umidi.c revision 1.24.4.1
1 1.24.4.1 rpaulo /* $NetBSD: umidi.c,v 1.24.4.1 2006/09/09 02:55:33 rpaulo Exp $ */ 2 1.1 tshiozak /* 3 1.1 tshiozak * Copyright (c) 2001 The NetBSD Foundation, Inc. 4 1.1 tshiozak * All rights reserved. 5 1.1 tshiozak * 6 1.1 tshiozak * This code is derived from software contributed to The NetBSD Foundation 7 1.24.4.1 rpaulo * by Takuya SHIOZAKI (tshiozak (at) NetBSD.org) and (full-size transfers, extended 8 1.24.4.1 rpaulo * hw_if) Chapman Flack (chap (at) NetBSD.org). 9 1.1 tshiozak * 10 1.1 tshiozak * Redistribution and use in source and binary forms, with or without 11 1.1 tshiozak * modification, are permitted provided that the following conditions 12 1.1 tshiozak * are met: 13 1.1 tshiozak * 1. Redistributions of source code must retain the above copyright 14 1.1 tshiozak * notice, this list of conditions and the following disclaimer. 15 1.1 tshiozak * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 tshiozak * notice, this list of conditions and the following disclaimer in the 17 1.1 tshiozak * documentation and/or other materials provided with the distribution. 18 1.1 tshiozak * 3. All advertising materials mentioning features or use of this software 19 1.1 tshiozak * must display the following acknowledgement: 20 1.1 tshiozak * This product includes software developed by the NetBSD 21 1.1 tshiozak * Foundation, Inc. and its contributors. 22 1.1 tshiozak * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.1 tshiozak * contributors may be used to endorse or promote products derived 24 1.1 tshiozak * from this software without specific prior written permission. 25 1.1 tshiozak * 26 1.1 tshiozak * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.1 tshiozak * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.1 tshiozak * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.1 tshiozak * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.1 tshiozak * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.1 tshiozak * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.1 tshiozak * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.1 tshiozak * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.1 tshiozak * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.1 tshiozak * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.1 tshiozak * POSSIBILITY OF SUCH DAMAGE. 37 1.1 tshiozak */ 38 1.10 lukem 39 1.10 lukem #include <sys/cdefs.h> 40 1.24.4.1 rpaulo __KERNEL_RCSID(0, "$NetBSD: umidi.c,v 1.24.4.1 2006/09/09 02:55:33 rpaulo Exp $"); 41 1.1 tshiozak 42 1.24.4.1 rpaulo #include <sys/types.h> 43 1.1 tshiozak #include <sys/param.h> 44 1.1 tshiozak #include <sys/systm.h> 45 1.1 tshiozak #include <sys/kernel.h> 46 1.1 tshiozak #include <sys/malloc.h> 47 1.1 tshiozak #include <sys/device.h> 48 1.1 tshiozak #include <sys/ioctl.h> 49 1.1 tshiozak #include <sys/conf.h> 50 1.1 tshiozak #include <sys/file.h> 51 1.1 tshiozak #include <sys/select.h> 52 1.1 tshiozak #include <sys/proc.h> 53 1.1 tshiozak #include <sys/vnode.h> 54 1.1 tshiozak #include <sys/poll.h> 55 1.1 tshiozak #include <sys/lock.h> 56 1.1 tshiozak 57 1.24.4.1 rpaulo #ifdef __HAVE_GENERIC_SOFT_INTERRUPTS 58 1.24.4.1 rpaulo #include <machine/intr.h> 59 1.24.4.1 rpaulo #endif 60 1.24.4.1 rpaulo 61 1.1 tshiozak #include <dev/usb/usb.h> 62 1.1 tshiozak #include <dev/usb/usbdi.h> 63 1.1 tshiozak #include <dev/usb/usbdi_util.h> 64 1.1 tshiozak 65 1.1 tshiozak #include <dev/usb/usbdevs.h> 66 1.1 tshiozak #include <dev/usb/uaudioreg.h> 67 1.1 tshiozak #include <dev/usb/umidireg.h> 68 1.1 tshiozak #include <dev/usb/umidivar.h> 69 1.1 tshiozak #include <dev/usb/umidi_quirks.h> 70 1.1 tshiozak 71 1.1 tshiozak #include <dev/midi_if.h> 72 1.1 tshiozak 73 1.1 tshiozak #ifdef UMIDI_DEBUG 74 1.1 tshiozak #define DPRINTF(x) if (umididebug) printf x 75 1.1 tshiozak #define DPRINTFN(n,x) if (umididebug >= (n)) printf x 76 1.24.4.1 rpaulo #include <sys/time.h> 77 1.24.4.1 rpaulo static struct timeval umidi_tv; 78 1.1 tshiozak int umididebug = 0; 79 1.1 tshiozak #else 80 1.1 tshiozak #define DPRINTF(x) 81 1.1 tshiozak #define DPRINTFN(n,x) 82 1.1 tshiozak #endif 83 1.1 tshiozak 84 1.1 tshiozak 85 1.1 tshiozak static int umidi_open(void *, int, 86 1.1 tshiozak void (*)(void *, int), void (*)(void *), void *); 87 1.1 tshiozak static void umidi_close(void *); 88 1.24.4.1 rpaulo static int umidi_channelmsg(void *, int, int, u_char *, int); 89 1.24.4.1 rpaulo static int umidi_commonmsg(void *, int, u_char *, int); 90 1.24.4.1 rpaulo static int umidi_sysex(void *, u_char *, int); 91 1.24.4.1 rpaulo static int umidi_rtmsg(void *, int); 92 1.1 tshiozak static void umidi_getinfo(void *, struct midi_info *); 93 1.1 tshiozak 94 1.3 tshiozak static usbd_status alloc_pipe(struct umidi_endpoint *); 95 1.3 tshiozak static void free_pipe(struct umidi_endpoint *); 96 1.1 tshiozak 97 1.1 tshiozak static usbd_status alloc_all_endpoints(struct umidi_softc *); 98 1.1 tshiozak static void free_all_endpoints(struct umidi_softc *); 99 1.1 tshiozak 100 1.1 tshiozak static usbd_status alloc_all_jacks(struct umidi_softc *); 101 1.1 tshiozak static void free_all_jacks(struct umidi_softc *); 102 1.1 tshiozak static usbd_status bind_jacks_to_mididev(struct umidi_softc *, 103 1.1 tshiozak struct umidi_jack *, 104 1.1 tshiozak struct umidi_jack *, 105 1.1 tshiozak struct umidi_mididev *); 106 1.4 tshiozak static void unbind_jacks_from_mididev(struct umidi_mididev *); 107 1.4 tshiozak static void unbind_all_jacks(struct umidi_softc *); 108 1.1 tshiozak static usbd_status assign_all_jacks_automatically(struct umidi_softc *); 109 1.4 tshiozak static usbd_status open_out_jack(struct umidi_jack *, void *, 110 1.4 tshiozak void (*)(void *)); 111 1.4 tshiozak static usbd_status open_in_jack(struct umidi_jack *, void *, 112 1.4 tshiozak void (*)(void *, int)); 113 1.4 tshiozak static void close_out_jack(struct umidi_jack *); 114 1.4 tshiozak static void close_in_jack(struct umidi_jack *); 115 1.1 tshiozak 116 1.24.4.1 rpaulo static usbd_status attach_mididev(struct umidi_softc *, struct umidi_mididev *); 117 1.1 tshiozak static usbd_status detach_mididev(struct umidi_mididev *, int); 118 1.1 tshiozak static usbd_status deactivate_mididev(struct umidi_mididev *); 119 1.1 tshiozak static usbd_status alloc_all_mididevs(struct umidi_softc *, int); 120 1.1 tshiozak static void free_all_mididevs(struct umidi_softc *); 121 1.1 tshiozak static usbd_status attach_all_mididevs(struct umidi_softc *); 122 1.1 tshiozak static usbd_status detach_all_mididevs(struct umidi_softc *, int); 123 1.1 tshiozak static usbd_status deactivate_all_mididevs(struct umidi_softc *); 124 1.24.4.1 rpaulo static char *describe_mididev(struct umidi_mididev *); 125 1.1 tshiozak 126 1.1 tshiozak #ifdef UMIDI_DEBUG 127 1.1 tshiozak static void dump_sc(struct umidi_softc *); 128 1.1 tshiozak static void dump_ep(struct umidi_endpoint *); 129 1.1 tshiozak static void dump_jack(struct umidi_jack *); 130 1.1 tshiozak #endif 131 1.1 tshiozak 132 1.1 tshiozak static usbd_status start_input_transfer(struct umidi_endpoint *); 133 1.1 tshiozak static usbd_status start_output_transfer(struct umidi_endpoint *); 134 1.24.4.1 rpaulo static int out_jack_output(struct umidi_jack *, u_char *, int, int); 135 1.1 tshiozak static void in_intr(usbd_xfer_handle, usbd_private_handle, usbd_status); 136 1.1 tshiozak static void out_intr(usbd_xfer_handle, usbd_private_handle, usbd_status); 137 1.24.4.1 rpaulo static void out_solicit(void *); /* struct umidi_endpoint* for softintr */ 138 1.1 tshiozak 139 1.1 tshiozak 140 1.22 yamt const struct midi_hw_if umidi_hw_if = { 141 1.1 tshiozak umidi_open, 142 1.1 tshiozak umidi_close, 143 1.24.4.1 rpaulo umidi_rtmsg, 144 1.1 tshiozak umidi_getinfo, 145 1.1 tshiozak 0, /* ioctl */ 146 1.1 tshiozak }; 147 1.1 tshiozak 148 1.24.4.1 rpaulo struct midi_hw_if_ext umidi_hw_if_ext = { 149 1.24.4.1 rpaulo .channel = umidi_channelmsg, 150 1.24.4.1 rpaulo .common = umidi_commonmsg, 151 1.24.4.1 rpaulo .sysex = umidi_sysex, 152 1.24.4.1 rpaulo }; 153 1.24.4.1 rpaulo 154 1.24.4.1 rpaulo struct midi_hw_if_ext umidi_hw_if_mm = { 155 1.24.4.1 rpaulo .channel = umidi_channelmsg, 156 1.24.4.1 rpaulo .common = umidi_commonmsg, 157 1.24.4.1 rpaulo .sysex = umidi_sysex, 158 1.24.4.1 rpaulo .compress = 1, 159 1.24.4.1 rpaulo }; 160 1.24.4.1 rpaulo 161 1.1 tshiozak USB_DECLARE_DRIVER(umidi); 162 1.1 tshiozak 163 1.1 tshiozak USB_MATCH(umidi) 164 1.1 tshiozak { 165 1.1 tshiozak USB_MATCH_START(umidi, uaa); 166 1.1 tshiozak usb_interface_descriptor_t *id; 167 1.1 tshiozak 168 1.1 tshiozak DPRINTFN(1,("umidi_match\n")); 169 1.1 tshiozak 170 1.1 tshiozak if (uaa->iface == NULL) 171 1.1 tshiozak return UMATCH_NONE; 172 1.1 tshiozak 173 1.3 tshiozak if (umidi_search_quirk(uaa->vendor, uaa->product, uaa->ifaceno)) 174 1.3 tshiozak return UMATCH_IFACECLASS_IFACESUBCLASS; 175 1.1 tshiozak 176 1.1 tshiozak id = usbd_get_interface_descriptor(uaa->iface); 177 1.16 augustss if (id!=NULL && 178 1.1 tshiozak id->bInterfaceClass==UICLASS_AUDIO && 179 1.3 tshiozak id->bInterfaceSubClass==UISUBCLASS_MIDISTREAM) 180 1.3 tshiozak return UMATCH_IFACECLASS_IFACESUBCLASS; 181 1.1 tshiozak 182 1.3 tshiozak return UMATCH_NONE; 183 1.1 tshiozak } 184 1.1 tshiozak 185 1.1 tshiozak USB_ATTACH(umidi) 186 1.1 tshiozak { 187 1.1 tshiozak usbd_status err; 188 1.1 tshiozak USB_ATTACH_START(umidi, sc, uaa); 189 1.23 augustss char *devinfop; 190 1.1 tshiozak 191 1.1 tshiozak DPRINTFN(1,("umidi_attach\n")); 192 1.1 tshiozak 193 1.23 augustss devinfop = usbd_devinfo_alloc(uaa->device, 0); 194 1.23 augustss printf("\n%s: %s\n", USBDEVNAME(sc->sc_dev), devinfop); 195 1.23 augustss usbd_devinfo_free(devinfop); 196 1.1 tshiozak 197 1.1 tshiozak sc->sc_iface = uaa->iface; 198 1.1 tshiozak sc->sc_udev = uaa->device; 199 1.1 tshiozak 200 1.1 tshiozak sc->sc_quirk = 201 1.1 tshiozak umidi_search_quirk(uaa->vendor, uaa->product, uaa->ifaceno); 202 1.1 tshiozak printf("%s: ", USBDEVNAME(sc->sc_dev)); 203 1.1 tshiozak umidi_print_quirk(sc->sc_quirk); 204 1.1 tshiozak 205 1.1 tshiozak 206 1.1 tshiozak err = alloc_all_endpoints(sc); 207 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) { 208 1.1 tshiozak printf("%s: alloc_all_endpoints failed. (err=%d)\n", 209 1.1 tshiozak USBDEVNAME(sc->sc_dev), err); 210 1.1 tshiozak goto error; 211 1.1 tshiozak } 212 1.1 tshiozak err = alloc_all_jacks(sc); 213 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) { 214 1.1 tshiozak free_all_endpoints(sc); 215 1.1 tshiozak printf("%s: alloc_all_jacks failed. (err=%d)\n", 216 1.1 tshiozak USBDEVNAME(sc->sc_dev), err); 217 1.1 tshiozak goto error; 218 1.1 tshiozak } 219 1.1 tshiozak printf("%s: out=%d, in=%d\n", 220 1.1 tshiozak USBDEVNAME(sc->sc_dev), 221 1.1 tshiozak sc->sc_out_num_jacks, sc->sc_in_num_jacks); 222 1.1 tshiozak 223 1.1 tshiozak err = assign_all_jacks_automatically(sc); 224 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) { 225 1.1 tshiozak unbind_all_jacks(sc); 226 1.1 tshiozak free_all_jacks(sc); 227 1.1 tshiozak free_all_endpoints(sc); 228 1.1 tshiozak printf("%s: assign_all_jacks_automatically failed. (err=%d)\n", 229 1.1 tshiozak USBDEVNAME(sc->sc_dev), err); 230 1.1 tshiozak goto error; 231 1.1 tshiozak } 232 1.1 tshiozak err = attach_all_mididevs(sc); 233 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) { 234 1.1 tshiozak free_all_jacks(sc); 235 1.1 tshiozak free_all_endpoints(sc); 236 1.1 tshiozak printf("%s: attach_all_mididevs failed. (err=%d)\n", 237 1.1 tshiozak USBDEVNAME(sc->sc_dev), err); 238 1.1 tshiozak } 239 1.1 tshiozak 240 1.1 tshiozak #ifdef UMIDI_DEBUG 241 1.1 tshiozak dump_sc(sc); 242 1.1 tshiozak #endif 243 1.1 tshiozak 244 1.1 tshiozak usbd_add_drv_event(USB_EVENT_DRIVER_ATTACH, 245 1.1 tshiozak sc->sc_udev, USBDEV(sc->sc_dev)); 246 1.16 augustss 247 1.1 tshiozak USB_ATTACH_SUCCESS_RETURN; 248 1.1 tshiozak error: 249 1.1 tshiozak printf("%s: disabled.\n", USBDEVNAME(sc->sc_dev)); 250 1.1 tshiozak sc->sc_dying = 1; 251 1.1 tshiozak USB_ATTACH_ERROR_RETURN; 252 1.1 tshiozak } 253 1.1 tshiozak 254 1.1 tshiozak int 255 1.1 tshiozak umidi_activate(device_ptr_t self, enum devact act) 256 1.1 tshiozak { 257 1.3 tshiozak struct umidi_softc *sc = (struct umidi_softc *)self; 258 1.1 tshiozak 259 1.1 tshiozak switch (act) { 260 1.1 tshiozak case DVACT_ACTIVATE: 261 1.1 tshiozak DPRINTFN(1,("umidi_activate (activate)\n")); 262 1.1 tshiozak 263 1.1 tshiozak return EOPNOTSUPP; 264 1.1 tshiozak break; 265 1.1 tshiozak case DVACT_DEACTIVATE: 266 1.1 tshiozak DPRINTFN(1,("umidi_activate (deactivate)\n")); 267 1.1 tshiozak sc->sc_dying = 1; 268 1.1 tshiozak deactivate_all_mididevs(sc); 269 1.1 tshiozak break; 270 1.1 tshiozak } 271 1.1 tshiozak return 0; 272 1.1 tshiozak } 273 1.1 tshiozak 274 1.1 tshiozak USB_DETACH(umidi) 275 1.1 tshiozak { 276 1.3 tshiozak USB_DETACH_START(umidi, sc); 277 1.1 tshiozak 278 1.1 tshiozak DPRINTFN(1,("umidi_detach\n")); 279 1.1 tshiozak 280 1.1 tshiozak sc->sc_dying = 1; 281 1.1 tshiozak detach_all_mididevs(sc, flags); 282 1.1 tshiozak free_all_mididevs(sc); 283 1.1 tshiozak free_all_jacks(sc); 284 1.1 tshiozak free_all_endpoints(sc); 285 1.1 tshiozak 286 1.3 tshiozak usbd_add_drv_event(USB_EVENT_DRIVER_DETACH, sc->sc_udev, 287 1.3 tshiozak USBDEV(sc->sc_dev)); 288 1.1 tshiozak 289 1.1 tshiozak return 0; 290 1.1 tshiozak } 291 1.1 tshiozak 292 1.1 tshiozak 293 1.4 tshiozak /* 294 1.4 tshiozak * midi_if stuffs 295 1.4 tshiozak */ 296 1.1 tshiozak int 297 1.1 tshiozak umidi_open(void *addr, 298 1.1 tshiozak int flags, 299 1.12 augustss void (*iintr)(void *, int), 300 1.12 augustss void (*ointr)(void *), 301 1.1 tshiozak void *arg) 302 1.1 tshiozak { 303 1.3 tshiozak struct umidi_mididev *mididev = addr; 304 1.3 tshiozak struct umidi_softc *sc = mididev->sc; 305 1.24.4.1 rpaulo usbd_status err; 306 1.1 tshiozak 307 1.1 tshiozak DPRINTF(("umidi_open: sc=%p\n", sc)); 308 1.1 tshiozak 309 1.1 tshiozak if (!sc) 310 1.1 tshiozak return ENXIO; 311 1.1 tshiozak if (mididev->opened) 312 1.1 tshiozak return EBUSY; 313 1.4 tshiozak if (sc->sc_dying) 314 1.1 tshiozak return EIO; 315 1.1 tshiozak 316 1.4 tshiozak mididev->opened = 1; 317 1.1 tshiozak mididev->flags = flags; 318 1.24.4.1 rpaulo if ((mididev->flags & FWRITE) && mididev->out_jack) { 319 1.24.4.1 rpaulo err = open_out_jack(mididev->out_jack, arg, ointr); 320 1.24.4.1 rpaulo if ( err != USBD_NORMAL_COMPLETION ) 321 1.24.4.1 rpaulo goto bad; 322 1.24.4.1 rpaulo } 323 1.3 tshiozak if ((mididev->flags & FREAD) && mididev->in_jack) { 324 1.24.4.1 rpaulo err = open_in_jack(mididev->in_jack, arg, iintr); 325 1.24.4.1 rpaulo if ( err != USBD_NORMAL_COMPLETION 326 1.24.4.1 rpaulo && err != USBD_IN_PROGRESS ) 327 1.24.4.1 rpaulo goto bad; 328 1.3 tshiozak } 329 1.1 tshiozak 330 1.1 tshiozak return 0; 331 1.24.4.1 rpaulo bad: 332 1.24.4.1 rpaulo mididev->opened = 0; 333 1.24.4.1 rpaulo DPRINTF(("umidi_open: usbd_status %d\n", err)); 334 1.24.4.1 rpaulo return USBD_IN_USE == err ? EBUSY : EIO; 335 1.1 tshiozak } 336 1.1 tshiozak 337 1.1 tshiozak void 338 1.1 tshiozak umidi_close(void *addr) 339 1.1 tshiozak { 340 1.1 tshiozak int s; 341 1.3 tshiozak struct umidi_mididev *mididev = addr; 342 1.1 tshiozak 343 1.1 tshiozak s = splusb(); 344 1.1 tshiozak if ((mididev->flags & FWRITE) && mididev->out_jack) 345 1.4 tshiozak close_out_jack(mididev->out_jack); 346 1.1 tshiozak if ((mididev->flags & FREAD) && mididev->in_jack) 347 1.4 tshiozak close_in_jack(mididev->in_jack); 348 1.1 tshiozak mididev->opened = 0; 349 1.1 tshiozak splx(s); 350 1.1 tshiozak } 351 1.1 tshiozak 352 1.1 tshiozak int 353 1.24.4.1 rpaulo umidi_channelmsg(void *addr, int status, int channel, u_char *msg, int len) 354 1.24.4.1 rpaulo { 355 1.24.4.1 rpaulo struct umidi_mididev *mididev = addr; 356 1.24.4.1 rpaulo 357 1.24.4.1 rpaulo if (!mididev->out_jack || !mididev->opened) 358 1.24.4.1 rpaulo return EIO; 359 1.24.4.1 rpaulo 360 1.24.4.1 rpaulo return out_jack_output(mididev->out_jack, msg, len, (status>>4)&0xf); 361 1.24.4.1 rpaulo } 362 1.24.4.1 rpaulo 363 1.24.4.1 rpaulo int 364 1.24.4.1 rpaulo umidi_commonmsg(void *addr, int status, u_char *msg, int len) 365 1.1 tshiozak { 366 1.3 tshiozak struct umidi_mididev *mididev = addr; 367 1.24.4.1 rpaulo int cin; 368 1.1 tshiozak 369 1.4 tshiozak if (!mididev->out_jack || !mididev->opened) 370 1.1 tshiozak return EIO; 371 1.1 tshiozak 372 1.24.4.1 rpaulo switch ( len ) { 373 1.24.4.1 rpaulo case 1: cin = 5; break; 374 1.24.4.1 rpaulo case 2: cin = 2; break; 375 1.24.4.1 rpaulo case 3: cin = 3; break; 376 1.24.4.1 rpaulo default: return EIO; /* or gcc warns of cin uninitialized */ 377 1.24.4.1 rpaulo } 378 1.24.4.1 rpaulo 379 1.24.4.1 rpaulo return out_jack_output(mididev->out_jack, msg, len, cin); 380 1.24.4.1 rpaulo } 381 1.24.4.1 rpaulo 382 1.24.4.1 rpaulo int 383 1.24.4.1 rpaulo umidi_sysex(void *addr, u_char *msg, int len) 384 1.24.4.1 rpaulo { 385 1.24.4.1 rpaulo struct umidi_mididev *mididev = addr; 386 1.24.4.1 rpaulo int cin; 387 1.24.4.1 rpaulo 388 1.24.4.1 rpaulo if (!mididev->out_jack || !mididev->opened) 389 1.24.4.1 rpaulo return EIO; 390 1.24.4.1 rpaulo 391 1.24.4.1 rpaulo switch ( len ) { 392 1.24.4.1 rpaulo case 1: cin = 5; break; 393 1.24.4.1 rpaulo case 2: cin = 6; break; 394 1.24.4.1 rpaulo case 3: cin = (msg[2] == 0xf7) ? 7 : 4; break; 395 1.24.4.1 rpaulo default: return EIO; /* or gcc warns of cin uninitialized */ 396 1.24.4.1 rpaulo } 397 1.24.4.1 rpaulo 398 1.24.4.1 rpaulo return out_jack_output(mididev->out_jack, msg, len, cin); 399 1.24.4.1 rpaulo } 400 1.24.4.1 rpaulo 401 1.24.4.1 rpaulo int 402 1.24.4.1 rpaulo umidi_rtmsg(void *addr, int d) 403 1.24.4.1 rpaulo { 404 1.24.4.1 rpaulo struct umidi_mididev *mididev = addr; 405 1.24.4.1 rpaulo u_char msg = d; 406 1.24.4.1 rpaulo 407 1.24.4.1 rpaulo if (!mididev->out_jack || !mididev->opened) 408 1.24.4.1 rpaulo return EIO; 409 1.24.4.1 rpaulo 410 1.24.4.1 rpaulo return out_jack_output(mididev->out_jack, &msg, 1, 0xf); 411 1.1 tshiozak } 412 1.1 tshiozak 413 1.1 tshiozak void 414 1.1 tshiozak umidi_getinfo(void *addr, struct midi_info *mi) 415 1.1 tshiozak { 416 1.3 tshiozak struct umidi_mididev *mididev = addr; 417 1.24.4.1 rpaulo struct umidi_softc *sc = mididev->sc; 418 1.24.4.1 rpaulo int mm = UMQ_ISTYPE(sc, UMQ_TYPE_MIDIMAN_GARBLE); 419 1.1 tshiozak 420 1.24.4.1 rpaulo mi->name = mididev->label; 421 1.3 tshiozak mi->props = MIDI_PROP_OUT_INTR; 422 1.1 tshiozak if (mididev->in_jack) 423 1.1 tshiozak mi->props |= MIDI_PROP_CAN_INPUT; 424 1.24.4.1 rpaulo midi_register_hw_if_ext(mm? &umidi_hw_if_mm : &umidi_hw_if_ext); 425 1.1 tshiozak } 426 1.1 tshiozak 427 1.1 tshiozak 428 1.4 tshiozak /* 429 1.4 tshiozak * each endpoint stuffs 430 1.4 tshiozak */ 431 1.1 tshiozak 432 1.3 tshiozak /* alloc/free pipe */ 433 1.1 tshiozak static usbd_status 434 1.3 tshiozak alloc_pipe(struct umidi_endpoint *ep) 435 1.1 tshiozak { 436 1.1 tshiozak struct umidi_softc *sc = ep->sc; 437 1.1 tshiozak usbd_status err; 438 1.24.4.1 rpaulo usb_endpoint_descriptor_t *epd; 439 1.24.4.1 rpaulo 440 1.24.4.1 rpaulo epd = usbd_get_endpoint_descriptor(sc->sc_iface, ep->addr); 441 1.24.4.1 rpaulo /* 442 1.24.4.1 rpaulo * For output, an improvement would be to have a buffer bigger than 443 1.24.4.1 rpaulo * wMaxPacketSize by num_jacks-1 additional packet slots; that would 444 1.24.4.1 rpaulo * allow out_solicit to fill the buffer to the full packet size in 445 1.24.4.1 rpaulo * all cases. But to use usbd_alloc_buffer to get a slightly larger 446 1.24.4.1 rpaulo * buffer would not be a good way to do that, because if the addition 447 1.24.4.1 rpaulo * would make the buffer exceed USB_MEM_SMALL then a substantially 448 1.24.4.1 rpaulo * larger block may be wastefully allocated. Some flavor of double 449 1.24.4.1 rpaulo * buffering could serve the same purpose, but would increase the 450 1.24.4.1 rpaulo * code complexity, so for now I will live with the current slight 451 1.24.4.1 rpaulo * penalty of reducing max transfer size by (num_open-num_scheduled) 452 1.24.4.1 rpaulo * packet slots. 453 1.24.4.1 rpaulo */ 454 1.24.4.1 rpaulo ep->buffer_size = UGETW(epd->wMaxPacketSize); 455 1.24.4.1 rpaulo ep->buffer_size -= ep->buffer_size % UMIDI_PACKET_SIZE; 456 1.24.4.1 rpaulo 457 1.24.4.1 rpaulo DPRINTF(("%s: alloc_pipe %p, buffer size %u\n", 458 1.24.4.1 rpaulo USBDEVNAME(sc->sc_dev), ep, ep->buffer_size)); 459 1.24.4.1 rpaulo ep->num_scheduled = 0; 460 1.24.4.1 rpaulo ep->this_schedule = 0; 461 1.24.4.1 rpaulo ep->next_schedule = 0; 462 1.24.4.1 rpaulo ep->soliciting = 0; 463 1.24.4.1 rpaulo ep->armed = 0; 464 1.3 tshiozak ep->xfer = usbd_alloc_xfer(sc->sc_udev); 465 1.11 augustss if (ep->xfer == NULL) { 466 1.3 tshiozak err = USBD_NOMEM; 467 1.3 tshiozak goto quit; 468 1.3 tshiozak } 469 1.24.4.1 rpaulo ep->buffer = usbd_alloc_buffer(ep->xfer, ep->buffer_size); 470 1.11 augustss if (ep->buffer == NULL) { 471 1.3 tshiozak usbd_free_xfer(ep->xfer); 472 1.3 tshiozak err = USBD_NOMEM; 473 1.3 tshiozak goto quit; 474 1.3 tshiozak } 475 1.24.4.1 rpaulo ep->next_slot = ep->buffer; 476 1.3 tshiozak err = usbd_open_pipe(sc->sc_iface, ep->addr, 0, &ep->pipe); 477 1.3 tshiozak if (err) 478 1.3 tshiozak usbd_free_xfer(ep->xfer); 479 1.24.4.1 rpaulo #ifdef __HAVE_GENERIC_SOFT_INTERRUPTS 480 1.24.4.1 rpaulo ep->solicit_cookie = softintr_establish(IPL_SOFTCLOCK,out_solicit,ep); 481 1.24.4.1 rpaulo #endif 482 1.1 tshiozak quit: 483 1.1 tshiozak return err; 484 1.1 tshiozak } 485 1.1 tshiozak 486 1.1 tshiozak static void 487 1.3 tshiozak free_pipe(struct umidi_endpoint *ep) 488 1.1 tshiozak { 489 1.3 tshiozak DPRINTF(("%s: free_pipe %p\n", USBDEVNAME(ep->sc->sc_dev), ep)); 490 1.3 tshiozak usbd_abort_pipe(ep->pipe); 491 1.3 tshiozak usbd_close_pipe(ep->pipe); 492 1.3 tshiozak usbd_free_xfer(ep->xfer); 493 1.24.4.1 rpaulo #ifdef __HAVE_GENERIC_SOFT_INTERRUPTS 494 1.24.4.1 rpaulo softintr_disestablish(ep->solicit_cookie); 495 1.24.4.1 rpaulo #endif 496 1.1 tshiozak } 497 1.1 tshiozak 498 1.1 tshiozak 499 1.1 tshiozak /* alloc/free the array of endpoint structures */ 500 1.1 tshiozak 501 1.1 tshiozak static usbd_status alloc_all_endpoints_fixed_ep(struct umidi_softc *); 502 1.1 tshiozak static usbd_status alloc_all_endpoints_yamaha(struct umidi_softc *); 503 1.1 tshiozak static usbd_status alloc_all_endpoints_genuine(struct umidi_softc *); 504 1.1 tshiozak 505 1.1 tshiozak static usbd_status 506 1.1 tshiozak alloc_all_endpoints(struct umidi_softc *sc) 507 1.1 tshiozak { 508 1.3 tshiozak usbd_status err; 509 1.3 tshiozak struct umidi_endpoint *ep; 510 1.3 tshiozak int i; 511 1.9 tshiozak 512 1.3 tshiozak if (UMQ_ISTYPE(sc, UMQ_TYPE_FIXED_EP)) { 513 1.3 tshiozak err = alloc_all_endpoints_fixed_ep(sc); 514 1.3 tshiozak } else if (UMQ_ISTYPE(sc, UMQ_TYPE_YAMAHA)) { 515 1.3 tshiozak err = alloc_all_endpoints_yamaha(sc); 516 1.1 tshiozak } else { 517 1.3 tshiozak err = alloc_all_endpoints_genuine(sc); 518 1.1 tshiozak } 519 1.3 tshiozak if (err!=USBD_NORMAL_COMPLETION) 520 1.3 tshiozak return err; 521 1.3 tshiozak 522 1.3 tshiozak ep = sc->sc_endpoints; 523 1.8 tshiozak for (i=sc->sc_out_num_endpoints+sc->sc_in_num_endpoints; i>0; i--) { 524 1.3 tshiozak err = alloc_pipe(ep++); 525 1.3 tshiozak if (err!=USBD_NORMAL_COMPLETION) { 526 1.3 tshiozak for (; ep!=sc->sc_endpoints; ep--) 527 1.3 tshiozak free_pipe(ep-1); 528 1.3 tshiozak free(sc->sc_endpoints, M_USBDEV); 529 1.3 tshiozak sc->sc_endpoints = sc->sc_out_ep = sc->sc_in_ep = NULL; 530 1.3 tshiozak break; 531 1.3 tshiozak } 532 1.3 tshiozak } 533 1.3 tshiozak return err; 534 1.1 tshiozak } 535 1.1 tshiozak 536 1.1 tshiozak static void 537 1.1 tshiozak free_all_endpoints(struct umidi_softc *sc) 538 1.1 tshiozak { 539 1.3 tshiozak int i; 540 1.8 tshiozak for (i=0; i<sc->sc_in_num_endpoints+sc->sc_out_num_endpoints; i++) 541 1.3 tshiozak free_pipe(&sc->sc_endpoints[i]); 542 1.14 kent if (sc->sc_endpoints != NULL) 543 1.14 kent free(sc->sc_endpoints, M_USBDEV); 544 1.1 tshiozak sc->sc_endpoints = sc->sc_out_ep = sc->sc_in_ep = NULL; 545 1.1 tshiozak } 546 1.1 tshiozak 547 1.1 tshiozak static usbd_status 548 1.1 tshiozak alloc_all_endpoints_fixed_ep(struct umidi_softc *sc) 549 1.1 tshiozak { 550 1.3 tshiozak usbd_status err; 551 1.1 tshiozak struct umq_fixed_ep_desc *fp; 552 1.3 tshiozak struct umidi_endpoint *ep; 553 1.1 tshiozak usb_endpoint_descriptor_t *epd; 554 1.1 tshiozak int i; 555 1.1 tshiozak 556 1.1 tshiozak fp = umidi_get_quirk_data_from_type(sc->sc_quirk, 557 1.1 tshiozak UMQ_TYPE_FIXED_EP); 558 1.1 tshiozak sc->sc_out_num_jacks = 0; 559 1.1 tshiozak sc->sc_in_num_jacks = 0; 560 1.1 tshiozak sc->sc_out_num_endpoints = fp->num_out_ep; 561 1.1 tshiozak sc->sc_in_num_endpoints = fp->num_in_ep; 562 1.1 tshiozak sc->sc_endpoints = malloc(sizeof(*sc->sc_out_ep)* 563 1.1 tshiozak (sc->sc_out_num_endpoints+ 564 1.1 tshiozak sc->sc_in_num_endpoints), 565 1.1 tshiozak M_USBDEV, M_WAITOK); 566 1.1 tshiozak if (!sc->sc_endpoints) { 567 1.1 tshiozak return USBD_NOMEM; 568 1.1 tshiozak } 569 1.1 tshiozak sc->sc_out_ep = sc->sc_out_num_endpoints ? sc->sc_endpoints : NULL; 570 1.1 tshiozak sc->sc_in_ep = 571 1.1 tshiozak sc->sc_in_num_endpoints ? 572 1.1 tshiozak sc->sc_endpoints+sc->sc_out_num_endpoints : NULL; 573 1.3 tshiozak 574 1.3 tshiozak ep = &sc->sc_out_ep[0]; 575 1.1 tshiozak for (i=0; i<sc->sc_out_num_endpoints; i++) { 576 1.1 tshiozak epd = usbd_interface2endpoint_descriptor( 577 1.1 tshiozak sc->sc_iface, 578 1.1 tshiozak fp->out_ep[i].ep); 579 1.1 tshiozak if (!epd) { 580 1.1 tshiozak printf("%s: cannot get endpoint descriptor(out:%d)\n", 581 1.1 tshiozak USBDEVNAME(sc->sc_dev), fp->out_ep[i].ep); 582 1.3 tshiozak err = USBD_INVAL; 583 1.1 tshiozak goto error; 584 1.1 tshiozak } 585 1.1 tshiozak if (UE_GET_XFERTYPE(epd->bmAttributes)!=UE_BULK || 586 1.1 tshiozak UE_GET_DIR(epd->bEndpointAddress)!=UE_DIR_OUT) { 587 1.1 tshiozak printf("%s: illegal endpoint(out:%d)\n", 588 1.1 tshiozak USBDEVNAME(sc->sc_dev), fp->out_ep[i].ep); 589 1.3 tshiozak err = USBD_INVAL; 590 1.1 tshiozak goto error; 591 1.1 tshiozak } 592 1.3 tshiozak ep->sc = sc; 593 1.3 tshiozak ep->addr = epd->bEndpointAddress; 594 1.3 tshiozak ep->num_jacks = fp->out_ep[i].num_jacks; 595 1.1 tshiozak sc->sc_out_num_jacks += fp->out_ep[i].num_jacks; 596 1.3 tshiozak ep->num_open = 0; 597 1.3 tshiozak memset(ep->jacks, 0, sizeof(ep->jacks)); 598 1.3 tshiozak ep++; 599 1.1 tshiozak } 600 1.3 tshiozak ep = &sc->sc_in_ep[0]; 601 1.1 tshiozak for (i=0; i<sc->sc_in_num_endpoints; i++) { 602 1.1 tshiozak epd = usbd_interface2endpoint_descriptor( 603 1.1 tshiozak sc->sc_iface, 604 1.1 tshiozak fp->in_ep[i].ep); 605 1.1 tshiozak if (!epd) { 606 1.1 tshiozak printf("%s: cannot get endpoint descriptor(in:%d)\n", 607 1.1 tshiozak USBDEVNAME(sc->sc_dev), fp->in_ep[i].ep); 608 1.3 tshiozak err = USBD_INVAL; 609 1.1 tshiozak goto error; 610 1.1 tshiozak } 611 1.24.4.1 rpaulo /* 612 1.24.4.1 rpaulo * MIDISPORT_2X4 inputs on an interrupt rather than a bulk 613 1.24.4.1 rpaulo * endpoint. The existing input logic in this driver seems 614 1.24.4.1 rpaulo * to work successfully if we just stop treating an interrupt 615 1.24.4.1 rpaulo * endpoint as illegal (or the in_progress status we get on 616 1.24.4.1 rpaulo * the initial transfer). It does not seem necessary to 617 1.24.4.1 rpaulo * actually use the interrupt flavor of alloc_pipe or make 618 1.24.4.1 rpaulo * other serious rearrangements of logic. I like that. 619 1.24.4.1 rpaulo */ 620 1.24.4.1 rpaulo switch ( UE_GET_XFERTYPE(epd->bmAttributes) ) { 621 1.24.4.1 rpaulo case UE_BULK: 622 1.24.4.1 rpaulo case UE_INTERRUPT: 623 1.24.4.1 rpaulo if ( UE_DIR_IN == UE_GET_DIR(epd->bEndpointAddress) ) 624 1.24.4.1 rpaulo break; 625 1.24.4.1 rpaulo /*FALLTHROUGH*/ 626 1.24.4.1 rpaulo default: 627 1.1 tshiozak printf("%s: illegal endpoint(in:%d)\n", 628 1.1 tshiozak USBDEVNAME(sc->sc_dev), fp->in_ep[i].ep); 629 1.3 tshiozak err = USBD_INVAL; 630 1.1 tshiozak goto error; 631 1.1 tshiozak } 632 1.24.4.1 rpaulo 633 1.3 tshiozak ep->sc = sc; 634 1.3 tshiozak ep->addr = epd->bEndpointAddress; 635 1.3 tshiozak ep->num_jacks = fp->in_ep[i].num_jacks; 636 1.1 tshiozak sc->sc_in_num_jacks += fp->in_ep[i].num_jacks; 637 1.3 tshiozak ep->num_open = 0; 638 1.3 tshiozak memset(ep->jacks, 0, sizeof(ep->jacks)); 639 1.3 tshiozak ep++; 640 1.1 tshiozak } 641 1.1 tshiozak 642 1.1 tshiozak return USBD_NORMAL_COMPLETION; 643 1.1 tshiozak error: 644 1.1 tshiozak free(sc->sc_endpoints, M_USBDEV); 645 1.1 tshiozak sc->sc_endpoints = NULL; 646 1.3 tshiozak return err; 647 1.1 tshiozak } 648 1.1 tshiozak 649 1.1 tshiozak static usbd_status 650 1.1 tshiozak alloc_all_endpoints_yamaha(struct umidi_softc *sc) 651 1.1 tshiozak { 652 1.1 tshiozak /* This driver currently supports max 1in/1out bulk endpoints */ 653 1.1 tshiozak usb_descriptor_t *desc; 654 1.8 tshiozak usb_endpoint_descriptor_t *epd; 655 1.8 tshiozak int out_addr, in_addr, i; 656 1.8 tshiozak int dir; 657 1.1 tshiozak size_t remain, descsize; 658 1.1 tshiozak 659 1.8 tshiozak sc->sc_out_num_jacks = sc->sc_in_num_jacks = 0; 660 1.8 tshiozak out_addr = in_addr = 0; 661 1.8 tshiozak 662 1.8 tshiozak /* detect endpoints */ 663 1.1 tshiozak desc = TO_D(usbd_get_interface_descriptor(sc->sc_iface)); 664 1.8 tshiozak for (i=(int)TO_IFD(desc)->bNumEndpoints-1; i>=0; i--) { 665 1.8 tshiozak epd = usbd_interface2endpoint_descriptor(sc->sc_iface, i); 666 1.24.4.1 rpaulo KASSERT(epd != NULL); 667 1.8 tshiozak if (UE_GET_XFERTYPE(epd->bmAttributes) == UE_BULK) { 668 1.8 tshiozak dir = UE_GET_DIR(epd->bEndpointAddress); 669 1.8 tshiozak if (dir==UE_DIR_OUT && !out_addr) 670 1.8 tshiozak out_addr = epd->bEndpointAddress; 671 1.8 tshiozak else if (dir==UE_DIR_IN && !in_addr) 672 1.8 tshiozak in_addr = epd->bEndpointAddress; 673 1.8 tshiozak } 674 1.8 tshiozak } 675 1.3 tshiozak desc = NEXT_D(desc); 676 1.1 tshiozak 677 1.8 tshiozak /* count jacks */ 678 1.8 tshiozak if (!(desc->bDescriptorType==UDESC_CS_INTERFACE && 679 1.8 tshiozak desc->bDescriptorSubtype==UMIDI_MS_HEADER)) 680 1.8 tshiozak return USBD_INVAL; 681 1.8 tshiozak remain = (size_t)UGETW(TO_CSIFD(desc)->wTotalLength) - 682 1.8 tshiozak (size_t)desc->bLength; 683 1.8 tshiozak desc = NEXT_D(desc); 684 1.1 tshiozak 685 1.1 tshiozak while (remain>=sizeof(usb_descriptor_t)) { 686 1.1 tshiozak descsize = desc->bLength; 687 1.1 tshiozak if (descsize>remain || descsize==0) 688 1.1 tshiozak break; 689 1.1 tshiozak if (desc->bDescriptorType==UDESC_CS_INTERFACE && 690 1.1 tshiozak remain>=UMIDI_JACK_DESCRIPTOR_SIZE) { 691 1.1 tshiozak if (desc->bDescriptorSubtype==UMIDI_OUT_JACK) 692 1.1 tshiozak sc->sc_out_num_jacks++; 693 1.1 tshiozak else if (desc->bDescriptorSubtype==UMIDI_IN_JACK) 694 1.1 tshiozak sc->sc_in_num_jacks++; 695 1.1 tshiozak } 696 1.1 tshiozak desc = NEXT_D(desc); 697 1.1 tshiozak remain-=descsize; 698 1.1 tshiozak } 699 1.1 tshiozak 700 1.8 tshiozak /* validate some parameters */ 701 1.1 tshiozak if (sc->sc_out_num_jacks>UMIDI_MAX_EPJACKS) 702 1.1 tshiozak sc->sc_out_num_jacks = UMIDI_MAX_EPJACKS; 703 1.1 tshiozak if (sc->sc_in_num_jacks>UMIDI_MAX_EPJACKS) 704 1.1 tshiozak sc->sc_in_num_jacks = UMIDI_MAX_EPJACKS; 705 1.8 tshiozak if (sc->sc_out_num_jacks && out_addr) { 706 1.1 tshiozak sc->sc_out_num_endpoints = 1; 707 1.1 tshiozak } else { 708 1.1 tshiozak sc->sc_out_num_endpoints = 0; 709 1.1 tshiozak sc->sc_out_num_jacks = 0; 710 1.1 tshiozak } 711 1.8 tshiozak if (sc->sc_in_num_jacks && in_addr) { 712 1.1 tshiozak sc->sc_in_num_endpoints = 1; 713 1.1 tshiozak } else { 714 1.1 tshiozak sc->sc_in_num_endpoints = 0; 715 1.1 tshiozak sc->sc_in_num_jacks = 0; 716 1.1 tshiozak } 717 1.1 tshiozak sc->sc_endpoints = malloc(sizeof(struct umidi_endpoint)* 718 1.1 tshiozak (sc->sc_out_num_endpoints+ 719 1.1 tshiozak sc->sc_in_num_endpoints), 720 1.1 tshiozak M_USBDEV, M_WAITOK); 721 1.1 tshiozak if (!sc->sc_endpoints) 722 1.1 tshiozak return USBD_NOMEM; 723 1.1 tshiozak if (sc->sc_out_num_endpoints) { 724 1.1 tshiozak sc->sc_out_ep = sc->sc_endpoints; 725 1.1 tshiozak sc->sc_out_ep->sc = sc; 726 1.1 tshiozak sc->sc_out_ep->addr = out_addr; 727 1.1 tshiozak sc->sc_out_ep->num_jacks = sc->sc_out_num_jacks; 728 1.1 tshiozak sc->sc_out_ep->num_open = 0; 729 1.1 tshiozak memset(sc->sc_out_ep->jacks, 0, sizeof(sc->sc_out_ep->jacks)); 730 1.1 tshiozak } else 731 1.1 tshiozak sc->sc_out_ep = NULL; 732 1.1 tshiozak 733 1.1 tshiozak if (sc->sc_in_num_endpoints) { 734 1.1 tshiozak sc->sc_in_ep = sc->sc_endpoints+sc->sc_out_num_endpoints; 735 1.1 tshiozak sc->sc_in_ep->sc = sc; 736 1.1 tshiozak sc->sc_in_ep->addr = in_addr; 737 1.1 tshiozak sc->sc_in_ep->num_jacks = sc->sc_in_num_jacks; 738 1.1 tshiozak sc->sc_in_ep->num_open = 0; 739 1.1 tshiozak memset(sc->sc_in_ep->jacks, 0, sizeof(sc->sc_in_ep->jacks)); 740 1.1 tshiozak } else 741 1.1 tshiozak sc->sc_in_ep = NULL; 742 1.1 tshiozak 743 1.1 tshiozak return USBD_NORMAL_COMPLETION; 744 1.1 tshiozak } 745 1.1 tshiozak 746 1.1 tshiozak static usbd_status 747 1.1 tshiozak alloc_all_endpoints_genuine(struct umidi_softc *sc) 748 1.1 tshiozak { 749 1.20 gson usb_interface_descriptor_t *interface_desc; 750 1.20 gson usb_config_descriptor_t *config_desc; 751 1.1 tshiozak usb_descriptor_t *desc; 752 1.7 tshiozak int num_ep; 753 1.1 tshiozak size_t remain, descsize; 754 1.1 tshiozak struct umidi_endpoint *p, *q, *lowest, *endep, tmpep; 755 1.1 tshiozak int epaddr; 756 1.1 tshiozak 757 1.20 gson interface_desc = usbd_get_interface_descriptor(sc->sc_iface); 758 1.20 gson num_ep = interface_desc->bNumEndpoints; 759 1.20 gson sc->sc_endpoints = p = malloc(sizeof(struct umidi_endpoint) * num_ep, 760 1.1 tshiozak M_USBDEV, M_WAITOK); 761 1.1 tshiozak if (!p) 762 1.1 tshiozak return USBD_NOMEM; 763 1.1 tshiozak 764 1.1 tshiozak sc->sc_out_num_jacks = sc->sc_in_num_jacks = 0; 765 1.1 tshiozak sc->sc_out_num_endpoints = sc->sc_in_num_endpoints = 0; 766 1.1 tshiozak epaddr = -1; 767 1.1 tshiozak 768 1.1 tshiozak /* get the list of endpoints for midi stream */ 769 1.20 gson config_desc = usbd_get_config_descriptor(sc->sc_udev); 770 1.20 gson desc = (usb_descriptor_t *) config_desc; 771 1.20 gson remain = (size_t)UGETW(config_desc->wTotalLength); 772 1.1 tshiozak while (remain>=sizeof(usb_descriptor_t)) { 773 1.1 tshiozak descsize = desc->bLength; 774 1.1 tshiozak if (descsize>remain || descsize==0) 775 1.1 tshiozak break; 776 1.1 tshiozak if (desc->bDescriptorType==UDESC_ENDPOINT && 777 1.1 tshiozak remain>=USB_ENDPOINT_DESCRIPTOR_SIZE && 778 1.1 tshiozak UE_GET_XFERTYPE(TO_EPD(desc)->bmAttributes) == UE_BULK) { 779 1.1 tshiozak epaddr = TO_EPD(desc)->bEndpointAddress; 780 1.1 tshiozak } else if (desc->bDescriptorType==UDESC_CS_ENDPOINT && 781 1.1 tshiozak remain>=UMIDI_CS_ENDPOINT_DESCRIPTOR_SIZE && 782 1.1 tshiozak epaddr!=-1) { 783 1.1 tshiozak if (num_ep>0) { 784 1.9 tshiozak num_ep--; 785 1.1 tshiozak p->sc = sc; 786 1.1 tshiozak p->addr = epaddr; 787 1.1 tshiozak p->num_jacks = TO_CSEPD(desc)->bNumEmbMIDIJack; 788 1.1 tshiozak if (UE_GET_DIR(epaddr)==UE_DIR_OUT) { 789 1.1 tshiozak sc->sc_out_num_endpoints++; 790 1.1 tshiozak sc->sc_out_num_jacks += p->num_jacks; 791 1.1 tshiozak } else { 792 1.1 tshiozak sc->sc_in_num_endpoints++; 793 1.1 tshiozak sc->sc_in_num_jacks += p->num_jacks; 794 1.1 tshiozak } 795 1.1 tshiozak p++; 796 1.1 tshiozak } 797 1.1 tshiozak } else 798 1.1 tshiozak epaddr = -1; 799 1.1 tshiozak desc = NEXT_D(desc); 800 1.1 tshiozak remain-=descsize; 801 1.1 tshiozak } 802 1.1 tshiozak 803 1.1 tshiozak /* sort endpoints */ 804 1.1 tshiozak num_ep = sc->sc_out_num_endpoints + sc->sc_in_num_endpoints; 805 1.1 tshiozak p = sc->sc_endpoints; 806 1.1 tshiozak endep = p + num_ep; 807 1.1 tshiozak while (p<endep) { 808 1.1 tshiozak lowest = p; 809 1.1 tshiozak for (q=p+1; q<endep; q++) { 810 1.1 tshiozak if ((UE_GET_DIR(lowest->addr)==UE_DIR_IN && 811 1.1 tshiozak UE_GET_DIR(q->addr)==UE_DIR_OUT) || 812 1.1 tshiozak ((UE_GET_DIR(lowest->addr)== 813 1.1 tshiozak UE_GET_DIR(q->addr)) && 814 1.1 tshiozak (UE_GET_ADDR(lowest->addr)> 815 1.1 tshiozak UE_GET_ADDR(q->addr)))) 816 1.1 tshiozak lowest = q; 817 1.1 tshiozak } 818 1.1 tshiozak if (lowest != p) { 819 1.1 tshiozak memcpy((void *)&tmpep, (void *)p, sizeof(tmpep)); 820 1.1 tshiozak memcpy((void *)p, (void *)lowest, sizeof(tmpep)); 821 1.1 tshiozak memcpy((void *)lowest, (void *)&tmpep, sizeof(tmpep)); 822 1.1 tshiozak } 823 1.7 tshiozak p->num_open = 0; 824 1.7 tshiozak p++; 825 1.1 tshiozak } 826 1.16 augustss 827 1.1 tshiozak sc->sc_out_ep = sc->sc_out_num_endpoints ? sc->sc_endpoints : NULL; 828 1.1 tshiozak sc->sc_in_ep = 829 1.1 tshiozak sc->sc_in_num_endpoints ? 830 1.1 tshiozak sc->sc_endpoints+sc->sc_out_num_endpoints : NULL; 831 1.1 tshiozak 832 1.1 tshiozak return USBD_NORMAL_COMPLETION; 833 1.1 tshiozak } 834 1.1 tshiozak 835 1.1 tshiozak 836 1.4 tshiozak /* 837 1.4 tshiozak * jack stuffs 838 1.4 tshiozak */ 839 1.4 tshiozak 840 1.1 tshiozak static usbd_status 841 1.1 tshiozak alloc_all_jacks(struct umidi_softc *sc) 842 1.1 tshiozak { 843 1.1 tshiozak int i, j; 844 1.1 tshiozak struct umidi_endpoint *ep; 845 1.24.4.1 rpaulo struct umidi_jack *jack; 846 1.24.4.1 rpaulo unsigned char *cn_spec; 847 1.24.4.1 rpaulo 848 1.24.4.1 rpaulo if (UMQ_ISTYPE(sc, UMQ_TYPE_CN_SEQ_PER_EP)) 849 1.24.4.1 rpaulo sc->cblnums_global = 0; 850 1.24.4.1 rpaulo else if (UMQ_ISTYPE(sc, UMQ_TYPE_CN_SEQ_GLOBAL)) 851 1.24.4.1 rpaulo sc->cblnums_global = 1; 852 1.24.4.1 rpaulo else { 853 1.24.4.1 rpaulo /* 854 1.24.4.1 rpaulo * I don't think this default is correct, but it preserves 855 1.24.4.1 rpaulo * the prior behavior of the code. That's why I defined two 856 1.24.4.1 rpaulo * complementary quirks. Any device for which the default 857 1.24.4.1 rpaulo * behavior is wrong can be made to work by giving it an 858 1.24.4.1 rpaulo * explicit quirk, and if a pattern ever develops (as I suspect 859 1.24.4.1 rpaulo * it will) that a lot of otherwise standard USB MIDI devices 860 1.24.4.1 rpaulo * need the CN_SEQ_PER_EP "quirk," then this default can be 861 1.24.4.1 rpaulo * changed to 0, and the only devices that will break are those 862 1.24.4.1 rpaulo * listing neither quirk, and they'll easily be fixed by giving 863 1.24.4.1 rpaulo * them the CN_SEQ_GLOBAL quirk. 864 1.24.4.1 rpaulo */ 865 1.24.4.1 rpaulo sc->cblnums_global = 1; 866 1.24.4.1 rpaulo } 867 1.24.4.1 rpaulo 868 1.24.4.1 rpaulo if (UMQ_ISTYPE(sc, UMQ_TYPE_CN_FIXED)) 869 1.24.4.1 rpaulo cn_spec = umidi_get_quirk_data_from_type(sc->sc_quirk, 870 1.24.4.1 rpaulo UMQ_TYPE_CN_FIXED); 871 1.24.4.1 rpaulo else 872 1.24.4.1 rpaulo cn_spec = NULL; 873 1.1 tshiozak 874 1.1 tshiozak /* allocate/initialize structures */ 875 1.1 tshiozak sc->sc_jacks = 876 1.1 tshiozak malloc(sizeof(*sc->sc_out_jacks)*(sc->sc_in_num_jacks+ 877 1.1 tshiozak sc->sc_out_num_jacks), 878 1.1 tshiozak M_USBDEV, M_WAITOK); 879 1.1 tshiozak if (!sc->sc_jacks) 880 1.1 tshiozak return USBD_NOMEM; 881 1.1 tshiozak sc->sc_out_jacks = 882 1.1 tshiozak sc->sc_out_num_jacks ? sc->sc_jacks : NULL; 883 1.1 tshiozak sc->sc_in_jacks = 884 1.1 tshiozak sc->sc_in_num_jacks ? sc->sc_jacks+sc->sc_out_num_jacks : NULL; 885 1.1 tshiozak 886 1.1 tshiozak jack = &sc->sc_out_jacks[0]; 887 1.1 tshiozak for (i=0; i<sc->sc_out_num_jacks; i++) { 888 1.4 tshiozak jack->opened = 0; 889 1.4 tshiozak jack->binded = 0; 890 1.4 tshiozak jack->arg = NULL; 891 1.4 tshiozak jack->u.out.intr = NULL; 892 1.24.4.1 rpaulo jack->midiman_ppkt = NULL; 893 1.24.4.1 rpaulo if ( sc->cblnums_global ) 894 1.24.4.1 rpaulo jack->cable_number = i; 895 1.1 tshiozak jack++; 896 1.1 tshiozak } 897 1.1 tshiozak jack = &sc->sc_in_jacks[0]; 898 1.1 tshiozak for (i=0; i<sc->sc_in_num_jacks; i++) { 899 1.4 tshiozak jack->opened = 0; 900 1.4 tshiozak jack->binded = 0; 901 1.4 tshiozak jack->arg = NULL; 902 1.4 tshiozak jack->u.in.intr = NULL; 903 1.24.4.1 rpaulo if ( sc->cblnums_global ) 904 1.24.4.1 rpaulo jack->cable_number = i; 905 1.1 tshiozak jack++; 906 1.1 tshiozak } 907 1.1 tshiozak 908 1.1 tshiozak /* assign each jacks to each endpoints */ 909 1.1 tshiozak jack = &sc->sc_out_jacks[0]; 910 1.1 tshiozak ep = &sc->sc_out_ep[0]; 911 1.1 tshiozak for (i=0; i<sc->sc_out_num_endpoints; i++) { 912 1.1 tshiozak for (j=0; j<ep->num_jacks; j++) { 913 1.1 tshiozak jack->endpoint = ep; 914 1.24.4.1 rpaulo if ( cn_spec != NULL ) 915 1.24.4.1 rpaulo jack->cable_number = *cn_spec++; 916 1.24.4.1 rpaulo else if ( !sc->cblnums_global ) 917 1.24.4.1 rpaulo jack->cable_number = j; 918 1.24.4.1 rpaulo ep->jacks[jack->cable_number] = jack; 919 1.1 tshiozak jack++; 920 1.1 tshiozak } 921 1.1 tshiozak ep++; 922 1.1 tshiozak } 923 1.1 tshiozak jack = &sc->sc_in_jacks[0]; 924 1.1 tshiozak ep = &sc->sc_in_ep[0]; 925 1.1 tshiozak for (i=0; i<sc->sc_in_num_endpoints; i++) { 926 1.1 tshiozak for (j=0; j<ep->num_jacks; j++) { 927 1.1 tshiozak jack->endpoint = ep; 928 1.24.4.1 rpaulo if ( cn_spec != NULL ) 929 1.24.4.1 rpaulo jack->cable_number = *cn_spec++; 930 1.24.4.1 rpaulo else if ( !sc->cblnums_global ) 931 1.24.4.1 rpaulo jack->cable_number = j; 932 1.24.4.1 rpaulo ep->jacks[jack->cable_number] = jack; 933 1.1 tshiozak jack++; 934 1.1 tshiozak } 935 1.1 tshiozak ep++; 936 1.1 tshiozak } 937 1.1 tshiozak 938 1.1 tshiozak return USBD_NORMAL_COMPLETION; 939 1.1 tshiozak } 940 1.1 tshiozak 941 1.1 tshiozak static void 942 1.1 tshiozak free_all_jacks(struct umidi_softc *sc) 943 1.1 tshiozak { 944 1.1 tshiozak int s; 945 1.1 tshiozak 946 1.1 tshiozak s = splaudio(); 947 1.1 tshiozak if (sc->sc_out_jacks) { 948 1.1 tshiozak free(sc->sc_jacks, M_USBDEV); 949 1.1 tshiozak sc->sc_jacks = sc->sc_in_jacks = sc->sc_out_jacks = NULL; 950 1.1 tshiozak } 951 1.1 tshiozak splx(s); 952 1.1 tshiozak } 953 1.1 tshiozak 954 1.1 tshiozak static usbd_status 955 1.1 tshiozak bind_jacks_to_mididev(struct umidi_softc *sc, 956 1.1 tshiozak struct umidi_jack *out_jack, 957 1.1 tshiozak struct umidi_jack *in_jack, 958 1.1 tshiozak struct umidi_mididev *mididev) 959 1.1 tshiozak { 960 1.8 tshiozak if ((out_jack && out_jack->binded) || (in_jack && in_jack->binded)) 961 1.4 tshiozak return USBD_IN_USE; 962 1.4 tshiozak if (mididev->out_jack || mididev->in_jack) 963 1.1 tshiozak return USBD_IN_USE; 964 1.1 tshiozak 965 1.4 tshiozak if (out_jack) 966 1.4 tshiozak out_jack->binded = 1; 967 1.4 tshiozak if (in_jack) 968 1.4 tshiozak in_jack->binded = 1; 969 1.1 tshiozak mididev->in_jack = in_jack; 970 1.1 tshiozak mididev->out_jack = out_jack; 971 1.1 tshiozak 972 1.1 tshiozak return USBD_NORMAL_COMPLETION; 973 1.1 tshiozak } 974 1.1 tshiozak 975 1.4 tshiozak static void 976 1.1 tshiozak unbind_jacks_from_mididev(struct umidi_mididev *mididev) 977 1.1 tshiozak { 978 1.15 tshiozak if ((mididev->flags & FWRITE) && mididev->out_jack) 979 1.4 tshiozak close_out_jack(mididev->out_jack); 980 1.15 tshiozak if ((mididev->flags & FREAD) && mididev->in_jack) 981 1.4 tshiozak close_in_jack(mididev->in_jack); 982 1.1 tshiozak 983 1.4 tshiozak if (mididev->out_jack) 984 1.4 tshiozak mididev->out_jack->binded = 0; 985 1.4 tshiozak if (mididev->in_jack) 986 1.4 tshiozak mididev->in_jack->binded = 0; 987 1.4 tshiozak mididev->out_jack = mididev->in_jack = NULL; 988 1.1 tshiozak } 989 1.1 tshiozak 990 1.4 tshiozak static void 991 1.1 tshiozak unbind_all_jacks(struct umidi_softc *sc) 992 1.1 tshiozak { 993 1.1 tshiozak int i; 994 1.1 tshiozak 995 1.1 tshiozak if (sc->sc_mididevs) 996 1.1 tshiozak for (i=0; i<sc->sc_num_mididevs; i++) { 997 1.4 tshiozak unbind_jacks_from_mididev(&sc->sc_mididevs[i]); 998 1.1 tshiozak } 999 1.1 tshiozak } 1000 1.1 tshiozak 1001 1.1 tshiozak static usbd_status 1002 1.1 tshiozak assign_all_jacks_automatically(struct umidi_softc *sc) 1003 1.1 tshiozak { 1004 1.1 tshiozak usbd_status err; 1005 1.1 tshiozak int i; 1006 1.1 tshiozak struct umidi_jack *out, *in; 1007 1.24.4.1 rpaulo signed char *asg_spec; 1008 1.1 tshiozak 1009 1.1 tshiozak err = 1010 1.1 tshiozak alloc_all_mididevs(sc, 1011 1.1 tshiozak max(sc->sc_out_num_jacks, sc->sc_in_num_jacks)); 1012 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) 1013 1.1 tshiozak return err; 1014 1.1 tshiozak 1015 1.24.4.1 rpaulo if ( UMQ_ISTYPE(sc, UMQ_TYPE_MD_FIXED)) 1016 1.24.4.1 rpaulo asg_spec = umidi_get_quirk_data_from_type(sc->sc_quirk, 1017 1.24.4.1 rpaulo UMQ_TYPE_MD_FIXED); 1018 1.24.4.1 rpaulo else 1019 1.24.4.1 rpaulo asg_spec = NULL; 1020 1.24.4.1 rpaulo 1021 1.1 tshiozak for (i=0; i<sc->sc_num_mididevs; i++) { 1022 1.24.4.1 rpaulo if ( asg_spec != NULL ) { 1023 1.24.4.1 rpaulo if ( *asg_spec == -1 ) 1024 1.24.4.1 rpaulo out = NULL; 1025 1.24.4.1 rpaulo else 1026 1.24.4.1 rpaulo out = &sc->sc_out_jacks[*asg_spec]; 1027 1.24.4.1 rpaulo ++ asg_spec; 1028 1.24.4.1 rpaulo if ( *asg_spec == -1 ) 1029 1.24.4.1 rpaulo in = NULL; 1030 1.24.4.1 rpaulo else 1031 1.24.4.1 rpaulo in = &sc->sc_in_jacks[*asg_spec]; 1032 1.24.4.1 rpaulo ++ asg_spec; 1033 1.24.4.1 rpaulo } else { 1034 1.24.4.1 rpaulo out = (i<sc->sc_out_num_jacks) ? &sc->sc_out_jacks[i] 1035 1.24.4.1 rpaulo : NULL; 1036 1.24.4.1 rpaulo in = (i<sc->sc_in_num_jacks) ? &sc->sc_in_jacks[i] 1037 1.24.4.1 rpaulo : NULL; 1038 1.24.4.1 rpaulo } 1039 1.1 tshiozak err = bind_jacks_to_mididev(sc, out, in, &sc->sc_mididevs[i]); 1040 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) { 1041 1.1 tshiozak free_all_mididevs(sc); 1042 1.1 tshiozak return err; 1043 1.1 tshiozak } 1044 1.1 tshiozak } 1045 1.1 tshiozak 1046 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1047 1.1 tshiozak } 1048 1.1 tshiozak 1049 1.1 tshiozak static usbd_status 1050 1.4 tshiozak open_out_jack(struct umidi_jack *jack, void *arg, void (*intr)(void *)) 1051 1.4 tshiozak { 1052 1.4 tshiozak struct umidi_endpoint *ep = jack->endpoint; 1053 1.24.4.1 rpaulo umidi_packet_bufp end; 1054 1.24.4.1 rpaulo int s; 1055 1.24.4.1 rpaulo int err; 1056 1.4 tshiozak 1057 1.4 tshiozak if (jack->opened) 1058 1.4 tshiozak return USBD_IN_USE; 1059 1.4 tshiozak 1060 1.4 tshiozak jack->arg = arg; 1061 1.4 tshiozak jack->u.out.intr = intr; 1062 1.24.4.1 rpaulo jack->midiman_ppkt = NULL; 1063 1.24.4.1 rpaulo end = ep->buffer + ep->buffer_size / sizeof *ep->buffer; 1064 1.24.4.1 rpaulo s = splusb(); 1065 1.4 tshiozak jack->opened = 1; 1066 1.4 tshiozak ep->num_open++; 1067 1.24.4.1 rpaulo /* 1068 1.24.4.1 rpaulo * out_solicit maintains an invariant that there will always be 1069 1.24.4.1 rpaulo * (num_open - num_scheduled) slots free in the buffer. as we have 1070 1.24.4.1 rpaulo * just incremented num_open, the buffer may be too full to satisfy 1071 1.24.4.1 rpaulo * the invariant until a transfer completes, for which we must wait. 1072 1.24.4.1 rpaulo */ 1073 1.24.4.1 rpaulo while ( end - ep->next_slot < ep->num_open - ep->num_scheduled ) { 1074 1.24.4.1 rpaulo err = tsleep(ep, PWAIT|PCATCH, "umi op", mstohz(10)); 1075 1.24.4.1 rpaulo if ( err ) { 1076 1.24.4.1 rpaulo ep->num_open--; 1077 1.24.4.1 rpaulo jack->opened = 0; 1078 1.24.4.1 rpaulo splx(s); 1079 1.24.4.1 rpaulo return USBD_IOERROR; 1080 1.24.4.1 rpaulo } 1081 1.24.4.1 rpaulo } 1082 1.24.4.1 rpaulo splx(s); 1083 1.4 tshiozak 1084 1.4 tshiozak return USBD_NORMAL_COMPLETION; 1085 1.4 tshiozak } 1086 1.4 tshiozak 1087 1.4 tshiozak static usbd_status 1088 1.4 tshiozak open_in_jack(struct umidi_jack *jack, void *arg, void (*intr)(void *, int)) 1089 1.1 tshiozak { 1090 1.3 tshiozak usbd_status err = USBD_NORMAL_COMPLETION; 1091 1.3 tshiozak struct umidi_endpoint *ep = jack->endpoint; 1092 1.3 tshiozak 1093 1.4 tshiozak if (jack->opened) 1094 1.4 tshiozak return USBD_IN_USE; 1095 1.4 tshiozak 1096 1.4 tshiozak jack->arg = arg; 1097 1.4 tshiozak jack->u.in.intr = intr; 1098 1.4 tshiozak jack->opened = 1; 1099 1.3 tshiozak if (ep->num_open++==0 && UE_GET_DIR(ep->addr)==UE_DIR_IN) { 1100 1.3 tshiozak err = start_input_transfer(ep); 1101 1.18 gson if (err != USBD_NORMAL_COMPLETION && 1102 1.18 gson err != USBD_IN_PROGRESS) { 1103 1.3 tshiozak ep->num_open--; 1104 1.3 tshiozak } 1105 1.3 tshiozak } 1106 1.3 tshiozak 1107 1.3 tshiozak return err; 1108 1.1 tshiozak } 1109 1.1 tshiozak 1110 1.1 tshiozak static void 1111 1.4 tshiozak close_out_jack(struct umidi_jack *jack) 1112 1.1 tshiozak { 1113 1.24.4.1 rpaulo struct umidi_endpoint *ep; 1114 1.3 tshiozak int s; 1115 1.24.4.1 rpaulo u_int16_t mask; 1116 1.24.4.1 rpaulo int err; 1117 1.4 tshiozak 1118 1.4 tshiozak if (jack->opened) { 1119 1.24.4.1 rpaulo ep = jack->endpoint; 1120 1.24.4.1 rpaulo mask = 1 << (jack->cable_number); 1121 1.4 tshiozak s = splusb(); 1122 1.24.4.1 rpaulo while ( mask & (ep->this_schedule | ep->next_schedule) ) { 1123 1.24.4.1 rpaulo err = tsleep(ep, PWAIT|PCATCH, "umi dr", mstohz(10)); 1124 1.24.4.1 rpaulo if ( err ) 1125 1.15 tshiozak break; 1126 1.3 tshiozak } 1127 1.4 tshiozak jack->opened = 0; 1128 1.4 tshiozak jack->endpoint->num_open--; 1129 1.24.4.1 rpaulo ep->this_schedule &= ~mask; 1130 1.24.4.1 rpaulo ep->next_schedule &= ~mask; 1131 1.24.4.1 rpaulo splx(s); 1132 1.3 tshiozak } 1133 1.1 tshiozak } 1134 1.1 tshiozak 1135 1.4 tshiozak static void 1136 1.4 tshiozak close_in_jack(struct umidi_jack *jack) 1137 1.4 tshiozak { 1138 1.4 tshiozak if (jack->opened) { 1139 1.4 tshiozak jack->opened = 0; 1140 1.19 gson if (--jack->endpoint->num_open == 0) { 1141 1.19 gson usbd_abort_pipe(jack->endpoint->pipe); 1142 1.19 gson } 1143 1.4 tshiozak } 1144 1.4 tshiozak } 1145 1.1 tshiozak 1146 1.1 tshiozak static usbd_status 1147 1.1 tshiozak attach_mididev(struct umidi_softc *sc, struct umidi_mididev *mididev) 1148 1.1 tshiozak { 1149 1.1 tshiozak if (mididev->sc) 1150 1.1 tshiozak return USBD_IN_USE; 1151 1.1 tshiozak 1152 1.1 tshiozak mididev->sc = sc; 1153 1.24.4.1 rpaulo 1154 1.24.4.1 rpaulo mididev->label = describe_mididev(mididev); 1155 1.1 tshiozak 1156 1.1 tshiozak mididev->mdev = midi_attach_mi(&umidi_hw_if, mididev, &sc->sc_dev); 1157 1.1 tshiozak 1158 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1159 1.1 tshiozak } 1160 1.1 tshiozak 1161 1.1 tshiozak static usbd_status 1162 1.1 tshiozak detach_mididev(struct umidi_mididev *mididev, int flags) 1163 1.1 tshiozak { 1164 1.1 tshiozak if (!mididev->sc) 1165 1.1 tshiozak return USBD_NO_ADDR; 1166 1.1 tshiozak 1167 1.1 tshiozak if (mididev->opened) { 1168 1.1 tshiozak umidi_close(mididev); 1169 1.1 tshiozak } 1170 1.4 tshiozak unbind_jacks_from_mididev(mididev); 1171 1.1 tshiozak 1172 1.1 tshiozak if (mididev->mdev) 1173 1.1 tshiozak config_detach(mididev->mdev, flags); 1174 1.24.4.1 rpaulo 1175 1.24.4.1 rpaulo if (NULL != mididev->label) { 1176 1.24.4.1 rpaulo free(mididev->label, M_USBDEV); 1177 1.24.4.1 rpaulo mididev->label = NULL; 1178 1.24.4.1 rpaulo } 1179 1.1 tshiozak 1180 1.1 tshiozak mididev->sc = NULL; 1181 1.1 tshiozak 1182 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1183 1.1 tshiozak } 1184 1.1 tshiozak 1185 1.1 tshiozak static usbd_status 1186 1.1 tshiozak deactivate_mididev(struct umidi_mididev *mididev) 1187 1.1 tshiozak { 1188 1.4 tshiozak if (mididev->out_jack) 1189 1.4 tshiozak mididev->out_jack->binded = 0; 1190 1.4 tshiozak if (mididev->in_jack) 1191 1.4 tshiozak mididev->in_jack->binded = 0; 1192 1.1 tshiozak config_deactivate(mididev->mdev); 1193 1.1 tshiozak 1194 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1195 1.1 tshiozak } 1196 1.1 tshiozak 1197 1.1 tshiozak static usbd_status 1198 1.1 tshiozak alloc_all_mididevs(struct umidi_softc *sc, int nmidi) 1199 1.1 tshiozak { 1200 1.1 tshiozak sc->sc_num_mididevs = nmidi; 1201 1.1 tshiozak sc->sc_mididevs = malloc(sizeof(*sc->sc_mididevs)*nmidi, 1202 1.13 tsutsui M_USBDEV, M_WAITOK|M_ZERO); 1203 1.1 tshiozak if (!sc->sc_mididevs) 1204 1.1 tshiozak return USBD_NOMEM; 1205 1.1 tshiozak 1206 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1207 1.1 tshiozak } 1208 1.1 tshiozak 1209 1.1 tshiozak static void 1210 1.1 tshiozak free_all_mididevs(struct umidi_softc *sc) 1211 1.1 tshiozak { 1212 1.1 tshiozak sc->sc_num_mididevs = 0; 1213 1.1 tshiozak if (sc->sc_mididevs) 1214 1.1 tshiozak free(sc->sc_mididevs, M_USBDEV); 1215 1.1 tshiozak } 1216 1.1 tshiozak 1217 1.1 tshiozak static usbd_status 1218 1.1 tshiozak attach_all_mididevs(struct umidi_softc *sc) 1219 1.1 tshiozak { 1220 1.1 tshiozak usbd_status err; 1221 1.1 tshiozak int i; 1222 1.1 tshiozak 1223 1.1 tshiozak if (sc->sc_mididevs) 1224 1.1 tshiozak for (i=0; i<sc->sc_num_mididevs; i++) { 1225 1.1 tshiozak err = attach_mididev(sc, &sc->sc_mididevs[i]); 1226 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) 1227 1.1 tshiozak return err; 1228 1.1 tshiozak } 1229 1.1 tshiozak 1230 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1231 1.1 tshiozak } 1232 1.1 tshiozak 1233 1.1 tshiozak static usbd_status 1234 1.1 tshiozak detach_all_mididevs(struct umidi_softc *sc, int flags) 1235 1.1 tshiozak { 1236 1.1 tshiozak usbd_status err; 1237 1.1 tshiozak int i; 1238 1.1 tshiozak 1239 1.1 tshiozak if (sc->sc_mididevs) 1240 1.1 tshiozak for (i=0; i<sc->sc_num_mididevs; i++) { 1241 1.1 tshiozak err = detach_mididev(&sc->sc_mididevs[i], flags); 1242 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) 1243 1.1 tshiozak return err; 1244 1.1 tshiozak } 1245 1.1 tshiozak 1246 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1247 1.1 tshiozak } 1248 1.1 tshiozak 1249 1.1 tshiozak static usbd_status 1250 1.1 tshiozak deactivate_all_mididevs(struct umidi_softc *sc) 1251 1.1 tshiozak { 1252 1.1 tshiozak usbd_status err; 1253 1.1 tshiozak int i; 1254 1.1 tshiozak 1255 1.1 tshiozak if (sc->sc_mididevs) 1256 1.1 tshiozak for (i=0; i<sc->sc_num_mididevs; i++) { 1257 1.1 tshiozak err = deactivate_mididev(&sc->sc_mididevs[i]); 1258 1.1 tshiozak if (err!=USBD_NORMAL_COMPLETION) 1259 1.1 tshiozak return err; 1260 1.1 tshiozak } 1261 1.1 tshiozak 1262 1.1 tshiozak return USBD_NORMAL_COMPLETION; 1263 1.1 tshiozak } 1264 1.1 tshiozak 1265 1.24.4.1 rpaulo /* 1266 1.24.4.1 rpaulo * TODO: the 0-based cable numbers will often not match the labeling of the 1267 1.24.4.1 rpaulo * equipment. Ideally: 1268 1.24.4.1 rpaulo * For class-compliant devices: get the iJack string from the jack descriptor. 1269 1.24.4.1 rpaulo * Otherwise: 1270 1.24.4.1 rpaulo * - support a DISPLAY_BASE_CN quirk (add the value to each internal cable 1271 1.24.4.1 rpaulo * number for display) 1272 1.24.4.1 rpaulo * - support an array quirk explictly giving a char * for each jack. 1273 1.24.4.1 rpaulo * For now, you get 0-based cable numbers. If there are multiple endpoints and 1274 1.24.4.1 rpaulo * the CNs are not globally unique, each is shown with its associated endpoint 1275 1.24.4.1 rpaulo * address in hex also. That should not be necessary when using iJack values 1276 1.24.4.1 rpaulo * or a quirk array. 1277 1.24.4.1 rpaulo */ 1278 1.24.4.1 rpaulo static char * 1279 1.24.4.1 rpaulo describe_mididev(struct umidi_mididev *md) 1280 1.24.4.1 rpaulo { 1281 1.24.4.1 rpaulo char in_label[16]; 1282 1.24.4.1 rpaulo char out_label[16]; 1283 1.24.4.1 rpaulo char *unit_label; 1284 1.24.4.1 rpaulo char *final_label; 1285 1.24.4.1 rpaulo struct umidi_softc *sc; 1286 1.24.4.1 rpaulo int show_ep_in; 1287 1.24.4.1 rpaulo int show_ep_out; 1288 1.24.4.1 rpaulo size_t len; 1289 1.24.4.1 rpaulo 1290 1.24.4.1 rpaulo sc = md->sc; 1291 1.24.4.1 rpaulo show_ep_in = sc-> sc_in_num_endpoints > 1 && !sc->cblnums_global; 1292 1.24.4.1 rpaulo show_ep_out = sc->sc_out_num_endpoints > 1 && !sc->cblnums_global; 1293 1.24.4.1 rpaulo 1294 1.24.4.1 rpaulo if ( NULL != md->in_jack ) 1295 1.24.4.1 rpaulo snprintf(in_label, sizeof in_label, 1296 1.24.4.1 rpaulo show_ep_in ? "<%d(%x) " : "<%d ", 1297 1.24.4.1 rpaulo md->in_jack->cable_number, 1298 1.24.4.1 rpaulo md->in_jack->endpoint->addr); 1299 1.24.4.1 rpaulo else 1300 1.24.4.1 rpaulo in_label[0] = '\0'; 1301 1.24.4.1 rpaulo 1302 1.24.4.1 rpaulo if ( NULL != md->out_jack ) 1303 1.24.4.1 rpaulo snprintf(out_label, sizeof out_label, 1304 1.24.4.1 rpaulo show_ep_out ? ">%d(%x) " : ">%d ", 1305 1.24.4.1 rpaulo md->out_jack->cable_number, 1306 1.24.4.1 rpaulo md->out_jack->endpoint->addr); 1307 1.24.4.1 rpaulo else 1308 1.24.4.1 rpaulo in_label[0] = '\0'; 1309 1.24.4.1 rpaulo 1310 1.24.4.1 rpaulo unit_label = USBDEVNAME(sc->sc_dev); 1311 1.24.4.1 rpaulo 1312 1.24.4.1 rpaulo len = strlen(in_label) + strlen(out_label) + strlen(unit_label) + 4; 1313 1.24.4.1 rpaulo 1314 1.24.4.1 rpaulo final_label = malloc(len, M_USBDEV, M_WAITOK); 1315 1.24.4.1 rpaulo 1316 1.24.4.1 rpaulo snprintf(final_label, len, "%s%son %s", 1317 1.24.4.1 rpaulo in_label, out_label, unit_label); 1318 1.24.4.1 rpaulo 1319 1.24.4.1 rpaulo return final_label; 1320 1.24.4.1 rpaulo } 1321 1.24.4.1 rpaulo 1322 1.1 tshiozak #ifdef UMIDI_DEBUG 1323 1.1 tshiozak static void 1324 1.1 tshiozak dump_sc(struct umidi_softc *sc) 1325 1.1 tshiozak { 1326 1.1 tshiozak int i; 1327 1.1 tshiozak 1328 1.1 tshiozak DPRINTFN(10, ("%s: dump_sc\n", USBDEVNAME(sc->sc_dev))); 1329 1.1 tshiozak for (i=0; i<sc->sc_out_num_endpoints; i++) { 1330 1.1 tshiozak DPRINTFN(10, ("\tout_ep(%p):\n", &sc->sc_out_ep[i])); 1331 1.1 tshiozak dump_ep(&sc->sc_out_ep[i]); 1332 1.1 tshiozak } 1333 1.1 tshiozak for (i=0; i<sc->sc_in_num_endpoints; i++) { 1334 1.1 tshiozak DPRINTFN(10, ("\tin_ep(%p):\n", &sc->sc_in_ep[i])); 1335 1.1 tshiozak dump_ep(&sc->sc_in_ep[i]); 1336 1.1 tshiozak } 1337 1.1 tshiozak } 1338 1.1 tshiozak 1339 1.1 tshiozak static void 1340 1.1 tshiozak dump_ep(struct umidi_endpoint *ep) 1341 1.1 tshiozak { 1342 1.1 tshiozak int i; 1343 1.24.4.1 rpaulo for (i=0; i<UMIDI_MAX_EPJACKS; i++) { 1344 1.24.4.1 rpaulo if (NULL==ep->jacks[i]) 1345 1.24.4.1 rpaulo continue; 1346 1.24.4.1 rpaulo DPRINTFN(10, ("\t\tjack[%d]:%p:\n", i, ep->jacks[i])); 1347 1.1 tshiozak dump_jack(ep->jacks[i]); 1348 1.1 tshiozak } 1349 1.1 tshiozak } 1350 1.1 tshiozak static void 1351 1.1 tshiozak dump_jack(struct umidi_jack *jack) 1352 1.1 tshiozak { 1353 1.15 tshiozak DPRINTFN(10, ("\t\t\tep=%p\n", 1354 1.15 tshiozak jack->endpoint)); 1355 1.1 tshiozak } 1356 1.1 tshiozak 1357 1.1 tshiozak #endif /* UMIDI_DEBUG */ 1358 1.1 tshiozak 1359 1.1 tshiozak 1360 1.1 tshiozak 1361 1.1 tshiozak /* 1362 1.1 tshiozak * MUX MIDI PACKET 1363 1.1 tshiozak */ 1364 1.1 tshiozak 1365 1.5 jdolecek static const int packet_length[16] = { 1366 1.1 tshiozak /*0*/ -1, 1367 1.1 tshiozak /*1*/ -1, 1368 1.1 tshiozak /*2*/ 2, 1369 1.1 tshiozak /*3*/ 3, 1370 1.1 tshiozak /*4*/ 3, 1371 1.1 tshiozak /*5*/ 1, 1372 1.1 tshiozak /*6*/ 2, 1373 1.1 tshiozak /*7*/ 3, 1374 1.1 tshiozak /*8*/ 3, 1375 1.1 tshiozak /*9*/ 3, 1376 1.1 tshiozak /*A*/ 3, 1377 1.1 tshiozak /*B*/ 3, 1378 1.1 tshiozak /*C*/ 2, 1379 1.1 tshiozak /*D*/ 2, 1380 1.1 tshiozak /*E*/ 3, 1381 1.1 tshiozak /*F*/ 1, 1382 1.1 tshiozak }; 1383 1.1 tshiozak 1384 1.1 tshiozak #define GET_CN(p) (((unsigned char)(p)>>4)&0x0F) 1385 1.1 tshiozak #define GET_CIN(p) ((unsigned char)(p)&0x0F) 1386 1.1 tshiozak #define MIX_CN_CIN(cn, cin) \ 1387 1.1 tshiozak ((unsigned char)((((unsigned char)(cn)&0x0F)<<4)| \ 1388 1.3 tshiozak ((unsigned char)(cin)&0x0F))) 1389 1.1 tshiozak 1390 1.1 tshiozak static usbd_status 1391 1.1 tshiozak start_input_transfer(struct umidi_endpoint *ep) 1392 1.1 tshiozak { 1393 1.1 tshiozak usbd_setup_xfer(ep->xfer, ep->pipe, 1394 1.1 tshiozak (usbd_private_handle)ep, 1395 1.24.4.1 rpaulo ep->buffer, ep->buffer_size, 1396 1.24.4.1 rpaulo USBD_SHORT_XFER_OK | USBD_NO_COPY, 1397 1.24.4.1 rpaulo USBD_NO_TIMEOUT, in_intr); 1398 1.1 tshiozak return usbd_transfer(ep->xfer); 1399 1.1 tshiozak } 1400 1.1 tshiozak 1401 1.1 tshiozak static usbd_status 1402 1.1 tshiozak start_output_transfer(struct umidi_endpoint *ep) 1403 1.1 tshiozak { 1404 1.24.4.1 rpaulo usbd_status rv; 1405 1.24.4.1 rpaulo u_int32_t length; 1406 1.24.4.1 rpaulo int i; 1407 1.24.4.1 rpaulo 1408 1.24.4.1 rpaulo length = (ep->next_slot - ep->buffer) * sizeof *ep->buffer; 1409 1.24.4.1 rpaulo DPRINTFN(200,("umidi out transfer: start %p end %p length %u\n", 1410 1.24.4.1 rpaulo ep->buffer, ep->next_slot, length)); 1411 1.1 tshiozak usbd_setup_xfer(ep->xfer, ep->pipe, 1412 1.1 tshiozak (usbd_private_handle)ep, 1413 1.24.4.1 rpaulo ep->buffer, length, 1414 1.11 augustss USBD_NO_COPY, USBD_NO_TIMEOUT, out_intr); 1415 1.24.4.1 rpaulo rv = usbd_transfer(ep->xfer); 1416 1.24.4.1 rpaulo 1417 1.24.4.1 rpaulo /* 1418 1.24.4.1 rpaulo * Once the transfer is scheduled, no more adding to partial 1419 1.24.4.1 rpaulo * packets within it. 1420 1.24.4.1 rpaulo */ 1421 1.24.4.1 rpaulo if (UMQ_ISTYPE(ep->sc, UMQ_TYPE_MIDIMAN_GARBLE)) { 1422 1.24.4.1 rpaulo for (i=0; i<UMIDI_MAX_EPJACKS; ++i) 1423 1.24.4.1 rpaulo if (NULL != ep->jacks[i]) 1424 1.24.4.1 rpaulo ep->jacks[i]->midiman_ppkt = NULL; 1425 1.24.4.1 rpaulo } 1426 1.24.4.1 rpaulo 1427 1.24.4.1 rpaulo return rv; 1428 1.1 tshiozak } 1429 1.1 tshiozak 1430 1.4 tshiozak #ifdef UMIDI_DEBUG 1431 1.4 tshiozak #define DPR_PACKET(dir, sc, p) \ 1432 1.24.4.1 rpaulo if ((unsigned char)(p)[1]!=0xFE) \ 1433 1.4 tshiozak DPRINTFN(500, \ 1434 1.4 tshiozak ("%s: umidi packet(" #dir "): %02X %02X %02X %02X\n", \ 1435 1.4 tshiozak USBDEVNAME(sc->sc_dev), \ 1436 1.24.4.1 rpaulo (unsigned char)(p)[0], \ 1437 1.24.4.1 rpaulo (unsigned char)(p)[1], \ 1438 1.24.4.1 rpaulo (unsigned char)(p)[2], \ 1439 1.24.4.1 rpaulo (unsigned char)(p)[3])); 1440 1.4 tshiozak #else 1441 1.4 tshiozak #define DPR_PACKET(dir, sc, p) 1442 1.4 tshiozak #endif 1443 1.4 tshiozak 1444 1.24.4.1 rpaulo /* 1445 1.24.4.1 rpaulo * A 4-byte Midiman packet superficially resembles a 4-byte USB MIDI packet 1446 1.24.4.1 rpaulo * with the cable number and length in the last byte instead of the first, 1447 1.24.4.1 rpaulo * but there the resemblance ends. Where a USB MIDI packet is a semantic 1448 1.24.4.1 rpaulo * unit, a Midiman packet is just a wrapper for 1 to 3 bytes of raw MIDI 1449 1.24.4.1 rpaulo * with a cable nybble and a length nybble (which, unlike the CIN of a 1450 1.24.4.1 rpaulo * real USB MIDI packet, has no semantics at all besides the length). 1451 1.24.4.1 rpaulo * A packet received from a Midiman may contain part of a MIDI message, 1452 1.24.4.1 rpaulo * more than one MIDI message, or parts of more than one MIDI message. A 1453 1.24.4.1 rpaulo * three-byte MIDI message may arrive in three packets of data length 1, and 1454 1.24.4.1 rpaulo * running status may be used. Happily, the midi(4) driver above us will put 1455 1.24.4.1 rpaulo * it all back together, so the only cost is in USB bandwidth. The device 1456 1.24.4.1 rpaulo * has an easier time with what it receives from us: we'll pack messages in 1457 1.24.4.1 rpaulo * and across packets, but filling the packets whenever possible and, 1458 1.24.4.1 rpaulo * as midi(4) hands us a complete message at a time, we'll never send one 1459 1.24.4.1 rpaulo * in a dribble of short packets. 1460 1.24.4.1 rpaulo */ 1461 1.24.4.1 rpaulo 1462 1.4 tshiozak static int 1463 1.24.4.1 rpaulo out_jack_output(struct umidi_jack *out_jack, u_char *src, int len, int cin) 1464 1.4 tshiozak { 1465 1.4 tshiozak struct umidi_endpoint *ep = out_jack->endpoint; 1466 1.4 tshiozak struct umidi_softc *sc = ep->sc; 1467 1.24.4.1 rpaulo unsigned char *packet; 1468 1.4 tshiozak int s; 1469 1.24.4.1 rpaulo int plen; 1470 1.24.4.1 rpaulo int poff; 1471 1.4 tshiozak 1472 1.4 tshiozak if (sc->sc_dying) 1473 1.4 tshiozak return EIO; 1474 1.4 tshiozak 1475 1.24.4.1 rpaulo if (!out_jack->opened) 1476 1.24.4.1 rpaulo return ENODEV; /* XXX as it was, is this the right errno? */ 1477 1.4 tshiozak 1478 1.24.4.1 rpaulo #ifdef UMIDI_DEBUG 1479 1.24.4.1 rpaulo if ( umididebug >= 100 ) 1480 1.24.4.1 rpaulo microtime(&umidi_tv); 1481 1.24.4.1 rpaulo #endif 1482 1.24.4.1 rpaulo DPRINTFN(100, ("umidi out: %lu.%06lus ep=%p cn=%d len=%d cin=%#x\n", 1483 1.24.4.1 rpaulo umidi_tv.tv_sec%100, umidi_tv.tv_usec, 1484 1.24.4.1 rpaulo ep, out_jack->cable_number, len, cin)); 1485 1.24.4.1 rpaulo 1486 1.24.4.1 rpaulo s = splusb(); 1487 1.24.4.1 rpaulo packet = *ep->next_slot++; 1488 1.24.4.1 rpaulo KASSERT(ep->buffer_size >= 1489 1.24.4.1 rpaulo (ep->next_slot - ep->buffer) * sizeof *ep->buffer); 1490 1.24.4.1 rpaulo memset(packet, 0, UMIDI_PACKET_SIZE); 1491 1.24.4.1 rpaulo if (UMQ_ISTYPE(sc, UMQ_TYPE_MIDIMAN_GARBLE)) { 1492 1.24.4.1 rpaulo if (NULL != out_jack->midiman_ppkt) { /* fill out a prev pkt */ 1493 1.24.4.1 rpaulo poff = 0x0f & (out_jack->midiman_ppkt[3]); 1494 1.24.4.1 rpaulo plen = 3 - poff; 1495 1.24.4.1 rpaulo if (plen > len) 1496 1.24.4.1 rpaulo plen = len; 1497 1.24.4.1 rpaulo memcpy(out_jack->midiman_ppkt+poff, src, plen); 1498 1.24.4.1 rpaulo src += plen; 1499 1.24.4.1 rpaulo len -= plen; 1500 1.24.4.1 rpaulo plen += poff; 1501 1.24.4.1 rpaulo out_jack->midiman_ppkt[3] = 1502 1.24.4.1 rpaulo MIX_CN_CIN(out_jack->cable_number, plen); 1503 1.24.4.1 rpaulo DPR_PACKET(out+, sc, out_jack->midiman_ppkt); 1504 1.24.4.1 rpaulo if (3 == plen) 1505 1.24.4.1 rpaulo out_jack->midiman_ppkt = NULL; /* no more */ 1506 1.24.4.1 rpaulo } 1507 1.24.4.1 rpaulo if (0 == len) 1508 1.24.4.1 rpaulo ep->next_slot--; /* won't be needed, nevermind */ 1509 1.24.4.1 rpaulo else { 1510 1.24.4.1 rpaulo memcpy(packet, src, len); 1511 1.24.4.1 rpaulo packet[3] = MIX_CN_CIN(out_jack->cable_number, len); 1512 1.24.4.1 rpaulo DPR_PACKET(out, sc, packet); 1513 1.24.4.1 rpaulo if (len < 3) 1514 1.24.4.1 rpaulo out_jack->midiman_ppkt = packet; 1515 1.24.4.1 rpaulo } 1516 1.24.4.1 rpaulo } else { /* the nice simple USB class-compliant case */ 1517 1.24.4.1 rpaulo packet[0] = MIX_CN_CIN(out_jack->cable_number, cin); 1518 1.24.4.1 rpaulo memcpy(packet+1, src, len); 1519 1.24.4.1 rpaulo DPR_PACKET(out, sc, packet); 1520 1.24.4.1 rpaulo } 1521 1.24.4.1 rpaulo ep->next_schedule |= 1<<(out_jack->cable_number); 1522 1.24.4.1 rpaulo ++ ep->num_scheduled; 1523 1.24.4.1 rpaulo if ( !ep->armed && !ep->soliciting ) { 1524 1.24.4.1 rpaulo #ifdef __HAVE_GENERIC_SOFT_INTERRUPTS 1525 1.24.4.1 rpaulo /* 1526 1.24.4.1 rpaulo * It would be bad to call out_solicit directly here (the 1527 1.24.4.1 rpaulo * caller need not be reentrant) but a soft interrupt allows 1528 1.24.4.1 rpaulo * solicit to run immediately the caller exits its critical 1529 1.24.4.1 rpaulo * section, and if the caller has more to write we can get it 1530 1.24.4.1 rpaulo * before starting the USB transfer, and send a longer one. 1531 1.24.4.1 rpaulo */ 1532 1.24.4.1 rpaulo ep->soliciting = 1; 1533 1.24.4.1 rpaulo softintr_schedule(ep->solicit_cookie); 1534 1.24.4.1 rpaulo #else 1535 1.24.4.1 rpaulo /* 1536 1.24.4.1 rpaulo * This alternative is a little less desirable, because if the 1537 1.24.4.1 rpaulo * writer has several messages to go at once, the first will go 1538 1.24.4.1 rpaulo * in a USB frame all to itself, and the rest in a full-size 1539 1.24.4.1 rpaulo * transfer one frame later (solicited on the first frame's 1540 1.24.4.1 rpaulo * completion interrupt). But it's simple. 1541 1.24.4.1 rpaulo */ 1542 1.24.4.1 rpaulo ep->armed = (USBD_IN_PROGRESS == start_output_transfer(ep)); 1543 1.24.4.1 rpaulo #endif 1544 1.24.4.1 rpaulo } 1545 1.24.4.1 rpaulo splx(s); 1546 1.24.4.1 rpaulo 1547 1.24.4.1 rpaulo return 0; 1548 1.4 tshiozak } 1549 1.4 tshiozak 1550 1.1 tshiozak static void 1551 1.1 tshiozak in_intr(usbd_xfer_handle xfer, usbd_private_handle priv, usbd_status status) 1552 1.1 tshiozak { 1553 1.4 tshiozak int cn, len, i; 1554 1.1 tshiozak struct umidi_endpoint *ep = (struct umidi_endpoint *)priv; 1555 1.4 tshiozak struct umidi_jack *jack; 1556 1.24.4.1 rpaulo unsigned char *packet; 1557 1.24.4.1 rpaulo umidi_packet_bufp slot; 1558 1.24.4.1 rpaulo umidi_packet_bufp end; 1559 1.24.4.1 rpaulo unsigned char *data; 1560 1.24.4.1 rpaulo u_int32_t count; 1561 1.1 tshiozak 1562 1.3 tshiozak if (ep->sc->sc_dying || !ep->num_open) 1563 1.1 tshiozak return; 1564 1.1 tshiozak 1565 1.24.4.1 rpaulo usbd_get_xfer_status(xfer, NULL, NULL, &count, NULL); 1566 1.24.4.1 rpaulo if ( 0 == count % UMIDI_PACKET_SIZE ) { 1567 1.24.4.1 rpaulo DPRINTFN(200,("%s: input endpoint %p transfer length %u\n", 1568 1.24.4.1 rpaulo USBDEVNAME(ep->sc->sc_dev), ep, count)); 1569 1.24.4.1 rpaulo } else { 1570 1.24.4.1 rpaulo DPRINTF(("%s: input endpoint %p odd transfer length %u\n", 1571 1.24.4.1 rpaulo USBDEVNAME(ep->sc->sc_dev), ep, count)); 1572 1.24.4.1 rpaulo } 1573 1.24.4.1 rpaulo 1574 1.24.4.1 rpaulo slot = ep->buffer; 1575 1.24.4.1 rpaulo end = slot + count / sizeof *slot; 1576 1.24.4.1 rpaulo 1577 1.24.4.1 rpaulo for ( packet = *slot; slot < end; packet = *++slot ) { 1578 1.24.4.1 rpaulo 1579 1.24.4.1 rpaulo if ( UMQ_ISTYPE(ep->sc, UMQ_TYPE_MIDIMAN_GARBLE) ) { 1580 1.24.4.1 rpaulo cn = (0xf0&(packet[3]))>>4; 1581 1.24.4.1 rpaulo len = 0x0f&(packet[3]); 1582 1.24.4.1 rpaulo data = packet; 1583 1.24.4.1 rpaulo } else { 1584 1.24.4.1 rpaulo cn = GET_CN(packet[0]); 1585 1.24.4.1 rpaulo len = packet_length[GET_CIN(packet[0])]; 1586 1.24.4.1 rpaulo data = packet + 1; 1587 1.24.4.1 rpaulo } 1588 1.24.4.1 rpaulo /* 0 <= cn <= 15 by inspection of above code */ 1589 1.24.4.1 rpaulo if (!(jack = ep->jacks[cn]) || cn != jack->cable_number) { 1590 1.24.4.1 rpaulo DPRINTF(("%s: stray input endpoint %p cable %d len %d: " 1591 1.24.4.1 rpaulo "%02X %02X %02X (try CN_SEQ quirk?)\n", 1592 1.24.4.1 rpaulo USBDEVNAME(ep->sc->sc_dev), ep, cn, len, 1593 1.24.4.1 rpaulo (unsigned)data[0], 1594 1.24.4.1 rpaulo (unsigned)data[1], 1595 1.24.4.1 rpaulo (unsigned)data[2])); 1596 1.24.4.1 rpaulo return; 1597 1.24.4.1 rpaulo } 1598 1.24.4.1 rpaulo 1599 1.24.4.1 rpaulo if (!jack->binded || !jack->opened) 1600 1.24.4.1 rpaulo continue; 1601 1.24.4.1 rpaulo 1602 1.24.4.1 rpaulo DPRINTFN(500,("%s: input endpoint %p cable %d len %d: " 1603 1.24.4.1 rpaulo "%02X %02X %02X\n", 1604 1.24.4.1 rpaulo USBDEVNAME(ep->sc->sc_dev), ep, cn, len, 1605 1.24.4.1 rpaulo (unsigned)data[0], 1606 1.24.4.1 rpaulo (unsigned)data[1], 1607 1.24.4.1 rpaulo (unsigned)data[2])); 1608 1.24.4.1 rpaulo 1609 1.24.4.1 rpaulo if (jack->u.in.intr) { 1610 1.24.4.1 rpaulo for (i=0; i<len; i++) { 1611 1.24.4.1 rpaulo (*jack->u.in.intr)(jack->arg, data[i]); 1612 1.24.4.1 rpaulo } 1613 1.4 tshiozak } 1614 1.24.4.1 rpaulo 1615 1.4 tshiozak } 1616 1.1 tshiozak 1617 1.1 tshiozak (void)start_input_transfer(ep); 1618 1.1 tshiozak } 1619 1.1 tshiozak 1620 1.1 tshiozak static void 1621 1.1 tshiozak out_intr(usbd_xfer_handle xfer, usbd_private_handle priv, usbd_status status) 1622 1.1 tshiozak { 1623 1.1 tshiozak struct umidi_endpoint *ep = (struct umidi_endpoint *)priv; 1624 1.1 tshiozak struct umidi_softc *sc = ep->sc; 1625 1.24.4.1 rpaulo u_int32_t count; 1626 1.1 tshiozak 1627 1.24.4.1 rpaulo if (sc->sc_dying) 1628 1.1 tshiozak return; 1629 1.1 tshiozak 1630 1.24.4.1 rpaulo #ifdef UMIDI_DEBUG 1631 1.24.4.1 rpaulo if ( umididebug >= 200 ) 1632 1.24.4.1 rpaulo microtime(&umidi_tv); 1633 1.24.4.1 rpaulo #endif 1634 1.24.4.1 rpaulo usbd_get_xfer_status(xfer, NULL, NULL, &count, NULL); 1635 1.24.4.1 rpaulo if ( 0 == count % UMIDI_PACKET_SIZE ) { 1636 1.24.4.1 rpaulo DPRINTFN(200,("%s: %lu.%06lus out ep %p xfer length %u\n", 1637 1.24.4.1 rpaulo USBDEVNAME(ep->sc->sc_dev), 1638 1.24.4.1 rpaulo umidi_tv.tv_sec%100, umidi_tv.tv_usec, ep, count)); 1639 1.24.4.1 rpaulo } else { 1640 1.24.4.1 rpaulo DPRINTF(("%s: output endpoint %p odd transfer length %u\n", 1641 1.24.4.1 rpaulo USBDEVNAME(ep->sc->sc_dev), ep, count)); 1642 1.24.4.1 rpaulo } 1643 1.24.4.1 rpaulo count /= UMIDI_PACKET_SIZE; 1644 1.24.4.1 rpaulo 1645 1.24.4.1 rpaulo /* 1646 1.24.4.1 rpaulo * If while the transfer was pending we buffered any new messages, 1647 1.24.4.1 rpaulo * move them to the start of the buffer. 1648 1.24.4.1 rpaulo */ 1649 1.24.4.1 rpaulo ep->next_slot -= count; 1650 1.24.4.1 rpaulo if ( ep->buffer < ep->next_slot ) { 1651 1.24.4.1 rpaulo memcpy(ep->buffer, ep->buffer + count, 1652 1.24.4.1 rpaulo (char *)ep->next_slot - (char *)ep->buffer); 1653 1.24.4.1 rpaulo } 1654 1.24.4.1 rpaulo wakeup(ep); 1655 1.24.4.1 rpaulo /* 1656 1.24.4.1 rpaulo * Do not want anyone else to see armed <- 0 before soliciting <- 1. 1657 1.24.4.1 rpaulo * Running at splusb so the following should happen to be safe. 1658 1.24.4.1 rpaulo */ 1659 1.24.4.1 rpaulo ep->armed = 0; 1660 1.24.4.1 rpaulo if ( !ep->soliciting ) { 1661 1.24.4.1 rpaulo ep->soliciting = 1; 1662 1.24.4.1 rpaulo out_solicit(ep); 1663 1.1 tshiozak } 1664 1.1 tshiozak } 1665 1.1 tshiozak 1666 1.24.4.1 rpaulo /* 1667 1.24.4.1 rpaulo * A jack on which we have received a packet must be called back on its 1668 1.24.4.1 rpaulo * out.intr handler before it will send us another; it is considered 1669 1.24.4.1 rpaulo * 'scheduled'. It is nice and predictable - as long as it is scheduled, 1670 1.24.4.1 rpaulo * we need no extra buffer space for it. 1671 1.24.4.1 rpaulo * 1672 1.24.4.1 rpaulo * In contrast, a jack that is open but not scheduled may supply us a packet 1673 1.24.4.1 rpaulo * at any time, driven by the top half, and we must be able to accept it, no 1674 1.24.4.1 rpaulo * excuses. So we must ensure that at any point in time there are at least 1675 1.24.4.1 rpaulo * (num_open - num_scheduled) slots free. 1676 1.24.4.1 rpaulo * 1677 1.24.4.1 rpaulo * As long as there are more slots free than that minimum, we can loop calling 1678 1.24.4.1 rpaulo * scheduled jacks back on their "interrupt" handlers, soliciting more 1679 1.24.4.1 rpaulo * packets, starting the USB transfer only when the buffer space is down to 1680 1.24.4.1 rpaulo * the minimum or no jack has any more to send. 1681 1.24.4.1 rpaulo */ 1682 1.1 tshiozak static void 1683 1.24.4.1 rpaulo out_solicit(void *arg) 1684 1.1 tshiozak { 1685 1.24.4.1 rpaulo struct umidi_endpoint *ep = arg; 1686 1.24.4.1 rpaulo int s; 1687 1.24.4.1 rpaulo umidi_packet_bufp end; 1688 1.24.4.1 rpaulo u_int16_t which; 1689 1.24.4.1 rpaulo struct umidi_jack *jack; 1690 1.24.4.1 rpaulo 1691 1.24.4.1 rpaulo end = ep->buffer + ep->buffer_size / sizeof *ep->buffer; 1692 1.24.4.1 rpaulo 1693 1.24.4.1 rpaulo for ( ;; ) { 1694 1.24.4.1 rpaulo s = splusb(); 1695 1.24.4.1 rpaulo if ( end - ep->next_slot <= ep->num_open - ep->num_scheduled ) 1696 1.24.4.1 rpaulo break; /* at splusb */ 1697 1.24.4.1 rpaulo if ( ep->this_schedule == 0 ) { 1698 1.24.4.1 rpaulo if ( ep->next_schedule == 0 ) 1699 1.24.4.1 rpaulo break; /* at splusb */ 1700 1.24.4.1 rpaulo ep->this_schedule = ep->next_schedule; 1701 1.24.4.1 rpaulo ep->next_schedule = 0; 1702 1.24.4.1 rpaulo } 1703 1.24.4.1 rpaulo /* 1704 1.24.4.1 rpaulo * At least one jack is scheduled. Find and mask off the least 1705 1.24.4.1 rpaulo * set bit in this_schedule and decrement num_scheduled. 1706 1.24.4.1 rpaulo * Convert mask to bit index to find the corresponding jack, 1707 1.24.4.1 rpaulo * and call its intr handler. If it has a message, it will call 1708 1.24.4.1 rpaulo * back one of the output methods, which will set its bit in 1709 1.24.4.1 rpaulo * next_schedule (not copied into this_schedule until the 1710 1.24.4.1 rpaulo * latter is empty). In this way we round-robin the jacks that 1711 1.24.4.1 rpaulo * have messages to send, until the buffer is as full as we 1712 1.24.4.1 rpaulo * dare, and then start a transfer. 1713 1.24.4.1 rpaulo */ 1714 1.24.4.1 rpaulo which = ep->this_schedule; 1715 1.24.4.1 rpaulo which &= (~which)+1; /* now mask of least set bit */ 1716 1.24.4.1 rpaulo ep->this_schedule &= ~which; 1717 1.24.4.1 rpaulo -- ep->num_scheduled; 1718 1.24.4.1 rpaulo splx(s); 1719 1.1 tshiozak 1720 1.24.4.1 rpaulo -- which; /* now 1s below mask - count 1s to get index */ 1721 1.24.4.1 rpaulo which -= ((which >> 1) & 0x5555);/* SWAR credit aggregate.org */ 1722 1.24.4.1 rpaulo which = (((which >> 2) & 0x3333) + (which & 0x3333)); 1723 1.24.4.1 rpaulo which = (((which >> 4) + which) & 0x0f0f); 1724 1.24.4.1 rpaulo which += (which >> 8); 1725 1.24.4.1 rpaulo which &= 0x1f; /* the bit index a/k/a jack number */ 1726 1.24.4.1 rpaulo 1727 1.24.4.1 rpaulo jack = ep->jacks[which]; 1728 1.24.4.1 rpaulo if (jack->u.out.intr) 1729 1.24.4.1 rpaulo (*jack->u.out.intr)(jack->arg); 1730 1.1 tshiozak } 1731 1.24.4.1 rpaulo /* splusb at loop exit */ 1732 1.24.4.1 rpaulo if ( !ep->armed && ep->next_slot > ep->buffer ) 1733 1.24.4.1 rpaulo ep->armed = (USBD_IN_PROGRESS == start_output_transfer(ep)); 1734 1.24.4.1 rpaulo ep->soliciting = 0; 1735 1.24.4.1 rpaulo splx(s); 1736 1.1 tshiozak } 1737
Indexes created Thu Oct 02 14:10:14 GMT 2025