[ursary.git] / ursaryd.c

/*
 *      The Ursary Audio Controls
 *
 *      (c) 2014 Martin Mares <mj@ucw.cz>
 */

#define LOCAL_DEBUG

#include <ucw/lib.h>
#include <ucw/clists.h>
#include <ucw/mainloop.h>
#include <ucw/stkstring.h>

#include <stdio.h>
#include <string.h>
#include <stdlib.h>

#include "ursaryd.h"

/*** Sink controls ***/

static double volume_from_pa(pa_volume_t vol)
{
  return (double) vol / PA_VOLUME_NORM;
}

static pa_volume_t volume_to_pa(double vol)
{
  return vol * PA_VOLUME_NORM + 0.0001;
}

static void update_ring_from_sink(int ring, const char *sink_name)
{
  struct pulse_sink *s = pulse_sink_by_name(sink_name);
  if (!s)
    {
      noct_set_ring(ring, RING_MODE_SINGLE_ON, 0x7f);
      noct_set_button(ring, 0);
      return;
    }

  if (s->mute)
    {
      noct_set_ring(ring, RING_MODE_SINGLE_ON, 0x7f);
      noct_set_button(ring, 1);
      return;
    }

  double vol = CLAMP(volume_from_pa(s->volume), 0, 1);
  noct_set_ring(ring, RING_MODE_LEFT, CLAMP((int)(0x7f * vol), 12, 0x7f));
  noct_set_button(ring, 0);
}

static void update_sink_from_rotary(int delta, const char *sink_name)
{
  struct pulse_sink *s = pulse_sink_by_name(sink_name);
  if (!s)
    return;

  double vol = volume_from_pa(s->volume) + delta * 0.02;
  pa_volume_t pavol = volume_to_pa(CLAMP(vol, 0, 1));
  if (pavol == s->volume)
    return;
  pa_cvolume cvol;
  pa_cvolume_set(&cvol, s->channels, pavol);

  DBG("## Setting volume of sink %s to %d", s->name, cvol.values[0]);
  pulse_sink_set_volume(s->idx, &cvol);
}

static void update_sink_mute_from_button(int on, const char *sink_name)
{
  if (!on)
    return;

  struct pulse_sink *s = pulse_sink_by_name(sink_name);
  if (!s)
    return;

  DBG("## Setting mute of sink %s to %d", s->name, !s->mute);
  pulse_sink_set_mute(s->idx, !s->mute);
}

/*** Client controls ***/

struct client_map {
  int rotary;
  const char *client;
  const char *host;
  double range;
};

static struct client_map client_map[] = {
  { 4, "Music Player Daemon",   "albireo",      1 },
  { 5, "MPlayer",               NULL,           1 },
  { 6, NULL,                    "ogion",        1 },
  { 7, NULL,                    "ursula",       1 },
};

#define NUM_CLIENTS ARRAY_SIZE(client_map)

struct client_state {
  double volume;
  bool have_muted[2];
};

static struct client_state client_state[NUM_CLIENTS];

static int find_client_by_rotary(int rotary)
{
  uns i;
  for (i=0; i < NUM_CLIENTS; i++)
    if (client_map[i].rotary == rotary)
      return i;
  return -1;
}

static void calc_clients(void)
{
  bzero(client_state, sizeof(client_state));

  CLIST_FOR_EACH(struct pulse_sink_input *, s, pulse_sink_input_list)
    {
      s->noct_client_idx = -1;

      if (s->client_idx < 0 || s->sink_idx < 0)
        continue;

      struct pulse_client *c = pulse_client_by_idx(s->client_idx);
      if (!c)
        continue;

      for (uns i=0; i < NUM_CLIENTS; i++)
        {
          struct client_map *cm = &client_map[i];
          struct client_state *cs = &client_state[i];
          if ((!cm->client || !strcmp(cm->client, c->name)) &&
              (!cm->host || !strcmp(cm->host, c->host)))
            {
              // DBG("@@ Client #%d, sink input #%d -> rotary %d", s->client_idx, s->idx, cm->rotary);
              s->noct_client_idx = i;
              cs->volume = MAX(cs->volume, s->volume);
              cs->have_muted[!!s->mute] = 1;
              break;
            }
        }
    }
}

static void update_clients(void)
{
  calc_clients();

  for (uns i=0; i < NUM_CLIENTS; i++)
    {
      struct client_map *cm = &client_map[i];
      struct client_state *cs = &client_state[i];
      if (!cs->have_muted[0] && !cs->have_muted[1])
        {
          noct_set_ring(cm->rotary, RING_MODE_LEFT, 0);
          noct_set_button(cm->rotary, 0);
        }
      else if (!cs->have_muted[0])
        {
          noct_set_ring(cm->rotary, RING_MODE_SINGLE_ON, 0x7f);
          noct_set_button(cm->rotary, 1);
        }
      else
        {
          double vol = CLAMP(volume_from_pa(cs->volume), 0, cm->range);
          int val = 0x7f * vol / cm->range;
          val = CLAMP(val, 12, 0x7f);
          noct_set_ring(cm->rotary, RING_MODE_LEFT, val);
          noct_set_button(cm->rotary, 0);
        }
    }
}

static void update_client_from_rotary(int rotary, int delta)
{
  int i = find_client_by_rotary(rotary);
  if (i < 0)
    return;
  struct client_map *cm = &client_map[i];
  struct client_state *cs = &client_state[i];

  calc_clients();
  double vol = volume_from_pa(cs->volume) + delta*0.02;
  pa_volume_t pavol = volume_to_pa(CLAMP(vol, 0, cm->range));

  CLIST_FOR_EACH(struct pulse_sink_input *, s, pulse_sink_input_list)
    {
      if (s->noct_client_idx == i && s->volume != pavol)
        {
          DBG("@@ Client #%d, sink input #%d: setting volume=%u", s->client_idx, s->idx, pavol);
          pa_cvolume cvol;
          pa_cvolume_set(&cvol, s->channels, pavol);
          pulse_sink_input_set_volume(s->idx, &cvol);
        }
    }
}

static void update_client_from_button(int button, int on)
{
  if (button >= 8 || !on)
    return;

  int i = find_client_by_rotary(button);
  if (i < 0)
    return;
  struct client_state *cs = &client_state[i];

  calc_clients();
  if (!cs->have_muted[0] && !cs->have_muted[1])
    return;
  uns mute = !cs->have_muted[1];

  CLIST_FOR_EACH(struct pulse_sink_input *, s, pulse_sink_input_list)
    {
      if (s->noct_client_idx == i)
        {
          DBG("@@ Client #%d, sink input #%d: setting mute=%u", s->client_idx, s->idx, mute);
          pulse_sink_input_set_mute(s->idx, mute);
        }
    }
}

/*** Main update routines ***/

static struct main_timer update_timer;

static void do_update(struct main_timer *t)
{
  timer_del(t);
  if (!noct_is_ready())
    {
      DBG("## UPDATE: Nocturn is not ready");
      return;
    }

  static bool dead;
  if (pulse_state != PS_ONLINE)
    {
      DBG("## UPDATE: Pulse is not online");
      for (int i=0; i<=8; i++)
        noct_set_ring(i, RING_MODE_LEFT, 0);
      for (int i=0; i<8; i++)
        {
          noct_set_button(i, 1);
          noct_set_button(i+8, 0);
        }
      dead = 1;
      return;
    }
  if (dead)
    {
      DBG("## UPDATE: Waking up from the dead");
      for (int i=0; i<=8; i++)
        noct_set_ring(i, RING_MODE_LEFT, 0);
      for (int i=0; i<16; i++)
        noct_set_button(i, 0);
      dead = 0;
    }

  DBG("## UPDATE");
  pulse_dump();

  update_ring_from_sink(0, "ursarium");
  update_ring_from_sink(1, "catarium");
  update_clients();
}

void schedule_update(void)
{
  timer_add_rel(&update_timer, 10);
}

void notify_rotary(int rotary, int delta)
{
  if (pulse_state != PS_ONLINE)
    {
      DBG("## NOTIFY: Pulse is not online");
      return;
    }

  switch (rotary)
    {
    case 0:
      update_sink_from_rotary(delta, "ursarium");
      break;
    case 1:
      update_sink_from_rotary(delta, "catarium");
      break;
    case 8:
      update_sink_from_rotary(delta, "ursarium");
      update_sink_from_rotary(delta, "catarium");
      break;
    default:
      update_client_from_rotary(rotary, delta);
    }
}

void notify_button(int button, int on)
{
  if (pulse_state != PS_ONLINE)
    {
      DBG("## NOTIFY: Pulse is not online");
      return;
    }

  switch (button)
    {
    case 0:
      update_sink_mute_from_button(on, "ursarium");
      break;
    case 1:
      update_sink_mute_from_button(on, "catarium");
      break;
    default:
      update_client_from_button(button, on);
    }
}

/*** Main entry point ***/

int main(int argc UNUSED, char **argv)
{
  log_init(argv[0]);
  main_init();
  update_timer.handler = do_update;

  noct_init();
  pulse_init();

  msg(L_DEBUG, "Entering main loop");
  main_loop();

  return 0;
}