/* Copyright holders: Sarah Walker see COPYING for more details */ #include #include #include "ibm.h" #include "device.h" #include "io.h" #include "sound.h" #include "sound_ps1.h" #include "sound_sn76489.h" typedef struct ps1_audio_t { sn76489_t sn76489; uint8_t status, ctrl; int64_t timer_latch, timer_count, timer_enable; uint8_t fifo[2048]; int fifo_read_idx, fifo_write_idx; int fifo_threshold; uint8_t dac_val; int16_t buffer[SOUNDBUFLEN]; int pos; } ps1_audio_t; static void ps1_update_irq_status(ps1_audio_t *ps1) { if (((ps1->status & ps1->ctrl) & 0x12) && (ps1->ctrl & 0x01)) picint(1 << 7); else picintc(1 << 7); } static uint8_t ps1_audio_read(uint16_t port, void *p) { ps1_audio_t *ps1 = (ps1_audio_t *)p; uint8_t temp; // pclog("ps1_audio_read %04x %04x:%04x\n", port, CS, pc); switch (port & 7) { case 0: /*ADC data*/ ps1->status &= ~0x10; ps1_update_irq_status(ps1); return 0; case 2: /*Status*/ temp = ps1->status; temp |= (ps1->ctrl & 0x01); if ((ps1->fifo_write_idx - ps1->fifo_read_idx) >= 2048) temp |= 0x08; /*FIFO full*/ if (ps1->fifo_read_idx == ps1->fifo_write_idx) temp |= 0x04; /*FIFO empty*/ // pclog("Return status %02x\n", temp); return temp; case 3: /*FIFO timer*/ /*PS/1 technical reference says this should return the current value, but the PS/1 BIOS and Stunt Island expect it not to change*/ return ps1->timer_latch; case 4: case 5: case 6: case 7: return 0; } return 0xff; } static void ps1_audio_write(uint16_t port, uint8_t val, void *p) { ps1_audio_t *ps1 = (ps1_audio_t *)p; // pclog("ps1_audio_write %04x %02x\n", port, val); switch (port & 7) { case 0: /*DAC output*/ // pclog("DAC write %08x %08x %i\n", ps1->fifo_write_idx, ps1->fifo_read_idx, ps1->fifo_write_idx - ps1->fifo_read_idx); if ((ps1->fifo_write_idx - ps1->fifo_read_idx) < 2048) { ps1->fifo[ps1->fifo_write_idx & 2047] = val; ps1->fifo_write_idx++; } break; case 2: /*Control*/ ps1->ctrl = val; if (!(val & 0x02)) ps1->status &= ~0x02; ps1_update_irq_status(ps1); break; case 3: /*Timer reload value*/ ps1->timer_latch = val; ps1->timer_count = (0xff-val) * TIMER_USEC; ps1->timer_enable = (val != 0); break; case 4: /*Almost empty*/ ps1->fifo_threshold = val * 4; break; } } static void ps1_audio_update(ps1_audio_t *ps1) { for (; ps1->pos < sound_pos_global; ps1->pos++) ps1->buffer[ps1->pos] = (int8_t)(ps1->dac_val ^ 0x80) * 0x20; } static void ps1_audio_callback(void *p) { ps1_audio_t *ps1 = (ps1_audio_t *)p; ps1_audio_update(ps1); if (ps1->fifo_read_idx != ps1->fifo_write_idx) { ps1->dac_val = ps1->fifo[ps1->fifo_read_idx & 2047]; ps1->fifo_read_idx++; } // pclog("ps1_callback %08x %08x %08x\n", ps1->fifo_write_idx, ps1->fifo_read_idx, ps1->fifo_threshold); if ((ps1->fifo_write_idx - ps1->fifo_read_idx) == ps1->fifo_threshold) { // pclog("FIFO almost empty\n"); ps1->status |= 0x02; /*FIFO almost empty*/ } ps1->status |= 0x10; /*ADC data ready*/ ps1_update_irq_status(ps1); ps1->timer_count += ps1->timer_latch * TIMER_USEC; } static void ps1_audio_get_buffer(int32_t *buffer, int len, void *p) { ps1_audio_t *ps1 = (ps1_audio_t *)p; int c; ps1_audio_update(ps1); for (c = 0; c < len * 2; c++) buffer[c] += ps1->buffer[c >> 1]; ps1->pos = 0; } static void *ps1_audio_init() { ps1_audio_t *ps1 = malloc(sizeof(ps1_audio_t)); memset(ps1, 0, sizeof(ps1_audio_t)); sn76489_init(&ps1->sn76489, 0x0205, 0x0001, SN76496, 4000000); io_sethandler(0x0200, 0x0001, ps1_audio_read, NULL, NULL, ps1_audio_write, NULL, NULL, ps1); io_sethandler(0x0202, 0x0006, ps1_audio_read, NULL, NULL, ps1_audio_write, NULL, NULL, ps1); timer_add(ps1_audio_callback, &ps1->timer_count, &ps1->timer_enable, ps1); sound_add_handler(ps1_audio_get_buffer, ps1); return ps1; } static void ps1_audio_close(void *p) { ps1_audio_t *ps1 = (ps1_audio_t *)p; free(ps1); } device_t ps1_audio_device = { "PS/1 Audio Card", 0, ps1_audio_init, ps1_audio_close, NULL, NULL, NULL, NULL };