if_atu.c revision 1.35.2.1
1 1.35.2.1 uebayasi /* $NetBSD: if_atu.c,v 1.35.2.1 2010/04/30 14:43:51 uebayasi Exp $ */ 2 1.1 joff /* $OpenBSD: if_atu.c,v 1.48 2004/12/30 01:53:21 dlg Exp $ */ 3 1.1 joff /* 4 1.1 joff * Copyright (c) 2003, 2004 5 1.1 joff * Daan Vreeken <Danovitsch (at) Vitsch.net>. All rights reserved. 6 1.1 joff * 7 1.1 joff * Redistribution and use in source and binary forms, with or without 8 1.1 joff * modification, are permitted provided that the following conditions 9 1.1 joff * are met: 10 1.1 joff * 1. Redistributions of source code must retain the above copyright 11 1.1 joff * notice, this list of conditions and the following disclaimer. 12 1.1 joff * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 joff * notice, this list of conditions and the following disclaimer in the 14 1.1 joff * documentation and/or other materials provided with the distribution. 15 1.1 joff * 3. All advertising materials mentioning features or use of this software 16 1.1 joff * must display the following acknowledgement: 17 1.1 joff * This product includes software developed by Daan Vreeken. 18 1.1 joff * 4. Neither the name of the author nor the names of any co-contributors 19 1.1 joff * may be used to endorse or promote products derived from this software 20 1.1 joff * without specific prior written permission. 21 1.1 joff * 22 1.1 joff * THIS SOFTWARE IS PROVIDED BY Daan Vreeken AND CONTRIBUTORS ``AS IS'' AND 23 1.1 joff * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 24 1.1 joff * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 25 1.1 joff * ARE DISCLAIMED. IN NO EVENT SHALL Daan Vreeken OR THE VOICES IN HIS HEAD 26 1.1 joff * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 27 1.1 joff * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 28 1.1 joff * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 29 1.1 joff * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 30 1.1 joff * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 31 1.1 joff * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 32 1.1 joff * THE POSSIBILITY OF SUCH DAMAGE. 33 1.1 joff */ 34 1.1 joff 35 1.1 joff /* 36 1.1 joff * Atmel AT76c503 / AT76c503a / AT76c505 / AT76c505a USB WLAN driver 37 1.1 joff * version 0.5 - 2004-08-03 38 1.1 joff * 39 1.1 joff * Originally written by Daan Vreeken <Danovitsch @ Vitsch . net> 40 1.1 joff * http://vitsch.net/bsd/atuwi 41 1.1 joff * 42 1.1 joff * Contributed to by : 43 1.1 joff * Chris Whitehouse, Alistair Phillips, Peter Pilka, Martijn van Buul, 44 1.1 joff * Suihong Liang, Arjan van Leeuwen, Stuart Walsh 45 1.1 joff * 46 1.1 joff * Ported to OpenBSD by Theo de Raadt and David Gwynne. 47 1.1 joff * Ported to NetBSD by Jesse Off 48 1.1 joff */ 49 1.1 joff 50 1.1 joff #include <sys/cdefs.h> 51 1.35.2.1 uebayasi __KERNEL_RCSID(0, "$NetBSD: if_atu.c,v 1.35.2.1 2010/04/30 14:43:51 uebayasi Exp $"); 52 1.1 joff 53 1.1 joff 54 1.1 joff #include <sys/param.h> 55 1.1 joff #include <sys/sockio.h> 56 1.1 joff #include <sys/mbuf.h> 57 1.1 joff #include <sys/kernel.h> 58 1.1 joff #include <sys/socket.h> 59 1.1 joff #include <sys/systm.h> 60 1.1 joff #include <sys/malloc.h> 61 1.1 joff #include <sys/kthread.h> 62 1.1 joff #include <sys/queue.h> 63 1.1 joff #include <sys/device.h> 64 1.1 joff 65 1.28 ad #include <sys/bus.h> 66 1.1 joff 67 1.1 joff #include <dev/usb/usb.h> 68 1.1 joff #include <dev/usb/usbdi.h> 69 1.1 joff #include <dev/usb/usbdi_util.h> 70 1.1 joff #include <dev/usb/usbdivar.h> 71 1.1 joff 72 1.1 joff #include <dev/usb/usbdevs.h> 73 1.1 joff 74 1.1 joff #include <dev/microcode/atmel/atmel_intersil_fw.h> 75 1.1 joff #include <dev/microcode/atmel/atmel_rfmd2958-smc_fw.h> 76 1.1 joff #include <dev/microcode/atmel/atmel_rfmd2958_fw.h> 77 1.1 joff #include <dev/microcode/atmel/atmel_rfmd_fw.h> 78 1.1 joff 79 1.1 joff #include <net/bpf.h> 80 1.6 joff #include <net/bpfdesc.h> 81 1.1 joff 82 1.1 joff #include <net/if.h> 83 1.1 joff #include <net/if_dl.h> 84 1.1 joff #include <net/if_media.h> 85 1.1 joff #include <net/if_ether.h> 86 1.1 joff 87 1.1 joff #ifdef INET 88 1.1 joff #include <netinet/in.h> 89 1.1 joff #include <netinet/if_ether.h> 90 1.1 joff #endif 91 1.1 joff 92 1.1 joff #include <net80211/ieee80211_var.h> 93 1.1 joff #include <net80211/ieee80211_radiotap.h> 94 1.1 joff 95 1.1 joff #ifdef USB_DEBUG 96 1.1 joff #define ATU_DEBUG 97 1.1 joff #endif 98 1.1 joff 99 1.1 joff #include <dev/usb/if_atureg.h> 100 1.1 joff 101 1.1 joff #ifdef ATU_DEBUG 102 1.1 joff #define DPRINTF(x) do { if (atudebug) printf x; } while (0) 103 1.1 joff #define DPRINTFN(n,x) do { if (atudebug>(n)) printf x; } while (0) 104 1.1 joff int atudebug = 1; 105 1.1 joff #else 106 1.1 joff #define DPRINTF(x) 107 1.1 joff #define DPRINTFN(n,x) 108 1.1 joff #endif 109 1.1 joff 110 1.1 joff /* 111 1.1 joff * Various supported device vendors/products/radio type. 112 1.1 joff */ 113 1.1 joff struct atu_type atu_devs[] = { 114 1.1 joff { USB_VENDOR_ATMEL, USB_PRODUCT_ATMEL_BW002, 115 1.1 joff RadioRFMD, ATU_NO_QUIRK }, 116 1.1 joff { USB_VENDOR_BELKIN, USB_PRODUCT_BELKIN_F5D6050, 117 1.1 joff RadioRFMD, ATU_NO_QUIRK }, 118 1.1 joff { USB_VENDOR_ATMEL, USB_PRODUCT_ATMEL_AT76C503A, 119 1.1 joff RadioIntersil, ATU_NO_QUIRK }, 120 1.1 joff { USB_VENDOR_LEXAR, USB_PRODUCT_LEXAR_2662WAR, 121 1.1 joff RadioRFMD, ATU_NO_QUIRK }, 122 1.19 jnemeth /* Belkin F5D6050 */ 123 1.19 jnemeth { USB_VENDOR_SMC3, USB_PRODUCT_SMC3_2662WUSB, 124 1.19 jnemeth RadioRFMD, ATU_NO_QUIRK }, 125 1.1 joff { USB_VENDOR_LINKSYS2, USB_PRODUCT_LINKSYS2_WUSB11, 126 1.1 joff RadioRFMD, ATU_NO_QUIRK }, 127 1.1 joff { USB_VENDOR_LINKSYS3, USB_PRODUCT_LINKSYS3_WUSB11V28, 128 1.1 joff RadioRFMD2958, ATU_NO_QUIRK }, 129 1.1 joff { USB_VENDOR_NETGEAR2, USB_PRODUCT_NETGEAR2_MA101B, 130 1.1 joff RadioRFMD, ATU_NO_QUIRK }, 131 1.1 joff { USB_VENDOR_ACERP, USB_PRODUCT_ACERP_AWL400, 132 1.1 joff RadioRFMD, ATU_NO_QUIRK }, 133 1.1 joff { USB_VENDOR_ATMEL, USB_PRODUCT_ATMEL_WL1130, 134 1.1 joff RadioRFMD2958, ATU_NO_QUIRK }, 135 1.1 joff { USB_VENDOR_AINCOMM, USB_PRODUCT_AINCOMM_AWU2000B, 136 1.1 joff RadioRFMD2958, ATU_NO_QUIRK }, 137 1.1 joff /* SMC2662 V.4 */ 138 1.1 joff { USB_VENDOR_ATMEL, USB_PRODUCT_ATMEL_AT76C505A, 139 1.1 joff RadioRFMD2958_SMC, ATU_QUIRK_NO_REMAP | ATU_QUIRK_FW_DELAY }, 140 1.1 joff { USB_VENDOR_ACERP, USB_PRODUCT_ACERP_AWL300, 141 1.1 joff RadioIntersil, ATU_NO_QUIRK }, 142 1.7 itojun { USB_VENDOR_OQO, USB_PRODUCT_OQO_WIFI01, 143 1.9 itojun RadioRFMD2958_SMC, ATU_QUIRK_NO_REMAP | ATU_QUIRK_FW_DELAY }, 144 1.18 christos { USB_VENDOR_SMC3, USB_PRODUCT_SMC3_2662WV1, 145 1.18 christos RadioIntersil, ATU_NO_QUIRK }, 146 1.1 joff }; 147 1.1 joff 148 1.1 joff struct atu_radfirm { 149 1.1 joff enum atu_radio_type atur_type; 150 1.1 joff unsigned char *atur_internal; 151 1.1 joff size_t atur_internal_sz; 152 1.1 joff unsigned char *atur_external; 153 1.1 joff size_t atur_external_sz; 154 1.1 joff } atu_radfirm[] = { 155 1.5 perry { RadioRFMD, 156 1.1 joff atmel_fw_rfmd_int, sizeof(atmel_fw_rfmd_int), 157 1.1 joff atmel_fw_rfmd_ext, sizeof(atmel_fw_rfmd_ext) }, 158 1.1 joff { RadioRFMD2958, 159 1.1 joff atmel_fw_rfmd2958_int, sizeof(atmel_fw_rfmd2958_int), 160 1.1 joff atmel_fw_rfmd2958_ext, sizeof(atmel_fw_rfmd2958_ext) }, 161 1.1 joff { RadioRFMD2958_SMC, 162 1.1 joff atmel_fw_rfmd2958_smc_int, sizeof(atmel_fw_rfmd2958_smc_int), 163 1.1 joff atmel_fw_rfmd2958_smc_ext, sizeof(atmel_fw_rfmd2958_smc_ext) }, 164 1.1 joff { RadioIntersil, 165 1.1 joff atmel_fw_intersil_int, sizeof(atmel_fw_intersil_int), 166 1.1 joff atmel_fw_intersil_ext, sizeof(atmel_fw_intersil_ext) } 167 1.1 joff }; 168 1.1 joff 169 1.1 joff int atu_newbuf(struct atu_softc *, struct atu_chain *, struct mbuf *); 170 1.1 joff void atu_rxeof(usbd_xfer_handle, usbd_private_handle, usbd_status); 171 1.1 joff void atu_txeof(usbd_xfer_handle, usbd_private_handle, usbd_status); 172 1.1 joff void atu_start(struct ifnet *); 173 1.25 christos int atu_ioctl(struct ifnet *, u_long, void *); 174 1.1 joff int atu_init(struct ifnet *); 175 1.1 joff void atu_stop(struct ifnet *, int); 176 1.1 joff void atu_watchdog(struct ifnet *); 177 1.1 joff usbd_status atu_usb_request(struct atu_softc *sc, u_int8_t type, 178 1.1 joff u_int8_t request, u_int16_t value, u_int16_t index, 179 1.1 joff u_int16_t length, u_int8_t *data); 180 1.1 joff int atu_send_command(struct atu_softc *sc, u_int8_t *command, int size); 181 1.1 joff int atu_get_cmd_status(struct atu_softc *sc, u_int8_t cmd, 182 1.1 joff u_int8_t *status); 183 1.1 joff int atu_wait_completion(struct atu_softc *sc, u_int8_t cmd, 184 1.1 joff u_int8_t *status); 185 1.1 joff int atu_send_mib(struct atu_softc *sc, u_int8_t type, 186 1.1 joff u_int8_t size, u_int8_t index, void *data); 187 1.1 joff int atu_get_mib(struct atu_softc *sc, u_int8_t type, 188 1.1 joff u_int8_t size, u_int8_t index, u_int8_t *buf); 189 1.1 joff #if 0 190 1.1 joff int atu_start_ibss(struct atu_softc *sc); 191 1.1 joff #endif 192 1.1 joff int atu_start_scan(struct atu_softc *sc); 193 1.1 joff int atu_switch_radio(struct atu_softc *sc, int state); 194 1.1 joff int atu_initial_config(struct atu_softc *sc); 195 1.1 joff int atu_join(struct atu_softc *sc, struct ieee80211_node *node); 196 1.1 joff int8_t atu_get_dfu_state(struct atu_softc *sc); 197 1.1 joff u_int8_t atu_get_opmode(struct atu_softc *sc, u_int8_t *mode); 198 1.29 cube void atu_internal_firmware(device_t); 199 1.29 cube void atu_external_firmware(device_t); 200 1.1 joff int atu_get_card_config(struct atu_softc *sc); 201 1.1 joff int atu_media_change(struct ifnet *ifp); 202 1.1 joff void atu_media_status(struct ifnet *ifp, struct ifmediareq *req); 203 1.1 joff int atu_tx_list_init(struct atu_softc *); 204 1.1 joff int atu_rx_list_init(struct atu_softc *); 205 1.1 joff void atu_xfer_list_free(struct atu_softc *sc, struct atu_chain *ch, 206 1.1 joff int listlen); 207 1.1 joff 208 1.1 joff #ifdef ATU_DEBUG 209 1.1 joff void atu_debug_print(struct atu_softc *sc); 210 1.1 joff #endif 211 1.1 joff 212 1.1 joff void atu_task(void *); 213 1.1 joff int atu_newstate(struct ieee80211com *, enum ieee80211_state, int); 214 1.1 joff int atu_tx_start(struct atu_softc *, struct ieee80211_node *, 215 1.1 joff struct atu_chain *, struct mbuf *); 216 1.1 joff void atu_complete_attach(struct atu_softc *); 217 1.1 joff u_int8_t atu_calculate_padding(int); 218 1.1 joff 219 1.31 dyoung int atu_match(device_t, cfdata_t, void *); 220 1.31 dyoung void atu_attach(device_t, device_t, void *); 221 1.31 dyoung int atu_detach(device_t, int); 222 1.31 dyoung int atu_activate(device_t, enum devact); 223 1.31 dyoung extern struct cfdriver atu_cd; 224 1.31 dyoung CFATTACH_DECL_NEW(atu, sizeof(struct atu_softc), atu_match, atu_attach, 225 1.31 dyoung atu_detach, atu_activate); 226 1.1 joff 227 1.1 joff usbd_status 228 1.1 joff atu_usb_request(struct atu_softc *sc, u_int8_t type, 229 1.1 joff u_int8_t request, u_int16_t value, u_int16_t index, u_int16_t length, 230 1.1 joff u_int8_t *data) 231 1.1 joff { 232 1.1 joff usb_device_request_t req; 233 1.1 joff usbd_xfer_handle xfer; 234 1.1 joff usbd_status err; 235 1.1 joff int total_len = 0, s; 236 1.1 joff 237 1.1 joff req.bmRequestType = type; 238 1.1 joff req.bRequest = request; 239 1.1 joff USETW(req.wValue, value); 240 1.1 joff USETW(req.wIndex, index); 241 1.1 joff USETW(req.wLength, length); 242 1.1 joff 243 1.1 joff #ifdef ATU_DEBUG 244 1.1 joff if (atudebug) { 245 1.1 joff DPRINTFN(20, ("%s: req=%02x val=%02x ind=%02x " 246 1.1 joff "len=%02x\n", USBDEVNAME(sc->atu_dev), request, 247 1.1 joff value, index, length)); 248 1.1 joff } 249 1.1 joff #endif /* ATU_DEBUG */ 250 1.1 joff 251 1.1 joff s = splnet(); 252 1.1 joff 253 1.1 joff xfer = usbd_alloc_xfer(sc->atu_udev); 254 1.1 joff usbd_setup_default_xfer(xfer, sc->atu_udev, 0, 500000, &req, data, 255 1.1 joff length, USBD_SHORT_XFER_OK, 0); 256 1.1 joff 257 1.1 joff err = usbd_sync_transfer(xfer); 258 1.1 joff 259 1.1 joff usbd_get_xfer_status(xfer, NULL, NULL, &total_len, NULL); 260 1.1 joff 261 1.1 joff #ifdef ATU_DEBUG 262 1.1 joff if (atudebug) { 263 1.1 joff if (type & UT_READ) { 264 1.1 joff DPRINTFN(20, ("%s: transfered 0x%x bytes in\n", 265 1.1 joff USBDEVNAME(sc->atu_dev), total_len)); 266 1.1 joff } else { 267 1.1 joff if (total_len != length) 268 1.1 joff DPRINTF(("%s: wrote only %x bytes\n", 269 1.1 joff USBDEVNAME(sc->atu_dev), total_len)); 270 1.1 joff } 271 1.1 joff } 272 1.1 joff #endif /* ATU_DEBUG */ 273 1.1 joff 274 1.1 joff usbd_free_xfer(xfer); 275 1.1 joff 276 1.1 joff splx(s); 277 1.1 joff return(err); 278 1.1 joff } 279 1.1 joff 280 1.1 joff int 281 1.1 joff atu_send_command(struct atu_softc *sc, u_int8_t *command, int size) 282 1.1 joff { 283 1.1 joff return atu_usb_request(sc, UT_WRITE_VENDOR_DEVICE, 0x0e, 0x0000, 284 1.1 joff 0x0000, size, command); 285 1.1 joff } 286 1.1 joff 287 1.1 joff int 288 1.1 joff atu_get_cmd_status(struct atu_softc *sc, u_int8_t cmd, u_int8_t *status) 289 1.1 joff { 290 1.1 joff /* 291 1.1 joff * all other drivers (including Windoze) request 40 bytes of status 292 1.1 joff * and get a short-xfer of just 6 bytes. we can save 34 bytes of 293 1.1 joff * buffer if we just request those 6 bytes in the first place :) 294 1.1 joff */ 295 1.1 joff /* 296 1.1 joff return atu_usb_request(sc, UT_READ_VENDOR_INTERFACE, 0x22, cmd, 297 1.1 joff 0x0000, 40, status); 298 1.1 joff */ 299 1.1 joff return atu_usb_request(sc, UT_READ_VENDOR_INTERFACE, 0x22, cmd, 300 1.1 joff 0x0000, 6, status); 301 1.1 joff } 302 1.1 joff 303 1.1 joff int 304 1.1 joff atu_wait_completion(struct atu_softc *sc, u_int8_t cmd, u_int8_t *status) 305 1.1 joff { 306 1.1 joff int idle_count = 0, err; 307 1.1 joff u_int8_t statusreq[6]; 308 1.1 joff 309 1.1 joff DPRINTFN(15, ("%s: wait-completion: cmd=%02x\n", 310 1.1 joff USBDEVNAME(sc->atu_dev), cmd)); 311 1.1 joff 312 1.1 joff while (1) { 313 1.1 joff err = atu_get_cmd_status(sc, cmd, statusreq); 314 1.1 joff if (err) 315 1.1 joff return err; 316 1.1 joff 317 1.1 joff #ifdef ATU_DEBUG 318 1.1 joff if (atudebug) { 319 1.1 joff DPRINTFN(20, ("%s: status=%s cmd=%02x\n", 320 1.1 joff USBDEVNAME(sc->atu_dev), 321 1.1 joff ether_sprintf(statusreq), cmd)); 322 1.1 joff } 323 1.1 joff #endif /* ATU_DEBUG */ 324 1.1 joff 325 1.1 joff /* 326 1.1 joff * during normal operations waiting on STATUS_IDLE 327 1.1 joff * will never happen more than once 328 1.1 joff */ 329 1.1 joff if ((statusreq[5] == STATUS_IDLE) && (idle_count++ > 20)) { 330 1.1 joff DPRINTF(("%s: idle_count > 20!\n", 331 1.1 joff USBDEVNAME(sc->atu_dev))); 332 1.1 joff return 0; 333 1.1 joff } 334 1.1 joff 335 1.1 joff if ((statusreq[5] != STATUS_IN_PROGRESS) && 336 1.1 joff (statusreq[5] != STATUS_IDLE)) { 337 1.1 joff if (status != NULL) 338 1.1 joff *status = statusreq[5]; 339 1.1 joff return 0; 340 1.1 joff } 341 1.1 joff usbd_delay_ms(sc->atu_udev, 25); 342 1.1 joff } 343 1.1 joff } 344 1.1 joff 345 1.1 joff int 346 1.1 joff atu_send_mib(struct atu_softc *sc, u_int8_t type, u_int8_t size, 347 1.1 joff u_int8_t index, void *data) 348 1.1 joff { 349 1.1 joff int err; 350 1.1 joff struct atu_cmd_set_mib request; 351 1.1 joff 352 1.1 joff /* 353 1.1 joff * We don't construct a MIB packet first and then memcpy it into an 354 1.1 joff * Atmel-command-packet, we just construct it the right way at once :) 355 1.1 joff */ 356 1.1 joff 357 1.1 joff memset(&request, 0, sizeof(request)); 358 1.1 joff 359 1.1 joff request.AtCmd = CMD_SET_MIB; 360 1.1 joff USETW(request.AtSize, size + 4); 361 1.1 joff 362 1.1 joff request.MIBType = type; 363 1.1 joff request.MIBSize = size; 364 1.1 joff request.MIBIndex = index; 365 1.1 joff request.MIBReserved = 0; 366 1.1 joff 367 1.1 joff /* 368 1.1 joff * For 1 and 2 byte requests we assume a direct value, 369 1.1 joff * everything bigger than 2 bytes we assume a pointer to the data 370 1.1 joff */ 371 1.1 joff switch (size) { 372 1.1 joff case 0: 373 1.1 joff break; 374 1.1 joff case 1: 375 1.1 joff request.data[0]=(long)data & 0x000000ff; 376 1.1 joff break; 377 1.1 joff case 2: 378 1.1 joff request.data[0]=(long)data & 0x000000ff; 379 1.1 joff request.data[1]=(long)data >> 8; 380 1.1 joff break; 381 1.1 joff default: 382 1.1 joff memcpy(request.data, data, size); 383 1.1 joff break; 384 1.1 joff } 385 1.1 joff 386 1.1 joff err = atu_usb_request(sc, UT_WRITE_VENDOR_DEVICE, 0x0e, 0x0000, 387 1.1 joff 0x0000, size+8, (uByte *)&request); 388 1.1 joff if (err) 389 1.1 joff return (err); 390 1.1 joff 391 1.1 joff DPRINTFN(15, ("%s: sendmib : waitcompletion...\n", 392 1.1 joff USBDEVNAME(sc->atu_dev))); 393 1.1 joff return atu_wait_completion(sc, CMD_SET_MIB, NULL); 394 1.1 joff } 395 1.1 joff 396 1.1 joff int 397 1.1 joff atu_get_mib(struct atu_softc *sc, u_int8_t type, u_int8_t size, 398 1.1 joff u_int8_t index, u_int8_t *buf) 399 1.1 joff { 400 1.1 joff 401 1.1 joff /* linux/at76c503.c - 478 */ 402 1.1 joff return atu_usb_request(sc, UT_READ_VENDOR_INTERFACE, 0x033, 403 1.1 joff type << 8, index, size, buf); 404 1.1 joff } 405 1.1 joff 406 1.1 joff #if 0 407 1.1 joff int 408 1.1 joff atu_start_ibss(struct atu_softc *sc) 409 1.1 joff { 410 1.15 rpaulo struct ieee80211com *ic = &sc->sc_ic; 411 1.1 joff int err; 412 1.1 joff struct atu_cmd_start_ibss Request; 413 1.1 joff 414 1.1 joff Request.Cmd = CMD_START_IBSS; 415 1.1 joff Request.Reserved = 0; 416 1.1 joff Request.Size = sizeof(Request) - 4; 417 1.1 joff 418 1.1 joff memset(Request.BSSID, 0x00, sizeof(Request.BSSID)); 419 1.1 joff memset(Request.SSID, 0x00, sizeof(Request.SSID)); 420 1.15 rpaulo memcpy(Request.SSID, ic->ic_des_ssid, ic->ic_des_ssidlen); 421 1.15 rpaulo Request.SSIDSize = ic->ic_des_ssidlen; 422 1.1 joff if (sc->atu_desired_channel != IEEE80211_CHAN_ANY) 423 1.1 joff Request.Channel = (u_int8_t)sc->atu_desired_channel; 424 1.1 joff else 425 1.1 joff Request.Channel = ATU_DEFAULT_CHANNEL; 426 1.1 joff Request.BSSType = AD_HOC_MODE; 427 1.1 joff memset(Request.Res, 0x00, sizeof(Request.Res)); 428 1.1 joff 429 1.1 joff /* Write config to adapter */ 430 1.1 joff err = atu_send_command(sc, (u_int8_t *)&Request, sizeof(Request)); 431 1.1 joff if (err) { 432 1.1 joff DPRINTF(("%s: start ibss failed!\n", 433 1.1 joff USBDEVNAME(sc->atu_dev))); 434 1.1 joff return err; 435 1.1 joff } 436 1.1 joff 437 1.1 joff /* Wait for the adapter to do it's thing */ 438 1.1 joff err = atu_wait_completion(sc, CMD_START_IBSS, NULL); 439 1.1 joff if (err) { 440 1.1 joff DPRINTF(("%s: error waiting for start_ibss\n", 441 1.1 joff USBDEVNAME(sc->atu_dev))); 442 1.1 joff return err; 443 1.1 joff } 444 1.1 joff 445 1.1 joff /* Get the current BSSID */ 446 1.1 joff err = atu_get_mib(sc, MIB_MAC_MGMT__CURRENT_BSSID, sc->atu_bssid); 447 1.1 joff if (err) { 448 1.1 joff DPRINTF(("%s: could not get BSSID!\n", 449 1.1 joff USBDEVNAME(sc->atu_dev))); 450 1.1 joff return err; 451 1.1 joff } 452 1.1 joff 453 1.1 joff DPRINTF(("%s: started a new IBSS (BSSID=%s)\n", 454 1.1 joff USBDEVNAME(sc->atu_dev), ether_sprintf(sc->atu_bssid))); 455 1.1 joff return 0; 456 1.1 joff } 457 1.1 joff #endif 458 1.1 joff 459 1.1 joff int 460 1.1 joff atu_start_scan(struct atu_softc *sc) 461 1.1 joff { 462 1.15 rpaulo struct ieee80211com *ic = &sc->sc_ic; 463 1.1 joff struct atu_cmd_do_scan Scan; 464 1.1 joff usbd_status err; 465 1.1 joff int Cnt; 466 1.1 joff 467 1.1 joff memset(&Scan, 0, sizeof(Scan)); 468 1.1 joff 469 1.1 joff Scan.Cmd = CMD_START_SCAN; 470 1.1 joff Scan.Reserved = 0; 471 1.1 joff USETW(Scan.Size, sizeof(Scan) - 4); 472 1.1 joff 473 1.1 joff /* use the broadcast BSSID (in active scan) */ 474 1.1 joff for (Cnt=0; Cnt<6; Cnt++) 475 1.1 joff Scan.BSSID[Cnt] = 0xff; 476 1.1 joff 477 1.1 joff memset(Scan.SSID, 0x00, sizeof(Scan.SSID)); 478 1.15 rpaulo memcpy(Scan.SSID, ic->ic_des_essid, ic->ic_des_esslen); 479 1.15 rpaulo Scan.SSID_Len = ic->ic_des_esslen; 480 1.1 joff 481 1.1 joff /* default values for scan */ 482 1.1 joff Scan.ScanType = ATU_SCAN_ACTIVE; 483 1.1 joff if (sc->atu_desired_channel != IEEE80211_CHAN_ANY) 484 1.1 joff Scan.Channel = (u_int8_t)sc->atu_desired_channel; 485 1.1 joff else 486 1.1 joff Scan.Channel = sc->atu_channel; 487 1.1 joff 488 1.17 rpaulo ic->ic_curchan = &ic->ic_channels[Scan.Channel]; 489 1.17 rpaulo 490 1.1 joff /* we like scans to be quick :) */ 491 1.1 joff /* the time we wait before sending probe's */ 492 1.1 joff USETW(Scan.ProbeDelay, 0); 493 1.1 joff /* the time we stay on one channel */ 494 1.1 joff USETW(Scan.MinChannelTime, 100); 495 1.1 joff USETW(Scan.MaxChannelTime, 200); 496 1.1 joff /* wether or not we scan all channels */ 497 1.1 joff Scan.InternationalScan = 0xc1; 498 1.1 joff 499 1.1 joff #ifdef ATU_DEBUG 500 1.1 joff if (atudebug) { 501 1.27 dyoung DPRINTFN(20, ("%s: scan cmd len=%02zx\n", 502 1.27 dyoung USBDEVNAME(sc->atu_dev), sizeof(Scan))); 503 1.1 joff } 504 1.1 joff #endif /* ATU_DEBUG */ 505 1.1 joff 506 1.1 joff /* Write config to adapter */ 507 1.1 joff err = atu_send_command(sc, (u_int8_t *)&Scan, sizeof(Scan)); 508 1.1 joff if (err) 509 1.1 joff return err; 510 1.1 joff 511 1.1 joff /* 512 1.1 joff * We don't wait for the command to finish... the mgmt-thread will do 513 1.1 joff * that for us 514 1.1 joff */ 515 1.1 joff /* 516 1.1 joff err = atu_wait_completion(sc, CMD_START_SCAN, NULL); 517 1.1 joff if (err) 518 1.1 joff return err; 519 1.1 joff */ 520 1.1 joff return 0; 521 1.1 joff } 522 1.1 joff 523 1.1 joff int 524 1.1 joff atu_switch_radio(struct atu_softc *sc, int state) 525 1.1 joff { 526 1.1 joff usbd_status err; 527 1.1 joff struct atu_cmd CmdRadio; 528 1.1 joff 529 1.1 joff if (sc->atu_radio == RadioIntersil) { 530 1.1 joff /* 531 1.1 joff * Intersil doesn't seem to need/support switching the radio 532 1.1 joff * on/off 533 1.1 joff */ 534 1.1 joff return 0; 535 1.1 joff } 536 1.1 joff 537 1.1 joff memset(&CmdRadio, 0, sizeof(CmdRadio)); 538 1.1 joff CmdRadio.Cmd = CMD_RADIO_ON; 539 1.1 joff 540 1.1 joff if (sc->atu_radio_on != state) { 541 1.1 joff if (state == 0) 542 1.1 joff CmdRadio.Cmd = CMD_RADIO_OFF; 543 1.1 joff 544 1.1 joff err = atu_send_command(sc, (u_int8_t *)&CmdRadio, 545 1.1 joff sizeof(CmdRadio)); 546 1.1 joff if (err) 547 1.1 joff return err; 548 1.1 joff 549 1.1 joff err = atu_wait_completion(sc, CmdRadio.Cmd, NULL); 550 1.1 joff if (err) 551 1.1 joff return err; 552 1.1 joff 553 1.1 joff DPRINTFN(10, ("%s: radio turned %s\n", 554 1.1 joff USBDEVNAME(sc->atu_dev), state ? "on" : "off")); 555 1.1 joff sc->atu_radio_on = state; 556 1.1 joff } 557 1.1 joff return 0; 558 1.1 joff } 559 1.1 joff 560 1.1 joff int 561 1.1 joff atu_initial_config(struct atu_softc *sc) 562 1.1 joff { 563 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 564 1.6 joff u_int32_t i; 565 1.1 joff usbd_status err; 566 1.1 joff /* u_int8_t rates[4] = {0x82, 0x84, 0x8B, 0x96};*/ 567 1.1 joff u_int8_t rates[4] = {0x82, 0x04, 0x0B, 0x16}; 568 1.1 joff struct atu_cmd_card_config cmd; 569 1.1 joff u_int8_t reg_domain; 570 1.1 joff 571 1.1 joff DPRINTFN(10, ("%s: sending mac-addr\n", USBDEVNAME(sc->atu_dev))); 572 1.1 joff err = atu_send_mib(sc, MIB_MAC_ADDR__ADDR, ic->ic_myaddr); 573 1.1 joff if (err) { 574 1.1 joff DPRINTF(("%s: error setting mac-addr\n", 575 1.1 joff USBDEVNAME(sc->atu_dev))); 576 1.1 joff return err; 577 1.1 joff } 578 1.1 joff 579 1.1 joff /* 580 1.1 joff DPRINTF(("%s: sending reg-domain\n", USBDEVNAME(sc->atu_dev))); 581 1.1 joff err = atu_send_mib(sc, MIB_PHY__REG_DOMAIN, NR(0x30)); 582 1.1 joff if (err) { 583 1.1 joff DPRINTF(("%s: error setting mac-addr\n", 584 1.1 joff USBDEVNAME(sc->atu_dev))); 585 1.1 joff return err; 586 1.1 joff } 587 1.1 joff */ 588 1.1 joff 589 1.1 joff memset(&cmd, 0, sizeof(cmd)); 590 1.1 joff cmd.Cmd = CMD_STARTUP; 591 1.1 joff cmd.Reserved = 0; 592 1.1 joff USETW(cmd.Size, sizeof(cmd) - 4); 593 1.1 joff 594 1.1 joff if (sc->atu_desired_channel != IEEE80211_CHAN_ANY) 595 1.1 joff cmd.Channel = (u_int8_t)sc->atu_desired_channel; 596 1.1 joff else 597 1.1 joff cmd.Channel = sc->atu_channel; 598 1.1 joff cmd.AutoRateFallback = 1; 599 1.1 joff memcpy(cmd.BasicRateSet, rates, 4); 600 1.1 joff 601 1.1 joff /* ShortRetryLimit should be 7 according to 802.11 spec */ 602 1.1 joff cmd.ShortRetryLimit = 7; 603 1.1 joff USETW(cmd.RTS_Threshold, 2347); 604 1.1 joff USETW(cmd.FragThreshold, 2346); 605 1.1 joff 606 1.1 joff /* Doesn't seem to work, but we'll set it to 1 anyway */ 607 1.1 joff cmd.PromiscuousMode = 1; 608 1.1 joff 609 1.1 joff /* this goes into the beacon we transmit */ 610 1.6 joff if (ic->ic_flags & IEEE80211_F_PRIVACY) 611 1.6 joff cmd.PrivacyInvoked = 1; 612 1.6 joff else 613 1.1 joff cmd.PrivacyInvoked = 0; 614 1.1 joff 615 1.1 joff cmd.ExcludeUnencrypted = 0; 616 1.6 joff 617 1.17 rpaulo if (ic->ic_flags & IEEE80211_F_PRIVACY) { 618 1.17 rpaulo switch (ic->ic_nw_keys[ic->ic_def_txkey].wk_keylen) { 619 1.17 rpaulo case 5: 620 1.17 rpaulo cmd.EncryptionType = ATU_WEP_40BITS; 621 1.17 rpaulo break; 622 1.17 rpaulo case 13: 623 1.17 rpaulo cmd.EncryptionType = ATU_WEP_104BITS; 624 1.17 rpaulo break; 625 1.17 rpaulo default: 626 1.17 rpaulo cmd.EncryptionType = ATU_WEP_OFF; 627 1.17 rpaulo break; 628 1.17 rpaulo } 629 1.6 joff 630 1.6 joff 631 1.17 rpaulo cmd.WEP_DefaultKeyID = ic->ic_def_txkey; 632 1.17 rpaulo for (i = 0; i < IEEE80211_WEP_NKID; i++) { 633 1.17 rpaulo memcpy(cmd.WEP_DefaultKey[i], ic->ic_nw_keys[i].wk_key, 634 1.17 rpaulo ic->ic_nw_keys[i].wk_keylen); 635 1.17 rpaulo } 636 1.6 joff } 637 1.1 joff 638 1.1 joff /* Setting the SSID here doesn't seem to do anything */ 639 1.15 rpaulo memset(cmd.SSID, 0x00, sizeof(cmd.SSID)); 640 1.15 rpaulo memcpy(cmd.SSID, ic->ic_des_essid, ic->ic_des_esslen); 641 1.15 rpaulo cmd.SSID_Len = ic->ic_des_esslen; 642 1.1 joff 643 1.1 joff cmd.ShortPreamble = 0; 644 1.1 joff USETW(cmd.BeaconPeriod, 100); 645 1.1 joff /* cmd.BeaconPeriod = 65535; */ 646 1.1 joff 647 1.1 joff /* 648 1.1 joff * TODO: 649 1.1 joff * read reg domain MIB_PHY @ 0x17 (1 byte), (reply = 0x30) 650 1.35.2.1 uebayasi * we should do something useful with this info. right now it's just 651 1.1 joff * ignored 652 1.1 joff */ 653 1.1 joff err = atu_get_mib(sc, MIB_PHY__REG_DOMAIN, ®_domain); 654 1.1 joff if (err) { 655 1.1 joff DPRINTF(("%s: could not get regdomain!\n", 656 1.1 joff USBDEVNAME(sc->atu_dev))); 657 1.1 joff } else { 658 1.1 joff DPRINTF(("%s: in reg domain 0x%x according to the " 659 1.1 joff "adapter\n", USBDEVNAME(sc->atu_dev), reg_domain)); 660 1.1 joff } 661 1.1 joff 662 1.1 joff #ifdef ATU_DEBUG 663 1.1 joff if (atudebug) { 664 1.27 dyoung DPRINTFN(20, ("%s: configlen=%02zx\n", USBDEVNAME(sc->atu_dev), 665 1.27 dyoung sizeof(cmd))); 666 1.1 joff } 667 1.1 joff #endif /* ATU_DEBUG */ 668 1.1 joff 669 1.1 joff /* Windoze : driver says exclude-unencrypted=1 & encr-type=1 */ 670 1.1 joff 671 1.1 joff err = atu_send_command(sc, (u_int8_t *)&cmd, sizeof(cmd)); 672 1.1 joff if (err) 673 1.1 joff return err; 674 1.1 joff err = atu_wait_completion(sc, CMD_STARTUP, NULL); 675 1.1 joff if (err) 676 1.1 joff return err; 677 1.1 joff 678 1.1 joff /* Turn on radio now */ 679 1.1 joff err = atu_switch_radio(sc, 1); 680 1.1 joff if (err) 681 1.1 joff return err; 682 1.1 joff 683 1.1 joff /* preamble type = short */ 684 1.1 joff err = atu_send_mib(sc, MIB_LOCAL__PREAMBLE, NR(PREAMBLE_SHORT)); 685 1.1 joff if (err) 686 1.1 joff return err; 687 1.1 joff 688 1.1 joff /* frag = 1536 */ 689 1.1 joff err = atu_send_mib(sc, MIB_MAC__FRAG, NR(2346)); 690 1.1 joff if (err) 691 1.1 joff return err; 692 1.1 joff 693 1.1 joff /* rts = 1536 */ 694 1.1 joff err = atu_send_mib(sc, MIB_MAC__RTS, NR(2347)); 695 1.1 joff if (err) 696 1.1 joff return err; 697 1.1 joff 698 1.1 joff /* auto rate fallback = 1 */ 699 1.1 joff err = atu_send_mib(sc, MIB_LOCAL__AUTO_RATE_FALLBACK, NR(1)); 700 1.1 joff if (err) 701 1.1 joff return err; 702 1.1 joff 703 1.1 joff /* power mode = full on, no power saving */ 704 1.1 joff err = atu_send_mib(sc, MIB_MAC_MGMT__POWER_MODE, 705 1.1 joff NR(POWER_MODE_ACTIVE)); 706 1.1 joff if (err) 707 1.1 joff return err; 708 1.1 joff 709 1.1 joff DPRINTFN(10, ("%s: completed initial config\n", 710 1.1 joff USBDEVNAME(sc->atu_dev))); 711 1.1 joff return 0; 712 1.1 joff } 713 1.1 joff 714 1.1 joff int 715 1.1 joff atu_join(struct atu_softc *sc, struct ieee80211_node *node) 716 1.1 joff { 717 1.1 joff struct atu_cmd_join join; 718 1.16 christos u_int8_t status = 0; /* XXX: GCC */ 719 1.1 joff usbd_status err; 720 1.1 joff 721 1.1 joff memset(&join, 0, sizeof(join)); 722 1.1 joff 723 1.1 joff join.Cmd = CMD_JOIN; 724 1.1 joff join.Reserved = 0x00; 725 1.1 joff USETW(join.Size, sizeof(join) - 4); 726 1.1 joff 727 1.1 joff DPRINTFN(15, ("%s: pre-join sc->atu_bssid=%s\n", 728 1.1 joff USBDEVNAME(sc->atu_dev), ether_sprintf(sc->atu_bssid))); 729 1.1 joff DPRINTFN(15, ("%s: mode=%d\n", USBDEVNAME(sc->atu_dev), 730 1.1 joff sc->atu_mode)); 731 1.1 joff memcpy(join.bssid, node->ni_bssid, IEEE80211_ADDR_LEN); 732 1.1 joff memset(join.essid, 0x00, 32); 733 1.1 joff memcpy(join.essid, node->ni_essid, node->ni_esslen); 734 1.1 joff join.essid_size = node->ni_esslen; 735 1.1 joff if (node->ni_capinfo & IEEE80211_CAPINFO_IBSS) 736 1.1 joff join.bss_type = AD_HOC_MODE; 737 1.1 joff else 738 1.1 joff join.bss_type = INFRASTRUCTURE_MODE; 739 1.1 joff join.channel = ieee80211_chan2ieee(&sc->sc_ic, node->ni_chan); 740 1.1 joff 741 1.1 joff USETW(join.timeout, ATU_JOIN_TIMEOUT); 742 1.1 joff join.reserved = 0x00; 743 1.1 joff 744 1.1 joff DPRINTFN(10, ("%s: trying to join BSSID=%s\n", 745 1.1 joff USBDEVNAME(sc->atu_dev), ether_sprintf(join.bssid))); 746 1.1 joff err = atu_send_command(sc, (u_int8_t *)&join, sizeof(join)); 747 1.1 joff if (err) { 748 1.1 joff DPRINTF(("%s: ERROR trying to join IBSS\n", 749 1.1 joff USBDEVNAME(sc->atu_dev))); 750 1.1 joff return err; 751 1.1 joff } 752 1.1 joff err = atu_wait_completion(sc, CMD_JOIN, &status); 753 1.1 joff if (err) { 754 1.1 joff DPRINTF(("%s: error joining BSS!\n", 755 1.1 joff USBDEVNAME(sc->atu_dev))); 756 1.1 joff return err; 757 1.1 joff } 758 1.1 joff if (status != STATUS_COMPLETE) { 759 1.1 joff DPRINTF(("%s: error joining... [status=%02x]\n", 760 1.1 joff USBDEVNAME(sc->atu_dev), status)); 761 1.1 joff return status; 762 1.1 joff } else { 763 1.1 joff DPRINTFN(10, ("%s: joined BSS\n", USBDEVNAME(sc->atu_dev))); 764 1.1 joff } 765 1.1 joff return err; 766 1.1 joff } 767 1.1 joff 768 1.1 joff /* 769 1.1 joff * Get the state of the DFU unit 770 1.1 joff */ 771 1.1 joff int8_t 772 1.1 joff atu_get_dfu_state(struct atu_softc *sc) 773 1.1 joff { 774 1.1 joff u_int8_t state; 775 1.1 joff 776 1.1 joff if (atu_usb_request(sc, DFU_GETSTATE, 0, 0, 1, &state)) 777 1.1 joff return -1; 778 1.1 joff return state; 779 1.1 joff } 780 1.1 joff 781 1.1 joff /* 782 1.1 joff * Get MAC opmode 783 1.1 joff */ 784 1.1 joff u_int8_t 785 1.1 joff atu_get_opmode(struct atu_softc *sc, u_int8_t *mode) 786 1.1 joff { 787 1.1 joff 788 1.1 joff return atu_usb_request(sc, UT_READ_VENDOR_INTERFACE, 0x33, 0x0001, 789 1.1 joff 0x0000, 1, mode); 790 1.1 joff } 791 1.1 joff 792 1.1 joff /* 793 1.1 joff * Upload the internal firmware into the device 794 1.1 joff */ 795 1.1 joff void 796 1.29 cube atu_internal_firmware(device_t arg) 797 1.1 joff { 798 1.29 cube struct atu_softc *sc = device_private(arg); 799 1.1 joff u_char state, *ptr = NULL, *firm = NULL, status[6]; 800 1.1 joff int block_size, block = 0, err, i; 801 1.1 joff size_t bytes_left = 0; 802 1.1 joff 803 1.1 joff /* 804 1.1 joff * Uploading firmware is done with the DFU (Device Firmware Upgrade) 805 1.1 joff * interface. See "Universal Serial Bus - Device Class Specification 806 1.1 joff * for Device Firmware Upgrade" pdf for details of the protocol. 807 1.24 wiz * Maybe this could be moved to a separate 'firmware driver' once more 808 1.1 joff * device drivers need it... For now we'll just do it here. 809 1.1 joff * 810 1.1 joff * Just for your information, the Atmel's DFU descriptor looks like 811 1.1 joff * this: 812 1.1 joff * 813 1.1 joff * 07 size 814 1.1 joff * 21 type 815 1.1 joff * 01 capabilities : only firmware download, need reset 816 1.1 joff * after download 817 1.1 joff * 13 05 detach timeout : max 1299ms between DFU_DETACH and 818 1.1 joff * reset 819 1.1 joff * 00 04 max bytes of firmware per transaction : 1024 820 1.1 joff */ 821 1.1 joff 822 1.1 joff /* Choose the right firmware for the device */ 823 1.27 dyoung for (i = 0; i < __arraycount(atu_radfirm); i++) 824 1.1 joff if (sc->atu_radio == atu_radfirm[i].atur_type) { 825 1.1 joff firm = atu_radfirm[i].atur_internal; 826 1.1 joff bytes_left = atu_radfirm[i].atur_internal_sz; 827 1.1 joff } 828 1.1 joff 829 1.1 joff if (firm == NULL) { 830 1.29 cube aprint_error_dev(arg, "no firmware found\n"); 831 1.1 joff return; 832 1.1 joff } 833 1.1 joff 834 1.1 joff ptr = firm; 835 1.1 joff state = atu_get_dfu_state(sc); 836 1.1 joff 837 1.1 joff while (block >= 0 && state > 0) { 838 1.1 joff switch (state) { 839 1.1 joff case DFUState_DnLoadSync: 840 1.1 joff /* get DFU status */ 841 1.1 joff err = atu_usb_request(sc, DFU_GETSTATUS, 0, 0 , 6, 842 1.1 joff status); 843 1.1 joff if (err) { 844 1.1 joff DPRINTF(("%s: dfu_getstatus failed!\n", 845 1.1 joff USBDEVNAME(sc->atu_dev))); 846 1.1 joff return; 847 1.1 joff } 848 1.1 joff /* success means state => DnLoadIdle */ 849 1.1 joff state = DFUState_DnLoadIdle; 850 1.1 joff continue; 851 1.1 joff break; 852 1.1 joff 853 1.1 joff case DFUState_DFUIdle: 854 1.1 joff case DFUState_DnLoadIdle: 855 1.1 joff if (bytes_left>=DFU_MaxBlockSize) 856 1.1 joff block_size = DFU_MaxBlockSize; 857 1.1 joff else 858 1.1 joff block_size = bytes_left; 859 1.1 joff DPRINTFN(15, ("%s: firmware block %d\n", 860 1.1 joff USBDEVNAME(sc->atu_dev), block)); 861 1.1 joff 862 1.1 joff err = atu_usb_request(sc, DFU_DNLOAD, block++, 0, 863 1.1 joff block_size, ptr); 864 1.1 joff if (err) { 865 1.1 joff DPRINTF(("%s: dfu_dnload failed\n", 866 1.1 joff USBDEVNAME(sc->atu_dev))); 867 1.1 joff return; 868 1.1 joff } 869 1.1 joff 870 1.1 joff ptr += block_size; 871 1.1 joff bytes_left -= block_size; 872 1.1 joff if (block_size == 0) 873 1.1 joff block = -1; 874 1.1 joff break; 875 1.1 joff 876 1.1 joff default: 877 1.1 joff usbd_delay_ms(sc->atu_udev, 100); 878 1.1 joff DPRINTFN(20, ("%s: sleeping for a while\n", 879 1.1 joff USBDEVNAME(sc->atu_dev))); 880 1.1 joff break; 881 1.1 joff } 882 1.1 joff 883 1.1 joff state = atu_get_dfu_state(sc); 884 1.1 joff } 885 1.1 joff 886 1.1 joff if (state != DFUState_ManifestSync) { 887 1.1 joff DPRINTF(("%s: state != manifestsync... eek!\n", 888 1.1 joff USBDEVNAME(sc->atu_dev))); 889 1.1 joff } 890 1.1 joff 891 1.1 joff err = atu_usb_request(sc, DFU_GETSTATUS, 0, 0, 6, status); 892 1.1 joff if (err) { 893 1.1 joff DPRINTF(("%s: dfu_getstatus failed!\n", 894 1.1 joff USBDEVNAME(sc->atu_dev))); 895 1.1 joff return; 896 1.1 joff } 897 1.1 joff 898 1.1 joff DPRINTFN(15, ("%s: sending remap\n", USBDEVNAME(sc->atu_dev))); 899 1.1 joff err = atu_usb_request(sc, DFU_REMAP, 0, 0, 0, NULL); 900 1.1 joff if ((err) && (! sc->atu_quirk & ATU_QUIRK_NO_REMAP)) { 901 1.1 joff DPRINTF(("%s: remap failed!\n", USBDEVNAME(sc->atu_dev))); 902 1.1 joff return; 903 1.1 joff } 904 1.1 joff 905 1.1 joff /* after a lot of trying and measuring I found out the device needs 906 1.1 joff * about 56 miliseconds after sending the remap command before 907 1.1 joff * it's ready to communicate again. So we'll wait just a little bit 908 1.1 joff * longer than that to be sure... 909 1.1 joff */ 910 1.1 joff usbd_delay_ms(sc->atu_udev, 56+100); 911 1.1 joff 912 1.29 cube aprint_error_dev(arg, "reattaching after firmware upload\n"); 913 1.1 joff usb_needs_reattach(sc->atu_udev); 914 1.1 joff } 915 1.1 joff 916 1.1 joff void 917 1.29 cube atu_external_firmware(device_t arg) 918 1.1 joff { 919 1.29 cube struct atu_softc *sc = device_private(arg); 920 1.1 joff u_char *ptr = NULL, *firm = NULL; 921 1.1 joff int block_size, block = 0, err, i; 922 1.1 joff size_t bytes_left = 0; 923 1.1 joff 924 1.27 dyoung for (i = 0; i < __arraycount(atu_radfirm); i++) 925 1.1 joff if (sc->atu_radio == atu_radfirm[i].atur_type) { 926 1.1 joff firm = atu_radfirm[i].atur_external; 927 1.1 joff bytes_left = atu_radfirm[i].atur_external_sz; 928 1.1 joff } 929 1.1 joff 930 1.1 joff if (firm == NULL) { 931 1.29 cube aprint_error_dev(arg, "no firmware found\n"); 932 1.1 joff return; 933 1.1 joff } 934 1.1 joff ptr = firm; 935 1.1 joff 936 1.1 joff while (bytes_left) { 937 1.1 joff if (bytes_left > 1024) 938 1.1 joff block_size = 1024; 939 1.1 joff else 940 1.1 joff block_size = bytes_left; 941 1.1 joff 942 1.1 joff DPRINTFN(15, ("%s: block:%d size:%d\n", 943 1.1 joff USBDEVNAME(sc->atu_dev), block, block_size)); 944 1.1 joff err = atu_usb_request(sc, UT_WRITE_VENDOR_DEVICE, 0x0e, 945 1.1 joff 0x0802, block, block_size, ptr); 946 1.1 joff if (err) { 947 1.1 joff DPRINTF(("%s: could not load external firmware " 948 1.1 joff "block\n", USBDEVNAME(sc->atu_dev))); 949 1.1 joff return; 950 1.1 joff } 951 1.1 joff 952 1.1 joff ptr += block_size; 953 1.1 joff block++; 954 1.1 joff bytes_left -= block_size; 955 1.1 joff } 956 1.1 joff 957 1.1 joff err = atu_usb_request(sc, UT_WRITE_VENDOR_DEVICE, 0x0e, 0x0802, 958 1.1 joff block, 0, NULL); 959 1.1 joff if (err) { 960 1.1 joff DPRINTF(("%s: could not load last zero-length firmware " 961 1.1 joff "block\n", USBDEVNAME(sc->atu_dev))); 962 1.1 joff return; 963 1.1 joff } 964 1.1 joff 965 1.1 joff /* 966 1.1 joff * The SMC2662w V.4 seems to require some time to do it's thing with 967 1.1 joff * the external firmware... 20 ms isn't enough, but 21 ms works 100 968 1.1 joff * times out of 100 tries. We'll wait a bit longer just to be sure 969 1.1 joff */ 970 1.1 joff if (sc->atu_quirk & ATU_QUIRK_FW_DELAY) 971 1.1 joff usbd_delay_ms(sc->atu_udev, 21 + 100); 972 1.1 joff 973 1.1 joff DPRINTFN(10, ("%s: external firmware upload done\n", 974 1.1 joff USBDEVNAME(sc->atu_dev))); 975 1.1 joff /* complete configuration after the firmwares have been uploaded */ 976 1.1 joff atu_complete_attach(sc); 977 1.1 joff } 978 1.1 joff 979 1.1 joff int 980 1.1 joff atu_get_card_config(struct atu_softc *sc) 981 1.1 joff { 982 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 983 1.1 joff struct atu_rfmd_conf rfmd_conf; 984 1.1 joff struct atu_intersil_conf intersil_conf; 985 1.1 joff int err; 986 1.1 joff 987 1.1 joff switch (sc->atu_radio) { 988 1.1 joff 989 1.1 joff case RadioRFMD: 990 1.1 joff case RadioRFMD2958: 991 1.1 joff case RadioRFMD2958_SMC: 992 1.1 joff err = atu_usb_request(sc, UT_READ_VENDOR_INTERFACE, 0x33, 993 1.1 joff 0x0a02, 0x0000, sizeof(rfmd_conf), 994 1.1 joff (u_int8_t *)&rfmd_conf); 995 1.1 joff if (err) { 996 1.1 joff DPRINTF(("%s: could not get rfmd config!\n", 997 1.1 joff USBDEVNAME(sc->atu_dev))); 998 1.1 joff return err; 999 1.1 joff } 1000 1.1 joff memcpy(ic->ic_myaddr, rfmd_conf.MACAddr, IEEE80211_ADDR_LEN); 1001 1.1 joff break; 1002 1.1 joff 1003 1.1 joff case RadioIntersil: 1004 1.1 joff err = atu_usb_request(sc, UT_READ_VENDOR_INTERFACE, 0x33, 1005 1.1 joff 0x0902, 0x0000, sizeof(intersil_conf), 1006 1.1 joff (u_int8_t *)&intersil_conf); 1007 1.1 joff if (err) { 1008 1.1 joff DPRINTF(("%s: could not get intersil config!\n", 1009 1.1 joff USBDEVNAME(sc->atu_dev))); 1010 1.1 joff return err; 1011 1.1 joff } 1012 1.1 joff memcpy(ic->ic_myaddr, intersil_conf.MACAddr, 1013 1.1 joff IEEE80211_ADDR_LEN); 1014 1.1 joff break; 1015 1.1 joff } 1016 1.1 joff return 0; 1017 1.1 joff } 1018 1.1 joff 1019 1.1 joff /* 1020 1.1 joff * Probe for an AT76c503 chip. 1021 1.1 joff */ 1022 1.31 dyoung int 1023 1.31 dyoung atu_match(device_t parent, cfdata_t match, void *aux) 1024 1.1 joff { 1025 1.31 dyoung struct usb_attach_arg *uaa = aux; 1026 1.1 joff int i; 1027 1.1 joff 1028 1.27 dyoung for (i = 0; i < __arraycount(atu_devs); i++) { 1029 1.1 joff struct atu_type *t = &atu_devs[i]; 1030 1.1 joff 1031 1.1 joff if (uaa->vendor == t->atu_vid && 1032 1.1 joff uaa->product == t->atu_pid) { 1033 1.1 joff return(UMATCH_VENDOR_PRODUCT); 1034 1.1 joff } 1035 1.1 joff } 1036 1.1 joff return(UMATCH_NONE); 1037 1.1 joff } 1038 1.1 joff 1039 1.1 joff int 1040 1.1 joff atu_media_change(struct ifnet *ifp) 1041 1.1 joff { 1042 1.1 joff struct atu_softc *sc = ifp->if_softc; 1043 1.6 joff struct ieee80211com *ic = &sc->sc_ic; 1044 1.6 joff int err, s; 1045 1.1 joff 1046 1.1 joff DPRINTFN(10, ("%s: atu_media_change\n", USBDEVNAME(sc->atu_dev))); 1047 1.1 joff 1048 1.1 joff err = ieee80211_media_change(ifp); 1049 1.1 joff if (err == ENETRESET) { 1050 1.1 joff if ((ifp->if_flags & (IFF_RUNNING|IFF_UP)) == 1051 1.6 joff (IFF_RUNNING|IFF_UP)) { 1052 1.6 joff s = splnet(); 1053 1.6 joff ieee80211_new_state(ic, IEEE80211_S_INIT, -1); 1054 1.6 joff atu_initial_config(sc); 1055 1.6 joff ieee80211_new_state(ic, IEEE80211_S_SCAN, -1); 1056 1.6 joff splx(s); 1057 1.6 joff } 1058 1.1 joff err = 0; 1059 1.1 joff } 1060 1.1 joff 1061 1.1 joff return (err); 1062 1.1 joff } 1063 1.1 joff 1064 1.1 joff void 1065 1.1 joff atu_media_status(struct ifnet *ifp, struct ifmediareq *req) 1066 1.1 joff { 1067 1.1 joff #ifdef ATU_DEBUG 1068 1.1 joff struct atu_softc *sc = ifp->if_softc; 1069 1.1 joff #endif /* ATU_DEBUG */ 1070 1.1 joff 1071 1.1 joff DPRINTFN(10, ("%s: atu_media_status\n", USBDEVNAME(sc->atu_dev))); 1072 1.1 joff 1073 1.1 joff ieee80211_media_status(ifp, req); 1074 1.1 joff } 1075 1.1 joff 1076 1.1 joff void 1077 1.1 joff atu_task(void *arg) 1078 1.1 joff { 1079 1.1 joff struct atu_softc *sc = (struct atu_softc *)arg; 1080 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 1081 1.1 joff usbd_status err; 1082 1.1 joff int s; 1083 1.1 joff 1084 1.1 joff DPRINTFN(10, ("%s: atu_task\n", USBDEVNAME(sc->atu_dev))); 1085 1.1 joff 1086 1.1 joff if (sc->sc_state != ATU_S_OK) 1087 1.1 joff return; 1088 1.1 joff 1089 1.1 joff switch (sc->sc_cmd) { 1090 1.1 joff case ATU_C_SCAN: 1091 1.1 joff 1092 1.1 joff err = atu_start_scan(sc); 1093 1.1 joff if (err) { 1094 1.6 joff DPRINTFN(1, ("%s: atu_task: couldn't start scan!\n", 1095 1.1 joff USBDEVNAME(sc->atu_dev))); 1096 1.1 joff return; 1097 1.1 joff } 1098 1.1 joff 1099 1.1 joff err = atu_wait_completion(sc, CMD_START_SCAN, NULL); 1100 1.1 joff if (err) { 1101 1.6 joff DPRINTF(("%s: atu_task: error waiting for scan\n", 1102 1.1 joff USBDEVNAME(sc->atu_dev))); 1103 1.1 joff return; 1104 1.1 joff } 1105 1.1 joff 1106 1.1 joff DPRINTF(("%s: ==========================> END OF SCAN!\n", 1107 1.1 joff USBDEVNAME(sc->atu_dev))); 1108 1.1 joff 1109 1.1 joff s = splnet(); 1110 1.17 rpaulo ieee80211_next_scan(ic); 1111 1.1 joff splx(s); 1112 1.1 joff 1113 1.1 joff DPRINTF(("%s: ----------------------======> END OF SCAN2!\n", 1114 1.1 joff USBDEVNAME(sc->atu_dev))); 1115 1.1 joff break; 1116 1.1 joff 1117 1.1 joff case ATU_C_JOIN: 1118 1.1 joff atu_join(sc, ic->ic_bss); 1119 1.1 joff } 1120 1.1 joff } 1121 1.1 joff 1122 1.1 joff int 1123 1.1 joff atu_newstate(struct ieee80211com *ic, enum ieee80211_state nstate, int arg) 1124 1.1 joff { 1125 1.12 dyoung struct ifnet *ifp = ic->ic_ifp; 1126 1.1 joff struct atu_softc *sc = ifp->if_softc; 1127 1.1 joff enum ieee80211_state ostate = ic->ic_state; 1128 1.1 joff 1129 1.1 joff DPRINTFN(10, ("%s: atu_newstate: %s -> %s\n", USBDEVNAME(sc->atu_dev), 1130 1.1 joff ieee80211_state_name[ostate], ieee80211_state_name[nstate])); 1131 1.1 joff 1132 1.1 joff switch (nstate) { 1133 1.1 joff case IEEE80211_S_SCAN: 1134 1.1 joff memcpy(ic->ic_chan_scan, ic->ic_chan_active, 1135 1.1 joff sizeof(ic->ic_chan_active)); 1136 1.12 dyoung ieee80211_node_table_reset(&ic->ic_scan); 1137 1.1 joff 1138 1.1 joff /* tell the event thread that we want a scan */ 1139 1.1 joff sc->sc_cmd = ATU_C_SCAN; 1140 1.22 joerg usb_add_task(sc->atu_udev, &sc->sc_task, USB_TASKQ_DRIVER); 1141 1.1 joff 1142 1.1 joff /* handle this ourselves */ 1143 1.1 joff ic->ic_state = nstate; 1144 1.1 joff return (0); 1145 1.1 joff 1146 1.1 joff case IEEE80211_S_AUTH: 1147 1.1 joff case IEEE80211_S_RUN: 1148 1.1 joff if (ostate == IEEE80211_S_SCAN) { 1149 1.1 joff sc->sc_cmd = ATU_C_JOIN; 1150 1.22 joerg usb_add_task(sc->atu_udev, &sc->sc_task, 1151 1.22 joerg USB_TASKQ_DRIVER); 1152 1.1 joff } 1153 1.1 joff break; 1154 1.1 joff default: 1155 1.1 joff /* nothing to do */ 1156 1.1 joff break; 1157 1.1 joff } 1158 1.1 joff 1159 1.1 joff return (*sc->sc_newstate)(ic, nstate, arg); 1160 1.1 joff } 1161 1.1 joff 1162 1.1 joff /* 1163 1.1 joff * Attach the interface. Allocate softc structures, do 1164 1.1 joff * setup and ethernet/BPF attach. 1165 1.1 joff */ 1166 1.31 dyoung void 1167 1.31 dyoung atu_attach(device_t parent, device_t self, void *aux) 1168 1.1 joff { 1169 1.32 dyoung struct atu_softc *sc = device_private(self); 1170 1.31 dyoung struct usb_attach_arg *uaa = aux; 1171 1.11 augustss char *devinfop; 1172 1.1 joff usbd_status err; 1173 1.1 joff usbd_device_handle dev = uaa->device; 1174 1.1 joff u_int8_t mode, channel; 1175 1.1 joff int i; 1176 1.1 joff 1177 1.29 cube sc->atu_dev = self; 1178 1.1 joff sc->sc_state = ATU_S_UNCONFIG; 1179 1.1 joff 1180 1.31 dyoung aprint_naive("\n"); 1181 1.31 dyoung aprint_normal("\n"); 1182 1.33 plunky 1183 1.33 plunky devinfop = usbd_devinfo_alloc(dev, 0); 1184 1.29 cube aprint_normal_dev(self, "%s\n", devinfop); 1185 1.11 augustss usbd_devinfo_free(devinfop); 1186 1.1 joff 1187 1.1 joff err = usbd_set_config_no(dev, ATU_CONFIG_NO, 1); 1188 1.1 joff if (err) { 1189 1.29 cube aprint_error_dev(self, "setting config no failed\n"); 1190 1.32 dyoung return; 1191 1.1 joff } 1192 1.1 joff 1193 1.1 joff err = usbd_device2interface_handle(dev, ATU_IFACE_IDX, &sc->atu_iface); 1194 1.1 joff if (err) { 1195 1.29 cube aprint_error_dev(self, "getting interface handle failed\n"); 1196 1.32 dyoung return; 1197 1.1 joff } 1198 1.1 joff 1199 1.14 thorpej sc->atu_unit = device_unit(self); 1200 1.1 joff sc->atu_udev = dev; 1201 1.1 joff 1202 1.1 joff /* 1203 1.1 joff * look up the radio_type for the device 1204 1.1 joff * basically does the same as USB_MATCH 1205 1.1 joff */ 1206 1.27 dyoung for (i = 0; i < __arraycount(atu_devs); i++) { 1207 1.1 joff struct atu_type *t = &atu_devs[i]; 1208 1.1 joff 1209 1.1 joff if (uaa->vendor == t->atu_vid && 1210 1.1 joff uaa->product == t->atu_pid) { 1211 1.1 joff sc->atu_radio = t->atu_radio; 1212 1.1 joff sc->atu_quirk = t->atu_quirk; 1213 1.1 joff } 1214 1.1 joff } 1215 1.1 joff 1216 1.1 joff /* 1217 1.1 joff * Check in the interface descriptor if we're in DFU mode 1218 1.1 joff * If we're in DFU mode, we upload the external firmware 1219 1.1 joff * If we're not, the PC must have rebooted without power-cycling 1220 1.1 joff * the device.. I've tried this out, a reboot only requeres the 1221 1.1 joff * external firmware to be reloaded :) 1222 1.1 joff * 1223 1.1 joff * Hmm. The at76c505a doesn't report a DFU descriptor when it's 1224 1.1 joff * in DFU mode... Let's just try to get the opmode 1225 1.1 joff */ 1226 1.1 joff err = atu_get_opmode(sc, &mode); 1227 1.1 joff DPRINTFN(20, ("%s: opmode: %d\n", USBDEVNAME(sc->atu_dev), mode)); 1228 1.1 joff if (err || (mode != MODE_NETCARD && mode != MODE_NOFLASHNETCARD)) { 1229 1.1 joff DPRINTF(("%s: starting internal firmware download\n", 1230 1.1 joff USBDEVNAME(sc->atu_dev))); 1231 1.1 joff 1232 1.29 cube atu_internal_firmware(sc->atu_dev); 1233 1.1 joff /* 1234 1.1 joff * atu_internal_firmware will cause a reset of the device 1235 1.1 joff * so we don't want to do any more configuration after this 1236 1.1 joff * point. 1237 1.1 joff */ 1238 1.32 dyoung return; 1239 1.1 joff } 1240 1.1 joff 1241 1.1 joff if (mode != MODE_NETCARD) { 1242 1.1 joff DPRINTFN(15, ("%s: device needs external firmware\n", 1243 1.1 joff USBDEVNAME(sc->atu_dev))); 1244 1.1 joff 1245 1.1 joff if (mode != MODE_NOFLASHNETCARD) { 1246 1.1 joff DPRINTF(("%s: unexpected opmode=%d\n", 1247 1.1 joff USBDEVNAME(sc->atu_dev), mode)); 1248 1.1 joff } 1249 1.1 joff 1250 1.1 joff /* 1251 1.1 joff * There is no difference in opmode before and after external 1252 1.1 joff * firmware upload with the SMC2662 V.4 . So instead we'll try 1253 1.1 joff * to read the channel number. If we succeed, external 1254 1.1 joff * firmwaremust have been already uploaded... 1255 1.1 joff */ 1256 1.1 joff if (sc->atu_radio != RadioIntersil) { 1257 1.1 joff err = atu_get_mib(sc, MIB_PHY__CHANNEL, &channel); 1258 1.1 joff if (!err) { 1259 1.1 joff DPRINTF(("%s: external firmware has already" 1260 1.1 joff " been downloaded\n", 1261 1.1 joff USBDEVNAME(sc->atu_dev))); 1262 1.1 joff atu_complete_attach(sc); 1263 1.32 dyoung return; 1264 1.1 joff } 1265 1.1 joff } 1266 1.1 joff 1267 1.29 cube atu_external_firmware(sc->atu_dev); 1268 1.1 joff 1269 1.1 joff /* 1270 1.1 joff * atu_external_firmware will call atu_complete_attach after 1271 1.1 joff * it's finished so we can just return. 1272 1.1 joff */ 1273 1.1 joff } else { 1274 1.1 joff /* all the firmwares are in place, so complete the attach */ 1275 1.1 joff atu_complete_attach(sc); 1276 1.1 joff } 1277 1.1 joff 1278 1.32 dyoung return; 1279 1.1 joff } 1280 1.1 joff 1281 1.1 joff void 1282 1.1 joff atu_complete_attach(struct atu_softc *sc) 1283 1.1 joff { 1284 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 1285 1.12 dyoung struct ifnet *ifp = &sc->sc_if; 1286 1.1 joff usb_interface_descriptor_t *id; 1287 1.1 joff usb_endpoint_descriptor_t *ed; 1288 1.1 joff usbd_status err; 1289 1.1 joff int i; 1290 1.1 joff #ifdef ATU_DEBUG 1291 1.1 joff struct atu_fw fw; 1292 1.1 joff #endif 1293 1.1 joff 1294 1.1 joff id = usbd_get_interface_descriptor(sc->atu_iface); 1295 1.1 joff 1296 1.1 joff /* Find endpoints. */ 1297 1.1 joff for (i = 0; i < id->bNumEndpoints; i++) { 1298 1.1 joff ed = usbd_interface2endpoint_descriptor(sc->atu_iface, i); 1299 1.1 joff if (!ed) { 1300 1.1 joff DPRINTF(("%s: num_endp:%d\n", USBDEVNAME(sc->atu_dev), 1301 1.1 joff sc->atu_iface->idesc->bNumEndpoints)); 1302 1.1 joff DPRINTF(("%s: couldn't get ep %d\n", 1303 1.1 joff USBDEVNAME(sc->atu_dev), i)); 1304 1.1 joff return; 1305 1.1 joff } 1306 1.1 joff if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_IN && 1307 1.1 joff UE_GET_XFERTYPE(ed->bmAttributes) == UE_BULK) { 1308 1.1 joff sc->atu_ed[ATU_ENDPT_RX] = ed->bEndpointAddress; 1309 1.1 joff } else if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_OUT && 1310 1.1 joff UE_GET_XFERTYPE(ed->bmAttributes) == UE_BULK) { 1311 1.1 joff sc->atu_ed[ATU_ENDPT_TX] = ed->bEndpointAddress; 1312 1.1 joff } 1313 1.1 joff } 1314 1.1 joff 1315 1.1 joff /* read device config & get MAC address */ 1316 1.1 joff err = atu_get_card_config(sc); 1317 1.1 joff if (err) { 1318 1.29 cube aprint_error("\n%s: could not get card cfg!\n", 1319 1.32 dyoung device_xname(sc->atu_dev)); 1320 1.1 joff return; 1321 1.1 joff } 1322 1.1 joff 1323 1.1 joff #ifdef ATU_DEBUG 1324 1.1 joff /* DEBUG : try to get firmware version */ 1325 1.27 dyoung err = atu_get_mib(sc, MIB_FW_VERSION, sizeof(fw), 0, (u_int8_t *)&fw); 1326 1.1 joff if (!err) { 1327 1.1 joff DPRINTFN(15, ("%s: firmware: maj:%d min:%d patch:%d " 1328 1.1 joff "build:%d\n", USBDEVNAME(sc->atu_dev), fw.major, fw.minor, 1329 1.1 joff fw.patch, fw.build)); 1330 1.1 joff } else { 1331 1.1 joff DPRINTF(("%s: get firmware version failed\n", 1332 1.1 joff USBDEVNAME(sc->atu_dev))); 1333 1.1 joff } 1334 1.1 joff #endif /* ATU_DEBUG */ 1335 1.1 joff 1336 1.1 joff /* Show the world our MAC address */ 1337 1.29 cube aprint_normal_dev(sc->atu_dev, "MAC address %s\n", 1338 1.1 joff ether_sprintf(ic->ic_myaddr)); 1339 1.1 joff 1340 1.1 joff sc->atu_cdata.atu_tx_inuse = 0; 1341 1.1 joff sc->atu_encrypt = ATU_WEP_OFF; 1342 1.1 joff sc->atu_wepkeylen = ATU_WEP_104BITS; 1343 1.1 joff sc->atu_wepkey = 0; 1344 1.1 joff 1345 1.30 cegger memset(sc->atu_bssid, 0, ETHER_ADDR_LEN); 1346 1.1 joff sc->atu_channel = ATU_DEFAULT_CHANNEL; 1347 1.1 joff sc->atu_desired_channel = IEEE80211_CHAN_ANY; 1348 1.1 joff sc->atu_mode = INFRASTRUCTURE_MODE; 1349 1.1 joff 1350 1.12 dyoung ic->ic_ifp = ifp; 1351 1.1 joff ic->ic_phytype = IEEE80211_T_DS; 1352 1.1 joff ic->ic_opmode = IEEE80211_M_STA; 1353 1.1 joff ic->ic_state = IEEE80211_S_INIT; 1354 1.1 joff #ifdef FIXME 1355 1.1 joff ic->ic_caps = IEEE80211_C_IBSS | IEEE80211_C_WEP | IEEE80211_C_SCANALL; 1356 1.1 joff #else 1357 1.1 joff ic->ic_caps = IEEE80211_C_IBSS | IEEE80211_C_WEP; 1358 1.1 joff #endif 1359 1.1 joff 1360 1.1 joff i = 0; 1361 1.1 joff ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[i++] = 2; 1362 1.1 joff ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[i++] = 4; 1363 1.1 joff ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[i++] = 11; 1364 1.1 joff ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[i++] = 22; 1365 1.1 joff ic->ic_sup_rates[IEEE80211_MODE_11B].rs_nrates = i; 1366 1.1 joff 1367 1.1 joff for (i = 1; i <= 14; i++) { 1368 1.1 joff ic->ic_channels[i].ic_flags = IEEE80211_CHAN_B | 1369 1.1 joff IEEE80211_CHAN_PASSIVE; 1370 1.1 joff ic->ic_channels[i].ic_freq = ieee80211_ieee2mhz(i, 1371 1.1 joff ic->ic_channels[i].ic_flags); 1372 1.1 joff } 1373 1.1 joff 1374 1.1 joff ic->ic_ibss_chan = &ic->ic_channels[0]; 1375 1.1 joff 1376 1.1 joff ifp->if_softc = sc; 1377 1.31 dyoung memcpy(ifp->if_xname, device_xname(sc->atu_dev), IFNAMSIZ); 1378 1.1 joff ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; 1379 1.1 joff ifp->if_init = atu_init; 1380 1.1 joff ifp->if_stop = atu_stop; 1381 1.1 joff ifp->if_start = atu_start; 1382 1.1 joff ifp->if_ioctl = atu_ioctl; 1383 1.1 joff ifp->if_watchdog = atu_watchdog; 1384 1.1 joff ifp->if_mtu = ATU_DEFAULT_MTU; 1385 1.1 joff IFQ_SET_READY(&ifp->if_snd); 1386 1.1 joff 1387 1.1 joff /* Call MI attach routine. */ 1388 1.1 joff if_attach(ifp); 1389 1.12 dyoung ieee80211_ifattach(ic); 1390 1.1 joff 1391 1.1 joff sc->sc_newstate = ic->ic_newstate; 1392 1.1 joff ic->ic_newstate = atu_newstate; 1393 1.1 joff 1394 1.1 joff /* setup ifmedia interface */ 1395 1.12 dyoung ieee80211_media_init(ic, atu_media_change, atu_media_status); 1396 1.1 joff 1397 1.1 joff usb_init_task(&sc->sc_task, atu_task, sc); 1398 1.1 joff 1399 1.1 joff sc->sc_state = ATU_S_OK; 1400 1.1 joff } 1401 1.1 joff 1402 1.31 dyoung int 1403 1.31 dyoung atu_detach(device_t self, int flags) 1404 1.1 joff { 1405 1.32 dyoung struct atu_softc *sc = device_private(self); 1406 1.12 dyoung struct ifnet *ifp = &sc->sc_if; 1407 1.1 joff 1408 1.1 joff DPRINTFN(10, ("%s: atu_detach state=%d\n", USBDEVNAME(sc->atu_dev), 1409 1.1 joff sc->sc_state)); 1410 1.1 joff 1411 1.1 joff if (sc->sc_state != ATU_S_UNCONFIG) { 1412 1.1 joff atu_stop(ifp, 1); 1413 1.1 joff 1414 1.12 dyoung ieee80211_ifdetach(&sc->sc_ic); 1415 1.1 joff if_detach(ifp); 1416 1.1 joff } 1417 1.1 joff 1418 1.1 joff return(0); 1419 1.1 joff } 1420 1.1 joff 1421 1.1 joff int 1422 1.31 dyoung atu_activate(device_t self, enum devact act) 1423 1.1 joff { 1424 1.29 cube struct atu_softc *sc = device_private(self); 1425 1.1 joff 1426 1.1 joff switch (act) { 1427 1.1 joff case DVACT_DEACTIVATE: 1428 1.1 joff if (sc->sc_state != ATU_S_UNCONFIG) { 1429 1.1 joff if_deactivate(&sc->atu_ec.ec_if); 1430 1.1 joff sc->sc_state = ATU_S_DEAD; 1431 1.1 joff } 1432 1.34 dyoung return 0; 1433 1.34 dyoung default: 1434 1.34 dyoung return EOPNOTSUPP; 1435 1.1 joff } 1436 1.1 joff } 1437 1.1 joff 1438 1.1 joff /* 1439 1.1 joff * Initialize an RX descriptor and attach an MBUF cluster. 1440 1.1 joff */ 1441 1.1 joff int 1442 1.23 christos atu_newbuf(struct atu_softc *sc, struct atu_chain *c, struct mbuf *m) 1443 1.1 joff { 1444 1.1 joff struct mbuf *m_new = NULL; 1445 1.1 joff 1446 1.1 joff if (m == NULL) { 1447 1.1 joff MGETHDR(m_new, M_DONTWAIT, MT_DATA); 1448 1.1 joff if (m_new == NULL) { 1449 1.1 joff DPRINTF(("%s: no memory for rx list\n", 1450 1.1 joff USBDEVNAME(sc->atu_dev))); 1451 1.1 joff return(ENOBUFS); 1452 1.1 joff } 1453 1.1 joff 1454 1.1 joff MCLGET(m_new, M_DONTWAIT); 1455 1.1 joff if (!(m_new->m_flags & M_EXT)) { 1456 1.1 joff DPRINTF(("%s: no memory for rx list\n", 1457 1.1 joff USBDEVNAME(sc->atu_dev))); 1458 1.1 joff m_freem(m_new); 1459 1.1 joff return(ENOBUFS); 1460 1.1 joff } 1461 1.1 joff m_new->m_len = m_new->m_pkthdr.len = MCLBYTES; 1462 1.1 joff } else { 1463 1.1 joff m_new = m; 1464 1.1 joff m_new->m_len = m_new->m_pkthdr.len = MCLBYTES; 1465 1.1 joff m_new->m_data = m_new->m_ext.ext_buf; 1466 1.1 joff } 1467 1.1 joff c->atu_mbuf = m_new; 1468 1.1 joff return(0); 1469 1.1 joff } 1470 1.1 joff 1471 1.1 joff int 1472 1.1 joff atu_rx_list_init(struct atu_softc *sc) 1473 1.1 joff { 1474 1.1 joff struct atu_cdata *cd = &sc->atu_cdata; 1475 1.1 joff struct atu_chain *c; 1476 1.1 joff int i; 1477 1.1 joff 1478 1.1 joff DPRINTFN(15, ("%s: atu_rx_list_init: enter\n", 1479 1.1 joff USBDEVNAME(sc->atu_dev))); 1480 1.1 joff 1481 1.1 joff for (i = 0; i < ATU_RX_LIST_CNT; i++) { 1482 1.1 joff c = &cd->atu_rx_chain[i]; 1483 1.1 joff c->atu_sc = sc; 1484 1.1 joff c->atu_idx = i; 1485 1.1 joff if (c->atu_xfer == NULL) { 1486 1.1 joff c->atu_xfer = usbd_alloc_xfer(sc->atu_udev); 1487 1.1 joff if (c->atu_xfer == NULL) 1488 1.1 joff return (ENOBUFS); 1489 1.1 joff c->atu_buf = usbd_alloc_buffer(c->atu_xfer, 1490 1.1 joff ATU_RX_BUFSZ); 1491 1.1 joff if (c->atu_buf == NULL) /* XXX free xfer */ 1492 1.1 joff return (ENOBUFS); 1493 1.1 joff if (atu_newbuf(sc, c, NULL) == ENOBUFS) /* XXX free? */ 1494 1.1 joff return(ENOBUFS); 1495 1.1 joff } 1496 1.1 joff } 1497 1.1 joff return (0); 1498 1.1 joff } 1499 1.1 joff 1500 1.1 joff int 1501 1.1 joff atu_tx_list_init(struct atu_softc *sc) 1502 1.1 joff { 1503 1.1 joff struct atu_cdata *cd = &sc->atu_cdata; 1504 1.1 joff struct atu_chain *c; 1505 1.1 joff int i; 1506 1.1 joff 1507 1.1 joff DPRINTFN(15, ("%s: atu_tx_list_init\n", 1508 1.1 joff USBDEVNAME(sc->atu_dev))); 1509 1.1 joff 1510 1.1 joff SLIST_INIT(&cd->atu_tx_free); 1511 1.1 joff sc->atu_cdata.atu_tx_inuse = 0; 1512 1.1 joff 1513 1.1 joff for (i = 0; i < ATU_TX_LIST_CNT; i++) { 1514 1.1 joff c = &cd->atu_tx_chain[i]; 1515 1.1 joff c->atu_sc = sc; 1516 1.1 joff c->atu_idx = i; 1517 1.1 joff if (c->atu_xfer == NULL) { 1518 1.1 joff c->atu_xfer = usbd_alloc_xfer(sc->atu_udev); 1519 1.1 joff if (c->atu_xfer == NULL) 1520 1.1 joff return(ENOBUFS); 1521 1.1 joff c->atu_mbuf = NULL; 1522 1.1 joff c->atu_buf = usbd_alloc_buffer(c->atu_xfer, 1523 1.1 joff ATU_TX_BUFSZ); 1524 1.1 joff if (c->atu_buf == NULL) 1525 1.1 joff return(ENOBUFS); /* XXX free xfer */ 1526 1.1 joff SLIST_INSERT_HEAD(&cd->atu_tx_free, c, atu_list); 1527 1.1 joff } 1528 1.1 joff } 1529 1.1 joff return(0); 1530 1.1 joff } 1531 1.1 joff 1532 1.1 joff void 1533 1.23 christos atu_xfer_list_free(struct atu_softc *sc, struct atu_chain *ch, 1534 1.1 joff int listlen) 1535 1.1 joff { 1536 1.1 joff int i; 1537 1.1 joff 1538 1.1 joff /* Free resources. */ 1539 1.1 joff for (i = 0; i < listlen; i++) { 1540 1.1 joff if (ch[i].atu_buf != NULL) 1541 1.1 joff ch[i].atu_buf = NULL; 1542 1.1 joff if (ch[i].atu_mbuf != NULL) { 1543 1.1 joff m_freem(ch[i].atu_mbuf); 1544 1.1 joff ch[i].atu_mbuf = NULL; 1545 1.1 joff } 1546 1.1 joff if (ch[i].atu_xfer != NULL) { 1547 1.1 joff usbd_free_xfer(ch[i].atu_xfer); 1548 1.1 joff ch[i].atu_xfer = NULL; 1549 1.1 joff } 1550 1.1 joff } 1551 1.1 joff } 1552 1.1 joff 1553 1.1 joff /* 1554 1.1 joff * A frame has been uploaded: pass the resulting mbuf chain up to 1555 1.1 joff * the higher level protocols. 1556 1.1 joff */ 1557 1.1 joff void 1558 1.1 joff atu_rxeof(usbd_xfer_handle xfer, usbd_private_handle priv, usbd_status status) 1559 1.1 joff { 1560 1.1 joff struct atu_chain *c = (struct atu_chain *)priv; 1561 1.1 joff struct atu_softc *sc = c->atu_sc; 1562 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 1563 1.12 dyoung struct ifnet *ifp = &sc->sc_if; 1564 1.1 joff struct atu_rx_hdr *h; 1565 1.12 dyoung struct ieee80211_frame_min *wh; 1566 1.1 joff struct ieee80211_node *ni; 1567 1.1 joff struct mbuf *m; 1568 1.1 joff u_int32_t len; 1569 1.1 joff int s; 1570 1.1 joff 1571 1.1 joff DPRINTFN(25, ("%s: atu_rxeof\n", USBDEVNAME(sc->atu_dev))); 1572 1.1 joff 1573 1.1 joff if (sc->sc_state != ATU_S_OK) 1574 1.1 joff return; 1575 1.1 joff 1576 1.1 joff if ((ifp->if_flags & (IFF_RUNNING|IFF_UP)) != (IFF_RUNNING|IFF_UP)) 1577 1.1 joff goto done; 1578 1.1 joff 1579 1.1 joff if (status != USBD_NORMAL_COMPLETION) { 1580 1.1 joff DPRINTF(("%s: status != USBD_NORMAL_COMPLETION\n", 1581 1.1 joff USBDEVNAME(sc->atu_dev))); 1582 1.1 joff if (status == USBD_NOT_STARTED || status == USBD_CANCELLED) { 1583 1.1 joff return; 1584 1.1 joff } 1585 1.1 joff #if 0 1586 1.1 joff if (status == USBD_IOERROR) { 1587 1.1 joff DPRINTF(("%s: rx: EEK! lost device?\n", 1588 1.1 joff USBDEVNAME(sc->atu_dev))); 1589 1.1 joff 1590 1.1 joff /* 1591 1.1 joff * My experience with USBD_IOERROR is that trying to 1592 1.1 joff * restart the transfer will always fail and we'll 1593 1.1 joff * keep on looping restarting transfers untill someone 1594 1.1 joff * pulls the plug of the device. 1595 1.1 joff * So we don't restart the transfer, but just let it 1596 1.1 joff * die... If someone knows of a situation where we can 1597 1.1 joff * recover from USBD_IOERROR, let me know. 1598 1.1 joff */ 1599 1.1 joff splx(s); 1600 1.1 joff return; 1601 1.1 joff } 1602 1.1 joff #endif /* 0 */ 1603 1.1 joff 1604 1.1 joff if (usbd_ratecheck(&sc->atu_rx_notice)) { 1605 1.1 joff DPRINTF(("%s: usb error on rx: %s\n", 1606 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(status))); 1607 1.1 joff } 1608 1.1 joff if (status == USBD_STALLED) 1609 1.13 augustss usbd_clear_endpoint_stall_async( 1610 1.1 joff sc->atu_ep[ATU_ENDPT_RX]); 1611 1.1 joff goto done; 1612 1.1 joff } 1613 1.1 joff 1614 1.1 joff usbd_get_xfer_status(xfer, NULL, NULL, &len, NULL); 1615 1.1 joff 1616 1.1 joff if (len <= 1) { 1617 1.1 joff DPRINTF(("%s: atu_rxeof: too short\n", 1618 1.1 joff USBDEVNAME(sc->atu_dev))); 1619 1.1 joff goto done; 1620 1.1 joff } 1621 1.1 joff 1622 1.1 joff h = (struct atu_rx_hdr *)c->atu_buf; 1623 1.1 joff len = UGETW(h->length) - 4; /* XXX magic number */ 1624 1.1 joff 1625 1.1 joff m = c->atu_mbuf; 1626 1.1 joff memcpy(mtod(m, char *), c->atu_buf + ATU_RX_HDRLEN, len); 1627 1.1 joff m->m_pkthdr.rcvif = ifp; 1628 1.1 joff m->m_pkthdr.len = m->m_len = len; 1629 1.1 joff 1630 1.12 dyoung wh = mtod(m, struct ieee80211_frame_min *); 1631 1.1 joff ni = ieee80211_find_rxnode(ic, wh); 1632 1.1 joff 1633 1.1 joff ifp->if_ipackets++; 1634 1.1 joff 1635 1.1 joff s = splnet(); 1636 1.1 joff 1637 1.1 joff if (atu_newbuf(sc, c, NULL) == ENOBUFS) { 1638 1.1 joff ifp->if_ierrors++; 1639 1.1 joff goto done1; /* XXX if we can't allocate, why restart it? */ 1640 1.1 joff } 1641 1.1 joff 1642 1.6 joff if (wh->i_fc[1] & IEEE80211_FC1_WEP) { 1643 1.6 joff /* 1644 1.6 joff * WEP is decrypted by hardware. Clear WEP bit 1645 1.6 joff * header for ieee80211_input(). 1646 1.6 joff */ 1647 1.6 joff wh->i_fc[1] &= ~IEEE80211_FC1_WEP; 1648 1.6 joff } 1649 1.1 joff 1650 1.12 dyoung ieee80211_input(ic, m, ni, h->rssi, UGETDW(h->rx_time)); 1651 1.1 joff 1652 1.12 dyoung ieee80211_free_node(ni); 1653 1.1 joff done1: 1654 1.1 joff splx(s); 1655 1.1 joff done: 1656 1.1 joff /* Setup new transfer. */ 1657 1.1 joff usbd_setup_xfer(c->atu_xfer, sc->atu_ep[ATU_ENDPT_RX], c, c->atu_buf, 1658 1.1 joff ATU_RX_BUFSZ, USBD_SHORT_XFER_OK | USBD_NO_COPY, USBD_NO_TIMEOUT, 1659 1.1 joff atu_rxeof); 1660 1.1 joff usbd_transfer(c->atu_xfer); 1661 1.1 joff } 1662 1.1 joff 1663 1.1 joff /* 1664 1.1 joff * A frame was downloaded to the chip. It's safe for us to clean up 1665 1.1 joff * the list buffers. 1666 1.1 joff */ 1667 1.1 joff void 1668 1.23 christos atu_txeof(usbd_xfer_handle xfer, usbd_private_handle priv, 1669 1.21 christos usbd_status status) 1670 1.1 joff { 1671 1.1 joff struct atu_chain *c = (struct atu_chain *)priv; 1672 1.1 joff struct atu_softc *sc = c->atu_sc; 1673 1.12 dyoung struct ifnet *ifp = &sc->sc_if; 1674 1.1 joff usbd_status err; 1675 1.1 joff int s; 1676 1.1 joff 1677 1.1 joff DPRINTFN(25, ("%s: atu_txeof status=%d\n", USBDEVNAME(sc->atu_dev), 1678 1.1 joff status)); 1679 1.1 joff 1680 1.6 joff if (c->atu_mbuf) { 1681 1.6 joff m_freem(c->atu_mbuf); 1682 1.6 joff c->atu_mbuf = NULL; 1683 1.6 joff } 1684 1.6 joff 1685 1.1 joff if (status != USBD_NORMAL_COMPLETION) { 1686 1.1 joff if (status == USBD_NOT_STARTED || status == USBD_CANCELLED) 1687 1.1 joff return; 1688 1.1 joff 1689 1.1 joff DPRINTF(("%s: usb error on tx: %s\n", USBDEVNAME(sc->atu_dev), 1690 1.1 joff usbd_errstr(status))); 1691 1.1 joff if (status == USBD_STALLED) 1692 1.13 augustss usbd_clear_endpoint_stall_async(sc->atu_ep[ATU_ENDPT_TX]); 1693 1.1 joff return; 1694 1.1 joff } 1695 1.1 joff 1696 1.1 joff usbd_get_xfer_status(c->atu_xfer, NULL, NULL, NULL, &err); 1697 1.1 joff 1698 1.1 joff if (err) 1699 1.1 joff ifp->if_oerrors++; 1700 1.1 joff else 1701 1.1 joff ifp->if_opackets++; 1702 1.1 joff 1703 1.1 joff s = splnet(); 1704 1.1 joff SLIST_INSERT_HEAD(&sc->atu_cdata.atu_tx_free, c, atu_list); 1705 1.1 joff sc->atu_cdata.atu_tx_inuse--; 1706 1.1 joff if (sc->atu_cdata.atu_tx_inuse == 0) 1707 1.1 joff ifp->if_timer = 0; 1708 1.1 joff ifp->if_flags &= ~IFF_OACTIVE; 1709 1.1 joff splx(s); 1710 1.1 joff 1711 1.1 joff atu_start(ifp); 1712 1.1 joff } 1713 1.1 joff 1714 1.1 joff u_int8_t 1715 1.1 joff atu_calculate_padding(int size) 1716 1.1 joff { 1717 1.1 joff size %= 64; 1718 1.1 joff 1719 1.1 joff if (size < 50) 1720 1.1 joff return (50 - size); 1721 1.1 joff if (size >=61) 1722 1.1 joff return (64 + 50 - size); 1723 1.1 joff return (0); 1724 1.1 joff } 1725 1.1 joff 1726 1.1 joff int 1727 1.23 christos atu_tx_start(struct atu_softc *sc, struct ieee80211_node *ni, 1728 1.1 joff struct atu_chain *c, struct mbuf *m) 1729 1.1 joff { 1730 1.1 joff int len; 1731 1.1 joff struct atu_tx_hdr *h; 1732 1.1 joff usbd_status err; 1733 1.1 joff u_int8_t pad; 1734 1.1 joff 1735 1.1 joff DPRINTFN(25, ("%s: atu_tx_start\n", USBDEVNAME(sc->atu_dev))); 1736 1.1 joff 1737 1.1 joff /* Don't try to send when we're shutting down the driver */ 1738 1.6 joff if (sc->sc_state != ATU_S_OK) { 1739 1.6 joff m_freem(m); 1740 1.1 joff return(EIO); 1741 1.6 joff } 1742 1.1 joff 1743 1.1 joff /* 1744 1.1 joff * Copy the mbuf data into a contiguous buffer, leaving 1745 1.1 joff * enough room for the atmel headers 1746 1.1 joff */ 1747 1.1 joff len = m->m_pkthdr.len; 1748 1.1 joff 1749 1.1 joff m_copydata(m, 0, m->m_pkthdr.len, c->atu_buf + ATU_TX_HDRLEN); 1750 1.1 joff 1751 1.1 joff h = (struct atu_tx_hdr *)c->atu_buf; 1752 1.1 joff memset(h, 0, ATU_TX_HDRLEN); 1753 1.1 joff USETW(h->length, len); 1754 1.1 joff h->tx_rate = 4; /* XXX rate = auto */ 1755 1.1 joff len += ATU_TX_HDRLEN; 1756 1.1 joff 1757 1.1 joff pad = atu_calculate_padding(len); 1758 1.1 joff len += pad; 1759 1.1 joff h->padding = pad; 1760 1.1 joff 1761 1.1 joff c->atu_length = len; 1762 1.1 joff c->atu_mbuf = m; 1763 1.1 joff 1764 1.1 joff usbd_setup_xfer(c->atu_xfer, sc->atu_ep[ATU_ENDPT_TX], 1765 1.1 joff c, c->atu_buf, c->atu_length, USBD_NO_COPY, ATU_TX_TIMEOUT, 1766 1.1 joff atu_txeof); 1767 1.1 joff 1768 1.1 joff /* Let's get this thing into the air! */ 1769 1.1 joff c->atu_in_xfer = 1; 1770 1.1 joff err = usbd_transfer(c->atu_xfer); 1771 1.1 joff if (err != USBD_IN_PROGRESS) { 1772 1.6 joff DPRINTFN(25, ("%s: atu_tx_start, err=%d", 1773 1.6 joff USBDEVNAME(sc->atu_dev), err)); 1774 1.6 joff c->atu_mbuf = NULL; 1775 1.6 joff m_freem(m); 1776 1.1 joff return(EIO); 1777 1.1 joff } 1778 1.1 joff 1779 1.1 joff return (0); 1780 1.1 joff } 1781 1.1 joff 1782 1.1 joff void 1783 1.1 joff atu_start(struct ifnet *ifp) 1784 1.1 joff { 1785 1.1 joff struct atu_softc *sc = ifp->if_softc; 1786 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 1787 1.1 joff struct atu_cdata *cd = &sc->atu_cdata; 1788 1.1 joff struct ieee80211_node *ni; 1789 1.1 joff struct atu_chain *c; 1790 1.1 joff struct mbuf *m = NULL; 1791 1.1 joff int s; 1792 1.1 joff 1793 1.1 joff DPRINTFN(25, ("%s: atu_start: enter\n", USBDEVNAME(sc->atu_dev))); 1794 1.1 joff 1795 1.3 joff if ((ifp->if_flags & IFF_RUNNING) == 0) { 1796 1.3 joff return; 1797 1.3 joff } 1798 1.1 joff if (ifp->if_flags & IFF_OACTIVE) { 1799 1.1 joff DPRINTFN(30, ("%s: atu_start: IFF_OACTIVE\n", 1800 1.1 joff USBDEVNAME(sc->atu_dev))); 1801 1.1 joff return; 1802 1.1 joff } 1803 1.1 joff 1804 1.1 joff for (;;) { 1805 1.1 joff /* grab a TX buffer */ 1806 1.1 joff s = splnet(); 1807 1.1 joff c = SLIST_FIRST(&cd->atu_tx_free); 1808 1.1 joff if (c != NULL) { 1809 1.1 joff SLIST_REMOVE_HEAD(&cd->atu_tx_free, atu_list); 1810 1.1 joff cd->atu_tx_inuse++; 1811 1.1 joff if (cd->atu_tx_inuse == ATU_TX_LIST_CNT) 1812 1.1 joff ifp->if_flags |= IFF_OACTIVE; 1813 1.1 joff } 1814 1.1 joff splx(s); 1815 1.1 joff if (c == NULL) { 1816 1.1 joff DPRINTFN(10, ("%s: out of tx xfers\n", 1817 1.1 joff USBDEVNAME(sc->atu_dev))); 1818 1.1 joff ifp->if_flags |= IFF_OACTIVE; 1819 1.1 joff break; 1820 1.1 joff } 1821 1.1 joff 1822 1.1 joff /* 1823 1.1 joff * Poll the management queue for frames, it has priority over 1824 1.1 joff * normal data frames. 1825 1.1 joff */ 1826 1.1 joff IF_DEQUEUE(&ic->ic_mgtq, m); 1827 1.1 joff if (m == NULL) { 1828 1.1 joff DPRINTFN(10, ("%s: atu_start: data packet\n", 1829 1.1 joff USBDEVNAME(sc->atu_dev))); 1830 1.1 joff if (ic->ic_state != IEEE80211_S_RUN) { 1831 1.1 joff DPRINTFN(25, ("%s: no data till running\n", 1832 1.1 joff USBDEVNAME(sc->atu_dev))); 1833 1.1 joff /* put the xfer back on the list */ 1834 1.1 joff s = splnet(); 1835 1.1 joff SLIST_INSERT_HEAD(&cd->atu_tx_free, c, 1836 1.1 joff atu_list); 1837 1.1 joff cd->atu_tx_inuse--; 1838 1.1 joff splx(s); 1839 1.1 joff break; 1840 1.1 joff } 1841 1.1 joff 1842 1.3 joff IFQ_DEQUEUE(&ifp->if_snd, m); 1843 1.1 joff if (m == NULL) { 1844 1.1 joff DPRINTFN(25, ("%s: nothing to send\n", 1845 1.1 joff USBDEVNAME(sc->atu_dev))); 1846 1.1 joff s = splnet(); 1847 1.1 joff SLIST_INSERT_HEAD(&cd->atu_tx_free, c, 1848 1.1 joff atu_list); 1849 1.1 joff cd->atu_tx_inuse--; 1850 1.1 joff splx(s); 1851 1.1 joff break; 1852 1.1 joff } 1853 1.35.2.1 uebayasi bpf_mtap(ifp, m); 1854 1.12 dyoung ni = ieee80211_find_txnode(ic, 1855 1.12 dyoung mtod(m, struct ether_header *)->ether_dhost); 1856 1.12 dyoung if (ni == NULL) { 1857 1.12 dyoung m_freem(m); 1858 1.12 dyoung goto bad; 1859 1.12 dyoung } 1860 1.12 dyoung m = ieee80211_encap(ic, m, ni); 1861 1.1 joff if (m == NULL) 1862 1.1 joff goto bad; 1863 1.1 joff } else { 1864 1.1 joff DPRINTFN(25, ("%s: atu_start: mgmt packet\n", 1865 1.1 joff USBDEVNAME(sc->atu_dev))); 1866 1.1 joff 1867 1.1 joff /* 1868 1.1 joff * Hack! The referenced node pointer is in the 1869 1.1 joff * rcvif field of the packet header. This is 1870 1.1 joff * placed there by ieee80211_mgmt_output because 1871 1.1 joff * we need to hold the reference with the frame 1872 1.1 joff * and there's no other way (other than packet 1873 1.1 joff * tags which we consider too expensive to use) 1874 1.1 joff * to pass it along. 1875 1.1 joff */ 1876 1.1 joff ni = (struct ieee80211_node *)m->m_pkthdr.rcvif; 1877 1.1 joff m->m_pkthdr.rcvif = NULL; 1878 1.1 joff 1879 1.1 joff /* sc->sc_stats.ast_tx_mgmt++; */ 1880 1.1 joff } 1881 1.1 joff 1882 1.35.2.1 uebayasi bpf_mtap3(ic->ic_rawbpf, m); 1883 1.6 joff 1884 1.1 joff if (atu_tx_start(sc, ni, c, m)) { 1885 1.1 joff bad: 1886 1.1 joff s = splnet(); 1887 1.1 joff SLIST_INSERT_HEAD(&cd->atu_tx_free, c, 1888 1.1 joff atu_list); 1889 1.1 joff cd->atu_tx_inuse--; 1890 1.1 joff splx(s); 1891 1.1 joff /* ifp_if_oerrors++; */ 1892 1.3 joff if (ni != NULL) 1893 1.12 dyoung ieee80211_free_node(ni); 1894 1.1 joff continue; 1895 1.1 joff } 1896 1.1 joff ifp->if_timer = 5; 1897 1.1 joff } 1898 1.1 joff } 1899 1.1 joff 1900 1.1 joff int 1901 1.1 joff atu_init(struct ifnet *ifp) 1902 1.1 joff { 1903 1.1 joff struct atu_softc *sc = ifp->if_softc; 1904 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 1905 1.1 joff struct atu_chain *c; 1906 1.1 joff usbd_status err; 1907 1.1 joff int i, s; 1908 1.1 joff 1909 1.1 joff s = splnet(); 1910 1.1 joff 1911 1.1 joff DPRINTFN(10, ("%s: atu_init\n", USBDEVNAME(sc->atu_dev))); 1912 1.1 joff 1913 1.1 joff if (ifp->if_flags & IFF_RUNNING) { 1914 1.1 joff splx(s); 1915 1.1 joff return(0); 1916 1.1 joff } 1917 1.1 joff 1918 1.1 joff /* Init TX ring */ 1919 1.1 joff if (atu_tx_list_init(sc)) 1920 1.32 dyoung printf("%s: tx list init failed\n", device_xname(sc->atu_dev)); 1921 1.1 joff 1922 1.1 joff /* Init RX ring */ 1923 1.1 joff if (atu_rx_list_init(sc)) 1924 1.32 dyoung printf("%s: rx list init failed\n", device_xname(sc->atu_dev)); 1925 1.1 joff 1926 1.1 joff /* Load the multicast filter. */ 1927 1.1 joff /*atu_setmulti(sc); */ 1928 1.1 joff 1929 1.1 joff /* Open RX and TX pipes. */ 1930 1.1 joff err = usbd_open_pipe(sc->atu_iface, sc->atu_ed[ATU_ENDPT_RX], 1931 1.1 joff USBD_EXCLUSIVE_USE, &sc->atu_ep[ATU_ENDPT_RX]); 1932 1.1 joff if (err) { 1933 1.1 joff DPRINTF(("%s: open rx pipe failed: %s\n", 1934 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(err))); 1935 1.1 joff splx(s); 1936 1.1 joff return(EIO); 1937 1.1 joff } 1938 1.1 joff 1939 1.1 joff err = usbd_open_pipe(sc->atu_iface, sc->atu_ed[ATU_ENDPT_TX], 1940 1.1 joff USBD_EXCLUSIVE_USE, &sc->atu_ep[ATU_ENDPT_TX]); 1941 1.1 joff if (err) { 1942 1.1 joff DPRINTF(("%s: open tx pipe failed: %s\n", 1943 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(err))); 1944 1.1 joff splx(s); 1945 1.1 joff return(EIO); 1946 1.1 joff } 1947 1.1 joff 1948 1.1 joff /* Start up the receive pipe. */ 1949 1.1 joff for (i = 0; i < ATU_RX_LIST_CNT; i++) { 1950 1.1 joff c = &sc->atu_cdata.atu_rx_chain[i]; 1951 1.1 joff 1952 1.1 joff usbd_setup_xfer(c->atu_xfer, sc->atu_ep[ATU_ENDPT_RX], c, 1953 1.1 joff c->atu_buf, ATU_RX_BUFSZ, USBD_SHORT_XFER_OK | USBD_NO_COPY, 1954 1.1 joff USBD_NO_TIMEOUT, atu_rxeof); 1955 1.1 joff usbd_transfer(c->atu_xfer); 1956 1.1 joff } 1957 1.1 joff 1958 1.1 joff DPRINTFN(10, ("%s: starting up using MAC=%s\n", 1959 1.1 joff USBDEVNAME(sc->atu_dev), ether_sprintf(ic->ic_myaddr))); 1960 1.1 joff 1961 1.1 joff /* Do initial setup */ 1962 1.1 joff err = atu_initial_config(sc); 1963 1.1 joff if (err) { 1964 1.1 joff DPRINTF(("%s: initial config failed!\n", 1965 1.1 joff USBDEVNAME(sc->atu_dev))); 1966 1.1 joff splx(s); 1967 1.1 joff return(EIO); 1968 1.1 joff } 1969 1.1 joff DPRINTFN(10, ("%s: initialised transceiver\n", 1970 1.1 joff USBDEVNAME(sc->atu_dev))); 1971 1.1 joff 1972 1.1 joff /* sc->atu_rxfilt = ATU_RXFILT_UNICAST|ATU_RXFILT_BROADCAST; */ 1973 1.1 joff 1974 1.1 joff /* If we want promiscuous mode, set the allframes bit. */ 1975 1.1 joff /* 1976 1.1 joff if (ifp->if_flags & IFF_PROMISC) 1977 1.1 joff sc->atu_rxfilt |= ATU_RXFILT_PROMISC; 1978 1.1 joff */ 1979 1.1 joff 1980 1.1 joff ifp->if_flags |= IFF_RUNNING; 1981 1.1 joff ifp->if_flags &= ~IFF_OACTIVE; 1982 1.1 joff splx(s); 1983 1.1 joff 1984 1.1 joff /* XXX the following HAS to be replaced */ 1985 1.1 joff s = splnet(); 1986 1.1 joff err = ieee80211_new_state(ic, IEEE80211_S_SCAN, -1); 1987 1.20 christos if (err) { 1988 1.1 joff DPRINTFN(1, ("%s: atu_init: error calling " 1989 1.1 joff "ieee80211_net_state", USBDEVNAME(sc->atu_dev))); 1990 1.20 christos } 1991 1.1 joff splx(s); 1992 1.1 joff 1993 1.1 joff return 0; 1994 1.1 joff } 1995 1.1 joff 1996 1.1 joff #ifdef ATU_DEBUG 1997 1.1 joff void 1998 1.1 joff atu_debug_print(struct atu_softc *sc) 1999 1.1 joff { 2000 1.1 joff usbd_status err; 2001 1.1 joff u_int8_t tmp[32]; 2002 1.1 joff 2003 1.1 joff /* DEBUG */ 2004 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_MGMT__CURRENT_BSSID, tmp))) 2005 1.1 joff return; 2006 1.1 joff DPRINTF(("%s: DEBUG: current BSSID=%s\n", USBDEVNAME(sc->atu_dev), 2007 1.1 joff ether_sprintf(tmp))); 2008 1.1 joff 2009 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_MGMT__BEACON_PERIOD, tmp))) 2010 1.1 joff return; 2011 1.1 joff DPRINTF(("%s: DEBUG: beacon period=%d\n", USBDEVNAME(sc->atu_dev), 2012 1.1 joff tmp[0])); 2013 1.1 joff 2014 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_WEP__PRIVACY_INVOKED, tmp))) 2015 1.1 joff return; 2016 1.1 joff DPRINTF(("%s: DEBUG: privacy invoked=%d\n", USBDEVNAME(sc->atu_dev), 2017 1.1 joff tmp[0])); 2018 1.1 joff 2019 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_WEP__ENCR_LEVEL, tmp))) 2020 1.1 joff return; 2021 1.1 joff DPRINTF(("%s: DEBUG: encr_level=%d\n", USBDEVNAME(sc->atu_dev), 2022 1.1 joff tmp[0])); 2023 1.1 joff 2024 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_WEP__ICV_ERROR_COUNT, tmp))) 2025 1.1 joff return; 2026 1.1 joff DPRINTF(("%s: DEBUG: icv error count=%d\n", USBDEVNAME(sc->atu_dev), 2027 1.1 joff *(short *)tmp)); 2028 1.1 joff 2029 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_WEP__EXCLUDED_COUNT, tmp))) 2030 1.1 joff return; 2031 1.1 joff DPRINTF(("%s: DEBUG: wep excluded count=%d\n", 2032 1.1 joff USBDEVNAME(sc->atu_dev), *(short *)tmp)); 2033 1.1 joff 2034 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_MGMT__POWER_MODE, tmp))) 2035 1.1 joff return; 2036 1.1 joff DPRINTF(("%s: DEBUG: power mode=%d\n", USBDEVNAME(sc->atu_dev), 2037 1.1 joff tmp[0])); 2038 1.1 joff 2039 1.1 joff if ((err = atu_get_mib(sc, MIB_PHY__CHANNEL, tmp))) 2040 1.1 joff return; 2041 1.1 joff DPRINTF(("%s: DEBUG: channel=%d\n", USBDEVNAME(sc->atu_dev), tmp[0])); 2042 1.1 joff 2043 1.1 joff if ((err = atu_get_mib(sc, MIB_PHY__REG_DOMAIN, tmp))) 2044 1.1 joff return; 2045 1.1 joff DPRINTF(("%s: DEBUG: reg domain=%d\n", USBDEVNAME(sc->atu_dev), 2046 1.1 joff tmp[0])); 2047 1.1 joff 2048 1.1 joff if ((err = atu_get_mib(sc, MIB_LOCAL__SSID_SIZE, tmp))) 2049 1.1 joff return; 2050 1.1 joff DPRINTF(("%s: DEBUG: ssid size=%d\n", USBDEVNAME(sc->atu_dev), 2051 1.1 joff tmp[0])); 2052 1.1 joff 2053 1.1 joff if ((err = atu_get_mib(sc, MIB_LOCAL__BEACON_ENABLE, tmp))) 2054 1.1 joff return; 2055 1.1 joff DPRINTF(("%s: DEBUG: beacon enable=%d\n", USBDEVNAME(sc->atu_dev), 2056 1.1 joff tmp[0])); 2057 1.1 joff 2058 1.1 joff if ((err = atu_get_mib(sc, MIB_LOCAL__AUTO_RATE_FALLBACK, tmp))) 2059 1.1 joff return; 2060 1.1 joff DPRINTF(("%s: DEBUG: auto rate fallback=%d\n", 2061 1.1 joff USBDEVNAME(sc->atu_dev), tmp[0])); 2062 1.1 joff 2063 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_ADDR__ADDR, tmp))) 2064 1.1 joff return; 2065 1.1 joff DPRINTF(("%s: DEBUG: mac addr=%s\n", USBDEVNAME(sc->atu_dev), 2066 1.1 joff ether_sprintf(tmp))); 2067 1.1 joff 2068 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC__DESIRED_SSID, tmp))) 2069 1.1 joff return; 2070 1.1 joff DPRINTF(("%s: DEBUG: desired ssid=%s\n", USBDEVNAME(sc->atu_dev), 2071 1.1 joff tmp)); 2072 1.1 joff 2073 1.1 joff if ((err = atu_get_mib(sc, MIB_MAC_MGMT__CURRENT_ESSID, tmp))) 2074 1.1 joff return; 2075 1.1 joff DPRINTF(("%s: DEBUG: current ESSID=%s\n", USBDEVNAME(sc->atu_dev), 2076 1.1 joff tmp)); 2077 1.1 joff } 2078 1.1 joff #endif /* ATU_DEBUG */ 2079 1.1 joff 2080 1.1 joff int 2081 1.25 christos atu_ioctl(struct ifnet *ifp, u_long command, void *data) 2082 1.1 joff { 2083 1.1 joff struct atu_softc *sc = ifp->if_softc; 2084 1.1 joff struct ifreq *ifr = (struct ifreq *)data; 2085 1.1 joff struct ieee80211com *ic = &sc->sc_ic; 2086 1.1 joff int err = 0, s; 2087 1.1 joff 2088 1.1 joff s = splnet(); 2089 1.1 joff switch (command) { 2090 1.1 joff case SIOCSIFMEDIA: 2091 1.1 joff case SIOCGIFMEDIA: 2092 1.1 joff err = ifmedia_ioctl(ifp, ifr, &ic->ic_media, command); 2093 1.1 joff break; 2094 1.1 joff 2095 1.1 joff default: 2096 1.1 joff DPRINTFN(15, ("%s: ieee80211_ioctl (%lu)\n", 2097 1.1 joff USBDEVNAME(sc->atu_dev), command)); 2098 1.12 dyoung err = ieee80211_ioctl(ic, command, data); 2099 1.1 joff break; 2100 1.1 joff } 2101 1.1 joff 2102 1.1 joff if (err == ENETRESET) { 2103 1.1 joff if ((ifp->if_flags & (IFF_RUNNING|IFF_UP)) == 2104 1.1 joff (IFF_RUNNING|IFF_UP)) { 2105 1.6 joff DPRINTF(("%s: atu_ioctl(): netreset %lu\n", 2106 1.6 joff USBDEVNAME(sc->atu_dev), command)); 2107 1.6 joff ieee80211_new_state(ic, IEEE80211_S_INIT, -1); 2108 1.6 joff atu_initial_config(sc); 2109 1.6 joff ieee80211_new_state(ic, IEEE80211_S_SCAN, -1); 2110 1.1 joff } 2111 1.1 joff err = 0; 2112 1.1 joff } 2113 1.1 joff 2114 1.1 joff splx(s); 2115 1.1 joff return (err); 2116 1.1 joff } 2117 1.1 joff 2118 1.1 joff void 2119 1.1 joff atu_watchdog(struct ifnet *ifp) 2120 1.1 joff { 2121 1.1 joff struct atu_softc *sc = ifp->if_softc; 2122 1.1 joff struct atu_chain *c; 2123 1.1 joff usbd_status stat; 2124 1.1 joff int cnt, s; 2125 1.1 joff 2126 1.1 joff DPRINTF(("%s: atu_watchdog\n", USBDEVNAME(sc->atu_dev))); 2127 1.1 joff 2128 1.1 joff ifp->if_timer = 0; 2129 1.1 joff 2130 1.3 joff if (sc->sc_state != ATU_S_OK || (ifp->if_flags & IFF_RUNNING) == 0) 2131 1.1 joff return; 2132 1.1 joff 2133 1.1 joff sc = ifp->if_softc; 2134 1.1 joff s = splnet(); 2135 1.1 joff ifp->if_oerrors++; 2136 1.1 joff DPRINTF(("%s: watchdog timeout\n", USBDEVNAME(sc->atu_dev))); 2137 1.1 joff 2138 1.1 joff /* 2139 1.1 joff * TODO: 2140 1.1 joff * we should change this since we have multiple TX tranfers... 2141 1.1 joff */ 2142 1.1 joff for (cnt = 0; cnt < ATU_TX_LIST_CNT; cnt++) { 2143 1.1 joff c = &sc->atu_cdata.atu_tx_chain[cnt]; 2144 1.1 joff if (c->atu_in_xfer) { 2145 1.1 joff usbd_get_xfer_status(c->atu_xfer, NULL, NULL, NULL, 2146 1.1 joff &stat); 2147 1.1 joff atu_txeof(c->atu_xfer, c, stat); 2148 1.1 joff } 2149 1.1 joff } 2150 1.1 joff 2151 1.6 joff if (!IFQ_IS_EMPTY(&ifp->if_snd)) 2152 1.1 joff atu_start(ifp); 2153 1.1 joff splx(s); 2154 1.1 joff 2155 1.12 dyoung ieee80211_watchdog(&sc->sc_ic); 2156 1.1 joff } 2157 1.1 joff 2158 1.1 joff /* 2159 1.1 joff * Stop the adapter and free any mbufs allocated to the 2160 1.1 joff * RX and TX lists. 2161 1.1 joff */ 2162 1.1 joff void 2163 1.23 christos atu_stop(struct ifnet *ifp, int disable) 2164 1.1 joff { 2165 1.1 joff struct atu_softc *sc = ifp->if_softc; 2166 1.6 joff struct ieee80211com *ic = &sc->sc_ic; 2167 1.1 joff struct atu_cdata *cd; 2168 1.1 joff usbd_status err; 2169 1.1 joff int s; 2170 1.1 joff 2171 1.1 joff s = splnet(); 2172 1.4 joff ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE); 2173 1.1 joff ifp->if_timer = 0; 2174 1.1 joff 2175 1.6 joff usb_rem_task(sc->atu_udev, &sc->sc_task); 2176 1.6 joff ieee80211_new_state(ic, IEEE80211_S_INIT, -1); 2177 1.6 joff 2178 1.1 joff /* Stop transfers. */ 2179 1.1 joff if (sc->atu_ep[ATU_ENDPT_RX] != NULL) { 2180 1.1 joff err = usbd_abort_pipe(sc->atu_ep[ATU_ENDPT_RX]); 2181 1.1 joff if (err) { 2182 1.1 joff DPRINTF(("%s: abort rx pipe failed: %s\n", 2183 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(err))); 2184 1.1 joff } 2185 1.1 joff err = usbd_close_pipe(sc->atu_ep[ATU_ENDPT_RX]); 2186 1.1 joff if (err) { 2187 1.1 joff DPRINTF(("%s: close rx pipe failed: %s\n", 2188 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(err))); 2189 1.1 joff } 2190 1.1 joff sc->atu_ep[ATU_ENDPT_RX] = NULL; 2191 1.1 joff } 2192 1.1 joff 2193 1.1 joff if (sc->atu_ep[ATU_ENDPT_TX] != NULL) { 2194 1.1 joff err = usbd_abort_pipe(sc->atu_ep[ATU_ENDPT_TX]); 2195 1.1 joff if (err) { 2196 1.1 joff DPRINTF(("%s: abort tx pipe failed: %s\n", 2197 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(err))); 2198 1.1 joff } 2199 1.1 joff err = usbd_close_pipe(sc->atu_ep[ATU_ENDPT_TX]); 2200 1.1 joff if (err) { 2201 1.1 joff DPRINTF(("%s: close tx pipe failed: %s\n", 2202 1.1 joff USBDEVNAME(sc->atu_dev), usbd_errstr(err))); 2203 1.1 joff } 2204 1.1 joff sc->atu_ep[ATU_ENDPT_TX] = NULL; 2205 1.1 joff } 2206 1.1 joff 2207 1.1 joff /* Free RX/TX/MGMT list resources. */ 2208 1.1 joff cd = &sc->atu_cdata; 2209 1.1 joff atu_xfer_list_free(sc, cd->atu_rx_chain, ATU_RX_LIST_CNT); 2210 1.1 joff atu_xfer_list_free(sc, cd->atu_tx_chain, ATU_TX_LIST_CNT); 2211 1.1 joff 2212 1.1 joff /* Let's be nice and turn off the radio before we leave */ 2213 1.1 joff atu_switch_radio(sc, 0); 2214 1.1 joff 2215 1.1 joff splx(s); 2216 1.1 joff } 2217
Indexes created Wed Oct 15 16:09:53 GMT 2025