2014-04-29 06:35:57 +00:00
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/*
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* This file is subject to the terms of the GFX License. If a copy of
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* the license was not distributed with this file, you can obtain one at:
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*
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* http://ugfx.org/license.html
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*/
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#include "gfx.h"
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#if GFX_USE_GAUDIO && GAUDIO_NEED_PLAY
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/* Include the driver defines */
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#include "src/gaudio/driver_play.h"
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/* Include the vs1053 registers */
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#include "drivers/gaudio/vs1053/vs1053.h"
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/* Include the board interface */
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#include "gaudio_play_board.h"
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// Override-able parameters
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#ifndef VS1053_CLK
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#define VS1053_CLK 12288000
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#endif
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#ifndef VS1053_FIRMWARE_PATCH
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#define VS1053_FIRMWARE_PATCH FALSE
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#endif
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// Load the patch file if desired. New format patches only.
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#if VS1053_FIRMWARE_PATCH
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#define SKIP_PLUGIN_VARNAME
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static const uint16_t plugin[] = { /* Compressed plugin */
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#include "vs1053_patch.plg"
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};
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#endif
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// Set various stuff based on the clock
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#if VS1053_CLK >= 16192000
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#define SCI_MODE_STARTUP (SCI_MODE_DEFAULTS|SM_CLK_RANGE)
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#define VS1053_CLKI (VS1053_CLK/2)
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#else
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#define SCI_MODE_STARTUP (SCI_MODE_DEFAULTS)
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#define VS1053_CLKI (VS1053_CLK)
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#endif
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#if VS1053_CLKI > 13000000 || VS1053_CLKI < 12000000
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#error "GAUDIO(vs1053): VS1053_CLK is out of range"
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#endif
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#if VS1053_CLKI == 12288000
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#define SC_FREQ_ADJUST 0x0000
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#else
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#define SC_FREQ_ADJUST ((VS1053_CLKI-8000000)/4000)
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#endif
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#define VS1053_MAX_SAMPLE_RATE (VS1053_CLKI/256)
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#if VS1053_CLKI > 1228800
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#define SC_CLOCK_MODE (SC_MULT_3|SC_ADD_1|SC_FREQ_ADJUST)
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#else
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#define SC_CLOCK_MODE (SC_MULT_3_5|SC_ADD_1|SC_FREQ_ADJUST)
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#endif
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// Our static variables
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static bool_t vs1053_isinit;
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static GTimer playTimer;
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// Some common macro's
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#define waitforready() while(!board_dreq()) gfxSleepMilliseconds(5)
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static void cmd_write(uint16_t addr, uint16_t data) {
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char buf[4];
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buf[0] = 2;
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buf[1] = (char)addr;
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buf[2] = (char)(data >> 8);
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buf[3] = (char)data;
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waitforready();
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board_startcmdwrite();
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board_spiwrite(buf, 4);
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board_endcmdwrite();
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}
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#if VS1053_CLK > 12288000
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static inline void cmd_writenodreq(uint16_t addr, uint16_t data) {
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uint8_t buf[4];
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// This is the same as cmd_write() except for it doesn't wait for dreq first
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buf[0] = 2;
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buf[1] = (uint8_t)addr;
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buf[2] = (uint8_t)(data >> 8);
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buf[3] = (uint8_t)data;
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board_startcmdwrite();
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board_spiwrite(buf, 4);
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board_endcmdwrite();
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}
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#endif
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static uint16_t cmd_read(uint16_t addr) {
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uint8_t buf[2];
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buf[0] = 3;
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buf[1] = (char)addr;
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board_startcmdread();
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board_spiwrite(buf, 2);
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board_spiread(buf, 2);
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board_endcmdread();
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return (((uint16_t)buf[0])<<8)|buf[1];
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}
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static void data_write(const uint8_t *data, unsigned len) {
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board_startdatawrite();
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board_spiwrite(data, len);
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board_enddatawrite();
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}
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#if VS1053_FIRMWARE_PATCH
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static void LoadUserCode(void) {
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int i;
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uint16_t addr, n, val;
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for(i=0; i<sizeof(plugin)/sizeof(plugin[0]);) {
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addr = plugin[i++];
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n = plugin[i++];
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if (n & 0x8000U) { /* RLE run, replicate n samples */
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n &= 0x7FFF;
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val = plugin[i++];
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while (n--)
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cmd_write(addr, val);
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} else { /* Copy run, copy n samples */
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while (n--)
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cmd_write(addr, plugin[i++]);
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}
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}
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}
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#endif
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static void vs1053_hard_reset(void) {
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gtimerInit(&playTimer);
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board_init();
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board_reset();
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#if VS1053_CLK > 12288000
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cmd_writenodreq(SCI_MODE, SCI_MODE_STARTUP); // Set super-clock before dreq
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#endif
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// Set up registers
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cmd_write(SCI_MODE, SCI_MODE_STARTUP); // Set mode
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cmd_write(SCI_CLOCKF, SC_CLOCK_MODE); // Set clocks
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board_init_end(); // Clocks are now set up
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cmd_write(SCI_BASS, 0x0000); // No treble or bass boost
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cmd_write(SCI_VOL, VOL_MAX); // Maximum volume
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// Load any firmware
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#if VS1053_FIRMWARE_PATCH
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LoadUserCode();
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// Reset mode just in case
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cmd_write(SCI_MODE, SCI_MODE_STARTUP);
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#endif
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}
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static void vs1053_soft_reset(void) {
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cmd_write(SCI_MODE, cmd_read(SCI_MODE)|SM_RESET);
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gfxSleepMilliseconds(1); // Wait for at least 2uS
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waitforready();
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// Reload any firmware
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#if VS1053_FIRMWARE_PATCH
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LoadUserCode();
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// Reset mode just in case
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cmd_write(SCI_MODE, SCI_MODE_STARTUP);
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#endif
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}
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static uint16_t vs1053_getendbyte(void) {
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cmd_write(SCI_WRAMADDR, WRAMADDR_EXTRAPARAMS+4);
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return cmd_read(SCI_WRAM);
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}
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static GTimer playTimer;
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static GDataBuffer *pplay;
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static size_t playlen;
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static uint8_t *pdata;
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static void FeedData(void *param) {
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unsigned len;
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(void) param;
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// While there is data space
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2014-04-30 12:57:15 +00:00
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while (board_dreq()) {
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2014-04-29 06:35:57 +00:00
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// Send up to 32 bytes
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len = playlen;
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if (len > 32) len = 32;
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data_write(pdata, len);
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pdata += len;
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playlen -= len;
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// Have we finished the buffer
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while (!playlen) {
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gfxSystemLock();
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gaudioPlayReleaseDataBlockI(pplay);
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// Get a new data buffer
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if (!(pplay = gaudioPlayGetDataBlockI())) {
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// We should really only do the play-done when the audio
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// has really finished playing. Unfortunately there seems
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// to be no documented way of determining this.
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gaudioPlayDoneI();
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gfxSystemUnlock();
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gtimerStop(&playTimer);
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return;
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}
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// Set up ready for the new buffer
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playlen = pplay->len;
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pdata = (uint8_t *)(pplay+1);
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gfxSystemUnlock();
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}
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}
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}
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/*===========================================================================*/
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/* External declarations. */
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/*===========================================================================*/
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bool_t gaudio_play_lld_init(uint16_t channel, uint32_t frequency, ArrayDataFormat format) {
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uint32_t brate;
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uint32_t bps;
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uint8_t buf[4];
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static const uint8_t hdr1[] = {
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'R', 'I', 'F', 'F',
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0xFF, 0xFF, 0xFF, 0xFF,
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'W', 'A', 'V', 'E',
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'f', 'm', 't', ' ',
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16, 0, 0, 0,
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0x01, 0x00,
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};
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static const uint8_t hdr2[] = {
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'd', 'a', 't', 'a',
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0xFF, 0xFF, 0xFF, 0xFF,
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};
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if (format != ARRAY_DATA_8BITUNSIGNED && format != ARRAY_DATA_16BITSIGNED)
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return FALSE;
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if (frequency > VS1053_MAX_SAMPLE_RATE)
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return FALSE;
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// Reset the chip if needed
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if (!vs1053_isinit) {
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vs1053_hard_reset();
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vs1053_isinit = TRUE;
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}
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// Setup
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bps = (gfxSampleFormatBits(format)+7)/8;
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if (channel == GAUDIO_PLAY_STEREO)
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bps *= 2;
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brate = frequency * bps;
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// Write the RIFF header
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waitforready();
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data_write(hdr1, sizeof(hdr1));
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buf[0] = channel == GAUDIO_PLAY_STEREO ? 2 : 1; buf[1] = 0; data_write(buf, 2);
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buf[0] = frequency; buf[1] = frequency>>8; buf[2] = frequency>>16; buf[3] = frequency>>24; data_write(buf, 4);
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buf[0] = brate; buf[1] = brate>>8; buf[2] = brate>>16; buf[3] = brate>>24; data_write(buf, 4);
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waitforready(); // 32 bytes max before checking
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buf[0] = bps; buf[1] = 0; data_write(buf, 2);
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buf[0] = gfxSampleFormatBits(format); buf[1] = 0; data_write(buf, 2);
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data_write(hdr2, sizeof(hdr2));
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return TRUE;
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}
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bool_t gaudio_play_lld_set_volume(uint8_t vol) {
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// Volume is 0xFE -> 0x00. Adjust vol to match
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vol = ~vol;
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if (vol == 0xFF) vol = 0xFE;
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cmd_write(SCI_VOL, ((uint16_t)vol) << 8 | vol);
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return TRUE;
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}
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void gaudio_play_lld_start(void) {
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gfxSystemLock();
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// Get a new data buffer
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if (pplay || !(pplay = gaudioPlayGetDataBlockI())) {
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gfxSystemUnlock(); // Nothing to do
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return;
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}
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// Set up ready for the new buffer
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playlen = pplay->len;
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pdata = (uint8_t *)(pplay+1);
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gfxSystemUnlock();
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// Start the playing by starting the timer and executing FeedData immediately just to get things started
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// We really should set the timer to be equivalent to half the available data but that is just too hard to calculate.
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gtimerStart(&playTimer, FeedData, 0, TRUE, 5);
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FeedData(0);
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}
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void gaudio_play_lld_stop(void) {
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uint8_t ch;
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unsigned i;
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// Stop the timer interrupt
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gtimerStop(&playTimer);
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// We may need to clean up the remaining buffer.
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gfxSystemLock();
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if (pplay) {
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gaudioPlayReleaseDataBlockI(pplay);
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pplay = 0;
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gaudioPlayDoneI();
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}
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gfxSystemUnlock();
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// Set CANCEL
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cmd_write(SCI_MODE, cmd_read(SCI_MODE)|SM_CANCEL);
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// Write up to 2048 bytes of data
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ch = 0;
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for(i = 0; i < 2048; i++) {
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if (!(i & 0x1F)) {
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waitforready();
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if (!(cmd_read(SCI_MODE) & SM_CANCEL))
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break;
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}
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data_write(&ch, 1);
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}
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// Make sure the cancel worked
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waitforready();
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if ((cmd_read(SCI_MODE) & SM_CANCEL))
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vs1053_soft_reset();
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// Send the terminating data
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ch = vs1053_getendbyte();
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for(i = 0; i < 2052; i++) {
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if (!(i & 0x1F))
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waitforready();
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data_write(&ch, 1);
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}
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}
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#endif /* GFX_USE_GAUDIO && GAUDIO_NEED_PLAY */
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