/* -----------------------------------------------------------------------------
* Copyright (c) 2013-2016 ARM Ltd.
*
* This software is provided 'as-is', without any express or implied warranty.
* In no event will the authors be held liable for any damages arising from
* the use of this software. Permission is granted to anyone to use this
* software for any purpose, including commercial applications, and to alter
* it and redistribute it freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software in
* a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
*
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
*
* 3. This notice may not be removed or altered from any source distribution.
*
* $Date: 09. September 2016
* $Revision: V1.1.2
*
* Project: RTE Device Configuration for STMicroelectronics STM32F1xx
*
* -------------------------------------------------------------------------- */
//-------- <<< Use Configuration Wizard in Context Menu >>> --------------------
#ifndef __RTE_DEVICE_H
#define __RTE_DEVICE_H
#define GPIO_PORT(num) \
((num == 0) ? GPIOA : \
(num == 1) ? GPIOB : \
(num == 2) ? GPIOC : \
(num == 3) ? GPIOD : \
(num == 4) ? GPIOE : \
(num == 5) ? GPIOF : \
(num == 6) ? GPIOG : \
NULL)
// Clock Configuration
// High-speed Internal Clock <1-999999999>
#define RTE_HSI 8000000
// High-speed External Clock <1-999999999>
#define RTE_HSE 25000000
// System Clock <1-999999999>
#define RTE_SYSCLK 72000000
// HCLK Clock <1-999999999>
#define RTE_HCLK 72000000
// APB1 Clock <1-999999999>
#define RTE_PCLK1 36000000
// APB2 Clock <1-999999999>
#define RTE_PCLK2 72000000
// ADC Clock <1-999999999>
#define RTE_ADCCLK 36000000
// USB Clock
#define RTE_USBCLK 48000000
//
// USART1 (Universal synchronous asynchronous receiver transmitter)
// Configuration settings for Driver_USART1 in component ::CMSIS Driver:USART
#define RTE_USART1 0
// USART1_TX Pin <0=>Not Used <1=>PA9
#define RTE_USART1_TX_PORT_ID_DEF 0
#if (RTE_USART1_TX_PORT_ID_DEF == 0)
#define RTE_USART1_TX_DEF 0
#elif (RTE_USART1_TX_PORT_ID_DEF == 1)
#define RTE_USART1_TX_DEF 1
#define RTE_USART1_TX_PORT_DEF GPIOA
#define RTE_USART1_TX_BIT_DEF 9
#else
#error "Invalid USART1_TX Pin Configuration!"
#endif
// USART1_RX Pin <0=>Not Used <1=>PA10
#define RTE_USART1_RX_PORT_ID_DEF 0
#if (RTE_USART1_RX_PORT_ID_DEF == 0)
#define RTE_USART1_RX_DEF 0
#elif (RTE_USART1_RX_PORT_ID_DEF == 1)
#define RTE_USART1_RX_DEF 1
#define RTE_USART1_RX_PORT_DEF GPIOA
#define RTE_USART1_RX_BIT_DEF 10
#else
#error "Invalid USART1_RX Pin Configuration!"
#endif
// USART1_CK Pin <0=>Not Used <1=>PA8
#define RTE_USART1_CK_PORT_ID_DEF 0
#if (RTE_USART1_CK_PORT_ID_DEF == 0)
#define RTE_USART1_CK 0
#elif (RTE_USART1_CK_PORT_ID_DEF == 1)
#define RTE_USART1_CK 1
#define RTE_USART1_CK_PORT_DEF GPIOA
#define RTE_USART1_CK_BIT_DEF 8
#else
#error "Invalid USART1_CK Pin Configuration!"
#endif
// USART1_CTS Pin <0=>Not Used <1=>PA11
#define RTE_USART1_CTS_PORT_ID_DEF 0
#if (RTE_USART1_CTS_PORT_ID_DEF == 0)
#define RTE_USART1_CTS 0
#elif (RTE_USART1_CTS_PORT_ID_DEF == 1)
#define RTE_USART1_CTS 1
#define RTE_USART1_CTS_PORT_DEF GPIOA
#define RTE_USART1_CTS_BIT_DEF 11
#else
#error "Invalid USART1_CTS Pin Configuration!"
#endif
// USART1_RTS Pin <0=>Not Used <1=>PA12
#define RTE_USART1_RTS_PORT_ID_DEF 0
#if (RTE_USART1_RTS_PORT_ID_DEF == 0)
#define RTE_USART1_RTS 0
#elif (RTE_USART1_RTS_PORT_ID_DEF == 1)
#define RTE_USART1_RTS 1
#define RTE_USART1_RTS_PORT_DEF GPIOA
#define RTE_USART1_RTS_BIT_DEF 12
#else
#error "Invalid USART1_RTS Pin Configuration!"
#endif
// USART1 Pin Remap
// Enable USART1 Pin Remapping
#define RTE_USART1_REMAP_FULL 0
// USART1_TX Pin <0=>Not Used <1=>PB6
#define RTE_USART1_TX_PORT_ID_FULL 0
#if (RTE_USART1_TX_PORT_ID_FULL == 0)
#define RTE_USART1_TX_FULL 0
#elif (RTE_USART1_TX_PORT_ID_FULL == 1)
#define RTE_USART1_TX_FULL 1
#define RTE_USART1_TX_PORT_FULL GPIOB
#define RTE_USART1_TX_BIT_FULL 6
#else
#error "Invalid USART1_TX Pin Configuration!"
#endif
// USART1_RX Pin <0=>Not Used <1=>PB7
#define RTE_USART1_RX_PORT_ID_FULL 0
#if (RTE_USART1_RX_PORT_ID_FULL == 0)
#define RTE_USART1_RX_FULL 0
#elif (RTE_USART1_RX_PORT_ID_FULL == 1)
#define RTE_USART1_RX_FULL 1
#define RTE_USART1_RX_PORT_FULL GPIOB
#define RTE_USART1_RX_BIT_FULL 7
#else
#error "Invalid USART1_RX Pin Configuration!"
#endif
//
#if (RTE_USART1_REMAP_FULL)
#define RTE_USART1_AF_REMAP AFIO_USART1_REMAP
#define RTE_USART1_TX RTE_USART1_TX_FULL
#define RTE_USART1_TX_PORT RTE_USART1_TX_PORT_FULL
#define RTE_USART1_TX_BIT RTE_USART1_TX_BIT_FULL
#define RTE_USART1_RX RTE_USART1_RX_FULL
#define RTE_USART1_RX_PORT RTE_USART1_RX_PORT_FULL
#define RTE_USART1_RX_BIT RTE_USART1_RX_BIT_FULL
#define RTE_USART1_CK_PORT RTE_USART1_CK_PORT_DEF
#define RTE_USART1_CK_BIT RTE_USART1_CK_BIT_DEF
#define RTE_USART1_CTS_PORT RTE_USART1_CTS_PORT_DEF
#define RTE_USART1_CTS_BIT RTE_USART1_CTS_BIT_DEF
#define RTE_USART1_RTS_PORT RTE_USART1_RTS_PORT_DEF
#define RTE_USART1_RTS_BIT RTE_USART1_RTS_BIT_DEF
#else
#define RTE_USART1_AF_REMAP AFIO_USART1_NO_REMAP
#define RTE_USART1_TX RTE_USART1_TX_DEF
#define RTE_USART1_TX_PORT RTE_USART1_TX_PORT_DEF
#define RTE_USART1_TX_BIT RTE_USART1_TX_BIT_DEF
#define RTE_USART1_RX RTE_USART1_RX_DEF
#define RTE_USART1_RX_PORT RTE_USART1_RX_PORT_DEF
#define RTE_USART1_RX_BIT RTE_USART1_RX_BIT_DEF
#define RTE_USART1_CK_PORT RTE_USART1_CK_PORT_DEF
#define RTE_USART1_CK_BIT RTE_USART1_CK_BIT_DEF
#define RTE_USART1_CTS_PORT RTE_USART1_CTS_PORT_DEF
#define RTE_USART1_CTS_BIT RTE_USART1_CTS_BIT_DEF
#define RTE_USART1_RTS_PORT RTE_USART1_RTS_PORT_DEF
#define RTE_USART1_RTS_BIT RTE_USART1_RTS_BIT_DEF
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <5=>5
// Selects DMA Channel (only Channel 5 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Set DMA Channel priority
//
#define RTE_USART1_RX_DMA 0
#define RTE_USART1_RX_DMA_NUMBER 1
#define RTE_USART1_RX_DMA_CHANNEL 5
#define RTE_USART1_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <4=>4
// Selects DMA Channel (only Channel 4 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Set DMA Channel priority
//
#define RTE_USART1_TX_DMA 0
#define RTE_USART1_TX_DMA_NUMBER 1
#define RTE_USART1_TX_DMA_CHANNEL 4
#define RTE_USART1_TX_DMA_PRIORITY 0
//
// USART2 (Universal synchronous asynchronous receiver transmitter)
// Configuration settings for Driver_USART2 in component ::CMSIS Driver:USART
#define RTE_USART2 0
// USART2_TX Pin <0=>Not Used <1=>PA2
#define RTE_USART2_TX_PORT_ID_DEF 0
#if (RTE_USART2_TX_PORT_ID_DEF == 0)
#define RTE_USART2_TX_DEF 0
#elif (RTE_USART2_TX_PORT_ID_DEF == 1)
#define RTE_USART2_TX_DEF 1
#define RTE_USART2_TX_PORT_DEF GPIOA
#define RTE_USART2_TX_BIT_DEF 2
#else
#error "Invalid USART2_TX Pin Configuration!"
#endif
// USART2_RX Pin <0=>Not Used <1=>PA3
#define RTE_USART2_RX_PORT_ID_DEF 0
#if (RTE_USART2_RX_PORT_ID_DEF == 0)
#define RTE_USART2_RX_DEF 0
#elif (RTE_USART2_RX_PORT_ID_DEF == 1)
#define RTE_USART2_RX_DEF 1
#define RTE_USART2_RX_PORT_DEF GPIOA
#define RTE_USART2_RX_BIT_DEF 3
#else
#error "Invalid USART2_RX Pin Configuration!"
#endif
// USART2_CK Pin <0=>Not Used <1=>PA4
#define RTE_USART2_CK_PORT_ID_DEF 0
#if (RTE_USART2_CK_PORT_ID_DEF == 0)
#define RTE_USART2_CK_DEF 0
#elif (RTE_USART2_CK_PORT_ID_DEF == 1)
#define RTE_USART2_CK_DEF 1
#define RTE_USART2_CK_PORT_DEF GPIOA
#define RTE_USART2_CK_BIT_DEF 4
#else
#error "Invalid USART2_CK Pin Configuration!"
#endif
// USART2_CTS Pin <0=>Not Used <1=>PA0
#define RTE_USART2_CTS_PORT_ID_DEF 0
#if (RTE_USART2_CTS_PORT_ID_DEF == 0)
#define RTE_USART2_CTS_DEF 0
#elif (RTE_USART2_CTS_PORT_ID_DEF == 1)
#define RTE_USART2_CTS_DEF 1
#define RTE_USART2_CTS_PORT_DEF GPIOA
#define RTE_USART2_CTS_BIT_DEF 0
#else
#error "Invalid USART2_CTS Pin Configuration!"
#endif
// USART2_RTS Pin <0=>Not Used <1=>PA1
#define RTE_USART2_RTS_PORT_ID_DEF 0
#if (RTE_USART2_RTS_PORT_ID_DEF == 0)
#define RTE_USART2_RTS_DEF 0
#elif (RTE_USART2_RTS_PORT_ID_DEF == 1)
#define RTE_USART2_RTS_DEF 1
#define RTE_USART2_RTS_PORT_DEF GPIOA
#define RTE_USART2_RTS_BIT_DEF 1
#else
#error "Invalid USART2_RTS Pin Configuration!"
#endif
// USART2 Pin Remap
// Enable USART2 Pin Remapping
#define RTE_USART2_REMAP_FULL 0
// USART2_TX Pin <0=>Not Used <1=>PD5
#define RTE_USART2_TX_PORT_ID_FULL 0
#if (RTE_USART2_TX_PORT_ID_FULL == 0)
#define RTE_USART2_TX_FULL 0
#elif (RTE_USART2_TX_PORT_ID_FULL == 1)
#define RTE_USART2_TX_FULL 1
#define RTE_USART2_TX_PORT_FULL GPIOD
#define RTE_USART2_TX_BIT_FULL 5
#else
#error "Invalid USART2_TX Pin Configuration!"
#endif
// USART2_RX Pin <0=>Not Used <1=>PD6
#define RTE_USART2_RX_PORT_ID_FULL 0
#if (RTE_USART2_RX_PORT_ID_FULL == 0)
#define RTE_USART2_RX_FULL 0
#elif (RTE_USART2_RX_PORT_ID_FULL == 1)
#define RTE_USART2_RX_FULL 1
#define RTE_USART2_RX_PORT_FULL GPIOD
#define RTE_USART2_RX_BIT_FULL 6
#else
#error "Invalid USART2_RX Pin Configuration!"
#endif
// USART2_CK Pin <0=>Not Used <1=>PD7
#define RTE_USART2_CK_PORT_ID_FULL 0
#if (RTE_USART2_CK_PORT_ID_FULL == 0)
#define RTE_USART2_CK_FULL 0
#elif (RTE_USART2_CK_PORT_ID_FULL == 1)
#define RTE_USART2_CK_FULL 1
#define RTE_USART2_CK_PORT_FULL GPIOD
#define RTE_USART2_CK_BIT_FULL 7
#else
#error "Invalid USART2_CK Pin Configuration!"
#endif
// USART2_CTS Pin <0=>Not Used <1=>PD3
#define RTE_USART2_CTS_PORT_ID_FULL 0
#if (RTE_USART2_CTS_PORT_ID_FULL == 0)
#define RTE_USART2_CTS_FULL 0
#elif (RTE_USART2_CTS_PORT_ID_FULL == 1)
#define RTE_USART2_CTS_FULL 1
#define RTE_USART2_CTS_PORT_FULL GPIOD
#define RTE_USART2_CTS_BIT_FULL 3
#else
#error "Invalid USART2_CTS Pin Configuration!"
#endif
// USART2_RTS Pin <0=>Not Used <1=>PD4
#define RTE_USART2_RTS_PORT_ID_FULL 0
#if (RTE_USART2_RTS_PORT_ID_FULL == 0)
#define RTE_USART2_RTS_FULL 0
#elif (RTE_USART2_RTS_PORT_ID_FULL == 1)
#define RTE_USART2_RTS_FULL 1
#define RTE_USART2_RTS_PORT_FULL GPIOD
#define RTE_USART2_RTS_BIT_FULL 4
#else
#error "Invalid USART2_RTS Pin Configuration!"
#endif
//
#if (RTE_USART2_REMAP_FULL)
#define RTE_USART2_AF_REMAP AFIO_USART2_REMAP
#define RTE_USART2_TX RTE_USART2_TX_FULL
#define RTE_USART2_TX_PORT RTE_USART2_TX_PORT_FULL
#define RTE_USART2_TX_BIT RTE_USART2_TX_BIT_FULL
#define RTE_USART2_RX RTE_USART2_RX_FULL
#define RTE_USART2_RX_PORT RTE_USART2_RX_PORT_FULL
#define RTE_USART2_RX_BIT RTE_USART2_RX_BIT_FULL
#define RTE_USART2_CK RTE_USART2_CK_FULL
#define RTE_USART2_CK_PORT RTE_USART2_CK_PORT_FULL
#define RTE_USART2_CK_BIT RTE_USART2_CK_BIT_FULL
#define RTE_USART2_CTS RTE_USART2_CTS_FULL
#define RTE_USART2_CTS_PORT RTE_USART2_CTS_PORT_FULL
#define RTE_USART2_CTS_BIT RTE_USART2_CTS_BIT_FULL
#define RTE_USART2_RTS RTE_USART2_RTS_FULL
#define RTE_USART2_RTS_PORT RTE_USART2_RTS_PORT_FULL
#define RTE_USART2_RTS_BIT RTE_USART2_RTS_BIT_FULL
#else
#define RTE_USART2_AF_REMAP AFIO_USART2_NO_REMAP
#define RTE_USART2_TX RTE_USART2_TX_DEF
#define RTE_USART2_TX_PORT RTE_USART2_TX_PORT_DEF
#define RTE_USART2_TX_BIT RTE_USART2_TX_BIT_DEF
#define RTE_USART2_RX RTE_USART2_RX_DEF
#define RTE_USART2_RX_PORT RTE_USART2_RX_PORT_DEF
#define RTE_USART2_RX_BIT RTE_USART2_RX_BIT_DEF
#define RTE_USART2_CK RTE_USART2_CK_DEF
#define RTE_USART2_CK_PORT RTE_USART2_CK_PORT_DEF
#define RTE_USART2_CK_BIT RTE_USART2_CK_BIT_DEF
#define RTE_USART2_CTS RTE_USART2_CTS_DEF
#define RTE_USART2_CTS_PORT RTE_USART2_CTS_PORT_DEF
#define RTE_USART2_CTS_BIT RTE_USART2_CTS_BIT_DEF
#define RTE_USART2_RTS RTE_USART2_RTS_DEF
#define RTE_USART2_RTS_PORT RTE_USART2_RTS_PORT_DEF
#define RTE_USART2_RTS_BIT RTE_USART2_RTS_BIT_DEF
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <6=>6
// Selects DMA Channel (only Channel 6 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Set DMA Channel priority
//
#define RTE_USART2_RX_DMA 0
#define RTE_USART2_RX_DMA_NUMBER 1
#define RTE_USART2_RX_DMA_CHANNEL 6
#define RTE_USART2_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <7=>7
// Selects DMA Channel (only Channel 7 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Set DMA Channel priority
//
#define RTE_USART2_TX_DMA 0
#define RTE_USART2_TX_DMA_NUMBER 1
#define RTE_USART2_TX_DMA_CHANNEL 7
#define RTE_USART2_TX_DMA_PRIORITY 0
//
// USART3 (Universal synchronous asynchronous receiver transmitter)
// Configuration settings for Driver_USART3 in component ::CMSIS Driver:USART
#define RTE_USART3 0
// USART3_TX Pin <0=>Not Used <1=>PB10
#define RTE_USART3_TX_PORT_ID_DEF 0
#if (RTE_USART3_TX_PORT_ID_DEF == 0)
#define RTE_USART3_TX_DEF 0
#elif (RTE_USART3_TX_PORT_ID_DEF == 1)
#define RTE_USART3_TX_DEF 1
#define RTE_USART3_TX_PORT_DEF GPIOB
#define RTE_USART3_TX_BIT_DEF 10
#else
#error "Invalid USART3_TX Pin Configuration!"
#endif
// USART3_RX Pin <0=>Not Used <1=>PB11
#define RTE_USART3_RX_PORT_ID_DEF 0
#if (RTE_USART3_RX_PORT_ID_DEF == 0)
#define RTE_USART3_RX_DEF 0
#elif (RTE_USART3_RX_PORT_ID_DEF == 1)
#define RTE_USART3_RX_DEF 1
#define RTE_USART3_RX_PORT_DEF GPIOB
#define RTE_USART3_RX_BIT_DEF 11
#else
#error "Invalid USART3_RX Pin Configuration!"
#endif
// USART3_CK Pin <0=>Not Used <1=>PB12
#define RTE_USART3_CK_PORT_ID_DEF 0
#if (RTE_USART3_CK_PORT_ID_DEF == 0)
#define RTE_USART3_CK_DEF 0
#elif (RTE_USART3_CK_PORT_ID_DEF == 1)
#define RTE_USART3_CK_DEF 1
#define RTE_USART3_CK_PORT_DEF GPIOB
#define RTE_USART3_CK_BIT_DEF 12
#else
#error "Invalid USART3_CK Pin Configuration!"
#endif
// USART3_CTS Pin <0=>Not Used <1=>PB13
#define RTE_USART3_CTS_PORT_ID_DEF 0
#if (RTE_USART3_CTS_PORT_ID_DEF == 0)
#define RTE_USART3_CTS_DEF 0
#elif (RTE_USART3_CTS_PORT_ID_DEF == 1)
#define RTE_USART3_CTS_DEF 1
#define RTE_USART3_CTS_PORT_DEF GPIOB
#define RTE_USART3_CTS_BIT_DEF 13
#else
#error "Invalid USART3_CTS Pin Configuration!"
#endif
// USART3_RTS Pin <0=>Not Used <1=>PB14
#define RTE_USART3_RTS_PORT_ID_DEF 0
#if (RTE_USART3_RTS_PORT_ID_DEF == 0)
#define RTE_USART3_RTS_DEF 0
#elif (RTE_USART3_RTS_PORT_ID_DEF == 1)
#define RTE_USART3_RTS_DEF 1
#define RTE_USART3_RTS_PORT_DEF GPIOB
#define RTE_USART3_RTS_BIT_DEF 14
#else
#error "Invalid USART3_RTS Pin Configuration!"
#endif
// USART3 Partial Pin Remap
// Enable USART3 Partial Pin Remapping
#define RTE_USART3_REMAP_PARTIAL 0
// USART3_TX Pin <0=>Not Used <1=>PC10
#define RTE_USART3_TX_PORT_ID_PARTIAL 0
#if (RTE_USART3_TX_PORT_ID_PARTIAL == 0)
#define RTE_USART3_TX_PARTIAL 0
#elif (RTE_USART3_TX_PORT_ID_PARTIAL == 1)
#define RTE_USART3_TX_PARTIAL 1
#define RTE_USART3_TX_PORT_PARTIAL GPIOC
#define RTE_USART3_TX_BIT_PARTIAL 10
#else
#error "Invalid USART3_TX Pin Configuration!"
#endif
// USART3_RX Pin <0=>Not Used <1=>PC11
#define RTE_USART3_RX_PORT_ID_PARTIAL 0
#if (RTE_USART3_RX_PORT_ID_PARTIAL == 0)
#define RTE_USART3_RX_PARTIAL 0
#elif (RTE_USART3_RX_PORT_ID_PARTIAL == 1)
#define RTE_USART3_RX_PARTIAL 1
#define RTE_USART3_RX_PORT_PARTIAL GPIOC
#define RTE_USART3_RX_BIT_PARTIAL 11
#else
#error "Invalid USART3_RX Pin Configuration!"
#endif
// USART3_CK Pin <0=>Not Used <1=>PC12
#define RTE_USART3_CK_PORT_ID_PARTIAL 0
#if (RTE_USART3_CK_PORT_ID_PARTIAL == 0)
#define RTE_USART3_CK_PARTIAL 0
#elif (RTE_USART3_CK_PORT_ID_PARTIAL == 1)
#define RTE_USART3_CK_PARTIAL 1
#define RTE_USART3_CK_PORT_PARTIAL GPIOC
#define RTE_USART3_CK_BIT_PARTIAL 12
#else
#error "Invalid USART3_CK Pin Configuration!"
#endif
//
// USART3 Full Pin Remap
// Enable USART3 Full Pin Remapping
#define RTE_USART3_REMAP_FULL 0
// USART3_TX Pin <0=>Not Used <1=>PD8
#define RTE_USART3_TX_PORT_ID_FULL 0
#if (RTE_USART3_TX_PORT_ID_FULL == 0)
#define RTE_USART3_TX_FULL 0
#elif (RTE_USART3_TX_PORT_ID_FULL == 1)
#define RTE_USART3_TX_FULL 1
#define RTE_USART3_TX_PORT_FULL GPIOD
#define RTE_USART3_TX_BIT_FULL 8
#else
#error "Invalid USART3_TX Pin Configuration!"
#endif
// USART3_RX Pin <0=>Not Used <1=>PD9
#define RTE_USART3_RX_PORT_ID_FULL 0
#if (RTE_USART3_RX_PORT_ID_FULL == 0)
#define RTE_USART3_RX_FULL 0
#elif (RTE_USART3_RX_PORT_ID_FULL == 1)
#define RTE_USART3_RX_FULL 1
#define RTE_USART3_RX_PORT_FULL GPIOD
#define RTE_USART3_RX_BIT_FULL 9
#else
#error "Invalid USART3_RX Pin Configuration!"
#endif
// USART3_CK Pin <0=>Not Used <1=>PD10
#define RTE_USART3_CK_PORT_ID_FULL 0
#if (RTE_USART3_CK_PORT_ID_FULL == 0)
#define RTE_USART3_CK_FULL 0
#elif (RTE_USART3_CK_PORT_ID_FULL == 1)
#define RTE_USART3_CK_FULL 1
#define RTE_USART3_CK_PORT_FULL GPIOD
#define RTE_USART3_CK_BIT_FULL 10
#else
#error "Invalid USART3_CK Pin Configuration!"
#endif
// USART3_CTS Pin <0=>Not Used <1=>PD11
#define RTE_USART3_CTS_PORT_ID_FULL 0
#if (RTE_USART3_CTS_PORT_ID_FULL == 0)
#define RTE_USART3_CTS_FULL 0
#elif (RTE_USART3_CTS_PORT_ID_FULL == 1)
#define RTE_USART3_CTS_FULL 1
#define RTE_USART3_CTS_PORT_FULL GPIOD
#define RTE_USART3_CTS_BIT_FULL 11
#else
#error "Invalid USART3_CTS Pin Configuration!"
#endif
// USART3_RTS Pin <0=>Not Used <1=>PD12
#define RTE_USART3_RTS_PORT_ID_FULL 0
#if (RTE_USART3_RTS_PORT_ID_FULL == 0)
#define RTE_USART3_RTS_FULL 0
#elif (RTE_USART3_RTS_PORT_ID_FULL == 1)
#define RTE_USART3_RTS_FULL 1
#define RTE_USART3_RTS_PORT_FULL GPIOD
#define RTE_USART3_RTS_BIT_FULL 12
#else
#error "Invalid USART3_RTS Pin Configuration!"
#endif
//
#if ((RTE_USART3_REMAP_PARTIAL == 1) && (RTE_USART3_REMAP_FULL == 1))
#error "Invalid USART3 Pin Remap Configuration!"
#endif
#if (RTE_USART3_REMAP_FULL)
#define RTE_USART3_AF_REMAP AFIO_USART3_REMAP_FULL
#define RTE_USART3_TX RTE_USART3_TX_FULL
#define RTE_USART3_TX_PORT RTE_USART3_TX_PORT_FULL
#define RTE_USART3_TX_BIT RTE_USART3_TX_BIT_FULL
#define RTE_USART3_RX RTE_USART3_RX_FULL
#define RTE_USART3_RX_PORT RTE_USART3_RX_PORT_FULL
#define RTE_USART3_RX_BIT RTE_USART3_RX_BIT_FULL
#define RTE_USART3_CK RTE_USART3_CK_FULL
#define RTE_USART3_CK_PORT RTE_USART3_CK_PORT_FULL
#define RTE_USART3_CK_BIT RTE_USART3_CK_BIT_FULL
#define RTE_USART3_CTS RTE_USART3_CTS_FULL
#define RTE_USART3_CTS_PORT RTE_USART3_CTS_PORT_FULL
#define RTE_USART3_CTS_BIT RTE_USART3_CTS_BIT_FULL
#define RTE_USART3_RTS RTE_USART3_RTS_FULL
#define RTE_USART3_RTS_PORT RTE_USART3_RTS_PORT_FULL
#define RTE_USART3_RTS_BIT RTE_USART3_RTS_BIT_FULL
#elif (RTE_USART3_REMAP_PARTIAL)
#define RTE_USART3_AF_REMAP AFIO_USART3_REMAP_PARTIAL
#define RTE_USART3_TX RTE_USART3_TX_PARTIAL
#define RTE_USART3_TX_PORT RTE_USART3_TX_PORT_PARTIAL
#define RTE_USART3_TX_BIT RTE_USART3_TX_BIT_PARTIAL
#define RTE_USART3_RX RTE_USART3_RX_PARTIAL
#define RTE_USART3_RX_PORT RTE_USART3_RX_PORT_PARTIAL
#define RTE_USART3_RX_BIT RTE_USART3_RX_BIT_PARTIAL
#define RTE_USART3_CK RTE_USART3_CK_PARTIAL
#define RTE_USART3_CK_PORT RTE_USART3_CK_PORT_PARTIAL
#define RTE_USART3_CK_BIT RTE_USART3_CK_BIT_PARTIAL
#define RTE_USART3_CTS RTE_USART3_CTS_DEF
#define RTE_USART3_CTS_PORT RTE_USART3_CTS_PORT_DEF
#define RTE_USART3_CTS_BIT RTE_USART3_CTS_BIT_DEF
#define RTE_USART3_RTS RTE_USART3_RTS_DEF
#define RTE_USART3_RTS_PORT RTE_USART3_RTS_PORT_DEF
#define RTE_USART3_RTS_BIT RTE_USART3_RTS_BIT_DEF
#else
#define RTE_USART3_AF_REMAP AFIO_USART3_NO_REMAP
#define RTE_USART3_TX RTE_USART3_TX_DEF
#define RTE_USART3_TX_PORT RTE_USART3_TX_PORT_DEF
#define RTE_USART3_TX_BIT RTE_USART3_TX_BIT_DEF
#define RTE_USART3_RX RTE_USART3_RX_DEF
#define RTE_USART3_RX_PORT RTE_USART3_RX_PORT_DEF
#define RTE_USART3_RX_BIT RTE_USART3_RX_BIT_DEF
#define RTE_USART3_CK RTE_USART3_CK_DEF
#define RTE_USART3_CK_PORT RTE_USART3_CK_PORT_DEF
#define RTE_USART3_CK_BIT RTE_USART3_CK_BIT_DEF
#define RTE_USART3_CTS RTE_USART3_CTS_DEF
#define RTE_USART3_CTS_PORT RTE_USART3_CTS_PORT_DEF
#define RTE_USART3_CTS_BIT RTE_USART3_CTS_BIT_DEF
#define RTE_USART3_RTS RTE_USART3_RTS_DEF
#define RTE_USART3_RTS_PORT RTE_USART3_RTS_PORT_DEF
#define RTE_USART3_RTS_BIT RTE_USART3_RTS_BIT_DEF
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <3=>3
// Selects DMA Channel (only Channel 3 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Sets DMA Channel priority
//
#define RTE_USART3_RX_DMA 0
#define RTE_USART3_RX_DMA_NUMBER 1
#define RTE_USART3_RX_DMA_CHANNEL 3
#define RTE_USART3_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <2=>2
// Selects DMA Channel (only Channel 2 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Sets DMA Channel priority
//
#define RTE_USART3_TX_DMA 0
#define RTE_USART3_TX_DMA_NUMBER 1
#define RTE_USART3_TX_DMA_CHANNEL 2
#define RTE_USART3_TX_DMA_PRIORITY 0
//
// UART4 (Universal asynchronous receiver transmitter)
// Configuration settings for Driver_USART4 in component ::CMSIS Driver:USART
#define RTE_UART4 0
#define RTE_UART4_AF_REMAP AFIO_UNAVAILABLE_REMAP
// UART4_TX Pin <0=>Not Used <1=>PC10
#define RTE_UART4_TX_ID 0
#if (RTE_UART4_TX_ID == 0)
#define RTE_UART4_TX 0
#elif (RTE_UART4_TX_ID == 1)
#define RTE_UART4_TX 1
#define RTE_UART4_TX_PORT GPIOC
#define RTE_UART4_TX_BIT 10
#else
#error "Invalid UART4_TX Pin Configuration!"
#endif
// UART4_RX Pin <0=>Not Used <1=>PC11
#define RTE_UART4_RX_ID 0
#if (RTE_UART4_RX_ID == 0)
#define RTE_UART4_RX 0
#elif (RTE_UART4_RX_ID == 1)
#define RTE_UART4_RX 1
#define RTE_UART4_RX_PORT GPIOC
#define RTE_UART4_RX_BIT 11
#else
#error "Invalid UART4_RX Pin Configuration!"
#endif
// DMA Rx
// Number <2=>2
// Selects DMA Number (only DMA2 can be used)
// Channel <3=>3
// Selects DMA Channel (only Channel 3 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Sets DMA Channel priority
//
#define RTE_UART4_RX_DMA 0
#define RTE_UART4_RX_DMA_NUMBER 2
#define RTE_UART4_RX_DMA_CHANNEL 3
#define RTE_UART4_RX_DMA_PRIORITY 0
// DMA Tx
// Number <2=>2
// Selects DMA Number (only DMA2 can be used)
// Channel <5=>5
// Selects DMA Channel (only Channel 5 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very high
// Sets DMA Channel priority
//
#define RTE_UART4_TX_DMA 0
#define RTE_UART4_TX_DMA_NUMBER 2
#define RTE_UART4_TX_DMA_CHANNEL 5
#define RTE_UART4_TX_DMA_PRIORITY 0
//
// UART5 (Universal asynchronous receiver transmitter)
// Configuration settings for Driver_USART5 in component ::CMSIS Driver:USART
#define RTE_UART5 0
#define RTE_UART5_AF_REMAP AFIO_UNAVAILABLE_REMAP
// UART5_TX Pin <0=>Not Used <1=>PC12
#define RTE_UART5_TX_ID 0
#if (RTE_UART5_TX_ID == 0)
#define RTE_UART5_TX 0
#elif (RTE_UART5_TX_ID == 1)
#define RTE_UART5_TX 1
#define RTE_UART5_TX_PORT GPIOC
#define RTE_UART5_TX_BIT 12
#else
#error "Invalid UART5_TX Pin Configuration!"
#endif
// UART5_RX Pin <0=>Not Used <1=>PD2
#define RTE_UART5_RX_ID 0
#if (RTE_UART5_RX_ID == 0)
#define RTE_UART5_RX 0
#elif (RTE_UART5_RX_ID == 1)
#define RTE_UART5_RX 1
#define RTE_UART5_RX_PORT GPIOD
#define RTE_UART5_RX_BIT 2
#else
#error "Invalid UART5_RX Pin Configuration!"
#endif
//
// I2C1 (Inter-integrated Circuit Interface 1)
// Configuration settings for Driver_I2C1 in component ::CMSIS Driver:I2C
#define RTE_I2C1 0
// I2C1_SCL Pin <0=>PB6
#define RTE_I2C1_SCL_PORT_ID_DEF 0
#if (RTE_I2C1_SCL_PORT_ID_DEF == 0)
#define RTE_I2C1_SCL_PORT_DEF GPIOB
#define RTE_I2C1_SCL_BIT_DEF 6
#else
#error "Invalid I2C1_SCL Pin Configuration!"
#endif
// I2C1_SDA Pin <0=>PB7
#define RTE_I2C1_SDA_PORT_ID_DEF 0
#if (RTE_I2C1_SDA_PORT_ID_DEF == 0)
#define RTE_I2C1_SDA_PORT_DEF GPIOB
#define RTE_I2C1_SDA_BIT_DEF 7
#else
#error "Invalid I2C1_SCL Pin Configuration!"
#endif
// I2C1 Pin Remap
// Enable I2C1 Pin Remapping
#define RTE_I2C1_REMAP_FULL 0
// I2C1_SCL Pin <0=>PB8
#define RTE_I2C1_SCL_PORT_ID_FULL 0
#if (RTE_I2C1_SCL_PORT_ID_FULL == 0)
#define RTE_I2C1_SCL_PORT_FULL GPIOB
#define RTE_I2C1_SCL_BIT_FULL 8
#else
#error "Invalid I2C1_SCL Pin Configuration!"
#endif
// I2C1_SDA Pin <0=>PB9
#define RTE_I2C1_SDA_PORT_ID_FULL 0
#if (RTE_I2C1_SDA_PORT_ID_FULL == 0)
#define RTE_I2C1_SDA_PORT_FULL GPIOB
#define RTE_I2C1_SDA_BIT_FULL 9
#else
#error "Invalid I2C1_SCL Pin Configuration!"
#endif
//
#if (RTE_I2C1_REMAP_FULL)
#define RTE_I2C1_AF_REMAP AFIO_I2C1_REMAP
#define RTE_I2C1_SCL_PORT RTE_I2C1_SCL_PORT_FULL
#define RTE_I2C1_SCL_BIT RTE_I2C1_SCL_BIT_FULL
#define RTE_I2C1_SDA_PORT RTE_I2C1_SDA_PORT_FULL
#define RTE_I2C1_SDA_BIT RTE_I2C1_SDA_BIT_FULL
#else
#define RTE_I2C1_AF_REMAP AFIO_I2C1_NO_REMAP
#define RTE_I2C1_SCL_PORT RTE_I2C1_SCL_PORT_DEF
#define RTE_I2C1_SCL_BIT RTE_I2C1_SCL_BIT_DEF
#define RTE_I2C1_SDA_PORT RTE_I2C1_SDA_PORT_DEF
#define RTE_I2C1_SDA_BIT RTE_I2C1_SDA_BIT_DEF
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <7=>7
// Selects DMA Channel (only Channel 7 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_I2C1_RX_DMA 0
#define RTE_I2C1_RX_DMA_NUMBER 1
#define RTE_I2C1_RX_DMA_CHANNEL 7
#define RTE_I2C1_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <6=>6
// Selects DMA Channel (only Channel 6 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_I2C1_TX_DMA 0
#define RTE_I2C1_TX_DMA_NUMBER 1
#define RTE_I2C1_TX_DMA_CHANNEL 6
#define RTE_I2C1_TX_DMA_PRIORITY 0
//
// I2C2 (Inter-integrated Circuit Interface 2)
// Configuration settings for Driver_I2C2 in component ::CMSIS Driver:I2C
#define RTE_I2C2 0
#define RTE_I2C2_AF_REMAP AFIO_UNAVAILABLE_REMAP
// I2C2_SCL Pin <0=>PB10
#define RTE_I2C2_SCL_PORT_ID 0
#if (RTE_I2C2_SCL_PORT_ID == 0)
#define RTE_I2C2_SCL_PORT GPIOB
#define RTE_I2C2_SCL_BIT 10
#else
#error "Invalid I2C2_SCL Pin Configuration!"
#endif
// I2C2_SDA Pin <0=>PB11
#define RTE_I2C2_SDA_PORT_ID 0
#if (RTE_I2C2_SDA_PORT_ID == 0)
#define RTE_I2C2_SDA_PORT GPIOB
#define RTE_I2C2_SDA_BIT 11
#else
#error "Invalid I2C2_SCL Pin Configuration!"
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <5=>5
// Selects DMA Channel (only Channel 5 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_I2C2_RX_DMA 1
#define RTE_I2C2_RX_DMA_NUMBER 1
#define RTE_I2C2_RX_DMA_CHANNEL 5
#define RTE_I2C2_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <4=>4
// Selects DMA Channel (only Channel 4 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_I2C2_TX_DMA 1
#define RTE_I2C2_TX_DMA_NUMBER 1
#define RTE_I2C2_TX_DMA_CHANNEL 4
#define RTE_I2C2_TX_DMA_PRIORITY 0
//
// SPI1 (Serial Peripheral Interface 1) [Driver_SPI1]
// Configuration settings for Driver_SPI1 in component ::CMSIS Driver:SPI
#define RTE_SPI1 0
// SPI1_NSS Pin
// Configure Pin if exists
// GPIO Pxy (x = A..G, y = 0..15)
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_SPI1_NSS_PIN 1
#define RTE_SPI1_NSS_PORT GPIO_PORT(0)
#define RTE_SPI1_NSS_BIT 4
// SPI1_SCK Pin <0=>PA5
#define RTE_SPI1_SCK_PORT_ID_DEF 0
#if (RTE_SPI1_SCK_PORT_ID_DEF == 0)
#define RTE_SPI1_SCK_PORT_DEF GPIOA
#define RTE_SPI1_SCK_BIT_DEF 5
#else
#error "Invalid SPI1_SCK Pin Configuration!"
#endif
// SPI1_MISO Pin <0=>Not Used <1=>PA6
#define RTE_SPI1_MISO_PORT_ID_DEF 0
#if (RTE_SPI1_MISO_PORT_ID_DEF == 0)
#define RTE_SPI1_MISO_DEF 0
#elif (RTE_SPI1_MISO_PORT_ID_DEF == 1)
#define RTE_SPI1_MISO_DEF 1
#define RTE_SPI1_MISO_PORT_DEF GPIOA
#define RTE_SPI1_MISO_BIT_DEF 6
#else
#error "Invalid SPI1_MISO Pin Configuration!"
#endif
// SPI1_MOSI Pin <0=>Not Used <1=>PA7
#define RTE_SPI1_MOSI_PORT_ID_DEF 0
#if (RTE_SPI1_MOSI_PORT_ID_DEF == 0)
#define RTE_SPI1_MOSI_DEF 0
#elif (RTE_SPI1_MOSI_PORT_ID_DEF == 1)
#define RTE_SPI1_MOSI_DEF 1
#define RTE_SPI1_MOSI_PORT_DEF GPIOA
#define RTE_SPI1_MOSI_BIT_DEF 7
#else
#error "Invalid SPI1_MISO Pin Configuration!"
#endif
// SPI1 Pin Remap
// Enable SPI1 Pin Remapping.
#define RTE_SPI1_REMAP 0
// SPI1_SCK Pin <0=>PB3
#define RTE_SPI1_SCK_PORT_ID_FULL 0
#if (RTE_SPI1_SCK_PORT_ID_FULL == 0)
#define RTE_SPI1_SCK_PORT_FULL GPIOB
#define RTE_SPI1_SCK_BIT_FULL 3
#else
#error "Invalid SPI1_SCK Pin Configuration!"
#endif
// SPI1_MISO Pin <0=>Not Used <1=>PB4
#define RTE_SPI1_MISO_PORT_ID_FULL 0
#if (RTE_SPI1_MISO_PORT_ID_FULL == 0)
#define RTE_SPI1_MISO_FULL 0
#elif (RTE_SPI1_MISO_PORT_ID_FULL == 1)
#define RTE_SPI1_MISO_FULL 1
#define RTE_SPI1_MISO_PORT_FULL GPIOB
#define RTE_SPI1_MISO_BIT_FULL 4
#else
#error "Invalid SPI1_MISO Pin Configuration!"
#endif
// SPI1_MOSI Pin <0=>Not Used <1=>PB5
#define RTE_SPI1_MOSI_PORT_ID_FULL 0
#if (RTE_SPI1_MOSI_PORT_ID_FULL == 0)
#define RTE_SPI1_MOSI_FULL 0
#elif (RTE_SPI1_MOSI_PORT_ID_FULL == 1)
#define RTE_SPI1_MOSI_FULL 1
#define RTE_SPI1_MOSI_PORT_FULL GPIOB
#define RTE_SPI1_MOSI_BIT_FULL 5
#else
#error "Invalid SPI1_MOSI Pin Configuration!"
#endif
//
#if (RTE_SPI1_REMAP)
#define RTE_SPI1_AF_REMAP AFIO_SPI1_REMAP
#define RTE_SPI1_SCK_PORT RTE_SPI1_SCK_PORT_FULL
#define RTE_SPI1_SCK_BIT RTE_SPI1_SCK_BIT_FULL
#define RTE_SPI1_MISO RTE_SPI1_MISO_FULL
#define RTE_SPI1_MISO_PORT RTE_SPI1_MISO_PORT_FULL
#define RTE_SPI1_MISO_BIT RTE_SPI1_MISO_BIT_FULL
#define RTE_SPI1_MOSI RTE_SPI1_MOSI_FULL
#define RTE_SPI1_MOSI_PORT RTE_SPI1_MOSI_PORT_FULL
#define RTE_SPI1_MOSI_BIT RTE_SPI1_MOSI_BIT_FULL
#else
#define RTE_SPI1_AF_REMAP AFIO_SPI1_NO_REMAP
#define RTE_SPI1_SCK_PORT RTE_SPI1_SCK_PORT_DEF
#define RTE_SPI1_SCK_BIT RTE_SPI1_SCK_BIT_DEF
#define RTE_SPI1_MISO RTE_SPI1_MISO_DEF
#define RTE_SPI1_MISO_PORT RTE_SPI1_MISO_PORT_DEF
#define RTE_SPI1_MISO_BIT RTE_SPI1_MISO_BIT_DEF
#define RTE_SPI1_MOSI RTE_SPI1_MOSI_DEF
#define RTE_SPI1_MOSI_PORT RTE_SPI1_MOSI_PORT_DEF
#define RTE_SPI1_MOSI_BIT RTE_SPI1_MOSI_BIT_DEF
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <2=>2
// Selects DMA Channel (only Channel 2 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SPI1_RX_DMA 0
#define RTE_SPI1_RX_DMA_NUMBER 1
#define RTE_SPI1_RX_DMA_CHANNEL 2
#define RTE_SPI1_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <3=>3
// Selects DMA Channel (only Channel 3 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SPI1_TX_DMA 0
#define RTE_SPI1_TX_DMA_NUMBER 1
#define RTE_SPI1_TX_DMA_CHANNEL 3
#define RTE_SPI1_TX_DMA_PRIORITY 0
//
// SPI2 (Serial Peripheral Interface 2) [Driver_SPI2]
// Configuration settings for Driver_SPI2 in component ::CMSIS Driver:SPI
#define RTE_SPI2 0
// SPI2_NSS Pin
// Configure Pin if exists
// GPIO Pxy (x = A..G, y = 0..15)
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_SPI2_NSS_PIN 1
#define RTE_SPI2_NSS_PORT GPIO_PORT(1)
#define RTE_SPI2_NSS_BIT 12
// SPI2_SCK Pin <0=>PB13
#define RTE_SPI2_SCK_PORT_ID 0
#if (RTE_SPI2_SCK_PORT_ID == 0)
#define RTE_SPI2_SCK_PORT GPIOB
#define RTE_SPI2_SCK_BIT 13
#define RTE_SPI2_SCK_REMAP 0
#else
#error "Invalid SPI2_SCK Pin Configuration!"
#endif
// SPI2_MISO Pin <0=>Not Used <1=>PB14
#define RTE_SPI2_MISO_PORT_ID 0
#if (RTE_SPI2_MISO_PORT_ID == 0)
#define RTE_SPI2_MISO 0
#elif (RTE_SPI2_MISO_PORT_ID == 1)
#define RTE_SPI2_MISO 1
#define RTE_SPI2_MISO_PORT GPIOB
#define RTE_SPI2_MISO_BIT 14
#define RTE_SPI2_MISO_REMAP 0
#else
#error "Invalid SPI2_MISO Pin Configuration!"
#endif
// SPI2_MOSI Pin <0=>Not Used <1=>PB15
#define RTE_SPI2_MOSI_PORT_ID 0
#if (RTE_SPI2_MOSI_PORT_ID == 0)
#define RTE_SPI2_MOSI 0
#elif (RTE_SPI2_MOSI_PORT_ID == 1)
#define RTE_SPI2_MOSI 1
#define RTE_SPI2_MOSI_PORT GPIOB
#define RTE_SPI2_MOSI_BIT 15
#define RTE_SPI2_MOSI_REMAP 0
#else
#error "Invalid SPI2_MISO Pin Configuration!"
#endif
// DMA Rx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <4=>4
// Selects DMA Channel (only Channel 4 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SPI2_RX_DMA 0
#define RTE_SPI2_RX_DMA_NUMBER 1
#define RTE_SPI2_RX_DMA_CHANNEL 4
#define RTE_SPI2_RX_DMA_PRIORITY 0
// DMA Tx
// Number <1=>1
// Selects DMA Number (only DMA1 can be used)
// Channel <5=>5
// Selects DMA Channel (only Channel 5 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SPI2_TX_DMA 0
#define RTE_SPI2_TX_DMA_NUMBER 1
#define RTE_SPI2_TX_DMA_CHANNEL 5
#define RTE_SPI2_TX_DMA_PRIORITY 0
//
// SPI3 (Serial Peripheral Interface 3) [Driver_SPI3]
// Configuration settings for Driver_SPI3 in component ::CMSIS Driver:SPI
#define RTE_SPI3 0
// SPI3_NSS Pin
// Configure Pin if exists
// GPIO Pxy (x = A..G, y = 0..15)
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_SPI3_NSS_PIN 1
#define RTE_SPI3_NSS_PORT GPIO_PORT(0)
#define RTE_SPI3_NSS_BIT 15
// SPI3_SCK Pin <0=>PB3
#define RTE_SPI3_SCK_PORT_ID_DEF 0
#if (RTE_SPI3_SCK_PORT_ID_DEF == 0)
#define RTE_SPI3_SCK_PORT_DEF GPIOB
#define RTE_SPI3_SCK_BIT_DEF 3
#else
#error "Invalid SPI3_SCK Pin Configuration!"
#endif
// SPI3_MISO Pin <0=>Not Used <1=>PB4
#define RTE_SPI3_MISO_PORT_ID_DEF 0
#if (RTE_SPI3_MISO_PORT_ID_DEF == 0)
#define RTE_SPI3_MISO_DEF 0
#elif (RTE_SPI3_MISO_PORT_ID_DEF == 1)
#define RTE_SPI3_MISO_DEF 1
#define RTE_SPI3_MISO_PORT_DEF GPIOB
#define RTE_SPI3_MISO_BIT_DEF 4
#else
#error "Invalid SPI3_MISO Pin Configuration!"
#endif
// SPI3_MOSI <0=>Not Used Pin <1=>PB5
#define RTE_SPI3_MOSI_PORT_ID_DEF 0
#if (RTE_SPI3_MOSI_PORT_ID_DEF == 0)
#define RTE_SPI3_MOSI_DEF 0
#elif (RTE_SPI3_MOSI_PORT_ID_DEF == 1)
#define RTE_SPI3_MOSI_DEF 1
#define RTE_SPI3_MOSI_PORT_DEF GPIOB
#define RTE_SPI3_MOSI_BIT_DEF 5
#else
#error "Invalid SPI3_MOSI Pin Configuration!"
#endif
// SPI3 Pin Remap
// Enable SPI3 Pin Remapping.
// SPI 3 Pin Remapping is available only in connectivity line devices!
#define RTE_SPI3_REMAP 0
// SPI3_SCK Pin <0=>PC10
#define RTE_SPI3_SCK_PORT_ID_FULL 0
#if (RTE_SPI3_SCK_PORT_ID_FULL == 0)
#define RTE_SPI3_SCK_PORT_FULL GPIOC
#define RTE_SPI3_SCK_BIT_FULL 10
#else
#error "Invalid SPI3_SCK Pin Configuration!"
#endif
// SPI3_MISO Pin <0=>Not Used <1=>PC11
#define RTE_SPI3_MISO_PORT_ID_FULL 0
#if (RTE_SPI3_MISO_PORT_ID_FULL == 0)
#define RTE_SPI3_MISO_FULL 0
#elif (RTE_SPI3_MISO_PORT_ID_FULL == 1)
#define RTE_SPI3_MISO_FULL 1
#define RTE_SPI3_MISO_PORT_FULL GPIOC
#define RTE_SPI3_MISO_BIT_FULL 11
#else
#error "Invalid SPI3_MISO Pin Configuration!"
#endif
// SPI3_MOSI Pin <0=>Not Used <1=>PC12
#define RTE_SPI3_MOSI_PORT_ID_FULL 0
#if (RTE_SPI3_MOSI_PORT_ID_FULL == 0)
#define RTE_SPI3_MOSI_FULL 0
#elif (RTE_SPI3_MOSI_PORT_ID_FULL == 1)
#define RTE_SPI3_MOSI_FULL 1
#define RTE_SPI3_MOSI_PORT_FULL GPIOC
#define RTE_SPI3_MOSI_BIT_FULL 12
#else
#error "Invalid SPI3_MOSI Pin Configuration!"
#endif
//
#if (RTE_SPI3_REMAP)
#define RTE_SPI3_AF_REMAP AFIO_SPI3_REMAP
#define RTE_SPI3_SCK_PORT RTE_SPI3_SCK_PORT_FULL
#define RTE_SPI3_SCK_BIT RTE_SPI3_SCK_BIT_FULL
#define RTE_SPI3_MISO RTE_SPI3_MISO_FULL
#define RTE_SPI3_MISO_PORT RTE_SPI3_MISO_PORT_FULL
#define RTE_SPI3_MISO_BIT RTE_SPI3_MISO_BIT_FULL
#define RTE_SPI3_MOSI RTE_SPI3_MOSI_FULL
#define RTE_SPI3_MOSI_PORT RTE_SPI3_MOSI_PORT_FULL
#define RTE_SPI3_MOSI_BIT RTE_SPI3_MOSI_BIT_FULL
#else
#define RTE_SPI3_AF_REMAP AFIO_SPI3_NO_REMAP
#define RTE_SPI3_SCK_PORT RTE_SPI3_SCK_PORT_DEF
#define RTE_SPI3_SCK_BIT RTE_SPI3_SCK_BIT_DEF
#define RTE_SPI3_MISO RTE_SPI3_MISO_DEF
#define RTE_SPI3_MISO_PORT RTE_SPI3_MISO_PORT_DEF
#define RTE_SPI3_MISO_BIT RTE_SPI3_MISO_BIT_DEF
#define RTE_SPI3_MOSI RTE_SPI3_MOSI_DEF
#define RTE_SPI3_MOSI_PORT RTE_SPI3_MOSI_PORT_DEF
#define RTE_SPI3_MOSI_BIT RTE_SPI3_MOSI_BIT_DEF
#endif
// DMA Rx
// Number <2=>2
// Selects DMA Number (only DMA2 can be used)
// Channel <1=>1
// Selects DMA Channel (only Channel 1 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SPI3_RX_DMA 0
#define RTE_SPI3_RX_DMA_NUMBER 2
#define RTE_SPI3_RX_DMA_CHANNEL 1
#define RTE_SPI3_RX_DMA_PRIORITY 0
// DMA Tx
// Number <2=>2
// Selects DMA Number (only DMA2 can be used)
// Channel <2=>2
// Selects DMA Channel (only Channel 2 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SPI3_TX_DMA 0
#define RTE_SPI3_TX_DMA_NUMBER 2
#define RTE_SPI3_TX_DMA_CHANNEL 2
#define RTE_SPI3_TX_DMA_PRIORITY 0
//
// SDIO (Secure Digital Input/Output) [Driver_MCI0]
// Configuration settings for Driver_MCI0 in component ::CMSIS Driver:MCI
#define RTE_SDIO 0
// SDIO Peripheral Bus
// SDIO_CK Pin <0=>PC12
#define RTE_SDIO_CK_PORT_ID 0
#if (RTE_SDIO_CK_PORT_ID == 0)
#define RTE_SDIO_CK_PORT GPIOC
#define RTE_SDIO_CK_PIN 12
#else
#error "Invalid SDIO_CLK Pin Configuration!"
#endif
// SDIO_CMD Pin <0=>PD2
#define RTE_SDIO_CMD_PORT_ID 0
#if (RTE_SDIO_CMD_PORT_ID == 0)
#define RTE_SDIO_CMD_PORT GPIOD
#define RTE_SDIO_CMD_PIN 2
#else
#error "Invalid SDIO_CMD Pin Configuration!"
#endif
// SDIO_D0 Pin <0=>PC8
#define RTE_SDIO_D0_PORT_ID 0
#if (RTE_SDIO_D0_PORT_ID == 0)
#define RTE_SDIO_D0_PORT GPIOC
#define RTE_SDIO_D0_PIN 8
#else
#error "Invalid SDIO_DAT0 Pin Configuration!"
#endif
// SDIO_D[1 .. 3]
#define RTE_SDIO_BUS_WIDTH_4 1
// SDIO_D1 Pin <0=>PC9
#define RTE_SDIO_D1_PORT_ID 0
#if (RTE_SDIO_D1_PORT_ID == 0)
#define RTE_SDIO_D1_PORT GPIOC
#define RTE_SDIO_D1_PIN 9
#else
#error "Invalid SDIO_D1 Pin Configuration!"
#endif
// SDIO_D2 Pin <0=>PC10
#define RTE_SDIO_D2_PORT_ID 0
#if (RTE_SDIO_D2_PORT_ID == 0)
#define RTE_SDIO_D2_PORT GPIOC
#define RTE_SDIO_D2_PIN 10
#else
#error "Invalid SDIO_D2 Pin Configuration!"
#endif
// SDIO_D3 Pin <0=>PC11
#define RTE_SDIO_D3_PORT_ID 0
#if (RTE_SDIO_D3_PORT_ID == 0)
#define RTE_SDIO_D3_PORT GPIOC
#define RTE_SDIO_D3_PIN 11
#else
#error "Invalid SDIO_D3 Pin Configuration!"
#endif
// SDIO_D[1 .. 3]
// SDIO_D[4 .. 7]
#define RTE_SDIO_BUS_WIDTH_8 0
// SDIO_D4 Pin <0=>PB8
#define RTE_SDIO_D4_PORT_ID 0
#if (RTE_SDIO_D4_PORT_ID == 0)
#define RTE_SDIO_D4_PORT GPIOB
#define RTE_SDIO_D4_PIN 8
#else
#error "Invalid SDIO_D4 Pin Configuration!"
#endif
// SDIO_D5 Pin <0=>PB9
#define RTE_SDIO_D5_PORT_ID 0
#if (RTE_SDIO_D5_PORT_ID == 0)
#define RTE_SDIO_D5_PORT GPIOB
#define RTE_SDIO_D5_PIN 9
#else
#error "Invalid SDIO_D5 Pin Configuration!"
#endif
// SDIO_D6 Pin <0=>PC6
#define RTE_SDIO_D6_PORT_ID 0
#if (RTE_SDIO_D6_PORT_ID == 0)
#define RTE_SDIO_D6_PORT GPIOC
#define RTE_SDIO_D6_PIN 6
#else
#error "Invalid SDIO_D6 Pin Configuration!"
#endif
// SDIO_D7 Pin <0=>PC7
#define RTE_SDIO_D7_PORT_ID 0
#if (RTE_SDIO_D7_PORT_ID == 0)
#define RTE_SDIO_D7_PORT GPIOC
#define RTE_SDIO_D7_PIN 7
#else
#error "Invalid SDIO_D7 Pin Configuration!"
#endif
// SDIO_D[4 .. 7]
// SDIO Peripheral Bus
// Card Detect Pin
// Configure Pin if exists
// GPIO Pxy (x = A..H, y = 0..15) or (x = I, y = 0..11)
// Active State <0=>Low <1=>High
// Selects Active State Logical Level
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_SDIO_CD_EN 1
#define RTE_SDIO_CD_ACTIVE 0
#define RTE_SDIO_CD_PORT GPIO_PORT(5)
#define RTE_SDIO_CD_PIN 11
// Write Protect Pin
// Configure Pin if exists
// GPIO Pxy (x = A..H, y = 0..15) or (x = I, y = 0..11)
// Active State <0=>Low <1=>High
// Selects Active State Logical Level
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_SDIO_WP_EN 0
#define RTE_SDIO_WP_ACTIVE 1
#define RTE_SDIO_WP_PORT GPIO_PORT(0)
#define RTE_SDIO_WP_PIN 10
// DMA
// Number <2=>2
// Selects DMA Number (only DMA2 can be used)
// Channel <4=>4
// Selects DMA Channel (only Channel 4 can be used)
// Priority <0=>Low <1=>Medium <2=>High <3=>Very High
// Selects DMA Priority
//
#define RTE_SDIO_DMA_NUMBER 2
#define RTE_SDIO_DMA_CHANNEL 4
#define RTE_SDIO_DMA_PRIORITY 0
//
// CAN1 (Controller Area Network 1) [Driver_CAN1]
// Configuration settings for Driver_CAN1 in component ::CMSIS Driver:CAN
#define RTE_CAN1 0
// CAN1_RX Pin <0=>PA11 <1=>PB8 <2=>PD0
#define RTE_CAN1_RX_PORT_ID 0
#if (RTE_CAN1_RX_PORT_ID == 0)
#define RTE_CAN1_RX_PORT GPIOA
#define RTE_CAN1_RX_BIT 11
#elif (RTE_CAN1_RX_PORT_ID == 1)
#define RTE_CAN1_RX_PORT GPIOB
#define RTE_CAN1_RX_BIT 8
#elif (RTE_CAN1_RX_PORT_ID == 2)
#define RTE_CAN1_RX_PORT GPIOD
#define RTE_CAN1_RX_BIT 0
#else
#error "Invalid CAN1_RX Pin Configuration!"
#endif
// CAN1_TX Pin <0=>PA12 <1=>PB9 <2=>PD1
#define RTE_CAN1_TX_PORT_ID 0
#if (RTE_CAN1_TX_PORT_ID == 0)
#define RTE_CAN1_TX_PORT GPIOA
#define RTE_CAN1_TX_BIT 12
#elif (RTE_CAN1_TX_PORT_ID == 1)
#define RTE_CAN1_TX_PORT GPIOB
#define RTE_CAN1_TX_BIT 9
#elif (RTE_CAN1_TX_PORT_ID == 2)
#define RTE_CAN1_TX_PORT GPIOD
#define RTE_CAN1_TX_BIT 1
#else
#error "Invalid CAN1_TX Pin Configuration!"
#endif
//
// CAN2 (Controller Area Network 2) [Driver_CAN2]
// Configuration settings for Driver_CAN2 in component ::CMSIS Driver:CAN
#define RTE_CAN2 0
// CAN2_RX Pin <0=>PB5 <1=>PB12
#define RTE_CAN2_RX_PORT_ID 0
#if (RTE_CAN2_RX_PORT_ID == 0)
#define RTE_CAN2_RX_PORT GPIOB
#define RTE_CAN2_RX_BIT 5
#elif (RTE_CAN2_RX_PORT_ID == 1)
#define RTE_CAN2_RX_PORT GPIOB
#define RTE_CAN2_RX_BIT 12
#else
#error "Invalid CAN2_RX Pin Configuration!"
#endif
// CAN2_TX Pin <0=>PB6 <1=>PB13
#define RTE_CAN2_TX_PORT_ID 0
#if (RTE_CAN2_TX_PORT_ID == 0)
#define RTE_CAN2_TX_PORT GPIOB
#define RTE_CAN2_TX_BIT 6
#elif (RTE_CAN2_TX_PORT_ID == 1)
#define RTE_CAN2_TX_PORT GPIOB
#define RTE_CAN2_TX_BIT 13
#else
#error "Invalid CAN2_TX Pin Configuration!"
#endif
//
// ETH (Ethernet Interface) [Driver_ETH_MAC0]
// Configuration settings for Driver_ETH_MAC0 in component ::CMSIS Driver:Ethernet MAC
#define RTE_ETH 0
// MII (Media Independent Interface)
// Enable Media Independent Interface pin configuration
#define RTE_ETH_MII 0
// ETH_MII_TX_CLK Pin <0=>PC3
#define RTE_ETH_MII_TX_CLK_PORT_ID 0
#if (RTE_ETH_MII_TX_CLK_PORT_ID == 0)
#define RTE_ETH_MII_TX_CLK_PORT GPIOC
#define RTE_ETH_MII_TX_CLK_PIN 3
#else
#error "Invalid ETH_MII_TX_CLK Pin Configuration!"
#endif
// ETH_MII_TXD0 Pin <0=>PB12
#define RTE_ETH_MII_TXD0_PORT_ID 0
#if (RTE_ETH_MII_TXD0_PORT_ID == 0)
#define RTE_ETH_MII_TXD0_PORT GPIOB
#define RTE_ETH_MII_TXD0_PIN 12
#else
#error "Invalid ETH_MII_TXD0 Pin Configuration!"
#endif
// ETH_MII_TXD1 Pin <0=>PB13
#define RTE_ETH_MII_TXD1_PORT_ID 0
#if (RTE_ETH_MII_TXD1_PORT_ID == 0)
#define RTE_ETH_MII_TXD1_PORT GPIOB
#define RTE_ETH_MII_TXD1_PIN 13
#else
#error "Invalid ETH_MII_TXD1 Pin Configuration!"
#endif
// ETH_MII_TXD2 Pin <0=>PC2
#define RTE_ETH_MII_TXD2_PORT_ID 0
#if (RTE_ETH_MII_TXD2_PORT_ID == 0)
#define RTE_ETH_MII_TXD2_PORT GPIOC
#define RTE_ETH_MII_TXD2_PIN 2
#else
#error "Invalid ETH_MII_TXD2 Pin Configuration!"
#endif
// ETH_MII_TXD3 Pin <0=>PB8
#define RTE_ETH_MII_TXD3_PORT_ID 0
#if (RTE_ETH_MII_TXD3_PORT_ID == 0)
#define RTE_ETH_MII_TXD3_PORT GPIOB
#define RTE_ETH_MII_TXD3_PIN 8
#else
#error "Invalid ETH_MII_TXD3 Pin Configuration!"
#endif
// ETH_MII_TX_EN Pin <0=>PB11
#define RTE_ETH_MII_TX_EN_PORT_ID 0
#if (RTE_ETH_MII_TX_EN_PORT_ID == 0)
#define RTE_ETH_MII_TX_EN_PORT GPIOB
#define RTE_ETH_MII_TX_EN_PIN 11
#else
#error "Invalid ETH_MII_TX_EN Pin Configuration!"
#endif
// ETH_MII_RX_CLK Pin <0=>PA1
#define RTE_ETH_MII_RX_CLK_PORT_ID 0
#if (RTE_ETH_MII_RX_CLK_PORT_ID == 0)
#define RTE_ETH_MII_RX_CLK_PORT GPIOA
#define RTE_ETH_MII_RX_CLK_PIN 1
#else
#error "Invalid ETH_MII_RX_CLK Pin Configuration!"
#endif
// ETH_MII_RXD0 Pin <0=>PC4
#define RTE_ETH_MII_RXD0_DEF 0
// ETH_MII_RXD1 Pin <0=>PC5
#define RTE_ETH_MII_RXD1_DEF 0
// ETH_MII_RXD2 Pin <0=>PB0
#define RTE_ETH_MII_RXD2_DEF 0
// ETH_MII_RXD3 Pin <0=>PB1 <1=>PD12
#define RTE_ETH_MII_RXD3_DEF 0
// ETH_MII_RX_DV Pin <0=>PA7
#define RTE_ETH_MII_RX_DV_DEF 0
// ETH_MII_RX_ER Pin <0=>PB10
#define RTE_ETH_MII_RX_ER_PORT_ID 0
#if (RTE_ETH_MII_RX_ER_PORT_ID == 0)
#define RTE_ETH_MII_RX_ER_PORT GPIOB
#define RTE_ETH_MII_RX_ER_PIN 10
#else
#error "Invalid ETH_MII_RX_ER Pin Configuration!"
#endif
// ETH_MII_CRS Pin <0=>PA0
#define RTE_ETH_MII_CRS_PORT_ID 0
#if (RTE_ETH_MII_CRS_PORT_ID == 0)
#define RTE_ETH_MII_CRS_PORT GPIOA
#define RTE_ETH_MII_CRS_PIN 0
#else
#error "Invalid ETH_MII_CRS Pin Configuration!"
#endif
// ETH_MII_COL Pin <0=>PA3
#define RTE_ETH_MII_COL_PORT_ID 0
#if (RTE_ETH_MII_COL_PORT_ID == 0)
#define RTE_ETH_MII_COL_PORT GPIOA
#define RTE_ETH_MII_COL_PIN 3
#else
#error "Invalid ETH_MII_COL Pin Configuration!"
#endif
// Ethernet MAC I/O remapping
// Remap Ethernet pins
#define RTE_ETH_MII_REMAP 0
// ETH_MII_RXD0 Pin <1=>PD9
#define RTE_ETH_MII_RXD0_REMAP 1
// ETH_MII_RXD1 Pin <1=>PD10
#define RTE_ETH_MII_RXD1_REMAP 1
// ETH_MII_RXD2 Pin <1=>PD11
#define RTE_ETH_MII_RXD2_REMAP 1
// ETH_MII_RXD3 Pin <1=>PD12
#define RTE_ETH_MII_RXD3_REMAP 1
// ETH_MII_RX_DV Pin <1=>PD8
#define RTE_ETH_MII_RX_DV_REMAP 1
//
//
#if ((RTE_ETH_MII_REMAP == 0) && (RTE_ETH_MII_RXD0_DEF == 0))
#define RTE_ETH_MII_RXD0_PORT GPIOC
#define RTE_ETH_MII_RXD0_PIN 4
#elif ((RTE_ETH_MII_REMAP == 1) && (RTE_ETH_MII_RXD0_REMAP == 1))
#define RTE_ETH_MII_RXD0_PORT GPIOD
#define RTE_ETH_MII_RXD0_PIN 9
#else
#error "Invalid ETH_MII_RXD0 Pin Configuration!"
#endif
#if ((RTE_ETH_MII_REMAP == 0) && (RTE_ETH_MII_RXD1_DEF == 0))
#define RTE_ETH_MII_RXD1_PORT GPIOC
#define RTE_ETH_MII_RXD1_PIN 5
#elif ((RTE_ETH_MII_REMAP == 1) && (RTE_ETH_MII_RXD1_REMAP == 1))
#define RTE_ETH_MII_RXD1_PORT GPIOD
#define RTE_ETH_MII_RXD1_PIN 10
#else
#error "Invalid ETH_MII_RXD1 Pin Configuration!"
#endif
#if ((RTE_ETH_MII_REMAP == 0) && (RTE_ETH_MII_RXD2_DEF == 0))
#define RTE_ETH_MII_RXD2_PORT GPIOB
#define RTE_ETH_MII_RXD2_PIN 0
#elif ((RTE_ETH_MII_REMAP == 1) && (RTE_ETH_MII_RXD2_REMAP == 1))
#define RTE_ETH_MII_RXD2_PORT GPIOD
#define RTE_ETH_MII_RXD2_PIN 11
#else
#error "Invalid ETH_MII_RXD2 Pin Configuration!"
#endif
#if ((RTE_ETH_MII_REMAP == 0) && (RTE_ETH_MII_RXD3_DEF == 0))
#define RTE_ETH_MII_RXD3_PORT GPIOB
#define RTE_ETH_MII_RXD3_PIN 1
#elif ((RTE_ETH_MII_REMAP == 1) && (RTE_ETH_MII_RXD3_REMAP == 1))
#define RTE_ETH_MII_RXD3_PORT GPIOD
#define RTE_ETH_MII_RXD3_PIN 12
#else
#error "Invalid ETH_MII_RXD3 Pin Configuration!"
#endif
#if ((RTE_ETH_MII_REMAP == 0) && (RTE_ETH_MII_RX_DV_DEF == 0))
#define RTE_ETH_MII_RX_DV_PORT GPIOA
#define RTE_ETH_MII_RX_DV_PIN 7
#elif ((RTE_ETH_MII_REMAP == 1) && (RTE_ETH_MII_RX_DV_REMAP == 1))
#define RTE_ETH_MII_RX_DV_PORT GPIOD
#define RTE_ETH_MII_RX_DV_PIN 8
#else
#error "Invalid ETH_MII_RX_DV Pin Configuration!"
#endif
// RMII (Reduced Media Independent Interface)
#define RTE_ETH_RMII 0
// ETH_RMII_TXD0 Pin <0=>PB12
#define RTE_ETH_RMII_TXD0_PORT_ID 0
#if (RTE_ETH_RMII_TXD0_PORT_ID == 0)
#define RTE_ETH_RMII_TXD0_PORT GPIOB
#define RTE_ETH_RMII_TXD0_PIN 12
#else
#error "Invalid ETH_RMII_TXD0 Pin Configuration!"
#endif
// ETH_RMII_TXD1 Pin <0=>PB13
#define RTE_ETH_RMII_TXD1_PORT_ID 0
#if (RTE_ETH_RMII_TXD1_PORT_ID == 0)
#define RTE_ETH_RMII_TXD1_PORT GPIOB
#define RTE_ETH_RMII_TXD1_PIN 13
#else
#error "Invalid ETH_RMII_TXD1 Pin Configuration!"
#endif
// ETH_RMII_TX_EN Pin <0=>PB11
#define RTE_ETH_RMII_TX_EN_PORT_ID 0
#if (RTE_ETH_RMII_TX_EN_PORT_ID == 0)
#define RTE_ETH_RMII_TX_EN_PORT GPIOB
#define RTE_ETH_RMII_TX_EN_PIN 11
#else
#error "Invalid ETH_RMII_TX_EN Pin Configuration!"
#endif
// ETH_RMII_RXD0 Pin <0=>PC4
#define RTE_ETH_RMII_RXD0_DEF 0
// ETH_RMII_RXD1 Pin <0=>PC5
#define RTE_ETH_RMII_RXD1_DEF 0
// ETH_RMII_REF_CLK Pin <0=>PA1
#define RTE_ETH_RMII_REF_CLK_PORT_ID 0
#if (RTE_ETH_RMII_REF_CLK_PORT_ID == 0)
#define RTE_ETH_RMII_REF_CLK_PORT GPIOA
#define RTE_ETH_RMII_REF_CLK_PIN 1
#else
#error "Invalid ETH_RMII_REF_CLK Pin Configuration!"
#endif
// ETH_RMII_CRS_DV Pin <0=>PA7
#define RTE_ETH_RMII_CRS_DV_DEF 0
// Ethernet MAC I/O remapping
// Remap Ethernet pins
#define RTE_ETH_RMII_REMAP 0
// ETH_RMII_RXD0 Pin <1=>PD9
#define RTE_ETH_RMII_RXD0_REMAP 1
// ETH_RMII_RXD1 Pin <1=>PD10
#define RTE_ETH_RMII_RXD1_REMAP 1
// ETH_RMII_CRS_DV Pin <1=>PD8
#define RTE_ETH_RMII_CRS_DV_REMAP 1
//
#if ((RTE_ETH_RMII_REMAP == 0) && (RTE_ETH_RMII_RXD0_DEF == 0))
#define RTE_ETH_RMII_RXD0_PORT GPIOC
#define RTE_ETH_RMII_RXD0_PIN 4
#elif ((RTE_ETH_RMII_REMAP == 1) && (RTE_ETH_RMII_RXD0_REMAP == 1))
#define RTE_ETH_RMII_RXD0_PORT GPIOD
#define RTE_ETH_RMII_RXD0_PIN 9
#else
#error "Invalid ETH_RMII_RXD0 Pin Configuration!"
#endif
#if ((RTE_ETH_RMII_REMAP == 0) && (RTE_ETH_RMII_RXD1_DEF == 0))
#define RTE_ETH_RMII_RXD1_PORT GPIOC
#define RTE_ETH_RMII_RXD1_PIN 5
#elif ((RTE_ETH_RMII_REMAP == 1) && (RTE_ETH_RMII_RXD1_REMAP == 1))
#define RTE_ETH_RMII_RXD1_PORT GPIOD
#define RTE_ETH_RMII_RXD1_PIN 10
#else
#error "Invalid ETH_RMII_RXD1 Pin Configuration!"
#endif
#if ((RTE_ETH_RMII_REMAP == 0) && (RTE_ETH_RMII_CRS_DV_DEF == 0))
#define RTE_ETH_RMII_CRS_DV_PORT GPIOA
#define RTE_ETH_RMII_CRS_DV_PIN 7
#elif ((RTE_ETH_RMII_REMAP == 1) && (RTE_ETH_RMII_CRS_DV_REMAP == 1))
#define RTE_ETH_RMII_CRS_DV_PORT GPIOD
#define RTE_ETH_RMII_CRS_DV_PIN 8
#else
#error "Invalid ETH_RMII_CRS_DV Pin Configuration!"
#endif
//
// Management Data Interface
// ETH_MDC Pin <0=>PC1
#define RTE_ETH_MDI_MDC_PORT_ID 0
#if (RTE_ETH_MDI_MDC_PORT_ID == 0)
#define RTE_ETH_MDI_MDC_PORT GPIOC
#define RTE_ETH_MDI_MDC_PIN 1
#else
#error "Invalid ETH_MDC Pin Configuration!"
#endif
// ETH_MDIO Pin <0=>PA2
#define RTE_ETH_MDI_MDIO_PORT_ID 0
#if (RTE_ETH_MDI_MDIO_PORT_ID == 0)
#define RTE_ETH_MDI_MDIO_PORT GPIOA
#define RTE_ETH_MDI_MDIO_PIN 2
#else
#error "Invalid ETH_MDIO Pin Configuration!"
#endif
//
// Reference 25MHz Clock generation on MCO pin <0=>Disabled <1=>Enabled
#define RTE_ETH_REF_CLOCK_ID 0
#if (RTE_ETH_REF_CLOCK_ID == 0)
#define RTE_ETH_REF_CLOCK 0
#elif (RTE_ETH_REF_CLOCK_ID == 1)
#define RTE_ETH_REF_CLOCK 1
#else
#error "Invalid MCO Ethernet Reference Clock Configuration!"
#endif
//
// USB Device Full-speed
// Configuration settings for Driver_USBD0 in component ::Drivers:USB Device
#define RTE_USB_DEVICE 0
// CON On/Off Pin
// Configure Pin for driving D+ pull-up
// GPIO Pxy (x = A..G, y = 0..15)
// Active State <0=>Low <1=>High
// Selects Active State Logical Level
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_USB_DEVICE_CON_PIN 1
#define RTE_USB_DEVICE_CON_ACTIVE 0
#define RTE_USB_DEVICE_CON_PORT GPIO_PORT(1)
#define RTE_USB_DEVICE_CON_BIT 14
//
// USB OTG Full-speed
#define RTE_USB_OTG_FS 0
// Host [Driver_USBH0]
// Configuration settings for Driver_USBH0 in component ::Drivers:USB Host
#define RTE_USB_OTG_FS_HOST 0
// VBUS Power On/Off Pin
// Configure Pin for driving VBUS
// GPIO Pxy (x = A..G, y = 0..15)
// Active State <0=>Low <1=>High
// Selects Active State Logical Level
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_OTG_FS_VBUS_PIN 1
#define RTE_OTG_FS_VBUS_ACTIVE 0
#define RTE_OTG_FS_VBUS_PORT GPIO_PORT(2)
#define RTE_OTG_FS_VBUS_BIT 9
// Overcurrent Detection Pin
// Configure Pin for overcurrent detection
// GPIO Pxy (x = A..G, y = 0..15)
// Active State <0=>Low <1=>High
// Selects Active State Logical Level
// Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD
// <4=>GPIOE <5=>GPIOF <6=>GPIOG
// Selects Port Name
// Bit <0-15>
// Selects Port Bit
//
#define RTE_OTG_FS_OC_PIN 1
#define RTE_OTG_FS_OC_ACTIVE 0
#define RTE_OTG_FS_OC_PORT GPIO_PORT(4)
#define RTE_OTG_FS_OC_BIT 1
//
//
#endif /* __RTE_DEVICE_H */