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BigTreeTech SKR3 - STM32H743 (#24271)

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Co-authored-by: Alan.Ma <alansayyeah@gmail.com>
This commit is contained in:
BIGTREETECH 2022-06-02 17:02:06 +08:00 committed by GitHub
parent f6b425613e
commit eda61a2cbd
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GPG key ID: 4AEE18F83AFDEB23
13 changed files with 2253 additions and 225 deletions
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397
Marlin/src/HAL/STM32/sdio.cpp
View file

@ -35,42 +35,15 @@
// use local drivers // use local drivers
#if defined(STM32F103xE) || defined(STM32F103xG) #if defined(STM32F103xE) || defined(STM32F103xG)
#include <stm32f1xx_hal_rcc_ex.h> #include <stm32f1xx.h>
#include <stm32f1xx_hal_sd.h>
#elif defined(STM32F4xx) #elif defined(STM32F4xx)
#include <stm32f4xx_hal_rcc.h> #include <stm32f4xx.h>
#include <stm32f4xx_hal_dma.h>
#include <stm32f4xx_hal_gpio.h>
#include <stm32f4xx_hal_sd.h>
#elif defined(STM32F7xx) #elif defined(STM32F7xx)
#include <stm32f7xx_hal_rcc.h> #include <stm32f7xx.h>
#include <stm32f7xx_hal_dma.h> #elif defined(STM32H7xx)
#include <stm32f7xx_hal_gpio.h> #include <stm32h7xx.h>
#include <stm32f7xx_hal_sd.h>
#else #else
#error "SDIO only supported with STM32F103xE, STM32F103xG, STM32F4xx, or STM32F7xx." #error "SDIO only supported with STM32F103xE, STM32F103xG, STM32F4xx, STM32F7xx, or STM32H7xx."
#endif
SD_HandleTypeDef hsd; // create SDIO structure
// F4 supports one DMA for RX and another for TX, but Marlin will never
// do read and write at same time, so we use the same DMA for both.
DMA_HandleTypeDef hdma_sdio;
/*
SDIO_INIT_CLK_DIV is 118
SDIO clock frequency is 48MHz / (TRANSFER_CLOCK_DIV + 2)
SDIO init clock frequency should not exceed 400kHz = 48MHz / (118 + 2)
Default TRANSFER_CLOCK_DIV is 2 (118 / 40)
Default SDIO clock frequency is 48MHz / (2 + 2) = 12 MHz
This might be too fast for stable SDIO operations
MKS Robin board seems to have stable SDIO with BusWide 1bit and ClockDiv 8 i.e. 4.8MHz SDIO clock frequency
Additional testing is required as there are clearly some 4bit initialization problems
*/
#ifndef USBD_OK
#define USBD_OK 0
#endif #endif
// Target Clock, configurable. Default is 18MHz, from STM32F1 // Target Clock, configurable. Default is 18MHz, from STM32F1
@ -78,223 +51,208 @@ DMA_HandleTypeDef hdma_sdio;
#define SDIO_CLOCK 18000000 // 18 MHz #define SDIO_CLOCK 18000000 // 18 MHz
#endif #endif
// SDIO retries, configurable. Default is 3, from STM32F1 #define SD_TIMEOUT 1000 // ms
#ifndef SDIO_READ_RETRIES
#define SDIO_READ_RETRIES 3
#endif
// SDIO Max Clock (naming from STM Manual, don't change) // SDIO Max Clock (naming from STM Manual, don't change)
#define SDIOCLK 48000000 #define SDIOCLK 48000000
static uint32_t clock_to_divider(uint32_t clk) { #if defined(STM32F1xx)
// limit the SDIO master clock to 8/3 of PCLK2. See STM32 Manuals DMA_HandleTypeDef hdma_sdio;
// Also limited to no more than 48Mhz (SDIOCLK). extern "C" void DMA2_Channel4_5_IRQHandler(void) {
const uint32_t pclk2 = HAL_RCC_GetPCLK2Freq(); HAL_DMA_IRQHandler(&hdma_sdio);
clk = min(clk, (uint32_t)(pclk2 * 8 / 3)); }
clk = min(clk, (uint32_t)SDIOCLK); #elif defined(STM32F4xx)
// Round up divider, so we don't run the card over the speed supported, DMA_HandleTypeDef hdma_sdio_rx;
// and subtract by 2, because STM32 will add 2, as written in the manual: DMA_HandleTypeDef hdma_sdio_tx;
// SDIO_CK frequency = SDIOCLK / [CLKDIV + 2] extern "C" void DMA2_Stream3_IRQHandler(void) {
return pclk2 / clk + (pclk2 % clk != 0) - 2; HAL_DMA_IRQHandler(&hdma_sdio_rx);
}
extern "C" void DMA2_Stream6_IRQHandler(void) {
HAL_DMA_IRQHandler(&hdma_sdio_tx);
}
#elif defined(STM32H7xx)
#define __HAL_RCC_SDIO_FORCE_RESET __HAL_RCC_SDMMC1_FORCE_RESET
#define __HAL_RCC_SDIO_RELEASE_RESET __HAL_RCC_SDMMC1_RELEASE_RESET
#define __HAL_RCC_SDIO_CLK_ENABLE __HAL_RCC_SDMMC1_CLK_ENABLE
#define SDIO SDMMC1
#define SDIO_IRQn SDMMC1_IRQn
#define SDIO_IRQHandler SDMMC1_IRQHandler
#define SDIO_CLOCK_EDGE_RISING SDMMC_CLOCK_EDGE_RISING
#define SDIO_CLOCK_POWER_SAVE_DISABLE SDMMC_CLOCK_POWER_SAVE_DISABLE
#define SDIO_BUS_WIDE_1B SDMMC_BUS_WIDE_1B
#define SDIO_BUS_WIDE_4B SDMMC_BUS_WIDE_4B
#define SDIO_HARDWARE_FLOW_CONTROL_DISABLE SDMMC_HARDWARE_FLOW_CONTROL_DISABLE
#endif
uint8_t waitingRxCplt = 0;
uint8_t waitingTxCplt = 0;
SD_HandleTypeDef hsd;
extern "C" void SDIO_IRQHandler(void) {
HAL_SD_IRQHandler(&hsd);
} }
void go_to_transfer_speed() { void HAL_SD_TxCpltCallback(SD_HandleTypeDef *hsdio) {
/* Default SDIO peripheral configuration for SD card initialization */ waitingTxCplt = 0;
hsd.Init.ClockEdge = hsd.Init.ClockEdge;
hsd.Init.ClockBypass = hsd.Init.ClockBypass;
hsd.Init.ClockPowerSave = hsd.Init.ClockPowerSave;
hsd.Init.BusWide = hsd.Init.BusWide;
hsd.Init.HardwareFlowControl = hsd.Init.HardwareFlowControl;
hsd.Init.ClockDiv = clock_to_divider(SDIO_CLOCK);
/* Initialize SDIO peripheral interface with default configuration */
SDIO_Init(hsd.Instance, hsd.Init);
} }
void SD_LowLevel_Init(void) { void HAL_SD_RxCpltCallback(SD_HandleTypeDef *hsdio) {
uint32_t tempreg; waitingRxCplt = 0;
}
__HAL_RCC_GPIOC_CLK_ENABLE(); //enable GPIO clocks
__HAL_RCC_GPIOD_CLK_ENABLE(); //enable GPIO clocks
GPIO_InitTypeDef GPIO_InitStruct;
GPIO_InitStruct.Mode = GPIO_MODE_AF_PP;
GPIO_InitStruct.Pull = 1; //GPIO_NOPULL;
GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_HIGH;
#if DISABLED(STM32F1xx)
GPIO_InitStruct.Alternate = GPIO_AF12_SDIO;
#endif
GPIO_InitStruct.Pin = GPIO_PIN_8 | GPIO_PIN_12; // D0 & SCK
HAL_GPIO_Init(GPIOC, &GPIO_InitStruct);
void HAL_SD_MspInit(SD_HandleTypeDef *hsd) {
pinmap_pinout(PC_12, PinMap_SD);
pinmap_pinout(PD_2, PinMap_SD);
pinmap_pinout(PC_8, PinMap_SD);
#if PINS_EXIST(SDIO_D1, SDIO_D2, SDIO_D3) // define D1-D3 only if have a four bit wide SDIO bus #if PINS_EXIST(SDIO_D1, SDIO_D2, SDIO_D3) // define D1-D3 only if have a four bit wide SDIO bus
GPIO_InitStruct.Pin = GPIO_PIN_9 | GPIO_PIN_10 | GPIO_PIN_11; // D1-D3 // D1-D3
HAL_GPIO_Init(GPIOC, &GPIO_InitStruct); pinmap_pinout(PC_9, PinMap_SD);
pinmap_pinout(PC_10, PinMap_SD);
pinmap_pinout(PC_11, PinMap_SD);
#endif #endif
// Configure PD.02 CMD line __HAL_RCC_SDIO_CLK_ENABLE();
GPIO_InitStruct.Pin = GPIO_PIN_2;
HAL_GPIO_Init(GPIOD, &GPIO_InitStruct);
// Setup DMA
#if defined(STM32F1xx)
hdma_sdio.Init.Mode = DMA_NORMAL;
hdma_sdio.Instance = DMA2_Channel4;
HAL_NVIC_EnableIRQ(DMA2_Channel4_5_IRQn);
#elif defined(STM32F4xx)
hdma_sdio.Init.Mode = DMA_PFCTRL;
hdma_sdio.Instance = DMA2_Stream3;
hdma_sdio.Init.Channel = DMA_CHANNEL_4;
hdma_sdio.Init.FIFOMode = DMA_FIFOMODE_ENABLE;
hdma_sdio.Init.FIFOThreshold = DMA_FIFO_THRESHOLD_FULL;
hdma_sdio.Init.MemBurst = DMA_MBURST_INC4;
hdma_sdio.Init.PeriphBurst = DMA_PBURST_INC4;
HAL_NVIC_EnableIRQ(DMA2_Stream3_IRQn);
#endif
HAL_NVIC_EnableIRQ(SDIO_IRQn); HAL_NVIC_EnableIRQ(SDIO_IRQn);
hdma_sdio.Init.PeriphInc = DMA_PINC_DISABLE;
hdma_sdio.Init.MemInc = DMA_MINC_ENABLE;
hdma_sdio.Init.PeriphDataAlignment = DMA_PDATAALIGN_WORD;
hdma_sdio.Init.MemDataAlignment = DMA_MDATAALIGN_WORD;
hdma_sdio.Init.Priority = DMA_PRIORITY_LOW;
__HAL_LINKDMA(&hsd, hdmarx, hdma_sdio);
__HAL_LINKDMA(&hsd, hdmatx, hdma_sdio);
// DMA Config
#if defined(STM32F1xx) #if defined(STM32F1xx)
__HAL_RCC_SDIO_CLK_ENABLE();
__HAL_RCC_DMA2_CLK_ENABLE(); __HAL_RCC_DMA2_CLK_ENABLE();
#else HAL_NVIC_EnableIRQ(DMA2_Channel4_5_IRQn);
__HAL_RCC_SDIO_FORCE_RESET(); hdma_sdio.Instance = DMA2_Channel4;
delay(2); hdma_sdio.Init.Direction = DMA_PERIPH_TO_MEMORY;
__HAL_RCC_SDIO_RELEASE_RESET(); hdma_sdio.Init.PeriphInc = DMA_PINC_DISABLE;
delay(2); hdma_sdio.Init.MemInc = DMA_MINC_ENABLE;
__HAL_RCC_SDIO_CLK_ENABLE(); hdma_sdio.Init.PeriphDataAlignment = DMA_PDATAALIGN_WORD;
hdma_sdio.Init.MemDataAlignment = DMA_MDATAALIGN_WORD;
hdma_sdio.Init.Mode = DMA_NORMAL;
hdma_sdio.Init.Priority = DMA_PRIORITY_LOW;
HAL_DMA_Init(&hdma_sdio);
__HAL_RCC_DMA2_FORCE_RESET(); __HAL_LINKDMA(hsd, hdmarx ,hdma_sdio);
delay(2); __HAL_LINKDMA(hsd, hdmatx, hdma_sdio);
__HAL_RCC_DMA2_RELEASE_RESET(); #elif defined(STM32F4xx)
delay(2);
__HAL_RCC_DMA2_CLK_ENABLE(); __HAL_RCC_DMA2_CLK_ENABLE();
HAL_NVIC_EnableIRQ(DMA2_Stream3_IRQn);
HAL_NVIC_EnableIRQ(DMA2_Stream6_IRQn);
hdma_sdio_rx.Instance = DMA2_Stream3;
hdma_sdio_rx.Init.Channel = DMA_CHANNEL_4;
hdma_sdio_rx.Init.Direction = DMA_PERIPH_TO_MEMORY;
hdma_sdio_rx.Init.PeriphInc = DMA_PINC_DISABLE;
hdma_sdio_rx.Init.MemInc = DMA_MINC_ENABLE;
hdma_sdio_rx.Init.PeriphDataAlignment = DMA_PDATAALIGN_WORD;
hdma_sdio_rx.Init.MemDataAlignment = DMA_MDATAALIGN_WORD;
hdma_sdio_rx.Init.Mode = DMA_PFCTRL;
hdma_sdio_rx.Init.Priority = DMA_PRIORITY_LOW;
hdma_sdio_rx.Init.FIFOMode = DMA_FIFOMODE_ENABLE;
hdma_sdio_rx.Init.FIFOThreshold = DMA_FIFO_THRESHOLD_FULL;
hdma_sdio_rx.Init.MemBurst = DMA_MBURST_INC4;
hdma_sdio_rx.Init.PeriphBurst = DMA_PBURST_INC4;
HAL_DMA_Init(&hdma_sdio_rx);
__HAL_LINKDMA(hsd,hdmarx,hdma_sdio_rx);
hdma_sdio_tx.Instance = DMA2_Stream6;
hdma_sdio_tx.Init.Channel = DMA_CHANNEL_4;
hdma_sdio_tx.Init.Direction = DMA_MEMORY_TO_PERIPH;
hdma_sdio_tx.Init.PeriphInc = DMA_PINC_DISABLE;
hdma_sdio_tx.Init.MemInc = DMA_MINC_ENABLE;
hdma_sdio_tx.Init.PeriphDataAlignment = DMA_PDATAALIGN_WORD;
hdma_sdio_tx.Init.MemDataAlignment = DMA_MDATAALIGN_WORD;
hdma_sdio_tx.Init.Mode = DMA_PFCTRL;
hdma_sdio_tx.Init.Priority = DMA_PRIORITY_LOW;
hdma_sdio_tx.Init.FIFOMode = DMA_FIFOMODE_ENABLE;
hdma_sdio_tx.Init.FIFOThreshold = DMA_FIFO_THRESHOLD_FULL;
hdma_sdio_tx.Init.MemBurst = DMA_MBURST_INC4;
hdma_sdio_tx.Init.PeriphBurst = DMA_PBURST_INC4;
HAL_DMA_Init(&hdma_sdio_tx);
__HAL_LINKDMA(hsd,hdmatx,hdma_sdio_tx);
#endif #endif
//Initialize the SDIO (with initial <400Khz Clock)
tempreg = 0; //Reset value
tempreg |= SDIO_CLKCR_CLKEN; // Clock enabled
tempreg |= SDIO_INIT_CLK_DIV; // Clock Divider. Clock = 48000 / (118 + 2) = 400Khz
// Keep the rest at 0 => HW_Flow Disabled, Rising Clock Edge, Disable CLK ByPass, Bus Width = 0, Power save Disable
SDIO->CLKCR = tempreg;
// Power up the SDIO
SDIO_PowerState_ON(SDIO);
hsd.Instance = SDIO;
} }
void HAL_SD_MspInit(SD_HandleTypeDef *hsd) { // application specific init void HAL_SD_MspDeInit(SD_HandleTypeDef *hsd) {
UNUSED(hsd); // Prevent unused argument(s) compilation warning #if !defined(STM32F1xx)
__HAL_RCC_SDIO_CLK_ENABLE(); // turn on SDIO clock __HAL_RCC_SDIO_FORCE_RESET();
delay(10);
__HAL_RCC_SDIO_RELEASE_RESET();
delay(10);
#endif
}
static uint32_t clock_to_divider(uint32_t clk) {
#if defined(STM32H7xx)
// SDMMC_CK frequency = sdmmc_ker_ck / [2 * CLKDIV].
uint32_t sdmmc_clk = HAL_RCCEx_GetPeriphCLKFreq(RCC_PERIPHCLK_SDMMC);
return sdmmc_clk / (2U * SDIO_CLOCK) + (sdmmc_clk % (2U * SDIO_CLOCK) != 0);
#else
// limit the SDIO master clock to 8/3 of PCLK2. See STM32 Manuals
// Also limited to no more than 48Mhz (SDIOCLK).
const uint32_t pclk2 = HAL_RCC_GetPCLK2Freq();
clk = min(clk, (uint32_t)(pclk2 * 8 / 3));
clk = min(clk, (uint32_t)SDIOCLK);
// Round up divider, so we don't run the card over the speed supported,
// and subtract by 2, because STM32 will add 2, as written in the manual:
// SDIO_CK frequency = SDIOCLK / [CLKDIV + 2]
return pclk2 / clk + (pclk2 % clk != 0) - 2;
#endif
} }
bool SDIO_Init() { bool SDIO_Init() {
uint8_t retryCnt = SDIO_READ_RETRIES; HAL_StatusTypeDef sd_state = HAL_OK;
HAL_SD_DeInit(&hsd);
bool status; /* HAL SD initialization */
hsd.Instance = SDIO; hsd.Instance = SDIO;
hsd.State = HAL_SD_STATE_RESET; hsd.Init.ClockEdge = SDIO_CLOCK_EDGE_RISING;
hsd.Init.ClockPowerSave = SDIO_CLOCK_POWER_SAVE_DISABLE;
hsd.Init.BusWide = SDIO_BUS_WIDE_1B;
hsd.Init.HardwareFlowControl = SDIO_HARDWARE_FLOW_CONTROL_DISABLE;
hsd.Init.ClockDiv = clock_to_divider(SDIO_CLOCK);
sd_state = HAL_SD_Init(&hsd);
SD_LowLevel_Init(); #if PINS_EXIST(SDIO_D1, SDIO_D2, SDIO_D3)
if (sd_state == HAL_OK) {
uint8_t retry_Cnt = retryCnt; sd_state = HAL_SD_ConfigWideBusOperation(&hsd, SDIO_BUS_WIDE_4B);
for (;;) {
hal.watchdog_refresh();
status = (bool) HAL_SD_Init(&hsd);
if (!status) break;
if (!--retry_Cnt) return false; // return failing status if retries are exhausted
}
go_to_transfer_speed();
#if PINS_EXIST(SDIO_D1, SDIO_D2, SDIO_D3) // go to 4 bit wide mode if pins are defined
retry_Cnt = retryCnt;
for (;;) {
hal.watchdog_refresh();
if (!HAL_SD_ConfigWideBusOperation(&hsd, SDIO_BUS_WIDE_4B)) break; // some cards are only 1 bit wide so a pass here is not required
if (!--retry_Cnt) break;
}
if (!retry_Cnt) { // wide bus failed, go back to one bit wide mode
hsd.State = (HAL_SD_StateTypeDef) 0; // HAL_SD_STATE_RESET
SD_LowLevel_Init();
retry_Cnt = retryCnt;
for (;;) {
hal.watchdog_refresh();
status = (bool) HAL_SD_Init(&hsd);
if (!status) break;
if (!--retry_Cnt) return false; // return failing status if retries are exhausted
}
go_to_transfer_speed();
} }
#endif #endif
return true; return (sd_state == HAL_OK) ? true : false;
}
static bool SDIO_ReadWriteBlock_DMA(uint32_t block, const uint8_t *src, uint8_t *dst) {
if (HAL_SD_GetCardState(&hsd) != HAL_SD_CARD_TRANSFER) return false;
hal.watchdog_refresh();
HAL_StatusTypeDef ret;
if (src) {
hdma_sdio.Init.Direction = DMA_MEMORY_TO_PERIPH;
HAL_DMA_Init(&hdma_sdio);
ret = HAL_SD_WriteBlocks_DMA(&hsd, (uint8_t *)src, block, 1);
}
else {
hdma_sdio.Init.Direction = DMA_PERIPH_TO_MEMORY;
HAL_DMA_Init(&hdma_sdio);
ret = HAL_SD_ReadBlocks_DMA(&hsd, (uint8_t *)dst, block, 1);
}
if (ret != HAL_OK) {
HAL_DMA_Abort_IT(&hdma_sdio);
HAL_DMA_DeInit(&hdma_sdio);
return false;
}
millis_t timeout = millis() + 500;
// Wait the transfer
while (hsd.State != HAL_SD_STATE_READY) {
if (ELAPSED(millis(), timeout)) {
HAL_DMA_Abort_IT(&hdma_sdio);
HAL_DMA_DeInit(&hdma_sdio);
return false;
}
}
while (__HAL_DMA_GET_FLAG(&hdma_sdio, __HAL_DMA_GET_TC_FLAG_INDEX(&hdma_sdio)) != 0
|| __HAL_DMA_GET_FLAG(&hdma_sdio, __HAL_DMA_GET_TE_FLAG_INDEX(&hdma_sdio)) != 0) { /* nada */ }
HAL_DMA_Abort_IT(&hdma_sdio);
HAL_DMA_DeInit(&hdma_sdio);
timeout = millis() + 500;
while (HAL_SD_GetCardState(&hsd) != HAL_SD_CARD_TRANSFER) if (ELAPSED(millis(), timeout)) return false;
return true;
} }
bool SDIO_ReadBlock(uint32_t block, uint8_t *dst) { bool SDIO_ReadBlock(uint32_t block, uint8_t *dst) {
uint8_t retries = SDIO_READ_RETRIES; uint32_t timeout = HAL_GetTick() + SD_TIMEOUT;
while (retries--) if (SDIO_ReadWriteBlock_DMA(block, nullptr, dst)) return true;
return false; while (HAL_SD_GetCardState(&hsd) != HAL_SD_CARD_TRANSFER) {
if (HAL_GetTick() >= timeout) return false;
}
waitingRxCplt = 1;
if (HAL_SD_ReadBlocks_DMA(&hsd, (uint8_t *)dst, block, 1) != HAL_OK)
return false;
timeout = HAL_GetTick() + SD_TIMEOUT;
while (waitingRxCplt)
if (HAL_GetTick() >= timeout) return false;
return true;
} }
bool SDIO_WriteBlock(uint32_t block, const uint8_t *src) { bool SDIO_WriteBlock(uint32_t block, const uint8_t *src) {
uint8_t retries = SDIO_READ_RETRIES; uint32_t timeout = HAL_GetTick() + SD_TIMEOUT;
while (retries--) if (SDIO_ReadWriteBlock_DMA(block, src, nullptr)) return true;
return false; while (HAL_SD_GetCardState(&hsd) != HAL_SD_CARD_TRANSFER)
if (HAL_GetTick() >= timeout) return false;
waitingTxCplt = 1;
if (HAL_SD_WriteBlocks_DMA(&hsd, (uint8_t *)src, block, 1) != HAL_OK)
return false;
timeout = HAL_GetTick() + SD_TIMEOUT;
while (waitingTxCplt)
if (HAL_GetTick() >= timeout) return false;
return true;
} }
bool SDIO_IsReady() { bool SDIO_IsReady() {
@ -305,16 +263,5 @@ uint32_t SDIO_GetCardSize() {
return (uint32_t)(hsd.SdCard.BlockNbr) * (hsd.SdCard.BlockSize); return (uint32_t)(hsd.SdCard.BlockNbr) * (hsd.SdCard.BlockSize);
} }
#if defined(STM32F1xx)
#define DMA_IRQ_HANDLER DMA2_Channel4_5_IRQHandler
#elif defined(STM32F4xx)
#define DMA_IRQ_HANDLER DMA2_Stream3_IRQHandler
#else
#error "Unknown STM32 architecture."
#endif
extern "C" void SDIO_IRQHandler(void) { HAL_SD_IRQHandler(&hsd); }
extern "C" void DMA_IRQ_HANDLER(void) { HAL_DMA_IRQHandler(&hdma_sdio); }
#endif // SDIO_SUPPORT #endif // SDIO_SUPPORT
#endif // HAL_STM32 #endif // HAL_STM32

2
Marlin/src/core/boards.h
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@ -429,6 +429,8 @@
#define BOARD_T41U5XBB 5002 // T41U5XBB Teensy 4.1 breakout board #define BOARD_T41U5XBB 5002 // T41U5XBB Teensy 4.1 breakout board
#define BOARD_NUCLEO_F767ZI 5003 // ST NUCLEO-F767ZI Dev Board #define BOARD_NUCLEO_F767ZI 5003 // ST NUCLEO-F767ZI Dev Board
#define BOARD_BTT_SKR_SE_BX 5004 // BigTreeTech SKR SE BX (STM32H743II) #define BOARD_BTT_SKR_SE_BX 5004 // BigTreeTech SKR SE BX (STM32H743II)
#define BOARD_BTT_SKR_V3_0 5005 // BigTreeTech SKR V3.0 (STM32H743VG)
#define BOARD_BTT_SKR_V3_0_EZ 5006 // BigTreeTech SKR V3.0 EZ (STM32H743VG)
// //
// Espressif ESP32 WiFi // Espressif ESP32 WiFi

4
Marlin/src/pins/pins.h
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@ -708,6 +708,10 @@
#include "stm32f7/pins_NUCLEO_F767ZI.h" // STM32F7 env:NUCLEO_F767ZI #include "stm32f7/pins_NUCLEO_F767ZI.h" // STM32F7 env:NUCLEO_F767ZI
#elif MB(BTT_SKR_SE_BX) #elif MB(BTT_SKR_SE_BX)
#include "stm32h7/pins_BTT_SKR_SE_BX.h" // STM32H7 env:BTT_SKR_SE_BX #include "stm32h7/pins_BTT_SKR_SE_BX.h" // STM32H7 env:BTT_SKR_SE_BX
#elif MB(BTT_SKR_V3_0)
#include "stm32h7/pins_BTT_SKR_V3_0.h" // STM32H7 env:STM32H743Vx_btt
#elif MB(BTT_SKR_V3_0_EZ)
#include "stm32h7/pins_BTT_SKR_V3_0_EZ.h" // STM32H7 env:STM32H743Vx_btt
#elif MB(TEENSY41) #elif MB(TEENSY41)
#include "teensy4/pins_TEENSY41.h" // Teensy-4.x env:teensy41 #include "teensy4/pins_TEENSY41.h" // Teensy-4.x env:teensy41
#elif MB(T41U5XBB) #elif MB(T41U5XBB)

26
Marlin/src/pins/stm32h7/pins_BTT_SKR_V3_0.h Normal file
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@ -0,0 +1,26 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2022 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
#pragma once
#define BOARD_INFO_NAME "BTT SKR V3"
#include "pins_BTT_SKR_V3_0_common.h"

26
Marlin/src/pins/stm32h7/pins_BTT_SKR_V3_0_EZ.h Normal file
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@ -0,0 +1,26 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2022 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
#pragma once
#define BOARD_INFO_NAME "BTT SKR V3 EZ"
#include "pins_BTT_SKR_V3_0_common.h"

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/**
* Marlin 3D Printer Firmware
* Copyright (c) 2022 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
#pragma once
#if NOT_TARGET(STM32H7)
#error "Oops! Select an STM32H7 board in 'Tools > Board.'"
#endif
// If you have the BigTreeTech driver expansion module, enable BTT_MOTOR_EXPANSION
// https://github.com/bigtreetech/BTT-Expansion-module/tree/master/BTT%20EXP-MOT
//#define BTT_MOTOR_EXPANSION
#if BOTH(HAS_WIRED_LCD, BTT_MOTOR_EXPANSION)
#if EITHER(CR10_STOCKDISPLAY, ENDER2_STOCKDISPLAY)
#define EXP_MOT_USE_EXP2_ONLY 1
#else
#error "You can't use both an LCD and a Motor Expansion Module on EXP1/EXP2 at the same time."
#endif
#endif
#define USES_DIAG_JUMPERS
// Onboard I2C EEPROM
#if EITHER(NO_EEPROM_SELECTED, I2C_EEPROM)
#undef NO_EEPROM_SELECTED
#define I2C_EEPROM
#define SOFT_I2C_EEPROM // Force the use of Software I2C
#define I2C_SCL_PIN PA14
#define I2C_SDA_PIN PA13
#define MARLIN_EEPROM_SIZE 0x1000 // 4KB
#endif
//
// Servos
//
#define SERVO0_PIN PE5
//
// Trinamic Stallguard pins
//
#define X_DIAG_PIN PC1 // X-STOP
#define Y_DIAG_PIN PC3 // Y-STOP
#define Z_DIAG_PIN PC0 // Z-STOP
#define E0_DIAG_PIN PC2 // E0DET
#define E1_DIAG_PIN PA0 // E1DET
//
// Limit Switches
//
#ifdef X_STALL_SENSITIVITY
#define X_STOP_PIN X_DIAG_PIN
#if X_HOME_TO_MIN
#define X_MAX_PIN PC2 // E0DET
#else
#define X_MIN_PIN PC2 // E0DET
#endif
#elif ENABLED(X_DUAL_ENDSTOPS)
#ifndef X_MIN_PIN
#define X_MIN_PIN PC1 // X-STOP
#endif
#ifndef X_MAX_PIN
#define X_MAX_PIN PC2 // E0DET
#endif
#else
#define X_STOP_PIN PC1 // X-STOP
#endif
#ifdef Y_STALL_SENSITIVITY
#define Y_STOP_PIN Y_DIAG_PIN
#if Y_HOME_TO_MIN
#define Y_MAX_PIN PA0 // E1DET
#else
#define Y_MIN_PIN PA0 // E1DET
#endif
#elif ENABLED(Y_DUAL_ENDSTOPS)
#ifndef Y_MIN_PIN
#define Y_MIN_PIN PC3 // Y-STOP
#endif
#ifndef Y_MAX_PIN
#define Y_MAX_PIN PA0 // E1DET
#endif
#else
#define Y_STOP_PIN PC3 // Y-STOP
#endif
#ifdef Z_STALL_SENSITIVITY
#define Z_STOP_PIN Z_DIAG_PIN
#if Z_HOME_TO_MIN
#define Z_MAX_PIN PC15 // PWRDET
#else
#define Z_MIN_PIN PC15 // PWRDET
#endif
#elif ENABLED(Z_MULTI_ENDSTOPS)
#ifndef Z_MIN_PIN
#define Z_MIN_PIN PC0 // Z-STOP
#endif
#ifndef Z_MAX_PIN
#define Z_MAX_PIN PC15 // PWRDET
#endif
#else
#ifndef Z_STOP_PIN
#define Z_STOP_PIN PC0 // Z-STOP
#endif
#endif
//
// Z Probe (when not Z_MIN_PIN)
//
#ifndef Z_MIN_PROBE_PIN
#define Z_MIN_PROBE_PIN PC13
#endif
//
// Probe enable
//
#if ENABLED(PROBE_ENABLE_DISABLE)
#ifndef PROBE_ENABLE_PIN
#define PROBE_ENABLE_PIN SERVO0_PIN
#endif
#endif
//
// Filament Runout Sensor
//
#define FIL_RUNOUT_PIN PC2 // E0DET
#define FIL_RUNOUT2_PIN PA0 // E1DET
//
// Power Supply Control
//
#ifndef PS_ON_PIN
#define PS_ON_PIN PE4 // PS-ON
#endif
//
// Power Loss Detection
//
#ifndef POWER_LOSS_PIN
#define POWER_LOSS_PIN PC15 // PWRDET
#endif
//
// Steppers
//
#define X_STEP_PIN PD4
#define X_DIR_PIN PD3
#define X_ENABLE_PIN PD6
#ifndef X_CS_PIN
#define X_CS_PIN PD5
#endif
#define Y_STEP_PIN PA15
#define Y_DIR_PIN PA8
#define Y_ENABLE_PIN PD1
#ifndef Y_CS_PIN
#define Y_CS_PIN PD0
#endif
#define Z_STEP_PIN PE2
#define Z_DIR_PIN PE3
#define Z_ENABLE_PIN PE0
#ifndef Z_CS_PIN
#define Z_CS_PIN PE1
#endif
#ifndef E0_STEP_PIN
#define E0_STEP_PIN PD15
#endif
#ifndef E0_DIR_PIN
#define E0_DIR_PIN PD14
#endif
#ifndef E0_ENABLE_PIN
#define E0_ENABLE_PIN PC7
#endif
#ifndef E0_CS_PIN
#define E0_CS_PIN PC6
#endif
#ifndef E1_STEP_PIN
#define E1_STEP_PIN PD11
#endif
#ifndef E1_DIR_PIN
#define E1_DIR_PIN PD10
#endif
#ifndef E1_ENABLE_PIN
#define E1_ENABLE_PIN PD13
#endif
#ifndef E1_CS_PIN
#define E1_CS_PIN PD12
#endif
//
// Temperature Sensors
//
#ifndef TEMP_0_PIN
#define TEMP_0_PIN PA2 // TH0
#endif
#ifndef TEMP_1_PIN
#define TEMP_1_PIN PA3 // TH1
#endif
#ifndef TEMP_BED_PIN
#define TEMP_BED_PIN PA1 // TB
#endif
#if HOTENDS == 1 && DISABLED(HEATERS_PARALLEL)
#if TEMP_SENSOR_PROBE
#define TEMP_PROBE_PIN TEMP_1_PIN
#elif TEMP_SENSOR_CHAMBER
#define TEMP_CHAMBER_PIN TEMP_1_PIN
#endif
#endif
//
// Heaters / Fans
//
#ifndef HEATER_0_PIN
#define HEATER_0_PIN PB3 // Heater0
#endif
#ifndef HEATER_1_PIN
#define HEATER_1_PIN PB4 // Heater1
#endif
#ifndef HEATER_BED_PIN
#define HEATER_BED_PIN PD7 // Hotbed
#endif
#ifndef FAN_PIN
#define FAN_PIN PB7 // Fan0
#endif
#if HAS_CUTTER
#ifndef SPINDLE_LASER_PWM_PIN
#define SPINDLE_LASER_PWM_PIN PB5
#endif
#ifndef SPINDLE_LASER_ENA_PIN
#define SPINDLE_LASER_ENA_PIN PB6
#endif
#else
#ifndef FAN1_PIN
#define FAN1_PIN PB6 // Fan1
#endif
#ifndef FAN2_PIN
#define FAN2_PIN PB5 // Fan2
#endif
#endif // SPINDLE_FEATURE || LASER_FEATURE
//
// Software SPI pins for TMC2130 stepper drivers
//
#if ENABLED(TMC_USE_SW_SPI)
#ifndef TMC_SW_MOSI
#define TMC_SW_MOSI PE13
#endif
#ifndef TMC_SW_MISO
#define TMC_SW_MISO PE15
#endif
#ifndef TMC_SW_SCK
#define TMC_SW_SCK PE14
#endif
#endif
#if HAS_TMC_UART
/**
* TMC2208/TMC2209 stepper drivers
*
* Hardware serial communication ports.
* If undefined software serial is used according to the pins below
*/
//#define X_HARDWARE_SERIAL Serial1
//#define X2_HARDWARE_SERIAL Serial1
//#define Y_HARDWARE_SERIAL Serial1
//#define Y2_HARDWARE_SERIAL Serial1
//#define Z_HARDWARE_SERIAL Serial1
//#define Z2_HARDWARE_SERIAL Serial1
//#define E0_HARDWARE_SERIAL Serial1
//#define E1_HARDWARE_SERIAL Serial1
//#define E2_HARDWARE_SERIAL Serial1
//#define E3_HARDWARE_SERIAL Serial1
//#define E4_HARDWARE_SERIAL Serial1
//
// Software serial
//
#define X_SERIAL_TX_PIN PD5
#define X_SERIAL_RX_PIN X_SERIAL_TX_PIN
#define Y_SERIAL_TX_PIN PD0
#define Y_SERIAL_RX_PIN Y_SERIAL_TX_PIN
#define Z_SERIAL_TX_PIN PE1
#define Z_SERIAL_RX_PIN Z_SERIAL_TX_PIN
#define E0_SERIAL_TX_PIN PC6
#define E0_SERIAL_RX_PIN E0_SERIAL_TX_PIN
#define E1_SERIAL_TX_PIN PD12
#define E1_SERIAL_RX_PIN E1_SERIAL_TX_PIN
// Reduce baud rate to improve software serial reliability
#define TMC_BAUD_RATE 19200
#endif
//
// SD Connection
//
#ifndef SDCARD_CONNECTION
#define SDCARD_CONNECTION ONBOARD
#endif
/**
* ------ ------
* (BEEPER) PC5 |10 9 | PB0 (BTN_ENC) (MISO) PA6 |10 9 | PA5 (SCK)
* (LCD_EN) PB1 | 8 7 | PE8 (LCD_RS) (BTN_EN1) PE7 | 8 7 | PA4 (SD_SS)
* (LCD_D4) PE9 | 6 5 PE10 (LCD_D5) (BTN_EN2) PB2 | 6 5 PA7 (MOSI)
* (LCD_D6) PE11 | 4 3 | PE12 (LCD_D7) (SD_DETECT) PC4 | 4 3 | RESET
* GND | 2 1 | 5V GND | 2 1 | --
* ------ ------
* EXP1 EXP2
*/
#define EXP1_03_PIN PE12
#define EXP1_04_PIN PE11
#define EXP1_05_PIN PE10
#define EXP1_06_PIN PE9
#define EXP1_07_PIN PE8
#define EXP1_08_PIN PB1
#define EXP1_09_PIN PB0
#define EXP1_10_PIN PC5
#define EXP2_03_PIN -1
#define EXP2_04_PIN PC4
#define EXP2_05_PIN PA7
#define EXP2_06_PIN PB2
#define EXP2_07_PIN PA4
#define EXP2_08_PIN PE7
#define EXP2_09_PIN PA5
#define EXP2_10_PIN PA6
//
// Onboard SD card
// Must use soft SPI because Marlin's default hardware SPI is tied to LCD's EXP2
//
#if SD_CONNECTION_IS(LCD)
#define SDSS EXP2_07_PIN
#define SD_SS_PIN SDSS
#define SD_SCK_PIN EXP2_09_PIN
#define SD_MISO_PIN EXP2_10_PIN
#define SD_MOSI_PIN EXP2_05_PIN
#define SD_DETECT_PIN EXP2_04_PIN
#elif SD_CONNECTION_IS(ONBOARD)
#define SDIO_SUPPORT
#define SDIO_CLOCK 24000000 // 24MHz
#elif SD_CONNECTION_IS(CUSTOM_CABLE)
#error "No custom SD drive cable defined for this board."
#endif
#if ENABLED(BTT_MOTOR_EXPANSION)
/** ----- -----
* -- | . . | GND -- | . . | GND
* -- | . . | M1EN M2EN | . . | M3EN
* M1STP | . . M1DIR M1RX | . . M1DIAG
* M2DIR | . . | M2STP M2RX | . . | M2DIAG
* M3DIR | . . | M3STP M3RX | . . | M3DIAG
* ----- -----
* EXP2 EXP1
*
* NB In EXP_MOT_USE_EXP2_ONLY mode EXP1 is not used and M2EN and M3EN need to be jumpered to M1EN
*/
// M1 on Driver Expansion Module
#define E2_STEP_PIN EXP2_05_PIN
#define E2_DIR_PIN EXP2_06_PIN
#define E2_ENABLE_PIN EXP2_04_PIN
#if !EXP_MOT_USE_EXP2_ONLY
#define E2_DIAG_PIN EXP1_06_PIN
#define E2_CS_PIN EXP1_05_PIN
#if HAS_TMC_UART
#define E2_SERIAL_TX_PIN EXP1_05_PIN
#define E2_SERIAL_RX_PIN EXP1_05_PIN
#endif
#endif
// M2 on Driver Expansion Module
#define E3_STEP_PIN EXP2_08_PIN
#define E3_DIR_PIN EXP2_07_PIN
#if !EXP_MOT_USE_EXP2_ONLY
#define E3_ENABLE_PIN EXP1_03_PIN
#define E3_DIAG_PIN EXP1_08_PIN
#define E3_CS_PIN EXP1_07_PIN
#if HAS_TMC_UART
#define E3_SERIAL_TX_PIN EXP1_07_PIN
#define E3_SERIAL_RX_PIN EXP1_07_PIN
#endif
#else
#define E3_ENABLE_PIN EXP2_04_PIN
#endif
// M3 on Driver Expansion Module
#define E4_STEP_PIN EXP2_10_PIN
#define E4_DIR_PIN EXP2_09_PIN
#if !EXP_MOT_USE_EXP2_ONLY
#define E4_ENABLE_PIN EXP1_04_PIN
#define E4_DIAG_PIN EXP1_10_PIN
#define E4_CS_PIN EXP1_09_PIN
#if HAS_TMC_UART
#define E4_SERIAL_TX_PIN EXP1_09_PIN
#define E4_SERIAL_RX_PIN EXP1_09_PIN
#endif
#else
#define E4_ENABLE_PIN EXP2_04_PIN
#endif
#endif // BTT_MOTOR_EXPANSION
//
// LCDs and Controllers
//
#if IS_TFTGLCD_PANEL
#if ENABLED(TFTGLCD_PANEL_SPI)
#define TFTGLCD_CS EXP2_08_PIN
#endif
#elif HAS_WIRED_LCD
#define BEEPER_PIN EXP1_10_PIN
#define BTN_ENC EXP1_09_PIN
#if ENABLED(CR10_STOCKDISPLAY)
#define LCD_PINS_RS EXP1_04_PIN
#define BTN_EN1 EXP1_08_PIN
#define BTN_EN2 EXP1_06_PIN
#define LCD_PINS_ENABLE EXP1_03_PIN
#define LCD_PINS_D4 EXP1_05_PIN
#elif ENABLED(MKS_MINI_12864)
#define DOGLCD_A0 EXP1_04_PIN
#define DOGLCD_CS EXP1_05_PIN
#define BTN_EN1 EXP2_08_PIN
#define BTN_EN2 EXP2_06_PIN
#else
#define LCD_PINS_RS EXP1_07_PIN
#define BTN_EN1 EXP2_08_PIN
#define BTN_EN2 EXP2_06_PIN
#define LCD_PINS_ENABLE EXP1_08_PIN
#define LCD_PINS_D4 EXP1_06_PIN
#if ENABLED(FYSETC_MINI_12864)
#define DOGLCD_CS EXP1_08_PIN
#define DOGLCD_A0 EXP1_07_PIN
//#define LCD_BACKLIGHT_PIN -1
#define LCD_RESET_PIN EXP1_06_PIN // Must be high or open for LCD to operate normally.
#if EITHER(FYSETC_MINI_12864_1_2, FYSETC_MINI_12864_2_0)
#ifndef RGB_LED_R_PIN
#define RGB_LED_R_PIN EXP1_05_PIN
#endif
#ifndef RGB_LED_G_PIN
#define RGB_LED_G_PIN EXP1_04_PIN
#endif
#ifndef RGB_LED_B_PIN
#define RGB_LED_B_PIN EXP1_03_PIN
#endif
#elif ENABLED(FYSETC_MINI_12864_2_1)
#define NEOPIXEL_PIN EXP1_05_PIN
#endif
#endif // !FYSETC_MINI_12864
#if IS_ULTIPANEL
#define LCD_PINS_D5 EXP1_05_PIN
#define LCD_PINS_D6 EXP1_04_PIN
#define LCD_PINS_D7 EXP1_03_PIN
#if ENABLED(REPRAP_DISCOUNT_FULL_GRAPHIC_SMART_CONTROLLER)
#define BTN_ENC_EN LCD_PINS_D7 // Detect the presence of the encoder
#endif
#endif
#endif
#endif // HAS_WIRED_LCD
// Alter timing for graphical display
#if IS_U8GLIB_ST7920
#ifndef BOARD_ST7920_DELAY_1
#define BOARD_ST7920_DELAY_1 120
#endif
#ifndef BOARD_ST7920_DELAY_2
#define BOARD_ST7920_DELAY_2 80
#endif
#ifndef BOARD_ST7920_DELAY_3
#define BOARD_ST7920_DELAY_3 580
#endif
#endif
#if HAS_SPI_TFT
//
// e.g., BTT_TFT35_SPI_V1_0 (480x320, 3.5", SPI Stock Display with Rotary Encoder in BIQU B1 SE)
//
#define TFT_CS_PIN EXP2_07_PIN
#define TFT_A0_PIN EXP2_04_PIN
#define TFT_SCK_PIN EXP2_09_PIN
#define TFT_MISO_PIN EXP2_10_PIN
#define TFT_MOSI_PIN EXP2_05_PIN
#define TOUCH_INT_PIN EXP1_04_PIN
#define TOUCH_MISO_PIN EXP1_05_PIN
#define TOUCH_MOSI_PIN EXP1_08_PIN
#define TOUCH_SCK_PIN EXP1_06_PIN
#define TOUCH_CS_PIN EXP1_07_PIN
#define BTN_EN1 EXP2_08_PIN
#define BTN_EN2 EXP2_06_PIN
#define BTN_ENC EXP1_09_PIN
#endif
//
// NeoPixel LED
//
#ifndef NEOPIXEL_PIN
#define NEOPIXEL_PIN PE6
#endif
//
// WIFI
//
/**
* -------
* GND | 9 | | 8 | 3.3V
* (ESP-CS) PB12 | 10 | | 7 | PB15 (ESP-MOSI)
* 3.3V | 11 | | 6 | PB14 (ESP-MISO)
* (ESP-IO0) PB10 | 12 | | 5 | PB13 (ESP-CLK)
* (ESP-IO4) PB11 | 13 | | 4 | --
* -- | 14 | | 3 | 3.3V (ESP-EN)
* (ESP-RX) PD8 | 15 | | 2 | --
* (ESP-TX) PD9 | 16 | | 1 | PC14 (ESP-RST)
* -------
* WIFI
*/
#define ESP_WIFI_MODULE_COM 3 // Must also set either SERIAL_PORT or SERIAL_PORT_2 to this
#define ESP_WIFI_MODULE_BAUDRATE BAUDRATE // Must use same BAUDRATE as SERIAL_PORT & SERIAL_PORT_2
#define ESP_WIFI_MODULE_RESET_PIN PC14
#define ESP_WIFI_MODULE_GPIO0_PIN PB10
#define ESP_WIFI_MODULE_GPIO4_PIN PB11

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{
"build": {
"core": "stm32",
"cpu": "cortex-m7",
"extra_flags": "-DSTM32H7xx -DSTM32H743xx",
"f_cpu": "400000000L",
"mcu": "stm32h743vit6",
"product_line": "STM32H743xx",
"variant": "MARLIN_H743Vx"
},
"connectivity": [
"can",
"ethernet"
],
"debug": {
"jlink_device": "STM32H743VI",
"openocd_target": "stm32h7x",
"svd_path": "STM32H7x3.svd",
"tools": {
"stlink": {
"server": {
"arguments": [
"-f",
"scripts/interface/stlink.cfg",
"-c",
"transport select hla_swd",
"-f",
"scripts/target/stm32h7x.cfg",
"-c",
"reset_config none"
],
"executable": "bin/openocd",
"package": "tool-openocd"
}
}
}
},
"frameworks": [
"arduino",
"stm32cube"
],
"name": "STM32H743VI (1024k RAM. 2048k Flash)",
"upload": {
"disable_flushing": false,
"maximum_ram_size": 1048576,
"maximum_size": 2097152,
"protocol": "stlink",
"protocols": [
"stlink",
"dfu",
"jlink",
"cmsis-dap"
],
"offset_address": "0x8020000",
"require_upload_port": true,
"use_1200bps_touch": false,
"wait_for_upload_port": false
},
"url": "https://www.st.com/en/microcontrollers-microprocessors/stm32h743vi.html",
"vendor": "ST"
}

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/*
*******************************************************************************
* Copyright (c) 2020-2021, STMicroelectronics
* All rights reserved.
*
* This software component is licensed by ST under BSD 3-Clause license,
* the "License"; You may not use this file except in compliance with the
* License. You may obtain a copy of the License at:
* opensource.org/licenses/BSD-3-Clause
*
*******************************************************************************
*/
/*
* Automatically generated from STM32H742V(G-I)Hx.xml, STM32H742V(G-I)Tx.xml
* STM32H743V(G-I)Hx.xml, STM32H743VGTx.xml
* STM32H743VITx.xml, STM32H750VBTx.xml
* STM32H753VIHx.xml, STM32H753VITx.xml
* CubeMX DB release 6.0.30
*/
#if !defined(CUSTOM_PERIPHERAL_PINS)
#include "Arduino.h"
#include "PeripheralPins.h"
/* =====
* Notes:
* - The pins mentioned Px_y_ALTz are alternative possibilities which use other
* HW peripheral instances. You can use them the same way as any other "normal"
* pin (i.e. analogWrite(PA7_ALT1, 128);).
*
* - Commented lines are alternative possibilities which are not used per default.
* If you change them, you will have to know what you do
* =====
*/
//*** ADC ***
#ifdef HAL_ADC_MODULE_ENABLED
WEAK const PinMap PinMap_ADC[] = {
{PA_0, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 16, 0)}, // ADC1_INP16
{PA_1, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 17, 0)}, // ADC1_INP17
{PA_2, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 14, 0)}, // ADC1_INP14
{PA_2_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 14, 0)}, // ADC2_INP14
{PA_3, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 15, 0)}, // ADC1_INP15
{PA_3_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 15, 0)}, // ADC2_INP15
{PA_4, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 18, 0)}, // ADC1_INP18
{PA_4_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 18, 0)}, // ADC2_INP18
{PA_5, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 19, 0)}, // ADC1_INP19
{PA_5_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 19, 0)}, // ADC2_INP19
{PA_6, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 3, 0)}, // ADC1_INP3
{PA_6_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 3, 0)}, // ADC2_INP3
{PA_7, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 7, 0)}, // ADC1_INP7
{PA_7_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 7, 0)}, // ADC2_INP7
{PB_0, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 9, 0)}, // ADC1_INP9
{PB_0_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 9, 0)}, // ADC2_INP9
{PB_1, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 5, 0)}, // ADC1_INP5
{PB_1_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 5, 0)}, // ADC2_INP5
{PC_0, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 10, 0)}, // ADC1_INP10
{PC_0_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 10, 0)}, // ADC2_INP10
{PC_0_ALT2, ADC3, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 10, 0)}, // ADC3_INP10
{PC_1, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 11, 0)}, // ADC1_INP11
{PC_1_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 11, 0)}, // ADC2_INP11
{PC_1_ALT2, ADC3, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 11, 0)}, // ADC3_INP11
{PC_2_C, ADC3, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 0, 0)}, // ADC3_INP0
{PC_3_C, ADC3, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 1, 0)}, // ADC3_INP1
{PC_4, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 4, 0)}, // ADC1_INP4
{PC_4_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 4, 0)}, // ADC2_INP4
{PC_5, ADC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 8, 0)}, // ADC1_INP8
{PC_5_ALT1, ADC2, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 8, 0)}, // ADC2_INP8
{NC, NP, 0}
};
#endif
//*** DAC ***
#ifdef HAL_DAC_MODULE_ENABLED
WEAK const PinMap PinMap_DAC[] = {
{PA_4, DAC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 1, 0)}, // DAC1_OUT1
{PA_5, DAC1, STM_PIN_DATA_EXT(STM_MODE_ANALOG, GPIO_NOPULL, 0, 2, 0)}, // DAC1_OUT2
{NC, NP, 0}
};
#endif
//*** I2C ***
#ifdef HAL_I2C_MODULE_ENABLED
WEAK const PinMap PinMap_I2C_SDA[] = {
{PB_7, I2C1, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C1)},
{PB_7_ALT1, I2C4, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF6_I2C4)},
{PB_9, I2C1, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C1)},
{PB_9_ALT1, I2C4, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF6_I2C4)},
{PB_11, I2C2, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C2)},
{PC_9, I2C3, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C3)},
{PD_13, I2C4, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C4)},
{NC, NP, 0}
};
#endif
#ifdef HAL_I2C_MODULE_ENABLED
WEAK const PinMap PinMap_I2C_SCL[] = {
{PA_8, I2C3, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C3)},
{PB_6, I2C1, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C1)},
{PB_6_ALT1, I2C4, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF6_I2C4)},
{PB_8, I2C1, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C1)},
{PB_8_ALT1, I2C4, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF6_I2C4)},
{PB_10, I2C2, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C2)},
{PD_12, I2C4, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_NOPULL, GPIO_AF4_I2C4)},
{NC, NP, 0}
};
#endif
//*** TIM ***
#ifdef HAL_TIM_MODULE_ENABLED
WEAK const PinMap PinMap_TIM[] = {
{PA_0, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 1, 0)}, // TIM2_CH1
{PA_0_ALT1, TIM5, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM5, 1, 0)}, // TIM5_CH1
{PA_1, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 2, 0)}, // TIM2_CH2
{PA_1_ALT1, TIM5, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM5, 2, 0)}, // TIM5_CH2
{PA_1_ALT2, TIM15, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_TIM15, 1, 1)}, // TIM15_CH1N
{PA_2, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 3, 0)}, // TIM2_CH3
{PA_2_ALT1, TIM5, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM5, 3, 0)}, // TIM5_CH3
{PA_2_ALT2, TIM15, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_TIM15, 1, 0)}, // TIM15_CH1
{PA_3, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 4, 0)}, // TIM2_CH4
{PA_3_ALT1, TIM5, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM5, 4, 0)}, // TIM5_CH4
{PA_3_ALT2, TIM15, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_TIM15, 2, 0)}, // TIM15_CH2
{PA_5, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 1, 0)}, // TIM2_CH1
{PA_5_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 1, 1)}, // TIM8_CH1N
{PA_6, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 1, 0)}, // TIM3_CH1
{PA_6_ALT1, TIM13, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_TIM13, 1, 0)}, // TIM13_CH1
{PA_7, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 1, 1)}, // TIM1_CH1N
{PA_7_ALT1, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 2, 0)}, // TIM3_CH2
{PA_7_ALT2, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 1, 1)}, // TIM8_CH1N
{PA_7_ALT3, TIM14, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_TIM14, 1, 0)}, // TIM14_CH1
{PA_8, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 1, 0)}, // TIM1_CH1
{PA_9, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 2, 0)}, // TIM1_CH2
{PA_10, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 3, 0)}, // TIM1_CH3
{PA_11, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 4, 0)}, // TIM1_CH4
{PA_15, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 1, 0)}, // TIM2_CH1
{PB_0, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 2, 1)}, // TIM1_CH2N
{PB_0_ALT1, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 3, 0)}, // TIM3_CH3
{PB_0_ALT2, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 2, 1)}, // TIM8_CH2N
{PB_1, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 3, 1)}, // TIM1_CH3N
{PB_1_ALT1, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 4, 0)}, // TIM3_CH4
{PB_1_ALT2, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 3, 1)}, // TIM8_CH3N
{PB_3, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 2, 0)}, // TIM2_CH2
{PB_4, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 1, 0)}, // TIM3_CH1
{PB_5, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 2, 0)}, // TIM3_CH2
{PB_6, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 1, 0)}, // TIM4_CH1
{PB_6_ALT1, TIM16, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM16, 1, 1)}, // TIM16_CH1N
{PB_7, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 2, 0)}, // TIM4_CH2
{PB_7_ALT1, TIM17, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM17, 1, 1)}, // TIM17_CH1N
{PB_8, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 3, 0)}, // TIM4_CH3
{PB_8_ALT1, TIM16, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM16, 1, 0)}, // TIM16_CH1
{PB_9, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 4, 0)}, // TIM4_CH4
{PB_9_ALT1, TIM17, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM17, 1, 0)}, // TIM17_CH1
{PB_10, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 3, 0)}, // TIM2_CH3
{PB_11, TIM2, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM2, 4, 0)}, // TIM2_CH4
{PB_13, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 1, 1)}, // TIM1_CH1N
{PB_14, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 2, 1)}, // TIM1_CH2N
{PB_14_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 2, 1)}, // TIM8_CH2N
{PB_14_ALT2, TIM12, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM12, 1, 0)}, // TIM12_CH1
{PB_15, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 3, 1)}, // TIM1_CH3N
{PB_15_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 3, 1)}, // TIM8_CH3N
{PB_15_ALT2, TIM12, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM12, 2, 0)}, // TIM12_CH2
{PC_6, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 1, 0)}, // TIM3_CH1
{PC_6_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 1, 0)}, // TIM8_CH1
{PC_7, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 2, 0)}, // TIM3_CH2
{PC_7_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 2, 0)}, // TIM8_CH2
{PC_8, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 3, 0)}, // TIM3_CH3
{PC_8_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 3, 0)}, // TIM8_CH3
{PC_9, TIM3, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM3, 4, 0)}, // TIM3_CH4
{PC_9_ALT1, TIM8, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_TIM8, 4, 0)}, // TIM8_CH4
{PD_12, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 1, 0)}, // TIM4_CH1
{PD_13, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 2, 0)}, // TIM4_CH2
{PD_14, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 3, 0)}, // TIM4_CH3
{PD_15, TIM4, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF2_TIM4, 4, 0)}, // TIM4_CH4
{PE_4, TIM15, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_TIM15, 1, 1)}, // TIM15_CH1N
{PE_5, TIM15, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_TIM15, 1, 0)}, // TIM15_CH1
{PE_6, TIM15, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_TIM15, 2, 0)}, // TIM15_CH2
{PE_8, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 1, 1)}, // TIM1_CH1N
{PE_9, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 1, 0)}, // TIM1_CH1
{PE_10, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 2, 1)}, // TIM1_CH2N
{PE_11, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 2, 0)}, // TIM1_CH2
{PE_12, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 3, 1)}, // TIM1_CH3N
{PE_13, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 3, 0)}, // TIM1_CH3
{PE_14, TIM1, STM_PIN_DATA_EXT(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF1_TIM1, 4, 0)}, // TIM1_CH4
{NC, NP, 0}
};
#endif
//*** UART ***
#ifdef HAL_UART_MODULE_ENABLED
WEAK const PinMap PinMap_UART_TX[] = {
{PA_0, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PA_2, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PA_9, LPUART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_LPUART)},
{PA_9_ALT1, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART1)},
{PA_12, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_UART4)},
{PA_15, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_UART7)},
{PB_4, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_UART7)},
{PB_6, LPUART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_LPUART)},
{PB_6_ALT1, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF14_UART5)},
{PB_6_ALT2, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART1)},
{PB_9, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PB_10, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PB_13, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF14_UART5)},
{PB_14, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_USART1)},
{PC_6, USART6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART6)},
{PC_10, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PC_10_ALT1, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PC_12, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART5)},
{PD_1, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PD_5, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PD_8, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PE_1, UART8, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART8)},
{PE_8, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_UART7)},
{NC, NP, 0}
};
#endif
#ifdef HAL_UART_MODULE_ENABLED
WEAK const PinMap PinMap_UART_RX[] = {
{PA_1, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PA_3, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PA_8, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_UART7)},
{PA_10, LPUART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_LPUART)},
{PA_10_ALT1, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART1)},
{PA_11, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_UART4)},
{PB_3, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_UART7)},
{PB_5, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF14_UART5)},
{PB_7, LPUART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_LPUART)},
{PB_7_ALT1, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART1)},
{PB_8, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PB_11, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PB_12, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF14_UART5)},
{PB_15, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF4_USART1)},
{PC_7, USART6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART6)},
{PC_11, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PC_11_ALT1, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PD_0, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PD_2, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART5)},
{PD_6, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PD_9, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PE_0, UART8, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART8)},
{PE_7, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_UART7)},
{NC, NP, 0}
};
#endif
#ifdef HAL_UART_MODULE_ENABLED
WEAK const PinMap PinMap_UART_RTS[] = {
{PA_1, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PA_12, LPUART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_LPUART)},
{PA_12_ALT1, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART1)},
{PA_15, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PB_14, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PB_14_ALT1, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PC_8, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART5)},
{PD_4, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PD_12, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PD_15, UART8, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART8)},
{PE_9, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_UART7)},
{NC, NP, 0}
};
#endif
#ifdef HAL_UART_MODULE_ENABLED
WEAK const PinMap PinMap_UART_CTS[] = {
{PA_0, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PA_11, LPUART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF3_LPUART)},
{PA_11_ALT1, USART1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART1)},
{PB_0, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PB_13, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PB_15, UART4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART4)},
{PC_9, UART5, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART5)},
{PD_3, USART2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART2)},
{PD_11, USART3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_USART3)},
{PD_14, UART8, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_UART8)},
{PE_10, UART7, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_UART7)},
{NC, NP, 0}
};
#endif
//*** SPI ***
#ifdef HAL_SPI_MODULE_ENABLED
WEAK const PinMap PinMap_SPI_MOSI[] = {
{PA_7, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PA_7_ALT1, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PB_2, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_SPI3)},
{PB_5, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PB_5_ALT1, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_SPI3)},
{PB_5_ALT2, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PB_15, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PC_1, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PC_3_C, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PC_12, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PD_6, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI3)},
{PD_7, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PE_6, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{PE_14, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{NC, NP, 0}
};
#endif
#ifdef HAL_SPI_MODULE_ENABLED
WEAK const PinMap PinMap_SPI_MISO[] = {
{PA_6, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PA_6_ALT1, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PB_4, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PB_4_ALT1, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PB_4_ALT2, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PB_14, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PC_2_C, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PC_11, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PE_5, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{PE_13, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{NC, NP, 0}
};
#endif
#ifdef HAL_SPI_MODULE_ENABLED
WEAK const PinMap PinMap_SPI_SCLK[] = {
{PA_5, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PA_5_ALT1, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PA_9, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PA_12, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PB_3, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PB_3_ALT1, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PB_3_ALT2, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PB_10, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PB_13, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PC_10, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PD_3, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PE_2, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{PE_12, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{NC, NP, 0}
};
#endif
#ifdef HAL_SPI_MODULE_ENABLED
WEAK const PinMap PinMap_SPI_SSEL[] = {
{PA_4, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PA_4_ALT1, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PA_4_ALT2, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF8_SPI6)},
{PA_11, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PA_15, SPI1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI1)},
{PA_15_ALT1, SPI3, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF6_SPI3)},
{PA_15_ALT2, SPI6, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_SPI6)},
{PB_4, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF7_SPI2)},
{PB_9, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PB_12, SPI2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI2)},
{PE_4, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{PE_11, SPI4, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF5_SPI4)},
{NC, NP, 0}
};
#endif
//*** FDCAN ***
#ifdef HAL_FDCAN_MODULE_ENABLED
WEAK const PinMap PinMap_CAN_RD[] = {
{PA_11, FDCAN1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN1)},
{PB_5, FDCAN2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN2)},
{PB_8, FDCAN1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN1)},
{PB_12, FDCAN2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN2)},
{PD_0, FDCAN1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN1)},
{NC, NP, 0}
};
#endif
#ifdef HAL_FDCAN_MODULE_ENABLED
WEAK const PinMap PinMap_CAN_TD[] = {
{PA_12, FDCAN1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN1)},
{PB_6, FDCAN2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN2)},
{PB_9, FDCAN1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN1)},
{PB_13, FDCAN2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN2)},
{PD_1, FDCAN1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_FDCAN1)},
{NC, NP, 0}
};
#endif
//*** ETHERNET ***
#ifdef HAL_ETH_MODULE_ENABLED
WEAK const PinMap PinMap_Ethernet[] = {
{PA_0, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_CRS
{PA_1, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_REF_CLK
{PA_1_ALT1, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RX_CLK
{PA_2, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_MDIO
{PA_3, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_COL
{PA_7, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_CRS_DV
{PA_7_ALT1, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RX_DV
{PB_0, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RXD2
{PB_1, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RXD3
{PB_5, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_PPS_OUT
{PB_8, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TXD3
{PB_10, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RX_ER
{PB_11, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TX_EN
{PB_12, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TXD0
{PB_13, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TXD1
{PC_1, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_MDC
{PC_2_C, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TXD2
{PC_3_C, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TX_CLK
{PC_4, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RXD0
{PC_5, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_RXD1
{PE_2, ETH, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF11_ETH)}, // ETH_TXD3
{NC, NP, 0}
};
#endif
//*** QUADSPI ***
#ifdef HAL_QSPI_MODULE_ENABLED
WEAK const PinMap PinMap_QUADSPI_DATA0[] = {
{PC_9, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO0
{PD_11, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO0
{PE_7, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_QUADSPI)}, // QUADSPI_BK2_IO0
{NC, NP, 0}
};
#endif
#ifdef HAL_QSPI_MODULE_ENABLED
WEAK const PinMap PinMap_QUADSPI_DATA1[] = {
{PC_10, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO1
{PD_12, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO1
{PE_8, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_QUADSPI)}, // QUADSPI_BK2_IO1
{NC, NP, 0}
};
#endif
#ifdef HAL_QSPI_MODULE_ENABLED
WEAK const PinMap PinMap_QUADSPI_DATA2[] = {
{PE_2, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO2
{PE_9, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_QUADSPI)}, // QUADSPI_BK2_IO2
{NC, NP, 0}
};
#endif
#ifdef HAL_QSPI_MODULE_ENABLED
WEAK const PinMap PinMap_QUADSPI_DATA3[] = {
{PA_1, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO3
{PD_13, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_IO3
{PE_10, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_QUADSPI)}, // QUADSPI_BK2_IO3
{NC, NP, 0}
};
#endif
#ifdef HAL_QSPI_MODULE_ENABLED
WEAK const PinMap PinMap_QUADSPI_SCLK[] = {
{PB_2, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_CLK
{NC, NP, 0}
};
#endif
#ifdef HAL_QSPI_MODULE_ENABLED
WEAK const PinMap PinMap_QUADSPI_SSEL[] = {
{PB_6, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_QUADSPI)}, // QUADSPI_BK1_NCS
{PB_10, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK1_NCS
{PC_11, QUADSPI, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_QUADSPI)}, // QUADSPI_BK2_NCS
{NC, NP, 0}
};
#endif
//*** USB ***
#if defined(HAL_PCD_MODULE_ENABLED) || defined(HAL_HCD_MODULE_ENABLED)
WEAK const PinMap PinMap_USB_OTG_FS[] = {
{PA_8, USB_OTG_FS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG1_FS)}, // USB_OTG_FS_SOF
{PA_9, USB_OTG_FS, STM_PIN_DATA(STM_MODE_INPUT, GPIO_NOPULL, GPIO_AF_NONE)}, // USB_OTG_FS_VBUS
{PA_10, USB_OTG_FS, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_PULLUP, GPIO_AF10_OTG1_FS)}, // USB_OTG_FS_ID
{PA_11, USB_OTG_FS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG1_FS)}, // USB_OTG_FS_DM
{PA_12, USB_OTG_FS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG1_FS)}, // USB_OTG_FS_DP
{NC, NP, 0}
};
#endif
#if defined(HAL_PCD_MODULE_ENABLED) || defined(HAL_HCD_MODULE_ENABLED)
WEAK const PinMap PinMap_USB_OTG_HS[] = {
#ifdef USE_USB_HS_IN_FS
// {PA_4, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_OTG2_FS)}, // USB_OTG_HS_SOF
// {PB_12, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_OD, GPIO_PULLUP, GPIO_AF12_OTG2_FS)}, // USB_OTG_HS_ID
// {PB_13, USB_OTG_HS, STM_PIN_DATA(STM_MODE_INPUT, GPIO_NOPULL, GPIO_AF_NONE)}, // USB_OTG_HS_VBUS
{PB_14, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_OTG2_FS)}, // USB_OTG_HS_DM
{PB_15, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_OTG2_FS)}, // USB_OTG_HS_DP
#else
{PA_3, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D0
{PA_5, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_CK
{PB_0, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D1
{PB_1, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D2
{PB_5, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D7
{PB_10, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D3
{PB_11, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D4
{PB_12, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D5
{PB_13, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_D6
{PC_0, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_STP
{PC_2_C, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_DIR
{PC_3_C, USB_OTG_HS, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_OTG2_HS)}, // USB_OTG_HS_ULPI_NXT
#endif /* USE_USB_HS_IN_FS */
{NC, NP, 0}
};
#endif
//*** SD ***
#ifdef HAL_SD_MODULE_ENABLED
WEAK const PinMap PinMap_SD[] = {
{PA_0, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_SDIO2)}, // SDMMC2_CMD
{PB_3, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_SDIO2)}, // SDMMC2_D2
{PB_4, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_SDIO2)}, // SDMMC2_D3
{PB_8, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF7_SDIO1)}, // SDMMC1_CKIN
{PB_8_ALT1, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D4
{PB_8_ALT2, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_SDIO2)}, // SDMMC2_D4
{PB_9, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF7_SDIO1)}, // SDMMC1_CDIR
{PB_9_ALT1, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D5
{PB_9_ALT2, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_SDIO2)}, // SDMMC2_D5
{PB_14, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_SDIO2)}, // SDMMC2_D0
{PB_15, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF9_SDIO2)}, // SDMMC2_D1
{PC_1, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF9_SDIO2)}, // SDMMC2_CK
{PC_6, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF8_SDIO1)}, // SDMMC1_D0DIR
{PC_6_ALT1, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D6
{PC_6_ALT2, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_SDIO2)}, // SDMMC2_D6
{PC_7, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF8_SDIO1)}, // SDMMC1_D123DIR
{PC_7_ALT1, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D7
{PC_7_ALT2, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF10_SDIO2)}, // SDMMC2_D7
{PC_8, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D0
{PC_9, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D1
{PC_10, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D2
{PC_11, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_PULLUP, GPIO_AF12_SDIO1)}, // SDMMC1_D3
{PC_12, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF12_SDIO1)}, // SDMMC1_CK
{PD_2, SDMMC1, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF12_SDIO1)}, // SDMMC1_CMD
{PD_6, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF11_SDIO2)}, // SDMMC2_CK
{PD_7, SDMMC2, STM_PIN_DATA(STM_MODE_AF_PP, GPIO_NOPULL, GPIO_AF11_SDIO2)}, // SDMMC2_CMD
{NC, NP, 0}
};
#endif
#endif /* !CUSTOM_PERIPHERAL_PINS */

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/* Dual pad pin name */
PC_2_C = PC_2 | PDUAL,
PC_3_C = PC_3 | PDUAL,
/* Alternate pin name */
PA_0_ALT1 = PA_0 | ALT1,
PA_1_ALT1 = PA_1 | ALT1,
PA_1_ALT2 = PA_1 | ALT2,
PA_2_ALT1 = PA_2 | ALT1,
PA_2_ALT2 = PA_2 | ALT2,
PA_3_ALT1 = PA_3 | ALT1,
PA_3_ALT2 = PA_3 | ALT2,
PA_4_ALT1 = PA_4 | ALT1,
PA_4_ALT2 = PA_4 | ALT2,
PA_5_ALT1 = PA_5 | ALT1,
PA_6_ALT1 = PA_6 | ALT1,
PA_7_ALT1 = PA_7 | ALT1,
PA_7_ALT2 = PA_7 | ALT2,
PA_7_ALT3 = PA_7 | ALT3,
PA_9_ALT1 = PA_9 | ALT1,
PA_10_ALT1 = PA_10 | ALT1,
PA_11_ALT1 = PA_11 | ALT1,
PA_12_ALT1 = PA_12 | ALT1,
PA_15_ALT1 = PA_15 | ALT1,
PA_15_ALT2 = PA_15 | ALT2,
PB_0_ALT1 = PB_0 | ALT1,
PB_0_ALT2 = PB_0 | ALT2,
PB_1_ALT1 = PB_1 | ALT1,
PB_1_ALT2 = PB_1 | ALT2,
PB_3_ALT1 = PB_3 | ALT1,
PB_3_ALT2 = PB_3 | ALT2,
PB_4_ALT1 = PB_4 | ALT1,
PB_4_ALT2 = PB_4 | ALT2,
PB_5_ALT1 = PB_5 | ALT1,
PB_5_ALT2 = PB_5 | ALT2,
PB_6_ALT1 = PB_6 | ALT1,
PB_6_ALT2 = PB_6 | ALT2,
PB_7_ALT1 = PB_7 | ALT1,
PB_8_ALT1 = PB_8 | ALT1,
PB_8_ALT2 = PB_8 | ALT2,
PB_9_ALT1 = PB_9 | ALT1,
PB_9_ALT2 = PB_9 | ALT2,
PB_14_ALT1 = PB_14 | ALT1,
PB_14_ALT2 = PB_14 | ALT2,
PB_15_ALT1 = PB_15 | ALT1,
PB_15_ALT2 = PB_15 | ALT2,
PC_0_ALT1 = PC_0 | ALT1,
PC_0_ALT2 = PC_0 | ALT2,
PC_1_ALT1 = PC_1 | ALT1,
PC_1_ALT2 = PC_1 | ALT2,
PC_4_ALT1 = PC_4 | ALT1,
PC_5_ALT1 = PC_5 | ALT1,
PC_6_ALT1 = PC_6 | ALT1,
PC_6_ALT2 = PC_6 | ALT2,
PC_7_ALT1 = PC_7 | ALT1,
PC_7_ALT2 = PC_7 | ALT2,
PC_8_ALT1 = PC_8 | ALT1,
PC_9_ALT1 = PC_9 | ALT1,
PC_10_ALT1 = PC_10 | ALT1,
PC_11_ALT1 = PC_11 | ALT1,
/* SYS_WKUP */
#ifdef PWR_WAKEUP_PIN1
SYS_WKUP1 = PA_0, /* SYS_WKUP0 */
#endif
#ifdef PWR_WAKEUP_PIN2
SYS_WKUP2 = PA_2, /* SYS_WKUP1 */
#endif
#ifdef PWR_WAKEUP_PIN3
SYS_WKUP3 = PC_13, /* SYS_WKUP2 */
#endif
#ifdef PWR_WAKEUP_PIN4
SYS_WKUP4 = NC,
#endif
#ifdef PWR_WAKEUP_PIN5
SYS_WKUP5 = NC,
#endif
#ifdef PWR_WAKEUP_PIN6
SYS_WKUP6 = PC_1, /* SYS_WKUP5 */
#endif
#ifdef PWR_WAKEUP_PIN7
SYS_WKUP7 = NC,
#endif
#ifdef PWR_WAKEUP_PIN8
SYS_WKUP8 = NC,
#endif
/* USB */
#ifdef USBCON
USB_OTG_FS_DM = PA_11,
USB_OTG_FS_DP = PA_12,
USB_OTG_FS_ID = PA_10,
USB_OTG_FS_SOF = PA_8,
USB_OTG_FS_VBUS = PA_9,
USB_OTG_HS_DM = PB_14,
USB_OTG_HS_DP = PB_15,
USB_OTG_HS_ID = PB_12,
USB_OTG_HS_SOF = PA_4,
USB_OTG_HS_ULPI_CK = PA_5,
USB_OTG_HS_ULPI_D0 = PA_3,
USB_OTG_HS_ULPI_D1 = PB_0,
USB_OTG_HS_ULPI_D2 = PB_1,
USB_OTG_HS_ULPI_D3 = PB_10,
USB_OTG_HS_ULPI_D4 = PB_11,
USB_OTG_HS_ULPI_D5 = PB_12,
USB_OTG_HS_ULPI_D6 = PB_13,
USB_OTG_HS_ULPI_D7 = PB_5,
USB_OTG_HS_ULPI_DIR = PC_2_C,
USB_OTG_HS_ULPI_NXT = PC_3_C,
USB_OTG_HS_ULPI_STP = PC_0,
USB_OTG_HS_VBUS = PB_13,
#endif

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/*
******************************************************************************
**
** File : LinkerScript.ld
**
** Author : Auto-generated by STM32CubeIDE
**
** Abstract : Linker script for STM32H743VI Device from STM32H7 series
** 2048Kbytes FLASH
** 128Kbytes DTCMRAM
** 64Kbytes ITCMRAM
** 512Kbytes RAM_D1
** 288Kbytes RAM_D2
** 64Kbytes RAM_D3
**
** Set heap size, stack size and stack location according
** to application requirements.
**
** Set memory bank area and size if external memory is used.
**
** Target : STMicroelectronics STM32
**
** Distribution: The file is distributed as is without any warranty
** of any kind.
**
*****************************************************************************
** @attention
**
** <h2><center>&copy; COPYRIGHT(c) 2019 STMicroelectronics</center></h2>
**
** Redistribution and use in source and binary forms, with or without modification,
** are permitted provided that the following conditions are met:
** 1. Redistributions of source code must retain the above copyright notice,
** this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright notice,
** this list of conditions and the following disclaimer in the documentation
** and/or other materials provided with the distribution.
** 3. Neither the name of STMicroelectronics nor the names of its contributors
** may be used to endorse or promote products derived from this software
** without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
** AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
** IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
** DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
** FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
** DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
** SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
** CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
** OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
** OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**
*****************************************************************************
*/
/* Entry Point */
ENTRY(Reset_Handler)
/* Highest address of the user mode stack */
_estack = 0x24080000; /* end of "RAM_D1" Ram type memory */
_Min_Heap_Size = 0x200; /* required amount of heap */
_Min_Stack_Size = 0x400; /* required amount of stack */
/* Memories definition */
MEMORY
{
DTCMRAM (xrw) : ORIGIN = 0x20000000, LENGTH = 128K
ITCMRAM (xrw) : ORIGIN = 0x00000000, LENGTH = 64K
RAM_D1 (xrw) : ORIGIN = 0x24000000, LENGTH = 512K
RAM_D2 (xrw) : ORIGIN = 0x30000000, LENGTH = 288K
RAM_D3 (xrw) : ORIGIN = 0x38000000, LENGTH = 64K
FLASH (rx) : ORIGIN = 0x8000000 + LD_FLASH_OFFSET, LENGTH = LD_MAX_SIZE - LD_FLASH_OFFSET
}
/* Sections */
SECTIONS
{
/* The startup code into "FLASH" Rom type memory */
.isr_vector :
{
. = ALIGN(4);
KEEP(*(.isr_vector)) /* Startup code */
. = ALIGN(4);
} >FLASH
/* The program code and other data into "FLASH" Rom type memory */
.text :
{
. = ALIGN(4);
*(.text) /* .text sections (code) */
*(.text*) /* .text* sections (code) */
*(.glue_7) /* glue arm to thumb code */
*(.glue_7t) /* glue thumb to arm code */
*(.eh_frame)
KEEP (*(.init))
KEEP (*(.fini))
. = ALIGN(4);
_etext = .; /* define a global symbols at end of code */
} >FLASH
/* Constant data into "FLASH" Rom type memory */
.rodata :
{
. = ALIGN(4);
*(.rodata) /* .rodata sections (constants, strings, etc.) */
*(.rodata*) /* .rodata* sections (constants, strings, etc.) */
. = ALIGN(4);
} >FLASH
.ARM.extab : {
. = ALIGN(4);
*(.ARM.extab* .gnu.linkonce.armextab.*)
. = ALIGN(4);
} >FLASH
.ARM : {
. = ALIGN(4);
__exidx_start = .;
*(.ARM.exidx*)
__exidx_end = .;
. = ALIGN(4);
} >FLASH
.preinit_array :
{
. = ALIGN(4);
PROVIDE_HIDDEN (__preinit_array_start = .);
KEEP (*(.preinit_array*))
PROVIDE_HIDDEN (__preinit_array_end = .);
. = ALIGN(4);
} >FLASH
.init_array :
{
. = ALIGN(4);
PROVIDE_HIDDEN (__init_array_start = .);
KEEP (*(SORT(.init_array.*)))
KEEP (*(.init_array*))
PROVIDE_HIDDEN (__init_array_end = .);
. = ALIGN(4);
} >FLASH
.fini_array :
{
. = ALIGN(4);
PROVIDE_HIDDEN (__fini_array_start = .);
KEEP (*(SORT(.fini_array.*)))
KEEP (*(.fini_array*))
PROVIDE_HIDDEN (__fini_array_end = .);
. = ALIGN(4);
} >FLASH
/* Used by the startup to initialize data */
_sidata = LOADADDR(.data);
/* Initialized data sections into "RAM_D1" Ram type memory */
.data :
{
. = ALIGN(4);
_sdata = .; /* create a global symbol at data start */
*(.data) /* .data sections */
*(.data*) /* .data* sections */
. = ALIGN(4);
_edata = .; /* define a global symbol at data end */
} >RAM_D1 AT> FLASH
/* Uninitialized data section into "RAM_D1" Ram type memory */
. = ALIGN(4);
.bss :
{
/* This is used by the startup in order to initialize the .bss section */
_sbss = .; /* define a global symbol at bss start */
__bss_start__ = _sbss;
*(.bss)
*(.bss*)
*(COMMON)
. = ALIGN(4);
_ebss = .; /* define a global symbol at bss end */
__bss_end__ = _ebss;
} >RAM_D1
/* User_heap_stack section, used to check that there is enough "RAM_D1" Ram type memory left */
._user_heap_stack :
{
. = ALIGN(8);
PROVIDE ( end = . );
PROVIDE ( _end = . );
. = . + _Min_Heap_Size;
. = . + _Min_Stack_Size;
. = ALIGN(8);
} >RAM_D1
/* Remove information from the compiler libraries */
/DISCARD/ :
{
libc.a ( * )
libm.a ( * )
libgcc.a ( * )
}
.ARM.attributes 0 : { *(.ARM.attributes) }
}

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/*
*******************************************************************************
* Copyright (c) 2020-2021, STMicroelectronics
* All rights reserved.
*
* This software component is licensed by ST under BSD 3-Clause license,
* the "License"; You may not use this file except in compliance with the
* License. You may obtain a copy of the License at:
* opensource.org/licenses/BSD-3-Clause
*
*******************************************************************************
*/
#if defined(STM32H743xx)
#include "pins_arduino.h"
// Digital PinName array
const PinName digitalPin[] = {
PA_0, // D0/A0
PA_1, // D1/A1
PA_2, // D2/A2
PA_3, // D3/A3
PA_4, // D4/A4
PA_5, // D5/A5
PA_6, // D6/A6
PA_7, // D7/A7
PA_8, // D8
PA_9, // D9
PA_10, // D10
PA_11, // D11
PA_12, // D12
PA_13, // D13
PA_14, // D14
PA_15, // D15
PB_0, // D16/A8
PB_1, // D17/A9
PB_2, // D18
PB_3, // D19
PB_4, // D20
PB_5, // D21
PB_6, // D22
PB_7, // D23
PB_8, // D24
PB_9, // D25
PB_10, // D26
PB_11, // D27
PB_12, // D28
PB_13, // D29
PB_14, // D30
PB_15, // D31
PC_0, // D32/A10
PC_1, // D33/A11
PC_4, // D34/A12
PC_5, // D35/A13
PC_6, // D36
PC_7, // D37
PC_8, // D38
PC_9, // D39
PC_10, // D40
PC_11, // D41
PC_12, // D42
PC_13, // D43
PC_14, // D44
PC_15, // D45
PD_0, // D46
PD_1, // D47
PD_2, // D48
PD_3, // D49
PD_4, // D50
PD_5, // D51
PD_6, // D52
PD_7, // D53
PD_8, // D54
PD_9, // D55
PD_10, // D56
PD_11, // D57
PD_12, // D58
PD_13, // D59
PD_14, // D60
PD_15, // D61
PE_0, // D62
PE_1, // D63
PE_2, // D64
PE_3, // D65
PE_4, // D66
PE_5, // D67
PE_6, // D68
PE_7, // D69
PE_8, // D70
PE_9, // D71
PE_10, // D72
PE_11, // D73
PE_12, // D74
PE_13, // D75
PE_14, // D76
PE_15, // D77
PH_0, // D78
PH_1, // D79
PC_2_C, // D80/A14
PC_3_C // D81/A15
};
// Analog (Ax) pin number array
const uint32_t analogInputPin[] = {
0, // A0, PA0
1, // A1, PA1
2, // A2, PA2
3, // A3, PA3
4, // A4, PA4
5, // A5, PA5
6, // A6, PA6
7, // A7, PA7
16, // A8, PB0
17, // A9, PB1
32, // A10, PC0
33, // A11, PC1
34, // A12, PC4
35, // A13, PC5
80, // A14, PC2_C
81 // A15, PC3_C
};
/*
* @brief System Clock Configuration
* @param None
* @retval None
*/
WEAK void SystemClock_Config(void)
{
RCC_OscInitTypeDef RCC_OscInitStruct = {0};
RCC_ClkInitTypeDef RCC_ClkInitStruct = {0};
RCC_PeriphCLKInitTypeDef PeriphClkInitStruct = {};
/** Supply configuration update enable
*/
HAL_PWREx_ConfigSupply(PWR_LDO_SUPPLY);
/** Configure the main internal regulator output voltage
*/
__HAL_PWR_VOLTAGESCALING_CONFIG(PWR_REGULATOR_VOLTAGE_SCALE0);
while(!__HAL_PWR_GET_FLAG(PWR_FLAG_VOSRDY)) {}
/** Initializes the RCC Oscillators according to the specified parameters
* in the RCC_OscInitTypeDef structure.
*/
RCC_OscInitStruct.OscillatorType = RCC_OSCILLATORTYPE_HSE;
RCC_OscInitStruct.HSEState = RCC_HSE_ON;
RCC_OscInitStruct.PLL.PLLState = RCC_PLL_ON;
RCC_OscInitStruct.PLL.PLLSource = RCC_PLLSOURCE_HSE;
RCC_OscInitStruct.PLL.PLLM = 5; // 25Mhz / 5 = 5Mhz
RCC_OscInitStruct.PLL.PLLN = 192; // 25Mhz / 5 * 192 = 960Mhz
RCC_OscInitStruct.PLL.PLLP = 2; // 960Mhz / 2 = 480Mhz
RCC_OscInitStruct.PLL.PLLQ = 20; // 960Mhz / 20 = 48Mhz for USB
RCC_OscInitStruct.PLL.PLLR = 20; // unused
RCC_OscInitStruct.PLL.PLLRGE = RCC_PLL1VCIRANGE_2;
RCC_OscInitStruct.PLL.PLLVCOSEL = RCC_PLL1VCOWIDE;
RCC_OscInitStruct.PLL.PLLFRACN = 0;
if (HAL_RCC_OscConfig(&RCC_OscInitStruct) != HAL_OK)
{
Error_Handler();
}
/** Initializes the CPU, AHB and APB buses clocks
*/
RCC_ClkInitStruct.ClockType = RCC_CLOCKTYPE_HCLK|RCC_CLOCKTYPE_SYSCLK
|RCC_CLOCKTYPE_PCLK1|RCC_CLOCKTYPE_PCLK2
|RCC_CLOCKTYPE_D3PCLK1|RCC_CLOCKTYPE_D1PCLK1;
RCC_ClkInitStruct.SYSCLKSource = RCC_SYSCLKSOURCE_PLLCLK;
RCC_ClkInitStruct.SYSCLKDivider = RCC_SYSCLK_DIV1;
RCC_ClkInitStruct.AHBCLKDivider = RCC_HCLK_DIV2;
RCC_ClkInitStruct.APB3CLKDivider = RCC_APB3_DIV2;
RCC_ClkInitStruct.APB1CLKDivider = RCC_APB1_DIV2;
RCC_ClkInitStruct.APB2CLKDivider = RCC_APB2_DIV2;
RCC_ClkInitStruct.APB4CLKDivider = RCC_APB4_DIV2;
if (HAL_RCC_ClockConfig(&RCC_ClkInitStruct, FLASH_LATENCY_4) != HAL_OK)
{
Error_Handler();
}
PeriphClkInitStruct.PeriphClockSelection = RCC_PERIPHCLK_USB | RCC_PERIPHCLK_QSPI
| RCC_PERIPHCLK_SDMMC | RCC_PERIPHCLK_ADC
| RCC_PERIPHCLK_LPUART1 | RCC_PERIPHCLK_USART16
| RCC_PERIPHCLK_USART234578 | RCC_PERIPHCLK_I2C123
| RCC_PERIPHCLK_I2C4 | RCC_PERIPHCLK_SPI123
| RCC_PERIPHCLK_SPI45 | RCC_PERIPHCLK_SPI6;
/* PLL1 qclk used for USB 48 Mhz */
/* PLL1 qclk also used for FMC, QUADSPI, SDMMC, RNG, SAI */
/* PLL2 pclk is needed for adc max 80 Mhz (p,q,r same) */
/* PLL2 pclk also used for LP timers 2,3,4,5, SPI 1,2,3 */
/* PLL2 qclk is needed for uart, can, spi4,5,6 80 Mhz */
/* PLL3 r clk is needed for i2c 80 Mhz (p,q,r same) */
PeriphClkInitStruct.PLL2.PLL2M = 15; // M DIV 15 vco 25 / 15 ~ 1.667 Mhz
PeriphClkInitStruct.PLL2.PLL2N = 96; // N MUL 96
PeriphClkInitStruct.PLL2.PLL2P = 2; // P div 2
PeriphClkInitStruct.PLL2.PLL2Q = 2; // Q div 2
PeriphClkInitStruct.PLL2.PLL2R = 2; // R div 2
// RCC_PLL1VCIRANGE_0 Clock range frequency between 1 and 2 MHz
PeriphClkInitStruct.PLL2.PLL2RGE = RCC_PLL2VCIRANGE_0;
PeriphClkInitStruct.PLL2.PLL2VCOSEL = RCC_PLL2VCOMEDIUM;
PeriphClkInitStruct.PLL2.PLL2FRACN = 0;
PeriphClkInitStruct.PLL3.PLL3M = 15; // M DIV 15 vco 25 / 15 ~ 1.667 Mhz
PeriphClkInitStruct.PLL3.PLL3N = 96; // N MUL 96
PeriphClkInitStruct.PLL3.PLL3P = 2; // P div 2
PeriphClkInitStruct.PLL3.PLL3Q = 2; // Q div 2
PeriphClkInitStruct.PLL3.PLL3R = 2; // R div 2
// RCC_PLL1VCIRANGE_0 Clock range frequency between 1 and 2 MHz
PeriphClkInitStruct.PLL3.PLL3RGE = RCC_PLL3VCIRANGE_0;
PeriphClkInitStruct.PLL3.PLL3VCOSEL = RCC_PLL3VCOMEDIUM;
PeriphClkInitStruct.PLL3.PLL3FRACN = 0;
// ADC from PLL2 pclk
PeriphClkInitStruct.AdcClockSelection = RCC_ADCCLKSOURCE_PLL2;
// USB from PLL1 qclk
PeriphClkInitStruct.UsbClockSelection = RCC_USBCLKSOURCE_PLL;
// QSPI from PLL1 qclk
PeriphClkInitStruct.QspiClockSelection = RCC_QSPICLKSOURCE_PLL;
// SDMMC from PLL1 qclk
PeriphClkInitStruct.SdmmcClockSelection = 0;
//PeriphClkInitStruct.SdmmcClockSelection = RCC_SDMMCCLKSOURCE_PLL;
// LPUART from PLL2 qclk
PeriphClkInitStruct.Lpuart1ClockSelection = 0;
//PeriphClkInitStruct.Lpuart1ClockSelection = RCC_LPUART1CLKSOURCE_PLL2;
// USART from PLL2 qclk
PeriphClkInitStruct.Usart16ClockSelection = RCC_USART16CLKSOURCE_PLL2;
// USART from PLL2 qclk
PeriphClkInitStruct.Usart234578ClockSelection = 0;
//PeriphClkInitStruct.Usart234578ClockSelection = RCC_USART234578CLKSOURCE_PLL2;
// I2C123 from PLL3 rclk
PeriphClkInitStruct.I2c123ClockSelection = RCC_I2C123CLKSOURCE_PLL3;
// I2C4 from PLL3 rclk
PeriphClkInitStruct.I2c4ClockSelection = 0;
//PeriphClkInitStruct.I2c4ClockSelection = RCC_I2C4CLKSOURCE_PLL3;
// SPI123 from PLL2 pclk
PeriphClkInitStruct.Spi123ClockSelection = RCC_SPI123CLKSOURCE_PLL2;
// SPI45 from PLL2 qclk
PeriphClkInitStruct.Spi45ClockSelection = 0;
//PeriphClkInitStruct.Spi45ClockSelection = RCC_SPI45CLKSOURCE_PLL2;
// SPI6 from PLL2 qclk
PeriphClkInitStruct.Spi6ClockSelection = 0;
//PeriphClkInitStruct.Spi6ClockSelection = RCC_SPI6CLKSOURCE_PLL2;
if (HAL_RCCEx_PeriphCLKConfig(&PeriphClkInitStruct) != HAL_OK) {
Error_Handler();
}
}
#endif /* ARDUINO_GENERIC_* */

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/*
*******************************************************************************
* Copyright (c) 2020-2021, STMicroelectronics
* All rights reserved.
*
* This software component is licensed by ST under BSD 3-Clause license,
* the "License"; You may not use this file except in compliance with the
* License. You may obtain a copy of the License at:
* opensource.org/licenses/BSD-3-Clause
*
*******************************************************************************
*/
#pragma once
/*----------------------------------------------------------------------------
* STM32 pins number
*----------------------------------------------------------------------------*/
#define PA0 PIN_A0
#define PA1 PIN_A1
#define PA2 PIN_A2
#define PA3 PIN_A3
#define PA4 PIN_A4
#define PA5 PIN_A5
#define PA6 PIN_A6
#define PA7 PIN_A7
#define PA8 8
#define PA9 9
#define PA10 10
#define PA11 11
#define PA12 12
#define PA13 13
#define PA14 14
#define PA15 15
#define PB0 PIN_A8
#define PB1 PIN_A9
#define PB2 18
#define PB3 19
#define PB4 20
#define PB5 21
#define PB6 22
#define PB7 23
#define PB8 24
#define PB9 25
#define PB10 26
#define PB11 27
#define PB12 28
#define PB13 29
#define PB14 30
#define PB15 31
#define PC0 PIN_A10
#define PC1 PIN_A11
#define PC4 PIN_A12
#define PC5 PIN_A13
#define PC6 36
#define PC7 37
#define PC8 38
#define PC9 39
#define PC10 40
#define PC11 41
#define PC12 42
#define PC13 43
#define PC14 44
#define PC15 45
#define PD0 46
#define PD1 47
#define PD2 48
#define PD3 49
#define PD4 50
#define PD5 51
#define PD6 52
#define PD7 53
#define PD8 54
#define PD9 55
#define PD10 56
#define PD11 57
#define PD12 58
#define PD13 59
#define PD14 60
#define PD15 61
#define PE0 62
#define PE1 63
#define PE2 64
#define PE3 65
#define PE4 66
#define PE5 67
#define PE6 68
#define PE7 69
#define PE8 70
#define PE9 71
#define PE10 72
#define PE11 73
#define PE12 74
#define PE13 75
#define PE14 76
#define PE15 77
#define PH0 78
#define PH1 79
#define PC2_C PIN_A14
#define PC3_C PIN_A15
#define PC2 PC2_C
#define PC3 PC3_C
// Alternate pins number
#define PA0_ALT1 (PA0 | ALT1)
#define PA1_ALT1 (PA1 | ALT1)
#define PA1_ALT2 (PA1 | ALT2)
#define PA2_ALT1 (PA2 | ALT1)
#define PA2_ALT2 (PA2 | ALT2)
#define PA3_ALT1 (PA3 | ALT1)
#define PA3_ALT2 (PA3 | ALT2)
#define PA4_ALT1 (PA4 | ALT1)
#define PA4_ALT2 (PA4 | ALT2)
#define PA5_ALT1 (PA5 | ALT1)
#define PA6_ALT1 (PA6 | ALT1)
#define PA7_ALT1 (PA7 | ALT1)
#define PA7_ALT2 (PA7 | ALT2)
#define PA7_ALT3 (PA7 | ALT3)
#define PA9_ALT1 (PA9 | ALT1)
#define PA10_ALT1 (PA10 | ALT1)
#define PA11_ALT1 (PA11 | ALT1)
#define PA12_ALT1 (PA12 | ALT1)
#define PA15_ALT1 (PA15 | ALT1)
#define PA15_ALT2 (PA15 | ALT2)
#define PB0_ALT1 (PB0 | ALT1)
#define PB0_ALT2 (PB0 | ALT2)
#define PB1_ALT1 (PB1 | ALT1)
#define PB1_ALT2 (PB1 | ALT2)
#define PB3_ALT1 (PB3 | ALT1)
#define PB3_ALT2 (PB3 | ALT2)
#define PB4_ALT1 (PB4 | ALT1)
#define PB4_ALT2 (PB4 | ALT2)
#define PB5_ALT1 (PB5 | ALT1)
#define PB5_ALT2 (PB5 | ALT2)
#define PB6_ALT1 (PB6 | ALT1)
#define PB6_ALT2 (PB6 | ALT2)
#define PB7_ALT1 (PB7 | ALT1)
#define PB8_ALT1 (PB8 | ALT1)
#define PB8_ALT2 (PB8 | ALT2)
#define PB9_ALT1 (PB9 | ALT1)
#define PB9_ALT2 (PB9 | ALT2)
#define PB14_ALT1 (PB14 | ALT1)
#define PB14_ALT2 (PB14 | ALT2)
#define PB15_ALT1 (PB15 | ALT1)
#define PB15_ALT2 (PB15 | ALT2)
#define PC0_ALT1 (PC0 | ALT1)
#define PC0_ALT2 (PC0 | ALT2)
#define PC1_ALT1 (PC1 | ALT1)
#define PC1_ALT2 (PC1 | ALT2)
#define PC4_ALT1 (PC4 | ALT1)
#define PC5_ALT1 (PC5 | ALT1)
#define PC6_ALT1 (PC6 | ALT1)
#define PC6_ALT2 (PC6 | ALT2)
#define PC7_ALT1 (PC7 | ALT1)
#define PC7_ALT2 (PC7 | ALT2)
#define PC8_ALT1 (PC8 | ALT1)
#define PC9_ALT1 (PC9 | ALT1)
#define PC10_ALT1 (PC10 | ALT1)
#define PC11_ALT1 (PC11 | ALT1)
#define NUM_DIGITAL_PINS 82
#define NUM_DUALPAD_PINS 2
#define NUM_ANALOG_INPUTS 16
// On-board LED pin number
#ifndef LED_BUILTIN
#define LED_BUILTIN PNUM_NOT_DEFINED
#endif
// On-board user button
#ifndef USER_BTN
#define USER_BTN PNUM_NOT_DEFINED
#endif
// SPI definitions
#ifndef PIN_SPI_SS
#define PIN_SPI_SS PA4
#endif
#ifndef PIN_SPI_SS1
#define PIN_SPI_SS1 PA15
#endif
#ifndef PIN_SPI_SS2
#define PIN_SPI_SS2 PNUM_NOT_DEFINED
#endif
#ifndef PIN_SPI_SS3
#define PIN_SPI_SS3 PNUM_NOT_DEFINED
#endif
#ifndef PIN_SPI_MOSI
#define PIN_SPI_MOSI PA7
#endif
#ifndef PIN_SPI_MISO
#define PIN_SPI_MISO PA6
#endif
#ifndef PIN_SPI_SCK
#define PIN_SPI_SCK PA5
#endif
// I2C definitions
#ifndef PIN_WIRE_SDA
#define PIN_WIRE_SDA PB7
#endif
#ifndef PIN_WIRE_SCL
#define PIN_WIRE_SCL PB6
#endif
// Timer Definitions
// Use TIM6/TIM7 when possible as servo and tone don't need GPIO output pin
#ifndef TIMER_TONE
#define TIMER_TONE TIM6
#endif
#ifndef TIMER_SERVO
#define TIMER_SERVO TIM7
#endif
// UART Definitions
#ifndef SERIAL_UART_INSTANCE
#define SERIAL_UART_INSTANCE 4
#endif
// Default pin used for generic 'Serial' instance
// Mandatory for Firmata
#ifndef PIN_SERIAL_RX
#define PIN_SERIAL_RX PA1
#endif
#ifndef PIN_SERIAL_TX
#define PIN_SERIAL_TX PA0
#endif
// Extra HAL modules
#if !defined(HAL_DAC_MODULE_DISABLED)
#define HAL_DAC_MODULE_ENABLED
#endif
#if !defined(HAL_ETH_MODULE_DISABLED)
#define HAL_ETH_MODULE_ENABLED
#endif
#if !defined(HAL_QSPI_MODULE_DISABLED)
#define HAL_QSPI_MODULE_ENABLED
#endif
#if !defined(HAL_SD_MODULE_DISABLED)
#define HAL_SD_MODULE_ENABLED
#endif
/*----------------------------------------------------------------------------
* Arduino objects - C++ only
*----------------------------------------------------------------------------*/
#ifdef __cplusplus
// These serial port names are intended to allow libraries and architecture-neutral
// sketches to automatically default to the correct port name for a particular type
// of use. For example, a GPS module would normally connect to SERIAL_PORT_HARDWARE_OPEN,
// the first hardware serial port whose RX/TX pins are not dedicated to another use.
//
// SERIAL_PORT_MONITOR Port which normally prints to the Arduino Serial Monitor
//
// SERIAL_PORT_USBVIRTUAL Port which is USB virtual serial
//
// SERIAL_PORT_LINUXBRIDGE Port which connects to a Linux system via Bridge library
//
// SERIAL_PORT_HARDWARE Hardware serial port, physical RX & TX pins.
//
// SERIAL_PORT_HARDWARE_OPEN Hardware serial ports which are open for use. Their RX & TX
// pins are NOT connected to anything by default.
#ifndef SERIAL_PORT_MONITOR
#define SERIAL_PORT_MONITOR Serial
#endif
#ifndef SERIAL_PORT_HARDWARE
#define SERIAL_PORT_HARDWARE Serial
#endif
#endif

21
ini/stm32h7.ini
View file

@ -38,3 +38,24 @@ build_flags = ${stm32_variant.build_flags} ${stm_flash_drive.build_flags}
-DHAL_SD_MODULE_ENABLED -DHAL_SD_MODULE_ENABLED
upload_protocol = cmsis-dap upload_protocol = cmsis-dap
debug_tool = cmsis-dap debug_tool = cmsis-dap
#
# BigTreeTech SKR V3.0 / V3.0 EZ (STM32H743VIT6 ARM Cortex-M7)
#
[env:STM32H743Vx_btt]
extends = stm32_variant
platform = ststm32@~14.1.0
platform_packages = framework-arduinoststm32@https://github.com/stm32duino/Arduino_Core_STM32/archive/main.zip
board = marlin_STM32H743Vx
board_build.offset = 0x20000
board_upload.offset_address = 0x08020000
build_flags = ${stm32_variant.build_flags}
-DPIN_SERIAL1_RX=PA_10 -DPIN_SERIAL1_TX=PA_9
-DPIN_SERIAL3_RX=PD_9 -DPIN_SERIAL3_TX=PD_8
-DPIN_SERIAL4_RX=PA_1 -DPIN_SERIAL4_TX=PA_0
-DSERIAL_RX_BUFFER_SIZE=1024 -DSERIAL_TX_BUFFER_SIZE=1024
-DTIMER_SERVO=TIM5 -DTIMER_TONE=TIM2
-DSTEP_TIMER_IRQ_PRIO=0
-DD_CACHE_DISABLED
upload_protocol = cmsis-dap
debug_tool = cmsis-dap