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Fixes to work again with old idf too

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0xFEEDC0DE64
2022-03-05 15:26:17 +01:00
parent 9f58515d7f
commit 0bfbfd527d
1 changed files with 75 additions and 19 deletions
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94
cores/esp32/esp32-hal-rmt.c
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@ -21,11 +21,7 @@
#include "esp8266-compat.h"
#include "soc/gpio_reg.h"
#include "soc/rmt_struct.h"
#ifdef OLD_IDF
#include "esp_private/periph_ctrl.h"
#else
#include "driver/periph_ctrl.h"
#endif
#include "esp_intr_alloc.h"
#include "hal/rmt_ll.h"
#include "driver/rmt.h"
@ -297,7 +293,11 @@ bool rmtWrite(rmt_obj_t* rmt, rmt_data_t* data, size_t size)
RMT.conf_ch[channel].conf1.mem_wr_rst = 0;
// set the tx end mark
RMTMEM.chan[channel].data32[MAX_DATA_PER_ITTERATION] = 0;
RMTMEM.chan[channel].data32[MAX_DATA_PER_ITTERATION]
#ifdef OLD_IDF
.val
#endif
= 0;
// clear and enable both Tx completed and half tx event
RMT.int_clr.val = _INT_TX_END(channel);
@ -619,7 +619,11 @@ bool _rmtSendOnce(rmt_obj_t* rmt, rmt_data_t* data, size_t size, bool continuous
*rmt_mem_ptr++ = data[i].val;
}
// tx end mark
RMTMEM.chan[channel].data32[size] = 0;
RMTMEM.chan[channel].data32[size]
#ifdef OLD_IDF
.val
#endif
= 0;
}
RMT_MUTEX_LOCK(channel);
@ -692,7 +696,11 @@ static void ARDUINO_ISR_ATTR _rmt_isr(void* arg)
}
uint32_t *data_received = data;
for (i = 0; i < g_rmt_objects[ch].data_size; i++ ) {
*data++ = RMTMEM.chan[ch].data32[i];
*data++ = RMTMEM.chan[ch].data32[i]
#ifdef OLD_IDF
.val
#endif
;
}
if (g_rmt_objects[ch].cb) {
// actually received data ptr
@ -771,16 +779,28 @@ static void ARDUINO_ISR_ATTR _rmt_tx_mem_second(uint8_t ch)
// will the remaining data occupy the entire halfbuffer
if (remaining_size > half_tx_nr) {
for (i = 0; i < half_tx_nr; i++) {
RMTMEM.chan[ch].data32[half_tx_nr+i] = data[i];
RMTMEM.chan[ch].data32[half_tx_nr+i]
#ifdef OLD_IDF
.val
#endif
= data[i];
}
g_rmt_objects[ch].data_size -= half_tx_nr;
g_rmt_objects[ch].data_ptr += half_tx_nr;
} else {
for (i = 0; i < half_tx_nr; i++) {
if (i < remaining_size) {
RMTMEM.chan[ch].data32[half_tx_nr+i] = data[i];
RMTMEM.chan[ch].data32[half_tx_nr+i]
#ifdef OLD_IDF
.val
#endif
= data[i];
} else {
RMTMEM.chan[ch].data32[half_tx_nr+i] = 0x000F000F;
RMTMEM.chan[ch].data32[half_tx_nr+i]
#ifdef OLD_IDF
.val
#endif
= 0x000F000F;
}
}
g_rmt_objects[ch].data_ptr = NULL;
@ -789,9 +809,17 @@ static void ARDUINO_ISR_ATTR _rmt_tx_mem_second(uint8_t ch)
} else if ((!(g_rmt_objects[ch].tx_state & E_LAST_DATA)) &&
(!(g_rmt_objects[ch].tx_state & E_END_TRANS))) {
for (i = 0; i < half_tx_nr; i++) {
RMTMEM.chan[ch].data32[half_tx_nr+i] = 0x000F000F;
RMTMEM.chan[ch].data32[half_tx_nr+i]
#ifdef OLD_IDF
.val
#endif
= 0x000F000F;
}
RMTMEM.chan[ch].data32[half_tx_nr+i] = 0;
RMTMEM.chan[ch].data32[half_tx_nr+i]
#ifdef OLD_IDF
.val
#endif
= 0;
g_rmt_objects[ch].tx_state |= E_LAST_DATA;
RMT.conf_ch[ch].conf1.tx_conti_mode = 0;
} else {
@ -819,9 +847,17 @@ static void ARDUINO_ISR_ATTR _rmt_tx_mem_first(uint8_t ch)
// will the remaining data occupy the entire halfbuffer
if (remaining_size > half_tx_nr) {
RMTMEM.chan[ch].data32[0] = data[0] - 1;
RMTMEM.chan[ch].data32[0]
#ifdef OLD_IDF
.val
#endif
= data[0] - 1;
for (i = 1; i < half_tx_nr; i++) {
RMTMEM.chan[ch].data32[i] = data[i];
RMTMEM.chan[ch].data32[i]
#ifdef OLD_IDF
.val
#endif
= data[i];
}
g_rmt_objects[ch].tx_state &= ~E_FIRST_HALF;
// turn off the treshold interrupt
@ -830,12 +866,24 @@ static void ARDUINO_ISR_ATTR _rmt_tx_mem_first(uint8_t ch)
g_rmt_objects[ch].data_size -= half_tx_nr;
g_rmt_objects[ch].data_ptr += half_tx_nr;
} else {
RMTMEM.chan[ch].data32[0] = data[0] - 1;
RMTMEM.chan[ch].data32[0]
#ifdef OLD_IDF
.val
#endif
= data[0] - 1;
for (i = 1; i < half_tx_nr; i++) {
if (i < remaining_size) {
RMTMEM.chan[ch].data32[i] = data[i];
RMTMEM.chan[ch].data32[i]
#ifdef OLD_IDF
.val
#endif
= data[i];
} else {
RMTMEM.chan[ch].data32[i] = 0x000F000F;
RMTMEM.chan[ch].data32[i]
#ifdef OLD_IDF
.val
#endif
= 0x000F000F;
}
}
@ -844,9 +892,17 @@ static void ARDUINO_ISR_ATTR _rmt_tx_mem_first(uint8_t ch)
}
} else {
for (i = 0; i < half_tx_nr; i++) {
RMTMEM.chan[ch].data32[i] = 0x000F000F;
RMTMEM.chan[ch].data32[i]
#ifdef OLD_IDF
.val
#endif
= 0x000F000F;
}
RMTMEM.chan[ch].data32[i] = 0;
RMTMEM.chan[ch].data32[i]
#ifdef OLD_IDF
.val
#endif
= 0;
g_rmt_objects[ch].tx_state &= ~E_FIRST_HALF;
RMT.tx_lim_ch[ch].limit = 0;