circuitpython/ports/raspberrypi/common-hal/audiopwmio/PWMAudioOut.c

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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2019 Jeff Epler for Adafruit Industries
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "common-hal/audiopwmio/PWMAudioOut.h"
#include <stdint.h>
#include <string.h>
#include "extmod/vfs_fat.h"
#include "py/gc.h"
#include "py/mperrno.h"
#include "py/runtime.h"
#include "shared-bindings/pwmio/PWMOut.h"
#include "shared-bindings/audiopwmio/PWMAudioOut.h"
#include "shared-bindings/microcontroller/__init__.h"
#include "shared-bindings/microcontroller/Pin.h"
#include "shared-bindings/microcontroller/Processor.h"
#include "supervisor/shared/tick.h"
#include "supervisor/shared/translate.h"
#include "src/rp2040/hardware_structs/include/hardware/structs/dma.h"
#include "src/rp2_common/hardware_pwm/include/hardware/pwm.h"
#define NUM_DMA_TIMERS 4
void audiopwmout_reset() {
for (size_t i = 0; i < NUM_DMA_TIMERS; i++) {
dma_hw->timer[i] = 0;
}
}
// Caller validates that pins are free.
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void common_hal_audiopwmio_pwmaudioout_construct(audiopwmio_pwmaudioout_obj_t *self,
const mcu_pin_obj_t *left_channel, const mcu_pin_obj_t *right_channel, uint16_t quiescent_value) {
if (left_channel != NULL && right_channel != NULL) {
if (pwm_gpio_to_slice_num(left_channel->number) != pwm_gpio_to_slice_num(right_channel->number)) {
mp_raise_ValueError(translate("Pins must share PWM slice"));
}
if (pwm_gpio_to_channel(left_channel->number) != 0) {
mp_raise_ValueError(translate("Stereo left must be on PWM channel A"));
}
if (pwm_gpio_to_channel(right_channel->number) != 1) {
mp_raise_ValueError(translate("Stereo right must be on PWM channel B"));
}
}
// Typically pwmout doesn't let us change frequency with two objects on the
// same PWM slice. However, we have private access to it so we can do what
// we want. ;-) We mark ourselves variable only if we're a mono output to
// prevent other PWM use on the other channel. If stereo, we say fixed
// frequency so we can allocate with ourselves.
bool mono = right_channel == NULL;
// We don't actually know our frequency yet so just pick one that shouldn't
// match anyone else. (We'll only know the frequency once we play something
// back.)
uint32_t frequency = 12500;
// Make sure the PWMOut's are "deinited" by default.
self->left_pwm.pin = NULL;
self->right_pwm.pin = NULL;
pwmout_result_t result = common_hal_pwmio_pwmout_construct(&self->left_pwm,
left_channel, 0, frequency, mono);
if (result == PWMOUT_OK && right_channel != NULL) {
result = common_hal_pwmio_pwmout_construct(&self->right_pwm,
right_channel, 0, frequency, false);
if (result != PWMOUT_OK) {
common_hal_pwmio_pwmout_deinit(&self->left_pwm);
}
}
if (result != PWMOUT_OK) {
mp_raise_RuntimeError(translate("All timers in use"));
}
claim_pin(left_channel);
if (right_channel != NULL) {
claim_pin(right_channel);
}
audio_dma_init(&self->dma);
self->quiescent_value = quiescent_value;
}
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bool common_hal_audiopwmio_pwmaudioout_deinited(audiopwmio_pwmaudioout_obj_t *self) {
return common_hal_pwmio_pwmout_deinited(&self->left_pwm);
}
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void common_hal_audiopwmio_pwmaudioout_deinit(audiopwmio_pwmaudioout_obj_t *self) {
if (common_hal_audiopwmio_pwmaudioout_deinited(self)) {
return;
}
if (common_hal_audiopwmio_pwmaudioout_get_playing(self)) {
common_hal_audiopwmio_pwmaudioout_stop(self);
}
// TODO: ramp the pwm down from quiescent value to 0
common_hal_pwmio_pwmout_deinit(&self->left_pwm);
common_hal_pwmio_pwmout_deinit(&self->right_pwm);
audio_dma_deinit(&self->dma);
}
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void common_hal_audiopwmio_pwmaudioout_play(audiopwmio_pwmaudioout_obj_t *self, mp_obj_t sample, bool loop) {
if (common_hal_audiopwmio_pwmaudioout_get_playing(self)) {
common_hal_audiopwmio_pwmaudioout_stop(self);
}
// TODO: Share pacing timers based on frequency.
size_t pacing_timer = NUM_DMA_TIMERS;
for (size_t i = 0; i < NUM_DMA_TIMERS; i++) {
if (dma_hw->timer[i] == 0) {
pacing_timer = i;
}
break;
}
if (pacing_timer == NUM_DMA_TIMERS) {
mp_raise_RuntimeError(translate("No DMA pacing timer found"));
}
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uint32_t tx_register = (uint32_t)&pwm_hw->slice[self->left_pwm.slice].cc;
if (common_hal_pwmio_pwmout_deinited(&self->right_pwm)) {
// Shift the destination if we are outputting to the second PWM channel.
tx_register += self->left_pwm.channel * sizeof(uint16_t);
}
pwmio_pwmout_set_top(&self->left_pwm, 1023);
audio_dma_result result = audio_dma_setup_playback(
&self->dma,
sample,
loop,
false, // single channel
0, // audio channel
false, // output signed
10,
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(uint32_t)tx_register, // output register
0x3b + pacing_timer); // data request line
if (result == AUDIO_DMA_DMA_BUSY) {
// common_hal_audiobusio_i2sout_stop(self);
mp_raise_RuntimeError(translate("No DMA channel found"));
} else if (result == AUDIO_DMA_MEMORY_ERROR) {
// common_hal_audiobusio_i2sout_stop(self);
mp_raise_RuntimeError(translate("Unable to allocate buffers for signed conversion"));
}
// OK! We got all of the resources we need and dma is ready.
self->pacing_timer = pacing_timer;
// Playback with two independent clocks. One is the sample rate which
// determines when we push a new sample to the PWM slice. The second is the
// PWM frequency itself.
// Determine the DMA divisor. The RP2040 has four pacing timers we can use
// to trigger the DMA. Each has a 16 bit fractional divisor system clock * X / Y where X and Y
// are 16-bit.
uint32_t sample_rate = audiosample_sample_rate(sample);
uint32_t system_clock = common_hal_mcu_processor_get_frequency();
uint32_t best_numerator = 0;
uint32_t best_denominator = 0;
uint32_t best_error = system_clock;
for (uint32_t denominator = 0xffff; denominator > 0; denominator--) {
uint32_t numerator = (denominator * sample_rate) / system_clock;
uint32_t remainder = (denominator * sample_rate) % system_clock;
if (remainder > (system_clock / 2)) {
numerator += 1;
remainder = system_clock - remainder;
}
if (remainder < best_error) {
best_denominator = denominator;
best_numerator = numerator;
best_error = remainder;
// Stop early if we can't do better.
if (remainder == 0) {
break;
}
}
}
dma_hw->timer[pacing_timer] = best_numerator << 16 | best_denominator;
}
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void common_hal_audiopwmio_pwmaudioout_stop(audiopwmio_pwmaudioout_obj_t *self) {
dma_hw->timer[self->pacing_timer] = 0;
self->pacing_timer = NUM_DMA_TIMERS;
audio_dma_stop(&self->dma);
}
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bool common_hal_audiopwmio_pwmaudioout_get_playing(audiopwmio_pwmaudioout_obj_t *self) {
bool playing = audio_dma_get_playing(&self->dma);
if (!playing && self->pacing_timer < NUM_DMA_TIMERS) {
dma_hw->timer[self->pacing_timer] = 0;
self->pacing_timer = NUM_DMA_TIMERS;
}
return playing;
}
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void common_hal_audiopwmio_pwmaudioout_pause(audiopwmio_pwmaudioout_obj_t *self) {
audio_dma_pause(&self->dma);
}
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void common_hal_audiopwmio_pwmaudioout_resume(audiopwmio_pwmaudioout_obj_t *self) {
audio_dma_resume(&self->dma);
}
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bool common_hal_audiopwmio_pwmaudioout_get_paused(audiopwmio_pwmaudioout_obj_t *self) {
return audio_dma_get_paused(&self->dma);
}