ESP32-HUB75-MatrixPanel-DMA/esp32_i2s_parallel_v2.c

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/*
* ESP32_I2S_PARALLEL_V2 (Version 2)
*
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* Author: Mrfaptastic - https://github.com/mrfaptastic/
*
* Description: Pointless reimplementation of ESP32 DMA setup for no reason than
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* to better understand the internals of the ESP32 SoC DMA.
*
* Credits: Based on the merging of three ideas:
* 1) https://www.esp32.com/viewtopic.php?f=17&t=3188 for original ref. implementation
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* 2) https://www.esp32.com/viewtopic.php?f=18&p=55305#p55305 for APLL overclock (no longer used)
* 3) https://github.com/TobleMiner/esp_i2s_parallel for a cleaner implementation
*
*/
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <driver/gpio.h>
#include <driver/periph_ctrl.h>
#include <rom/gpio.h>
#include <soc/gpio_sig_map.h>
// Header
#include <esp32_i2s_parallel_v2.h>
// For I2S<N> frame buffer state management.
static i2s_parallel_state_t *i2s_state[2]={NULL, NULL};
callback shiftCompleteCallback;
void setShiftCompleteCallback(callback f) {
shiftCompleteCallback = f;
}
volatile bool previousBufferFree = true;
static void IRAM_ATTR irq_hndlr(void* arg) { // if we use I2S1 (default)
if ( (*(i2s_port_t*)arg) == I2S_NUM_1 ) { // https://www.bogotobogo.com/cplusplus/pointers2_voidpointers_arrays.php
//For I2S1
SET_PERI_REG_BITS(I2S_INT_CLR_REG(1), I2S_OUT_EOF_INT_CLR_V, 1, I2S_OUT_EOF_INT_CLR_S);
} else {
// For I2S0
SET_PERI_REG_BITS(I2S_INT_CLR_REG(0), I2S_OUT_EOF_INT_CLR_V, 1, I2S_OUT_EOF_INT_CLR_S);
}
// at this point, the previously active buffer is free, go ahead and write to it
previousBufferFree = true;
if(shiftCompleteCallback) // we've defined a callback function ?
shiftCompleteCallback();
}
// For peripheral setup and configuration
static i2s_dev_t* I2S[I2S_NUM_MAX] = {&I2S0, &I2S1};
static inline int get_bus_width(i2s_parallel_cfg_bits_t width) {
switch(width) {
case I2S_PARALLEL_WIDTH_8:
return 8;
case I2S_PARALLEL_WIDTH_16:
return 16;
case I2S_PARALLEL_WIDTH_24:
return 24;
default:
return -ESP_ERR_INVALID_ARG;
}
}
static void iomux_set_signal(int gpio, int signal) {
if(gpio < 0) {
return;
}
PIN_FUNC_SELECT(GPIO_PIN_MUX_REG[gpio], PIN_FUNC_GPIO);
gpio_set_direction(gpio, GPIO_MODE_DEF_OUTPUT);
gpio_matrix_out(gpio, signal, false, false);
}
static void dma_reset(i2s_dev_t* dev) {
dev->lc_conf.in_rst = 1;
dev->lc_conf.in_rst = 0;
dev->lc_conf.out_rst = 1;
dev->lc_conf.out_rst = 0;
}
static void fifo_reset(i2s_dev_t* dev) {
dev->conf.rx_fifo_reset = 1;
// while(dev->state.rx_fifo_reset_back);
dev->conf.rx_fifo_reset = 0;
dev->conf.tx_fifo_reset = 1;
// while(dev->state.tx_fifo_reset_back);
dev->conf.tx_fifo_reset = 0;
}
static void dev_reset(i2s_dev_t* dev) {
fifo_reset(dev);
dma_reset(dev);
dev->conf.rx_reset=1;
dev->conf.tx_reset=1;
dev->conf.rx_reset=0;
dev->conf.tx_reset=0;
}
// DMA Linked List
// Size must be less than DMA_MAX - need to handle breaking long transfer into two descriptors before call
// DMA_MAX by the way is the maximum data packet size you can hold in one chunk
void link_dma_desc(volatile lldesc_t *dmadesc, volatile lldesc_t *prevdmadesc, void *memory, size_t size)
{
if(size > DMA_MAX) size = DMA_MAX;
dmadesc->size = size;
dmadesc->length = size;
dmadesc->buf = memory;
dmadesc->eof = 0;
dmadesc->sosf = 0;
dmadesc->owner = 1;
dmadesc->qe.stqe_next = 0; // will need to set this elsewhere
dmadesc->offset = 0;
// link previous to current
if(prevdmadesc)
prevdmadesc->qe.stqe_next = (lldesc_t*)dmadesc;
}
esp_err_t i2s_parallel_driver_install(i2s_port_t port, i2s_parallel_config_t* conf) {
if(port < I2S_NUM_0 || port >= I2S_NUM_MAX) {
return ESP_ERR_INVALID_ARG;
}
if(conf->sample_width < I2S_PARALLEL_WIDTH_8 || conf->sample_width >= I2S_PARALLEL_WIDTH_MAX) {
return ESP_ERR_INVALID_ARG;
}
if(conf->sample_rate > I2S_PARALLEL_CLOCK_HZ || conf->sample_rate < 1) {
return ESP_ERR_INVALID_ARG;
}
uint32_t clk_div_main = I2S_PARALLEL_CLOCK_HZ / conf->sample_rate / i2s_parallel_get_memory_width(port, conf->sample_width);
if(clk_div_main < 2 || clk_div_main > 0xFF) {
return ESP_ERR_INVALID_ARG;
}
volatile int iomux_signal_base;
volatile int iomux_clock;
int irq_source;
// Initialize I2S peripheral
if (port == I2S_NUM_0) {
periph_module_reset(PERIPH_I2S0_MODULE);
periph_module_enable(PERIPH_I2S0_MODULE);
iomux_clock = I2S0O_WS_OUT_IDX;
irq_source = ETS_I2S0_INTR_SOURCE;
switch(conf->sample_width) {
case I2S_PARALLEL_WIDTH_8:
case I2S_PARALLEL_WIDTH_16:
iomux_signal_base = I2S0O_DATA_OUT8_IDX;
break;
case I2S_PARALLEL_WIDTH_24:
iomux_signal_base = I2S0O_DATA_OUT0_IDX;
break;
case I2S_PARALLEL_WIDTH_MAX:
return ESP_ERR_INVALID_ARG;
}
} else {
periph_module_reset(PERIPH_I2S1_MODULE);
periph_module_enable(PERIPH_I2S1_MODULE);
iomux_clock = I2S1O_WS_OUT_IDX;
irq_source = ETS_I2S1_INTR_SOURCE;
switch(conf->sample_width) {
case I2S_PARALLEL_WIDTH_16:
iomux_signal_base = I2S1O_DATA_OUT8_IDX;
break;
case I2S_PARALLEL_WIDTH_8:
case I2S_PARALLEL_WIDTH_24:
iomux_signal_base = I2S1O_DATA_OUT0_IDX;
break;
case I2S_PARALLEL_WIDTH_MAX:
return ESP_ERR_INVALID_ARG;
}
}
// Setup GPIOs
int bus_width = get_bus_width(conf->sample_width);
// Setup I2S peripheral
i2s_dev_t* dev = I2S[port];
dev_reset(dev);
// Set i2s mode to LCD mode
dev->conf2.val = 0;
dev->conf2.lcd_en = 1;
// Enable "One datum will be written twice in LCD mode" - for some reason,
// if we don't do this in 8-bit mode, data is updated on half-clocks not clocks
if(conf->sample_width == I2S_PARALLEL_WIDTH_8)
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dev->conf2.lcd_tx_wrx2_en=1;
// Setup i2s clock
dev->sample_rate_conf.val = 0;
// Third stage config, width of data to be written to IO (I think this should always be the actual data width?)
dev->sample_rate_conf.rx_bits_mod = bus_width;
dev->sample_rate_conf.tx_bits_mod = bus_width;
dev->sample_rate_conf.rx_bck_div_num = 1;
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dev->sample_rate_conf.tx_bck_div_num = 2; // datasheet says this must be 2 or greater (but 1 seems to work)
// It's confusing, but the max output the ESP32 can pump out when using I2S *parallel* output is 20Mhz.
// https://easyvolts.com/2018/08/14/esp32-40msps-oscilloscope-project-is-closed-and-here-is-why/
// and https://github.com/espressif/esp-idf/issues/2251
// Igor - "Frequencies above 20MHz do not work in I2S mode."
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// 16bit parallel I2S @ 10Mhz = calculated clk_div_main (per line ~142) of 4
// 16bit parallel I2S @ 20Mhz = calculated clk_div_main (per line ~142) of 2
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dev->clkm_conf.val=0; // Clear the clkm_conf struct
dev->clkm_conf.clka_en=0; // Use the 160mhz system clock (PLL_D2_CLK) when '0'
dev->clkm_conf.clkm_div_b=0; // Page 310 of Technical Reference Manual - Clock numerator
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dev->clkm_conf.clkm_div_a=1; // Page 310 of Technical Reference Manual - Clock denominator
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//
// Final Mhz output =
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// Output = 80000000L / tx_bck_div_num / (clkm_div_num + (clkm_div_b/clkm_div_a) )
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// Note: clkm_div_num must only be set here AFTER clkm_div_b, clkm_div_a, etc. Or weird things happen!
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dev->clkm_conf.clkm_div_num = clk_div_main*16;
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//printf("esp32_i2s_parallel_2.c > I2S clock divider is %d \n", clk_div_main*2);
// Some fifo conf I don't quite understand
dev->fifo_conf.val = 0;
// Dictated by datasheet
dev->fifo_conf.rx_fifo_mod_force_en = 1;
dev->fifo_conf.tx_fifo_mod_force_en = 1;
// Not really described for non-pcm modes, although datasheet states it should be set correctly even for LCD mode
// First stage config. Configures how data is loaded into fifo
if(conf->sample_width == I2S_PARALLEL_WIDTH_24) {
// Mode 0, single 32-bit channel, linear 32 bit load to fifo
dev->fifo_conf.tx_fifo_mod = 3;
} else {
// Mode 1, single 16-bit channel, load 16 bit sample(*) into fifo and pad to 32 bit with zeros
// *Actually a 32 bit read where two samples are read at once. Length of fifo must thus still be word-alligned
dev->fifo_conf.tx_fifo_mod = 1;
}
// Probably relevant for buffering from the DMA controller
dev->fifo_conf.rx_data_num = 32; // Thresholds.
dev->fifo_conf.tx_data_num = 32;
// Enable DMA support
dev->fifo_conf.dscr_en = 1;
dev->conf1.val = 0;
dev->conf1.tx_stop_en = 0;
dev->conf1.tx_pcm_bypass = 1;
// Second stage config
dev->conf_chan.val = 0;
// Tx in mono mode, read 32 bit per sample from fifo
dev->conf_chan.tx_chan_mod = 1;
dev->conf_chan.rx_chan_mod = 1;
dev->conf.tx_right_first = 0; //!!invert_clk; // should be false / 0
dev->conf.rx_right_first = 0; //!!invert_clk;
dev->timing.val = 0;
// Allocate I2S status structure for buffer swapping stuff
i2s_state[port] = (i2s_parallel_state_t*) malloc(sizeof(i2s_parallel_state_t));
assert(i2s_state[port] != NULL);
i2s_parallel_state_t *state = i2s_state[port];
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state->desccount_a = conf->desccount_a;
state->desccount_b = conf->desccount_b;
state->dmadesc_a = conf->lldesc_a;
state->dmadesc_b = conf->lldesc_b;
state->i2s_interrupt_port_arg = port; // need to keep this somewhere in static memory for the ISR
// Get ISR setup
esp_err_t err = esp_intr_alloc(irq_source,
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(int)(ESP_INTR_FLAG_IRAM | ESP_INTR_FLAG_LEVEL1),
irq_hndlr,
&state->i2s_interrupt_port_arg, NULL);
if(err) {
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return err;
}
// Setup interrupt handler which is focussed only on the (page 322 of Tech. Ref. Manual)
// "I2S_OUT_EOF_INT: Triggered when rxlink has finished sending a packet"
// ... whatever the hell that is supposed to mean... One massive linked list.
dev->int_ena.out_eof = 1;
// Setup GPIO's at the end to avoid spurious crap being sent out
for(int i = 0; i < bus_width; i++) {
iomux_set_signal(conf->gpio_bus[i], iomux_signal_base + i);
}
iomux_set_signal(conf->gpio_clk, iomux_clock);
// invert clock phase if required
if (conf->clkphase)
GPIO.func_out_sel_cfg[conf->gpio_clk].inv_sel = 1;
return ESP_OK;
}
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esp_err_t i2s_parallel_stop_dma(i2s_port_t port) {
if(port < I2S_NUM_0 || port >= I2S_NUM_MAX) {
return ESP_ERR_INVALID_ARG;
}
i2s_dev_t* dev = I2S[port];
// Stop all ongoing DMA operations
dev->out_link.stop = 1;
dev->out_link.start = 0;
dev->conf.tx_start = 0;
return ESP_OK;
}
esp_err_t i2s_parallel_send_dma(i2s_port_t port, lldesc_t* dma_descriptor) {
if(port < I2S_NUM_0 || port >= I2S_NUM_MAX) {
return ESP_ERR_INVALID_ARG;
}
i2s_dev_t* dev = I2S[port];
// Stop all ongoing DMA operations
dev->out_link.stop = 1;
dev->out_link.start = 0;
dev->conf.tx_start = 0;
dev_reset(dev);
// Configure DMA burst mode
dev->lc_conf.val = I2S_OUT_DATA_BURST_EN | I2S_OUTDSCR_BURST_EN;
// Set address of DMA descriptor
dev->out_link.addr = (uint32_t) dma_descriptor;
// Start DMA operation
dev->out_link.start = 1;
dev->conf.tx_start = 1;
return ESP_OK;
}
i2s_dev_t* i2s_parallel_get_dev(i2s_port_t port) {
if(port < I2S_NUM_0 || port >= I2S_NUM_MAX) {
return NULL;
}
return I2S[port];
}
// Double buffering flipping
// Flip to a buffer: 0 for bufa, 1 for bufb
void i2s_parallel_flip_to_buffer(i2s_port_t port, int buffer_id) {
if (i2s_state[port] == NULL) {
return; // :-()
}
lldesc_t *active_dma_chain;
if (buffer_id == 0) {
active_dma_chain=(lldesc_t*)&i2s_state[port]->dmadesc_a[0];
} else {
active_dma_chain=(lldesc_t*)&i2s_state[port]->dmadesc_b[0];
}
// setup linked list to refresh from new buffer (continuously) when the end of the current list has been reached
i2s_state[port]->dmadesc_a[i2s_state[port]->desccount_a-1].qe.stqe_next = active_dma_chain;
i2s_state[port]->dmadesc_b[i2s_state[port]->desccount_b-1].qe.stqe_next = active_dma_chain;
// we're still shifting out the buffer, so it shouldn't be written to yet.
previousBufferFree = false;
}
bool i2s_parallel_is_previous_buffer_free() {
return previousBufferFree;
}