1*8a8057a7Skirill /* $OpenBSD: utvfu.c,v 1.22 2025/01/15 20:34:50 kirill Exp $ */ 2181d57e0Smglocker /* 3181d57e0Smglocker * Copyright (c) 2013 Lubomir Rintel 4181d57e0Smglocker * Copyright (c) 2013 Federico Simoncelli 5181d57e0Smglocker * All rights reserved. 6181d57e0Smglocker * 7181d57e0Smglocker * Redistribution and use in source and binary forms, with or without 8181d57e0Smglocker * modification, are permitted provided that the following conditions 9181d57e0Smglocker * are met: 10181d57e0Smglocker * 1. Redistributions of source code must retain the above copyright 11181d57e0Smglocker * notice, this list of conditions, and the following disclaimer, 12181d57e0Smglocker * without modification. 13181d57e0Smglocker * 2. The name of the author may not be used to endorse or promote products 14181d57e0Smglocker * derived from this software without specific prior written permission. 15181d57e0Smglocker * 16181d57e0Smglocker * Alternatively, this software may be distributed under the terms of the 17181d57e0Smglocker * GNU General Public License ("GPL"). 18181d57e0Smglocker * 19181d57e0Smglocker * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 20181d57e0Smglocker * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 21181d57e0Smglocker * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 22181d57e0Smglocker * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 23181d57e0Smglocker * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 24181d57e0Smglocker * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 25181d57e0Smglocker * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26181d57e0Smglocker * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 27181d57e0Smglocker * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 28181d57e0Smglocker * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 29181d57e0Smglocker * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 30181d57e0Smglocker */ 31181d57e0Smglocker /* 32181d57e0Smglocker * Fushicai USBTV007 Audio-Video Grabber Driver 33181d57e0Smglocker * 34181d57e0Smglocker * Product web site: 35181d57e0Smglocker * http://www.fushicai.com/products_detail/&productId=d05449ee-b690-42f9-a661-aa7353894bed.html 36181d57e0Smglocker * 37181d57e0Smglocker * Following LWN articles were very useful in construction of this driver: 38181d57e0Smglocker * Video4Linux2 API series: http://lwn.net/Articles/203924/ 39181d57e0Smglocker * videobuf2 API explanation: http://lwn.net/Articles/447435/ 40181d57e0Smglocker * Thanks go to Jonathan Corbet for providing this quality documentation. 41181d57e0Smglocker * He is awesome. 42181d57e0Smglocker * 43181d57e0Smglocker * No physical hardware was harmed running Windows during the 44181d57e0Smglocker * reverse-engineering activity 45181d57e0Smglocker */ 46181d57e0Smglocker 47181d57e0Smglocker #include <sys/param.h> 48181d57e0Smglocker #include <sys/systm.h> 49181d57e0Smglocker #include <sys/fcntl.h> 50181d57e0Smglocker #include <sys/kthread.h> 51181d57e0Smglocker #include <sys/malloc.h> 522d14790aSderaadt #include <sys/device.h> 53181d57e0Smglocker 54181d57e0Smglocker #include <uvm/uvm_extern.h> 55181d57e0Smglocker 56181d57e0Smglocker #include <machine/bus.h> 57181d57e0Smglocker 58181d57e0Smglocker #include <dev/usb/usb.h> 59181d57e0Smglocker #include <dev/usb/usbdi.h> 60181d57e0Smglocker #include <dev/usb/usbdivar.h> 61181d57e0Smglocker #include <dev/usb/usb_mem.h> 62181d57e0Smglocker #include <dev/usb/usbdi_util.h> 63181d57e0Smglocker #include <dev/usb/usbdevs.h> 6494e909e9Smglocker #include <dev/usb/utvfu.h> 65181d57e0Smglocker 6694e909e9Smglocker #include <dev/audio_if.h> 6794e909e9Smglocker #include <dev/video_if.h> 68181d57e0Smglocker 69181d57e0Smglocker #ifdef UTVFU_DEBUG 70181d57e0Smglocker int utvfu_debug = 1; 71181d57e0Smglocker #define DPRINTF(l, x...) do { if ((l) <= utvfu_debug) printf(x); } while (0) 72181d57e0Smglocker #else 73181d57e0Smglocker #define DPRINTF(l, x...) 74181d57e0Smglocker #endif 75181d57e0Smglocker 76181d57e0Smglocker #define DEVNAME(_s) ((_s)->sc_dev.dv_xname) 77181d57e0Smglocker 78181d57e0Smglocker struct utvfu_norm_params utvfu_norm_params[] = { 79181d57e0Smglocker { 80181d57e0Smglocker .norm = V4L2_STD_525_60, 81181d57e0Smglocker .cap_width = 720, 82181d57e0Smglocker .cap_height = 480, 83181d57e0Smglocker /* 4 bytes/2 pixel YUYV/YUV 4:2:2 */ 84181d57e0Smglocker .frame_len = (720 * 480 * 2), 85181d57e0Smglocker }, 86181d57e0Smglocker { 87181d57e0Smglocker .norm = V4L2_STD_PAL, 88181d57e0Smglocker .cap_width = 720, 89181d57e0Smglocker .cap_height = 576, 90181d57e0Smglocker /* 4 bytes/2 pixel YUYV/YUV 4:2:2 */ 91181d57e0Smglocker .frame_len = (720 * 576 * 2), 92181d57e0Smglocker } 93181d57e0Smglocker }; 94181d57e0Smglocker 95181d57e0Smglocker int 96181d57e0Smglocker utvfu_set_regs(struct utvfu_softc *sc, const uint16_t regs[][2], int size) 97181d57e0Smglocker { 98181d57e0Smglocker int i; 99181d57e0Smglocker usbd_status error; 100181d57e0Smglocker usb_device_request_t req; 101181d57e0Smglocker 102181d57e0Smglocker req.bmRequestType = UT_WRITE_VENDOR_DEVICE; 103181d57e0Smglocker req.bRequest = UTVFU_REQUEST_REG; 104181d57e0Smglocker USETW(req.wLength, 0); 105181d57e0Smglocker 106181d57e0Smglocker for (i = 0; i < size; i++) { 107181d57e0Smglocker USETW(req.wIndex, regs[i][0]); 108181d57e0Smglocker USETW(req.wValue, regs[i][1]); 109181d57e0Smglocker 110181d57e0Smglocker error = usbd_do_request(sc->sc_udev, &req, NULL); 111181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) { 112181d57e0Smglocker DPRINTF(1, "%s: %s: exit EINVAL\n", 113181d57e0Smglocker DEVNAME(sc), __func__); 114181d57e0Smglocker return (EINVAL); 115181d57e0Smglocker } 116181d57e0Smglocker } 117181d57e0Smglocker 118181d57e0Smglocker return (0); 119181d57e0Smglocker } 120181d57e0Smglocker 121181d57e0Smglocker int 122181d57e0Smglocker utvfu_max_frame_size(void) 123181d57e0Smglocker { 124181d57e0Smglocker int i, sz = 0; 125c00e5c15Smglocker 126181d57e0Smglocker for (i = 0; i < nitems(utvfu_norm_params); i++) { 127181d57e0Smglocker if (sz < utvfu_norm_params[i].frame_len) 128181d57e0Smglocker sz = utvfu_norm_params[i].frame_len; 129181d57e0Smglocker } 130c00e5c15Smglocker 131181d57e0Smglocker return (sz); 132181d57e0Smglocker } 133181d57e0Smglocker 134181d57e0Smglocker int 135181d57e0Smglocker utvfu_configure_for_norm(struct utvfu_softc *sc, v4l2_std_id norm) 136181d57e0Smglocker { 137181d57e0Smglocker int i, ret = EINVAL; 138181d57e0Smglocker struct utvfu_norm_params *params = NULL; 139181d57e0Smglocker 140181d57e0Smglocker for (i = 0; i < nitems(utvfu_norm_params); i++) { 141181d57e0Smglocker if (utvfu_norm_params[i].norm & norm) { 142181d57e0Smglocker params = &utvfu_norm_params[i]; 143181d57e0Smglocker break; 144181d57e0Smglocker } 145181d57e0Smglocker } 146181d57e0Smglocker 147181d57e0Smglocker if (params != NULL) { 148181d57e0Smglocker sc->sc_normi = i; 149181d57e0Smglocker sc->sc_nchunks = params->cap_width * params->cap_height 150181d57e0Smglocker / 4 / UTVFU_CHUNK; 151181d57e0Smglocker ret = 0; 152181d57e0Smglocker } 153181d57e0Smglocker 154181d57e0Smglocker return (ret); 155181d57e0Smglocker } 156181d57e0Smglocker 157181d57e0Smglocker int 158181d57e0Smglocker utvfu_select_input(struct utvfu_softc *sc, int input) 159181d57e0Smglocker { 160181d57e0Smglocker int ret; 161181d57e0Smglocker 162181d57e0Smglocker static const uint16_t composite[][2] = { 163181d57e0Smglocker { UTVFU_BASE + 0x0105, 0x0060 }, 164181d57e0Smglocker { UTVFU_BASE + 0x011f, 0x00f2 }, 165181d57e0Smglocker { UTVFU_BASE + 0x0127, 0x0060 }, 166181d57e0Smglocker { UTVFU_BASE + 0x00ae, 0x0010 }, 167181d57e0Smglocker { UTVFU_BASE + 0x0239, 0x0060 }, 168181d57e0Smglocker }; 169181d57e0Smglocker 170181d57e0Smglocker static const uint16_t svideo[][2] = { 171181d57e0Smglocker { UTVFU_BASE + 0x0105, 0x0010 }, 172181d57e0Smglocker { UTVFU_BASE + 0x011f, 0x00ff }, 173181d57e0Smglocker { UTVFU_BASE + 0x0127, 0x0060 }, 174181d57e0Smglocker { UTVFU_BASE + 0x00ae, 0x0030 }, 175181d57e0Smglocker { UTVFU_BASE + 0x0239, 0x0060 }, 176181d57e0Smglocker }; 177181d57e0Smglocker 178181d57e0Smglocker switch (input) { 179181d57e0Smglocker case UTVFU_COMPOSITE_INPUT: 180181d57e0Smglocker ret = utvfu_set_regs(sc, composite, nitems(composite)); 181181d57e0Smglocker break; 182181d57e0Smglocker case UTVFU_SVIDEO_INPUT: 183181d57e0Smglocker ret = utvfu_set_regs(sc, svideo, nitems(svideo)); 184181d57e0Smglocker break; 185181d57e0Smglocker default: 186181d57e0Smglocker ret = EINVAL; 187181d57e0Smglocker } 188181d57e0Smglocker 189181d57e0Smglocker if (ret == 0) 190181d57e0Smglocker sc->sc_input = input; 191181d57e0Smglocker 192181d57e0Smglocker return (ret); 193181d57e0Smglocker } 194181d57e0Smglocker 195181d57e0Smglocker int 196181d57e0Smglocker utvfu_select_norm(struct utvfu_softc *sc, v4l2_std_id norm) 197181d57e0Smglocker { 198181d57e0Smglocker int ret; 199181d57e0Smglocker static const uint16_t pal[][2] = { 200181d57e0Smglocker { UTVFU_BASE + 0x001a, 0x0068 }, 201181d57e0Smglocker { UTVFU_BASE + 0x010e, 0x0072 }, 202181d57e0Smglocker { UTVFU_BASE + 0x010f, 0x00a2 }, 203181d57e0Smglocker { UTVFU_BASE + 0x0112, 0x00b0 }, 204181d57e0Smglocker { UTVFU_BASE + 0x0117, 0x0001 }, 205181d57e0Smglocker { UTVFU_BASE + 0x0118, 0x002c }, 206181d57e0Smglocker { UTVFU_BASE + 0x012d, 0x0010 }, 207181d57e0Smglocker { UTVFU_BASE + 0x012f, 0x0020 }, 208181d57e0Smglocker { UTVFU_BASE + 0x024f, 0x0002 }, 209181d57e0Smglocker { UTVFU_BASE + 0x0254, 0x0059 }, 210181d57e0Smglocker { UTVFU_BASE + 0x025a, 0x0016 }, 211181d57e0Smglocker { UTVFU_BASE + 0x025b, 0x0035 }, 212181d57e0Smglocker { UTVFU_BASE + 0x0263, 0x0017 }, 213181d57e0Smglocker { UTVFU_BASE + 0x0266, 0x0016 }, 214181d57e0Smglocker { UTVFU_BASE + 0x0267, 0x0036 } 215181d57e0Smglocker }; 216181d57e0Smglocker 217181d57e0Smglocker static const uint16_t ntsc[][2] = { 218181d57e0Smglocker { UTVFU_BASE + 0x001a, 0x0079 }, 219181d57e0Smglocker { UTVFU_BASE + 0x010e, 0x0068 }, 220181d57e0Smglocker { UTVFU_BASE + 0x010f, 0x009c }, 221181d57e0Smglocker { UTVFU_BASE + 0x0112, 0x00f0 }, 222181d57e0Smglocker { UTVFU_BASE + 0x0117, 0x0000 }, 223181d57e0Smglocker { UTVFU_BASE + 0x0118, 0x00fc }, 224181d57e0Smglocker { UTVFU_BASE + 0x012d, 0x0004 }, 225181d57e0Smglocker { UTVFU_BASE + 0x012f, 0x0008 }, 226181d57e0Smglocker { UTVFU_BASE + 0x024f, 0x0001 }, 227181d57e0Smglocker { UTVFU_BASE + 0x0254, 0x005f }, 228181d57e0Smglocker { UTVFU_BASE + 0x025a, 0x0012 }, 229181d57e0Smglocker { UTVFU_BASE + 0x025b, 0x0001 }, 230181d57e0Smglocker { UTVFU_BASE + 0x0263, 0x001c }, 231181d57e0Smglocker { UTVFU_BASE + 0x0266, 0x0011 }, 232181d57e0Smglocker { UTVFU_BASE + 0x0267, 0x0005 } 233181d57e0Smglocker }; 234181d57e0Smglocker 235181d57e0Smglocker ret = utvfu_configure_for_norm(sc, norm); 236181d57e0Smglocker 237181d57e0Smglocker if (ret == 0) { 238181d57e0Smglocker if (norm & V4L2_STD_525_60) 239181d57e0Smglocker ret = utvfu_set_regs(sc, ntsc, nitems(ntsc)); 240181d57e0Smglocker else if (norm & V4L2_STD_PAL) 241181d57e0Smglocker ret = utvfu_set_regs(sc, pal, nitems(pal)); 242181d57e0Smglocker } 243181d57e0Smglocker 244181d57e0Smglocker return (ret); 245181d57e0Smglocker } 246181d57e0Smglocker 247181d57e0Smglocker int 248181d57e0Smglocker utvfu_setup_capture(struct utvfu_softc *sc) 249181d57e0Smglocker { 250181d57e0Smglocker int ret; 251181d57e0Smglocker static const uint16_t setup[][2] = { 252181d57e0Smglocker /* These seem to enable the device. */ 253181d57e0Smglocker { UTVFU_BASE + 0x0008, 0x0001 }, 254181d57e0Smglocker { UTVFU_BASE + 0x01d0, 0x00ff }, 255181d57e0Smglocker { UTVFU_BASE + 0x01d9, 0x0002 }, 256181d57e0Smglocker 257181d57e0Smglocker /* 258181d57e0Smglocker * These seem to influence color parameters, such as 259181d57e0Smglocker * brightness, etc. 260181d57e0Smglocker */ 261181d57e0Smglocker { UTVFU_BASE + 0x0239, 0x0040 }, 262181d57e0Smglocker { UTVFU_BASE + 0x0240, 0x0000 }, 263181d57e0Smglocker { UTVFU_BASE + 0x0241, 0x0000 }, 264181d57e0Smglocker { UTVFU_BASE + 0x0242, 0x0002 }, 265181d57e0Smglocker { UTVFU_BASE + 0x0243, 0x0080 }, 266181d57e0Smglocker { UTVFU_BASE + 0x0244, 0x0012 }, 267181d57e0Smglocker { UTVFU_BASE + 0x0245, 0x0090 }, 268181d57e0Smglocker { UTVFU_BASE + 0x0246, 0x0000 }, 269181d57e0Smglocker 270181d57e0Smglocker { UTVFU_BASE + 0x0278, 0x002d }, 271181d57e0Smglocker { UTVFU_BASE + 0x0279, 0x000a }, 272181d57e0Smglocker { UTVFU_BASE + 0x027a, 0x0032 }, 273181d57e0Smglocker { 0xf890, 0x000c }, 274181d57e0Smglocker { 0xf894, 0x0086 }, 275181d57e0Smglocker 276181d57e0Smglocker { UTVFU_BASE + 0x00ac, 0x00c0 }, 277181d57e0Smglocker { UTVFU_BASE + 0x00ad, 0x0000 }, 278181d57e0Smglocker { UTVFU_BASE + 0x00a2, 0x0012 }, 279181d57e0Smglocker { UTVFU_BASE + 0x00a3, 0x00e0 }, 280181d57e0Smglocker { UTVFU_BASE + 0x00a4, 0x0028 }, 281181d57e0Smglocker { UTVFU_BASE + 0x00a5, 0x0082 }, 282181d57e0Smglocker { UTVFU_BASE + 0x00a7, 0x0080 }, 283181d57e0Smglocker { UTVFU_BASE + 0x0000, 0x0014 }, 284181d57e0Smglocker { UTVFU_BASE + 0x0006, 0x0003 }, 285181d57e0Smglocker { UTVFU_BASE + 0x0090, 0x0099 }, 286181d57e0Smglocker { UTVFU_BASE + 0x0091, 0x0090 }, 287181d57e0Smglocker { UTVFU_BASE + 0x0094, 0x0068 }, 288181d57e0Smglocker { UTVFU_BASE + 0x0095, 0x0070 }, 289181d57e0Smglocker { UTVFU_BASE + 0x009c, 0x0030 }, 290181d57e0Smglocker { UTVFU_BASE + 0x009d, 0x00c0 }, 291181d57e0Smglocker { UTVFU_BASE + 0x009e, 0x00e0 }, 292181d57e0Smglocker { UTVFU_BASE + 0x0019, 0x0006 }, 293181d57e0Smglocker { UTVFU_BASE + 0x008c, 0x00ba }, 294181d57e0Smglocker { UTVFU_BASE + 0x0101, 0x00ff }, 295181d57e0Smglocker { UTVFU_BASE + 0x010c, 0x00b3 }, 296181d57e0Smglocker { UTVFU_BASE + 0x01b2, 0x0080 }, 297181d57e0Smglocker { UTVFU_BASE + 0x01b4, 0x00a0 }, 298181d57e0Smglocker { UTVFU_BASE + 0x014c, 0x00ff }, 299181d57e0Smglocker { UTVFU_BASE + 0x014d, 0x00ca }, 300181d57e0Smglocker { UTVFU_BASE + 0x0113, 0x0053 }, 301181d57e0Smglocker { UTVFU_BASE + 0x0119, 0x008a }, 302181d57e0Smglocker { UTVFU_BASE + 0x013c, 0x0003 }, 303181d57e0Smglocker { UTVFU_BASE + 0x0150, 0x009c }, 304181d57e0Smglocker { UTVFU_BASE + 0x0151, 0x0071 }, 305181d57e0Smglocker { UTVFU_BASE + 0x0152, 0x00c6 }, 306181d57e0Smglocker { UTVFU_BASE + 0x0153, 0x0084 }, 307181d57e0Smglocker { UTVFU_BASE + 0x0154, 0x00bc }, 308181d57e0Smglocker { UTVFU_BASE + 0x0155, 0x00a0 }, 309181d57e0Smglocker { UTVFU_BASE + 0x0156, 0x00a0 }, 310181d57e0Smglocker { UTVFU_BASE + 0x0157, 0x009c }, 311181d57e0Smglocker { UTVFU_BASE + 0x0158, 0x001f }, 312181d57e0Smglocker { UTVFU_BASE + 0x0159, 0x0006 }, 313181d57e0Smglocker { UTVFU_BASE + 0x015d, 0x0000 }, 314181d57e0Smglocker 315181d57e0Smglocker { UTVFU_BASE + 0x0003, 0x0004 }, 316181d57e0Smglocker { UTVFU_BASE + 0x0100, 0x00d3 }, 317181d57e0Smglocker { UTVFU_BASE + 0x0115, 0x0015 }, 318181d57e0Smglocker { UTVFU_BASE + 0x0220, 0x002e }, 319181d57e0Smglocker { UTVFU_BASE + 0x0225, 0x0008 }, 320181d57e0Smglocker { UTVFU_BASE + 0x024e, 0x0002 }, 321181d57e0Smglocker { UTVFU_BASE + 0x024e, 0x0002 }, 322181d57e0Smglocker { UTVFU_BASE + 0x024f, 0x0002 }, 323181d57e0Smglocker }; 324181d57e0Smglocker 325181d57e0Smglocker ret = utvfu_set_regs(sc, setup, nitems(setup)); 326181d57e0Smglocker if (ret) 327181d57e0Smglocker return (ret); 328181d57e0Smglocker 329181d57e0Smglocker ret = utvfu_select_norm(sc, utvfu_norm_params[sc->sc_normi].norm); 330181d57e0Smglocker if (ret) 331181d57e0Smglocker return (ret); 332181d57e0Smglocker 333181d57e0Smglocker ret = utvfu_select_input(sc, sc->sc_input); 334181d57e0Smglocker if (ret) 335181d57e0Smglocker return (ret); 336181d57e0Smglocker 337181d57e0Smglocker return (0); 338181d57e0Smglocker } 339181d57e0Smglocker 340181d57e0Smglocker /* 341181d57e0Smglocker * Copy data from chunk into a frame buffer, deinterlacing the data 342181d57e0Smglocker * into every second line. Unfortunately, they don't align nicely into 343181d57e0Smglocker * 720 pixel lines, as the chunk is 240 words long, which is 480 pixels. 344b20ab6b7Smglocker * Therefore, we break down the chunk into two halves before copying, 345181d57e0Smglocker * so that we can interleave a line if needed. 346181d57e0Smglocker * 347181d57e0Smglocker * Each "chunk" is 240 words; a word in this context equals 4 bytes. 348181d57e0Smglocker * Image format is YUYV/YUV 4:2:2, consisting of Y Cr Y Cb, defining two 349181d57e0Smglocker * pixels, the Cr and Cb shared between the two pixels, but each having 350181d57e0Smglocker * separate Y values. Thus, the 240 words equal 480 pixels. It therefore, 351181d57e0Smglocker * takes 1.5 chunks to make a 720 pixel-wide line for the frame. 352181d57e0Smglocker * The image is interlaced, so there is a "scan" of odd lines, followed 353181d57e0Smglocker * by "scan" of even numbered lines. 354181d57e0Smglocker * 355181d57e0Smglocker * Following code is writing the chunks in correct sequence, skipping 356181d57e0Smglocker * the rows based on "odd" value. 357181d57e0Smglocker * line 1: chunk[0][ 0..479] chunk[0][480..959] chunk[1][ 0..479] 358181d57e0Smglocker * line 3: chunk[1][480..959] chunk[2][ 0..479] chunk[2][480..959] 359181d57e0Smglocker * ...etc 360181d57e0Smglocker */ 361181d57e0Smglocker void 362181d57e0Smglocker utvfu_chunk_to_vbuf(uint8_t *frame, uint8_t *src, int chunk_no, int odd) 363181d57e0Smglocker { 364181d57e0Smglocker uint8_t *dst; 365181d57e0Smglocker int half, line, part_no, part_index; 366181d57e0Smglocker #define UTVFU_STRIDE (UTVFU_CHUNK/2 * 4) 367181d57e0Smglocker 368181d57e0Smglocker for (half = 0; half < 2; half++) { 369181d57e0Smglocker part_no = chunk_no * 2 + half; 370181d57e0Smglocker line = part_no / 3; 371181d57e0Smglocker part_index = (line * 2 + !odd) * 3 + (part_no % 3); 372181d57e0Smglocker 373181d57e0Smglocker dst = &frame[part_index * UTVFU_STRIDE]; 374181d57e0Smglocker 375181d57e0Smglocker memcpy(dst, src, UTVFU_STRIDE); 376181d57e0Smglocker src += UTVFU_STRIDE; 377181d57e0Smglocker } 378181d57e0Smglocker #undef UTVFU_STRIDE 379181d57e0Smglocker } 380181d57e0Smglocker 381181d57e0Smglocker /* 382181d57e0Smglocker * Called for each 256-byte image chunk. 383181d57e0Smglocker * First word identifies the chunk, followed by 240 words of image 384181d57e0Smglocker * data and padding. 385181d57e0Smglocker */ 386181d57e0Smglocker void 387181d57e0Smglocker utvfu_image_chunk(struct utvfu_softc *sc, u_char *chunk) 388181d57e0Smglocker { 389181d57e0Smglocker int frame_id, odd, chunk_no, frame_len; 390181d57e0Smglocker uint32_t hdr; 391181d57e0Smglocker 392181d57e0Smglocker memcpy(&hdr, chunk, sizeof(hdr)); 393181d57e0Smglocker chunk += sizeof(hdr); 394181d57e0Smglocker hdr = be32toh(hdr); 395181d57e0Smglocker 396181d57e0Smglocker /* Ignore corrupted lines. */ 397181d57e0Smglocker if (!UTVFU_MAGIC_OK(hdr)) { 398181d57e0Smglocker DPRINTF(2, "%s: bad magic=0x%08x\n", 399181d57e0Smglocker DEVNAME(sc), UTVFU_MAGIC(hdr)); 400181d57e0Smglocker return; 401181d57e0Smglocker } 402181d57e0Smglocker 403181d57e0Smglocker frame_id = UTVFU_FRAME_ID(hdr); 404181d57e0Smglocker odd = UTVFU_ODD(hdr); 405181d57e0Smglocker chunk_no = UTVFU_CHUNK_NO(hdr); 406181d57e0Smglocker if (chunk_no >= sc->sc_nchunks) { 407181d57e0Smglocker DPRINTF(2, "%s: chunk_no=%d >= sc_nchunks=%d\n", 408181d57e0Smglocker DEVNAME(sc), chunk_no, sc->sc_nchunks); 409181d57e0Smglocker return; 410181d57e0Smglocker } 411181d57e0Smglocker 412181d57e0Smglocker /* Beginning of a frame. */ 413181d57e0Smglocker if (chunk_no == 0) { 414181d57e0Smglocker sc->sc_fb.fid = frame_id; 415181d57e0Smglocker sc->sc_fb.chunks_done = 0; 416181d57e0Smglocker } 417181d57e0Smglocker else if (sc->sc_fb.fid != frame_id) { 418181d57e0Smglocker DPRINTF(2, "%s: frame id mismatch expecting=%d got=%d\n", 419181d57e0Smglocker DEVNAME(sc), sc->sc_fb.fid, frame_id); 420181d57e0Smglocker return; 421181d57e0Smglocker } 422181d57e0Smglocker 423181d57e0Smglocker frame_len = utvfu_norm_params[sc->sc_normi].frame_len; 424181d57e0Smglocker 425181d57e0Smglocker /* Copy the chunk data. */ 426181d57e0Smglocker utvfu_chunk_to_vbuf(sc->sc_fb.buf, chunk, chunk_no, odd); 427181d57e0Smglocker sc->sc_fb.chunks_done++; 428181d57e0Smglocker 429181d57e0Smglocker /* Last chunk in a field */ 430181d57e0Smglocker if (chunk_no == sc->sc_nchunks-1) { 431181d57e0Smglocker /* Last chunk in a frame, signalling an end */ 432181d57e0Smglocker if (odd && !sc->sc_fb.last_odd) { 433181d57e0Smglocker if (sc->sc_fb.chunks_done != sc->sc_nchunks) { 434181d57e0Smglocker DPRINTF(1, "%s: chunks_done=%d != nchunks=%d\n", 435181d57e0Smglocker DEVNAME(sc), 436181d57e0Smglocker sc->sc_fb.chunks_done, sc->sc_nchunks); 437181d57e0Smglocker } 438181d57e0Smglocker 439181d57e0Smglocker if (sc->sc_flags & UTVFU_FLAG_MMAP) { 440181d57e0Smglocker utvfu_mmap_queue(sc, sc->sc_fb.buf, frame_len); 441181d57e0Smglocker } 442181d57e0Smglocker else { 443181d57e0Smglocker utvfu_read(sc, sc->sc_fb.buf, frame_len); 444181d57e0Smglocker } 445181d57e0Smglocker } 446181d57e0Smglocker sc->sc_fb.last_odd = odd; 447181d57e0Smglocker } 448181d57e0Smglocker } 449181d57e0Smglocker 450181d57e0Smglocker int 451181d57e0Smglocker utvfu_start_capture(struct utvfu_softc *sc) 452181d57e0Smglocker { 453181d57e0Smglocker usbd_status error; 454ef70e76aSmglocker int restart_au; 455181d57e0Smglocker 456181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 457181d57e0Smglocker 458ef70e76aSmglocker restart_au = ISSET(sc->sc_flags, UTVFU_FLAG_AS_RUNNING); 459181d57e0Smglocker utvfu_audio_stop(sc); 460181d57e0Smglocker 461181d57e0Smglocker /* default video stream interface */ 462181d57e0Smglocker error = usbd_set_interface(sc->sc_uifaceh, UTVFU_DFLT_IFACE_IDX); 463181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) 464181d57e0Smglocker return (EINVAL); 465181d57e0Smglocker 466181d57e0Smglocker if (utvfu_setup_capture(sc) != 0) 467181d57e0Smglocker return (EINVAL); 468181d57e0Smglocker 469181d57e0Smglocker /* alt setting */ 470181d57e0Smglocker error = usbd_set_interface(sc->sc_uifaceh, UTVFU_ALT_IFACE_IDX); 471181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) 472181d57e0Smglocker return (EINVAL); 473181d57e0Smglocker 474ef70e76aSmglocker if (restart_au) 475181d57e0Smglocker utvfu_audio_start(sc); 476181d57e0Smglocker 477181d57e0Smglocker return (0); 478181d57e0Smglocker } 479181d57e0Smglocker 480181d57e0Smglocker int 481181d57e0Smglocker utvfu_querycap(void *v, struct v4l2_capability *cap) 482181d57e0Smglocker { 483181d57e0Smglocker struct utvfu_softc *sc = v; 484181d57e0Smglocker 485181d57e0Smglocker memset(cap, 0, sizeof(*cap)); 486181d57e0Smglocker strlcpy(cap->driver, DEVNAME(sc), sizeof(cap->driver)); 487181d57e0Smglocker strlcpy(cap->card, "utvfu", sizeof(cap->card)); 488181d57e0Smglocker strlcpy(cap->bus_info, "usb", sizeof(cap->bus_info)); 489181d57e0Smglocker cap->device_caps = V4L2_CAP_VIDEO_CAPTURE; 490181d57e0Smglocker cap->device_caps |= V4L2_CAP_READWRITE | V4L2_CAP_STREAMING; 491181d57e0Smglocker cap->capabilities = cap->device_caps | V4L2_CAP_DEVICE_CAPS; 4927826e0f1Smglocker 493181d57e0Smglocker return (0); 494181d57e0Smglocker } 495181d57e0Smglocker 496181d57e0Smglocker int 497181d57e0Smglocker utvfu_enum_input(void *v, struct v4l2_input *i) 498181d57e0Smglocker { 499181d57e0Smglocker struct utvfu_softc *sc = v; 500181d57e0Smglocker 501181d57e0Smglocker switch (i->index) { 502181d57e0Smglocker case UTVFU_COMPOSITE_INPUT: 503181d57e0Smglocker strlcpy(i->name, "Composite", sizeof(i->name)); 504181d57e0Smglocker break; 505181d57e0Smglocker case UTVFU_SVIDEO_INPUT: 506181d57e0Smglocker strlcpy(i->name, "S-Video", sizeof(i->name)); 507181d57e0Smglocker break; 508181d57e0Smglocker default: 509181d57e0Smglocker return (EINVAL); 510181d57e0Smglocker } 511181d57e0Smglocker 512181d57e0Smglocker i->type = V4L2_INPUT_TYPE_CAMERA; 513181d57e0Smglocker i->std = utvfu_norm_params[sc->sc_normi].norm; 5147826e0f1Smglocker 515181d57e0Smglocker return (0); 516181d57e0Smglocker } 517181d57e0Smglocker 518181d57e0Smglocker int 519181d57e0Smglocker utvfu_enum_fmt_vid_cap(void *v, struct v4l2_fmtdesc *f) 520181d57e0Smglocker { 521181d57e0Smglocker if (f->type != V4L2_BUF_TYPE_VIDEO_CAPTURE || f->index != 0) 522181d57e0Smglocker return (EINVAL); 523181d57e0Smglocker 524181d57e0Smglocker strlcpy(f->description, "16 bpp YUY2, 4:2:2, packed", 525181d57e0Smglocker sizeof(f->description)); 526181d57e0Smglocker f->pixelformat = V4L2_PIX_FMT_YUYV; 5277826e0f1Smglocker 528181d57e0Smglocker return (0); 529181d57e0Smglocker } 530181d57e0Smglocker 531181d57e0Smglocker int 532181d57e0Smglocker utvfu_enum_fsizes(void *v, struct v4l2_frmsizeenum *fsizes) 533181d57e0Smglocker { 534181d57e0Smglocker struct utvfu_softc *sc = v; 535181d57e0Smglocker 536181d57e0Smglocker if (fsizes->pixel_format != V4L2_PIX_FMT_YUYV) 537181d57e0Smglocker return (EINVAL); 538181d57e0Smglocker 539dcbbabc2Smglocker /* The device only supports one frame size. */ 540dcbbabc2Smglocker if (fsizes->index >= 1) 541dcbbabc2Smglocker return (EINVAL); 542dcbbabc2Smglocker 543181d57e0Smglocker fsizes->type = V4L2_FRMSIZE_TYPE_DISCRETE; 544181d57e0Smglocker fsizes->discrete.width = utvfu_norm_params[sc->sc_normi].cap_width; 545181d57e0Smglocker fsizes->discrete.height = utvfu_norm_params[sc->sc_normi].cap_height; 5467826e0f1Smglocker 547181d57e0Smglocker return (0); 548181d57e0Smglocker } 549181d57e0Smglocker 550181d57e0Smglocker int 551181d57e0Smglocker utvfu_g_fmt(void *v, struct v4l2_format *f) 552181d57e0Smglocker { 553181d57e0Smglocker struct utvfu_softc *sc = v; 554181d57e0Smglocker 555181d57e0Smglocker f->fmt.pix.width = utvfu_norm_params[sc->sc_normi].cap_width; 556181d57e0Smglocker f->fmt.pix.height = utvfu_norm_params[sc->sc_normi].cap_height; 557181d57e0Smglocker f->fmt.pix.pixelformat = V4L2_PIX_FMT_YUYV; 558181d57e0Smglocker f->fmt.pix.field = V4L2_FIELD_INTERLACED; 559181d57e0Smglocker f->fmt.pix.bytesperline = f->fmt.pix.width * 2; 560181d57e0Smglocker f->fmt.pix.sizeimage = (f->fmt.pix.bytesperline * f->fmt.pix.height); 561181d57e0Smglocker f->fmt.pix.colorspace = V4L2_COLORSPACE_SMPTE170M; 5627826e0f1Smglocker 563181d57e0Smglocker return (0); 564181d57e0Smglocker } 565181d57e0Smglocker 566181d57e0Smglocker int 567181d57e0Smglocker utvfu_s_fmt(void *v, struct v4l2_format *f) 568181d57e0Smglocker { 569181d57e0Smglocker if (f->fmt.pix.pixelformat != V4L2_PIX_FMT_YUYV) 570181d57e0Smglocker return (EINVAL); 5717826e0f1Smglocker 572181d57e0Smglocker return (0); 573181d57e0Smglocker } 574181d57e0Smglocker 575181d57e0Smglocker int 576181d57e0Smglocker utvfu_g_std(void *v, v4l2_std_id *norm) 577181d57e0Smglocker { 578181d57e0Smglocker struct utvfu_softc *sc = v; 5797826e0f1Smglocker 580181d57e0Smglocker *norm = utvfu_norm_params[sc->sc_normi].norm; 5817826e0f1Smglocker 582181d57e0Smglocker return (0); 583181d57e0Smglocker } 584181d57e0Smglocker 585181d57e0Smglocker int 586181d57e0Smglocker utvfu_s_std(void *v, v4l2_std_id norm) 587181d57e0Smglocker { 588181d57e0Smglocker int ret = EINVAL; 589181d57e0Smglocker struct utvfu_softc *sc = v; 590181d57e0Smglocker 591181d57e0Smglocker if ((norm & V4L2_STD_525_60) || (norm & V4L2_STD_PAL)) 592181d57e0Smglocker ret = utvfu_select_norm(sc, norm); 593181d57e0Smglocker 594181d57e0Smglocker return (ret); 595181d57e0Smglocker } 596181d57e0Smglocker 597181d57e0Smglocker int 598181d57e0Smglocker utvfu_g_input(void *v, int *i) 599181d57e0Smglocker { 600181d57e0Smglocker struct utvfu_softc *sc = v; 6017826e0f1Smglocker 602181d57e0Smglocker *i = sc->sc_input; 6037826e0f1Smglocker 604181d57e0Smglocker return (0); 605181d57e0Smglocker } 606181d57e0Smglocker 607181d57e0Smglocker int 608181d57e0Smglocker utvfu_s_input(void *v, int i) 609181d57e0Smglocker { 610181d57e0Smglocker return utvfu_select_input(v, i); 611181d57e0Smglocker } 612181d57e0Smglocker 613181d57e0Smglocker /* A U D I O */ 614181d57e0Smglocker 615181d57e0Smglocker void 616181d57e0Smglocker utvfu_audio_decode(struct utvfu_softc *sc, int len) 617181d57e0Smglocker { 618181d57e0Smglocker uint8_t *dst, *src; 619181d57e0Smglocker int n, chunk, ncopied; 620181d57e0Smglocker 621181d57e0Smglocker if (sc->sc_audio.blksize == 0) 622181d57e0Smglocker return; 623181d57e0Smglocker 624181d57e0Smglocker src = KERNADDR(&sc->sc_audio.iface.xfer->dmabuf, 0); 625181d57e0Smglocker dst = sc->sc_audio.cur; 626181d57e0Smglocker ncopied = sc->sc_audio.cur - sc->sc_audio.start; 627181d57e0Smglocker /* b/c region start->end is a multiple blksize chunks */ 628181d57e0Smglocker ncopied %= sc->sc_audio.blksize; 629181d57e0Smglocker 630181d57e0Smglocker while (len >= UTVFU_CHUNK_SIZE) { 631181d57e0Smglocker /* 632181d57e0Smglocker * The header, skipped here, ranges from 0xdd000000 to 633181d57e0Smglocker * 0xdd0003ff. The 0xdd seems to be the "magic" and 634181d57e0Smglocker * 0x3ff masks the chunk number. 635181d57e0Smglocker */ 636181d57e0Smglocker src += UTVFU_AUDIO_HDRSIZE; 637181d57e0Smglocker chunk = UTVFU_CHUNK; 638181d57e0Smglocker while (chunk > 0) { 639181d57e0Smglocker n = min(chunk, sc->sc_audio.blksize - ncopied); 640181d57e0Smglocker memcpy(dst, src, n); 641181d57e0Smglocker dst += n; 642181d57e0Smglocker src += n; 643181d57e0Smglocker chunk -= n; 644181d57e0Smglocker ncopied += n; 645181d57e0Smglocker if (ncopied >= sc->sc_audio.blksize) { 646181d57e0Smglocker mtx_enter(&audio_lock); 647181d57e0Smglocker (*sc->sc_audio.intr)(sc->sc_audio.intr_arg); 648181d57e0Smglocker mtx_leave(&audio_lock); 649181d57e0Smglocker ncopied -= sc->sc_audio.blksize; 650181d57e0Smglocker } 651181d57e0Smglocker if (dst > sc->sc_audio.end) 652181d57e0Smglocker dst = sc->sc_audio.start; 653181d57e0Smglocker } 654181d57e0Smglocker len -= UTVFU_CHUNK_SIZE; /* _CHUNK + _AUDIO_HDRSIZE */ 655181d57e0Smglocker } 656181d57e0Smglocker sc->sc_audio.cur = dst; 657181d57e0Smglocker } 658181d57e0Smglocker 659181d57e0Smglocker int 660181d57e0Smglocker utvfu_audio_start_chip(struct utvfu_softc *sc) 661181d57e0Smglocker { 662181d57e0Smglocker static const uint16_t setup[][2] = { 663181d57e0Smglocker /* These seem to enable the device. */ 664181d57e0Smglocker { UTVFU_BASE + 0x0008, 0x0001 }, 665181d57e0Smglocker { UTVFU_BASE + 0x01d0, 0x00ff }, 666181d57e0Smglocker { UTVFU_BASE + 0x01d9, 0x0002 }, 667181d57e0Smglocker 668181d57e0Smglocker { UTVFU_BASE + 0x01da, 0x0013 }, 669181d57e0Smglocker { UTVFU_BASE + 0x01db, 0x0012 }, 670181d57e0Smglocker { UTVFU_BASE + 0x01e9, 0x0002 }, 671181d57e0Smglocker { UTVFU_BASE + 0x01ec, 0x006c }, 672181d57e0Smglocker { UTVFU_BASE + 0x0294, 0x0020 }, 673181d57e0Smglocker { UTVFU_BASE + 0x0255, 0x00cf }, 674181d57e0Smglocker { UTVFU_BASE + 0x0256, 0x0020 }, 675181d57e0Smglocker { UTVFU_BASE + 0x01eb, 0x0030 }, 676181d57e0Smglocker { UTVFU_BASE + 0x027d, 0x00a6 }, 677181d57e0Smglocker { UTVFU_BASE + 0x0280, 0x0011 }, 678181d57e0Smglocker { UTVFU_BASE + 0x0281, 0x0040 }, 679181d57e0Smglocker { UTVFU_BASE + 0x0282, 0x0011 }, 680181d57e0Smglocker { UTVFU_BASE + 0x0283, 0x0040 }, 681181d57e0Smglocker { 0xf891, 0x0010 }, 682181d57e0Smglocker 683181d57e0Smglocker /* this sets the input from composite */ 684181d57e0Smglocker { UTVFU_BASE + 0x0284, 0x00aa }, 685181d57e0Smglocker }; 686181d57e0Smglocker 687181d57e0Smglocker /* starting the stream */ 688181d57e0Smglocker utvfu_set_regs(sc, setup, nitems(setup)); 689181d57e0Smglocker 690181d57e0Smglocker return (0); 691181d57e0Smglocker } 692181d57e0Smglocker 693181d57e0Smglocker int 694181d57e0Smglocker utvfu_audio_stop_chip(struct utvfu_softc *sc) 695181d57e0Smglocker { 696181d57e0Smglocker static const uint16_t setup[][2] = { 697181d57e0Smglocker /* 698181d57e0Smglocker * The original windows driver sometimes sends also: 699181d57e0Smglocker * { UTVFU_BASE + 0x00a2, 0x0013 } 700181d57e0Smglocker * but it seems useless and its real effects are untested at 701181d57e0Smglocker * the moment. 702181d57e0Smglocker */ 703181d57e0Smglocker { UTVFU_BASE + 0x027d, 0x0000 }, 704181d57e0Smglocker { UTVFU_BASE + 0x0280, 0x0010 }, 705181d57e0Smglocker { UTVFU_BASE + 0x0282, 0x0010 }, 706181d57e0Smglocker }; 707181d57e0Smglocker 708181d57e0Smglocker utvfu_set_regs(sc, setup, nitems(setup)); 709181d57e0Smglocker 710181d57e0Smglocker return (0); 711181d57e0Smglocker } 712181d57e0Smglocker 713181d57e0Smglocker /* 714181d57e0Smglocker * Copyright (c) 2008 Robert Nagy <robert@openbsd.org> 715181d57e0Smglocker * Copyright (c) 2008 Marcus Glocker <mglocker@openbsd.org> 716181d57e0Smglocker * Copyright (c) 2016 Patrick Keshishian <patrick@boxsoft.com> 717181d57e0Smglocker * 718181d57e0Smglocker * Permission to use, copy, modify, and distribute this software for any 719181d57e0Smglocker * purpose with or without fee is hereby granted, provided that the above 720181d57e0Smglocker * copyright notice and this permission notice appear in all copies. 721181d57e0Smglocker * 722181d57e0Smglocker * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 723181d57e0Smglocker * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 724181d57e0Smglocker * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 725181d57e0Smglocker * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 726181d57e0Smglocker * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 727181d57e0Smglocker * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 728181d57e0Smglocker * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 729181d57e0Smglocker */ 730181d57e0Smglocker /* 731181d57e0Smglocker * Heavily based on uvideo.c source. 732181d57e0Smglocker */ 733181d57e0Smglocker 734181d57e0Smglocker int utvfu_match(struct device *, void *, void *); 735181d57e0Smglocker void utvfu_attach(struct device *, struct device *, void *); 736181d57e0Smglocker int utvfu_detach(struct device *, int); 737181d57e0Smglocker 738181d57e0Smglocker usbd_status utvfu_parse_desc(struct utvfu_softc *); 739181d57e0Smglocker 740181d57e0Smglocker void utvfu_vs_close(struct utvfu_softc *); 741181d57e0Smglocker void utvfu_vs_free_frame(struct utvfu_softc *); 742181d57e0Smglocker void utvfu_vs_free_isoc(struct utvfu_softc *); 743181d57e0Smglocker void utvfu_vs_start_isoc_ixfer(struct utvfu_softc *, 744181d57e0Smglocker struct utvfu_isoc_xfer *); 745181d57e0Smglocker void utvfu_vs_cb(struct usbd_xfer *, void *, usbd_status); 746181d57e0Smglocker 747181d57e0Smglocker void utvfu_vs_free(struct utvfu_softc *); 748181d57e0Smglocker int utvfu_vs_init(struct utvfu_softc *); 749181d57e0Smglocker int utvfu_vs_alloc_frame(struct utvfu_softc *); 750181d57e0Smglocker usbd_status utvfu_vs_alloc_isoc(struct utvfu_softc *); 751181d57e0Smglocker 752181d57e0Smglocker int utvfu_open(void *, int, int *, uint8_t *, 753181d57e0Smglocker void (*)(void *), void *); 754181d57e0Smglocker int utvfu_close(void *); 755181d57e0Smglocker int utvfu_querycap(void *, struct v4l2_capability *); 756181d57e0Smglocker int utvfu_enum_fmt_vid_cap(void *, struct v4l2_fmtdesc *); 757181d57e0Smglocker int utvfu_enum_fsizes(void *, struct v4l2_frmsizeenum *); 758181d57e0Smglocker int utvfu_g_fmt(void *, struct v4l2_format *); 759181d57e0Smglocker int utvfu_s_fmt(void *, struct v4l2_format *); 760181d57e0Smglocker int utvfu_g_parm(void *, struct v4l2_streamparm *); 761181d57e0Smglocker int utvfu_s_parm(void *, struct v4l2_streamparm *); 762181d57e0Smglocker int utvfu_enum_input(void *, struct v4l2_input *); 763181d57e0Smglocker int utvfu_s_input(void *, int); 764181d57e0Smglocker int utvfu_g_input(void *, int *); 765181d57e0Smglocker 766181d57e0Smglocker int utvfu_reqbufs(void *, struct v4l2_requestbuffers *); 767181d57e0Smglocker int utvfu_querybuf(void *, struct v4l2_buffer *); 768181d57e0Smglocker int utvfu_qbuf(void *, struct v4l2_buffer *); 769181d57e0Smglocker int utvfu_dqbuf(void *, struct v4l2_buffer *); 770181d57e0Smglocker int utvfu_streamon(void *, int); 771181d57e0Smglocker int utvfu_streamoff(void *, int); 772181d57e0Smglocker int utvfu_queryctrl(void *, struct v4l2_queryctrl *); 773181d57e0Smglocker caddr_t utvfu_mappage(void *, off_t, int); 774181d57e0Smglocker int utvfu_get_bufsize(void *); 775181d57e0Smglocker int utvfu_start_read(void *); 776181d57e0Smglocker 777181d57e0Smglocker int utvfu_as_init(struct utvfu_softc *); 778181d57e0Smglocker void utvfu_as_free(struct utvfu_softc *); 779181d57e0Smglocker 780181d57e0Smglocker usbd_status utvfu_as_open(struct utvfu_softc *); 781181d57e0Smglocker int utvfu_as_alloc_bulk(struct utvfu_softc *); 782181d57e0Smglocker void utvfu_as_free_bulk(struct utvfu_softc *); 783181d57e0Smglocker int utvfu_as_start_bulk(struct utvfu_softc *); 784181d57e0Smglocker void utvfu_as_bulk_thread(void *); 785181d57e0Smglocker 786181d57e0Smglocker int utvfu_audio_open(void *, int); 787181d57e0Smglocker void utvfu_audio_close(void *); 788181d57e0Smglocker int utvfu_audio_set_params(void *, int, int, 789181d57e0Smglocker struct audio_params *, struct audio_params *); 790181d57e0Smglocker int utvfu_audio_halt_out(void *); 791181d57e0Smglocker int utvfu_audio_halt_in(void *); 792181d57e0Smglocker int utvfu_audio_mixer_set_port(void *, struct mixer_ctrl *); 793181d57e0Smglocker int utvfu_audio_mixer_get_port(void *, struct mixer_ctrl *); 794181d57e0Smglocker int utvfu_audio_query_devinfo(void *, struct mixer_devinfo *); 795181d57e0Smglocker int utvfu_audio_trigger_output(void *, void *, void *, int, 796181d57e0Smglocker void (*)(void *), void *, struct audio_params *); 797181d57e0Smglocker int utvfu_audio_trigger_input(void *, void *, void *, int, 798181d57e0Smglocker void (*)(void *), void *, struct audio_params *); 799181d57e0Smglocker 800181d57e0Smglocker struct cfdriver utvfu_cd = { 801181d57e0Smglocker NULL, "utvfu", DV_DULL 802181d57e0Smglocker }; 803181d57e0Smglocker 804181d57e0Smglocker const struct cfattach utvfu_ca = { 805181d57e0Smglocker sizeof(struct utvfu_softc), 806181d57e0Smglocker utvfu_match, 807181d57e0Smglocker utvfu_attach, 808181d57e0Smglocker utvfu_detach, 809181d57e0Smglocker NULL 810181d57e0Smglocker }; 811181d57e0Smglocker 8120d6a2fdeSmiod const struct video_hw_if utvfu_vid_hw_if = { 813181d57e0Smglocker utvfu_open, /* open */ 814181d57e0Smglocker utvfu_close, /* close */ 815181d57e0Smglocker utvfu_querycap, /* VIDIOC_QUERYCAP */ 816181d57e0Smglocker utvfu_enum_fmt_vid_cap, /* VIDIOC_ENUM_FMT */ 817181d57e0Smglocker utvfu_enum_fsizes, /* VIDIOC_ENUM_FRAMESIZES */ 818181d57e0Smglocker NULL, /* VIDIOC_ENUM_FRAMEINTERVALS */ 819181d57e0Smglocker utvfu_s_fmt, /* VIDIOC_S_FMT */ 820181d57e0Smglocker utvfu_g_fmt, /* VIDIOC_G_FMT */ 821181d57e0Smglocker utvfu_s_parm, /* VIDIOC_S_PARM */ 822181d57e0Smglocker utvfu_g_parm, /* VIDIOC_G_PARM */ 823181d57e0Smglocker utvfu_enum_input, /* VIDIOC_ENUMINPUT */ 824181d57e0Smglocker utvfu_s_input, /* VIDIOC_S_INPUT */ 825181d57e0Smglocker utvfu_g_input, /* VIDIOC_G_INPUT */ 826181d57e0Smglocker utvfu_reqbufs, /* VIDIOC_REQBUFS */ 827181d57e0Smglocker utvfu_querybuf, /* VIDIOC_QUERYBUF */ 828181d57e0Smglocker utvfu_qbuf, /* VIDIOC_QBUF */ 829181d57e0Smglocker utvfu_dqbuf, /* VIDIOC_DQBUF */ 830181d57e0Smglocker utvfu_streamon, /* VIDIOC_STREAMON */ 831181d57e0Smglocker utvfu_streamoff, /* VIDIOC_STREAMOFF */ 832181d57e0Smglocker NULL, /* VIDIOC_TRY_FMT */ 833181d57e0Smglocker utvfu_queryctrl, /* VIDIOC_QUERYCTRL */ 834181d57e0Smglocker NULL, /* VIDIOC_G_CTRL */ 835181d57e0Smglocker NULL, /* VIDIOC_S_CTRL */ 836181d57e0Smglocker utvfu_mappage, /* mmap */ 837181d57e0Smglocker utvfu_get_bufsize, /* read */ 838181d57e0Smglocker utvfu_start_read /* start stream for read */ 839181d57e0Smglocker }; 840181d57e0Smglocker 8410d6a2fdeSmiod const struct audio_hw_if utvfu_au_hw_if = { 8425a8d990aSkn .open = utvfu_audio_open, 8435a8d990aSkn .close = utvfu_audio_close, 8445a8d990aSkn .set_params = utvfu_audio_set_params, 8455a8d990aSkn .halt_output = utvfu_audio_halt_out, 8465a8d990aSkn .halt_input = utvfu_audio_halt_in, 8475a8d990aSkn .set_port = utvfu_audio_mixer_set_port, 8485a8d990aSkn .get_port = utvfu_audio_mixer_get_port, 8495a8d990aSkn .query_devinfo = utvfu_audio_query_devinfo, 8505a8d990aSkn .trigger_output = utvfu_audio_trigger_output, 8515a8d990aSkn .trigger_input = utvfu_audio_trigger_input, 852181d57e0Smglocker }; 853181d57e0Smglocker 854181d57e0Smglocker int 855181d57e0Smglocker utvfu_match(struct device *parent, void *match, void *aux) 856181d57e0Smglocker { 857181d57e0Smglocker struct usb_attach_arg *uaa = aux; 85840e1c85bSmglocker const struct usb_descriptor *ud; 859181d57e0Smglocker struct usbd_desc_iter iter; 860181d57e0Smglocker struct usb_interface_descriptor *uid = NULL; 86140e1c85bSmglocker const struct usb_endpoint_descriptor *ued = NULL; 862181d57e0Smglocker usb_device_descriptor_t *dd; 863181d57e0Smglocker int ret = UMATCH_NONE; 864181d57e0Smglocker int nep, nalt; 86540e1c85bSmglocker uint16_t psize = 0; 866181d57e0Smglocker 867181d57e0Smglocker if (uaa->iface == NULL) 868181d57e0Smglocker return ret; 869181d57e0Smglocker 870181d57e0Smglocker dd = usbd_get_device_descriptor(uaa->device); 871181d57e0Smglocker 872181d57e0Smglocker if (UGETW(dd->idVendor) == USB_VENDOR_FUSHICAI && 873181d57e0Smglocker UGETW(dd->idProduct) == USB_PRODUCT_FUSHICAI_USBTV007) 874181d57e0Smglocker ret = UMATCH_VENDOR_PRODUCT; 875181d57e0Smglocker /* 876181d57e0Smglocker * This seems like a fragile check, but the original driver ensures 877181d57e0Smglocker * there are two alternate settings for the interface, and alternate 878181d57e0Smglocker * setting 1 has four endpoints. 879181d57e0Smglocker * 880181d57e0Smglocker * Comment says "Checks that the device is what we think it is." 88140e1c85bSmglocker * 88240e1c85bSmglocker * Adding check that wMaxPacketSize for the video endpoint is > 0. 883181d57e0Smglocker */ 884181d57e0Smglocker nep = nalt = 0; 885181d57e0Smglocker usbd_desc_iter_init(uaa->device, &iter); 886181d57e0Smglocker while ((ud = usbd_desc_iter_next(&iter)) != NULL) { 887181d57e0Smglocker switch (ud->bDescriptorType) { 888181d57e0Smglocker default: 889181d57e0Smglocker break; 890181d57e0Smglocker case UDESC_INTERFACE: 891181d57e0Smglocker uid = (void *)ud; 892181d57e0Smglocker if (uid->bInterfaceNumber == 0) 893181d57e0Smglocker nalt++; 894181d57e0Smglocker break; 895181d57e0Smglocker case UDESC_ENDPOINT: 89640e1c85bSmglocker if (uid->bAlternateSetting == 1) { 89740e1c85bSmglocker ued = (void *)ud; 89840e1c85bSmglocker if (ued->bEndpointAddress == UTVFU_VIDEO_ENDP) 89940e1c85bSmglocker psize = UGETW(ued->wMaxPacketSize); 900181d57e0Smglocker nep++; 90140e1c85bSmglocker } 902181d57e0Smglocker break; 903181d57e0Smglocker } 904181d57e0Smglocker if (uid != NULL && uid->bInterfaceNumber > 0) 905181d57e0Smglocker break; 906181d57e0Smglocker } 907181d57e0Smglocker 90840e1c85bSmglocker if (nalt != 2 || nep != 4 || psize == 0) 909181d57e0Smglocker ret = UMATCH_NONE; 910181d57e0Smglocker 911181d57e0Smglocker return (ret); 912181d57e0Smglocker } 913181d57e0Smglocker 914181d57e0Smglocker void 915181d57e0Smglocker utvfu_attach(struct device *parent, struct device *self, void *aux) 916181d57e0Smglocker { 917181d57e0Smglocker int i; 918181d57e0Smglocker struct utvfu_softc *sc = (struct utvfu_softc *)self; 919181d57e0Smglocker struct usb_attach_arg *uaa = aux; 920181d57e0Smglocker 921181d57e0Smglocker sc->sc_udev = uaa->device; 922181d57e0Smglocker for (i = 0; i < uaa->nifaces; i++) { 923181d57e0Smglocker if (usbd_iface_claimed(sc->sc_udev, i)) 924181d57e0Smglocker continue; 925181d57e0Smglocker usbd_claim_iface(sc->sc_udev, i); 926181d57e0Smglocker } 927181d57e0Smglocker 928181d57e0Smglocker utvfu_parse_desc(sc); 929181d57e0Smglocker 930181d57e0Smglocker /* init mmap queue */ 931181d57e0Smglocker SIMPLEQ_INIT(&sc->sc_mmap_q); 932181d57e0Smglocker sc->sc_mmap_count = 0; 933181d57e0Smglocker 934181d57e0Smglocker sc->sc_max_frame_sz = utvfu_max_frame_size(); 935181d57e0Smglocker 936181d57e0Smglocker /* calculate optimal isoc xfer size */ 937181d57e0Smglocker sc->sc_nframes = (sc->sc_max_frame_sz + sc->sc_iface.psize - 1) 938181d57e0Smglocker / sc->sc_iface.psize; 939181d57e0Smglocker if (sc->sc_nframes > UTVFU_NFRAMES_MAX) 940181d57e0Smglocker sc->sc_nframes = UTVFU_NFRAMES_MAX; 941181d57e0Smglocker DPRINTF(1, "%s: nframes=%d\n", DEVNAME(sc), sc->sc_nframes); 942181d57e0Smglocker 943181d57e0Smglocker rw_init(&sc->sc_audio.rwlock, "audiorwl"); 944181d57e0Smglocker 9452baa08e2Santon sc->sc_audiodev = audio_attach_mi(&utvfu_au_hw_if, sc, NULL, &sc->sc_dev); 946181d57e0Smglocker sc->sc_videodev = video_attach_mi(&utvfu_vid_hw_if, sc, &sc->sc_dev); 947181d57e0Smglocker } 948181d57e0Smglocker 949181d57e0Smglocker int 950181d57e0Smglocker utvfu_detach(struct device *self, int flags) 951181d57e0Smglocker { 952181d57e0Smglocker struct utvfu_softc *sc = (struct utvfu_softc *)self; 953181d57e0Smglocker int rv = 0; 954181d57e0Smglocker 955181d57e0Smglocker /* Wait for outstanding requests to complete */ 956181d57e0Smglocker usbd_delay_ms(sc->sc_udev, UTVFU_NFRAMES_MAX); /* XXX meh? */ 957181d57e0Smglocker 958181d57e0Smglocker if (sc->sc_videodev != NULL) 959181d57e0Smglocker rv = config_detach(sc->sc_videodev, flags); 960181d57e0Smglocker 961181d57e0Smglocker if (sc->sc_audiodev != NULL) 962181d57e0Smglocker rv += config_detach(sc->sc_audiodev, flags); 963181d57e0Smglocker 964181d57e0Smglocker utvfu_as_free(sc); 965181d57e0Smglocker utvfu_vs_free(sc); 966181d57e0Smglocker 967ef70e76aSmglocker sc->sc_flags = 0; 968ef70e76aSmglocker 969181d57e0Smglocker return (rv); 970181d57e0Smglocker } 971181d57e0Smglocker 972181d57e0Smglocker usbd_status 973181d57e0Smglocker utvfu_parse_desc(struct utvfu_softc *sc) 974181d57e0Smglocker { 975181d57e0Smglocker int nif, nep; 976181d57e0Smglocker uint32_t psize; 977181d57e0Smglocker struct usbd_desc_iter iter; 978181d57e0Smglocker const struct usb_descriptor *ud; 979181d57e0Smglocker struct usb_endpoint_descriptor *ued; 980181d57e0Smglocker struct usb_interface_descriptor *uid = NULL; 981181d57e0Smglocker 982181d57e0Smglocker nif = nep = 0; 983181d57e0Smglocker usbd_desc_iter_init(sc->sc_udev, &iter); 984181d57e0Smglocker while ((ud = usbd_desc_iter_next(&iter)) != NULL) { 985181d57e0Smglocker if (ud->bDescriptorType != UDESC_INTERFACE) 986181d57e0Smglocker continue; 987181d57e0Smglocker /* looking for interface 0, alt-setting 1 */ 988181d57e0Smglocker uid = (void *)ud; 989181d57e0Smglocker if (uid->bInterfaceNumber > 0) 990181d57e0Smglocker break; 991181d57e0Smglocker if (uid->bAlternateSetting == 1) 992181d57e0Smglocker break; 993181d57e0Smglocker } 994181d57e0Smglocker 9954b6b9974Smglocker /* this should not fail as it was ensured during match */ 9964b6b9974Smglocker if (uid == NULL || uid->bInterfaceNumber != 0 || 9974b6b9974Smglocker uid->bAlternateSetting != 1) { 9984b6b9974Smglocker printf("%s: no valid alternate interface found!\n", 9994b6b9974Smglocker DEVNAME(sc)); 10004b6b9974Smglocker return (USBD_INVAL); 10014b6b9974Smglocker } 10024b6b9974Smglocker 10034b6b9974Smglocker /* bInterfaceNumber = 0 */ 10044b6b9974Smglocker sc->sc_uifaceh = &sc->sc_udev->ifaces[0]; 10054b6b9974Smglocker 10064b6b9974Smglocker /* looking for video endpoint to on alternate setting 1 */ 1007181d57e0Smglocker while ((ud = usbd_desc_iter_next(&iter)) != NULL) { 1008181d57e0Smglocker if (ud->bDescriptorType != UDESC_ENDPOINT) 1009181d57e0Smglocker break; 1010181d57e0Smglocker 1011181d57e0Smglocker ued = (void *)ud; 10124b6b9974Smglocker if (ued->bEndpointAddress != UTVFU_VIDEO_ENDP) 10134b6b9974Smglocker continue; 10144b6b9974Smglocker 1015181d57e0Smglocker psize = UGETW(ued->wMaxPacketSize); 1016181d57e0Smglocker psize = UE_GET_SIZE(psize) * (1 + UE_GET_TRANS(psize)); 1017181d57e0Smglocker sc->sc_iface.psize = psize; 10184b6b9974Smglocker break; 1019181d57e0Smglocker } 1020181d57e0Smglocker 1021181d57e0Smglocker return (USBD_NORMAL_COMPLETION); 1022181d57e0Smglocker } 1023181d57e0Smglocker 1024181d57e0Smglocker int 1025181d57e0Smglocker utvfu_open(void *addr, int flags, int *size, uint8_t *buffer, 1026181d57e0Smglocker void (*intr)(void *), void *arg) 1027181d57e0Smglocker { 1028181d57e0Smglocker struct utvfu_softc *sc = addr; 1029181d57e0Smglocker int rv; 1030181d57e0Smglocker 1031181d57e0Smglocker DPRINTF(1, "%s: utvfu_open: sc=%p\n", DEVNAME(sc), sc); 1032181d57e0Smglocker 1033181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1034181d57e0Smglocker return (EIO); 1035181d57e0Smglocker 1036ef70e76aSmglocker if ((rv = utvfu_vs_init(sc)) != 0) 1037181d57e0Smglocker return (rv); 1038181d57e0Smglocker 1039181d57e0Smglocker /* pointers to upper video layer */ 1040181d57e0Smglocker sc->sc_uplayer_arg = arg; 1041181d57e0Smglocker sc->sc_uplayer_fsize = size; 1042181d57e0Smglocker sc->sc_uplayer_fbuffer = buffer; 1043181d57e0Smglocker sc->sc_uplayer_intr = intr; 1044181d57e0Smglocker 1045181d57e0Smglocker sc->sc_flags &= ~UTVFU_FLAG_MMAP; 1046181d57e0Smglocker 1047181d57e0Smglocker return (0); 1048181d57e0Smglocker } 1049181d57e0Smglocker 1050181d57e0Smglocker int 1051181d57e0Smglocker utvfu_close(void *addr) 1052181d57e0Smglocker { 1053181d57e0Smglocker struct utvfu_softc *sc = addr; 1054181d57e0Smglocker 1055181d57e0Smglocker DPRINTF(1, "%s: utvfu_close: sc=%p\n", DEVNAME(sc), sc); 1056181d57e0Smglocker 1057181d57e0Smglocker /* free & clean up video stream */ 1058181d57e0Smglocker utvfu_vs_free(sc); 1059181d57e0Smglocker 1060181d57e0Smglocker return (0); 1061181d57e0Smglocker } 1062181d57e0Smglocker 1063181d57e0Smglocker usbd_status 1064181d57e0Smglocker utvfu_as_open(struct utvfu_softc *sc) 1065181d57e0Smglocker { 1066181d57e0Smglocker usb_endpoint_descriptor_t *ed; 1067181d57e0Smglocker usbd_status error; 1068181d57e0Smglocker 1069181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1070181d57e0Smglocker 1071181d57e0Smglocker if (sc->sc_audio.iface.pipeh != NULL) { 1072181d57e0Smglocker printf("%s: %s called while sc_audio.iface.pipeh not NULL\n", 1073181d57e0Smglocker DEVNAME(sc), __func__); 1074181d57e0Smglocker return (USBD_INVAL); 1075181d57e0Smglocker } 1076181d57e0Smglocker 10774b6b9974Smglocker ed = usbd_get_endpoint_descriptor(sc->sc_uifaceh, UTVFU_AUDIO_ENDP); 1078181d57e0Smglocker if (ed == NULL) { 1079181d57e0Smglocker printf("%s: no endpoint descriptor for AS iface\n", 1080181d57e0Smglocker DEVNAME(sc)); 1081181d57e0Smglocker return (USBD_INVAL); 1082181d57e0Smglocker } 1083181d57e0Smglocker DPRINTF(1, "%s: open pipe for ", DEVNAME(sc)); 1084181d57e0Smglocker DPRINTF(1, "bEndpointAddress=0x%02x (0x%02x), wMaxPacketSize=" 1085181d57e0Smglocker "0x%04x (%d)\n", 1086181d57e0Smglocker UE_GET_ADDR(ed->bEndpointAddress), 1087181d57e0Smglocker UTVFU_AUDIO_ENDP, 1088181d57e0Smglocker UGETW(ed->wMaxPacketSize), 10894b6b9974Smglocker UE_GET_SIZE(UGETW(ed->wMaxPacketSize)) 10904b6b9974Smglocker * (1 + UE_GET_TRANS(UGETW(ed->wMaxPacketSize)))); 1091181d57e0Smglocker 1092181d57e0Smglocker error = usbd_open_pipe( 1093181d57e0Smglocker sc->sc_uifaceh, 1094181d57e0Smglocker UTVFU_AUDIO_ENDP, 1095181d57e0Smglocker USBD_EXCLUSIVE_USE, 1096181d57e0Smglocker &sc->sc_audio.iface.pipeh); 1097181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) { 1098181d57e0Smglocker printf("%s: could not open AS pipe: %s\n", 1099181d57e0Smglocker DEVNAME(sc), usbd_errstr(error)); 1100181d57e0Smglocker } 1101181d57e0Smglocker 1102181d57e0Smglocker return (error); 1103181d57e0Smglocker } 1104181d57e0Smglocker 1105181d57e0Smglocker usbd_status 1106181d57e0Smglocker utvfu_vs_open(struct utvfu_softc *sc) 1107181d57e0Smglocker { 1108181d57e0Smglocker usb_endpoint_descriptor_t *ed; 1109181d57e0Smglocker usbd_status error; 1110181d57e0Smglocker 1111181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1112181d57e0Smglocker 1113181d57e0Smglocker if (sc->sc_iface.pipeh != NULL) { 1114181d57e0Smglocker printf("%s: %s called while sc_iface.pipeh not NULL\n", 1115181d57e0Smglocker DEVNAME(sc), __func__); 1116181d57e0Smglocker return (USBD_INVAL); 1117181d57e0Smglocker } 1118181d57e0Smglocker 11194b6b9974Smglocker ed = usbd_get_endpoint_descriptor(sc->sc_uifaceh, UTVFU_VIDEO_ENDP); 1120181d57e0Smglocker if (ed == NULL) { 1121181d57e0Smglocker printf("%s: no endpoint descriptor for VS iface\n", 1122181d57e0Smglocker DEVNAME(sc)); 1123181d57e0Smglocker return (USBD_INVAL); 1124181d57e0Smglocker } 1125181d57e0Smglocker DPRINTF(1, "%s: open pipe for ", DEVNAME(sc)); 1126181d57e0Smglocker DPRINTF(1, "bEndpointAddress=0x%02x (0x%02x), wMaxPacketSize=" 1127181d57e0Smglocker "0x%04x (%d)\n", 1128181d57e0Smglocker UE_GET_ADDR(ed->bEndpointAddress), 11294b6b9974Smglocker UTVFU_VIDEO_ENDP, 1130181d57e0Smglocker UGETW(ed->wMaxPacketSize), 1131181d57e0Smglocker sc->sc_iface.psize); 1132181d57e0Smglocker 1133181d57e0Smglocker error = usbd_open_pipe( 1134181d57e0Smglocker sc->sc_uifaceh, 11354b6b9974Smglocker UTVFU_VIDEO_ENDP, 1136181d57e0Smglocker USBD_EXCLUSIVE_USE, 1137181d57e0Smglocker &sc->sc_iface.pipeh); 1138181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) { 1139181d57e0Smglocker printf("%s: could not open VS pipe: %s\n", 1140181d57e0Smglocker DEVNAME(sc), usbd_errstr(error)); 1141181d57e0Smglocker } 1142181d57e0Smglocker 1143181d57e0Smglocker return (error); 1144181d57e0Smglocker } 1145181d57e0Smglocker 1146181d57e0Smglocker void 1147181d57e0Smglocker utvfu_as_close(struct utvfu_softc *sc) 1148181d57e0Smglocker { 1149ef70e76aSmglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1150ef70e76aSmglocker 1151ef70e76aSmglocker CLR(sc->sc_flags, UTVFU_FLAG_AS_RUNNING); 1152ef70e76aSmglocker 1153181d57e0Smglocker if (sc->sc_audio.iface.pipeh != NULL) { 1154181d57e0Smglocker usbd_abort_pipe(sc->sc_audio.iface.pipeh); 1155ef70e76aSmglocker 1156233b8fd9Smglocker usbd_ref_wait(sc->sc_udev); 1157ef70e76aSmglocker 1158181d57e0Smglocker usbd_close_pipe(sc->sc_audio.iface.pipeh); 1159181d57e0Smglocker sc->sc_audio.iface.pipeh = NULL; 1160181d57e0Smglocker } 1161181d57e0Smglocker } 1162181d57e0Smglocker 1163181d57e0Smglocker void 1164181d57e0Smglocker utvfu_vs_close(struct utvfu_softc *sc) 1165181d57e0Smglocker { 1166181d57e0Smglocker if (sc->sc_iface.pipeh != NULL) { 1167181d57e0Smglocker usbd_close_pipe(sc->sc_iface.pipeh); 1168181d57e0Smglocker sc->sc_iface.pipeh = NULL; 1169181d57e0Smglocker } 1170181d57e0Smglocker 1171181d57e0Smglocker /* 1172181d57e0Smglocker * Some devices need time to shutdown before we switch back to 1173181d57e0Smglocker * the default interface (0). Not doing so can leave the device 1174181d57e0Smglocker * back in a undefined condition. 1175181d57e0Smglocker */ 1176181d57e0Smglocker usbd_delay_ms(sc->sc_udev, 100); 1177181d57e0Smglocker 1178181d57e0Smglocker /* switch back to default interface (turns off cam LED) */ 1179181d57e0Smglocker (void)usbd_set_interface(sc->sc_uifaceh, UTVFU_DFLT_IFACE_IDX); 1180181d57e0Smglocker } 1181181d57e0Smglocker 1182181d57e0Smglocker void 1183181d57e0Smglocker utvfu_read(struct utvfu_softc *sc, uint8_t *buf, int len) 1184181d57e0Smglocker { 1185181d57e0Smglocker /* 1186181d57e0Smglocker * Copy video frame to upper layer buffer and call 1187181d57e0Smglocker * upper layer interrupt. 1188181d57e0Smglocker */ 1189181d57e0Smglocker *sc->sc_uplayer_fsize = len; 1190181d57e0Smglocker memcpy(sc->sc_uplayer_fbuffer, buf, len); 1191181d57e0Smglocker (*sc->sc_uplayer_intr)(sc->sc_uplayer_arg); 1192181d57e0Smglocker } 1193181d57e0Smglocker 1194181d57e0Smglocker int 1195181d57e0Smglocker utvfu_as_start_bulk(struct utvfu_softc *sc) 1196181d57e0Smglocker { 1197181d57e0Smglocker int error; 1198181d57e0Smglocker 1199ef70e76aSmglocker if (ISSET(sc->sc_flags, UTVFU_FLAG_AS_RUNNING)) 1200181d57e0Smglocker return (0); 1201181d57e0Smglocker if (sc->sc_audio.iface.pipeh == NULL) 1202181d57e0Smglocker return (ENXIO); 1203181d57e0Smglocker 1204ef70e76aSmglocker SET(sc->sc_flags, UTVFU_FLAG_AS_RUNNING); 1205181d57e0Smglocker error = kthread_create(utvfu_as_bulk_thread, sc, NULL, DEVNAME(sc)); 1206181d57e0Smglocker if (error) { 1207ef70e76aSmglocker CLR(sc->sc_flags, UTVFU_FLAG_AS_RUNNING); 1208181d57e0Smglocker printf("%s: can't create kernel thread!", DEVNAME(sc)); 1209181d57e0Smglocker } 1210181d57e0Smglocker 1211181d57e0Smglocker return (error); 1212181d57e0Smglocker } 1213181d57e0Smglocker 1214181d57e0Smglocker void 1215181d57e0Smglocker utvfu_as_bulk_thread(void *arg) 1216181d57e0Smglocker { 1217181d57e0Smglocker struct utvfu_softc *sc = arg; 1218181d57e0Smglocker struct utvfu_as_iface *iface; 1219181d57e0Smglocker usbd_status error; 1220181d57e0Smglocker uint32_t actlen; 1221181d57e0Smglocker 1222ef70e76aSmglocker DPRINTF(1, "%s %s\n", DEVNAME(sc), __func__); 1223ef70e76aSmglocker 1224181d57e0Smglocker iface = &sc->sc_audio.iface; 1225233b8fd9Smglocker usbd_ref_incr(sc->sc_udev); 1226ef70e76aSmglocker while (ISSET(sc->sc_flags, UTVFU_FLAG_AS_RUNNING)) { 1227181d57e0Smglocker usbd_setup_xfer( 1228181d57e0Smglocker iface->xfer, 1229181d57e0Smglocker iface->pipeh, 1230181d57e0Smglocker 0, 1231181d57e0Smglocker NULL, 1232181d57e0Smglocker UTVFU_AUDIO_URBSIZE, 1233181d57e0Smglocker USBD_NO_COPY | USBD_SHORT_XFER_OK | USBD_SYNCHRONOUS, 1234181d57e0Smglocker 0, 1235181d57e0Smglocker NULL); 1236181d57e0Smglocker error = usbd_transfer(iface->xfer); 1237ef70e76aSmglocker 1238181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) { 1239181d57e0Smglocker DPRINTF(1, "%s: error in bulk xfer: %s!\n", 1240181d57e0Smglocker DEVNAME(sc), usbd_errstr(error)); 1241181d57e0Smglocker break; 1242181d57e0Smglocker } 1243181d57e0Smglocker 1244181d57e0Smglocker usbd_get_xfer_status(iface->xfer, NULL, NULL, &actlen, 1245181d57e0Smglocker NULL); 1246181d57e0Smglocker DPRINTF(2, "%s: *** buffer len = %d\n", DEVNAME(sc), actlen); 1247181d57e0Smglocker 1248181d57e0Smglocker rw_enter_read(&sc->sc_audio.rwlock); 1249181d57e0Smglocker utvfu_audio_decode(sc, actlen); 1250181d57e0Smglocker rw_exit_read(&sc->sc_audio.rwlock); 1251181d57e0Smglocker } 1252181d57e0Smglocker 1253ef70e76aSmglocker CLR(sc->sc_flags, UTVFU_FLAG_AS_RUNNING); 1254233b8fd9Smglocker usbd_ref_decr(sc->sc_udev); 1255181d57e0Smglocker 1256181d57e0Smglocker DPRINTF(1, "%s %s: exiting\n", DEVNAME(sc), __func__); 1257181d57e0Smglocker 1258181d57e0Smglocker kthread_exit(0); 1259181d57e0Smglocker } 1260181d57e0Smglocker 1261181d57e0Smglocker void 1262181d57e0Smglocker utvfu_vs_start_isoc(struct utvfu_softc *sc) 1263181d57e0Smglocker { 1264181d57e0Smglocker int i; 12657826e0f1Smglocker 1266181d57e0Smglocker for (i = 0; i < UTVFU_ISOC_TRANSFERS; i++) 1267181d57e0Smglocker utvfu_vs_start_isoc_ixfer(sc, &sc->sc_iface.ixfer[i]); 1268181d57e0Smglocker } 1269181d57e0Smglocker 1270181d57e0Smglocker void 1271181d57e0Smglocker utvfu_vs_start_isoc_ixfer(struct utvfu_softc *sc, 1272181d57e0Smglocker struct utvfu_isoc_xfer *ixfer) 1273181d57e0Smglocker { 1274181d57e0Smglocker int i; 1275181d57e0Smglocker usbd_status error; 1276181d57e0Smglocker 1277181d57e0Smglocker DPRINTF(2, "%s: %s\n", DEVNAME(sc), __func__); 1278181d57e0Smglocker 1279181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1280181d57e0Smglocker return; 1281181d57e0Smglocker 1282181d57e0Smglocker for (i = 0; i < sc->sc_nframes; i++) 1283181d57e0Smglocker ixfer->size[i] = sc->sc_iface.psize; 1284181d57e0Smglocker 1285181d57e0Smglocker usbd_setup_isoc_xfer( 1286181d57e0Smglocker ixfer->xfer, 1287181d57e0Smglocker sc->sc_iface.pipeh, 1288181d57e0Smglocker ixfer, 1289181d57e0Smglocker ixfer->size, 1290181d57e0Smglocker sc->sc_nframes, 1291181d57e0Smglocker USBD_NO_COPY | USBD_SHORT_XFER_OK, 1292181d57e0Smglocker utvfu_vs_cb); 1293181d57e0Smglocker 1294181d57e0Smglocker error = usbd_transfer(ixfer->xfer); 1295181d57e0Smglocker if (error && error != USBD_IN_PROGRESS) { 1296181d57e0Smglocker DPRINTF(1, "%s: usbd_transfer error=%s!\n", 1297181d57e0Smglocker DEVNAME(sc), usbd_errstr(error)); 1298181d57e0Smglocker } 1299181d57e0Smglocker } 1300181d57e0Smglocker 1301181d57e0Smglocker /* 1302181d57e0Smglocker * Each packet contains a number of 256-byte chunks composing the image frame. 1303181d57e0Smglocker */ 1304181d57e0Smglocker void 1305181d57e0Smglocker utvfu_vs_cb(struct usbd_xfer *xfer, void *priv, usbd_status status) 1306181d57e0Smglocker { 1307181d57e0Smglocker struct utvfu_isoc_xfer *ixfer = priv; 1308181d57e0Smglocker struct utvfu_softc *sc = ixfer->sc; 1309181d57e0Smglocker int i, off, frame_size; 1310181d57e0Smglocker uint32_t actlen; 1311181d57e0Smglocker uint8_t *frame; 1312181d57e0Smglocker 1313181d57e0Smglocker DPRINTF(2, "%s: %s\n", DEVNAME(sc), __func__); 1314181d57e0Smglocker 1315181d57e0Smglocker if (status != USBD_NORMAL_COMPLETION) { 1316181d57e0Smglocker DPRINTF(1, "%s: %s: %s\n", DEVNAME(sc), __func__, 1317181d57e0Smglocker usbd_errstr(status)); 1318181d57e0Smglocker return; 1319181d57e0Smglocker } 1320181d57e0Smglocker usbd_get_xfer_status(xfer, NULL, NULL, &actlen, NULL); 1321181d57e0Smglocker 1322181d57e0Smglocker DPRINTF(2, "%s: *** buffer len = %d\n", DEVNAME(sc), actlen); 1323181d57e0Smglocker if (actlen == 0) 1324181d57e0Smglocker goto skip; 1325181d57e0Smglocker 1326181d57e0Smglocker frame = KERNADDR(&xfer->dmabuf, 0); 1327181d57e0Smglocker for (i = 0; i < sc->sc_nframes; i++, frame += sc->sc_iface.psize) { 1328181d57e0Smglocker frame_size = ixfer->size[i]; 1329181d57e0Smglocker 1330181d57e0Smglocker if (frame_size == 0) 1331181d57e0Smglocker /* frame is empty */ 1332181d57e0Smglocker continue; 1333181d57e0Smglocker 1334181d57e0Smglocker #define CHUNK_STRIDE (UTVFU_CHUNK_SIZE*4) 1335181d57e0Smglocker for (off = 0; off + CHUNK_STRIDE <= frame_size; 1336181d57e0Smglocker off += CHUNK_STRIDE) { 1337181d57e0Smglocker utvfu_image_chunk(sc, frame + off); 1338181d57e0Smglocker } 1339181d57e0Smglocker #undef CHUNK_STRIDE 1340181d57e0Smglocker } 1341181d57e0Smglocker 1342181d57e0Smglocker skip: /* setup new transfer */ 1343181d57e0Smglocker utvfu_vs_start_isoc_ixfer(sc, ixfer); 1344181d57e0Smglocker } 1345181d57e0Smglocker 1346181d57e0Smglocker int 1347181d57e0Smglocker utvfu_find_queued(struct utvfu_softc *sc) 1348181d57e0Smglocker { 1349181d57e0Smglocker int i; 1350181d57e0Smglocker 1351181d57e0Smglocker /* find a buffer which is ready for queueing */ 1352181d57e0Smglocker for (i = 0; i < sc->sc_mmap_count; i++) { 1353181d57e0Smglocker if (sc->sc_mmap[i].v4l2_buf.flags & V4L2_BUF_FLAG_DONE) 1354181d57e0Smglocker continue; 1355181d57e0Smglocker if (sc->sc_mmap[i].v4l2_buf.flags & V4L2_BUF_FLAG_QUEUED) 1356181d57e0Smglocker return (i); 1357181d57e0Smglocker } 13587826e0f1Smglocker 1359181d57e0Smglocker return (-1); 1360181d57e0Smglocker } 1361181d57e0Smglocker 1362181d57e0Smglocker int 1363181d57e0Smglocker utvfu_mmap_queue(struct utvfu_softc *sc, uint8_t *buf, int len) 1364181d57e0Smglocker { 1365181d57e0Smglocker int i; 1366181d57e0Smglocker 1367181d57e0Smglocker if (sc->sc_mmap_count == 0 || sc->sc_mmap_buffer == NULL) 1368181d57e0Smglocker panic("%s: mmap buffers not allocated", __func__); 1369181d57e0Smglocker 1370181d57e0Smglocker /* find a buffer which is ready for queueing */ 1371181d57e0Smglocker if ((i = utvfu_find_queued(sc)) == -1) { 1372181d57e0Smglocker DPRINTF(2, "%s: mmap queue is full!\n", DEVNAME(sc)); 1373181d57e0Smglocker return (ENOMEM); 1374181d57e0Smglocker } 1375181d57e0Smglocker 1376181d57e0Smglocker /* copy frame to mmap buffer and report length */ 1377181d57e0Smglocker memcpy(sc->sc_mmap[i].buf, buf, len); 1378181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.bytesused = len; 1379181d57e0Smglocker 1380181d57e0Smglocker /* timestamp it */ 1381181d57e0Smglocker getmicrotime(&sc->sc_mmap[i].v4l2_buf.timestamp); 1382181d57e0Smglocker 1383181d57e0Smglocker /* appropriately set/clear flags */ 1384181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.flags &= ~V4L2_BUF_FLAG_QUEUED; 1385181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.flags |= V4L2_BUF_FLAG_DONE; 1386181d57e0Smglocker 1387181d57e0Smglocker /* queue it */ 1388181d57e0Smglocker SIMPLEQ_INSERT_TAIL(&sc->sc_mmap_q, &sc->sc_mmap[i], q_frames); 1389181d57e0Smglocker DPRINTF(2, "%s: %s: frame queued on index %d\n", 1390181d57e0Smglocker DEVNAME(sc), __func__, i); 1391181d57e0Smglocker 1392181d57e0Smglocker wakeup(sc); 1393181d57e0Smglocker 1394181d57e0Smglocker /* 1395181d57e0Smglocker * In case userland uses poll(2), signal that we have a frame 1396181d57e0Smglocker * ready to dequeue. 1397181d57e0Smglocker */ 1398181d57e0Smglocker (*sc->sc_uplayer_intr)(sc->sc_uplayer_arg); 1399181d57e0Smglocker 1400181d57e0Smglocker return (0); 1401181d57e0Smglocker } 1402181d57e0Smglocker 1403181d57e0Smglocker caddr_t 1404181d57e0Smglocker utvfu_mappage(void *v, off_t off, int prot) 1405181d57e0Smglocker { 1406181d57e0Smglocker struct utvfu_softc *sc = v; 1407181d57e0Smglocker caddr_t p = NULL; 1408181d57e0Smglocker 1409181d57e0Smglocker if (off < sc->sc_mmap_bufsz) { 1410181d57e0Smglocker if ((sc->sc_flags & UTVFU_FLAG_MMAP) == 0) 1411181d57e0Smglocker sc->sc_flags |= UTVFU_FLAG_MMAP; 1412181d57e0Smglocker 1413181d57e0Smglocker p = sc->sc_mmap_buffer + off; 1414181d57e0Smglocker } 1415181d57e0Smglocker 1416181d57e0Smglocker return (p); 1417181d57e0Smglocker } 1418181d57e0Smglocker 1419181d57e0Smglocker int 1420181d57e0Smglocker utvfu_get_bufsize(void *v) 1421181d57e0Smglocker { 1422181d57e0Smglocker struct utvfu_softc *sc = v; 14237826e0f1Smglocker 1424181d57e0Smglocker /* YUYV/YUV-422: 4 bytes/2 pixel */ 1425181d57e0Smglocker return (utvfu_norm_params[sc->sc_normi].cap_width * 1426181d57e0Smglocker utvfu_norm_params[sc->sc_normi].cap_height * 2); 1427181d57e0Smglocker } 1428181d57e0Smglocker 1429181d57e0Smglocker int 1430181d57e0Smglocker utvfu_start_read(void *v) 1431181d57e0Smglocker { 1432181d57e0Smglocker struct utvfu_softc *sc = v; 1433181d57e0Smglocker usbd_status error; 1434181d57e0Smglocker 1435181d57e0Smglocker if (sc->sc_flags & UTVFU_FLAG_MMAP) 1436181d57e0Smglocker sc->sc_flags &= ~UTVFU_FLAG_MMAP; 1437181d57e0Smglocker 1438181d57e0Smglocker /* open video stream pipe */ 1439181d57e0Smglocker error = utvfu_vs_open(sc); 1440181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) 1441181d57e0Smglocker return (EINVAL); 1442181d57e0Smglocker 1443181d57e0Smglocker utvfu_vs_start_isoc(sc); 1444181d57e0Smglocker 1445181d57e0Smglocker return (0); 1446181d57e0Smglocker } 1447181d57e0Smglocker 1448181d57e0Smglocker void 1449181d57e0Smglocker utvfu_audio_clear_client(struct utvfu_softc *sc) 1450181d57e0Smglocker { 1451181d57e0Smglocker rw_enter_write(&sc->sc_audio.rwlock); 1452181d57e0Smglocker 1453181d57e0Smglocker sc->sc_audio.intr = NULL; 1454181d57e0Smglocker sc->sc_audio.intr_arg = NULL; 1455181d57e0Smglocker sc->sc_audio.start = NULL; 1456181d57e0Smglocker sc->sc_audio.end = NULL; 1457181d57e0Smglocker sc->sc_audio.cur = NULL; 1458181d57e0Smglocker sc->sc_audio.blksize = 0; 1459181d57e0Smglocker 1460181d57e0Smglocker rw_exit_write(&sc->sc_audio.rwlock); 1461181d57e0Smglocker } 1462181d57e0Smglocker 1463181d57e0Smglocker void 1464181d57e0Smglocker utvfu_as_free(struct utvfu_softc *sc) 1465181d57e0Smglocker { 1466181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1467181d57e0Smglocker 1468181d57e0Smglocker utvfu_as_close(sc); 1469181d57e0Smglocker utvfu_as_free_bulk(sc); 1470181d57e0Smglocker } 1471181d57e0Smglocker 1472181d57e0Smglocker void 1473181d57e0Smglocker utvfu_vs_free(struct utvfu_softc *sc) 1474181d57e0Smglocker { 1475181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1476181d57e0Smglocker utvfu_vs_close(sc); 1477181d57e0Smglocker utvfu_vs_free_isoc(sc); 1478181d57e0Smglocker utvfu_vs_free_frame(sc); 1479181d57e0Smglocker } 1480181d57e0Smglocker 1481181d57e0Smglocker int 1482181d57e0Smglocker utvfu_as_init(struct utvfu_softc *sc) 1483181d57e0Smglocker { 1484181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1485181d57e0Smglocker 1486181d57e0Smglocker if (sc->sc_audio.iface.xfer != NULL) 1487181d57e0Smglocker return (0); 1488181d57e0Smglocker 1489181d57e0Smglocker /* allocate audio and video stream xfer buffer */ 1490181d57e0Smglocker return utvfu_as_alloc_bulk(sc); 1491181d57e0Smglocker } 1492181d57e0Smglocker 1493181d57e0Smglocker int 1494181d57e0Smglocker utvfu_vs_init(struct utvfu_softc *sc) 1495181d57e0Smglocker { 1496181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1497181d57e0Smglocker 1498181d57e0Smglocker if (utvfu_start_capture(sc) != 0) 1499181d57e0Smglocker return (EINVAL); 1500181d57e0Smglocker 1501181d57e0Smglocker if (utvfu_vs_alloc_isoc(sc) != 0 || utvfu_vs_alloc_frame(sc) != 0) 1502181d57e0Smglocker return (ENOMEM); 1503181d57e0Smglocker 1504181d57e0Smglocker return (0); 1505181d57e0Smglocker } 1506181d57e0Smglocker 1507181d57e0Smglocker int 1508181d57e0Smglocker utvfu_vs_alloc_frame(struct utvfu_softc *sc) 1509181d57e0Smglocker { 1510181d57e0Smglocker struct utvfu_frame_buf *fb = &sc->sc_fb; 1511181d57e0Smglocker 1512181d57e0Smglocker fb->size = sc->sc_max_frame_sz; 15138985a220Smglocker fb->buf = malloc(fb->size, M_USBDEV, M_NOWAIT); 1514181d57e0Smglocker if (fb->buf == NULL) { 1515181d57e0Smglocker printf("%s: can't allocate frame buffer!\n", DEVNAME(sc)); 1516181d57e0Smglocker return (ENOMEM); 1517181d57e0Smglocker } 1518181d57e0Smglocker 1519181d57e0Smglocker DPRINTF(1, "%s: %s: allocated %d bytes frame buffer\n", 1520181d57e0Smglocker DEVNAME(sc), __func__, fb->size); 1521181d57e0Smglocker 1522181d57e0Smglocker fb->chunks_done = 0; 1523181d57e0Smglocker fb->fid = 0; 1524181d57e0Smglocker fb->last_odd = 1; 1525181d57e0Smglocker 1526181d57e0Smglocker return (0); 1527181d57e0Smglocker } 1528181d57e0Smglocker 1529181d57e0Smglocker void 1530181d57e0Smglocker utvfu_vs_free_frame(struct utvfu_softc *sc) 1531181d57e0Smglocker { 1532181d57e0Smglocker struct utvfu_frame_buf *fb = &sc->sc_fb; 1533181d57e0Smglocker 1534181d57e0Smglocker if (fb->buf != NULL) { 15358985a220Smglocker free(fb->buf, M_USBDEV, fb->size); 1536181d57e0Smglocker fb->buf = NULL; 1537181d57e0Smglocker } 1538181d57e0Smglocker 1539181d57e0Smglocker if (sc->sc_mmap_buffer != NULL) { 15408985a220Smglocker free(sc->sc_mmap_buffer, M_USBDEV, sc->sc_mmap_bufsz); 1541181d57e0Smglocker sc->sc_mmap_buffer = NULL; 1542181d57e0Smglocker memset(sc->sc_mmap, 0, sizeof(sc->sc_mmap)); 1543181d57e0Smglocker } 1544181d57e0Smglocker 1545181d57e0Smglocker while (!SIMPLEQ_EMPTY(&sc->sc_mmap_q)) 1546181d57e0Smglocker SIMPLEQ_REMOVE_HEAD(&sc->sc_mmap_q, q_frames); 1547181d57e0Smglocker 1548181d57e0Smglocker sc->sc_mmap_count = 0; 1549181d57e0Smglocker } 1550181d57e0Smglocker 1551181d57e0Smglocker usbd_status 1552181d57e0Smglocker utvfu_vs_alloc_isoc(struct utvfu_softc *sc) 1553181d57e0Smglocker { 1554181d57e0Smglocker int size, i; 1555181d57e0Smglocker void *buf; 1556181d57e0Smglocker 1557181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1558181d57e0Smglocker 1559181d57e0Smglocker for (i = 0; i < UTVFU_ISOC_TRANSFERS; i++) { 1560181d57e0Smglocker sc->sc_iface.ixfer[i].sc = sc; 1561181d57e0Smglocker sc->sc_iface.ixfer[i].xfer = usbd_alloc_xfer(sc->sc_udev); 1562181d57e0Smglocker if (sc->sc_iface.ixfer[i].xfer == NULL) { 1563181d57e0Smglocker printf("%s: could not allocate isoc VS xfer!\n", 1564181d57e0Smglocker DEVNAME(sc)); 1565181d57e0Smglocker return (USBD_NOMEM); 1566181d57e0Smglocker } 1567181d57e0Smglocker 1568181d57e0Smglocker size = sc->sc_iface.psize * sc->sc_nframes; 1569181d57e0Smglocker 1570181d57e0Smglocker buf = usbd_alloc_buffer(sc->sc_iface.ixfer[i].xfer, size); 1571181d57e0Smglocker if (buf == NULL) { 1572181d57e0Smglocker printf("%s: could not allocate isoc VS buffer!\n", 1573181d57e0Smglocker DEVNAME(sc)); 1574181d57e0Smglocker return (USBD_NOMEM); 1575181d57e0Smglocker } 1576181d57e0Smglocker DPRINTF(1, "%s: allocated %d bytes isoc VS xfer buffer\n", 1577181d57e0Smglocker DEVNAME(sc), size); 1578181d57e0Smglocker } 1579181d57e0Smglocker 1580181d57e0Smglocker return (USBD_NORMAL_COMPLETION); 1581181d57e0Smglocker } 1582181d57e0Smglocker 1583181d57e0Smglocker int 1584181d57e0Smglocker utvfu_as_alloc_bulk(struct utvfu_softc *sc) 1585181d57e0Smglocker { 1586181d57e0Smglocker struct usbd_xfer *xfer; 1587181d57e0Smglocker 1588181d57e0Smglocker xfer = usbd_alloc_xfer(sc->sc_udev); 1589181d57e0Smglocker if (xfer == NULL) { 1590181d57e0Smglocker printf("%s: could not allocate bulk AUDIO xfer!\n", 1591181d57e0Smglocker DEVNAME(sc)); 1592181d57e0Smglocker return (ENOMEM); 1593181d57e0Smglocker } 1594181d57e0Smglocker 1595181d57e0Smglocker if (usbd_alloc_buffer(xfer, UTVFU_AUDIO_URBSIZE) == NULL) { 1596181d57e0Smglocker usbd_free_xfer(xfer); 1597181d57e0Smglocker printf("%s: could not allocate bulk AUDIO buffer!\n", 1598181d57e0Smglocker DEVNAME(sc)); 1599181d57e0Smglocker return (ENOMEM); 1600181d57e0Smglocker } 1601181d57e0Smglocker DPRINTF(1, "%s: allocated %d bytes bulk AUDIO xfer buffer\n", 1602181d57e0Smglocker DEVNAME(sc), UTVFU_AUDIO_URBSIZE); 1603181d57e0Smglocker 1604181d57e0Smglocker sc->sc_audio.iface.xfer = xfer; 1605181d57e0Smglocker 1606181d57e0Smglocker return (0); 1607181d57e0Smglocker } 1608181d57e0Smglocker 1609181d57e0Smglocker void 1610181d57e0Smglocker utvfu_vs_free_isoc(struct utvfu_softc *sc) 1611181d57e0Smglocker { 1612181d57e0Smglocker int i; 1613181d57e0Smglocker 1614181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1615181d57e0Smglocker 1616181d57e0Smglocker for (i = 0; i < UTVFU_ISOC_TRANSFERS; i++) { 1617181d57e0Smglocker if (sc->sc_iface.ixfer[i].xfer != NULL) { 1618181d57e0Smglocker usbd_free_xfer(sc->sc_iface.ixfer[i].xfer); 1619181d57e0Smglocker sc->sc_iface.ixfer[i].xfer = NULL; 1620181d57e0Smglocker } 1621181d57e0Smglocker } 1622181d57e0Smglocker } 1623181d57e0Smglocker 1624181d57e0Smglocker void 1625181d57e0Smglocker utvfu_as_free_bulk(struct utvfu_softc *sc) 1626181d57e0Smglocker { 16274b6b9974Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 16284b6b9974Smglocker 1629181d57e0Smglocker if (sc->sc_audio.iface.xfer != NULL) { 1630181d57e0Smglocker usbd_free_xfer(sc->sc_audio.iface.xfer); 1631181d57e0Smglocker sc->sc_audio.iface.xfer = NULL; 1632181d57e0Smglocker } 1633181d57e0Smglocker } 1634181d57e0Smglocker 1635181d57e0Smglocker int 1636181d57e0Smglocker utvfu_reqbufs(void *v, struct v4l2_requestbuffers *rb) 1637181d57e0Smglocker { 1638181d57e0Smglocker struct utvfu_softc *sc = v; 1639181d57e0Smglocker int i; 1640181d57e0Smglocker 1641181d57e0Smglocker DPRINTF(1, "%s: %s: count=%d\n", DEVNAME(sc), __func__, rb->count); 1642181d57e0Smglocker 1643181d57e0Smglocker /* We do not support freeing buffers via reqbufs(0) */ 1644181d57e0Smglocker if (rb->count == 0) 1645181d57e0Smglocker return (EINVAL); 1646181d57e0Smglocker 1647181d57e0Smglocker if (sc->sc_mmap_count > 0 || sc->sc_mmap_buffer != NULL) { 1648181d57e0Smglocker DPRINTF(1, "%s: %s: mmap buffers already allocated\n", 1649181d57e0Smglocker DEVNAME(sc), __func__); 1650181d57e0Smglocker return (EINVAL); 1651181d57e0Smglocker } 1652181d57e0Smglocker 1653181d57e0Smglocker /* limit the buffers */ 1654181d57e0Smglocker if (rb->count > UTVFU_MAX_BUFFERS) 1655181d57e0Smglocker sc->sc_mmap_count = UTVFU_MAX_BUFFERS; 1656181d57e0Smglocker else 1657181d57e0Smglocker sc->sc_mmap_count = rb->count; 1658181d57e0Smglocker 1659181d57e0Smglocker /* allocate the total mmap buffer */ 1660181d57e0Smglocker sc->sc_mmap_bufsz = sc->sc_max_frame_sz; 1661181d57e0Smglocker if (INT_MAX / sc->sc_mmap_count < sc->sc_max_frame_sz) /* overflow */ 1662181d57e0Smglocker return (ENOMEM); 1663181d57e0Smglocker sc->sc_mmap_bufsz *= sc->sc_mmap_count; 1664181d57e0Smglocker sc->sc_mmap_bufsz = round_page(sc->sc_mmap_bufsz); /* page align */ 16658985a220Smglocker sc->sc_mmap_buffer = malloc(sc->sc_mmap_bufsz, M_USBDEV, M_NOWAIT); 1666181d57e0Smglocker if (sc->sc_mmap_buffer == NULL) { 1667181d57e0Smglocker printf("%s: can't allocate mmap buffer!\n", DEVNAME(sc)); 1668181d57e0Smglocker return (ENOMEM); 1669181d57e0Smglocker } 1670181d57e0Smglocker DPRINTF(1, "%s: allocated %d bytes mmap buffer\n", 1671181d57e0Smglocker DEVNAME(sc), sc->sc_mmap_bufsz); 1672181d57e0Smglocker 1673181d57e0Smglocker /* fill the v4l2_buffer structure */ 1674181d57e0Smglocker for (i = 0; i < sc->sc_mmap_count; i++) { 1675181d57e0Smglocker sc->sc_mmap[i].buf = sc->sc_mmap_buffer 1676181d57e0Smglocker + (i * sc->sc_max_frame_sz); 1677181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.index = i; 1678181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.m.offset = i * sc->sc_max_frame_sz; 1679181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.length = sc->sc_max_frame_sz; 1680181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; 1681181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.sequence = 0; 1682181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.field = V4L2_FIELD_NONE; 1683181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.memory = V4L2_MEMORY_MMAP; 1684181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.flags = V4L2_BUF_FLAG_MAPPED; 1685181d57e0Smglocker 1686181d57e0Smglocker DPRINTF(1, "%s: %s: index=%d, offset=%d, length=%d\n", 1687181d57e0Smglocker DEVNAME(sc), __func__, 1688181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.index, 1689181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.m.offset, 1690181d57e0Smglocker sc->sc_mmap[i].v4l2_buf.length); 1691181d57e0Smglocker } 1692181d57e0Smglocker 1693181d57e0Smglocker /* tell how many buffers we have really allocated */ 1694181d57e0Smglocker rb->count = sc->sc_mmap_count; 1695181d57e0Smglocker 1696*8a8057a7Skirill rb->capabilities = V4L2_BUF_CAP_SUPPORTS_MMAP; 1697*8a8057a7Skirill 1698181d57e0Smglocker return (0); 1699181d57e0Smglocker } 1700181d57e0Smglocker 1701181d57e0Smglocker int 1702181d57e0Smglocker utvfu_querybuf(void *v, struct v4l2_buffer *qb) 1703181d57e0Smglocker { 1704181d57e0Smglocker struct utvfu_softc *sc = v; 1705181d57e0Smglocker 1706181d57e0Smglocker if (qb->type != V4L2_BUF_TYPE_VIDEO_CAPTURE || 1707181d57e0Smglocker qb->memory != V4L2_MEMORY_MMAP || 1708181d57e0Smglocker qb->index >= sc->sc_mmap_count) 1709181d57e0Smglocker return (EINVAL); 1710181d57e0Smglocker 1711181d57e0Smglocker memcpy(qb, &sc->sc_mmap[qb->index].v4l2_buf, 1712181d57e0Smglocker sizeof(struct v4l2_buffer)); 1713181d57e0Smglocker 1714181d57e0Smglocker DPRINTF(1, "%s: %s: index=%d, offset=%d, length=%d\n", 1715181d57e0Smglocker DEVNAME(sc), __func__, qb->index, qb->m.offset, qb->length); 1716181d57e0Smglocker 1717181d57e0Smglocker return (0); 1718181d57e0Smglocker } 1719181d57e0Smglocker 1720181d57e0Smglocker int 1721181d57e0Smglocker utvfu_qbuf(void *v, struct v4l2_buffer *qb) 1722181d57e0Smglocker { 1723181d57e0Smglocker struct utvfu_softc *sc = v; 1724181d57e0Smglocker 1725181d57e0Smglocker if (qb->type != V4L2_BUF_TYPE_VIDEO_CAPTURE || 1726181d57e0Smglocker qb->memory != V4L2_MEMORY_MMAP || 1727181d57e0Smglocker qb->index >= sc->sc_mmap_count) 1728181d57e0Smglocker return (EINVAL); 1729181d57e0Smglocker 1730181d57e0Smglocker sc->sc_mmap[qb->index].v4l2_buf.flags &= ~V4L2_BUF_FLAG_DONE; 1731181d57e0Smglocker sc->sc_mmap[qb->index].v4l2_buf.flags |= V4L2_BUF_FLAG_MAPPED; 1732181d57e0Smglocker sc->sc_mmap[qb->index].v4l2_buf.flags |= V4L2_BUF_FLAG_QUEUED; 1733181d57e0Smglocker 1734181d57e0Smglocker DPRINTF(2, "%s: %s: buffer on index %d ready for queueing\n", 1735181d57e0Smglocker DEVNAME(sc), __func__, qb->index); 1736181d57e0Smglocker 1737181d57e0Smglocker return (0); 1738181d57e0Smglocker } 1739181d57e0Smglocker 1740181d57e0Smglocker int 1741181d57e0Smglocker utvfu_dqbuf(void *v, struct v4l2_buffer *dqb) 1742181d57e0Smglocker { 1743181d57e0Smglocker struct utvfu_softc *sc = v; 1744181d57e0Smglocker struct utvfu_mmap *mmap; 1745181d57e0Smglocker int error; 1746181d57e0Smglocker 1747181d57e0Smglocker if (dqb->type != V4L2_BUF_TYPE_VIDEO_CAPTURE || 1748181d57e0Smglocker dqb->memory != V4L2_MEMORY_MMAP) 1749181d57e0Smglocker return (EINVAL); 1750181d57e0Smglocker 1751181d57e0Smglocker if (SIMPLEQ_EMPTY(&sc->sc_mmap_q)) { 1752181d57e0Smglocker /* mmap queue is empty, block until first frame is queued */ 17537e50da6bSmpi error = tsleep_nsec(sc, 0, "vid_mmap", SEC_TO_NSEC(10)); 1754181d57e0Smglocker if (error) 1755181d57e0Smglocker return (EINVAL); 1756181d57e0Smglocker } 1757181d57e0Smglocker 1758181d57e0Smglocker mmap = SIMPLEQ_FIRST(&sc->sc_mmap_q); 1759181d57e0Smglocker if (mmap == NULL) 1760181d57e0Smglocker panic("utvfu_dqbuf: NULL pointer!"); 1761181d57e0Smglocker 1762181d57e0Smglocker memcpy(dqb, &mmap->v4l2_buf, sizeof(struct v4l2_buffer)); 1763181d57e0Smglocker 1764181d57e0Smglocker mmap->v4l2_buf.flags &= ~(V4L2_BUF_FLAG_DONE|V4L2_BUF_FLAG_QUEUED); 1765181d57e0Smglocker mmap->v4l2_buf.flags |= V4L2_BUF_FLAG_MAPPED; 1766181d57e0Smglocker 1767181d57e0Smglocker DPRINTF(2, "%s: %s: frame dequeued from index %d\n", 1768181d57e0Smglocker DEVNAME(sc), __func__, mmap->v4l2_buf.index); 1769181d57e0Smglocker SIMPLEQ_REMOVE_HEAD(&sc->sc_mmap_q, q_frames); 1770181d57e0Smglocker 1771181d57e0Smglocker return (0); 1772181d57e0Smglocker } 1773181d57e0Smglocker 1774181d57e0Smglocker int 1775181d57e0Smglocker utvfu_streamon(void *v, int type) 1776181d57e0Smglocker { 1777181d57e0Smglocker struct utvfu_softc *sc = v; 1778181d57e0Smglocker usbd_status error; 1779181d57e0Smglocker 1780181d57e0Smglocker /* open video stream pipe */ 1781181d57e0Smglocker error = utvfu_vs_open(sc); 1782181d57e0Smglocker if (error != USBD_NORMAL_COMPLETION) 1783181d57e0Smglocker return (EINVAL); 1784181d57e0Smglocker 1785181d57e0Smglocker utvfu_vs_start_isoc(sc); 1786181d57e0Smglocker 1787181d57e0Smglocker return (0); 1788181d57e0Smglocker } 1789181d57e0Smglocker 1790181d57e0Smglocker int 1791181d57e0Smglocker utvfu_streamoff(void *v, int type) 1792181d57e0Smglocker { 1793181d57e0Smglocker utvfu_vs_close(v); 17947826e0f1Smglocker 1795181d57e0Smglocker return (0); 1796181d57e0Smglocker } 1797181d57e0Smglocker 1798181d57e0Smglocker int 1799181d57e0Smglocker utvfu_queryctrl(void *v, struct v4l2_queryctrl *qctrl) 1800181d57e0Smglocker { 1801181d57e0Smglocker qctrl->flags = V4L2_CTRL_FLAG_DISABLED; 18027826e0f1Smglocker 1803181d57e0Smglocker return (0); 1804181d57e0Smglocker } 1805181d57e0Smglocker 1806181d57e0Smglocker int 1807181d57e0Smglocker utvfu_g_parm(void *v, struct v4l2_streamparm *parm) 1808181d57e0Smglocker { 1809181d57e0Smglocker struct utvfu_softc *sc = v; 1810181d57e0Smglocker 1811181d57e0Smglocker if (parm->type != V4L2_BUF_TYPE_VIDEO_CAPTURE) 1812181d57e0Smglocker return (EINVAL); 18137826e0f1Smglocker 1814181d57e0Smglocker /* 1815181d57e0Smglocker * XXX Unsure whether there is a way to negotiate this with the 1816181d57e0Smglocker * device, but returning 0 will allow xenocara's video to run 1817181d57e0Smglocker */ 1818181d57e0Smglocker switch (utvfu_norm_params[sc->sc_normi].norm) { 1819181d57e0Smglocker default: 1820181d57e0Smglocker return (EINVAL); 1821181d57e0Smglocker case V4L2_STD_525_60: 1822181d57e0Smglocker parm->parm.capture.capability = V4L2_CAP_TIMEPERFRAME; 1823181d57e0Smglocker parm->parm.capture.capturemode = 0; 1824181d57e0Smglocker parm->parm.capture.timeperframe.numerator = 30; 1825181d57e0Smglocker parm->parm.capture.timeperframe.denominator = 1; 1826181d57e0Smglocker break; 1827181d57e0Smglocker case V4L2_STD_PAL: 1828181d57e0Smglocker parm->parm.capture.capability = V4L2_CAP_TIMEPERFRAME; 1829181d57e0Smglocker parm->parm.capture.capturemode = 0; 1830181d57e0Smglocker parm->parm.capture.timeperframe.numerator = 25; 1831181d57e0Smglocker parm->parm.capture.timeperframe.denominator = 1; 1832181d57e0Smglocker break; 1833181d57e0Smglocker } 18347826e0f1Smglocker 1835181d57e0Smglocker return (0); 1836181d57e0Smglocker } 1837181d57e0Smglocker 1838181d57e0Smglocker int 1839181d57e0Smglocker utvfu_s_parm(void *v, struct v4l2_streamparm *parm) 1840181d57e0Smglocker { 1841181d57e0Smglocker if (parm->type != V4L2_BUF_TYPE_VIDEO_CAPTURE) 1842181d57e0Smglocker return (EINVAL); 18437826e0f1Smglocker 1844181d57e0Smglocker return (0); 1845181d57e0Smglocker } 1846181d57e0Smglocker 1847181d57e0Smglocker /* 1848181d57e0Smglocker * A U D I O O P S 1849181d57e0Smglocker */ 1850181d57e0Smglocker 1851181d57e0Smglocker int 1852181d57e0Smglocker utvfu_audio_open(void *v, int flags) 1853181d57e0Smglocker { 1854181d57e0Smglocker struct utvfu_softc *sc = v; 1855181d57e0Smglocker 1856181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1857181d57e0Smglocker return (EIO); 1858181d57e0Smglocker 1859181d57e0Smglocker if ((flags & FWRITE)) 1860181d57e0Smglocker return (ENXIO); 1861181d57e0Smglocker 1862ef70e76aSmglocker if (ISSET(sc->sc_flags, UTVFU_FLAG_AS_RUNNING)) 1863181d57e0Smglocker return (EBUSY); 1864181d57e0Smglocker 1865181d57e0Smglocker return utvfu_as_init(sc); 1866181d57e0Smglocker } 1867181d57e0Smglocker 1868181d57e0Smglocker void 1869181d57e0Smglocker utvfu_audio_close(void *v) 1870181d57e0Smglocker { 1871181d57e0Smglocker struct utvfu_softc *sc = v; 1872181d57e0Smglocker 1873ef70e76aSmglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1874181d57e0Smglocker 1875ef70e76aSmglocker utvfu_audio_stop(sc); 1876181d57e0Smglocker utvfu_audio_clear_client(sc); 1877181d57e0Smglocker } 1878181d57e0Smglocker 1879181d57e0Smglocker int 1880181d57e0Smglocker utvfu_audio_set_params(void *v, int setmode, int usemode, 1881181d57e0Smglocker struct audio_params *play, struct audio_params *rec) 1882181d57e0Smglocker { 1883181d57e0Smglocker struct utvfu_softc *sc = v; 1884181d57e0Smglocker 1885181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1886181d57e0Smglocker return (EIO); 1887181d57e0Smglocker 1888181d57e0Smglocker DPRINTF(1, "%s %s\n", DEVNAME(sc), __func__); 1889181d57e0Smglocker 1890181d57e0Smglocker /* XXX ? */ 1891181d57e0Smglocker play->sample_rate = 0; 1892181d57e0Smglocker play->encoding = AUDIO_ENCODING_NONE; 1893181d57e0Smglocker 1894181d57e0Smglocker rec->sample_rate = 48000; 1895181d57e0Smglocker rec->encoding = AUDIO_ENCODING_SLINEAR_LE; 1896181d57e0Smglocker rec->precision = 16; 1897181d57e0Smglocker rec->bps = 2; 1898181d57e0Smglocker rec->msb = 1; 1899181d57e0Smglocker rec->channels = 2; 1900181d57e0Smglocker 1901181d57e0Smglocker return (0); 1902181d57e0Smglocker } 1903181d57e0Smglocker 1904181d57e0Smglocker int 1905181d57e0Smglocker utvfu_audio_halt_out(void *v) 1906181d57e0Smglocker { 1907181d57e0Smglocker return (EIO); 1908181d57e0Smglocker } 1909181d57e0Smglocker 1910181d57e0Smglocker int 1911181d57e0Smglocker utvfu_audio_halt_in(void *v) 1912181d57e0Smglocker { 1913181d57e0Smglocker struct utvfu_softc *sc = v; 1914181d57e0Smglocker 1915181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1916181d57e0Smglocker return (EIO); 1917181d57e0Smglocker 1918181d57e0Smglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 1919181d57e0Smglocker 1920181d57e0Smglocker utvfu_audio_stop(sc); 1921181d57e0Smglocker utvfu_audio_clear_client(sc); 1922181d57e0Smglocker 1923181d57e0Smglocker return (0); 1924181d57e0Smglocker } 1925181d57e0Smglocker 1926181d57e0Smglocker int 1927181d57e0Smglocker utvfu_audio_mixer_set_port(void *v, struct mixer_ctrl *cp) 1928181d57e0Smglocker { 1929181d57e0Smglocker struct utvfu_softc *sc = v; 1930181d57e0Smglocker 1931181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1932181d57e0Smglocker return (EIO); 1933181d57e0Smglocker 1934181d57e0Smglocker DPRINTF(1, "%s %s\n", DEVNAME(sc), __func__); 1935181d57e0Smglocker 1936181d57e0Smglocker if (cp->type != AUDIO_MIXER_ENUM || 1937181d57e0Smglocker cp->un.ord < 0 || cp->un.ord > 1) 1938181d57e0Smglocker return (EINVAL); 19397826e0f1Smglocker 1940181d57e0Smglocker /* XXX TODO */ 19417826e0f1Smglocker 1942181d57e0Smglocker DPRINTF(1, "%s %s: cp->un.ord=%d\n", DEVNAME(sc), __func__, cp->un.ord); 19437826e0f1Smglocker 1944181d57e0Smglocker return (0); 1945181d57e0Smglocker } 1946181d57e0Smglocker 1947181d57e0Smglocker int 1948181d57e0Smglocker utvfu_audio_mixer_get_port(void *v, struct mixer_ctrl *cp) 1949181d57e0Smglocker { 1950181d57e0Smglocker struct utvfu_softc *sc = v; 1951181d57e0Smglocker 1952181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1953181d57e0Smglocker return (EIO); 1954181d57e0Smglocker 1955181d57e0Smglocker DPRINTF(1, "%s %s\n", DEVNAME(sc), __func__); 1956181d57e0Smglocker 1957181d57e0Smglocker if (cp->type != AUDIO_MIXER_ENUM || 1958181d57e0Smglocker cp->un.ord < 0 || cp->un.ord > 1) 1959181d57e0Smglocker return (EINVAL); 19607826e0f1Smglocker 1961181d57e0Smglocker /* XXX TODO */ 19627826e0f1Smglocker 1963181d57e0Smglocker DPRINTF(1, "%s %s: cp->un.ord=%d\n", DEVNAME(sc), __func__, cp->un.ord); 19647826e0f1Smglocker 1965181d57e0Smglocker return (0); 1966181d57e0Smglocker } 1967181d57e0Smglocker 1968181d57e0Smglocker int 1969181d57e0Smglocker utvfu_audio_query_devinfo(void *v, struct mixer_devinfo *mi) 1970181d57e0Smglocker { 1971181d57e0Smglocker struct utvfu_softc *sc = v; 1972181d57e0Smglocker 1973181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 1974181d57e0Smglocker return (EIO); 1975181d57e0Smglocker 1976181d57e0Smglocker DPRINTF(1, "%s %s\n", DEVNAME(sc), __func__); 1977181d57e0Smglocker 1978181d57e0Smglocker if (mi->index != 0) 1979181d57e0Smglocker return (EINVAL); 1980181d57e0Smglocker 1981181d57e0Smglocker /* XXX SOMEONE WITH AUDIO EXPERTIZE NEEDS TO HELP HERE */ 1982181d57e0Smglocker strlcpy(mi->label.name, "mix0-i0", sizeof(mi->label.name)); 1983181d57e0Smglocker mi->type = AUDIO_MIXER_ENUM; 1984181d57e0Smglocker mi->un.e.num_mem = 2; 1985181d57e0Smglocker mi->un.e.member[0].ord = 0; 1986181d57e0Smglocker strlcpy(mi->un.e.member[0].label.name, AudioNoff, 1987181d57e0Smglocker sizeof(mi->un.e.member[0].label.name)); 1988181d57e0Smglocker mi->un.e.member[1].ord = 1; 1989181d57e0Smglocker strlcpy(mi->un.e.member[1].label.name, AudioNon, 1990181d57e0Smglocker sizeof(mi->un.e.member[1].label.name)); 1991181d57e0Smglocker 1992181d57e0Smglocker return (0); 1993181d57e0Smglocker } 1994181d57e0Smglocker 1995181d57e0Smglocker int 1996181d57e0Smglocker utvfu_audio_trigger_output(void *v, void *start, void *end, int blksize, 1997181d57e0Smglocker void (*intr)(void *), void *arg, struct audio_params *param) 1998181d57e0Smglocker { 1999181d57e0Smglocker return (EIO); 2000181d57e0Smglocker } 2001181d57e0Smglocker 2002181d57e0Smglocker int 2003181d57e0Smglocker utvfu_audio_trigger_input(void *v, void *start, void *end, int blksize, 2004181d57e0Smglocker void (*intr)(void *), void *arg, struct audio_params *param) 2005181d57e0Smglocker { 2006181d57e0Smglocker struct utvfu_softc *sc = v; 2007181d57e0Smglocker 2008181d57e0Smglocker if (usbd_is_dying(sc->sc_udev)) 2009181d57e0Smglocker return (EIO); 2010181d57e0Smglocker 2011181d57e0Smglocker rw_enter_write(&sc->sc_audio.rwlock); 2012181d57e0Smglocker 2013181d57e0Smglocker sc->sc_audio.intr_arg = arg; 2014181d57e0Smglocker sc->sc_audio.intr = intr; 2015181d57e0Smglocker sc->sc_audio.start = start; 2016181d57e0Smglocker sc->sc_audio.end = end; 2017181d57e0Smglocker sc->sc_audio.cur = start; 2018181d57e0Smglocker sc->sc_audio.blksize = blksize; 2019181d57e0Smglocker 2020181d57e0Smglocker rw_exit_write(&sc->sc_audio.rwlock); 2021181d57e0Smglocker 2022181d57e0Smglocker DPRINTF(1, "%s %s: start=%p end=%p diff=%lu blksize=%d\n", 2023181d57e0Smglocker DEVNAME(sc), __func__, start, end, 2024181d57e0Smglocker ((u_char *)end - (u_char *)start), blksize); 2025181d57e0Smglocker 2026181d57e0Smglocker return utvfu_audio_start(sc); 2027181d57e0Smglocker } 2028181d57e0Smglocker 2029181d57e0Smglocker int 2030181d57e0Smglocker utvfu_audio_start(struct utvfu_softc *sc) 2031181d57e0Smglocker { 2032ef70e76aSmglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 2033ef70e76aSmglocker 2034ef70e76aSmglocker if (ISSET(sc->sc_flags, UTVFU_FLAG_AS_RUNNING)) 2035181d57e0Smglocker return (0); 2036181d57e0Smglocker 2037181d57e0Smglocker utvfu_audio_start_chip(sc); 2038181d57e0Smglocker 2039ef70e76aSmglocker if (utvfu_as_init(sc) != 0) 2040ef70e76aSmglocker return (ENOMEM); 2041181d57e0Smglocker if (sc->sc_audio.iface.pipeh == NULL) { 2042181d57e0Smglocker if (utvfu_as_open(sc) != USBD_NORMAL_COMPLETION) 2043181d57e0Smglocker return (ENOMEM); 2044181d57e0Smglocker } 2045181d57e0Smglocker 2046181d57e0Smglocker return utvfu_as_start_bulk(sc); 2047181d57e0Smglocker } 2048181d57e0Smglocker 2049181d57e0Smglocker int 2050181d57e0Smglocker utvfu_audio_stop(struct utvfu_softc *sc) 2051181d57e0Smglocker { 2052ef70e76aSmglocker DPRINTF(1, "%s: %s\n", DEVNAME(sc), __func__); 2053ef70e76aSmglocker 2054181d57e0Smglocker utvfu_audio_stop_chip(sc); 2055ef70e76aSmglocker utvfu_as_free(sc); 2056ef70e76aSmglocker 2057181d57e0Smglocker return (0); 2058181d57e0Smglocker } 2059