mirror of
https://github.com/eried/portapack-mayhem.git
synced 2024-10-01 01:26:06 -04:00
256 lines
8.1 KiB
C++
256 lines
8.1 KiB
C++
/*
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* Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc.
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* Copyright (C) 2016 Furrtek
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*
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* This file is part of PortaPack.
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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, or (at your option)
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* 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; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street,
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* Boston, MA 02110-1301, USA.
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*/
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#include "audio_dma.hpp"
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#include <cstdint>
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#include <cstddef>
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#include <array>
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#include "hal.h"
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#include "gpdma.hpp"
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using namespace lpc43xx;
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#include "portapack_dma.hpp"
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namespace audio {
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namespace dma {
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constexpr uint32_t gpdma_ahb_master_peripheral = 1;
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constexpr uint32_t gpdma_ahb_master_memory = 0;
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constexpr uint32_t gpdma_ahb_master_lli_fetch = 0;
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constexpr uint32_t gpdma_rx_peripheral = 0x9; /* I2S0 DMA request 1 */
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constexpr uint32_t gpdma_rx_src_peripheral = gpdma_rx_peripheral;
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constexpr uint32_t gpdma_rx_dest_peripheral = gpdma_rx_peripheral;
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constexpr uint32_t gpdma_tx_peripheral = 0xa; /* I2S0 DMA request 2 */
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constexpr uint32_t gpdma_tx_src_peripheral = gpdma_tx_peripheral;
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constexpr uint32_t gpdma_tx_dest_peripheral = gpdma_tx_peripheral;
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constexpr gpdma::channel::LLIPointer lli_pointer(const void* lli) {
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return {
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.lm = gpdma_ahb_master_lli_fetch,
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.r = 0,
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.lli = reinterpret_cast<uint32_t>(lli),
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};
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}
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constexpr gpdma::channel::Control control_tx(const size_t transfer_bytes) {
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return {
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.transfersize = gpdma::buffer_words(transfer_bytes, 4),
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.sbsize = 4, /* Burst size: 32 */
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.dbsize = 4, /* Burst size: 32 */
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.swidth = 2, /* Source transfer width: word (32 bits) */
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.dwidth = 2, /* Destination transfer width: word (32 bits) */
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.s = gpdma_ahb_master_memory,
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.d = gpdma_ahb_master_peripheral,
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.si = 1,
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.di = 0,
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.prot1 = 0,
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.prot2 = 0,
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.prot3 = 0,
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.i = 1,
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};
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}
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constexpr gpdma::channel::Config config_tx() {
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return {
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.e = 0,
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.srcperipheral = gpdma_tx_src_peripheral,
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.destperipheral = gpdma_tx_dest_peripheral,
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.flowcntrl = gpdma::FlowControl::MemoryToPeripheral_DMAControl,
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.ie = 1,
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.itc = 1,
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.l = 0,
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.a = 0,
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.h = 0,
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};
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}
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constexpr gpdma::channel::Control control_rx(const size_t transfer_bytes) {
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return {
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.transfersize = gpdma::buffer_words(transfer_bytes, 4),
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.sbsize = 4, /* Burst size: 32 */
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.dbsize = 4, /* Burst size: 32 */
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.swidth = 2, /* Source transfer width: word (32 bits) */
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.dwidth = 2, /* Destination transfer width: word (32 bits) */
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.s = gpdma_ahb_master_peripheral,
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.d = gpdma_ahb_master_memory,
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.si = 0,
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.di = 1,
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.prot1 = 0,
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.prot2 = 0,
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.prot3 = 0,
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.i = 1,
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};
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}
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constexpr gpdma::channel::Config config_rx() {
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return {
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.e = 0,
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.srcperipheral = gpdma_rx_src_peripheral,
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.destperipheral = gpdma_rx_dest_peripheral,
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.flowcntrl = gpdma::FlowControl::PeripheralToMemory_DMAControl,
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.ie = 1,
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.itc = 1,
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.l = 0,
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.a = 0,
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.h = 0,
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};
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}
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/* TODO: Clean up terminology around "buffer", "transfer", "samples" */
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constexpr size_t buffer_samples_log2n = 7;
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constexpr size_t buffer_samples = (1 << buffer_samples_log2n); // 2^7 = 128 byte circular DMA buffer
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constexpr size_t transfers_per_buffer_log2n = 2;
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constexpr size_t transfers_per_buffer = (1 << transfers_per_buffer_log2n); // 2^2 = 4 transfer buffers in the circular buffer
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constexpr size_t transfer_samples = buffer_samples / transfers_per_buffer; // 128/4 = 32 samples in each transfer buffer
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constexpr size_t transfers_mask = transfers_per_buffer - 1;
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constexpr size_t buffer_bytes = buffer_samples * sizeof(sample_t);
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constexpr size_t transfer_bytes = transfer_samples * sizeof(sample_t);
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static std::array<sample_t, buffer_samples> buffer_tx;
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static std::array<sample_t, buffer_samples> buffer_rx;
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static std::array<gpdma::channel::LLI, transfers_per_buffer> lli_tx_loop;
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static std::array<gpdma::channel::LLI, transfers_per_buffer> lli_rx_loop;
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static constexpr auto& gpdma_channel_i2s0_tx = gpdma::channels[portapack::i2s0_tx_gpdma_channel_number];
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static constexpr auto& gpdma_channel_i2s0_rx = gpdma::channels[portapack::i2s0_rx_gpdma_channel_number];
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static volatile const gpdma::channel::LLI* tx_next_lli = nullptr;
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static volatile const gpdma::channel::LLI* rx_next_lli = nullptr;
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static bool single_tx_buffer = false;
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static void tx_transfer_complete() {
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tx_next_lli = gpdma_channel_i2s0_tx.next_lli();
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}
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static void tx_error() {
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disable();
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}
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static void rx_transfer_complete() {
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rx_next_lli = gpdma_channel_i2s0_rx.next_lli();
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}
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static void rx_error() {
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disable();
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}
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static void configure_tx() {
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const auto peripheral = reinterpret_cast<uint32_t>(&LPC_I2S0->TXFIFO);
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const auto control_value = control_tx(transfer_bytes);
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for (size_t i = 0; i < lli_tx_loop.size(); i++) {
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const auto memory = reinterpret_cast<uint32_t>(&buffer_tx[i * transfer_samples]);
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lli_tx_loop[i].srcaddr = memory;
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lli_tx_loop[i].destaddr = peripheral;
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lli_tx_loop[i].lli = lli_pointer(&lli_tx_loop[(i + 1) % lli_tx_loop.size()]);
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lli_tx_loop[i].control = control_value;
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}
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}
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static void configure_rx() {
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const auto peripheral = reinterpret_cast<uint32_t>(&LPC_I2S0->RXFIFO);
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const auto control_value = control_rx(transfer_bytes);
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for (size_t i = 0; i < lli_rx_loop.size(); i++) {
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const auto memory = reinterpret_cast<uint32_t>(&buffer_rx[i * transfer_samples]);
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lli_rx_loop[i].srcaddr = peripheral;
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lli_rx_loop[i].destaddr = memory;
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lli_rx_loop[i].lli = lli_pointer(&lli_rx_loop[(i + 1) % lli_rx_loop.size()]);
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lli_rx_loop[i].control = control_value;
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}
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}
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static void enable_tx() {
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const auto gpdma_config_tx = config_tx();
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gpdma_channel_i2s0_tx.configure(lli_tx_loop[0], gpdma_config_tx);
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gpdma_channel_i2s0_tx.enable();
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}
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static void enable_rx() {
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const auto gpdma_config_rx = config_rx();
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gpdma_channel_i2s0_rx.configure(lli_rx_loop[0], gpdma_config_rx);
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gpdma_channel_i2s0_rx.enable();
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}
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void init_audio_out() {
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gpdma_channel_i2s0_tx.set_handlers(tx_transfer_complete, tx_error);
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// LPC_GPDMA->SYNC |= (1 << gpdma_tx_peripheral);
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configure_tx();
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enable_tx();
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}
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void init_audio_in() {
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gpdma_channel_i2s0_rx.set_handlers(rx_transfer_complete, rx_error);
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// LPC_GPDMA->SYNC |= (1 << gpdma_rx_peripheral);
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configure_rx();
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enable_rx();
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}
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void disable() {
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gpdma_channel_i2s0_tx.disable();
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gpdma_channel_i2s0_rx.disable();
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}
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void shrink_tx_buffer(bool shrink) {
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single_tx_buffer = shrink;
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if (transfers_per_buffer == 1)
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return;
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if (single_tx_buffer)
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lli_tx_loop[0].lli = lli_pointer(&lli_tx_loop[0]);
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else
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lli_tx_loop[0].lli = lli_pointer(&lli_tx_loop[1]);
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}
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buffer_t tx_empty_buffer() {
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const auto next_lli = tx_next_lli;
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if (next_lli) {
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const size_t next_index = next_lli - &lli_tx_loop[0];
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const size_t free_index = (single_tx_buffer) ? 0 : (next_index + transfers_per_buffer - 2) & transfers_mask;
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return {reinterpret_cast<sample_t*>(lli_tx_loop[free_index].srcaddr), transfer_samples};
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} else {
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return {nullptr, 0};
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}
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}
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buffer_t rx_empty_buffer() {
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const auto next_lli = rx_next_lli;
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if (next_lli) {
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const size_t next_index = next_lli - &lli_rx_loop[0];
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const size_t free_index = (next_index + transfers_per_buffer - 2) & transfers_mask;
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return {reinterpret_cast<sample_t*>(lli_rx_loop[free_index].destaddr), transfer_samples};
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} else {
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return {nullptr, 0};
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}
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}
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} /* namespace dma */
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} /* namespace audio */
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