/* $OpenBSD: sio_sun.c,v 1.24 2015/12/20 11:29:29 ratchov Exp $ */ /* * Copyright (c) 2008 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "debug.h" #include "sio_priv.h" #define DEVPATH_PREFIX "/dev/audio" #define DEVPATH_MAX (1 + \ sizeof(DEVPATH_PREFIX) - 1 + \ sizeof(int) * 3) struct sio_sun_hdl { struct sio_hdl sio; int fd; int filling; unsigned int ibpf, obpf; /* bytes per frame */ unsigned int ibytes, obytes; /* bytes the hw transferred */ unsigned int ierr, oerr; /* frames the hw dropped */ int idelta, odelta; /* position reported to client */ }; static void sio_sun_close(struct sio_hdl *); static int sio_sun_start(struct sio_hdl *); static int sio_sun_stop(struct sio_hdl *); static int sio_sun_setpar(struct sio_hdl *, struct sio_par *); static int sio_sun_getpar(struct sio_hdl *, struct sio_par *); static int sio_sun_getcap(struct sio_hdl *, struct sio_cap *); static size_t sio_sun_read(struct sio_hdl *, void *, size_t); static size_t sio_sun_write(struct sio_hdl *, const void *, size_t); static int sio_sun_nfds(struct sio_hdl *); static int sio_sun_pollfd(struct sio_hdl *, struct pollfd *, int); static int sio_sun_revents(struct sio_hdl *, struct pollfd *); static struct sio_ops sio_sun_ops = { sio_sun_close, sio_sun_setpar, sio_sun_getpar, sio_sun_getcap, sio_sun_write, sio_sun_read, sio_sun_start, sio_sun_stop, sio_sun_nfds, sio_sun_pollfd, sio_sun_revents, NULL, /* setvol */ NULL, /* getvol */ }; /* * convert sun encoding to sio_par encoding */ static int sio_sun_infotoenc(struct sio_sun_hdl *hdl, struct audio_prinfo *ai, struct sio_par *par) { par->msb = ai->msb; par->bits = ai->precision; par->bps = ai->bps; switch (ai->encoding) { case AUDIO_ENCODING_SLINEAR_LE: par->le = 1; par->sig = 1; break; case AUDIO_ENCODING_SLINEAR_BE: par->le = 0; par->sig = 1; break; case AUDIO_ENCODING_ULINEAR_LE: par->le = 1; par->sig = 0; break; case AUDIO_ENCODING_ULINEAR_BE: par->le = 0; par->sig = 0; break; case AUDIO_ENCODING_SLINEAR: par->le = SIO_LE_NATIVE; par->sig = 1; break; case AUDIO_ENCODING_ULINEAR: par->le = SIO_LE_NATIVE; par->sig = 0; break; default: DPRINTF("sio_sun_infotoenc: unsupported encoding\n"); hdl->sio.eof = 1; return 0; } return 1; } /* * convert sio_par encoding to sun encoding */ static void sio_sun_enctoinfo(struct sio_sun_hdl *hdl, unsigned int *renc, struct sio_par *par) { if (par->le == ~0U && par->sig == ~0U) { *renc = ~0U; } else if (par->le == ~0U || par->sig == ~0U) { *renc = AUDIO_ENCODING_SLINEAR; } else if (par->le && par->sig) { *renc = AUDIO_ENCODING_SLINEAR_LE; } else if (!par->le && par->sig) { *renc = AUDIO_ENCODING_SLINEAR_BE; } else if (par->le && !par->sig) { *renc = AUDIO_ENCODING_ULINEAR_LE; } else { *renc = AUDIO_ENCODING_ULINEAR_BE; } } /* * try to set the device to the given parameters and check that the * device can use them; return 1 on success, 0 on failure or error */ static int sio_sun_tryinfo(struct sio_sun_hdl *hdl, struct sio_enc *enc, unsigned int pchan, unsigned int rchan, unsigned int rate) { struct audio_info aui; struct audio_prinfo *pr; pr = (hdl->sio.mode & SIO_PLAY) ? &aui.play : &aui.record; AUDIO_INITINFO(&aui); if (enc) { if (enc->le && enc->sig) { pr->encoding = AUDIO_ENCODING_SLINEAR_LE; } else if (!enc->le && enc->sig) { pr->encoding = AUDIO_ENCODING_SLINEAR_BE; } else if (enc->le && !enc->sig) { pr->encoding = AUDIO_ENCODING_ULINEAR_LE; } else { pr->encoding = AUDIO_ENCODING_ULINEAR_BE; } pr->precision = enc->bits; } if (rate) pr->sample_rate = rate; if ((hdl->sio.mode & (SIO_PLAY | SIO_REC)) == (SIO_PLAY | SIO_REC)) aui.record = aui.play; if (pchan && (hdl->sio.mode & SIO_PLAY)) aui.play.channels = pchan; if (rchan && (hdl->sio.mode & SIO_REC)) aui.record.channels = rchan; if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0) { if (errno == EINVAL) return 0; DPERROR("sio_sun_tryinfo: setinfo"); hdl->sio.eof = 1; return 0; } if (ioctl(hdl->fd, AUDIO_GETINFO, &aui) < 0) { DPERROR("sio_sun_tryinfo: getinfo"); hdl->sio.eof = 1; return 0; } if (pchan && aui.play.channels != pchan) return 0; if (rchan && aui.record.channels != rchan) return 0; if (rate) { if ((hdl->sio.mode & SIO_PLAY) && (aui.play.sample_rate != rate)) return 0; if ((hdl->sio.mode & SIO_REC) && (aui.record.sample_rate != rate)) return 0; } return 1; } /* * guess device capabilities */ static int sio_sun_getcap(struct sio_hdl *sh, struct sio_cap *cap) { #define NCHANS (sizeof(chans) / sizeof(chans[0])) #define NRATES (sizeof(rates) / sizeof(rates[0])) static unsigned int chans[] = { 1, 2, 4, 6, 8, 10, 12 }; static unsigned int rates[] = { 8000, 11025, 12000, 16000, 22050, 24000, 32000, 44100, 48000, 64000, 88200, 96000 }; struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; struct sio_par savepar; struct audio_encoding ae; unsigned int nenc = 0, nconf = 0; unsigned int enc_map = 0, rchan_map = 0, pchan_map = 0, rate_map; unsigned int i, j, conf; if (!sio_sun_getpar(&hdl->sio, &savepar)) return 0; /* * fill encoding list */ for (ae.index = 0; nenc < SIO_NENC; ae.index++) { if (ioctl(hdl->fd, AUDIO_GETENC, &ae) < 0) { if (errno == EINVAL) break; DPERROR("sio_sun_getcap: getenc"); hdl->sio.eof = 1; return 0; } if (ae.flags & AUDIO_ENCODINGFLAG_EMULATED) continue; if (ae.encoding == AUDIO_ENCODING_SLINEAR_LE) { cap->enc[nenc].le = 1; cap->enc[nenc].sig = 1; } else if (ae.encoding == AUDIO_ENCODING_SLINEAR_BE) { cap->enc[nenc].le = 0; cap->enc[nenc].sig = 1; } else if (ae.encoding == AUDIO_ENCODING_ULINEAR_LE) { cap->enc[nenc].le = 1; cap->enc[nenc].sig = 0; } else if (ae.encoding == AUDIO_ENCODING_ULINEAR_BE) { cap->enc[nenc].le = 0; cap->enc[nenc].sig = 0; } else if (ae.encoding == AUDIO_ENCODING_SLINEAR) { cap->enc[nenc].le = SIO_LE_NATIVE; cap->enc[nenc].sig = 1; } else if (ae.encoding == AUDIO_ENCODING_ULINEAR) { cap->enc[nenc].le = SIO_LE_NATIVE; cap->enc[nenc].sig = 0; } else { /* unsipported encoding */ continue; } cap->enc[nenc].bits = ae.precision; cap->enc[nenc].bps = ae.bps; cap->enc[nenc].msb = ae.msb; enc_map |= (1 << nenc); nenc++; } /* * fill channels * * for now we're lucky: all kernel devices assume that the * number of channels and the encoding are independent so we can * use the current encoding and try various channels. */ if (hdl->sio.mode & SIO_PLAY) { memcpy(&cap->pchan, chans, NCHANS * sizeof(unsigned int)); for (i = 0; i < NCHANS; i++) { if (sio_sun_tryinfo(hdl, NULL, chans[i], 0, 0)) pchan_map |= (1 << i); } } if (hdl->sio.mode & SIO_REC) { memcpy(&cap->rchan, chans, NCHANS * sizeof(unsigned int)); for (i = 0; i < NCHANS; i++) { if (sio_sun_tryinfo(hdl, NULL, 0, chans[i], 0)) rchan_map |= (1 << i); } } /* * fill rates * * rates are not independent from other parameters (eg. on * uaudio devices), so certain rates may not be allowed with * certain encodings. We have to check rates for all encodings */ memcpy(&cap->rate, rates, NRATES * sizeof(unsigned int)); for (j = 0; j < nenc; j++) { rate_map = 0; for (i = 0; i < NRATES; i++) { if (sio_sun_tryinfo(hdl, &cap->enc[j], 0, 0, rates[i])) rate_map |= (1 << i); } for (conf = 0; conf < nconf; conf++) { if (cap->confs[conf].rate == rate_map) { cap->confs[conf].enc |= (1 << j); break; } } if (conf == nconf) { if (nconf == SIO_NCONF) break; cap->confs[nconf].enc = (1 << j); cap->confs[nconf].pchan = pchan_map; cap->confs[nconf].rchan = rchan_map; cap->confs[nconf].rate = rate_map; nconf++; } } cap->nconf = nconf; if (!sio_sun_setpar(&hdl->sio, &savepar)) return 0; return 1; #undef NCHANS #undef NRATES } int sio_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("sio_sun_getfd: %s: \"rsnd\" expected\n", str); return -1; } switch (*p) { case '/': p++; break; default: DPRINTF("sio_sun_getfd: %s: '/' expected\n", str); return -1; } p = _sndio_parsenum(p, &devnum, 255); if (p == NULL || *p != '\0') { DPRINTF("sio_sun_getfd: %s: number expected after '/'\n", str); return -1; } snprintf(path, sizeof(path), DEVPATH_PREFIX "%u", devnum); if (mode == (SIO_PLAY | SIO_REC)) flags = O_RDWR; else flags = (mode & SIO_PLAY) ? 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 sio_hdl * sio_sun_fdopen(int fd, unsigned int mode, int nbio) { struct audio_info aui; struct sio_sun_hdl *hdl; struct sio_par par; #ifdef DEBUG _sndio_debug_init(); #endif hdl = malloc(sizeof(struct sio_sun_hdl)); if (hdl == NULL) return NULL; _sio_create(&hdl->sio, &sio_sun_ops, mode, nbio); /* * pause the device */ AUDIO_INITINFO(&aui); if (mode & SIO_PLAY) aui.play.pause = 1; if (mode & SIO_REC) aui.record.pause = 1; if (ioctl(fd, AUDIO_SETINFO, &aui) < 0) { DPERROR("sio_open_sun: setinfo"); goto bad_free; } hdl->fd = fd; /* * Default parameters may not be compatible with libsndio (eg. mulaw * encodings, different playback and recording parameters, etc...), so * set parameters to a random value. If the requested parameters are * not supported by the device, then sio_setpar() will pick supported * ones. */ sio_initpar(&par); par.rate = 48000; par.le = SIO_LE_NATIVE; par.sig = 1; par.bits = 16; par.appbufsz = 1200; if (!sio_setpar(&hdl->sio, &par)) goto bad_free; return (struct sio_hdl *)hdl; bad_free: free(hdl); return NULL; } struct sio_hdl * _sio_sun_open(const char *str, unsigned int mode, int nbio) { struct sio_hdl *hdl; int fd; fd = sio_sun_getfd(str, mode, nbio); if (fd < 0) return NULL; hdl = sio_sun_fdopen(fd, mode, nbio); if (hdl != NULL) return hdl; while (close(fd) < 0 && errno == EINTR) ; /* retry */ return NULL; } static void sio_sun_close(struct sio_hdl *sh) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; while (close(hdl->fd) < 0 && errno == EINTR) ; /* retry */ free(hdl); } static int sio_sun_start(struct sio_hdl *sh) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; struct audio_info aui; hdl->obpf = hdl->sio.par.pchan * hdl->sio.par.bps; hdl->ibpf = hdl->sio.par.rchan * hdl->sio.par.bps; hdl->ibytes = 0; hdl->obytes = 0; hdl->ierr = 0; hdl->oerr = 0; hdl->idelta = 0; hdl->odelta = 0; if (hdl->sio.mode & SIO_PLAY) { /* * keep the device paused and let sio_sun_write() trigger the * start later, to avoid buffer underruns */ hdl->filling = 1; } else { /* * no play buffers to fill, start now! */ AUDIO_INITINFO(&aui); if (hdl->sio.mode & SIO_REC) aui.record.pause = 0; if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0) { DPERROR("sio_sun_start: setinfo"); hdl->sio.eof = 1; return 0; } hdl->filling = 0; _sio_onmove_cb(&hdl->sio, 0); } return 1; } static int sio_sun_stop(struct sio_hdl *sh) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; struct audio_info aui; int mode; if (ioctl(hdl->fd, AUDIO_GETINFO, &aui) < 0) { DPERROR("sio_sun_stop: getinfo"); hdl->sio.eof = 1; return 0; } mode = aui.mode; /* * there's no way to drain the device without blocking, so just * stop it until the kernel driver get fixed */ AUDIO_INITINFO(&aui); aui.mode = 0; if (hdl->sio.mode & SIO_PLAY) aui.play.pause = 1; if (hdl->sio.mode & SIO_REC) aui.record.pause = 1; if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0) { DPERROR("sio_sun_stop: setinfo1"); hdl->sio.eof = 1; return 0; } AUDIO_INITINFO(&aui); aui.mode = mode; if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0) { DPERROR("sio_sun_stop: setinfo2"); hdl->sio.eof = 1; return 0; } return 1; } static int sio_sun_setpar(struct sio_hdl *sh, struct sio_par *par) { #define NRETRIES 8 struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; struct audio_info aui; unsigned int i, infr, ibpf, onfr, obpf; unsigned int bufsz, round; unsigned int rate, req_rate, prec, enc; /* * try to set parameters until the device accepts * a common encoding and rate for play and record */ rate = par->rate; prec = par->bits; sio_sun_enctoinfo(hdl, &enc, par); for (i = 0;; i++) { if (i == NRETRIES) { DPRINTF("sio_sun_setpar: couldn't set parameters\n"); hdl->sio.eof = 1; return 0; } AUDIO_INITINFO(&aui); if (hdl->sio.mode & SIO_PLAY) { aui.play.sample_rate = rate; aui.play.precision = prec; aui.play.encoding = enc; aui.play.channels = par->pchan; } if (hdl->sio.mode & SIO_REC) { aui.record.sample_rate = rate; aui.record.precision = prec; aui.record.encoding = enc; aui.record.channels = par->rchan; } DPRINTFN(2, "sio_sun_setpar: %i: trying pars = %u/%u/%u\n", i, rate, prec, enc); if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0 && errno != EINVAL) { DPERROR("sio_sun_setpar: setinfo(pars)"); hdl->sio.eof = 1; return 0; } if (ioctl(hdl->fd, AUDIO_GETINFO, &aui) < 0) { DPERROR("sio_sun_setpar: getinfo(pars)"); hdl->sio.eof = 1; return 0; } enc = (hdl->sio.mode & SIO_REC) ? aui.record.encoding : aui.play.encoding; switch (enc) { case AUDIO_ENCODING_SLINEAR_LE: case AUDIO_ENCODING_SLINEAR_BE: case AUDIO_ENCODING_ULINEAR_LE: case AUDIO_ENCODING_ULINEAR_BE: case AUDIO_ENCODING_SLINEAR: case AUDIO_ENCODING_ULINEAR: break; default: DPRINTF("sio_sun_setpar: couldn't set linear encoding\n"); hdl->sio.eof = 1; return 0; } if (hdl->sio.mode != (SIO_REC | SIO_PLAY)) break; if (aui.play.sample_rate == aui.record.sample_rate && aui.play.precision == aui.record.precision && aui.play.encoding == aui.record.encoding) break; if (i < NRETRIES / 2) { rate = aui.play.sample_rate; prec = aui.play.precision; enc = aui.play.encoding; } else { rate = aui.record.sample_rate; prec = aui.record.precision; enc = aui.record.encoding; } } /* * If the rate that the hardware is using is different than * the requested rate, scale buffer sizes so they will be the * same time duration as what was requested. This just gets * the rates to use for scaling, that actual scaling is done * later. */ rate = (hdl->sio.mode & SIO_REC) ? aui.record.sample_rate : aui.play.sample_rate; req_rate = rate; if (par->rate && par->rate != ~0U) req_rate = par->rate; /* * if block size and buffer size are not both set then * set the blocksize to half the buffer size */ bufsz = par->appbufsz; round = par->round; if (bufsz != ~0U) { bufsz = bufsz * rate / req_rate; if (round == ~0U) round = (bufsz + 1) / 2; else round = round * rate / req_rate; } else if (round != ~0U) { round = round * rate / req_rate; bufsz = round * 2; } else return 1; /* * get the play/record frame size in bytes */ if (ioctl(hdl->fd, AUDIO_GETINFO, &aui) < 0) { DPERROR("sio_sun_setpar: GETINFO"); hdl->sio.eof = 1; return 0; } ibpf = (hdl->sio.mode & SIO_REC) ? aui.record.channels * aui.record.bps : 1; obpf = (hdl->sio.mode & SIO_PLAY) ? aui.play.channels * aui.play.bps : 1; DPRINTFN(2, "sio_sun_setpar: bpf = (%u, %u)\n", ibpf, obpf); /* * try to set parameters until the device accepts * a common block size for play and record */ for (i = 0; i < NRETRIES; i++) { AUDIO_INITINFO(&aui); aui.hiwat = (bufsz + round - 1) / round; aui.lowat = aui.hiwat; if (hdl->sio.mode & SIO_REC) aui.record.block_size = round * ibpf; if (hdl->sio.mode & SIO_PLAY) aui.play.block_size = round * obpf; if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0) { DPERROR("sio_sun_setpar2: SETINFO"); hdl->sio.eof = 1; return 0; } if (ioctl(hdl->fd, AUDIO_GETINFO, &aui) < 0) { DPERROR("sio_sun_setpar2: GETINFO"); hdl->sio.eof = 1; return 0; } infr = aui.record.block_size / ibpf; onfr = aui.play.block_size / obpf; DPRINTFN(2, "sio_sun_setpar: %i: trying round = %u -> (%u, %u)\n", i, round, infr, onfr); /* * if half-duplex or both block sizes match, we're done */ if (hdl->sio.mode != (SIO_REC | SIO_PLAY) || infr == onfr) { DPRINTFN(2, "sio_sun_setpar: blocksize ok\n"); return 1; } /* * half of the retries, retry with the smaller value, * then with the larger returned value */ if (i < NRETRIES / 2) round = infr < onfr ? infr : onfr; else round = infr < onfr ? onfr : infr; } DPRINTFN(2, "sio_sun_setpar: couldn't find a working blocksize\n"); hdl->sio.eof = 1; return 0; #undef NRETRIES } static int sio_sun_getpar(struct sio_hdl *sh, struct sio_par *par) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; struct audio_info aui; if (ioctl(hdl->fd, AUDIO_GETINFO, &aui) < 0) { DPERROR("sio_sun_getpar: getinfo"); hdl->sio.eof = 1; return 0; } if (hdl->sio.mode & SIO_PLAY) { par->rate = aui.play.sample_rate; if (!sio_sun_infotoenc(hdl, &aui.play, par)) return 0; } else if (hdl->sio.mode & SIO_REC) { par->rate = aui.record.sample_rate; if (!sio_sun_infotoenc(hdl, &aui.record, par)) return 0; } else return 0; par->pchan = (hdl->sio.mode & SIO_PLAY) ? aui.play.channels : 0; par->rchan = (hdl->sio.mode & SIO_REC) ? aui.record.channels : 0; par->round = (hdl->sio.mode & SIO_REC) ? aui.record.block_size / (par->bps * par->rchan) : aui.play.block_size / (par->bps * par->pchan); par->appbufsz = aui.hiwat * par->round; par->bufsz = par->appbufsz; par->xrun = SIO_IGNORE; return 1; } static size_t sio_sun_read(struct sio_hdl *sh, void *buf, size_t len) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; ssize_t n; while ((n = read(hdl->fd, buf, len)) < 0) { if (errno == EINTR) continue; if (errno != EAGAIN) { DPERROR("sio_sun_read: read"); hdl->sio.eof = 1; } return 0; } if (n == 0) { DPRINTF("sio_sun_read: eof\n"); hdl->sio.eof = 1; return 0; } return n; } static size_t sio_sun_autostart(struct sio_sun_hdl *hdl) { struct audio_info aui; struct pollfd pfd; pfd.fd = hdl->fd; pfd.events = POLLOUT; while (poll(&pfd, 1, 0) < 0) { if (errno == EINTR) continue; DPERROR("sio_sun_autostart: poll"); hdl->sio.eof = 1; return 0; } if (!(pfd.revents & POLLOUT)) { hdl->filling = 0; AUDIO_INITINFO(&aui); if (hdl->sio.mode & SIO_PLAY) aui.play.pause = 0; if (hdl->sio.mode & SIO_REC) aui.record.pause = 0; if (ioctl(hdl->fd, AUDIO_SETINFO, &aui) < 0) { DPERROR("sio_sun_autostart: setinfo"); hdl->sio.eof = 1; return 0; } _sio_onmove_cb(&hdl->sio, 0); } return 1; } static size_t sio_sun_write(struct sio_hdl *sh, const void *buf, size_t len) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; const unsigned char *data = buf; ssize_t n, todo; todo = len; while ((n = write(hdl->fd, data, todo)) < 0) { if (errno == EINTR) continue; if (errno != EAGAIN) { DPERROR("sio_sun_write: write"); hdl->sio.eof = 1; } return 0; } if (hdl->filling) { if (!sio_sun_autostart(hdl)) return 0; } return n; } static int sio_sun_nfds(struct sio_hdl *hdl) { return 1; } static int sio_sun_pollfd(struct sio_hdl *sh, struct pollfd *pfd, int events) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; pfd->fd = hdl->fd; pfd->events = events; return 1; } int sio_sun_revents(struct sio_hdl *sh, struct pollfd *pfd) { struct sio_sun_hdl *hdl = (struct sio_sun_hdl *)sh; struct audio_pos ap; int dierr = 0, doerr = 0, offset, delta; int revents = pfd->revents; if (!hdl->sio.started) return pfd->revents; if (ioctl(hdl->fd, AUDIO_GETPOS, &ap) < 0) { DPERROR("sio_sun_revents: GETPOS"); hdl->sio.eof = 1; return POLLHUP; } if (hdl->sio.mode & SIO_PLAY) { delta = (ap.play_pos - hdl->obytes) / hdl->obpf; doerr = (ap.play_xrun - hdl->oerr) / hdl->obpf; hdl->obytes = ap.play_pos; hdl->oerr = ap.play_xrun; hdl->odelta += delta; if (!(hdl->sio.mode & SIO_REC)) { hdl->idelta += delta; dierr = doerr; } if (doerr > 0) DPRINTFN(2, "play xrun %d\n", doerr); } if (hdl->sio.mode & SIO_REC) { delta = (ap.rec_pos - hdl->ibytes) / hdl->ibpf; dierr = (ap.rec_xrun - hdl->ierr) / hdl->ibpf; hdl->ibytes = ap.rec_pos; hdl->ierr = ap.rec_xrun; hdl->idelta += delta; if (!(hdl->sio.mode & SIO_PLAY)) { hdl->odelta += delta; doerr = dierr; } if (dierr > 0) DPRINTFN(2, "rec xrun %d\n", dierr); } /* * GETPOS reports positions including xruns, * so we have to substract to get the real position */ hdl->idelta -= dierr; hdl->odelta -= doerr; offset = doerr - dierr; if (offset > 0) { hdl->sio.rdrop += offset * hdl->ibpf; hdl->idelta -= offset; DPRINTFN(2, "will drop %d and pause %d\n", offset, doerr); } else if (offset < 0) { hdl->sio.wsil += -offset * hdl->obpf; hdl->odelta -= -offset; DPRINTFN(2, "will insert %d and pause %d\n", -offset, dierr); } delta = (hdl->idelta > hdl->odelta) ? hdl->idelta : hdl->odelta; if (delta > 0) { _sio_onmove_cb(&hdl->sio, delta); hdl->idelta -= delta; hdl->odelta -= delta; } if (hdl->filling) revents |= POLLOUT; /* XXX: is this necessary ? */ return revents; }