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/* generic-speaker.c - The simple speaker bell driver.
Copyright (C) 2002 Free Software Foundation, Inc.
Written by Marcus Brinkmann.
This file is part of the GNU Hurd.
The GNU Hurd is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2, or (at
your option) any later version.
The GNU Hurd is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA. */
#include <errno.h>
#include <sys/io.h>
#include <cthreads.h>
#include "driver.h"
#include "timer.h"
/* This driver should work on IA32, IA64, Alpha, PowerPC, MIPS and ARM
architectures. It requires a Programmable Interrupt Timer (PIT) at
I/O ports 0x40 - 0x43 and a speaker that can be connected to timer
2 at I/O port 0x61. */
/* The beep timer. */
static struct timer_list generic_speaker_timer;
/* Forward declaration. */
static struct bell_ops generic_speaker_ops;
/* The speaker port. */
#define SPEAKER 0x61
/* If 0, follow state of SPEAKER_DATA bit, otherwise enable output
from timer 2. */
#define SPEAKER_TMR2 0x01
/* If SPEAKER_TMR2 is not set, this provides direct input into the
speaker. Otherwise, this enables or disables the output from the
timer. */
#define SPEAKER_DATA 0x02
/* The PIT channel value ports. You can write to and read from them.
Do not mess with timer 0 or 1. */
#define PIT_COUNTER_0 0x40
#define PIT_COUNTER_1 0x41
#define PIT_COUNTER_2 0x42
/* The frequency of the PIT clock. */
#define PIT_FREQUENCY 0x1234dd
/* The PIT control port. You can only write to it. Do not mess with
timer 0 or 1. */
#define PIT_CTRL 0x43
#define PIT_CTRL_SELECT_MASK 0xc0
#define PIT_CTRL_SELECT_0 0x00
#define PIT_CTRL_SELECT_1 0x40
#define PIT_CTRL_SELECT_2 0x80
/* Read and load control. */
#define PIT_CTRL_READLOAD_MASK 0x30
#define PIT_CTRL_COUNTER_LATCH 0x00 /* Hold timer value until read. */
#define PIT_CTRL_READLOAD_LSB 0x10 /* Read/load the LSB. */
#define PIT_CTRL_READLOAD_MSB 0x20 /* Read/load the MSB. */
#define PIT_CTRL_READLOAD_WORD 0x30 /* Read/load the LSB then the MSB. */
/* Mode control. */
#define PIT_CTRL_MODE_MASK 0x0e
/* Interrupt on terminal count. Setting the mode sets output to low.
When counter is set and terminated, output is set to high. */
#define PIT_CTRL_INTR_ON_TERM 0x00
/* Programmable one-shot. When loading counter, output is set to
high. When counter terminated, output is set to low. Can be
triggered again from that point on by setting the gate pin to
high. */
#define PIT_CTRL_PROGR_ONE_SHOT 0x02
/* Rate generator. Output is low for one period of the counter, and
high for the other. */
#define PIT_CTRL_RATE_GEN 0x04
/* Square wave generator. Output is low for one half of the period,
and high for the other half. */
#define PIT_CTRL_SQUAREWAVE_GEN 0x06
/* Software triggered strobe. Setting the mode sets output to high.
When counter is set and terminated, output is set to low. */
#define PIT_CTRL_SOFTSTROBE 0x08
/* Hardware triggered strobe. Like software triggered strobe, but
only starts the counter when the gate pin is set to high. */
#define PIT_CTRL_HARDSTROBE 0x0a
/* Count mode. */
#define PIT_CTRL_COUNT_MASK 0x01
#define PIT_CTRL_COUNT_BINARY 0x00 /* 16-bit binary counter. */
#define PIT_CTRL_COUNT_BCD 0x01 /* 4-decade BCD counter. */
/* Let's be loud! */
/* The 12th root of 2. Sort of. */
#define T_TEMP_SCALE 1.0594630943592952645
#define T_DOWN_ONE_HALF(x) ((short) (x / T_TEMP_SCALE))
#define T_UP_ONE_HALF(x) ((short) (x * T_TEMP_SCALE))
#define T_DOWN_ONE_OCTAVE(x) ((short) (x / 2))
#define T_UP_ONE_OCTAVE(x) ((short) (x * 2))
#define T_REST ((short) 0)
#define T_FINE ((short) (-1))
#define T_b_3 T_UP_ONE_OCTAVE (T_b_2)
#define T_b_F_3 T_UP_ONE_OCTAVE (T_b_F_2)
#define T_a_S_3 T_b_F_3
#define T_a_3 T_UP_ONE_OCTAVE (T_a_2)
#define T_a_F_3 T_UP_ONE_OCTAVE (T_a_F_2)
#define T_g_S_3 T_a_F_3
#define T_g_3 T_UP_ONE_OCTAVE (T_g_2)
#define T_g_F_3 T_f_S_3
#define T_f_S_3 T_UP_ONE_OCTAVE (T_f_S_2)
#define T_f_3 T_UP_ONE_OCTAVE (T_f_2)
#define T_e_3 T_UP_ONE_OCTAVE (T_e_2)
#define T_e_F_3 T_UP_ONE_OCTAVE (T_e_F_2)
#define T_d_S_3 T_e_F_3
#define T_d_3 T_UP_ONE_OCTAVE (T_d_2)
#define T_d_F_3 T_c_S_3
#define T_c_S_3 T_UP_ONE_OCTAVE (T_c_S_2)
#define T_c_3 T_UP_ONE_OCTAVE (T_c_2)
#define T_b_2 T_UP_ONE_OCTAVE (T_b_1)
#define T_b_F_2 T_UP_ONE_OCTAVE (T_b_F_1)
#define T_a_S_2 T_b_F_2
#define T_a_2 T_UP_ONE_OCTAVE (T_a_1)
#define T_a_F_2 T_UP_ONE_OCTAVE (T_a_F_1)
#define T_g_S_2 T_a_F_2
#define T_g_2 T_UP_ONE_OCTAVE (T_g_1)
#define T_g_F_2 T_f_S_2
#define T_f_S_2 T_UP_ONE_OCTAVE (T_f_S_1)
#define T_f_2 T_UP_ONE_OCTAVE (T_f_1)
#define T_e_2 T_UP_ONE_OCTAVE (T_e_1)
#define T_e_F_2 T_UP_ONE_OCTAVE (T_e_F_1)
#define T_d_S_2 T_e_F_2
#define T_d_2 T_UP_ONE_OCTAVE (T_d_1)
#define T_d_F_2 T_c_S_2
#define T_c_S_2 T_UP_ONE_OCTAVE (T_c_S_1)
#define T_c_2 T_UP_ONE_OCTAVE (T_c_1)
#define T_b_1 T_UP_ONE_HALF (T_b_F_1)
#define T_b_F_1 T_UP_ONE_HALF (T_a_1)
#define T_a_S_1 T_b_F_1
#define T_a_1 ((short) (440))
#define T_a_F_1 T_DOWN_ONE_HALF (T_a_1)
#define T_g_S_1 T_a_F_1
#define T_g_1 T_DOWN_ONE_HALF (T_a_F_1)
#define T_g_F_1 T_f_S_1
#define T_f_S_1 T_DOWN_ONE_HALF (T_g_1)
#define T_f_1 T_DOWN_ONE_HALF (T_f_S_1)
#define T_e_1 T_DOWN_ONE_HALF (T_f_1)
#define T_e_F_1 T_DOWN_ONE_HALF (T_e_1)
#define T_d_S_1 T_e_F_1
#define T_d_1 T_DOWN_ONE_HALF (T_e_F_1)
#define T_d_F_1 T_c_S_1
#define T_c_S_1 T_DOWN_ONE_HALF (T_d_1)
#define T_c_1 T_DOWN_ONE_HALF (T_c_S_1)
#define T_b T_DOWN_ONE_OCTAVE (T_b_1)
#define T_b_F T_DOWN_ONE_OCTAVE (T_b_F_1)
#define T_a_S T_b_F
#define T_a T_DOWN_ONE_OCTAVE (T_a_1)
#define T_a_F T_DOWN_ONE_OCTAVE (T_a_F_1)
#define T_g_S T_a_F
#define T_g T_DOWN_ONE_OCTAVE (T_g_1)
#define T_g_F T_f_S
#define T_f_S T_DOWN_ONE_OCTAVE (T_f_S_1)
#define T_f T_DOWN_ONE_OCTAVE (T_f_1)
#define T_e T_DOWN_ONE_OCTAVE (T_e_1)
#define T_e_F T_DOWN_ONE_OCTAVE (T_e_F_1)
#define T_d_S T_e_F
#define T_d T_DOWN_ONE_OCTAVE (T_d_1)
#define T_d_F T_c_S
#define T_c_S T_DOWN_ONE_OCTAVE (T_c_S_1)
#define T_c T_DOWN_ONE_OCTAVE (T_c_1)
struct note
{
short pitch;
short duration;
};
struct melody
{
int measure;
struct note *next;
struct note note[];
};
static struct melody beep1 =
{ 160, NULL, {
/* The classical bell. */
{ T_a_1, 4 }, { T_FINE, 0 }
} };
static struct melody beep2 =
{ 60, NULL, {
/* The Linux bell. */
{ 750, 1 }, { T_FINE, 0 }
} };
static struct melody beep3 =
{ 160, NULL, {
/* The tritonus. Quite alarming. */
{ T_f_2, 2 }, { T_b_1, 4 }, { T_FINE, 0 }
} };
static struct melody beep4 =
{ 160, NULL, {
/* C-Major chord. A bit playful. */
{ T_c_2, 2 }, { T_e_2, 2 }, { T_g_2, 2 },
{ T_FINE, 0 }
} };
static struct melody *beep[] = { &beep1, &beep2, &beep3, &beep4 };
static int active_beep;
#if QUAERENDO_INVENIETIS
struct melody tune1 =
{ 160, NULL, {
/* The Free Software Song. Measure: 7/4. */
{ T_d_2, 16 }, { T_c_2, 8 }, { T_b_1, 16 }, { T_a_1, 16 },
{ T_b_1, 16 }, { T_c_2, 8 }, { T_b_1, 8 }, { T_a_1, 8 }, { T_g_1, 16 },
{ T_g_1, 24 }, { T_a_1, 24 }, { T_b_1, 8 },
{ T_c_2, 24 }, { T_b_1, 14 }, { T_REST, 2 }, { T_b_1, 8 }, { T_d_2, 8 },
{ T_a_1, 22 }, { T_REST, 2 }, { T_a_1, 32 },
{ T_c_2, 16 }, { T_d_2, 8 }, { T_c_2, 16 }, { T_b_1, 24 },
{ T_d_2, 16 }, { T_c_2, 8 }, { T_b_1, 16 }, { T_a_1, 16 },
{ T_b_1, 16 }, { T_c_2, 8 }, { T_b_1, 8 }, { T_a_1, 8 }, { T_g_1, 16 },
{ T_g_1, 24 }, { T_a_1, 24 }, { T_b_1, 8 },
{ T_c_2, 24 }, { T_b_1, 14 }, { T_REST, 2 }, { T_b_1, 8 }, { T_d_2, 8 },
{ T_a_1, 22 }, { T_REST, 2 }, { T_a_1, 30 }, { T_REST, 2 },
{ T_a_1, 56 }, { T_FINE, 0 }
} };
struct melody tune2 =
{ 160, NULL, {
/* I feel pretty. Measure: 3/4. By Leonard Bernstein. */
{ T_c_1, 8 }, { T_e_1, 8 },
{ T_f_1, 4 }, { T_a_1, 20 },
{ T_REST, 8 }, { T_c_1, 8 }, { T_e_1, 8 },
{ T_f_1, 4 }, { T_a_1, 20 },
{ T_REST, 8 }, { T_c_1, 8 }, { T_e_1, 8 },
{ T_f_1, 4 }, { T_a_1, 12 }, { T_e_1, 8 },
{ T_f_1, 4 }, { T_a_1, 12 }, { T_f_1, 8 },
{ T_c_2, 32 },
{ T_b_F_1,8 }, { T_a_1, 8 },
{ T_g_1, 4 }, { T_f_1, 20 },
{ T_REST, 8 }, { T_g_1, 8 }, { T_a_1, 8 },
{ T_b_F_1,12}, { T_a_1, 4 }, { T_g_1, 4 }, { T_f_1, 4 },
{ T_e_1, 16 }, { T_d_1, 3 }, { T_e_1, 2 }, { T_d_1, 3 },
{ T_c_1, 56 }, { T_FINE, 0 }
} };
struct melody tune3 =
{ 120, NULL, {
/* Summertime. Measure: 4/4. By George & Ira Gershwin. */
{ T_b_1, 8 }, { T_g_1, 8 },
{ T_b_1, 36 }, { T_REST, 4 }, { T_a_1, 6 }, { T_g_1, 2 },
{ T_a_1, 6 }, { T_b_1, 2 }, { T_g_1, 8 },
{ T_e_1, 16 }, { T_b, 24 }, { T_REST, 8 },
{ T_b_1, 8 }, { T_g_1, 8 },
{ T_a_1, 3 }, { T_REST, 1 }, { T_a_1, 28 },
{ T_REST, 8 }, { T_g_1, 6 }, { T_e_1, 2 },
{ T_g_1, 6 }, { T_e_1, 2 }, { T_g_1, 8 },
{ T_f_S_1,48}, { T_REST, 4 }, { T_b_1, 8 }, { T_g_1, 4 },
{ T_b_1, 3 }, { T_REST, 1 }, { T_b_1, 7 }, { T_REST, 1 }, { T_b_1, 20 },
{ T_REST, 8 }, { T_a_1, 6 }, { T_g_1, 2 },
{ T_a_1, 6 }, { T_b_1, 2 }, { T_g_1, 8 },
{ T_e_1, 16 }, { T_b, 32 }, { T_REST, 8 },
{ T_b, 8 }, { T_d_1, 8 }, { T_b, 4 },
{ T_d_1, 4 }, { T_e_1, 8 }, { T_g_1, 8 },
/* Keen attempt at a glissando. */
{ T_b_1, 2 }, { T_b_1 + (T_b_1 - T_a_1) / 3, 1 },
{ T_b_1 + 2 * (T_b_1 - T_a_1) / 3, 1 },
{ T_a_1, 12 }, { T_g_1, 15 }, { T_REST, 1 },
{ T_g_1, 4 }, { T_e_1, 68 },
{ T_FINE, 0 }
} };
struct melody tune4 =
{ 250, NULL, {
/* Indiana Jones Theme. Measure: 4/4. By John Williams. */
{ T_e_1, 4 }, { T_REST, 8 }, { T_f_1, 4 },
{ T_g_1, 4 }, { T_REST, 4 }, { T_c_2, 24 },
{ T_REST, 16 }, { T_d_1, 4 }, { T_REST, 8 }, { T_e_1, 4 },
{ T_f_1, 32 },
{ T_REST, 16 }, { T_g_1, 4 }, { T_REST, 8 }, { T_a_1, 4 },
{ T_b_1, 4 }, { T_REST, 4 }, { T_f_2, 24 },
{ T_REST, 16 }, { T_a_1, 4 }, { T_REST, 8 }, { T_b_1, 4 },
{ T_c_2, 8 }, { T_REST, 8 }, { T_d_2, 12 }, { T_REST, 4 },
{ T_e_2, 8 }, { T_REST, 8 },
{ T_e_1, 4 }, { T_REST, 8 }, { T_f_1, 4 },
{ T_g_1, 4 }, { T_REST, 4 }, { T_c_2, 24 },
{ T_REST, 16 }, { T_d_2, 4 }, { T_REST, 8 }, { T_e_2, 4 },
{ T_f_2, 32 },
{ T_REST, 16 }, { T_g_1, 4 }, { T_REST, 8 }, { T_g_1, 4 },
{ T_e_2, 16 }, { T_d_2, 4 }, { T_REST, 8 }, { T_g_1, 4 },
{ T_e_2, 16 }, { T_d_2, 4 }, { T_REST, 8 }, { T_g_1, 4 },
{ T_f_2, 16 }, { T_e_2, 4 }, { T_REST, 8 }, { T_d_2, 4 },
{ T_c_2, 32 }, { T_FINE, 0 }
} };
struct melody *tune[] = { &tune1, &tune2, &tune3, &tune4 };
#endif /* QUAERENDO_INVENIETIS */
static void
beep_off (void)
{
unsigned char status;
status = inb (SPEAKER) & ~(SPEAKER_TMR2 | SPEAKER_DATA);
outb (status, SPEAKER);
}
static void
beep_on (short pitch)
{
unsigned char status;
unsigned int counter;
if (pitch < 20)
pitch = 20;
else if (pitch > 32767)
pitch = 32767;
counter = PIT_FREQUENCY / pitch;
/* Program timer 2. */
outb (PIT_CTRL_SELECT_2 | PIT_CTRL_READLOAD_WORD
| PIT_CTRL_SQUAREWAVE_GEN | PIT_CTRL_COUNT_BINARY, PIT_CTRL);
outb (counter & 0xff, PIT_COUNTER_2); /* LSB */
outb ((counter >> 8) & 0xff, PIT_COUNTER_2); /* MSB */
/* Start speaker. */
status = inb (SPEAKER) | SPEAKER_TMR2 | SPEAKER_DATA;
outb (status, SPEAKER);
}
static int
next_note (void *handle)
{
struct melody *melody = handle;
switch (melody->next->pitch)
{
case T_FINE:
beep_off ();
return 0;
case T_REST:
beep_off ();
break;
default:
beep_on (melody->next->pitch);
break;
}
generic_speaker_timer.expires
+= (60 * HZ * melody->next->duration / (8 * melody->measure));
melody->next++;
return 1;
}
/* Initialization of the generic speaker driver. */
static error_t
generic_speaker_init (void **handle, int no_exit,
int argc, char *argv[], int *next)
{
timer_clear (&generic_speaker_timer);
generic_speaker_timer.fnc = &next_note;
return 0;
}
/* Start the driver. */
static error_t
generic_speaker_start (void *handle)
{
error_t err;
#if OSKIT_MACH
if (ioperm (SPEAKER, 1, 1) < 0)
return errno;
if (ioperm (PIT_COUNTER_2, PIT_CTRL - PIT_COUNTER_2 + 1, 1) < 0)
return errno;
#endif
beep_off ();
err = driver_add_bell (&generic_speaker_ops, NULL);
/* XXX We can not disable the I/O ports on error as there might be
concurrent users of it. */
return err;
}
/* Deinitialization of the generic speaker driver. */
static error_t
generic_speaker_fini (void *handle, int force)
{
driver_remove_bell (&generic_speaker_ops, NULL);
/* XXX We can not disable the I/O ports as there might be concurrent
users of it. */
if (timer_remove (&generic_speaker_timer))
beep_off ();
return 0;
}
/* Beep! */
static error_t
generic_speaker_beep (void *handle)
{
if (timer_remove (&generic_speaker_timer))
beep_off ();
generic_speaker_timer.fnc_data = beep[active_beep];
beep[0]->next = &beep[active_beep]->note[1];
beep_on (beep[active_beep]->note[0].pitch);
generic_speaker_timer.expires = fetch_jiffies ()
+ (60 * HZ * beep[active_beep]->note[0].duration
/ (8 * beep[active_beep]->measure));
timer_add (&generic_speaker_timer);
return 0;
}
#if QUAERENDO_INVENIETIS
static void
generic_speaker_play_melody (void *handle, int key)
{
if (key < 0 || key >= sizeof (tune) / sizeof (tune[0]))
return;
if (timer_remove (&generic_speaker_timer))
beep_off ();
generic_speaker_timer.fnc_data = tune[key];
tune[key]->next = &tune[key]->note[1];
beep_on (tune[key]->note[0].pitch);
generic_speaker_timer.expires = fetch_jiffies ()
+ (60 * HZ * tune[key]->note[0].duration / (8 * tune[key]->measure));
timer_add (&generic_speaker_timer);
return;
}
#endif /* QUAERENDO_INVENIETIS */
struct driver_ops driver_generic_speaker_ops =
{
generic_speaker_init,
generic_speaker_start,
generic_speaker_fini
};
static struct bell_ops generic_speaker_ops =
{
generic_speaker_beep,
#if QUAERENDO_INVENIETIS
generic_speaker_play_melody
#else
NULL
#endif
};
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