/* * Copyright (c) 2014-2020 Alexandre Ratchov * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * the way the sun mixer is designed doesn't let us representing * it easily with the sioctl api. For now expose only few * white-listed controls the same way as we do in kernel * for the wskbd volume keys. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "debug.h" #include "sioctl_priv.h" #define DEVPATH_PREFIX "/dev/audioctl" #define DEVPATH_MAX (1 + \ sizeof(DEVPATH_PREFIX) - 1 + \ sizeof(int) * 3) struct volume { int nch; /* channels in the level control */ int level_idx; /* index of the level control */ int level_val[8]; /* current value */ int mute_idx; /* index of the mute control */ int mute_val; /* per channel state of mute control */ int base_addr; char *name; }; struct sioctl_sun_hdl { struct sioctl_hdl sioctl; struct volume output, input; int fd, events; }; static void sioctl_sun_close(struct sioctl_hdl *); static int sioctl_sun_nfds(struct sioctl_hdl *); static int sioctl_sun_pollfd(struct sioctl_hdl *, struct pollfd *, int); static int sioctl_sun_revents(struct sioctl_hdl *, struct pollfd *); static int sioctl_sun_setctl(struct sioctl_hdl *, unsigned int, unsigned int); static int sioctl_sun_onval(struct sioctl_hdl *); static int sioctl_sun_ondesc(struct sioctl_hdl *); /* * operations every device should support */ struct sioctl_ops sioctl_sun_ops = { sioctl_sun_close, sioctl_sun_nfds, sioctl_sun_pollfd, sioctl_sun_revents, sioctl_sun_setctl, sioctl_sun_onval, sioctl_sun_ondesc }; static int initmute(struct sioctl_sun_hdl *hdl, struct mixer_devinfo *info) { struct mixer_devinfo mi; char name[MAX_AUDIO_DEV_LEN]; for (mi.index = info->next; mi.index != -1; mi.index = mi.next) { if (ioctl(hdl->fd, AUDIO_MIXER_DEVINFO, &mi) < 0) break; if (strcmp(mi.label.name, AudioNmute) == 0) return mi.index; } /* try "_mute" suffix */ snprintf(name, sizeof(name), "%s_mute", info->label.name); for (mi.index = 0; ; mi.index++) { if (ioctl(hdl->fd, AUDIO_MIXER_DEVINFO, &mi) < 0) break; if (info->mixer_class == mi.mixer_class && strcmp(mi.label.name, name) == 0) return mi.index; } return -1; } static int initvol(struct sioctl_sun_hdl *hdl, struct volume *vol, char *cn, char *dn) { struct mixer_devinfo dev, cls; for (dev.index = 0; ; dev.index++) { if (ioctl(hdl->fd, AUDIO_MIXER_DEVINFO, &dev) < 0) break; if (dev.type != AUDIO_MIXER_VALUE) continue; cls.index = dev.mixer_class; if (ioctl(hdl->fd, AUDIO_MIXER_DEVINFO, &cls) < 0) break; if (strcmp(cls.label.name, cn) == 0 && strcmp(dev.label.name, dn) == 0) { vol->nch = dev.un.v.num_channels; vol->level_idx = dev.index; vol->mute_idx = initmute(hdl, &dev); DPRINTF("using %s.%s, %d channels, %s\n", cn, dn, vol->nch, vol->mute_idx >= 0 ? "mute" : "no mute"); return 1; } } vol->level_idx = vol->mute_idx = -1; return 0; } static void init(struct sioctl_sun_hdl *hdl) { static struct { char *cn, *dn; } output_names[] = { {AudioCoutputs, AudioNmaster}, {AudioCinputs, AudioNdac}, {AudioCoutputs, AudioNdac}, {AudioCoutputs, AudioNoutput} }, input_names[] = { {AudioCrecord, AudioNrecord}, {AudioCrecord, AudioNvolume}, {AudioCinputs, AudioNrecord}, {AudioCinputs, AudioNvolume}, {AudioCinputs, AudioNinput} }; int i; for (i = 0; i < sizeof(output_names) / sizeof(output_names[0]); i++) { if (initvol(hdl, &hdl->output, output_names[i].cn, output_names[i].dn)) { hdl->output.name = "output"; hdl->output.base_addr = 0; break; } } for (i = 0; i < sizeof(input_names) / sizeof(input_names[0]); i++) { if (initvol(hdl, &hdl->input, input_names[i].cn, input_names[i].dn)) { hdl->input.name = "input"; hdl->input.base_addr = 64; break; } } } static int setvol(struct sioctl_sun_hdl *hdl, struct volume *vol, int addr, int val) { struct mixer_ctrl ctrl; int i; addr -= vol->base_addr; if (vol->level_idx >= 0 && addr >= 0 && addr < vol->nch) { if (vol->level_val[addr] == val) { DPRINTF("level %d, no change\n", val); return 1; } vol->level_val[addr] = val; ctrl.dev = vol->level_idx; ctrl.type = AUDIO_MIXER_VALUE; ctrl.un.value.num_channels = vol->nch; for (i = 0; i < vol->nch; i++) ctrl.un.value.level[i] = vol->level_val[i]; DPRINTF("vol %d setting to %d\n", addr, vol->level_val[addr]); if (ioctl(hdl->fd, AUDIO_MIXER_WRITE, &ctrl) < 0) { DPRINTF("level write failed\n"); return 0; } _sioctl_onval_cb(&hdl->sioctl, vol->base_addr + addr, val); return 1; } addr -= 32; if (vol->mute_idx >= 0 && addr >= 0 && addr < vol->nch) { val = val ? 1 : 0; if (vol->mute_val == val) { DPRINTF("mute %d, no change\n", val); return 1; } vol->mute_val = val; ctrl.dev = vol->mute_idx; ctrl.type = AUDIO_MIXER_ENUM; ctrl.un.ord = val; DPRINTF("mute setting to %d\n", val); if (ioctl(hdl->fd, AUDIO_MIXER_WRITE, &ctrl) < 0) { DPERROR("mute write\n"); return 0; } for (i = 0; i < vol->nch; i++) { _sioctl_onval_cb(&hdl->sioctl, vol->base_addr + 32 + i, val); } return 1; } return 1; } static int scanvol(struct sioctl_sun_hdl *hdl, struct volume *vol) { struct sioctl_desc desc; struct mixer_ctrl ctrl; int i, val; memset(&desc, 0, sizeof(struct sioctl_desc)); if (vol->level_idx >= 0) { ctrl.dev = vol->level_idx; ctrl.type = AUDIO_MIXER_VALUE; ctrl.un.value.num_channels = vol->nch; if (ioctl(hdl->fd, AUDIO_MIXER_READ, &ctrl) < 0) { DPRINTF("level read failed\n"); return 0; } desc.type = SIOCTL_NUM; desc.maxval = AUDIO_MAX_GAIN; desc.node1.name[0] = 0; desc.node1.unit = -1; strlcpy(desc.func, "level", SIOCTL_NAMEMAX); strlcpy(desc.node0.name, vol->name, SIOCTL_NAMEMAX); for (i = 0; i < vol->nch; i++) { desc.node0.unit = i; desc.addr = vol->base_addr + i; val = ctrl.un.value.level[i]; vol->level_val[i] = val; _sioctl_ondesc_cb(&hdl->sioctl, &desc, val); } } if (vol->mute_idx >= 0) { ctrl.dev = vol->mute_idx; ctrl.type = AUDIO_MIXER_ENUM; if (ioctl(hdl->fd, AUDIO_MIXER_READ, &ctrl) < 0) { DPRINTF("mute read failed\n"); return 0; } desc.type = SIOCTL_SW; desc.maxval = 1; desc.node1.name[0] = 0; desc.node1.unit = -1; strlcpy(desc.func, "mute", SIOCTL_NAMEMAX); strlcpy(desc.node0.name, vol->name, SIOCTL_NAMEMAX); val = ctrl.un.ord ? 1 : 0; vol->mute_val = val; for (i = 0; i < vol->nch; i++) { desc.node0.unit = i; desc.addr = vol->base_addr + 32 + i; _sioctl_ondesc_cb(&hdl->sioctl, &desc, val); } } return 1; } static int updatevol(struct sioctl_sun_hdl *hdl, struct volume *vol, int idx) { struct mixer_ctrl ctrl; int val, i; if (idx == vol->mute_idx) ctrl.type = AUDIO_MIXER_ENUM; else { ctrl.type = AUDIO_MIXER_VALUE; ctrl.un.value.num_channels = vol->nch; } ctrl.dev = idx; if (ioctl(hdl->fd, AUDIO_MIXER_READ, &ctrl) == -1) { DPERROR("sioctl_sun_revents: ioctl\n"); hdl->sioctl.eof = 1; return 0; } if (idx == vol->mute_idx) { val = ctrl.un.ord ? 1 : 0; if (vol->mute_val == val) return 1; vol->mute_val = val; for (i = 0; i < vol->nch; i++) { _sioctl_onval_cb(&hdl->sioctl, vol->base_addr + 32 + i, val); } } else { for (i = 0; i < vol->nch; i++) { val = ctrl.un.value.level[i]; if (vol->level_val[i] == val) continue; vol->level_val[i] = val; _sioctl_onval_cb(&hdl->sioctl, vol->base_addr + i, val); } } return 1; } int sioctl_sun_getfd(const char *str, unsigned int mode, int nbio) { const char *p; char path[DEVPATH_MAX]; unsigned int devnum; int fd, flags; #ifdef DEBUG _sndio_debug_init(); #endif p = _sndio_parsetype(str, "rsnd"); if (p == NULL) { DPRINTF("sioctl_sun_getfd: %s: \"rsnd\" expected\n", str); return -1; } switch (*p) { case '/': p++; break; default: DPRINTF("sioctl_sun_getfd: %s: '/' expected\n", str); return -1; } if (strcmp(p, "default") == 0) { devnum = 0; } else { p = _sndio_parsenum(p, &devnum, 255); if (p == NULL || *p != '\0') { DPRINTF("sioctl_sun_getfd: %s: number expected after '/'\n", str); return -1; } } snprintf(path, sizeof(path), DEVPATH_PREFIX "%u", devnum); if (mode == (SIOCTL_READ | SIOCTL_WRITE)) flags = O_RDWR; else flags = (mode & SIOCTL_WRITE) ? O_WRONLY : O_RDONLY; while ((fd = open(path, flags | O_NONBLOCK | O_CLOEXEC)) < 0) { if (errno == EINTR) continue; DPERROR(path); return -1; } return fd; } struct sioctl_hdl * sioctl_sun_fdopen(int fd, unsigned int mode, int nbio) { struct sioctl_sun_hdl *hdl; #ifdef DEBUG _sndio_debug_init(); #endif hdl = malloc(sizeof(struct sioctl_sun_hdl)); if (hdl == NULL) return NULL; _sioctl_create(&hdl->sioctl, &sioctl_sun_ops, mode, nbio); hdl->fd = fd; init(hdl); return (struct sioctl_hdl *)hdl; } struct sioctl_hdl * _sioctl_sun_open(const char *str, unsigned int mode, int nbio) { struct sioctl_hdl *hdl; int fd; fd = sioctl_sun_getfd(str, mode, nbio); if (fd < 0) return NULL; hdl = sioctl_sun_fdopen(fd, mode, nbio); if (hdl != NULL) return hdl; while (close(fd) < 0 && errno == EINTR) ; /* retry */ return NULL; } static void sioctl_sun_close(struct sioctl_hdl *addr) { struct sioctl_sun_hdl *hdl = (struct sioctl_sun_hdl *)addr; close(hdl->fd); free(hdl); } static int sioctl_sun_ondesc(struct sioctl_hdl *addr) { struct sioctl_sun_hdl *hdl = (struct sioctl_sun_hdl *)addr; if (!scanvol(hdl, &hdl->output) || !scanvol(hdl, &hdl->input)) { hdl->sioctl.eof = 1; return 0; } _sioctl_ondesc_cb(&hdl->sioctl, NULL, 0); return 1; } static int sioctl_sun_onval(struct sioctl_hdl *addr) { return 1; } static int sioctl_sun_setctl(struct sioctl_hdl *arg, unsigned int addr, unsigned int val) { struct sioctl_sun_hdl *hdl = (struct sioctl_sun_hdl *)arg; if (!setvol(hdl, &hdl->output, addr, val) || !setvol(hdl, &hdl->input, addr, val)) { hdl->sioctl.eof = 1; return 0; } return 1; } static int sioctl_sun_nfds(struct sioctl_hdl *addr) { return 1; } static int sioctl_sun_pollfd(struct sioctl_hdl *addr, struct pollfd *pfd, int events) { struct sioctl_sun_hdl *hdl = (struct sioctl_sun_hdl *)addr; pfd->fd = hdl->fd; pfd->events = POLLIN; hdl->events = events; return 1; } static int sioctl_sun_revents(struct sioctl_hdl *arg, struct pollfd *pfd) { struct sioctl_sun_hdl *hdl = (struct sioctl_sun_hdl *)arg; struct volume *vol; int idx, n; if (pfd->revents & POLLIN) { while (1) { n = read(hdl->fd, &idx, sizeof(int)); if (n == -1) { if (errno == EINTR || errno == EAGAIN) break; DPERROR("read"); hdl->sioctl.eof = 1; return POLLHUP; } if (n < sizeof(int)) { DPRINTF("sioctl_sun_revents: short read\n"); hdl->sioctl.eof = 1; return POLLHUP; } if (idx == hdl->output.level_idx || idx == hdl->output.mute_idx) { vol = &hdl->output; } else if (idx == hdl->input.level_idx || idx == hdl->input.mute_idx) { vol = &hdl->input; } else continue; if (!updatevol(hdl, vol, idx)) return POLLHUP; } } return hdl->events & POLLOUT; }