mirror of
https://github.com/Keychron/qmk_firmware.git
synced 2024-12-12 13:17:38 +06:00
400 lines
16 KiB
C
400 lines
16 KiB
C
#include "ws2812.h"
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#include "gpio.h"
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#include "chibios_config.h"
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// ======== DEPRECATED DEFINES - DO NOT USE ========
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#ifdef WS2812_DMA_STREAM
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# define WS2812_PWM_DMA_STREAM WS2812_DMA_STREAM
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#endif
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#ifdef WS2812_DMA_CHANNEL
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# define WS2812_PWM_DMA_CHANNEL WS2812_DMA_CHANNEL
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#endif
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#ifdef WS2812_DMAMUX_ID
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# define WS2812_PWM_DMAMUX_ID WS2812_DMAMUX_ID
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#endif
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// ========
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/* Adapted from https://github.com/joewa/WS2812-LED-Driver_ChibiOS/ */
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#ifdef WS2812_RGBW
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# define WS2812_CHANNELS 4
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#else
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# define WS2812_CHANNELS 3
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#endif
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#ifndef WS2812_PWM_DRIVER
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# define WS2812_PWM_DRIVER PWMD2 // TIMx
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#endif
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#ifndef WS2812_PWM_CHANNEL
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# define WS2812_PWM_CHANNEL 2 // Channel
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#endif
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#ifndef WS2812_PWM_PAL_MODE
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# define WS2812_PWM_PAL_MODE 2 // DI Pin's alternate function value
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#endif
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#ifndef WS2812_PWM_DMA_STREAM
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# define WS2812_PWM_DMA_STREAM STM32_DMA1_STREAM2 // DMA Stream for TIMx_UP
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#endif
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#ifndef WS2812_PWM_DMA_CHANNEL
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# define WS2812_PWM_DMA_CHANNEL 2 // DMA Channel for TIMx_UP
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#endif
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#if (STM32_DMA_SUPPORTS_DMAMUX == TRUE) && !defined(WS2812_PWM_DMAMUX_ID)
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# error "please consult your MCU's datasheet and specify in your config.h: #define WS2812_PWM_DMAMUX_ID STM32_DMAMUX1_TIM?_UP"
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#endif
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/* Summarize https://www.st.com/resource/en/application_note/an4013-stm32-crossseries-timer-overview-stmicroelectronics.pdf to
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* figure out if we are using a 32bit timer. This is needed to setup the DMA controller correctly.
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* Ignore STM32H7XX and STM32U5XX as they are not supported by ChibiOS.
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*/
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#if !defined(STM32F1XX) && !defined(STM32L0XX) && !defined(STM32L1XX)
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# define WS2812_PWM_TIMER_32BIT_PWMD2 1
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#endif
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#if !defined(STM32F1XX)
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# define WS2812_PWM_TIMER_32BIT_PWMD5 1
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#endif
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#define WS2812_CONCAT1(a, b) a##b
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#define WS2812_CONCAT(a, b) WS2812_CONCAT1(a, b)
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#if WS2812_CONCAT(WS2812_PWM_TIMER_32BIT_, WS2812_PWM_DRIVER)
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# define WS2812_PWM_TIMER_32BIT
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#endif
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#ifndef WS2812_PWM_COMPLEMENTARY_OUTPUT
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# define WS2812_PWM_OUTPUT_MODE PWM_OUTPUT_ACTIVE_HIGH
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#else
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# define WS2812_PWM_OUTPUT_MODE PWM_COMPLEMENTARY_OUTPUT_ACTIVE_HIGH
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#endif
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// Push Pull or Open Drain Configuration
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// Default Push Pull
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#ifndef WS2812_EXTERNAL_PULLUP
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# if defined(USE_GPIOV1)
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# define WS2812_OUTPUT_MODE PAL_MODE_ALTERNATE_PUSHPULL
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# else
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# define WS2812_OUTPUT_MODE PAL_MODE_ALTERNATE(WS2812_PWM_PAL_MODE) | PAL_OUTPUT_TYPE_PUSHPULL | PAL_OUTPUT_SPEED_HIGHEST | PAL_PUPDR_FLOATING
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# endif
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#else
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# if defined(USE_GPIOV1)
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# define WS2812_OUTPUT_MODE PAL_MODE_ALTERNATE_OPENDRAIN
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# else
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# define WS2812_OUTPUT_MODE PAL_MODE_ALTERNATE(WS2812_PWM_PAL_MODE) | PAL_OUTPUT_TYPE_OPENDRAIN | PAL_OUTPUT_SPEED_HIGHEST | PAL_PUPDR_FLOATING
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# endif
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#endif
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#ifndef WS2812_PWM_TARGET_PERIOD
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//# define WS2812_PWM_TARGET_PERIOD 800000 // Original code is 800k...?
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# define WS2812_PWM_TARGET_PERIOD 80000 // TODO: work out why 10x less on f303/f4x1
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#endif
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/* --- PRIVATE CONSTANTS ---------------------------------------------------- */
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#define WS2812_PWM_FREQUENCY (CPU_CLOCK / 2) /**< Clock frequency of PWM, must be valid with respect to system clock! */
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#define WS2812_PWM_PERIOD (WS2812_PWM_FREQUENCY / WS2812_PWM_TARGET_PERIOD) /**< Clock period in ticks. 1 / 800kHz = 1.25 uS (as per datasheet) */
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/**
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* @brief Number of bit-periods to hold the data line low at the end of a frame
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*
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* The reset period for each frame is defined in WS2812_TRST_US.
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* Calculate the number of zeroes to add at the end assuming 1.25 uS/bit:
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*/
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#define WS2812_COLOR_BITS (WS2812_CHANNELS * 8)
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#define WS2812_RESET_BIT_N (1000 * WS2812_TRST_US / WS2812_TIMING)
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#define WS2812_COLOR_BIT_N (WS2812_LED_COUNT * WS2812_COLOR_BITS) /**< Number of data bits */
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#define WS2812_BIT_N (WS2812_COLOR_BIT_N + WS2812_RESET_BIT_N) /**< Total number of bits in a frame */
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/**
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* @brief High period for a zero, in ticks
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*
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* Per the datasheet:
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* WS2812:
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* - T0H: 200 nS to 500 nS, inclusive
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* - T0L: 650 nS to 950 nS, inclusive
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* WS2812B:
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* - T0H: 200 nS to 500 nS, inclusive
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* - T0L: 750 nS to 1050 nS, inclusive
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*
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* The duty cycle is calculated for a high period of 350 nS.
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*/
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#define WS2812_DUTYCYCLE_0 (WS2812_PWM_FREQUENCY / (1000000000 / 350))
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#if (WS2812_DUTYCYCLE_0 > 255)
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# error WS2812 PWM driver: High period for a 0 is more than a byte
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#endif
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/**
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* @brief High period for a one, in ticks
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*
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* Per the datasheet:
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* WS2812:
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* - T1H: 550 nS to 850 nS, inclusive
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* - T1L: 450 nS to 750 nS, inclusive
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* WS2812B:
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* - T1H: 750 nS to 1050 nS, inclusive
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* - T1L: 200 nS to 500 nS, inclusive
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*
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* The duty cycle is calculated for a high period of 800 nS.
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* This is in the middle of the specifications of the WS2812 and WS2812B.
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*/
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#define WS2812_DUTYCYCLE_1 (WS2812_PWM_FREQUENCY / (1000000000 / 800))
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#if (WS2812_DUTYCYCLE_1 > 255)
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# error WS2812 PWM driver: High period for a 1 is more than a byte
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#endif
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/* --- PRIVATE MACROS ------------------------------------------------------- */
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given bit
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] byte: The byte number [0, 2]
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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#define WS2812_BIT(led, byte, bit) (WS2812_COLOR_BITS * (led) + 8 * (byte) + (7 - (bit)))
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#if (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_GRB)
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given red bit
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*
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* @note The red byte is the middle byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_RED_BIT(led, bit) WS2812_BIT((led), 1, (bit))
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given green bit
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*
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* @note The red byte is the first byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_GREEN_BIT(led, bit) WS2812_BIT((led), 0, (bit))
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given blue bit
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*
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* @note The red byte is the last byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit index [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_BLUE_BIT(led, bit) WS2812_BIT((led), 2, (bit))
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#elif (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_RGB)
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given red bit
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*
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* @note The red byte is the middle byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_RED_BIT(led, bit) WS2812_BIT((led), 0, (bit))
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given green bit
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*
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* @note The red byte is the first byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_GREEN_BIT(led, bit) WS2812_BIT((led), 1, (bit))
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given blue bit
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*
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* @note The red byte is the last byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit index [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_BLUE_BIT(led, bit) WS2812_BIT((led), 2, (bit))
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#elif (WS2812_BYTE_ORDER == WS2812_BYTE_ORDER_BGR)
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given red bit
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*
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* @note The red byte is the middle byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_RED_BIT(led, bit) WS2812_BIT((led), 2, (bit))
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given green bit
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*
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* @note The red byte is the first byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit number [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_GREEN_BIT(led, bit) WS2812_BIT((led), 1, (bit))
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given blue bit
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*
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* @note The red byte is the last byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_COUNT)
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* @param[in] bit: The bit index [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_BLUE_BIT(led, bit) WS2812_BIT((led), 0, (bit))
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#endif
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#ifdef WS2812_RGBW
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/**
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* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given white bit
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*
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* @note The white byte is the last byte in the color packet
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*
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* @param[in] led: The led index [0, @ref WS2812_LED_N)
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* @param[in] bit: The bit index [0, 7]
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*
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* @return The bit index
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*/
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# define WS2812_WHITE_BIT(led, bit) WS2812_BIT((led), 3, (bit))
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#endif
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/* --- PRIVATE VARIABLES ---------------------------------------------------- */
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// STM32F2XX, STM32F4XX and STM32F7XX do NOT zero pad DMA transfers of unequal data width. Buffer width must match TIMx CCR.
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// For all other STM32 DMA transfer will automatically zero pad. We only need to set the right peripheral width.
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#if defined(STM32F2XX) || defined(STM32F4XX) || defined(STM32F7XX)
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# if defined(WS2812_PWM_TIMER_32BIT)
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# define WS2812_PWM_DMA_MEMORY_WIDTH STM32_DMA_CR_MSIZE_WORD
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# define WS2812_PWM_DMA_PERIPHERAL_WIDTH STM32_DMA_CR_PSIZE_WORD
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typedef uint32_t ws2812_buffer_t;
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# else
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# define WS2812_PWM_DMA_MEMORY_WIDTH STM32_DMA_CR_MSIZE_HWORD
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# define WS2812_PWM_DMA_PERIPHERAL_WIDTH STM32_DMA_CR_PSIZE_HWORD
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typedef uint16_t ws2812_buffer_t;
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# endif
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#else
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# define WS2812_PWM_DMA_MEMORY_WIDTH STM32_DMA_CR_MSIZE_BYTE
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# if defined(WS2812_PWM_TIMER_32BIT)
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# define WS2812_PWM_DMA_PERIPHERAL_WIDTH STM32_DMA_CR_PSIZE_WORD
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# else
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# define WS2812_PWM_DMA_PERIPHERAL_WIDTH STM32_DMA_CR_PSIZE_HWORD
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# endif
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typedef uint8_t ws2812_buffer_t;
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#endif
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static ws2812_buffer_t ws2812_frame_buffer[WS2812_BIT_N + 1]; /**< Buffer for a frame */
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/* --- PUBLIC FUNCTIONS ----------------------------------------------------- */
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/*
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* Gedanke: Double-buffer type transactions: double buffer transfers using two memory pointers for
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* the memory (while the DMA is reading/writing from/to a buffer, the application can
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* write/read to/from the other buffer).
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*/
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void ws2812_init(void) {
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// Initialize led frame buffer
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uint32_t i;
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for (i = 0; i < WS2812_COLOR_BIT_N; i++)
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ws2812_frame_buffer[i] = WS2812_DUTYCYCLE_0; // All color bits are zero duty cycle
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for (i = 0; i < WS2812_RESET_BIT_N; i++)
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ws2812_frame_buffer[i + WS2812_COLOR_BIT_N] = 0; // All reset bits are zero
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palSetLineMode(WS2812_DI_PIN, WS2812_OUTPUT_MODE);
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// PWM Configuration
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//#pragma GCC diagnostic ignored "-Woverride-init" // Turn off override-init warning for this struct. We use the overriding ability to set a "default" channel config
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static const PWMConfig ws2812_pwm_config = {
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.frequency = WS2812_PWM_FREQUENCY,
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.period = WS2812_PWM_PERIOD, // Mit dieser Periode wird UDE-Event erzeugt und ein neuer Wert (Länge WS2812_BIT_N) vom DMA ins CCR geschrieben
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.callback = NULL,
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.channels =
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{
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[0 ... 3] = {.mode = PWM_OUTPUT_DISABLED, .callback = NULL}, // Channels default to disabled
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[WS2812_PWM_CHANNEL - 1] = {.mode = WS2812_PWM_OUTPUT_MODE, .callback = NULL}, // Turn on the channel we care about
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},
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.cr2 = 0,
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.dier = TIM_DIER_UDE, // DMA on update event for next period
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};
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//#pragma GCC diagnostic pop // Restore command-line warning options
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// Configure DMA
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// dmaInit(); // Joe added this
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#if defined(WB32F3G71xx) || defined(WB32FQ95xx)
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dmaStreamAlloc(WS2812_PWM_DMA_STREAM - WB32_DMA_STREAM(0), 10, NULL, NULL);
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dmaStreamSetSource(WS2812_PWM_DMA_STREAM, ws2812_frame_buffer);
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dmaStreamSetDestination(WS2812_PWM_DMA_STREAM, &(WS2812_PWM_DRIVER.tim->CCR[WS2812_PWM_CHANNEL - 1])); // Ziel ist der An-Zeit im Cap-Comp-Register
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dmaStreamSetMode(WS2812_PWM_DMA_STREAM, WB32_DMA_CHCFG_HWHIF(WS2812_PWM_DMA_CHANNEL) | WB32_DMA_CHCFG_DIR_M2P | WB32_DMA_CHCFG_PSIZE_WORD | WB32_DMA_CHCFG_MSIZE_WORD | WB32_DMA_CHCFG_MINC | WB32_DMA_CHCFG_CIRC | WB32_DMA_CHCFG_TCIE | WB32_DMA_CHCFG_PL(3));
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#else
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dmaStreamAlloc(WS2812_PWM_DMA_STREAM - STM32_DMA_STREAM(0), 10, NULL, NULL);
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dmaStreamSetPeripheral(WS2812_PWM_DMA_STREAM, &(WS2812_PWM_DRIVER.tim->CCR[WS2812_PWM_CHANNEL - 1])); // Ziel ist der An-Zeit im Cap-Comp-Register
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dmaStreamSetMemory0(WS2812_PWM_DMA_STREAM, ws2812_frame_buffer);
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dmaStreamSetMode(WS2812_PWM_DMA_STREAM, STM32_DMA_CR_CHSEL(WS2812_PWM_DMA_CHANNEL) | STM32_DMA_CR_DIR_M2P | WS2812_PWM_DMA_PERIPHERAL_WIDTH | WS2812_PWM_DMA_MEMORY_WIDTH | STM32_DMA_CR_MINC | STM32_DMA_CR_CIRC | STM32_DMA_CR_PL(3));
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#endif
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dmaStreamSetTransactionSize(WS2812_PWM_DMA_STREAM, WS2812_BIT_N);
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// M2P: Memory 2 Periph; PL: Priority Level
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#if (STM32_DMA_SUPPORTS_DMAMUX == TRUE)
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// If the MCU has a DMAMUX we need to assign the correct resource
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dmaSetRequestSource(WS2812_PWM_DMA_STREAM, WS2812_PWM_DMAMUX_ID);
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#endif
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// Start DMA
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dmaStreamEnable(WS2812_PWM_DMA_STREAM);
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// Configure PWM
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// NOTE: It's required that preload be enabled on the timer channel CCR register. This is currently enabled in the
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// ChibiOS driver code, so we don't have to do anything special to the timer. If we did, we'd have to start the timer,
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// disable counting, enable the channel, and then make whatever configuration changes we need.
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pwmStart(&WS2812_PWM_DRIVER, &ws2812_pwm_config);
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pwmEnableChannel(&WS2812_PWM_DRIVER, WS2812_PWM_CHANNEL - 1, 0); // Initial period is 0; output will be low until first duty cycle is DMA'd in
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}
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void ws2812_write_led(uint16_t led_number, uint8_t r, uint8_t g, uint8_t b) {
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// Write color to frame buffer
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for (uint8_t bit = 0; bit < 8; bit++) {
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ws2812_frame_buffer[WS2812_RED_BIT(led_number, bit)] = ((r >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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ws2812_frame_buffer[WS2812_GREEN_BIT(led_number, bit)] = ((g >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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ws2812_frame_buffer[WS2812_BLUE_BIT(led_number, bit)] = ((b >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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}
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}
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void ws2812_write_led_rgbw(uint16_t led_number, uint8_t r, uint8_t g, uint8_t b, uint8_t w) {
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// Write color to frame buffer
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for (uint8_t bit = 0; bit < 8; bit++) {
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ws2812_frame_buffer[WS2812_RED_BIT(led_number, bit)] = ((r >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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ws2812_frame_buffer[WS2812_GREEN_BIT(led_number, bit)] = ((g >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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ws2812_frame_buffer[WS2812_BLUE_BIT(led_number, bit)] = ((b >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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#ifdef WS2812_RGBW
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ws2812_frame_buffer[WS2812_WHITE_BIT(led_number, bit)] = ((w >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
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#endif
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}
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}
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// Setleds for standard RGB
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void ws2812_setleds(rgb_led_t* ledarray, uint16_t leds) {
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for (uint16_t i = 0; i < leds; i++) {
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#ifdef WS2812_RGBW
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ws2812_write_led_rgbw(i, ledarray[i].r, ledarray[i].g, ledarray[i].b, ledarray[i].w);
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#else
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ws2812_write_led(i, ledarray[i].r, ledarray[i].g, ledarray[i].b);
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#endif
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}
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}
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