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// Copyright 2017 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
# if defined(ESP32)
# include <stdio.h>
# include <stdint.h>
# include <stddef.h>
# include <string.h>
# include "freertos/FreeRTOS.h"
# include "freertos/task.h"
# include "freertos/semphr.h"
# include "freertos/queue.h"
# include "soc/i2s_struct.h"
# include "soc/i2s_reg.h"
# include "driver/periph_ctrl.h"
# include "soc/io_mux_reg.h"
# include "rom/lldesc.h"
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//#include "esp_heap_caps.h"
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# include "esp32_i2s_parallel.h"
typedef struct {
volatile lldesc_t * dmadesc_a , * dmadesc_b ;
int desccount_a , desccount_b ;
} i2s_parallel_state_t ;
static i2s_parallel_state_t * i2s_state [ 2 ] = { NULL , NULL } ;
callback shiftCompleteCallback ;
void setShiftCompleteCallback ( callback f ) {
shiftCompleteCallback = f ;
}
volatile bool previousBufferFree = true ;
static int i2snum ( i2s_dev_t * dev ) {
return ( dev = = & I2S0 ) ? 0 : 1 ;
}
// Todo: handle IS20? (this is hard coded for I2S1 only)
static void IRAM_ATTR i2s_isr ( void * arg ) {
REG_WRITE ( I2S_INT_CLR_REG ( 1 ) , ( REG_READ ( I2S_INT_RAW_REG ( 1 ) ) & 0xffffffc0 ) | 0x3f ) ;
// at this point, the previously active buffer is free, go ahead and write to it
previousBufferFree = true ;
if ( shiftCompleteCallback )
shiftCompleteCallback ( ) ;
}
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/*
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//Calculate the amount of dma descs needed for a buffer desc
static int calc_needed_dma_descs_for ( i2s_parallel_buffer_desc_t * desc ) {
int ret = 0 ;
for ( int i = 0 ; desc [ i ] . memory ! = NULL ; i + + ) {
ret + = ( desc [ i ] . size + DMA_MAX - 1 ) / DMA_MAX ;
}
return ret ;
}
static void fill_dma_desc ( volatile lldesc_t * dmadesc , i2s_parallel_buffer_desc_t * bufdesc ) {
int n = 0 ;
for ( int i = 0 ; bufdesc [ i ] . memory ! = NULL ; i + + ) {
int len = bufdesc [ i ] . size ;
uint8_t * data = ( uint8_t * ) bufdesc [ i ] . memory ;
while ( len ) {
int dmalen = len ;
if ( dmalen > DMA_MAX ) dmalen = DMA_MAX ;
dmadesc [ n ] . size = dmalen ;
dmadesc [ n ] . length = dmalen ;
dmadesc [ n ] . buf = data ;
dmadesc [ n ] . eof = 0 ;
dmadesc [ n ] . sosf = 0 ;
dmadesc [ n ] . owner = 1 ;
dmadesc [ n ] . qe . stqe_next = ( lldesc_t * ) & dmadesc [ n + 1 ] ;
dmadesc [ n ] . offset = 0 ;
len - = dmalen ;
data + = dmalen ;
n + + ;
}
}
// set EOF bit in last dma descriptor
dmadesc [ n - 1 ] . eof = 1 ;
// link end of list back to beginning so current frame will be refreshed continously
dmadesc [ n - 1 ] . qe . stqe_next = ( lldesc_t * ) & dmadesc [ 0 ] ;
printf ( " fill_dma_desc: filled %d descriptors \n " , n ) ;
}
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*/
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// size must be less than DMA_MAX - need to handle breaking long transfer into two descriptors before call
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// DMA_MAX by the way is the maximum data packet size you can hold in one chunk
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void link_dma_desc ( volatile lldesc_t * dmadesc , volatile lldesc_t * prevdmadesc , void * memory , size_t size )
{
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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 ;
}
static void gpio_setup_out ( int gpio , int sig ) {
if ( gpio = = - 1 ) return ;
PIN_FUNC_SELECT ( GPIO_PIN_MUX_REG [ gpio ] , PIN_FUNC_GPIO ) ;
gpio_set_direction ( gpio , GPIO_MODE_DEF_OUTPUT ) ;
gpio_matrix_out ( gpio , sig , 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 ; dev - > conf . rx_fifo_reset = 0 ;
dev - > conf . tx_fifo_reset = 1 ; dev - > conf . tx_fifo_reset = 0 ;
}
void i2s_parallel_setup_without_malloc ( i2s_dev_t * dev , const i2s_parallel_config_t * cfg ) {
//Figure out which signal numbers to use for routing
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//printf("Setting up parallel I2S bus at I2S%d\n", i2snum(dev));
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int sig_data_base , sig_clk ;
if ( dev = = & I2S0 ) {
sig_data_base = I2S0O_DATA_OUT0_IDX ;
sig_clk = I2S0O_WS_OUT_IDX ;
} else {
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//printf("Setting up i2s parallel mode in %d bit mode!\n", cfg->bits);
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if ( cfg - > bits = = I2S_PARALLEL_BITS_32 ) {
sig_data_base = I2S1O_DATA_OUT0_IDX ;
} else if ( cfg - > bits = = I2S_PARALLEL_BITS_16 ) {
//Because of... reasons... the 16-bit values for i2s1 appear on d8...d23
sig_data_base = I2S1O_DATA_OUT8_IDX ;
} else { // I2S_PARALLEL_BITS_8
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//printf("Setting up i2s parallel mode in %d bit mode -> https://www.esp32.com/viewtopic.php?f=17&t=3188 | https://www.esp32.com/viewtopic.php?f=13&t=3256", 8);
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sig_data_base = I2S1O_DATA_OUT0_IDX ;
}
sig_clk = I2S1O_WS_OUT_IDX ;
}
//Route the signals
for ( int x = 0 ; x < cfg - > bits ; x + + ) {
gpio_setup_out ( cfg - > gpio_bus [ x ] , sig_data_base + x ) ;
}
//ToDo: Clk/WS may need inversion?
gpio_setup_out ( cfg - > gpio_clk , sig_clk ) ;
//Power on dev
if ( dev = = & I2S0 ) {
periph_module_enable ( PERIPH_I2S0_MODULE ) ;
} else {
periph_module_enable ( PERIPH_I2S1_MODULE ) ;
}
//Initialize I2S dev
dev - > conf . rx_reset = 1 ; dev - > conf . rx_reset = 0 ;
dev - > conf . tx_reset = 1 ; dev - > conf . tx_reset = 0 ;
dma_reset ( dev ) ;
fifo_reset ( dev ) ;
//Enable 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 ( cfg - > bits = = I2S_PARALLEL_BITS_8 )
dev - > conf2 . lcd_tx_wrx2_en = 1 ;
dev - > sample_rate_conf . val = 0 ;
dev - > sample_rate_conf . rx_bits_mod = cfg - > bits ;
dev - > sample_rate_conf . tx_bits_mod = cfg - > bits ;
dev - > sample_rate_conf . rx_bck_div_num = 4 ; //ToDo: Unsure about what this does...
// because conf2.lcd_tx_wrx2_en is set for 8-bit mode, the clock speed is doubled, drop it in half here
if ( cfg - > bits = = I2S_PARALLEL_BITS_8 )
dev - > sample_rate_conf . tx_bck_div_num = 2 ;
else
dev - > sample_rate_conf . tx_bck_div_num = 1 ; // datasheet says this must be 2 or greater (but 1 seems to work)
dev - > clkm_conf . val = 0 ;
dev - > clkm_conf . clka_en = 0 ;
dev - > clkm_conf . clkm_div_a = 63 ;
dev - > clkm_conf . clkm_div_b = 63 ;
//We ignore the possibility for fractional division here, clkspeed_hz must round up for a fractional clock speed, must result in >= 2
dev - > clkm_conf . clkm_div_num = 80000000L / ( cfg - > clkspeed_hz + 1 ) ;
dev - > fifo_conf . val = 0 ;
dev - > fifo_conf . rx_fifo_mod_force_en = 1 ;
dev - > fifo_conf . tx_fifo_mod_force_en = 1 ;
//dev->fifo_conf.tx_fifo_mod=1;
dev - > fifo_conf . tx_fifo_mod = 1 ;
dev - > fifo_conf . rx_data_num = 32 ; //Thresholds.
dev - > fifo_conf . tx_data_num = 32 ;
dev - > fifo_conf . dscr_en = 1 ;
dev - > conf1 . val = 0 ;
dev - > conf1 . tx_stop_en = 0 ;
dev - > conf1 . tx_pcm_bypass = 1 ;
dev - > conf_chan . val = 0 ;
dev - > conf_chan . tx_chan_mod = 1 ;
dev - > conf_chan . rx_chan_mod = 1 ;
//Invert ws to be active-low... ToDo: make this configurable
//dev->conf.tx_right_first=1;
dev - > conf . tx_right_first = 0 ;
//dev->conf.rx_right_first=1;
dev - > conf . rx_right_first = 0 ;
dev - > timing . val = 0 ;
//Allocate DMA descriptors
i2s_state [ i2snum ( dev ) ] = malloc ( sizeof ( i2s_parallel_state_t ) ) ;
assert ( i2s_state [ i2snum ( dev ) ] ! = NULL ) ;
i2s_parallel_state_t * st = i2s_state [ i2snum ( dev ) ] ;
st - > desccount_a = cfg - > desccount_a ;
st - > desccount_b = cfg - > desccount_b ;
st - > dmadesc_a = cfg - > lldesc_a ;
st - > dmadesc_b = cfg - > lldesc_b ;
//Reset FIFO/DMA -> needed? Doesn't dma_reset/fifo_reset do this?
dev - > lc_conf . in_rst = 1 ; dev - > lc_conf . out_rst = 1 ; dev - > lc_conf . ahbm_rst = 1 ; dev - > lc_conf . ahbm_fifo_rst = 1 ;
dev - > lc_conf . in_rst = 0 ; dev - > lc_conf . out_rst = 0 ; dev - > lc_conf . ahbm_rst = 0 ; dev - > lc_conf . ahbm_fifo_rst = 0 ;
dev - > conf . tx_reset = 1 ; dev - > conf . tx_fifo_reset = 1 ; dev - > conf . rx_fifo_reset = 1 ;
dev - > conf . tx_reset = 0 ; dev - > conf . tx_fifo_reset = 0 ; dev - > conf . rx_fifo_reset = 0 ;
// setup I2S Interrupt
SET_PERI_REG_BITS ( I2S_INT_ENA_REG ( 1 ) , I2S_OUT_EOF_INT_ENA_V , 1 , I2S_OUT_EOF_INT_ENA_S ) ;
// allocate a level 1 intterupt: lowest priority, as ISR isn't urgent and may take a long time to complete
esp_intr_alloc ( ETS_I2S1_INTR_SOURCE , ( int ) ( ESP_INTR_FLAG_IRAM | ESP_INTR_FLAG_LEVEL1 ) , i2s_isr , NULL , NULL ) ;
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//Start dma on front buffer (buffer a)
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dev - > lc_conf . val = I2S_OUT_DATA_BURST_EN | I2S_OUTDSCR_BURST_EN | I2S_OUT_DATA_BURST_EN ;
dev - > out_link . addr = ( ( uint32_t ) ( & st - > dmadesc_a [ 0 ] ) ) ;
dev - > out_link . start = 1 ;
dev - > conf . tx_start = 1 ;
}
//Flip to a buffer: 0 for bufa, 1 for bufb
void i2s_parallel_flip_to_buffer ( i2s_dev_t * dev , int bufid ) {
int no = i2snum ( dev ) ;
if ( i2s_state [ no ] = = NULL ) return ;
lldesc_t * active_dma_chain ;
if ( bufid = = 0 ) {
active_dma_chain = ( lldesc_t * ) & i2s_state [ no ] - > dmadesc_a [ 0 ] ;
} else {
active_dma_chain = ( lldesc_t * ) & i2s_state [ no ] - > dmadesc_b [ 0 ] ;
}
// setup linked list to refresh from new buffer (continuously) when the end of the current list has been reached
i2s_state [ no ] - > dmadesc_a [ i2s_state [ no ] - > desccount_a - 1 ] . qe . stqe_next = active_dma_chain ;
i2s_state [ no ] - > dmadesc_b [ i2s_state [ no ] - > desccount_b - 1 ] . qe . stqe_next = active_dma_chain ;
// we're still refreshing the previously buffer, so it shouldn't be written to yet
previousBufferFree = false ;
}
bool i2s_parallel_is_previous_buffer_free ( ) {
return previousBufferFree ;
}
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# endif