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https://github.com/Keychron/qmk_firmware.git
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[Core] Allow custom timings for WS2812 PIO driver (#18006)
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@ -175,7 +175,7 @@ Configure the hardware via your config.h:
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#define WS2812_PIO_USE_PIO1 // Force the usage of PIO1 peripheral, by default the WS2812 implementation uses the PIO0 peripheral
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```
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The WS2812 PIO programm uses 1 state machine, 4 instructions and does not use any interrupt handlers.
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The WS2812 PIO programm uses 1 state machine, 6 instructions and one DMA interrupt handler callback. Due to the implementation the time resolution for this drivers is 50ns, any value not specified in this interval will be rounded to the next matching interval.
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### Push Pull and Open Drain Configuration
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The default configuration is a push pull on the defined pin.
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@ -1,4 +1,4 @@
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// Copyright 2022 Stefan Kerkmann
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// Copyright 2022 Stefan Kerkmann (@KarlK90)
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "quantum.h"
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@ -17,53 +17,156 @@ static const PIO pio = pio0;
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#endif
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#if !defined(RP_DMA_PRIORITY_WS2812)
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# define RP_DMA_PRIORITY_WS2812 12
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# define RP_DMA_PRIORITY_WS2812 3
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#endif
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static int state_machine = -1;
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#define WS2812_WRAP_TARGET 0
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#define WS2812_WRAP 3
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#define WS2812_T1 2
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#define WS2812_T2 5
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#define WS2812_T3 3
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#if defined(WS2812_EXTERNAL_PULLUP)
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# pragma message "The GPIOs of the RP2040 are NOT 5V tolerant! Make sure to NOT apply any voltage over 3.3V to the RGB data pin."
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// clang-format off
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static const uint16_t ws2812_program_instructions[] = {
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// .wrap_target
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0x7221, // 0: out x, 1 side 1 [2]
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0x0123, // 1: jmp !x, 3 side 0 [1]
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0x0400, // 2: jmp 0 side 0 [4]
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0xb442, // 3: nop side 1 [4]
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// .wrap
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};
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#else
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static const uint16_t ws2812_program_instructions[] = {
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// .wrap_target
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0x6221, // 0: out x, 1 side 0 [2]
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0x1123, // 1: jmp !x, 3 side 1 [1]
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0x1400, // 2: jmp 0 side 1 [4]
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0xa442, // 3: nop side 0 [4]
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// .wrap
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};
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// clang-format on
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#endif
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/*================== WS2812 PIO TIMINGS =================*/
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// WS2812_T1L rounded to 50ns intervals and split into two wait timings
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#define PIO_T1L (WS2812_T1L / 50)
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#define PIO_T1L_A (MAX(CEILING(PIO_T1L, 2) - 1, 0))
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#define PIO_T1L_B (MAX(PIO_T1L / 2 - 1, 0))
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// WS2812_T0L rounded to 50ns intervals
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#define PIO_T0L (MAX(WS2812_T0L / 50 - PIO_T1L, 0))
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#define PIO_T0L_A (MAX(PIO_T0L - 1, 0))
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// WS2812_T0H rounded to 50ns intervals
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#define PIO_T0H (WS2812_T0H / 50)
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#define PIO_T0H_A MAX(PIO_T0H - 1, 0)
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// WS2812_T1H rounded to 50ns intervals and split into two wait timings
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#define PIO_T1H (MAX(WS2812_T1H / 50 - PIO_T0H, 0))
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#define PIO_T1H_A (MAX((CEILING(PIO_T1H, 2) - 1), 0))
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#define PIO_T1H_B (MAX((PIO_T1H / 2) - 1, 0))
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#if (WS2812_T0L % 50) != 0
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# pragma message "WS2812_T0L is not given in an 50ns interval, it will be rounded to the next 50ns"
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#endif
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#if (WS2812_T0H % 50) != 0
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# pragma message "WS2812_T0H is not given in an 50ns interval, it will be rounded to the next 50ns"
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#endif
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#if (WS2812_T1L % 50) != 0
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# pragma message "WS2812_T0L is not given in an 50ns interval, it will be rounded to the next 50ns"
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#endif
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#if (WS2812_T1H % 50) != 0
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# pragma message "WS2812_T0H is not given in an 50ns interval, it will be rounded to the next 50ns"
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#endif
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#if WS2812_T0L < WS2812_T1L
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# error WS2812_T0L is shorter than WS2812_T1L, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T1H < WS2812_T0H
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# error WS2812_T1H is shorter than WS2812_T0H, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T0L > (850 + WS2812_T1L)
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# error WS2812_T0L is longer than 850ns + WS2812_T1L, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T0H > 850
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# error WS2812_T0H is longer than 850ns, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T1H > (1700 + WS2812_T0H)
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# error WS2812_T1H is longer than 1700ns + WS2812_T0H, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T1L > 1700
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# error WS2812_T1L is longer than 1700ns, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T0L < (50 + WS2812_T1L)
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# error WS2812_T0L is shorter than 50ns + WS2812_T1L, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T0H < 50
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# error WS2812_T0H is shorter than 50ns, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T1H < (100 + WS2812_T0H)
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# error WS2812_T1H is longer than 100ns + WS2812_T0H, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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#if WS2812_T1L < 100
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# error WS2812_T1L is longer than 1700ns, this is impossible to express in the RP2040 PIO driver. Please correct your timings.
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#endif
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/**
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* @brief Helper macro to binary patch the delay part of an per-compiled PIO
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* opcode.
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*/
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#define PIO_DELAY(delay, opcode) (((delay & 0xF) << 8U) | opcode)
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#define WS2812_WRAP_TARGET 0
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#define WS2812_WRAP 5
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static const uint16_t ws2812_program_instructions[] = {
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// .wrap_target
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PIO_DELAY(PIO_T1L_A, 0x6021), // 0: out x, 1 side 0 // T1L (max. 1700ns)
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PIO_DELAY(PIO_T1L_B, 0xa042), // 1: nop side 0 // T1L
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PIO_DELAY(PIO_T0H_A, 0x1025), // 2: jmp !x, 5 side 1 // T0H (max. 850ns)
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PIO_DELAY(PIO_T1H_A, 0xb042), // 3: nop side 1 // T1H (max. 1700ns + T0H)
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PIO_DELAY(PIO_T1H_B, 0x1000), // 4: jmp 0 side 1 // T1H
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PIO_DELAY(PIO_T0L_A, 0xa042), // 5: nop side 0 // T0L (max. 850ns + T1L)
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// .wrap
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};
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static const pio_program_t ws2812_program = {
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.instructions = ws2812_program_instructions,
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.length = 4,
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.length = ARRAY_SIZE(ws2812_program_instructions),
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.origin = -1,
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};
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static uint32_t WS2812_BUFFER[WS2812_LED_COUNT];
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static const rp_dma_channel_t* WS2812_DMA_CHANNEL;
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static uint32_t RP_DMA_MODE_WS2812;
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static int STATE_MACHINE = -1;
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static SEMAPHORE_DECL(TRANSFER_COUNTER, 1);
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static rtcnt_t LAST_TRANSFER;
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/**
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* @brief Convert RGBW value into WS2812 compatible 32-bit data word.
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*/
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__always_inline static uint32_t rgbw8888_to_u32(uint8_t red, uint8_t green, uint8_t blue, uint8_t white) {
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#if (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_GRB)
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return ((uint32_t)green << 24) | ((uint32_t)red << 16) | ((uint32_t)blue << 8) | ((uint32_t)white);
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#elif (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_RGB)
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return ((uint32_t)red << 24) | ((uint32_t)green << 16) | ((uint32_t)blue << 8) | ((uint32_t)white);
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#elif (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_BGR)
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return ((uint32_t)blue << 24) | ((uint32_t)green << 16) | ((uint32_t)red << 8) | ((uint32_t)white);
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#endif
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}
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static void ws2812_dma_callback(void* p, uint32_t ct) {
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// We assume that there is at least one frame left in the OSR even if the TX
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// FIFO is already empty.
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rtcnt_t time_to_completion = (pio_sm_get_tx_fifo_level(pio, STATE_MACHINE) + 1) * MAX(WS2812_T1H + WS2812_T1L, WS2812_T0H + WS2812_T0L);
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#if defined(RGBW)
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time_to_completion *= 32;
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#else
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time_to_completion *= 24;
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#endif
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// Convert from ns to us
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time_to_completion /= 1000;
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LAST_TRANSFER = chSysGetRealtimeCounterX() + time_to_completion + WS2812_TRST_US;
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osalSysLockFromISR();
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chSemSignalI(&TRANSFER_COUNTER);
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osalSysUnlockFromISR();
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}
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bool ws2812_init(void) {
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uint pio_idx = pio_get_index(pio);
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@ -73,20 +176,23 @@ bool ws2812_init(void) {
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// clang-format off
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iomode_t rgb_pin_mode = PAL_RP_PAD_SLEWFAST |
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PAL_RP_GPIO_OE |
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#if defined(WS2812_EXTERNAL_PULLUP)
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PAL_RP_IOCTRL_OEOVER_DRVINVPERI |
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#endif
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(pio_idx == 0 ? PAL_MODE_ALTERNATE_PIO0 : PAL_MODE_ALTERNATE_PIO1);
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// clang-format on
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palSetLineMode(RGB_DI_PIN, rgb_pin_mode);
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state_machine = pio_claim_unused_sm(pio, true);
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if (state_machine < 0) {
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STATE_MACHINE = pio_claim_unused_sm(pio, true);
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if (STATE_MACHINE < 0) {
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dprintln("ERROR: Failed to acquire state machine for WS2812 output!");
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return false;
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}
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uint offset = pio_add_program(pio, &ws2812_program);
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pio_sm_set_consecutive_pindirs(pio, state_machine, RGB_DI_PIN, 1, true);
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pio_sm_set_consecutive_pindirs(pio, STATE_MACHINE, RGB_DI_PIN, 1, true);
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pio_sm_config config = pio_get_default_sm_config();
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sm_config_set_wrap(&config, offset + WS2812_WRAP_TARGET, offset + WS2812_WRAP);
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@ -113,57 +219,44 @@ bool ws2812_init(void) {
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sm_config_set_out_shift(&config, false, true, 24);
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#endif
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int cycles_per_bit = WS2812_T1 + WS2812_T2 + WS2812_T3;
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float div = clock_get_hz(clk_sys) / (800.0f * KHZ * cycles_per_bit);
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// Every instruction takes 50ns to execute with a clock speed of 20 MHz,
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// giving the WS2812 PIO driver its time resolution
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float div = clock_get_hz(clk_sys) / (20.0f * MHZ);
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sm_config_set_clkdiv(&config, div);
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pio_sm_init(pio, state_machine, offset, &config);
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pio_sm_set_enabled(pio, state_machine, true);
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pio_sm_init(pio, STATE_MACHINE, offset, &config);
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pio_sm_set_enabled(pio, STATE_MACHINE, true);
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WS2812_DMA_CHANNEL = dmaChannelAlloc(RP_DMA_CHANNEL_ID_ANY, RP_DMA_PRIORITY_WS2812, NULL, NULL);
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WS2812_DMA_CHANNEL = dmaChannelAlloc(RP_DMA_CHANNEL_ID_ANY, RP_DMA_PRIORITY_WS2812, (rp_dmaisr_t)ws2812_dma_callback, NULL);
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dmaChannelEnableInterruptX(WS2812_DMA_CHANNEL);
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dmaChannelSetDestinationX(WS2812_DMA_CHANNEL, (uint32_t)&pio->txf[STATE_MACHINE]);
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// clang-format off
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uint32_t mode = DMA_CTRL_TRIG_INCR_READ |
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DMA_CTRL_TRIG_DATA_SIZE_WORD |
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DMA_CTRL_TRIG_IRQ_QUIET |
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DMA_CTRL_TRIG_TREQ_SEL(pio_idx == 0 ? state_machine : state_machine + 8);
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RP_DMA_MODE_WS2812 = DMA_CTRL_TRIG_INCR_READ |
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DMA_CTRL_TRIG_DATA_SIZE_WORD |
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DMA_CTRL_TRIG_TREQ_SEL(pio == pio0 ? STATE_MACHINE : STATE_MACHINE + 8) |
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DMA_CTRL_TRIG_PRIORITY(RP_DMA_PRIORITY_WS2812);
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// clang-format on
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dmaChannelSetModeX(WS2812_DMA_CHANNEL, mode);
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dmaChannelSetDestinationX(WS2812_DMA_CHANNEL, (uint32_t)&pio->txf[state_machine]);
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return true;
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}
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/**
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* @brief Convert RGBW value into WS2812 compatible 32-bit data word.
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*/
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__always_inline static uint32_t rgbw8888_to_u32(uint8_t red, uint8_t green, uint8_t blue, uint8_t white) {
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#if (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_GRB)
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return ((uint32_t)green << 24) | ((uint32_t)red << 16) | ((uint32_t)blue << 8) | ((uint32_t)white);
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#elif (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_RGB)
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return ((uint32_t)red << 24) | ((uint32_t)green << 16) | ((uint32_t)blue << 8) | ((uint32_t)white);
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#elif (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_BGR)
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return ((uint32_t)blue << 24) | ((uint32_t)green << 16) | ((uint32_t)red << 8) | ((uint32_t)white);
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#endif
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}
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static inline void sync_ws2812_transfer(void) {
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if (unlikely(dmaChannelIsBusyX(WS2812_DMA_CHANNEL) || !pio_sm_is_tx_fifo_empty(pio, state_machine))) {
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fast_timer_t start = timer_read_fast();
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do {
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// Abort the synchronization if we have to wait longer than the total
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// count of LEDs in millisecounds. This is safely much longer than it
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// would take to push all the data out.
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if (unlikely(timer_elapsed_fast(start) > WS2812_LED_COUNT)) {
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dprintln("ERROR: WS2812 DMA transfer has stalled, aborting!");
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dmaChannelDisableX(WS2812_DMA_CHANNEL);
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return;
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}
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} while (dmaChannelIsBusyX(WS2812_DMA_CHANNEL) || !pio_sm_is_tx_fifo_empty(pio, state_machine));
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// We wait for the WS2812 chain to reset after all data has been pushed
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// out.
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if (chSemWaitTimeout(&TRANSFER_COUNTER, TIME_MS2I(RGBLED_NUM)) == MSG_TIMEOUT) {
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// Abort the synchronization if we have to wait longer than the total
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// count of LEDs in milliseconds. This is safely much longer than it
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// would take to push all the data out.
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dprintln("ERROR: WS2812 DMA transfer has stalled, aborting!");
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dmaChannelDisableX(WS2812_DMA_CHANNEL);
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pio_sm_clear_fifos(pio, STATE_MACHINE);
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pio_sm_restart(pio, STATE_MACHINE);
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chSemReset(&TRANSFER_COUNTER, 0);
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wait_us(WS2812_TRST_US);
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return;
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}
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// Busy wait until last transfer has finished
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while (unlikely(!timer_expired32(chSysGetRealtimeCounterX(), LAST_TRANSFER))) {
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}
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}
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@ -185,5 +278,6 @@ void ws2812_setleds(LED_TYPE* ledarray, uint16_t leds) {
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dmaChannelSetSourceX(WS2812_DMA_CHANNEL, (uint32_t)WS2812_BUFFER);
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dmaChannelSetCounterX(WS2812_DMA_CHANNEL, leds);
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dmaChannelSetModeX(WS2812_DMA_CHANNEL, RP_DMA_MODE_WS2812);
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dmaChannelEnableX(WS2812_DMA_CHANNEL);
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}
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