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https://github.com/qmk/qmk_firmware.git
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167 lines
5.8 KiB
C
167 lines
5.8 KiB
C
/* Copyright 2020 Jack Humbert
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* Copyright 2020 JohSchneider
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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Audio Driver: PWM
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the duty-cycle is always kept at 50%, and the pwm-period is adjusted to match the frequency of a note to be played back.
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this driver uses the chibios-PWM system to produce a square-wave on any given output pin in software
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- a pwm callback is used to set/clear the configured pin.
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*/
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#include "audio.h"
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#include "ch.h"
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#include "hal.h"
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#if !defined(AUDIO_PIN)
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# error "Audio feature enabled, but no pin selected - see docs/feature_audio under the ARM PWM settings"
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#endif
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extern bool playing_note;
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extern bool playing_melody;
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extern uint8_t note_timbre;
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static void pwm_audio_period_callback(PWMDriver *pwmp);
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static void pwm_audio_channel_interrupt_callback(PWMDriver *pwmp);
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static PWMConfig pwmCFG = {
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.frequency = 100000, /* PWM clock frequency */
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// CHIBIOS-BUG? can't set the initial period to <2, or the pwm (hard or software) takes ~130ms with .frequency=500000 for a pwmChangePeriod to take effect; with no output=silence in the meantime
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.period = 2, /* initial PWM period (in ticks) 1S (1/10kHz=0.1mS 0.1ms*10000 ticks=1S) */
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.callback = pwm_audio_period_callback,
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.channels =
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{
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// software-PWM just needs another callback on any channel
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{PWM_OUTPUT_ACTIVE_HIGH, pwm_audio_channel_interrupt_callback}, /* channel 0 -> TIMx_CH1 */
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{PWM_OUTPUT_DISABLED, NULL}, /* channel 1 -> TIMx_CH2 */
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{PWM_OUTPUT_DISABLED, NULL}, /* channel 2 -> TIMx_CH3 */
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{PWM_OUTPUT_DISABLED, NULL} /* channel 3 -> TIMx_CH4 */
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},
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};
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static float channel_1_frequency = 0.0f;
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void channel_1_set_frequency(float freq) {
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channel_1_frequency = freq;
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if (freq <= 0.0) // a pause/rest has freq=0
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return;
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pwmcnt_t period = (pwmCFG.frequency / freq);
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pwmChangePeriod(&AUDIO_PWM_DRIVER, period);
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pwmEnableChannel(&AUDIO_PWM_DRIVER, AUDIO_PWM_CHANNEL - 1,
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// adjust the duty-cycle so that the output is for 'note_timbre' duration HIGH
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PWM_PERCENTAGE_TO_WIDTH(&AUDIO_PWM_DRIVER, (100 - note_timbre) * 100));
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}
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float channel_1_get_frequency(void) {
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return channel_1_frequency;
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}
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void channel_1_start(void) {
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pwmStop(&AUDIO_PWM_DRIVER);
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pwmStart(&AUDIO_PWM_DRIVER, &pwmCFG);
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pwmEnablePeriodicNotification(&AUDIO_PWM_DRIVER);
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pwmEnableChannelNotification(&AUDIO_PWM_DRIVER, AUDIO_PWM_CHANNEL - 1);
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}
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void channel_1_stop(void) {
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pwmStop(&AUDIO_PWM_DRIVER);
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palClearLine(AUDIO_PIN); // leave the line low, after last note was played
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#if defined(AUDIO_PIN_ALT) && defined(AUDIO_PIN_ALT_AS_NEGATIVE)
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palClearLine(AUDIO_PIN_ALT); // leave the line low, after last note was played
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#endif
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}
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// generate a PWM signal on any pin, not necessarily the one connected to the timer
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static void pwm_audio_period_callback(PWMDriver *pwmp) {
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(void)pwmp;
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palClearLine(AUDIO_PIN);
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#if defined(AUDIO_PIN_ALT) && defined(AUDIO_PIN_ALT_AS_NEGATIVE)
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palSetLine(AUDIO_PIN_ALT);
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#endif
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}
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static void pwm_audio_channel_interrupt_callback(PWMDriver *pwmp) {
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(void)pwmp;
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if (channel_1_frequency > 0) {
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palSetLine(AUDIO_PIN); // generate a PWM signal on any pin, not necessarily the one connected to the timer
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#if defined(AUDIO_PIN_ALT) && defined(AUDIO_PIN_ALT_AS_NEGATIVE)
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palClearLine(AUDIO_PIN_ALT);
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#endif
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}
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}
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static void gpt_callback(GPTDriver *gptp);
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GPTConfig gptCFG = {
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/* a whole note is one beat, which is - per definition in musical_notes.h - set to 64
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the longest note is BREAVE_DOT=128+64=192, the shortest SIXTEENTH=4
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the tempo (which might vary!) is in bpm (beats per minute)
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therefore: if the timer ticks away at .frequency = (60*64)Hz,
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and the .interval counts from 64 downwards - audio_update_state is
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called just often enough to not miss anything
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*/
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.frequency = 60 * 64,
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.callback = gpt_callback,
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};
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void audio_driver_initialize(void) {
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pwmStart(&AUDIO_PWM_DRIVER, &pwmCFG);
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palSetLineMode(AUDIO_PIN, PAL_MODE_OUTPUT_PUSHPULL);
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palClearLine(AUDIO_PIN);
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#if defined(AUDIO_PIN_ALT) && defined(AUDIO_PIN_ALT_AS_NEGATIVE)
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palSetLineMode(AUDIO_PIN_ALT, PAL_MODE_OUTPUT_PUSHPULL);
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palClearLine(AUDIO_PIN_ALT);
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#endif
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pwmEnablePeriodicNotification(&AUDIO_PWM_DRIVER); // enable pwm callbacks
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pwmEnableChannelNotification(&AUDIO_PWM_DRIVER, AUDIO_PWM_CHANNEL - 1);
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gptStart(&AUDIO_STATE_TIMER, &gptCFG);
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}
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void audio_driver_start(void) {
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channel_1_stop();
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channel_1_start();
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if (playing_note || playing_melody) {
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gptStartContinuous(&AUDIO_STATE_TIMER, 64);
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}
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}
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void audio_driver_stop(void) {
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channel_1_stop();
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gptStopTimer(&AUDIO_STATE_TIMER);
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}
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/* a regular timer task, that checks the note to be currently played
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* and updates the pwm to output that frequency
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*/
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static void gpt_callback(GPTDriver *gptp) {
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float freq; // TODO: freq_alt
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if (audio_update_state()) {
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freq = audio_get_processed_frequency(0); // freq_alt would be index=1
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channel_1_set_frequency(freq);
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}
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}
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