/* $OpenBSD: siofile.c,v 1.1 2012/11/23 07:03:28 ratchov Exp $ */ /* * Copyright (c) 2008-2012 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 "abuf.h" #include "defs.h" #include "dev.h" #include "dsp.h" #include "file.h" #include "siofile.h" #include "utils.h" int dev_sio_pollfd(void *, struct pollfd *); int dev_sio_revents(void *, struct pollfd *); void dev_sio_run(void *); void dev_sio_hup(void *); struct fileops dev_sio_ops = { "sio", dev_sio_pollfd, dev_sio_revents, dev_sio_run, dev_sio_run, dev_sio_hup }; void dev_sio_onmove(void *arg, int delta) { struct dev *d = arg; #ifdef DEBUG if (log_level >= 4) { dev_log(d); log_puts(": tick, delta = "); log_puti(delta); log_puts("\n"); } d->sio.sum_utime += file_utime - d->sio.utime; d->sio.sum_wtime += file_wtime - d->sio.wtime; d->sio.wtime = file_wtime; d->sio.utime = file_utime; if (d->mode & MODE_PLAY) d->sio.pused -= delta; if (d->mode & MODE_REC) d->sio.rused += delta; #endif dev_onmove(d, delta); } /* * open the device. */ int dev_sio_open(struct dev *d) { struct sio_par par; unsigned int mode = d->mode & (MODE_PLAY | MODE_REC); d->sio.hdl = sio_open(d->path, mode, 1); if (d->sio.hdl == NULL) { if (mode != (SIO_PLAY | SIO_REC)) return 0; d->sio.hdl = sio_open(d->path, SIO_PLAY, 1); if (d->sio.hdl != NULL) mode = SIO_PLAY; else { d->sio.hdl = sio_open(d->path, SIO_REC, 1); if (d->sio.hdl != NULL) mode = SIO_REC; else return 0; } if (log_level >= 1) { log_puts("warning, device opened in "); log_puts(mode == SIO_PLAY ? "play-only" : "rec-only"); log_puts(" mode\n"); } } sio_initpar(&par); par.bits = d->par.bits; par.bps = d->par.bps; par.sig = d->par.sig; par.le = d->par.le; par.msb = d->par.msb; if (mode & SIO_PLAY) par.pchan = d->pchan; if (mode & SIO_REC) par.rchan = d->rchan; if (d->bufsz) par.appbufsz = d->bufsz; if (d->round) par.round = d->round; if (d->rate) par.rate = d->rate; if (!sio_setpar(d->sio.hdl, &par)) goto bad_close; if (!sio_getpar(d->sio.hdl, &par)) goto bad_close; d->par.bits = par.bits; d->par.bps = par.bps; d->par.sig = par.sig; d->par.le = par.le; d->par.msb = par.msb; if (mode & SIO_PLAY) d->pchan = par.pchan; if (mode & SIO_REC) d->rchan = par.rchan; d->bufsz = par.bufsz; d->round = par.round; d->rate = par.rate; if (!(mode & MODE_PLAY)) d->mode &= ~(MODE_PLAY | MODE_MON); if (!(mode & MODE_REC)) d->mode &= ~MODE_REC; sio_onmove(d->sio.hdl, dev_sio_onmove, d); d->sio.file = file_new(&dev_sio_ops, d, d->path, sio_nfds(d->sio.hdl)); return 1; bad_close: sio_close(d->sio.hdl); return 0; } void dev_sio_close(struct dev *d) { #ifdef DEBUG if (log_level >= 3) { dev_log(d); log_puts(": closed\n"); } #endif file_del(d->sio.file); sio_close(d->sio.hdl); } void dev_sio_start(struct dev *d) { if (!sio_start(d->sio.hdl)) { if (log_level >= 1) { dev_log(d); log_puts(": failed to start device\n"); } return; } if (d->mode & MODE_PLAY) { d->sio.cstate = DEV_SIO_CYCLE; d->sio.todo = 0; } else { d->sio.cstate = DEV_SIO_READ; d->sio.todo = d->round * d->rchan * d->par.bps; } #ifdef DEBUG d->sio.pused = 0; d->sio.rused = 0; d->sio.sum_utime = 0; d->sio.sum_wtime = 0; d->sio.wtime = file_wtime; d->sio.utime = file_utime; if (log_level >= 3) { dev_log(d); log_puts(": started\n"); } #endif } void dev_sio_stop(struct dev *d) { if (!sio_eof(d->sio.hdl) && !sio_stop(d->sio.hdl)) { if (log_level >= 1) { dev_log(d); log_puts(": failed to stop device\n"); } return; } #ifdef DEBUG if (log_level >= 3) { dev_log(d); log_puts(": stopped, load avg = "); log_puti(d->sio.sum_utime / 1000); log_puts(" / "); log_puti(d->sio.sum_wtime / 1000); log_puts("\n"); } #endif } int dev_sio_pollfd(void *arg, struct pollfd *pfd) { struct dev *d = arg; int events; events = (d->sio.cstate == DEV_SIO_READ) ? POLLIN : POLLOUT; return sio_pollfd(d->sio.hdl, pfd, events); } int dev_sio_revents(void *arg, struct pollfd *pfd) { struct dev *d = arg; int events; events = sio_revents(d->sio.hdl, pfd); #ifdef DEBUG d->sio.events = events; #endif return events; } void dev_sio_run(void *arg) { struct dev *d = arg; unsigned char *data, *base; unsigned int n; /* * sio_read() and sio_write() would block at the end of the * cycle so we *must* return and restart poll()'ing. Otherwise * we may trigger dev_cycle() which would make all clients * underrun (ex, on a play-only device) */ for (;;) { if (d->pstate != DEV_RUN) return; switch (d->sio.cstate) { case DEV_SIO_READ: #ifdef DEBUG if (!(d->sio.events & POLLIN)) { dev_log(d); log_puts(": recording, but POLLIN not set\n"); panic(); } if (d->sio.todo == 0) { dev_log(d); log_puts(": can't read data\n"); panic(); } if (d->prime > 0) { dev_log(d); log_puts(": unexpected data\n"); panic(); } #endif base = d->decbuf ? d->decbuf : (unsigned char *)d->rbuf; data = base + d->rchan * d->round * d->par.bps - d->sio.todo; n = sio_read(d->sio.hdl, data, d->sio.todo); d->sio.todo -= n; #ifdef DEBUG if (n == 0 && data == base && !sio_eof(d->sio.hdl)) { dev_log(d); log_puts(": read blocked at cycle start\n"); } if (log_level >= 4) { dev_log(d); log_puts(": read "); log_putu(n); log_puts(": bytes, todo "); log_putu(d->sio.todo); log_puts("/"); log_putu(d->round * d->rchan * d->par.bps); log_puts("\n"); } #endif if (d->sio.todo > 0) return; #ifdef DEBUG d->sio.rused -= d->round; if (log_level >= 2) { if (d->sio.rused >= d->round) { dev_log(d); log_puts(": rec hw xrun, rused = "); log_puti(d->sio.rused); log_puts("/"); log_puti(d->bufsz); log_puts("\n"); } if (d->sio.rused < 0 || d->sio.rused >= d->bufsz) { dev_log(d); log_puts(": out of bounds rused = "); log_puti(d->sio.rused); log_puts("/"); log_puti(d->bufsz); log_puts("\n"); } } #endif d->sio.cstate = DEV_SIO_CYCLE; break; case DEV_SIO_CYCLE: #ifdef DEBUG /* * check that we're called at cycle boundary: * either after a recorded block, or when POLLOUT is * raised */ if (!((d->mode & MODE_REC) && d->prime == 0) && !(d->sio.events & POLLOUT)) { dev_log(d); log_puts(": cycle not at block boundary\n"); panic(); } #endif dev_cycle(d); if (d->mode & MODE_PLAY) { d->sio.cstate = DEV_SIO_WRITE; d->sio.todo = d->round * d->pchan * d->par.bps; break; } else { d->sio.cstate = DEV_SIO_READ; d->sio.todo = d->round * d->rchan * d->par.bps; return; } case DEV_SIO_WRITE: #ifdef DEBUG if (d->sio.todo == 0) { dev_log(d); log_puts(": can't write data\n"); panic(); } #endif base = d->encbuf ? d->encbuf : (unsigned char *)DEV_PBUF(d); data = base + d->pchan * d->round * d->par.bps - d->sio.todo; n = sio_write(d->sio.hdl, data, d->sio.todo); d->sio.todo -= n; #ifdef DEBUG if (n == 0 && data == base && !sio_eof(d->sio.hdl)) { dev_log(d); log_puts(": write blocked at cycle start\n"); } if (log_level >= 4) { dev_log(d); log_puts(": wrote "); log_putu(n); log_puts(" bytes, todo "); log_putu(d->sio.todo); log_puts("/"); log_putu(d->round * d->pchan * d->par.bps); log_puts("\n"); } #endif if (d->sio.todo > 0) return; #ifdef DEBUG d->sio.pused += d->round; if (log_level >= 2) { if (d->prime == 0 && d->sio.pused <= d->bufsz - d->round) { dev_log(d); log_puts(": play hw xrun, pused = "); log_puti(d->sio.pused); log_puts("/"); log_puti(d->bufsz); log_puts("\n"); } if (d->sio.pused < 0 || d->sio.pused > d->bufsz) { /* device driver or libsndio bug */ dev_log(d); log_puts(": out of bounds pused = "); log_puti(d->sio.pused); log_puts("/"); log_puti(d->bufsz); log_puts("\n"); } } #endif d->poffs += d->round; if (d->poffs == d->bufsz) d->poffs = 0; if ((d->mode & MODE_REC) && d->prime == 0) { d->sio.cstate = DEV_SIO_READ; d->sio.todo = d->round * d->rchan * d->par.bps; } else d->sio.cstate = DEV_SIO_CYCLE; return; } } } void dev_sio_hup(void *arg) { struct dev *d = arg; dev_close(d); }