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[/] [or1k_old/] [trunk/] [uclinux/] [uClinux-2.0.x/] [drivers/] [sound/] [midibuf.c] - Rev 1782
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/* * sound/midibuf.c * * Device file manager for /dev/midi# */ /* * Copyright (C) by Hannu Savolainen 1993-1996 * * USS/Lite for Linux is distributed under the GNU GENERAL PUBLIC LICENSE (GPL) * Version 2 (June 1991). See the "COPYING" file distributed with this software * for more info. */ #include <linux/config.h> #include "sound_config.h" #if defined(CONFIG_MIDI) /* * Don't make MAX_QUEUE_SIZE larger than 4000 */ #define MAX_QUEUE_SIZE 4000 static wait_handle *midi_sleeper[MAX_MIDI_DEV] = {NULL}; static volatile struct snd_wait midi_sleep_flag[MAX_MIDI_DEV] = { {0}}; static wait_handle *input_sleeper[MAX_MIDI_DEV] = {NULL}; static volatile struct snd_wait input_sleep_flag[MAX_MIDI_DEV] = { {0}}; struct midi_buf { int len, head, tail; unsigned char queue[MAX_QUEUE_SIZE]; }; struct midi_parms { int prech_timeout; /* * Timeout before the first ch */ }; static struct midi_buf *midi_out_buf[MAX_MIDI_DEV] = {NULL}; static struct midi_buf *midi_in_buf[MAX_MIDI_DEV] = {NULL}; static struct midi_parms parms[MAX_MIDI_DEV]; static void midi_poll (unsigned long dummy); static struct timer_list poll_timer = {NULL, NULL, 0, 0, midi_poll}; static volatile int open_devs = 0; #define DATA_AVAIL(q) (q->len) #define SPACE_AVAIL(q) (MAX_QUEUE_SIZE - q->len) #define QUEUE_BYTE(q, data) \ if (SPACE_AVAIL(q)) \ { \ unsigned long flags; \ save_flags(flags);cli(); \ q->queue[q->tail] = (data); \ q->len++; q->tail = (q->tail+1) % MAX_QUEUE_SIZE; \ restore_flags(flags); \ } #define REMOVE_BYTE(q, data) \ if (DATA_AVAIL(q)) \ { \ unsigned long flags; \ save_flags(flags);cli(); \ data = q->queue[q->head]; \ q->len--; q->head = (q->head+1) % MAX_QUEUE_SIZE; \ restore_flags(flags); \ } void drain_midi_queue (int dev) { /* * Give the Midi driver time to drain its output queues */ if (midi_devs[dev]->buffer_status != NULL) while (!current_got_fatal_signal () && midi_devs[dev]->buffer_status (dev)) { unsigned long tlimit; if (HZ / 10) current_set_timeout (tlimit = jiffies + (HZ / 10)); else tlimit = (unsigned long) -1; midi_sleep_flag[dev].flags = WK_SLEEP; module_interruptible_sleep_on (&midi_sleeper[dev]); if (!(midi_sleep_flag[dev].flags & WK_WAKEUP)) { if (jiffies >= tlimit) midi_sleep_flag[dev].flags |= WK_TIMEOUT; } midi_sleep_flag[dev].flags &= ~WK_SLEEP; }; } static void midi_input_intr (int dev, unsigned char data) { if (midi_in_buf[dev] == NULL) return; if (data == 0xfe) /* * Active sensing */ return; /* * Ignore */ if (SPACE_AVAIL (midi_in_buf[dev])) { QUEUE_BYTE (midi_in_buf[dev], data); if ((input_sleep_flag[dev].flags & WK_SLEEP)) { input_sleep_flag[dev].flags = WK_WAKEUP; module_wake_up (&input_sleeper[dev]); }; } } static void midi_output_intr (int dev) { /* * Currently NOP */ } static void midi_poll (unsigned long dummy) { unsigned long flags; int dev; save_flags (flags); cli (); if (open_devs) { for (dev = 0; dev < num_midis; dev++) if (midi_out_buf[dev] != NULL) { while (DATA_AVAIL (midi_out_buf[dev]) && midi_devs[dev]->putc (dev, midi_out_buf[dev]->queue[midi_out_buf[dev]->head])) { midi_out_buf[dev]->head = (midi_out_buf[dev]->head + 1) % MAX_QUEUE_SIZE; midi_out_buf[dev]->len--; } if (DATA_AVAIL (midi_out_buf[dev]) < 100 && (midi_sleep_flag[dev].flags & WK_SLEEP)) { midi_sleep_flag[dev].flags = WK_WAKEUP; module_wake_up (&midi_sleeper[dev]); }; } { poll_timer.expires = (1) + jiffies; add_timer (&poll_timer); }; /* * Come back later */ } restore_flags (flags); } int MIDIbuf_open (int dev, struct fileinfo *file) { int mode, err; dev = dev >> 4; mode = file->mode & O_ACCMODE; if (num_midis > MAX_MIDI_DEV) { printk ("Sound: FATAL ERROR: Too many midi interfaces\n"); num_midis = MAX_MIDI_DEV; } if (dev < 0 || dev >= num_midis) { printk ("Sound: Nonexistent MIDI interface %d\n", dev); return -(ENXIO); } /* * Interrupts disabled. Be careful */ if ((err = midi_devs[dev]->open (dev, mode, midi_input_intr, midi_output_intr)) < 0) { return err; } parms[dev].prech_timeout = 0; midi_in_buf[dev] = (struct midi_buf *) vmalloc (sizeof (struct midi_buf)); if (midi_in_buf[dev] == NULL) { printk ("midi: Can't allocate buffer\n"); midi_devs[dev]->close (dev); return -(EIO); } midi_in_buf[dev]->len = midi_in_buf[dev]->head = midi_in_buf[dev]->tail = 0; midi_out_buf[dev] = (struct midi_buf *) vmalloc (sizeof (struct midi_buf)); if (midi_out_buf[dev] == NULL) { printk ("midi: Can't allocate buffer\n"); midi_devs[dev]->close (dev); vfree (midi_in_buf[dev]); midi_in_buf[dev] = NULL; return -(EIO); } midi_out_buf[dev]->len = midi_out_buf[dev]->head = midi_out_buf[dev]->tail = 0; open_devs++; midi_sleep_flag[dev].flags = WK_NONE; input_sleep_flag[dev].flags = WK_NONE; if (open_devs < 2) /* This was first open */ { ; { poll_timer.expires = (1) + jiffies; add_timer (&poll_timer); }; /* Start polling */ } return err; } void MIDIbuf_release (int dev, struct fileinfo *file) { int mode; unsigned long flags; dev = dev >> 4; mode = file->mode & O_ACCMODE; if (dev < 0 || dev >= num_midis) return; save_flags (flags); cli (); /* * Wait until the queue is empty */ if (mode != OPEN_READ) { midi_devs[dev]->putc (dev, 0xfe); /* * Active sensing to shut the * devices */ while (!current_got_fatal_signal () && DATA_AVAIL (midi_out_buf[dev])) { unsigned long tlimit; if (0) current_set_timeout (tlimit = jiffies + (0)); else tlimit = (unsigned long) -1; midi_sleep_flag[dev].flags = WK_SLEEP; module_interruptible_sleep_on (&midi_sleeper[dev]); if (!(midi_sleep_flag[dev].flags & WK_WAKEUP)) { if (jiffies >= tlimit) midi_sleep_flag[dev].flags |= WK_TIMEOUT; } midi_sleep_flag[dev].flags &= ~WK_SLEEP; }; /* * Sync */ drain_midi_queue (dev); /* * Ensure the output queues are empty */ } restore_flags (flags); midi_devs[dev]->close (dev); vfree (midi_in_buf[dev]); vfree (midi_out_buf[dev]); midi_in_buf[dev] = NULL; midi_out_buf[dev] = NULL; if (open_devs < 2) del_timer (&poll_timer);; open_devs--; } int MIDIbuf_write (int dev, struct fileinfo *file, const char *buf, int count) { unsigned long flags; int c, n, i; unsigned char tmp_data; dev = dev >> 4; if (!count) return 0; save_flags (flags); cli (); c = 0; while (c < count) { n = SPACE_AVAIL (midi_out_buf[dev]); if (n == 0) /* * No space just now. We have to sleep */ { { unsigned long tlimit; if (0) current_set_timeout (tlimit = jiffies + (0)); else tlimit = (unsigned long) -1; midi_sleep_flag[dev].flags = WK_SLEEP; module_interruptible_sleep_on (&midi_sleeper[dev]); if (!(midi_sleep_flag[dev].flags & WK_WAKEUP)) { if (jiffies >= tlimit) midi_sleep_flag[dev].flags |= WK_TIMEOUT; } midi_sleep_flag[dev].flags &= ~WK_SLEEP; }; if (current_got_fatal_signal ()) { restore_flags (flags); return -(EINTR); } n = SPACE_AVAIL (midi_out_buf[dev]); } if (n > (count - c)) n = count - c; for (i = 0; i < n; i++) { memcpy_fromfs ((char *) &tmp_data, &(buf)[c], 1); QUEUE_BYTE (midi_out_buf[dev], tmp_data); c++; } } restore_flags (flags); return c; } int MIDIbuf_read (int dev, struct fileinfo *file, char *buf, int count) { int n, c = 0; unsigned long flags; unsigned char tmp_data; dev = dev >> 4; save_flags (flags); cli (); if (!DATA_AVAIL (midi_in_buf[dev])) /* * No data yet, wait */ { { unsigned long tlimit; if (parms[dev].prech_timeout) current_set_timeout (tlimit = jiffies + (parms[dev].prech_timeout)); else tlimit = (unsigned long) -1; input_sleep_flag[dev].flags = WK_SLEEP; module_interruptible_sleep_on (&input_sleeper[dev]); if (!(input_sleep_flag[dev].flags & WK_WAKEUP)) { if (jiffies >= tlimit) input_sleep_flag[dev].flags |= WK_TIMEOUT; } input_sleep_flag[dev].flags &= ~WK_SLEEP; }; if (current_got_fatal_signal ()) c = -(EINTR); /* * The user is getting restless */ } if (c == 0 && DATA_AVAIL (midi_in_buf[dev])) /* * Got some bytes */ { n = DATA_AVAIL (midi_in_buf[dev]); if (n > count) n = count; c = 0; while (c < n) { REMOVE_BYTE (midi_in_buf[dev], tmp_data); memcpy_tofs (&(buf)[c], (char *) &tmp_data, 1); c++; } } restore_flags (flags); return c; } int MIDIbuf_ioctl (int dev, struct fileinfo *file, unsigned int cmd, caddr_t arg) { int val; dev = dev >> 4; if (((cmd >> 8) & 0xff) == 'C') { if (midi_devs[dev]->coproc) /* Coprocessor ioctl */ return midi_devs[dev]->coproc->ioctl (midi_devs[dev]->coproc->devc, cmd, arg, 0); else printk ("/dev/midi%d: No coprocessor for this device\n", dev); return -(ENXIO); } else switch (cmd) { case SNDCTL_MIDI_PRETIME: val = (int) get_user ((int *) arg); if (val < 0) val = 0; val = (HZ * val) / 10; parms[dev].prech_timeout = val; return snd_ioctl_return ((int *) arg, val); break; default: return midi_devs[dev]->ioctl (dev, cmd, arg); } } int MIDIbuf_select (int dev, struct fileinfo *file, int sel_type, select_table_handle * wait) { dev = dev >> 4; switch (sel_type) { case SEL_IN: if (!DATA_AVAIL (midi_in_buf[dev])) { input_sleep_flag[dev].flags = WK_SLEEP; module_select_wait (&input_sleeper[dev], wait); return 0; } return 1; break; case SEL_OUT: if (SPACE_AVAIL (midi_out_buf[dev])) { midi_sleep_flag[dev].flags = WK_SLEEP; module_select_wait (&midi_sleeper[dev], wait); return 0; } return 1; break; case SEL_EX: return 0; } return 0; } void MIDIbuf_init (void) { } #endif