2 sborrill static int sbt_enable(device_t); 93 1.2.4.2 sborrill static void sbt_disable(device_t); 94 1.2.4.2 sborrill static void sbt_start_cmd(device_t, struct mbuf *); 95 1.2.4.2 sborrill static void sbt_start_acl(device_t, struct mbuf *); 96 1.2.4.2 sborrill static void sbt_start_sco(device_t, struct mbuf *); 97 1.2.4.2 sborrill static void sbt_stats(device_t, struct bt_stats *, int); 98 1.2.4.2 sborrill 99 1.2.4.2 sborrill #undef DPRINTF /* avoid redefine by bluetooth.h */ 100 1.2.4.2 sborrill #ifdef SBT_DEBUG 101 1.2.4.2 sborrill int sbt_debug = 1; 102 1.2.4.2 sborrill #define DPRINTF(s) printf s 103 1.2.4.2 sborrill #define DNPRINTF(n, s) do { if ((n) <= sbt_debug) printf s; } while (0) 104 1.2.4.2 sborrill #else 105 1.2.4.2 sborrill #define DPRINTF(s) do {} while (0) 106 1.2.4.2 sborrill #define DNPRINTF(n, s) do {} while (0) 107 1.2.4.2 sborrill #endif 108 1.2.4.2 sborrill 109 1.2.4.2 sborrill #define DEVNAME(sc) device_xname((sc)->sc_dev) 110 1.2.4.2 sborrill 111 1.2.4.2 sborrill 112 1.2.4.2 sborrill /* 113 1.2.4.2 sborrill * Autoconf glue 114 1.2.4.2 sborrill */ 115 1.2.4.2 sborrill 116 1.2.4.2 sborrill static const struct sbt_product { 117 1.2.4.2 sborrill uint16_t sp_vendor; 118 1.2.4.2 sborrill uint16_t sp_product; 119 1.2.4.2 sborrill const char *sp_cisinfo[4]; 120 1.2.4.2 sborrill } sbt_products[] = { 121 1.2.4.2 sborrill { 122 1.2.4.2 sborrill SDMMC_VENDOR_SOCKETCOM, 123 1.2.4.2 sborrill SDMMC_PRODUCT_SOCKETCOM_BTCARD, 124 1.2.4.2 sborrill SDMMC_CIS_SOCKETCOM_BTCARD 125 1.2.4.2 sborrill }, 126 1.2.4.2 sborrill }; 127 1.2.4.2 sborrill 128 1.2.4.2 sborrill static const struct hci_if sbt_hci = { 129 1.2.4.2 sborrill .enable = sbt_enable, 130 1.2.4.2 sborrill .disable = sbt_disable, 131 1.2.4.2 sborrill .output_cmd = sbt_start_cmd, 132 1.2.4.2 sborrill .output_acl = sbt_start_acl, 133 1.2.4.2 sborrill .output_sco = sbt_start_sco, 134 1.2.4.2 sborrill .get_stats = sbt_stats, 135 1.2.4.2 sborrill .ipl = IPL_TTY, /* XXX */ 136 1.2.4.2 sborrill }; 137 1.2.4.2 sborrill 138 1.2.4.2 sborrill 139 1.2.4.2 sborrill static int 140 1.2.4.2 sborrill sbt_match(device_t parent, cfdata_t match, void *aux) 141 1.2.4.2 sborrill { 142 1.2.4.2 sborrill struct sdmmc_attach_args *sa = aux; 143 1.2.4.2 sborrill const struct sbt_product *sp; 144 1.2.4.2 sborrill struct sdmmc_function *sf; 145 1.2.4.2 sborrill int i; 146 1.2.4.2 sborrill 147 1.2.4.2 sborrill if (sa->sf == NULL) 148 1.2.4.2 sborrill return 0; /* not SDIO */ 149 1.2.4.2 sborrill 150 1.2.4.2 sborrill sf = sa->sf->sc->sc_fn0; 151 1.2.4.2 sborrill sp = &sbt_products[0]; 152 1.2.4.2 sborrill 153 1.2.4.2 sborrill for (i = 0; i < sizeof(sbt_products) / sizeof(sbt_products[0]); 154 1.2.4.2 sborrill i++, sp = &sbt_products[i]) 155 1.2.4.2 sborrill if (sp->sp_vendor == sf->cis.manufacturer && 156 1.2.4.2 sborrill sp->sp_product == sf->cis.product) 157 1.2.4.2 sborrill return 1; 158 1.2.4.2 sborrill return 0; 159 1.2.4.2 sborrill } 160 1.2.4.2 sborrill 161 1.2.4.2 sborrill static void 162 1.2.4.2 sborrill sbt_attach(device_t parent, device_t self, void *aux) 163 1.2.4.2 sborrill { 164 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 165 1.2.4.2 sborrill struct sdmmc_attach_args *sa = aux; 166 1.2.4.2 sborrill 167 1.2.4.2 sborrill aprint_normal("\n"); 168 1.2.4.2 sborrill aprint_naive("\n"); 169 1.2.4.2 sborrill 170 1.2.4.2 sborrill sc->sc_dev = self; 171 1.2.4.2 sborrill sc->sc_sf = sa->sf; 172 1.2.4.2 sborrill MBUFQ_INIT(&sc->sc_cmdq); 173 1.2.4.2 sborrill MBUFQ_INIT(&sc->sc_aclq); 174 1.2.4.2 sborrill MBUFQ_INIT(&sc->sc_scoq); 175 1.2.4.2 sborrill 176 1.2.4.2 sborrill (void)sdmmc_io_function_disable(sc->sc_sf); 177 1.2.4.2 sborrill if (sdmmc_io_function_enable(sc->sc_sf)) { 178 1.2.4.2 sborrill printf("%s: function not ready\n", DEVNAME(sc)); 179 1.2.4.2 sborrill return; 180 1.2.4.2 sborrill } 181 1.2.4.2 sborrill 182 1.2.4.2 sborrill /* It may be Type-B, but we use it only in Type-A mode. */ 183 1.2.4.2 sborrill printf("%s: SDIO Bluetooth Type-A\n", DEVNAME(sc)); 184 1.2.4.2 sborrill 185 1.2.4.2 sborrill sc->sc_buf = malloc(SBT_PKT_BUFSIZ, M_DEVBUF, M_NOWAIT | M_CANFAIL); 186 1.2.4.2 sborrill if (sc->sc_buf == NULL) { 187 1.2.4.2 sborrill printf("%s: can't allocate cmd buffer\n", DEVNAME(sc)); 188 1.2.4.2 sborrill return; 189 1.2.4.2 sborrill } 190 1.2.4.2 sborrill 191 1.2.4.2 sborrill /* Enable the HCI packet transport read interrupt. */ 192 1.2.4.2 sborrill CSR_WRITE_1(sc, SBT_REG_IENA, ISTAT_INTRD); 193 1.2.4.2 sborrill 194 1.2.4.2 sborrill /* Enable the card interrupt for this function. */ 195 1.2.4.2 sborrill sc->sc_ih = sdmmc_intr_establish(parent, sbt_intr, sc, DEVNAME(sc)); 196 1.2.4.2 sborrill if (sc->sc_ih == NULL) { 197 1.2.4.2 sborrill printf("%s: can't establish interrupt\n", DEVNAME(sc)); 198 1.2.4.2 sborrill return; 199 1.2.4.2 sborrill } 200 1.2.4.2 sborrill sdmmc_intr_enable(sc->sc_sf); 201 1.2.4.2 sborrill 202 1.2.4.2 sborrill /* 203 1.2.4.2 sborrill * Attach Bluetooth unit (machine-independent HCI). 204 1.2.4.2 sborrill */ 205 1.2.4.2 sborrill sc->sc_unit = hci_attach(&sbt_hci, self, 0); 206 1.2.4.2 sborrill } 207 1.2.4.2 sborrill 208 1.2.4.2 sborrill static int 209 1.2.4.2 sborrill sbt_detach(device_t self, int flags) 210 1.2.4.2 sborrill { 211 1.2.4.2 sborrill struct sbt_softc *sc = (struct sbt_softc *)self; 212 1.2.4.2 sborrill 213 1.2.4.2 sborrill sc->sc_dying = 1; 214 1.2.4.2 sborrill 215 1.2.4.2 sborrill if (sc->sc_unit) { 216 1.2.4.2 sborrill hci_detach(sc->sc_unit); 217 1.2.4.2 sborrill sc->sc_unit = NULL; 218 1.2.4.2 sborrill } 219 1.2.4.2 sborrill 220 1.2.4.2 sborrill if (sc->sc_ih != NULL) 221 1.2.4.2 sborrill sdmmc_intr_disestablish(sc->sc_ih); 222 1.2.4.2 sborrill 223 1.2.4.2 sborrill return 0; 224 1.2.4.2 sborrill } 225 1.2.4.2 sborrill 226 1.2.4.2 sborrill 227 1.2.4.2 sborrill /* 228 1.2.4.2 sborrill * Bluetooth HCI packet transport 229 1.2.4.2 sborrill */ 230 1.2.4.2 sborrill 231 1.2.4.2 sborrill static int 232 1.2.4.2 sborrill sbt_write_packet(struct sbt_softc *sc, u_char *buf, size_t len) 233 1.2.4.2 sborrill { 234 1.2.4.2 sborrill u_char hdr[3]; 235 1.2.4.2 sborrill size_t pktlen; 236 1.2.4.2 sborrill int error = EIO; 237 1.2.4.2 sborrill int retry = 3; 238 1.2.4.2 sborrill 239 1.2.4.2 sborrill again: 240 1.2.4.2 sborrill if (retry-- == 0) { 241 1.2.4.2 sborrill DPRINTF(("%s: sbt_write_cmd: giving up\n", DEVNAME(sc))); 242 1.2.4.2 sborrill return error; 243 1.2.4.2 sborrill } 244 1.2.4.2 sborrill 245 1.2.4.2 sborrill /* Restart the current packet. */ 246 1.2.4.2 sborrill sdmmc_io_write_1(sc->sc_sf, SBT_REG_WPC, WPC_PCWRT); 247 1.2.4.2 sborrill 248 1.2.4.2 sborrill /* Write the packet length. */ 249 1.2.4.2 sborrill pktlen = len + 3; 250 1.2.4.2 sborrill hdr[0] = pktlen & 0xff; 251 1.2.4.2 sborrill hdr[1] = (pktlen >> 8) & 0xff; 252 1.2.4.2 sborrill hdr[2] = (pktlen >> 16) & 0xff; 253 1.2.4.2 sborrill error = sdmmc_io_write_multi_1(sc->sc_sf, SBT_REG_DAT, hdr, 3); 254 1.2.4.2 sborrill if (error) { 255 1.2.4.2 sborrill DPRINTF(("%s: sbt_write_packet: failed to send length\n", 256 1.2.4.2 sborrill DEVNAME(sc))); 257 1.2.4.2 sborrill goto again; 258 1.2.4.2 sborrill } 259 1.2.4.2 sborrill 260 1.2.4.2 sborrill error = sdmmc_io_write_multi_1(sc->sc_sf, SBT_REG_DAT, buf, len); 261 1.2.4.2 sborrill if (error) { 262 1.2.4.2 sborrill DPRINTF(("%s: sbt_write_packet: failed to send packet data\n", 263 1.2.4.2 sborrill DEVNAME(sc))); 264 1.2.4.2 sborrill goto again; 265 1.2.4.2 sborrill } 266 1.2.4.2 sborrill return 0; 267 1.2.4.2 sborrill } 268 1.2.4.2 sborrill 269 1.2.4.2 sborrill static int 270 1.2.4.2 sborrill sbt_read_packet(struct sbt_softc *sc, u_char *buf, size_t *lenp) 271 1.2.4.2 sborrill { 272 1.2.4.2 sborrill u_char hdr[3]; 273 1.2.4.2 sborrill size_t len; 274 1.2.4.2 sborrill int error; 275 1.2.4.2 sborrill 276 1.2.4.2 sborrill error = sdmmc_io_read_multi_1(sc->sc_sf, SBT_REG_DAT, hdr, 3); 277 1.2.4.2 sborrill if (error) { 278 1.2.4.2 sborrill DPRINTF(("%s: sbt_read_packet: failed to read length\n", 279 1.2.4.2 sborrill DEVNAME(sc))); 280 1.2.4.2 sborrill goto out; 281 1.2.4.2 sborrill } 282 1.2.4.2 sborrill len = (hdr[0] | (hdr[1] << 8) | (hdr[2] << 16)) - 3; 283 1.2.4.2 sborrill if (len > *lenp) { 284 1.2.4.2 sborrill DPRINTF(("%s: sbt_read_packet: len %u > %u\n", 285 1.2.4.2 sborrill DEVNAME(sc), len, *lenp)); 286 1.2.4.2 sborrill error = ENOBUFS; 287 1.2.4.2 sborrill goto out; 288 1.2.4.2 sborrill } 289 1.2.4.2 sborrill 290 1.2.4.2 sborrill DNPRINTF(2,("%s: sbt_read_packet: reading len %u bytes\n", 291 1.2.4.2 sborrill DEVNAME(sc), len)); 292 1.2.4.2 sborrill error = sdmmc_io_read_multi_1(sc->sc_sf, SBT_REG_DAT, buf, len); 293 1.2.4.2 sborrill if (error) { 294 1.2.4.2 sborrill DPRINTF(("%s: sbt_read_packet: failed to read packet data\n", 295 1.2.4.2 sborrill DEVNAME(sc))); 296 1.2.4.2 sborrill goto out; 297 1.2.4.2 sborrill } 298 1.2.4.2 sborrill 299 1.2.4.2 sborrill out: 300 1.2.4.2 sborrill if (error) { 301 1.2.4.2 sborrill if (sc->sc_rxtry >= SBT_RXTRY_MAX) { 302 1.2.4.2 sborrill /* Drop and request the next packet. */ 303 1.2.4.2 sborrill sc->sc_rxtry = 0; 304 1.2.4.2 sborrill CSR_WRITE_1(sc, SBT_REG_RPC, 0); 305 1.2.4.2 sborrill } else { 306 1.2.4.2 sborrill /* Request the current packet again. */ 307 1.2.4.2 sborrill sc->sc_rxtry++; 308 1.2.4.2 sborrill CSR_WRITE_1(sc, SBT_REG_RPC, RPC_PCRRT); 309 1.2.4.2 sborrill } 310 1.2.4.2 sborrill return error; 311 1.2.4.2 sborrill } 312 1.2.4.2 sborrill 313 1.2.4.2 sborrill /* acknowledge read packet */ 314 1.2.4.2 sborrill CSR_WRITE_1(sc, SBT_REG_RPC, 0); 315 1.2.4.2 sborrill 316 1.2.4.2 sborrill *lenp = len; 317 1.2.4.2 sborrill return 0; 318 1.2.4.2 sborrill } 319 1.2.4.2 sborrill 320 1.2.4.2 sborrill /* 321 1.2.4.2 sborrill * Interrupt handling 322 1.2.4.2 sborrill */ 323 1.2.4.2 sborrill 324 1.2.4.2 sborrill static int 325 1.2.4.2 sborrill sbt_intr(void *arg) 326 1.2.4.2 sborrill { 327 1.2.4.2 sborrill struct sbt_softc *sc = arg; 328 1.2.4.2 sborrill struct mbuf *m = NULL; 329 1.2.4.2 sborrill u_int8_t status; 330 1.2.4.2 sborrill size_t len; 331 1.2.4.2 sborrill int s; 332 1.2.4.2 sborrill 333 1.2.4.2 sborrill s = splsdmmc(); 334 1.2.4.2 sborrill 335 1.2.4.2 sborrill status = CSR_READ_1(sc, SBT_REG_ISTAT); 336 1.2.4.2 sborrill CSR_WRITE_1(sc, SBT_REG_ICLR, status); 337 1.2.4.2 sborrill 338 1.2.4.2 sborrill if ((status & ISTAT_INTRD) == 0) 339 1.2.4.2 sborrill return 0; /* shared SDIO card interrupt? */ 340 1.2.4.2 sborrill 341 1.2.4.2 sborrill len = SBT_PKT_BUFSIZ; 342 1.2.4.2 sborrill if (sbt_read_packet(sc, sc->sc_buf, &len) != 0 || len == 0) { 343 1.2.4.2 sborrill DPRINTF(("%s: sbt_intr: read failed\n", DEVNAME(sc))); 344 1.2.4.2 sborrill goto eoi; 345 1.2.4.2 sborrill } 346 1.2.4.2 sborrill 347 1.2.4.2 sborrill MGETHDR(m, M_DONTWAIT, MT_DATA); 348 1.2.4.2 sborrill if (m == NULL) { 349 1.2.4.2 sborrill DPRINTF(("%s: sbt_intr: MGETHDR failed\n", DEVNAME(sc))); 350 1.2.4.2 sborrill goto eoi; 351 1.2.4.2 sborrill } 352 1.2.4.2 sborrill 353 1.2.4.2 sborrill m->m_pkthdr.len = m->m_len = MHLEN; 354 1.2.4.2 sborrill m_copyback(m, 0, len, sc->sc_buf); 355 1.2.4.2 sborrill if (m->m_pkthdr.len == MAX(MHLEN, len)) { 356 1.2.4.2 sborrill m->m_pkthdr.len = len; 357 1.2.4.2 sborrill m->m_len = MIN(MHLEN, m->m_pkthdr.len); 358 1.2.4.2 sborrill } else { 359 1.2.4.2 sborrill DPRINTF(("%s: sbt_intr: m_copyback failed\n", DEVNAME(sc))); 360 1.2.4.2 sborrill m_free(m); 361 1.2.4.2 sborrill m = NULL; 362 1.2.4.2 sborrill } 363 1.2.4.2 sborrill 364 1.2.4.2 sborrill eoi: 365 1.2.4.2 sborrill if (m != NULL) { 366 1.2.4.2 sborrill switch (sc->sc_buf[0]) { 367 1.2.4.2 sborrill case HCI_ACL_DATA_PKT: 368 1.2.4.2 sborrill DNPRINTF(1,("%s: recv ACL packet (%d bytes)\n", 369 1.2.4.2 sborrill DEVNAME(sc), m->m_pkthdr.len)); 370 1.2.4.2 sborrill hci_input_acl(sc->sc_unit, m); 371 1.2.4.2 sborrill break; 372 1.2.4.2 sborrill case HCI_SCO_DATA_PKT: 373 1.2.4.2 sborrill DNPRINTF(1,("%s: recv SCO packet (%d bytes)\n", 374 1.2.4.2 sborrill DEVNAME(sc), m->m_pkthdr.len)); 375 1.2.4.2 sborrill hci_input_sco(sc->sc_unit, m); 376 1.2.4.2 sborrill break; 377 1.2.4.2 sborrill case HCI_EVENT_PKT: 378 1.2.4.2 sborrill DNPRINTF(1,("%s: recv EVENT packet (%d bytes)\n", 379 1.2.4.2 sborrill DEVNAME(sc), m->m_pkthdr.len)); 380 1.2.4.2 sborrill hci_input_event(sc->sc_unit, m); 381 1.2.4.2 sborrill break; 382 1.2.4.2 sborrill default: 383 1.2.4.2 sborrill DPRINTF(("%s: recv 0x%x packet (%d bytes)\n", 384 1.2.4.2 sborrill DEVNAME(sc), sc->sc_buf[0], m->m_pkthdr.len)); 385 1.2.4.2 sborrill sc->sc_stats.err_rx++; 386 1.2.4.2 sborrill m_free(m); 387 1.2.4.2 sborrill break; 388 1.2.4.2 sborrill } 389 1.2.4.2 sborrill } else 390 1.2.4.2 sborrill sc->sc_stats.err_rx++; 391 1.2.4.2 sborrill 392 1.2.4.2 sborrill splx(s); 393 1.2.4.2 sborrill 394 1.2.4.2 sborrill /* Claim this interrupt. */ 395 1.2.4.2 sborrill return 1; 396 1.2.4.2 sborrill } 397 1.2.4.2 sborrill 398 1.2.4.2 sborrill 399 1.2.4.2 sborrill /* 400 1.2.4.2 sborrill * Bluetooth HCI unit functions 401 1.2.4.2 sborrill */ 402 1.2.4.2 sborrill 403 1.2.4.2 sborrill static int 404 1.2.4.2 sborrill sbt_enable(device_t self) 405 1.2.4.2 sborrill { 406 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 407 1.2.4.2 sborrill int s; 408 1.2.4.2 sborrill 409 1.2.4.2 sborrill if (sc->sc_flags & SBT_ENABLED) 410 1.2.4.2 sborrill return 0; 411 1.2.4.2 sborrill 412 1.2.4.2 sborrill s = spltty(); 413 1.2.4.2 sborrill 414 1.2.4.2 sborrill sc->sc_flags |= SBT_ENABLED; 415 1.2.4.2 sborrill sc->sc_flags &= ~SBT_XMIT; 416 1.2.4.2 sborrill 417 1.2.4.2 sborrill splx(s); 418 1.2.4.2 sborrill 419 1.2.4.2 sborrill return 0; 420 1.2.4.2 sborrill } 421 1.2.4.2 sborrill 422 1.2.4.2 sborrill static void 423 1.2.4.2 sborrill sbt_disable(device_t self) 424 1.2.4.2 sborrill { 425 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 426 1.2.4.2 sborrill int s; 427 1.2.4.2 sborrill 428 1.2.4.2 sborrill if (!(sc->sc_flags & SBT_ENABLED)) 429 1.2.4.2 sborrill return; 430 1.2.4.2 sborrill 431 1.2.4.2 sborrill s = spltty(); 432 1.2.4.2 sborrill 433 1.2.4.2 sborrill #ifdef notyet /* XXX */ 434 1.2.4.2 sborrill if (sc->sc_rxp) { 435 1.2.4.2 sborrill m_freem(sc->sc_rxp); 436 1.2.4.2 sborrill sc->sc_rxp = NULL; 437 1.2.4.2 sborrill } 438 1.2.4.2 sborrill 439 1.2.4.2 sborrill if (sc->sc_txp) { 440 1.2.4.2 sborrill m_freem(sc->sc_txp); 441 1.2.4.2 sborrill sc->sc_txp = NULL; 442 1.2.4.2 sborrill } 443 1.2.4.2 sborrill #endif 444 1.2.4.2 sborrill 445 1.2.4.2 sborrill MBUFQ_DRAIN(&sc->sc_cmdq); 446 1.2.4.2 sborrill MBUFQ_DRAIN(&sc->sc_aclq); 447 1.2.4.2 sborrill MBUFQ_DRAIN(&sc->sc_scoq); 448 1.2.4.2 sborrill 449 1.2.4.2 sborrill sc->sc_flags &= ~SBT_ENABLED; 450 1.2.4.2 sborrill 451 1.2.4.2 sborrill splx(s); 452 1.2.4.2 sborrill } 453 1.2.4.2 sborrill 454 1.2.4.2 sborrill static void 455 1.2.4.2 sborrill sbt_start(struct sbt_softc *sc) 456 1.2.4.2 sborrill { 457 1.2.4.2 sborrill struct mbuf *m; 458 1.2.4.2 sborrill int len; 459 1.2.4.2 sborrill #ifdef SBT_DEBUG 460 1.2.4.2 sborrill const char *what; 461 1.2.4.2 sborrill #endif 462 1.2.4.2 sborrill 463 1.2.4.2 sborrill KASSERT((sc->sc_flags & SBT_XMIT) == 0); 464 1.2.4.2 sborrill 465 1.2.4.2 sborrill if (sc->sc_dying) 466 1.2.4.2 sborrill return; 467 1.2.4.2 sborrill 468 1.2.4.2 sborrill if (MBUFQ_FIRST(&sc->sc_cmdq)) { 469 1.2.4.2 sborrill MBUFQ_DEQUEUE(&sc->sc_cmdq, m); 470 1.2.4.2 sborrill sc->sc_stats.cmd_tx++; 471 1.2.4.2 sborrill #ifdef SBT_DEBUG 472 1.2.4.2 sborrill what = "CMD"; 473 1.2.4.2 sborrill #endif 474 1.2.4.2 sborrill goto start; 475 1.2.4.2 sborrill } 476 1.2.4.2 sborrill 477 1.2.4.2 sborrill if (MBUFQ_FIRST(&sc->sc_scoq)) { 478 1.2.4.2 sborrill MBUFQ_DEQUEUE(&sc->sc_scoq, m); 479 1.2.4.2 sborrill sc->sc_stats.sco_tx++; 480 1.2.4.2 sborrill #ifdef SBT_DEBUG 481 1.2.4.2 sborrill what = "SCO"; 482 1.2.4.2 sborrill #endif 483 1.2.4.2 sborrill goto start; 484 1.2.4.2 sborrill } 485 1.2.4.2 sborrill 486 1.2.4.2 sborrill if (MBUFQ_FIRST(&sc->sc_aclq)) { 487 1.2.4.2 sborrill MBUFQ_DEQUEUE(&sc->sc_aclq, m); 488 1.2.4.2 sborrill sc->sc_stats.acl_tx++; 489 1.2.4.2 sborrill #ifdef SBT_DEBUG 490 1.2.4.2 sborrill what = "ACL"; 491 1.2.4.2 sborrill #endif 492 1.2.4.2 sborrill goto start; 493 1.2.4.2 sborrill } 494 1.2.4.2 sborrill 495 1.2.4.2 sborrill /* Nothing to send */ 496 1.2.4.2 sborrill return; 497 1.2.4.2 sborrill 498 1.2.4.2 sborrill start: 499 1.2.4.2 sborrill DNPRINTF(1,("%s: xmit %s packet (%d bytes)\n", DEVNAME(sc), 500 1.2.4.2 sborrill what, m->m_pkthdr.len)); 501 1.2.4.2 sborrill 502 1.2.4.2 sborrill sc->sc_flags |= SBT_XMIT; 503 1.2.4.2 sborrill 504 1.2.4.2 sborrill len = m->m_pkthdr.len; 505 1.2.4.2 sborrill m_copydata(m, 0, len, sc->sc_buf); 506 1.2.4.2 sborrill m_freem(m); 507 1.2.4.2 sborrill 508 1.2.4.2 sborrill if (sbt_write_packet(sc, sc->sc_buf, len)) 509 1.2.4.2 sborrill DPRINTF(("%s: sbt_write_packet failed\n", DEVNAME(sc))); 510 1.2.4.2 sborrill 511 1.2.4.2 sborrill sc->sc_flags &= ~SBT_XMIT; 512 1.2.4.2 sborrill } 513 1.2.4.2 sborrill 514 1.2.4.2 sborrill static void 515 1.2.4.2 sborrill sbt_start_cmd(device_t self, struct mbuf *m) 516 1.2.4.2 sborrill { 517 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 518 1.2.4.2 sborrill int s; 519 1.2.4.2 sborrill 520 1.2.4.2 sborrill KASSERT(sc->sc_flags & SBT_ENABLED); 521 1.2.4.2 sborrill 522 1.2.4.2 sborrill M_SETCTX(m, NULL); 523 1.2.4.2 sborrill 524 1.2.4.2 sborrill s = spltty(); 525 1.2.4.2 sborrill 526 1.2.4.2 sborrill MBUFQ_ENQUEUE(&sc->sc_cmdq, m); 527 1.2.4.2 sborrill if ((sc->sc_flags & SBT_XMIT) == 0) 528 1.2.4.2 sborrill sbt_start(sc); 529 1.2.4.2 sborrill 530 1.2.4.2 sborrill splx(s); 531 1.2.4.2 sborrill } 532 1.2.4.2 sborrill 533 1.2.4.2 sborrill static void 534 1.2.4.2 sborrill sbt_start_acl(device_t self, struct mbuf *m) 535 1.2.4.2 sborrill { 536 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 537 1.2.4.2 sborrill int s; 538 1.2.4.2 sborrill 539 1.2.4.2 sborrill KASSERT(sc->sc_flags & SBT_ENABLED); 540 1.2.4.2 sborrill 541 1.2.4.2 sborrill M_SETCTX(m, NULL); 542 1.2.4.2 sborrill 543 1.2.4.2 sborrill s = spltty(); 544 1.2.4.2 sborrill 545 1.2.4.2 sborrill MBUFQ_ENQUEUE(&sc->sc_aclq, m); 546 1.2.4.2 sborrill if ((sc->sc_flags & SBT_XMIT) == 0) 547 1.2.4.2 sborrill sbt_start(sc); 548 1.2.4.2 sborrill 549 1.2.4.2 sborrill splx(s); 550 1.2.4.2 sborrill } 551 1.2.4.2 sborrill 552 1.2.4.2 sborrill static void 553 1.2.4.2 sborrill sbt_start_sco(device_t self, struct mbuf *m) 554 1.2.4.2 sborrill { 555 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 556 1.2.4.2 sborrill int s; 557 1.2.4.2 sborrill 558 1.2.4.2 sborrill KASSERT(sc->sc_flags & SBT_ENABLED); 559 1.2.4.2 sborrill 560 1.2.4.2 sborrill s = spltty(); 561 1.2.4.2 sborrill 562 1.2.4.2 sborrill MBUFQ_ENQUEUE(&sc->sc_scoq, m); 563 1.2.4.2 sborrill if ((sc->sc_flags & SBT_XMIT) == 0) 564 1.2.4.2 sborrill sbt_start(sc); 565 1.2.4.2 sborrill 566 1.2.4.2 sborrill splx(s); 567 1.2.4.2 sborrill } 568 1.2.4.2 sborrill 569 1.2.4.2 sborrill static void 570 1.2.4.2 sborrill sbt_stats(device_t self, struct bt_stats *dest, int flush) 571 1.2.4.2 sborrill { 572 1.2.4.2 sborrill struct sbt_softc *sc = device_private(self); 573 1.2.4.2 sborrill int s; 574 1.2.4.2 sborrill 575 1.2.4.2 sborrill s = spltty(); 576 1.2.4.2 sborrill 577 1.2.4.2 sborrill memcpy(dest, &sc->sc_stats, sizeof(struct bt_stats)); 578 1.2.4.2 sborrill 579 1.2.4.2 sborrill if (flush) 580 1.2.4.2 sborrill memset(&sc->sc_stats, 0, sizeof(struct bt_stats)); 581 1.2.4.2 sborrill 582 1.2.4.2 sborrill splx(s); 583 1.2.4.2 sborrill } 584
Indexes created Sun Oct 19 02:09:48 GMT 2025