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Author SHA1 Message Date
95dccdcc38
Fix: allow 80MHz clock speed 2024-08-20 13:12:32 +02:00
2 changed files with 560 additions and 561 deletions

View file

@ -306,7 +306,7 @@ struct HUB75_I2S_CFG
bool clkphase;
// Minimum refresh / scan rate needs to be configured on start due to LSBMSB_TRANSITION_BIT calculation in allocateDMAmemory()
uint8_t min_refresh_rate;
uint16_t min_refresh_rate;
// struct constructor
HUB75_I2S_CFG(
@ -498,7 +498,6 @@ public:
vlineDMA(x, y, h, r, g, b);
else
hlineDMA(x, y, w, r, g, b);
}
// rgb888 overload
virtual inline void drawFastVLine(int16_t x, int16_t y, int16_t h, uint8_t r, uint8_t g, uint8_t b)
@ -526,7 +525,6 @@ public:
vlineDMA(x, y, h, r, g, b);
else
hlineDMA(x, y, w, r, g, b);
}
// rgb888 overload
virtual inline void drawFastHLine(int16_t x, int16_t y, int16_t w, uint8_t r, uint8_t g, uint8_t b)
@ -550,7 +548,6 @@ public:
transform(x, y, w, h);
fillRectDMA(x, y, w, h, r, g, b);
}
// rgb888 overload
virtual inline void fillRect(int16_t x, int16_t y, int16_t w, int16_t h, uint8_t r, uint8_t g, uint8_t b)
@ -558,7 +555,6 @@ public:
transform(x, y, w, h);
fillRectDMA(x, y, w, h, r, g, b);
}
#endif
@ -603,12 +599,9 @@ public:
dma_bus.flip_dma_output_buffer(back_buffer_id);
//back_buffer_id ^= 1;
back_buffer_id = back_buffer_id^1;
// back_buffer_id ^= 1;
back_buffer_id = back_buffer_id ^ 1;
fb = &frame_buffer[back_buffer_id];
}
/**
@ -716,11 +709,11 @@ protected:
clearFrameBuffer(0);
brtCtrlOEv2(brightness, 0);
if (m_cfg.double_buff) {
if (m_cfg.double_buff)
{
clearFrameBuffer(1);
brtCtrlOEv2(brightness, 1);
}
}
@ -777,7 +770,7 @@ private:
/**
* @brief - DP3246-family chips initialization routine
*/
void dp3246init(const HUB75_I2S_CFG& _cfg);
void dp3246init(const HUB75_I2S_CFG &_cfg);
/**
* @brief - reset OE bits in DMA buffer in a way to control brightness
@ -841,7 +834,6 @@ protected:
Bus_Parallel16 dma_bus;
private:
// Matrix i2s settings
HUB75_I2S_CFG m_cfg;

View file

@ -20,14 +20,14 @@ Modified heavily for the ESP32 HUB75 DMA library by:
/----------------------------------------------------------------------------*/
#include <sdkconfig.h>
#if defined (CONFIG_IDF_TARGET_ESP32) || defined (CONFIG_IDF_TARGET_ESP32S2)
#if defined(CONFIG_IDF_TARGET_ESP32) || defined(CONFIG_IDF_TARGET_ESP32S2)
#include "esp32_i2s_parallel_dma.hpp"
#if defined (CONFIG_IDF_TARGET_ESP32S2)
#pragma message "Compiling for ESP32-S2"
#if defined(CONFIG_IDF_TARGET_ESP32S2)
#pragma message "Compiling for ESP32-S2"
#else
#pragma message "Compiling for original ESP32 (released 2016)"
#pragma message "Compiling for original ESP32 (released 2016)"
#endif
#include <driver/gpio.h>
@ -39,8 +39,7 @@ Modified heavily for the ESP32 HUB75 DMA library by:
#include <soc/gpio_sig_map.h>
#include <soc/i2s_periph.h> //includes struct and reg
#if defined (ARDUINO_ARCH_ESP32)
#if defined(ARDUINO_ARCH_ESP32)
#include <Arduino.h>
#endif
@ -50,65 +49,68 @@ Modified heavily for the ESP32 HUB75 DMA library by:
// Get CPU freq function.
#include <soc/rtc.h>
volatile bool previousBufferFree = true;
volatile bool previousBufferFree = true;
static void IRAM_ATTR i2s_isr(void* arg) {
static void IRAM_ATTR i2s_isr(void *arg)
{
// From original Sprite_TM Code
//REG_WRITE(I2S_INT_CLR_REG(1), (REG_READ(I2S_INT_RAW_REG(1)) & 0xffffffc0) | 0x3f);
// REG_WRITE(I2S_INT_CLR_REG(1), (REG_READ(I2S_INT_RAW_REG(1)) & 0xffffffc0) | 0x3f);
// Clear flag so we can get retriggered
SET_PERI_REG_BITS(I2S_INT_CLR_REG(ESP32_I2S_DEVICE), 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;
}
}
bool DRAM_ATTR i2s_parallel_is_previous_buffer_free() {
bool DRAM_ATTR i2s_parallel_is_previous_buffer_free()
{
return previousBufferFree;
}
}
// Static
i2s_dev_t* getDev()
{
#if defined (CONFIG_IDF_TARGET_ESP32S2)
// Static
i2s_dev_t *getDev()
{
#if defined(CONFIG_IDF_TARGET_ESP32S2)
return &I2S0;
#else
#else
return (ESP32_I2S_DEVICE == 0) ? &I2S0 : &I2S1;
#endif
#endif
}
}
// Static
void _gpio_pin_init(int pin)
{
// Static
void _gpio_pin_init(int pin)
{
if (pin >= 0)
{
gpio_pad_select_gpio(pin);
//gpio_hi(pin);
// gpio_hi(pin);
gpio_set_direction((gpio_num_t)pin, GPIO_MODE_OUTPUT);
gpio_set_drive_capability((gpio_num_t)pin, (gpio_drive_cap_t)3); // esp32s3 as well?
}
}
}
inline int i2s_parallel_get_memory_width(int port, int width) {
switch(width) {
inline int i2s_parallel_get_memory_width(int port, int width)
{
switch (width)
{
case 8:
#if !defined (CONFIG_IDF_TARGET_ESP32S2)
#if !defined(CONFIG_IDF_TARGET_ESP32S2)
// Only I2S1 on the legacy ESP32 WROOM MCU supports space saving single byte 8 bit parallel access
if(port == 1)
if (port == 1)
{
return 1;
} else {
}
else
{
return 2;
}
#else
#else
return 1;
#endif
#endif
case 16:
return 2;
@ -117,21 +119,21 @@ Modified heavily for the ESP32 HUB75 DMA library by:
default:
return -ESP_ERR_INVALID_ARG;
}
}
}
void Bus_Parallel16::config(const config_t& cfg)
{
void Bus_Parallel16::config(const config_t &cfg)
{
ESP_LOGI("ESP32/S2", "Performing config for ESP32 or ESP32-S2");
_cfg = cfg;
_dev = getDev();
}
}
bool Bus_Parallel16::init(void) // The big one that gets everything setup.
{
bool Bus_Parallel16::init(void) // The big one that gets everything setup.
{
ESP_LOGI("ESP32/S2", "Performing DMA bus init() for ESP32 or ESP32-S2");
if(_cfg.parallel_width < 8 || _cfg.parallel_width >= 24) {
if (_cfg.parallel_width < 8 || _cfg.parallel_width >= 24)
{
return false;
}
@ -149,7 +151,8 @@ Modified heavily for the ESP32 HUB75 DMA library by:
iomux_clock = I2S0O_WS_OUT_IDX;
irq_source = ETS_I2S0_INTR_SOURCE;
switch(_cfg.parallel_width) {
switch (_cfg.parallel_width)
{
case 8:
case 16:
iomux_signal_base = I2S0O_DATA_OUT8_IDX;
@ -162,15 +165,17 @@ Modified heavily for the ESP32 HUB75 DMA library by:
}
}
#if !defined (CONFIG_IDF_TARGET_ESP32S2)
#if !defined(CONFIG_IDF_TARGET_ESP32S2)
// Can't compile if I2S1 if it doesn't exist with that hardware's IDF....
else {
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(_cfg.parallel_width) {
switch (_cfg.parallel_width)
{
case 16:
iomux_signal_base = I2S1O_DATA_OUT8_IDX;
break;
@ -182,7 +187,7 @@ Modified heavily for the ESP32 HUB75 DMA library by:
return ESP_ERR_INVALID_ARG;
}
}
#endif
#endif
// Setup GPIOs
int bus_width = _cfg.parallel_width;
@ -193,17 +198,19 @@ Modified heavily for the ESP32 HUB75 DMA library by:
_gpio_pin_init(_cfg.pin_rs); // not used
// Data output GPIO setup
int8_t* pins = _cfg.pin_data;
int8_t *pins = _cfg.pin_data;
for(int i = 0; i < bus_width; i++)
for (int i = 0; i < bus_width; i++)
_gpio_pin_init(pins[i]);
// Route clock signal to clock pin
gpio_matrix_out(_cfg.pin_wr, iomux_clock, _cfg.invert_pclk, 0); // inverst clock if required
for (size_t i = 0; i < bus_width; i++) {
for (size_t i = 0; i < bus_width; i++)
{
if (pins[i] >= 0) {
if (pins[i] >= 0)
{
gpio_matrix_out(pins[i], iomux_signal_base + i, false, false);
}
}
@ -211,28 +218,28 @@ Modified heavily for the ESP32 HUB75 DMA library by:
////////////////////////////// Clock configuration //////////////////////////////
unsigned int freq = (_cfg.bus_freq);
ESP_LOGD("ESP32/S2", "Requested output clock frequency: %u Mhz", (unsigned int)(freq/1000000));
ESP_LOGD("ESP32/S2", "Requested output clock frequency: %u Mhz", (unsigned int)(freq / 1000000));
// What is the current CPU frequency?
// Calculate clock divider for ESP32-S2
#if defined (CONFIG_IDF_TARGET_ESP32S2)
// Calculate clock divider for ESP32-S2
#if defined(CONFIG_IDF_TARGET_ESP32S2)
// Right shift (>> 1) and divide 160mhz in half to 80Mhz for the calc due to the fact
// that later we must have tx_bck_div_num = 2 for both esp32 and esp32-s2
//static uint32_t pll_160M_clock_d2 = 160 * 1000 * 1000 >> 1;
// static uint32_t pll_160M_clock_d2 = 160 * 1000 * 1000 >> 1;
// I2S_CLKM_DIV_NUM 2=40MHz / 3=27MHz / 4=20MHz / 5=16MHz / 8=10MHz / 10=8MHz
//auto _div_num = std::min(255u, 1 + ((pll_160M_clock_d2) / (1 + freq)));
unsigned int _div_num = (unsigned int) (160000000L / freq / i2s_parallel_get_memory_width(ESP32_I2S_DEVICE, 16)); // 16 bits in parallel
// auto _div_num = std::min(255u, 1 + ((pll_160M_clock_d2) / (1 + freq)));
unsigned int _div_num = (unsigned int)(160000000L / freq / i2s_parallel_get_memory_width(ESP32_I2S_DEVICE, 16)); // 16 bits in parallel
if(_div_num < 2 || _div_num > 0xFF) {
if (_div_num < 2 || _div_num > 0xFF)
{
// return ESP_ERR_INVALID_ARG;
_div_num = 8;
}
ESP_LOGD("ESP32", "i2s pll_160M_clock_d2 clkm_div_num is: %u", _div_num);
// I2S_CLK_SEL Set this bit to select I2S module clock source.
@ -244,10 +251,10 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dev->clkm_conf.clk_en = 1;
// Calc
unsigned int output_freq = (unsigned int)(160000000L/_div_num);
unsigned int output_freq = (unsigned int)(160000000L / _div_num);
// Calculate clock divider for Original ESP32
#else
// Calculate clock divider for Original ESP32
#else
// Note: clkm_div_num must only be set here AFTER clkm_div_b, clkm_div_a, etc. Or weird things happen!
// On original ESP32, max I2S DMA parallel speed is 20Mhz.
@ -255,34 +262,35 @@ Modified heavily for the ESP32 HUB75 DMA library by:
// 160Mhz is only assured when the CPU clock is 240Mhz on the ESP32...
// [esp32-hal-cpu.c:244] setCpuFrequencyMhz(): PLL: 480 / 2 = 240 Mhz, APB: 80000000 Hz
//static uint32_t pll_d2_clock = (source_freq/2) * 1000 * 1000 >> 1;
// static uint32_t pll_d2_clock = (source_freq/2) * 1000 * 1000 >> 1;
// I2S_CLKM_DIV_NUM 2=40MHz / 3=27MHz / 4=20MHz / 5=16MHz / 8=10MHz / 10=8MHz
//auto _div_num = std::min(255u, 1 + ((pll_d2_clock) / (1 + freq)));
// auto _div_num = std::min(255u, 1 + ((pll_d2_clock) / (1 + freq)));
unsigned int _div_num = (unsigned int) (80000000L / freq / i2s_parallel_get_memory_width(ESP32_I2S_DEVICE, 16)); // 16 bits in parallel
if(_div_num < 2 || _div_num > 0xFF) {
unsigned int _div_num = (unsigned int)(80000000L / freq / i2s_parallel_get_memory_width(ESP32_I2S_DEVICE, 16)); // 16 bits in parallel
if (_div_num < 2 || _div_num > 0xFF)
{
// return ESP_ERR_INVALID_ARG;
_div_num = 4;
}
///auto _div_num = 80000000L/freq;
_div_num = 1;
/// auto _div_num = 80000000L/freq;
ESP_LOGD("ESP32", "i2s pll_d2_clock clkm_div_num is: %u", _div_num);
dev->clkm_conf.clka_en=1; // Use the 80mhz system clock (PLL_D2_CLK) when '0'
dev->clkm_conf.clka_en = 1; // Use the 80mhz system clock (PLL_D2_CLK) when '0'
dev->clkm_conf.clkm_div_a = 1; // Clock denominator
dev->clkm_conf.clkm_div_b = 0; // Clock numerator
dev->clkm_conf.clkm_div_num = _div_num;
unsigned int output_freq = (unsigned int)(80000000L/_div_num);
#endif
unsigned int output_freq = (unsigned int)(80000000L / _div_num);
#endif
output_freq = output_freq + 0; // work around arudino 'unused var' issue if debug isn't enabled.
ESP_LOGI("ESP32/S2", "Output frequency is %u Mhz??", (unsigned int)(output_freq/1000000/i2s_parallel_get_memory_width(ESP32_I2S_DEVICE, 16)));
ESP_LOGI("ESP32/S2", "Output frequency is %u Mhz??", (unsigned int)(output_freq / 1000000 / i2s_parallel_get_memory_width(ESP32_I2S_DEVICE, 16)));
// Setup i2s clock
dev->sample_rate_conf.val = 0;
@ -301,16 +309,16 @@ Modified heavily for the ESP32 HUB75 DMA library by:
// I2S conf2 reg
dev->conf2.val = 0;
dev->conf2.lcd_en = 1;
dev->conf2.lcd_tx_wrx2_en=0;
dev->conf2.lcd_tx_sdx2_en=0;
dev->conf2.lcd_tx_wrx2_en = 0;
dev->conf2.lcd_tx_sdx2_en = 0;
// I2S conf reg
dev->conf.val = 0;
#if defined (CONFIG_IDF_TARGET_ESP32S2)
dev->conf.tx_dma_equal=1; // esp32-s2 only
dev->conf.pre_req_en=1; // esp32-s2 only - enable I2S to prepare data earlier? wtf?
#endif
#if defined(CONFIG_IDF_TARGET_ESP32S2)
dev->conf.tx_dma_equal = 1; // esp32-s2 only
dev->conf.pre_req_en = 1; // esp32-s2 only - enable I2S to prepare data earlier? wtf?
#endif
// Now start setting up DMA FIFO
dev->fifo_conf.val = 0;
@ -318,19 +326,22 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dev->fifo_conf.tx_data_num = 32;
dev->fifo_conf.dscr_en = 1;
#if !defined (CONFIG_IDF_TARGET_ESP32S2)
#if !defined(CONFIG_IDF_TARGET_ESP32S2)
// 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(_cfg.parallel_width == 8)
dev->conf2.lcd_tx_wrx2_en=1;
if (_cfg.parallel_width == 8)
dev->conf2.lcd_tx_wrx2_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(_cfg.parallel_width == 24) {
if (_cfg.parallel_width == 24)
{
// Mode 0, single 32-bit channel, linear 32 bit load to fifo
dev->fifo_conf.tx_fifo_mod = 3;
} else {
}
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-aligned
dev->fifo_conf.tx_fifo_mod = 1;
@ -347,24 +358,25 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dev->conf_chan.tx_chan_mod = 1;
dev->conf_chan.rx_chan_mod = 1;
#endif
#endif
// Reset FIFO
dev->conf.rx_fifo_reset = 1;
#if defined (CONFIG_IDF_TARGET_ESP32S2)
while(dev->conf.rx_fifo_reset_st); // esp32-s2 only
#endif
#if defined(CONFIG_IDF_TARGET_ESP32S2)
while (dev->conf.rx_fifo_reset_st)
; // esp32-s2 only
#endif
dev->conf.rx_fifo_reset = 0;
dev->conf.tx_fifo_reset = 1;
#if defined (CONFIG_IDF_TARGET_ESP32S2)
while(dev->conf.tx_fifo_reset_st); // esp32-s2 only
#endif
#if defined(CONFIG_IDF_TARGET_ESP32S2)
while (dev->conf.tx_fifo_reset_st)
; // esp32-s2 only
#endif
dev->conf.tx_fifo_reset = 0;
// Reset DMA
dev->lc_conf.in_rst = 1;
dev->lc_conf.in_rst = 0;
@ -377,18 +389,16 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dev->in_link.val = 0;
dev->out_link.val = 0;
// Device reset
dev->conf.rx_reset=1;
dev->conf.tx_reset=1;
dev->conf.rx_reset=0;
dev->conf.tx_reset=0;
dev->conf.rx_reset = 1;
dev->conf.tx_reset = 1;
dev->conf.rx_reset = 0;
dev->conf.tx_reset = 0;
dev->conf1.val = 0;
dev->conf1.tx_stop_en = 0;
dev->timing.val = 0;
// If we have double buffering, then allocate an interrupt service routine function
// that can be used for I2S0/I2S1 created interrupts.
@ -398,19 +408,17 @@ Modified heavily for the ESP32 HUB75 DMA library by:
// Allocate a level 1 intterupt: lowest priority, as ISR isn't urgent and may take a long time to complete
esp_intr_alloc(irq_source, (int)(ESP_INTR_FLAG_IRAM | ESP_INTR_FLAG_LEVEL1), i2s_isr, NULL, NULL);
#if defined (CONFIG_IDF_TARGET_ESP32S2)
#if defined(CONFIG_IDF_TARGET_ESP32S2)
ESP_LOGD("ESP32-S2", "init() GPIO and clock configuration set for ESP32-S2");
#else
#else
ESP_LOGD("ESP32-ORIG", "init() GPIO and clock configuration set for ESP32");
#endif
#endif
return true;
}
}
void Bus_Parallel16::release(void)
{
void Bus_Parallel16::release(void)
{
if (_dmadesc_a)
{
heap_caps_free(_dmadesc_a);
@ -424,24 +432,25 @@ Modified heavily for the ESP32 HUB75 DMA library by:
_dmadesc_b = nullptr;
_dmadesc_count = 0;
}
}
}
void Bus_Parallel16::enable_double_dma_desc(void)
{
void Bus_Parallel16::enable_double_dma_desc(void)
{
_double_dma_buffer = true;
}
}
// Need this to work for double buffers etc.
bool Bus_Parallel16::allocate_dma_desc_memory(size_t len)
{
if (_dmadesc_a) heap_caps_free(_dmadesc_a); // free all dma descrptios previously
// Need this to work for double buffers etc.
bool Bus_Parallel16::allocate_dma_desc_memory(size_t len)
{
if (_dmadesc_a)
heap_caps_free(_dmadesc_a); // free all dma descrptios previously
_dmadesc_count = len;
_dmadesc_last = len-1;
_dmadesc_last = len - 1;
ESP_LOGI("ESP32/S2", "Allocating memory for %d DMA descriptors.", (int)len);
_dmadesc_a= (HUB75_DMA_DESCRIPTOR_T*)heap_caps_malloc(sizeof(HUB75_DMA_DESCRIPTOR_T) * len, MALLOC_CAP_DMA);
_dmadesc_a = (HUB75_DMA_DESCRIPTOR_T *)heap_caps_malloc(sizeof(HUB75_DMA_DESCRIPTOR_T) * len, MALLOC_CAP_DMA);
if (_dmadesc_a == nullptr)
{
@ -449,14 +458,14 @@ Modified heavily for the ESP32 HUB75 DMA library by:
return false;
}
if (_double_dma_buffer)
{
if (_dmadesc_b) heap_caps_free(_dmadesc_b); // free all dma descrptios previously
if (_dmadesc_b)
heap_caps_free(_dmadesc_b); // free all dma descrptios previously
ESP_LOGD("ESP32/S2", "Allocating the second buffer (double buffer enabled).");
_dmadesc_b = (HUB75_DMA_DESCRIPTOR_T*)heap_caps_malloc(sizeof(HUB75_DMA_DESCRIPTOR_T) * len, MALLOC_CAP_DMA);
_dmadesc_b = (HUB75_DMA_DESCRIPTOR_T *)heap_caps_malloc(sizeof(HUB75_DMA_DESCRIPTOR_T) * len, MALLOC_CAP_DMA);
if (_dmadesc_b == nullptr)
{
@ -472,23 +481,22 @@ Modified heavily for the ESP32 HUB75 DMA library by:
ESP_LOGD("ESP32/S2", "Allocating %d bytes of memory for DMA descriptors.", (int)sizeof(HUB75_DMA_DESCRIPTOR_T) * len);
// New - Temporary blank descriptor for transitions between DMA buffer
_dmadesc_blank = (HUB75_DMA_DESCRIPTOR_T*)heap_caps_malloc(sizeof(HUB75_DMA_DESCRIPTOR_T) * 1, MALLOC_CAP_DMA);
_dmadesc_blank->size = 1024*2;
_dmadesc_blank->length = 1024*2;
_dmadesc_blank->buf = (uint8_t*) _blank_data;
_dmadesc_blank = (HUB75_DMA_DESCRIPTOR_T *)heap_caps_malloc(sizeof(HUB75_DMA_DESCRIPTOR_T) * 1, MALLOC_CAP_DMA);
_dmadesc_blank->size = 1024 * 2;
_dmadesc_blank->length = 1024 * 2;
_dmadesc_blank->buf = (uint8_t *)_blank_data;
_dmadesc_blank->eof = 1;
_dmadesc_blank->sosf = 0;
_dmadesc_blank->owner = 1;
_dmadesc_blank->qe.stqe_next = (lldesc_t*) _dmadesc_blank;
_dmadesc_blank->qe.stqe_next = (lldesc_t *)_dmadesc_blank;
_dmadesc_blank->offset = 0;
return true;
}
}
void Bus_Parallel16::create_dma_desc_link(void *data, size_t size, bool dmadesc_b)
{
static constexpr size_t MAX_DMA_LEN = (4096-4);
void Bus_Parallel16::create_dma_desc_link(void *data, size_t size, bool dmadesc_b)
{
static constexpr size_t MAX_DMA_LEN = (4096 - 4);
if (size > MAX_DMA_LEN)
{
@ -496,9 +504,10 @@ Modified heavily for the ESP32 HUB75 DMA library by:
ESP_LOGW("ESP32/S2", "Creating DMA descriptor which links to payload with size greater than MAX_DMA_LEN!");
}
if ( !dmadesc_b )
if (!dmadesc_b)
{
if ((_dmadesc_a_idx + 1) > _dmadesc_count)
{
if ( (_dmadesc_a_idx+1) > _dmadesc_count) {
ESP_LOGE("ESP32/S2", "Attempted to create more DMA descriptors than allocated memory for. Expecting a maximum of %u DMA descriptors", (unsigned int)_dmadesc_count);
return;
}
@ -508,11 +517,11 @@ Modified heavily for the ESP32 HUB75 DMA library by:
volatile lldesc_t *next;
bool eof = false;
if ( (dmadesc_b == true) ) // for primary buffer
if ((dmadesc_b == true)) // for primary buffer
{
dmadesc = &_dmadesc_b[_dmadesc_b_idx];
next = (_dmadesc_b_idx < (_dmadesc_last) ) ? &_dmadesc_b[_dmadesc_b_idx+1]:_dmadesc_b;
next = (_dmadesc_b_idx < (_dmadesc_last)) ? &_dmadesc_b[_dmadesc_b_idx + 1] : _dmadesc_b;
eof = (_dmadesc_b_idx == (_dmadesc_last));
}
else
@ -520,40 +529,44 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dmadesc = &_dmadesc_a[_dmadesc_a_idx];
// https://stackoverflow.com/questions/47170740/c-negative-array-index
next = (_dmadesc_a_idx < (_dmadesc_last) ) ? _dmadesc_a + _dmadesc_a_idx+1:_dmadesc_a;
next = (_dmadesc_a_idx < (_dmadesc_last)) ? _dmadesc_a + _dmadesc_a_idx + 1 : _dmadesc_a;
eof = (_dmadesc_a_idx == (_dmadesc_last));
}
if ( _dmadesc_a_idx == (_dmadesc_last) ) {
if (_dmadesc_a_idx == (_dmadesc_last))
{
ESP_LOGW("ESP32/S2", "Creating final DMA descriptor and linking back to 0.");
}
dmadesc->size = size;
dmadesc->length = size;
dmadesc->buf = (uint8_t*) data;
dmadesc->buf = (uint8_t *)data;
dmadesc->eof = eof;
dmadesc->sosf = 0;
dmadesc->owner = 1;
dmadesc->qe.stqe_next = (lldesc_t*) next;
dmadesc->qe.stqe_next = (lldesc_t *)next;
dmadesc->offset = 0;
if ( (dmadesc_b == true) ) { // for primary buffer
if ((dmadesc_b == true))
{ // for primary buffer
_dmadesc_b_idx++;
} else {
}
else
{
_dmadesc_a_idx++;
}
} // end create_dma_desc_link
} // end create_dma_desc_link
void Bus_Parallel16::dma_transfer_start()
{
void Bus_Parallel16::dma_transfer_start()
{
auto dev = _dev;
// Configure DMA burst mode
dev->lc_conf.val = I2S_OUT_DATA_BURST_EN | I2S_OUTDSCR_BURST_EN;
// Set address of DMA descriptor, start with buffer 0 / 'a'
dev->out_link.addr = (uint32_t) _dmadesc_a;
dev->out_link.addr = (uint32_t)_dmadesc_a;
// Start DMA operation
dev->out_link.stop = 0;
@ -561,12 +574,10 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dev->conf.tx_start = 1;
} // end
} // end
void Bus_Parallel16::dma_transfer_stop()
{
void Bus_Parallel16::dma_transfer_stop()
{
auto dev = _dev;
// Stop all ongoing DMA operations
@ -574,39 +585,35 @@ Modified heavily for the ESP32 HUB75 DMA library by:
dev->out_link.start = 0;
dev->conf.tx_start = 0;
} // end
} // end
void Bus_Parallel16::flip_dma_output_buffer(int buffer_id) // pass by reference so we can change in main matrixpanel class
{
void Bus_Parallel16::flip_dma_output_buffer(int buffer_id) // pass by reference so we can change in main matrixpanel class
{
// 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" (when dma linked list with eof = 1 is hit)
if ( buffer_id == 1) {
if (buffer_id == 1)
{
_dmadesc_a[_dmadesc_last].qe.stqe_next = &_dmadesc_b[0]; // Start sending out _dmadesc_b (or buffer 1)
//fix _dmadesc_ loop issue #407
//need to connect the up comming _dmadesc_ not the old one
// fix _dmadesc_ loop issue #407
// need to connect the up comming _dmadesc_ not the old one
_dmadesc_b[_dmadesc_last].qe.stqe_next = &_dmadesc_b[0];
} else {
}
else
{
_dmadesc_b[_dmadesc_last].qe.stqe_next = &_dmadesc_a[0];
_dmadesc_a[_dmadesc_last].qe.stqe_next = &_dmadesc_a[0];
}
previousBufferFree = false;
//while (i2s_parallel_is_previous_buffer_free() == false) {}
while (!previousBufferFree);
} // end flip
// while (i2s_parallel_is_previous_buffer_free() == false) {}
while (!previousBufferFree)
;
} // end flip
#endif