/* ----------------------------------------------------------------------------- * Copyright (c) 2013-2019 Arm Limited (or its affiliates). All * rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * $Date: 17. June 2019 * $Revision: V1.5.1 * * Project: RTE Device Configuration for ST STM32F7xx * -------------------------------------------------------------------------- */ //-------- <<< Use Configuration Wizard in Context Menu >>> -------------------- #ifndef __RTE_DEVICE_H #define __RTE_DEVICE_H #define GPIO_PORT0 GPIOA #define GPIO_PORT1 GPIOB #define GPIO_PORT2 GPIOC #define GPIO_PORT3 GPIOD #define GPIO_PORT4 GPIOE #define GPIO_PORT5 GPIOF #define GPIO_PORT6 GPIOG #define GPIO_PORT7 GPIOH #define GPIO_PORT8 GPIOI #define GPIO_PORT9 GPIOJ #define GPIO_PORT10 GPIOK #define GPIO_PORT(num) GPIO_PORT##num // USART1 (Universal synchronous asynchronous receiver transmitter) [Driver_USART1] // Configuration settings for Driver_USART1 in component ::CMSIS Driver:USART #define RTE_USART1 0 // USART1_TX Pin <0=>Not Used <1=>PA9 <2=>PB6 <3=>PB14 #define RTE_USART1_TX_ID 0 #if (RTE_USART1_TX_ID == 0) #define RTE_USART1_TX 0 #elif (RTE_USART1_TX_ID == 1) #define RTE_USART1_TX 1 #define RTE_USART1_TX_PORT GPIOA #define RTE_USART1_TX_BIT 9 #elif (RTE_USART1_TX_ID == 2) #define RTE_USART1_TX 1 #define RTE_USART1_TX_PORT GPIOB #define RTE_USART1_TX_BIT 6 #elif (RTE_USART1_TX_ID == 3) #define RTE_USART1_TX 1 #define RTE_USART1_TX_PORT GPIOB #define RTE_USART1_TX_BIT 14 #else #error "Invalid USART1_TX Pin Configuration!" #endif // USART1_RX Pin <0=>Not Used <1=>PA10 <2=>PB7 <3=>PB15 #define RTE_USART1_RX_ID 0 #if (RTE_USART1_RX_ID == 0) #define RTE_USART1_RX 0 #elif (RTE_USART1_RX_ID == 1) #define RTE_USART1_RX 1 #define RTE_USART1_RX_PORT GPIOA #define RTE_USART1_RX_BIT 10 #elif (RTE_USART1_RX_ID == 2) #define RTE_USART1_RX 1 #define RTE_USART1_RX_PORT GPIOB #define RTE_USART1_RX_BIT 7 #elif (RTE_USART1_RX_ID == 3) #define RTE_USART1_RX 1 #define RTE_USART1_RX_PORT GPIOB #define RTE_USART1_RX_BIT 15 #else #error "Invalid USART1_RX Pin Configuration!" #endif // USART1_CK Pin <0=>Not Used <1=>PA8 #define RTE_USART1_CK_ID 0 #if (RTE_USART1_CK_ID == 0) #define RTE_USART1_CK 0 #elif (RTE_USART1_CK_ID == 1) #define RTE_USART1_CK 1 #define RTE_USART1_CK_PORT GPIOA #define RTE_USART1_CK_BIT 8 #else #error "Invalid USART1_CK Pin Configuration!" #endif // USART1_CTS Pin <0=>Not Used <1=>PA11 #define RTE_USART1_CTS_ID 0 #if (RTE_USART1_CTS_ID == 0) #define RTE_USART1_CTS 0 #elif (RTE_USART1_CTS_ID == 1) #define RTE_USART1_CTS 1 #define RTE_USART1_CTS_PORT GPIOA #define RTE_USART1_CTS_BIT 11 #else #error "Invalid USART1_CTS Pin Configuration!" #endif // USART1_RTS Pin <0=>Not Used <1=>PA12 #define RTE_USART1_RTS_ID 0 #if (RTE_USART1_RTS_ID == 0) #define RTE_USART1_RTS 0 #elif (RTE_USART1_RTS_ID == 1) #define RTE_USART1_RTS 1 #define RTE_USART1_RTS_PORT GPIOA #define RTE_USART1_RTS_BIT 12 #else #error "Invalid USART1_RTS Pin Configuration!" #endif // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <2=>2 <5=>5 // Selects DMA Stream (only Stream 2 or 5 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_USART1_RX_DMA 0 #define RTE_USART1_RX_DMA_NUMBER 2 #define RTE_USART1_RX_DMA_STREAM 2 #define RTE_USART1_RX_DMA_CHANNEL 4 #define RTE_USART1_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <7=>7 // Selects DMA Stream (only Stream 7 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_USART1_TX_DMA 0 #define RTE_USART1_TX_DMA_NUMBER 2 #define RTE_USART1_TX_DMA_STREAM 7 #define RTE_USART1_TX_DMA_CHANNEL 4 #define RTE_USART1_TX_DMA_PRIORITY 0 // // USART2 (Universal synchronous asynchronous receiver transmitter) [Driver_USART2] // Configuration settings for Driver_USART2 in component ::CMSIS Driver:USART #define RTE_USART2 0 // USART2_TX Pin <0=>Not Used <1=>PA2 <2=>PD5 #define RTE_USART2_TX_ID 0 #if (RTE_USART2_TX_ID == 0) #define RTE_USART2_TX 0 #elif (RTE_USART2_TX_ID == 1) #define RTE_USART2_TX 1 #define RTE_USART2_TX_PORT GPIOA #define RTE_USART2_TX_BIT 2 #elif (RTE_USART2_TX_ID == 2) #define RTE_USART2_TX 1 #define RTE_USART2_TX_PORT GPIOD #define RTE_USART2_TX_BIT 5 #else #error "Invalid USART2_TX Pin Configuration!" #endif // USART2_RX Pin <0=>Not Used <1=>PA3 <2=>PD6 #define RTE_USART2_RX_ID 0 #if (RTE_USART2_RX_ID == 0) #define RTE_USART2_RX 0 #elif (RTE_USART2_RX_ID == 1) #define RTE_USART2_RX 1 #define RTE_USART2_RX_PORT GPIOA #define RTE_USART2_RX_BIT 3 #elif (RTE_USART2_RX_ID == 2) #define RTE_USART2_RX 1 #define RTE_USART2_RX_PORT GPIOD #define RTE_USART2_RX_BIT 6 #else #error "Invalid USART2_RX Pin Configuration!" #endif // USART2_CK Pin <0=>Not Used <1=>PA4 <2=>PD7 #define RTE_USART2_CK_ID 0 #if (RTE_USART2_CK_ID == 0) #define RTE_USART2_CK 0 #elif (RTE_USART2_CK_ID == 1) #define RTE_USART2_CK 1 #define RTE_USART2_CK_PORT GPIOA #define RTE_USART2_CK_BIT 4 #elif (RTE_USART2_CK_ID == 2) #define RTE_USART2_CK 1 #define RTE_USART2_CK_PORT GPIOD #define RTE_USART2_CK_BIT 7 #else #error "Invalid USART2_CK Pin Configuration!" #endif // USART2_CTS Pin <0=>Not Used <1=>PA0 <2=>PD3 #define RTE_USART2_CTS_ID 0 #if (RTE_USART2_CTS_ID == 0) #define RTE_USART2_CTS 0 #elif (RTE_USART2_CTS_ID == 1) #define RTE_USART2_CTS 1 #define RTE_USART2_CTS_PORT GPIOA #define RTE_USART2_CTS_BIT 0 #elif (RTE_USART2_CTS_ID == 2) #define RTE_USART2_CTS 1 #define RTE_USART2_CTS_PORT GPIOD #define RTE_USART2_CTS_BIT 3 #else #error "Invalid USART2_CTS Pin Configuration!" #endif // USART2_RTS Pin <0=>Not Used <1=>PA1 <2=>PD4 #define RTE_USART2_RTS_ID 0 #if (RTE_USART2_RTS_ID == 0) #define RTE_USART2_RTS 0 #elif (RTE_USART2_RTS_ID == 1) #define RTE_USART2_RTS 1 #define RTE_USART2_RTS_PORT GPIOA #define RTE_USART2_RTS_BIT 1 #elif (RTE_USART2_RTS_ID == 2) #define RTE_USART2_RTS 1 #define RTE_USART2_RTS_PORT GPIOD #define RTE_USART2_RTS_BIT 4 #else #error "Invalid USART2_RTS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <5=>5 // Selects DMA Stream (only Stream 5 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_USART2_RX_DMA 0 #define RTE_USART2_RX_DMA_NUMBER 1 #define RTE_USART2_RX_DMA_STREAM 5 #define RTE_USART2_RX_DMA_CHANNEL 4 #define RTE_USART2_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <6=>6 // Selects DMA Stream (only Stream 6 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_USART2_TX_DMA 0 #define RTE_USART2_TX_DMA_NUMBER 1 #define RTE_USART2_TX_DMA_STREAM 6 #define RTE_USART2_TX_DMA_CHANNEL 4 #define RTE_USART2_TX_DMA_PRIORITY 0 // // USART3 (Universal synchronous asynchronous receiver transmitter) [Driver_USART3] // Configuration settings for Driver_USART3 in component ::CMSIS Driver:USART #define RTE_USART3 0 // USART3_TX Pin <0=>Not Used <1=>PB10 <2=>PC10 <3=>PD8 #define RTE_USART3_TX_ID 0 #if (RTE_USART3_TX_ID == 0) #define RTE_USART3_TX 0 #elif (RTE_USART3_TX_ID == 1) #define RTE_USART3_TX 1 #define RTE_USART3_TX_PORT GPIOB #define RTE_USART3_TX_BIT 10 #elif (RTE_USART3_TX_ID == 2) #define RTE_USART3_TX 1 #define RTE_USART3_TX_PORT GPIOC #define RTE_USART3_TX_BIT 10 #elif (RTE_USART3_TX_ID == 3) #define RTE_USART3_TX 1 #define RTE_USART3_TX_PORT GPIOD #define RTE_USART3_TX_BIT 8 #else #error "Invalid USART3_TX Pin Configuration!" #endif // USART3_RX Pin <0=>Not Used <1=>PB11 <2=>PC11 <3=>PD9 #define RTE_USART3_RX_ID 0 #if (RTE_USART3_RX_ID == 0) #define RTE_USART3_RX 0 #elif (RTE_USART3_RX_ID == 1) #define RTE_USART3_RX 1 #define RTE_USART3_RX_PORT GPIOB #define RTE_USART3_RX_BIT 11 #elif (RTE_USART3_RX_ID == 2) #define RTE_USART3_RX 1 #define RTE_USART3_RX_PORT GPIOC #define RTE_USART3_RX_BIT 11 #elif (RTE_USART3_RX_ID == 3) #define RTE_USART3_RX 1 #define RTE_USART3_RX_PORT GPIOD #define RTE_USART3_RX_BIT 9 #else #error "Invalid USART3_RX Pin Configuration!" #endif // USART3_CK Pin <0=>Not Used <1=>PB12 <2=>PC12 <3=>PD10 #define RTE_USART3_CK_ID 0 #if (RTE_USART3_CK_ID == 0) #define RTE_USART3_CK 0 #elif (RTE_USART3_CK_ID == 1) #define RTE_USART3_CK 1 #define RTE_USART3_CK_PORT GPIOB #define RTE_USART3_CK_BIT 12 #elif (RTE_USART3_CK_ID == 2) #define RTE_USART3_CK 1 #define RTE_USART3_CK_PORT GPIOC #define RTE_USART3_CK_BIT 12 #elif (RTE_USART3_CK_ID == 3) #define RTE_USART3_CK 1 #define RTE_USART3_CK_PORT GPIOD #define RTE_USART3_CK_BIT 10 #else #error "Invalid USART3_CK Pin Configuration!" #endif // USART3_CTS Pin <0=>Not Used <1=>PB13 <2=>PD11 #define RTE_USART3_CTS_ID 0 #if (RTE_USART3_CTS_ID == 0) #define RTE_USART3_CTS 0 #elif (RTE_USART3_CTS_ID == 1) #define RTE_USART3_CTS 1 #define RTE_USART3_CTS_PORT GPIOB #define RTE_USART3_CTS_BIT 13 #elif (RTE_USART3_CTS_ID == 2) #define RTE_USART3_CTS 1 #define RTE_USART3_CTS_PORT GPIOD #define RTE_USART3_CTS_BIT 11 #else #error "Invalid USART3_CTS Pin Configuration!" #endif // USART3_RTS Pin <0=>Not Used <1=>PB14 <2=>PD12 #define RTE_USART3_RTS_ID 0 #if (RTE_USART3_RTS_ID == 0) #define RTE_USART3_RTS 0 #elif (RTE_USART3_RTS_ID == 1) #define RTE_USART3_RTS 1 #define RTE_USART3_RTS_PORT GPIOB #define RTE_USART3_RTS_BIT 14 #elif (RTE_USART3_RTS_ID == 2) #define RTE_USART3_RTS 1 #define RTE_USART3_RTS_PORT GPIOD #define RTE_USART3_RTS_BIT 12 #else #error "Invalid USART3_RTS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <1=>1 // Selects DMA Stream (only Stream 1 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_USART3_RX_DMA 0 #define RTE_USART3_RX_DMA_NUMBER 1 #define RTE_USART3_RX_DMA_STREAM 1 #define RTE_USART3_RX_DMA_CHANNEL 4 #define RTE_USART3_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <3=>3 <4=>4 // Selects DMA Stream (only Stream 3 or 4 can be used) // Channel <4=>4 <7=>7 // Selects DMA Channel (only Channel 4 or 7 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_USART3_TX_DMA 0 #define RTE_USART3_TX_DMA_NUMBER 1 #define RTE_USART3_TX_DMA_STREAM 3 #define RTE_USART3_TX_DMA_CHANNEL 4 #define RTE_USART3_TX_DMA_PRIORITY 0 // // UART4 (Universal asynchronous receiver transmitter) [Driver_USART4] // Configuration settings for Driver_USART4 in component ::CMSIS Driver:USART #define RTE_UART4 0 // UART4_TX Pin <0=>Not Used <1=>PA0 <2=>PC10 <3=>PA12 <4=>PD1 <5=>PH13 #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 GPIOA #define RTE_UART4_TX_BIT 0 #elif (RTE_UART4_TX_ID == 2) #define RTE_UART4_TX 1 #define RTE_UART4_TX_PORT GPIOC #define RTE_UART4_TX_BIT 10 #elif (RTE_UART4_TX_ID == 3) #define RTE_UART4_TX 1 #define RTE_UART4_TX_PORT GPIOA #define RTE_UART4_TX_BIT 12 #elif (RTE_UART4_TX_ID == 4) #define RTE_UART4_TX 1 #define RTE_UART4_TX_PORT GPIOD #define RTE_UART4_TX_BIT 1 #elif (RTE_UART4_TX_ID == 5) #define RTE_UART4_TX 1 #define RTE_UART4_TX_PORT GPIOH #define RTE_UART4_TX_BIT 13 #else #error "Invalid UART4_TX Pin Configuration!" #endif // UART4_RX Pin <0=>Not Used <1=>PA1 <2=>PC11 <3=>PA11 <4=>PD0 <5=>PH14 <6=>PI9 #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 GPIOA #define RTE_UART4_RX_BIT 1 #elif (RTE_UART4_RX_ID == 2) #define RTE_UART4_RX 1 #define RTE_UART4_RX_PORT GPIOC #define RTE_UART4_RX_BIT 11 #elif (RTE_UART4_RX_ID == 3) #define RTE_UART4_RX 1 #define RTE_UART4_RX_PORT GPIOA #define RTE_UART4_RX_BIT 11 #elif (RTE_UART4_RX_ID == 4) #define RTE_UART4_RX 1 #define RTE_UART4_RX_PORT GPIOD #define RTE_UART4_RX_BIT 0 #elif (RTE_UART4_RX_ID == 5) #define RTE_UART4_RX 1 #define RTE_UART4_RX_PORT GPIOH #define RTE_UART4_RX_BIT 14 #elif (RTE_UART4_RX_ID == 6) #define RTE_UART4_RX 1 #define RTE_UART4_RX_PORT GPIOI #define RTE_UART4_RX_BIT 9 #else #error "Invalid UART4_RX Pin Configuration!" #endif // UART4_CTS Pin <0=>Not Used <1=>PB0 <2=>PB15 #define RTE_UART4_CTS_ID 0 #if (RTE_UART4_CTS_ID == 0) #define RTE_UART4_CTS 0 #elif (RTE_UART4_CTS_ID == 1) #define RTE_UART4_CTS 1 #define RTE_UART4_CTS_PORT GPIOB #define RTE_UART4_CTS_BIT 0 #elif (RTE_UART4_CTS_ID == 2) #define RTE_UART4_CTS 1 #define RTE_UART4_CTS_PORT GPIOB #define RTE_UART4_CTS_BIT 15 #else #error "Invalid UART4_CTS Pin Configuration!" #endif // UART4_RTS Pin <0=>Not Used <1=>PA15 <2=>PB14 #define RTE_UART4_RTS_ID 0 #if (RTE_UART4_RTS_ID == 0) #define RTE_UART4_RTS 0 #elif (RTE_UART4_RTS_ID == 1) #define RTE_UART4_RTS 1 #define RTE_UART4_RTS_PORT GPIOA #define RTE_UART4_RTS_BIT 15 #elif (RTE_UART4_RTS_ID == 2) #define RTE_UART4_RTS 1 #define RTE_UART4_RTS_PORT GPIOB #define RTE_UART4_RTS_BIT 14 #else #error "Invalid UART4_RTS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <2=>2 // Selects DMA Stream (only Stream 2 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_UART4_RX_DMA 0 #define RTE_UART4_RX_DMA_NUMBER 1 #define RTE_UART4_RX_DMA_STREAM 2 #define RTE_UART4_RX_DMA_CHANNEL 4 #define RTE_UART4_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <4=>4 // Selects DMA Stream (only Stream 4 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_UART4_TX_DMA 0 #define RTE_UART4_TX_DMA_NUMBER 1 #define RTE_UART4_TX_DMA_STREAM 4 #define RTE_UART4_TX_DMA_CHANNEL 4 #define RTE_UART4_TX_DMA_PRIORITY 0 // // UART5 (Universal asynchronous receiver transmitter) [Driver_USART5] // Configuration settings for Driver_USART5 in component ::CMSIS Driver:USART #define RTE_UART5 0 // UART5_TX Pin <0=>Not Used <1=>PC12 <2=>PB6 <3=>PB9 <4=>PB13 #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 #elif (RTE_UART5_TX_ID == 2) #define RTE_UART5_TX 1 #define RTE_UART5_TX_PORT GPIOB #define RTE_UART5_TX_BIT 6 #elif (RTE_UART5_TX_ID == 3) #define RTE_UART5_TX 1 #define RTE_UART5_TX_PORT GPIOB #define RTE_UART5_TX_BIT 9 #elif (RTE_UART5_TX_ID == 4) #define RTE_UART5_TX 1 #define RTE_UART5_TX_PORT GPIOB #define RTE_UART5_TX_BIT 13 #else #error "Invalid UART5_TX Pin Configuration!" #endif // UART5_RX Pin <0=>Not Used <1=>PD2 <2=>PB5 <3=>PB8 <4=>PB12 #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 #elif (RTE_UART5_RX_ID == 2) #define RTE_UART5_RX 1 #define RTE_UART5_RX_PORT GPIOB #define RTE_UART5_RX_BIT 5 #elif (RTE_UART5_RX_ID == 3) #define RTE_UART5_RX 1 #define RTE_UART5_RX_PORT GPIOB #define RTE_UART5_RX_BIT 8 #elif (RTE_UART5_RX_ID == 4) #define RTE_UART5_RX 1 #define RTE_UART5_RX_PORT GPIOB #define RTE_UART5_RX_BIT 12 #else #error "Invalid UART5_RX Pin Configuration!" #endif // UART5_CTS Pin <0=>Not Used <1=>PC9 #define RTE_UART5_CTS_ID 0 #if (RTE_UART5_CTS_ID == 0) #define RTE_UART5_CTS 0 #elif (RTE_UART5_CTS_ID == 1) #define RTE_UART5_CTS 1 #define RTE_UART5_CTS_PORT GPIOC #define RTE_UART5_CTS_BIT 9 #else #error "Invalid UART5_CTS Pin Configuration!" #endif // UART5_RTS Pin <0=>Not Used <1=>PC8 #define RTE_UART5_RTS_ID 0 #if (RTE_UART5_RTS_ID == 0) #define RTE_UART5_RTS 0 #elif (RTE_UART5_RTS_ID == 1) #define RTE_UART5_RTS 1 #define RTE_UART5_RTS_PORT GPIOC #define RTE_UART5_RTS_BIT 8 #else #error "Invalid UART5_RTS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <0=>0 // Selects DMA Stream (only Stream 0 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_UART5_RX_DMA 0 #define RTE_UART5_RX_DMA_NUMBER 1 #define RTE_UART5_RX_DMA_STREAM 0 #define RTE_UART5_RX_DMA_CHANNEL 4 #define RTE_UART5_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <7=>7 // Selects DMA Stream (only Stream 7 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_UART5_TX_DMA 0 #define RTE_UART5_TX_DMA_NUMBER 1 #define RTE_UART5_TX_DMA_STREAM 7 #define RTE_UART5_TX_DMA_CHANNEL 4 #define RTE_UART5_TX_DMA_PRIORITY 0 // // USART6 (Universal synchronous asynchronous receiver transmitter) [Driver_USART6] // Configuration settings for Driver_USART6 in component ::CMSIS Driver:USART #define RTE_USART6 0 // USART6_TX Pin <0=>Not Used <1=>PC6 <2=>PG14 #define RTE_USART6_TX_ID 0 #if (RTE_USART6_TX_ID == 0) #define RTE_USART6_TX 0 #elif (RTE_USART6_TX_ID == 1) #define RTE_USART6_TX 1 #define RTE_USART6_TX_PORT GPIOC #define RTE_USART6_TX_BIT 6 #elif (RTE_USART6_TX_ID == 2) #define RTE_USART6_TX 1 #define RTE_USART6_TX_PORT GPIOG #define RTE_USART6_TX_BIT 14 #else #error "Invalid USART6_TX Pin Configuration!" #endif // USART6_RX Pin <0=>Not Used <1=>PC7 <2=>PG9 #define RTE_USART6_RX_ID 0 #if (RTE_USART6_RX_ID == 0) #define RTE_USART6_RX 0 #elif (RTE_USART6_RX_ID == 1) #define RTE_USART6_RX 1 #define RTE_USART6_RX_PORT GPIOC #define RTE_USART6_RX_BIT 7 #elif (RTE_USART6_RX_ID == 2) #define RTE_USART6_RX 1 #define RTE_USART6_RX_PORT GPIOG #define RTE_USART6_RX_BIT 9 #else #error "Invalid USART6_RX Pin Configuration!" #endif // USART6_CK Pin <0=>Not Used <1=>PC8 <2=>PG7 #define RTE_USART6_CK_ID 0 #if (RTE_USART6_CK_ID == 0) #define RTE_USART6_CK 0 #elif (RTE_USART6_CK_ID == 1) #define RTE_USART6_CK 1 #define RTE_USART6_CK_PORT GPIOC #define RTE_USART6_CK_BIT 8 #elif (RTE_USART6_CK_ID == 2) #define RTE_USART6_CK 1 #define RTE_USART6_CK_PORT GPIOG #define RTE_USART6_CK_BIT 7 #else #error "Invalid USART6_CK Pin Configuration!" #endif // USART6_CTS Pin <0=>Not Used <1=>PG13 <2=>PG15 #define RTE_USART6_CTS_ID 0 #if (RTE_USART6_CTS_ID == 0) #define RTE_USART6_CTS 0 #elif (RTE_USART6_CTS_ID == 1) #define RTE_USART6_CTS 1 #define RTE_USART6_CTS_PORT GPIOG #define RTE_USART6_CTS_BIT 13 #elif (RTE_USART6_CTS_ID == 2) #define RTE_USART6_CTS 1 #define RTE_USART6_CTS_PORT GPIOG #define RTE_USART6_CTS_BIT 15 #else #error "Invalid USART6_CTS Pin Configuration!" #endif // USART6_RTS Pin <0=>Not Used <1=>PG8 <2=>PG12 #define RTE_USART6_RTS_ID 0 #if (RTE_USART6_RTS_ID == 0) #define RTE_USART6_RTS 0 #elif (RTE_USART6_RTS_ID == 1) #define RTE_USART6_RTS 1 #define RTE_USART6_RTS_PORT GPIOG #define RTE_USART6_RTS_BIT 8 #elif (RTE_USART6_RTS_ID == 2) #define RTE_USART6_RTS 1 #define RTE_USART6_RTS_PORT GPIOG #define RTE_USART6_RTS_BIT 12 #else #error "Invalid USART6_RTS Pin Configuration!" #endif // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <1=>1 <2=>2 // Selects DMA Stream (only Stream 1 or 2 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_USART6_RX_DMA 0 #define RTE_USART6_RX_DMA_NUMBER 2 #define RTE_USART6_RX_DMA_STREAM 1 #define RTE_USART6_RX_DMA_CHANNEL 5 #define RTE_USART6_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <6=>6 <7=>7 // Selects DMA Stream (only Stream 6 or 7 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_USART6_TX_DMA 0 #define RTE_USART6_TX_DMA_NUMBER 2 #define RTE_USART6_TX_DMA_STREAM 6 #define RTE_USART6_TX_DMA_CHANNEL 5 #define RTE_USART6_TX_DMA_PRIORITY 0 // // UART7 (Universal asynchronous receiver transmitter) [Driver_USART7] // Configuration settings for Driver_USART7 in component ::CMSIS Driver:USART #define RTE_UART7 0 // UART7_TX Pin <0=>Not Used <1=>PF7 <2=>PE8 <3=>PA15 <4=>PB4 #define RTE_UART7_TX_ID 0 #if (RTE_UART7_TX_ID == 0) #define RTE_UART7_TX 0 #elif (RTE_UART7_TX_ID == 1) #define RTE_UART7_TX 1 #define RTE_UART7_TX_PORT GPIOF #define RTE_UART7_TX_BIT 7 #elif (RTE_UART7_TX_ID == 2) #define RTE_UART7_TX 1 #define RTE_UART7_TX_PORT GPIOE #define RTE_UART7_TX_BIT 8 #elif (RTE_UART7_TX_ID == 3) #define RTE_UART7_TX 1 #define RTE_UART7_TX_PORT GPIOA #define RTE_UART7_TX_BIT 15 #elif (RTE_UART7_TX_ID == 4) #define RTE_UART7_TX 1 #define RTE_UART7_TX_PORT GPIOB #define RTE_UART7_TX_BIT 4 #else #error "Invalid UART7_TX Pin Configuration!" #endif // UART7_RX Pin <0=>Not Used <1=>PF6 <2=>PE7 <3=>PA8 <4=>PB3 #define RTE_UART7_RX_ID 0 #if (RTE_UART7_RX_ID == 0) #define RTE_UART7_RX 0 #elif (RTE_UART7_RX_ID == 1) #define RTE_UART7_RX 1 #define RTE_UART7_RX_PORT GPIOF #define RTE_UART7_RX_BIT 6 #elif (RTE_UART7_RX_ID == 2) #define RTE_UART7_RX 1 #define RTE_UART7_RX_PORT GPIOE #define RTE_UART7_RX_BIT 7 #elif (RTE_UART7_RX_ID == 3) #define RTE_UART7_RX 1 #define RTE_UART7_RX_PORT GPIOA #define RTE_UART7_RX_BIT 8 #elif (RTE_UART7_RX_ID == 4) #define RTE_UART7_RX 1 #define RTE_UART7_RX_PORT GPIOB #define RTE_UART7_RX_BIT 3 #else #error "Invalid UART7_RX Pin Configuration!" #endif // UART7_CTS Pin <0=>Not Used <1=>PF9 <2=>PE10 #define RTE_UART7_CTS_ID 0 #if (RTE_UART7_CTS_ID == 0) #define RTE_UART7_CTS 0 #elif (RTE_UART7_CTS_ID == 1) #define RTE_UART7_CTS 1 #define RTE_UART7_CTS_PORT GPIOF #define RTE_UART7_CTS_BIT 9 #elif (RTE_UART7_CTS_ID == 2) #define RTE_UART7_CTS 1 #define RTE_UART7_CTS_PORT GPIOE #define RTE_UART7_CTS_BIT 10 #else #error "Invalid UART7_CTS Pin Configuration!" #endif // UART7_RTS Pin <0=>Not Used <1=>PF8 <2=>PE9 #define RTE_UART7_RTS_ID 0 #if (RTE_UART7_RTS_ID == 0) #define RTE_UART7_RTS 0 #elif (RTE_UART7_RTS_ID == 1) #define RTE_UART7_RTS 1 #define RTE_UART7_RTS_PORT GPIOF #define RTE_UART7_RTS_BIT 8 #elif (RTE_UART7_RTS_ID == 2) #define RTE_UART7_RTS 1 #define RTE_UART7_RTS_PORT GPIOE #define RTE_UART7_RTS_BIT 9 #else #error "Invalid UART7_RTS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <3=>3 // Selects DMA Stream (only Stream 3 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_UART7_RX_DMA 0 #define RTE_UART7_RX_DMA_NUMBER 1 #define RTE_UART7_RX_DMA_STREAM 3 #define RTE_UART7_RX_DMA_CHANNEL 5 #define RTE_UART7_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <1=>1 // Selects DMA Stream (only Stream 1 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_UART7_TX_DMA 0 #define RTE_UART7_TX_DMA_NUMBER 1 #define RTE_UART7_TX_DMA_STREAM 1 #define RTE_UART7_TX_DMA_CHANNEL 5 #define RTE_UART7_TX_DMA_PRIORITY 0 // // UART8 (Universal asynchronous receiver transmitter) [Driver_USART8] // Configuration settings for Driver_USART8 in component ::CMSIS Driver:USART #define RTE_UART8 0 // UART8_TX Pin <0=>Not Used <1=>PE1 #define RTE_UART8_TX_ID 0 #if (RTE_UART8_TX_ID == 0) #define RTE_UART8_TX 0 #elif (RTE_UART8_TX_ID == 1) #define RTE_UART8_TX 1 #define RTE_UART8_TX_PORT GPIOE #define RTE_UART8_TX_BIT 1 #else #error "Invalid UART8_TX Pin Configuration!" #endif // UART8_RX Pin <0=>Not Used <1=>PE0 #define RTE_UART8_RX_ID 0 #if (RTE_UART8_RX_ID == 0) #define RTE_UART8_RX 0 #elif (RTE_UART8_RX_ID == 1) #define RTE_UART8_RX 1 #define RTE_UART8_RX_PORT GPIOE #define RTE_UART8_RX_BIT 0 #else #error "Invalid UART8_RX Pin Configuration!" #endif // UART8_CTS Pin <0=>Not Used <1=>PD14 #define RTE_UART8_CTS_ID 0 #if (RTE_UART8_CTS_ID == 0) #define RTE_UART8_CTS 0 #elif (RTE_UART8_CTS_ID == 1) #define RTE_UART8_CTS 1 #define RTE_UART8_CTS_PORT GPIOD #define RTE_UART8_CTS_BIT 14 #else #error "Invalid UART8_CTS Pin Configuration!" #endif // UART8_RTS Pin <0=>Not Used <1=>PD15 #define RTE_UART8_RTS_ID 0 #if (RTE_UART8_RTS_ID == 0) #define RTE_UART8_RTS 0 #elif (RTE_UART8_RTS_ID == 1) #define RTE_UART8_RTS 1 #define RTE_UART8_RTS_PORT GPIOD #define RTE_UART8_RTS_BIT 15 #else #error "Invalid UART8_RTS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <6=>6 // Selects DMA Stream (only Stream 6 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_UART8_RX_DMA 0 #define RTE_UART8_RX_DMA_NUMBER 1 #define RTE_UART8_RX_DMA_STREAM 6 #define RTE_UART8_RX_DMA_CHANNEL 5 #define RTE_UART8_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <0=>0 // Selects DMA Stream (only Stream 0 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_UART8_TX_DMA 0 #define RTE_UART8_TX_DMA_NUMBER 1 #define RTE_UART8_TX_DMA_STREAM 0 #define RTE_UART8_TX_DMA_CHANNEL 5 #define RTE_UART8_TX_DMA_PRIORITY 0 // // I2C1 (Inter-integrated Circuit Interface 1) [Driver_I2C1] // Configuration settings for Driver_I2C1 in component ::CMSIS Driver:I2C #define RTE_I2C1 0 // I2C1_SCL Pin <0=>PB6 <1=>PB8 #define RTE_I2C1_SCL_PORT_ID 0 #if (RTE_I2C1_SCL_PORT_ID == 0) #define RTE_I2C1_SCL_PORT GPIOB #define RTE_I2C1_SCL_BIT 6 #elif (RTE_I2C1_SCL_PORT_ID == 1) #define RTE_I2C1_SCL_PORT GPIOB #define RTE_I2C1_SCL_BIT 8 #else #error "Invalid I2C1_SCL Pin Configuration!" #endif // I2C1_SDA Pin <0=>PB7 <1=>PB9 #define RTE_I2C1_SDA_PORT_ID 0 #if (RTE_I2C1_SDA_PORT_ID == 0) #define RTE_I2C1_SDA_PORT GPIOB #define RTE_I2C1_SDA_BIT 7 #elif (RTE_I2C1_SDA_PORT_ID == 1) #define RTE_I2C1_SDA_PORT GPIOB #define RTE_I2C1_SDA_BIT 9 #else #error "Invalid I2C1_SDA Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <0=>0 <5=>5 // Selects DMA Stream (only Stream 0 or 5 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_I2C1_RX_DMA 0 #define RTE_I2C1_RX_DMA_NUMBER 1 #define RTE_I2C1_RX_DMA_STREAM 0 #define RTE_I2C1_RX_DMA_CHANNEL 1 #define RTE_I2C1_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <6=>6 <7=>7 // Selects DMA Stream (only Stream 6 or 7 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_I2C1_TX_DMA 0 #define RTE_I2C1_TX_DMA_NUMBER 1 #define RTE_I2C1_TX_DMA_STREAM 6 #define RTE_I2C1_TX_DMA_CHANNEL 1 #define RTE_I2C1_TX_DMA_PRIORITY 0 // // I2C2 (Inter-integrated Circuit Interface 2) [Driver_I2C2] // Configuration settings for Driver_I2C2 in component ::CMSIS Driver:I2C #define RTE_I2C2 0 // I2C2_SCL Pin <0=>PF1 <1=>PH4 <2=>PB10 #define RTE_I2C2_SCL_PORT_ID 0 #if (RTE_I2C2_SCL_PORT_ID == 0) #define RTE_I2C2_SCL_PORT GPIOF #define RTE_I2C2_SCL_BIT 1 #elif (RTE_I2C2_SCL_PORT_ID == 1) #define RTE_I2C2_SCL_PORT GPIOH #define RTE_I2C2_SCL_BIT 4 #elif (RTE_I2C2_SCL_PORT_ID == 2) #define RTE_I2C2_SCL_PORT GPIOB #define RTE_I2C2_SCL_BIT 10 #else #error "Invalid I2C2_SCL Pin Configuration!" #endif // I2C2_SDA Pin <0=>PF0 <1=>PH5 <2=>PB11 #define RTE_I2C2_SDA_PORT_ID 0 #if (RTE_I2C2_SDA_PORT_ID == 0) #define RTE_I2C2_SDA_PORT GPIOF #define RTE_I2C2_SDA_BIT 0 #elif (RTE_I2C2_SDA_PORT_ID == 1) #define RTE_I2C2_SDA_PORT GPIOH #define RTE_I2C2_SDA_BIT 5 #elif (RTE_I2C2_SDA_PORT_ID == 2) #define RTE_I2C2_SDA_PORT GPIOB #define RTE_I2C2_SDA_BIT 11 #else #error "Invalid I2C2_SDA Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <2=>2 <3=>3 // Selects DMA Stream (only Stream 2 or 3 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_I2C2_RX_DMA 0 #define RTE_I2C2_RX_DMA_NUMBER 1 #define RTE_I2C2_RX_DMA_STREAM 2 #define RTE_I2C2_RX_DMA_CHANNEL 7 #define RTE_I2C2_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <7=>7 // Selects DMA Stream (only Stream 7 can be used) // Channel <7=>7 // Selects DMA Channel (only Channel 1 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_I2C2_TX_DMA 0 #define RTE_I2C2_TX_DMA_NUMBER 1 #define RTE_I2C2_TX_DMA_STREAM 7 #define RTE_I2C2_TX_DMA_CHANNEL 7 #define RTE_I2C2_TX_DMA_PRIORITY 0 // // I2C3 (Inter-integrated Circuit Interface 3) [Driver_I2C3] // Configuration settings for Driver_I2C3 in component ::CMSIS Driver:I2C #define RTE_I2C3 1 // I2C3_SCL Pin <0=>PH7 <1=>PA8 #define RTE_I2C3_SCL_PORT_ID 0 #if (RTE_I2C3_SCL_PORT_ID == 0) #define RTE_I2C3_SCL_PORT GPIOH #define RTE_I2C3_SCL_BIT 7 #elif (RTE_I2C3_SCL_PORT_ID == 1) #define RTE_I2C3_SCL_PORT GPIOA #define RTE_I2C3_SCL_BIT 8 #else #error "Invalid I2C3_SCL Pin Configuration!" #endif // I2C3_SDA Pin <0=>PH8 <1=>PC9 #define RTE_I2C3_SDA_PORT_ID 0 #if (RTE_I2C3_SDA_PORT_ID == 0) #define RTE_I2C3_SDA_PORT GPIOH #define RTE_I2C3_SDA_BIT 8 #elif (RTE_I2C3_SDA_PORT_ID == 1) #define RTE_I2C3_SDA_PORT GPIOC #define RTE_I2C3_SDA_BIT 9 #else #error "Invalid I2C3_SDA Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <1=>1 <2=>2 // Selects DMA Stream (only Stream 1 or 2 can be used) // Channel <1=>1 <3=>3 // Selects DMA Channel (only Channel 1 or 3 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_I2C3_RX_DMA 0 #define RTE_I2C3_RX_DMA_NUMBER 1 #define RTE_I2C3_RX_DMA_STREAM 2 #define RTE_I2C3_RX_DMA_CHANNEL 3 #define RTE_I2C3_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <4=>4 // Selects DMA Stream (only Stream 4 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_I2C3_TX_DMA 0 #define RTE_I2C3_TX_DMA_NUMBER 1 #define RTE_I2C3_TX_DMA_STREAM 4 #define RTE_I2C3_TX_DMA_CHANNEL 3 #define RTE_I2C3_TX_DMA_PRIORITY 0 // // I2C4 (Inter-integrated Circuit Interface 4) [Driver_I2C4] // Configuration settings for Driver_I2C4 in component ::CMSIS Driver:I2C #define RTE_I2C4 0 // I2C4_SCL Pin <0=>PD12 <1=>PF14 <2=>PH11 <3=>PB6 <4=>PB8 #define RTE_I2C4_SCL_PORT_ID 0 #if (RTE_I2C4_SCL_PORT_ID == 0) #define RTE_I2C4_SCL_PORT GPIOD #define RTE_I2C4_SCL_BIT 12 #elif (RTE_I2C4_SCL_PORT_ID == 1) #define RTE_I2C4_SCL_PORT GPIOF #define RTE_I2C4_SCL_BIT 14 #elif (RTE_I2C4_SCL_PORT_ID == 2) #define RTE_I2C4_SCL_PORT GPIOH #define RTE_I2C4_SCL_BIT 11 #elif (RTE_I2C4_SCL_PORT_ID == 3) #define RTE_I2C4_SCL_PORT GPIOB #define RTE_I2C4_SCL_BIT 6 #elif (RTE_I2C4_SCL_PORT_ID == 4) #define RTE_I2C4_SCL_PORT GPIOB #define RTE_I2C4_SCL_BIT 8 #else #error "Invalid I2C4_SCL Pin Configuration!" #endif // I2C4_SDA Pin <0=>PD13 <1=>PF15 <2=>PH12 <3=>PB7 <4=>PB9 #define RTE_I2C4_SDA_PORT_ID 0 #if (RTE_I2C4_SDA_PORT_ID == 0) #define RTE_I2C4_SDA_PORT GPIOD #define RTE_I2C4_SDA_BIT 13 #elif (RTE_I2C4_SDA_PORT_ID == 1) #define RTE_I2C4_SDA_PORT GPIOF #define RTE_I2C4_SDA_BIT 15 #elif (RTE_I2C4_SDA_PORT_ID == 2) #define RTE_I2C4_SDA_PORT GPIOH #define RTE_I2C4_SDA_BIT 12 #elif (RTE_I2C4_SDA_PORT_ID == 3) #define RTE_I2C4_SDA_PORT GPIOB #define RTE_I2C4_SDA_BIT 7 #elif (RTE_I2C4_SDA_PORT_ID == 4) #define RTE_I2C4_SDA_PORT GPIOB #define RTE_I2C4_SDA_BIT 9 #else #error "Invalid I2C4_SDA Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <2=>2 // Selects DMA Stream (only Stream 2 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_I2C4_RX_DMA 0 #define RTE_I2C4_RX_DMA_NUMBER 1 #define RTE_I2C4_RX_DMA_STREAM 2 #define RTE_I2C4_RX_DMA_CHANNEL 3 #define RTE_I2C4_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <5=>5 // Selects DMA Stream (only Stream 5 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_I2C4_TX_DMA 0 #define RTE_I2C4_TX_DMA_NUMBER 1 #define RTE_I2C4_TX_DMA_STREAM 4 #define RTE_I2C4_TX_DMA_CHANNEL 3 #define RTE_I2C4_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_MISO Pin <0=>Not Used <1=>PA6 <2=>PB4 <3=>PG9 #define RTE_SPI1_MISO_PORT_ID 0 #if (RTE_SPI1_MISO_PORT_ID == 0) #define RTE_SPI1_MISO 0 #elif (RTE_SPI1_MISO_PORT_ID == 1) #define RTE_SPI1_MISO 1 #define RTE_SPI1_MISO_PORT GPIOA #define RTE_SPI1_MISO_BIT 6 #elif (RTE_SPI1_MISO_PORT_ID == 2) #define RTE_SPI1_MISO 1 #define RTE_SPI1_MISO_PORT GPIOB #define RTE_SPI1_MISO_BIT 4 #elif (RTE_SPI1_MISO_PORT_ID == 3) #define RTE_SPI1_MISO 1 #define RTE_SPI1_MISO_PORT GPIOG #define RTE_SPI1_MISO_BIT 9 #else #error "Invalid SPI1_MISO Pin Configuration!" #endif // SPI1_MOSI Pin <0=>Not Used <1=>PA7 <2=>PB5 <3=>PD7 #define RTE_SPI1_MOSI_PORT_ID 0 #if (RTE_SPI1_MOSI_PORT_ID == 0) #define RTE_SPI1_MOSI 0 #elif (RTE_SPI1_MOSI_PORT_ID == 1) #define RTE_SPI1_MOSI 1 #define RTE_SPI1_MOSI_PORT GPIOA #define RTE_SPI1_MOSI_BIT 7 #elif (RTE_SPI1_MOSI_PORT_ID == 2) #define RTE_SPI1_MOSI 1 #define RTE_SPI1_MOSI_PORT GPIOB #define RTE_SPI1_MOSI_BIT 5 #elif (RTE_SPI1_MOSI_PORT_ID == 3) #define RTE_SPI1_MOSI 1 #define RTE_SPI1_MOSI_PORT GPIOD #define RTE_SPI1_MOSI_BIT 7 #else #error "Invalid SPI1_MOSI Pin Configuration!" #endif // SPI1_SCK Pin <0=>PA5 <1=>PB3 <2=>PG11 #define RTE_SPI1_SCL_PORT_ID 0 #if (RTE_SPI1_SCL_PORT_ID == 0) #define RTE_SPI1_SCL_PORT GPIOA #define RTE_SPI1_SCL_BIT 5 #elif (RTE_SPI1_SCL_PORT_ID == 1) #define RTE_SPI1_SCL_PORT GPIOB #define RTE_SPI1_SCL_BIT 3 #elif (RTE_SPI1_SCL_PORT_ID == 2) #define RTE_SPI1_SCL_PORT GPIOG #define RTE_SPI1_SCL_BIT 11 #else #error "Invalid SPI1_SCK Pin Configuration!" #endif // SPI1_NSS Pin <0=>Not Used <1=>PA4 <2=>PA15 <3=>PG10 #define RTE_SPI1_NSS_PORT_ID 0 #if (RTE_SPI1_NSS_PORT_ID == 0) #define RTE_SPI1_NSS_PIN 0 #elif (RTE_SPI1_NSS_PORT_ID == 1) #define RTE_SPI1_NSS_PIN 1 #define RTE_SPI1_NSS_PORT GPIOA #define RTE_SPI1_NSS_BIT 4 #elif (RTE_SPI1_NSS_PORT_ID == 2) #define RTE_SPI1_NSS_PIN 1 #define RTE_SPI1_NSS_PORT GPIOA #define RTE_SPI1_NSS_BIT 15 #elif (RTE_SPI1_NSS_PORT_ID == 3) #define RTE_SPI1_NSS_PIN 1 #define RTE_SPI1_NSS_PORT GPIOG #define RTE_SPI1_NSS_BIT 10 #else #error "Invalid SPI1_NSS Pin Configuration!" #endif // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <0=>0 <2=>2 // Selects DMA Stream (only Stream 0 or 2 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_RX_DMA 0 #define RTE_SPI1_RX_DMA_NUMBER 2 #define RTE_SPI1_RX_DMA_STREAM 0 #define RTE_SPI1_RX_DMA_CHANNEL 3 #define RTE_SPI1_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <3=>3 <5=>5 // Selects DMA Stream (only Stream 3 or 5 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 2 #define RTE_SPI1_TX_DMA_STREAM 5 #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_MISO Pin <0=>Not Used <1=>PB14 <2=>PC2 <3=>PI2 #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 #elif (RTE_SPI2_MISO_PORT_ID == 2) #define RTE_SPI2_MISO 1 #define RTE_SPI2_MISO_PORT GPIOC #define RTE_SPI2_MISO_BIT 2 #elif (RTE_SPI2_MISO_PORT_ID == 3) #define RTE_SPI2_MISO 1 #define RTE_SPI2_MISO_PORT GPIOI #define RTE_SPI2_MISO_BIT 2 #else #error "Invalid SPI2_MISO Pin Configuration!" #endif // SPI2_MOSI Pin <0=>Not Used <1=>PB15 <2=>PC1 <3=>PC3 <4=>PI3 #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 #elif (RTE_SPI2_MOSI_PORT_ID == 2) #define RTE_SPI2_MOSI 1 #define RTE_SPI2_MOSI_PORT GPIOC #define RTE_SPI2_MOSI_BIT 1 #elif (RTE_SPI2_MOSI_PORT_ID == 3) #define RTE_SPI2_MOSI 1 #define RTE_SPI2_MOSI_PORT GPIOC #define RTE_SPI2_MOSI_BIT 3 #elif (RTE_SPI2_MOSI_PORT_ID == 4) #define RTE_SPI2_MOSI 1 #define RTE_SPI2_MOSI_PORT GPIOI #define RTE_SPI2_MOSI_BIT 3 #else #error "Invalid SPI2_MOSI Pin Configuration!" #endif // SPI2_SCK Pin <0=>PA9 <1=>PB10 <2=>PB13 <3=>PD3 <4=>PI1 <5=>PA12 #define RTE_SPI2_SCL_PORT_ID 0 #if (RTE_SPI2_SCL_PORT_ID == 0) #define RTE_SPI2_SCL_PORT GPIOA #define RTE_SPI2_SCL_BIT 9 #elif (RTE_SPI2_SCL_PORT_ID == 1) #define RTE_SPI2_SCL_PORT GPIOB #define RTE_SPI2_SCL_BIT 10 #elif (RTE_SPI2_SCL_PORT_ID == 2) #define RTE_SPI2_SCL_PORT GPIOB #define RTE_SPI2_SCL_BIT 13 #elif (RTE_SPI2_SCL_PORT_ID == 3) #define RTE_SPI2_SCL_PORT GPIOD #define RTE_SPI2_SCL_BIT 3 #elif (RTE_SPI2_SCL_PORT_ID == 4) #define RTE_SPI2_SCL_PORT GPIOI #define RTE_SPI2_SCL_BIT 1 #elif (RTE_SPI2_SCL_PORT_ID == 5) #define RTE_SPI2_SCL_PORT GPIOA #define RTE_SPI2_SCL_BIT 12 #else #error "Invalid SPI2_SCK Pin Configuration!" #endif // SPI2_NSS Pin <0=>Not Used <1=>PB4 <2=>PB9 <3=>PB12 <4=>PI0 <5=>PA11 #define RTE_SPI2_NSS_PORT_ID 0 #if (RTE_SPI2_NSS_PORT_ID == 0) #define RTE_SPI2_NSS_PIN 0 #elif (RTE_SPI2_NSS_PORT_ID == 1) #define RTE_SPI2_NSS_PIN 1 #define RTE_SPI2_NSS_PORT GPIOB #define RTE_SPI2_NSS_BIT 4 #elif (RTE_SPI2_NSS_PORT_ID == 2) #define RTE_SPI2_NSS_PIN 1 #define RTE_SPI2_NSS_PORT GPIOB #define RTE_SPI2_NSS_BIT 9 #elif (RTE_SPI2_NSS_PORT_ID == 3) #define RTE_SPI2_NSS_PIN 1 #define RTE_SPI2_NSS_PORT GPIOB #define RTE_SPI2_NSS_BIT 12 #elif (RTE_SPI2_NSS_PORT_ID == 4) #define RTE_SPI2_NSS_PIN 1 #define RTE_SPI2_NSS_PORT GPIOI #define RTE_SPI2_NSS_BIT 0 #elif (RTE_SPI2_NSS_PORT_ID == 5) #define RTE_SPI2_NSS_PIN 1 #define RTE_SPI2_NSS_PORT GPIOA #define RTE_SPI2_NSS_BIT 11 #else #error "Invalid SPI2_NSS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <3=>3 // Selects DMA Stream (only Stream 3 can be used) // Channel <0=>0 // Selects DMA Channel (only Channel 0 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_STREAM 3 #define RTE_SPI2_RX_DMA_CHANNEL 0 #define RTE_SPI2_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <4=>4 // Selects DMA Stream (only Stream 4 can be used) // Channel <0=>0 // Selects DMA Channel (only Channel 0 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_STREAM 4 #define RTE_SPI2_TX_DMA_CHANNEL 0 #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_MISO Pin <0=>Not Used <1=>PB4 <2=>PC11 #define RTE_SPI3_MISO_PORT_ID 0 #if (RTE_SPI3_MISO_PORT_ID == 0) #define RTE_SPI3_MISO 0 #elif (RTE_SPI3_MISO_PORT_ID == 1) #define RTE_SPI3_MISO 1 #define RTE_SPI3_MISO_PORT GPIOB #define RTE_SPI3_MISO_BIT 4 #elif (RTE_SPI3_MISO_PORT_ID == 2) #define RTE_SPI3_MISO 1 #define RTE_SPI3_MISO_PORT GPIOC #define RTE_SPI3_MISO_BIT 11 #else #error "Invalid SPI3_MISO Pin Configuration!" #endif // SPI3_MOSI Pin <0=>Not Used <1=>PB2 <2=>PB5 <3=>PC12 <4=>PD6 #define RTE_SPI3_MOSI_PORT_ID 0 #if (RTE_SPI3_MOSI_PORT_ID == 0) #define RTE_SPI3_MOSI 0 #elif (RTE_SPI3_MOSI_PORT_ID == 1) #define RTE_SPI3_MOSI 1 #define RTE_SPI3_MOSI_PORT GPIOB #define RTE_SPI3_MOSI_BIT 2 #elif (RTE_SPI3_MOSI_PORT_ID == 2) #define RTE_SPI3_MOSI 1 #define RTE_SPI3_MOSI_PORT GPIOB #define RTE_SPI3_MOSI_BIT 5 #elif (RTE_SPI3_MOSI_PORT_ID == 3) #define RTE_SPI3_MOSI 1 #define RTE_SPI3_MOSI_PORT GPIOC #define RTE_SPI3_MOSI_BIT 12 #elif (RTE_SPI3_MOSI_PORT_ID == 4) #define RTE_SPI3_MOSI 1 #define RTE_SPI3_MOSI_PORT GPIOD #define RTE_SPI3_MOSI_BIT 6 #else #error "Invalid SPI3_MOSI Pin Configuration!" #endif // SPI3_SCK Pin <0=>PB3 <1=>PC10 #define RTE_SPI3_SCL_PORT_ID 0 #if (RTE_SPI3_SCL_PORT_ID == 0) #define RTE_SPI3_SCL_PORT GPIOB #define RTE_SPI3_SCL_BIT 3 #elif (RTE_SPI3_SCL_PORT_ID == 1) #define RTE_SPI3_SCL_PORT GPIOC #define RTE_SPI3_SCL_BIT 10 #else #error "Invalid SPI3_SCK Pin Configuration!" #endif // SPI3_NSS Pin <0=>Not Used <1=>PA4 <2=>PA15 #define RTE_SPI3_NSS_PORT_ID 0 #if (RTE_SPI3_NSS_PORT_ID == 0) #define RTE_SPI3_NSS_PIN 0 #elif (RTE_SPI3_NSS_PORT_ID == 1) #define RTE_SPI3_NSS_PIN 1 #define RTE_SPI3_NSS_PORT GPIOA #define RTE_SPI3_NSS_BIT 4 #elif (RTE_SPI3_NSS_PORT_ID == 2) #define RTE_SPI3_NSS_PIN 1 #define RTE_SPI3_NSS_PORT GPIOA #define RTE_SPI3_NSS_BIT 15 #else #error "Invalid SPI3_NSS Pin Configuration!" #endif // DMA Rx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <0=>0 <2=>2 // Selects DMA Stream (only Stream 0 or 2 can be used) // Channel <0=>0 // Selects DMA Channel (only Channel 0 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 1 #define RTE_SPI3_RX_DMA_STREAM 0 #define RTE_SPI3_RX_DMA_CHANNEL 0 #define RTE_SPI3_RX_DMA_PRIORITY 0 // DMA Tx // Number <1=>1 // Selects DMA Number (only DMA1 can be used) // Stream <5=>5 <7=>7 // Selects DMA Stream (only Stream 5 or 7 can be used) // Channel <0=>0 // Selects DMA Channel (only Channel 0 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 1 #define RTE_SPI3_TX_DMA_STREAM 5 #define RTE_SPI3_TX_DMA_CHANNEL 0 #define RTE_SPI3_TX_DMA_PRIORITY 0 // // SPI4 (Serial Peripheral Interface 4) [Driver_SPI4] // Configuration settings for Driver_SPI4 in component ::CMSIS Driver:SPI #define RTE_SPI4 0 // SPI4_MISO Pin <0=>Not Used <1=>PE5 <2=>PE13 #define RTE_SPI4_MISO_PORT_ID 0 #if (RTE_SPI4_MISO_PORT_ID == 0) #define RTE_SPI4_MISO 0 #elif (RTE_SPI4_MISO_PORT_ID == 1) #define RTE_SPI4_MISO 1 #define RTE_SPI4_MISO_PORT GPIOE #define RTE_SPI4_MISO_BIT 5 #elif (RTE_SPI4_MISO_PORT_ID == 2) #define RTE_SPI4_MISO 1 #define RTE_SPI4_MISO_PORT GPIOE #define RTE_SPI4_MISO_BIT 13 #else #error "Invalid SPI4_MISO Pin Configuration!" #endif // SPI4_MOSI Pin <0=>Not Used <1=>PE6 <2=>PE14 #define RTE_SPI4_MOSI_PORT_ID 0 #if (RTE_SPI4_MOSI_PORT_ID == 0) #define RTE_SPI4_MOSI 0 #elif (RTE_SPI4_MOSI_PORT_ID == 1) #define RTE_SPI4_MOSI 1 #define RTE_SPI4_MOSI_PORT GPIOE #define RTE_SPI4_MOSI_BIT 6 #elif (RTE_SPI4_MOSI_PORT_ID == 2) #define RTE_SPI4_MOSI 1 #define RTE_SPI4_MOSI_PORT GPIOE #define RTE_SPI4_MOSI_BIT 14 #else #error "Invalid SPI4_MOSI Pin Configuration!" #endif // SPI4_SCK Pin <0=>PE2 <1=>PE12 #define RTE_SPI4_SCL_PORT_ID 0 #if (RTE_SPI4_SCL_PORT_ID == 0) #define RTE_SPI4_SCL_PORT GPIOE #define RTE_SPI4_SCL_BIT 2 #elif (RTE_SPI4_SCL_PORT_ID == 1) #define RTE_SPI4_SCL_PORT GPIOE #define RTE_SPI4_SCL_BIT 12 #else #error "Invalid SPI4_SCK Pin Configuration!" #endif // SPI4_NSS Pin <0=>Not Used <1=>PE4 <2=>PE11 #define RTE_SPI4_NSS_PORT_ID 0 #if (RTE_SPI4_NSS_PORT_ID == 0) #define RTE_SPI4_NSS_PIN 0 #elif (RTE_SPI4_NSS_PORT_ID == 1) #define RTE_SPI4_NSS_PIN 1 #define RTE_SPI4_NSS_PORT GPIOE #define RTE_SPI4_NSS_BIT 4 #elif (RTE_SPI4_NSS_PORT_ID == 2) #define RTE_SPI4_NSS_PIN 1 #define RTE_SPI4_NSS_PORT GPIOE #define RTE_SPI4_NSS_BIT 11 #else #error "Invalid SPI4_NSS Pin Configuration!" #endif // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <0=>0 <3=>3 // Selects DMA Stream (only Stream 0 or 3 can be used) // Channel <4=>4 <5=>5 // Selects DMA Channel (only Channel 4 or 5 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SPI4_RX_DMA 0 #define RTE_SPI4_RX_DMA_NUMBER 2 #define RTE_SPI4_RX_DMA_STREAM 0 #define RTE_SPI4_RX_DMA_CHANNEL 4 #define RTE_SPI4_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <1=>1 <4=>4 // Selects DMA Stream (only Stream 1 or 4 can be used) // Channel <4=>4 <5=>5 // Selects DMA Channel (only Channel 4 or 5 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SPI4_TX_DMA 0 #define RTE_SPI4_TX_DMA_NUMBER 2 #define RTE_SPI4_TX_DMA_STREAM 1 #define RTE_SPI4_TX_DMA_CHANNEL 4 #define RTE_SPI4_TX_DMA_PRIORITY 0 // // SPI5 (Serial Peripheral Interface 5) [Driver_SPI5] // Configuration settings for Driver_SPI5 in component ::CMSIS Driver:SPI #define RTE_SPI5 0 // SPI5_MISO Pin <0=>Not Used <1=>PF8 <2=>PH7 #define RTE_SPI5_MISO_PORT_ID 0 #if (RTE_SPI5_MISO_PORT_ID == 0) #define RTE_SPI5_MISO 0 #elif (RTE_SPI5_MISO_PORT_ID == 1) #define RTE_SPI5_MISO 1 #define RTE_SPI5_MISO_PORT GPIOF #define RTE_SPI5_MISO_BIT 8 #elif (RTE_SPI5_MISO_PORT_ID == 2) #define RTE_SPI5_MISO 1 #define RTE_SPI5_MISO_PORT GPIOH #define RTE_SPI5_MISO_BIT 7 #else #error "Invalid SPI5_MISO Pin Configuration!" #endif // SPI5_MOSI Pin <0=>Not Used <1=>PF9 <2=>PF11 #define RTE_SPI5_MOSI_PORT_ID 0 #if (RTE_SPI5_MOSI_PORT_ID == 0) #define RTE_SPI5_MOSI 0 #elif (RTE_SPI5_MOSI_PORT_ID == 1) #define RTE_SPI5_MOSI 1 #define RTE_SPI5_MOSI_PORT GPIOF #define RTE_SPI5_MOSI_BIT 9 #elif (RTE_SPI5_MOSI_PORT_ID == 2) #define RTE_SPI5_MOSI 1 #define RTE_SPI5_MOSI_PORT GPIOF #define RTE_SPI5_MOSI_BIT 11 #else #error "Invalid SPI5_MOSI Pin Configuration!" #endif // SPI5_SCK Pin <0=>PF7 <1=>PH6 #define RTE_SPI5_SCL_PORT_ID 0 #if (RTE_SPI5_SCL_PORT_ID == 0) #define RTE_SPI5_SCL_PORT GPIOF #define RTE_SPI5_SCL_BIT 7 #elif (RTE_SPI5_SCL_PORT_ID == 1) #define RTE_SPI5_SCL_PORT GPIOH #define RTE_SPI5_SCL_BIT 6 #else #error "Invalid SPI5_SCK Pin Configuration!" #endif // SPI5_NSS Pin <0=>Not Used <1=>PF6 <2=>PH5 #define RTE_SPI5_NSS_PORT_ID 0 #if (RTE_SPI5_NSS_PORT_ID == 0) #define RTE_SPI5_NSS_PIN 0 #elif (RTE_SPI5_NSS_PORT_ID == 1) #define RTE_SPI5_NSS_PIN 1 #define RTE_SPI5_NSS_PORT GPIOF #define RTE_SPI5_NSS_BIT 6 #elif (RTE_SPI5_NSS_PORT_ID == 2) #define RTE_SPI5_NSS_PIN 1 #define RTE_SPI5_NSS_PORT GPIOH #define RTE_SPI5_NSS_BIT 5 #else #error "Invalid SPI5_NSS Pin Configuration!" #endif // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <3=>3 <5=>5 // Selects DMA Stream (only Stream 3 or 5 can be used) // Channel <2=>2 <7=>7 // Selects DMA Channel (only Channel 2 or 7 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SPI5_RX_DMA 0 #define RTE_SPI5_RX_DMA_NUMBER 2 #define RTE_SPI5_RX_DMA_STREAM 3 #define RTE_SPI5_RX_DMA_CHANNEL 2 #define RTE_SPI5_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <4=>4 <6=>6 // Selects DMA Stream (only Stream 4 or 6 can be used) // Channel <2=>2 <7=>7 // Selects DMA Channel (only Channel 2 or 7 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SPI5_TX_DMA 0 #define RTE_SPI5_TX_DMA_NUMBER 2 #define RTE_SPI5_TX_DMA_STREAM 4 #define RTE_SPI5_TX_DMA_CHANNEL 2 #define RTE_SPI5_TX_DMA_PRIORITY 0 // // SPI6 (Serial Peripheral Interface 6) [Driver_SPI6] // Configuration settings for Driver_SPI6 in component ::CMSIS Driver:SPI #define RTE_SPI6 0 // SPI6_MISO Pin <0=>Not Used <1=>PG12 <2=>PA6 <3=>PB4 #define RTE_SPI6_MISO_PORT_ID 0 #if (RTE_SPI6_MISO_PORT_ID == 0) #define RTE_SPI6_MISO 0 #elif (RTE_SPI6_MISO_PORT_ID == 1) #define RTE_SPI6_MISO 1 #define RTE_SPI6_MISO_PORT GPIOG #define RTE_SPI6_MISO_BIT 12 #elif (RTE_SPI6_MISO_PORT_ID == 2) #define RTE_SPI6_MISO 1 #define RTE_SPI6_MISO_PORT GPIOA #define RTE_SPI6_MISO_BIT 6 #elif (RTE_SPI6_MISO_PORT_ID == 3) #define RTE_SPI6_MISO 1 #define RTE_SPI6_MISO_PORT GPIOB #define RTE_SPI6_MISO_BIT 4 #else #error "Invalid SPI6_MISO Pin Configuration!" #endif // SPI6_MOSI Pin <0=>Not Used <1=>PG14 <2=>PA7 <3=>PB5 #define RTE_SPI6_MOSI_PORT_ID 0 #if (RTE_SPI6_MOSI_PORT_ID == 0) #define RTE_SPI6_MOSI 0 #elif (RTE_SPI6_MOSI_PORT_ID == 1) #define RTE_SPI6_MOSI 1 #define RTE_SPI6_MOSI_PORT GPIOG #define RTE_SPI6_MOSI_BIT 14 #elif (RTE_SPI6_MOSI_PORT_ID == 2) #define RTE_SPI6_MOSI 1 #define RTE_SPI6_MOSI_PORT GPIOA #define RTE_SPI6_MOSI_BIT 7 #elif (RTE_SPI6_MOSI_PORT_ID == 3) #define RTE_SPI6_MOSI 1 #define RTE_SPI6_MOSI_PORT GPIOB #define RTE_SPI6_MOSI_BIT 5 #else #error "Invalid SPI6_MOSI Pin Configuration!" #endif // SPI6_SCK Pin <0=>PG13 <1=>PA5 <2=>PB3 #define RTE_SPI6_SCL_PORT_ID 0 #if (RTE_SPI6_SCL_PORT_ID == 0) #define RTE_SPI6_SCL_PORT GPIOG #define RTE_SPI6_SCL_BIT 13 #elif (RTE_SPI6_SCL_PORT_ID == 1) #define RTE_SPI6_SCL_PORT GPIOA #define RTE_SPI6_SCL_BIT 5 #elif (RTE_SPI6_SCL_PORT_ID == 2) #define RTE_SPI6_SCL_PORT GPIOB #define RTE_SPI6_SCL_BIT 3 #else #error "Invalid SPI6_SCK Pin Configuration!" #endif // SPI6_NSS Pin <0=>Not Used <1=>PG8 <2=>PA4 <3=>PA15 #define RTE_SPI6_NSS_PORT_ID 0 #if (RTE_SPI6_NSS_PORT_ID == 0) #define RTE_SPI6_NSS_PIN 0 #elif (RTE_SPI6_NSS_PORT_ID == 1) #define RTE_SPI6_NSS_PIN 1 #define RTE_SPI6_NSS_PORT GPIOG #define RTE_SPI6_NSS_BIT 8 #elif (RTE_SPI6_NSS_PORT_ID == 2) #define RTE_SPI6_NSS_PIN 1 #define RTE_SPI6_NSS_PORT GPIOA #define RTE_SPI6_NSS_BIT 4 #elif (RTE_SPI6_NSS_PORT_ID == 3) #define RTE_SPI6_NSS_PIN 1 #define RTE_SPI6_NSS_PORT GPIOA #define RTE_SPI6_NSS_BIT 15 #else #error "Invalid SPI6_NSS Pin Configuration!" #endif // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <6=>6 // Selects DMA Stream (only Stream 6 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_SPI6_RX_DMA 0 #define RTE_SPI6_RX_DMA_NUMBER 2 #define RTE_SPI6_RX_DMA_STREAM 6 #define RTE_SPI6_RX_DMA_CHANNEL 1 #define RTE_SPI6_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <5=>5 // Selects DMA Stream (only Stream 5 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_SPI6_TX_DMA 0 #define RTE_SPI6_TX_DMA_NUMBER 2 #define RTE_SPI6_TX_DMA_STREAM 5 #define RTE_SPI6_TX_DMA_CHANNEL 1 #define RTE_SPI6_TX_DMA_PRIORITY 0 // // SAI1 (Serial Audio Interface 1) [Driver_SAI1] // Configuration settings for Driver_SAI1 in component ::CMSIS Driver:SAI #define RTE_SAI1 0 // SAI1_SD_A Pin <0=>Not Used <1=>PB2 <2=>PC1 <3=>PD6 <4=>PE6 #define RTE_SAI1_SD_A_PORT_ID 0 #if (RTE_SAI1_SD_A_PORT_ID == 0) #define RTE_SAI1_SD_A_PIN 0 #elif (RTE_SAI1_SD_A_PORT_ID == 1) #define RTE_SAI1_SD_A_PIN 1 #define RTE_SAI1_SD_A_PORT GPIOB #define RTE_SAI1_SD_A_BIT 2 #elif (RTE_SAI1_SD_A_PORT_ID == 2) #define RTE_SAI1_SD_A_PIN 1 #define RTE_SAI1_SD_A_PORT GPIOC #define RTE_SAI1_SD_A_BIT 1 #elif (RTE_SAI1_SD_A_PORT_ID == 3) #define RTE_SAI1_SD_A_PIN 1 #define RTE_SAI1_SD_A_PORT GPIOD #define RTE_SAI1_SD_A_BIT 6 #elif (RTE_SAI1_SD_A_PORT_ID == 4) #define RTE_SAI1_SD_A_PIN 1 #define RTE_SAI1_SD_A_PORT GPIOE #define RTE_SAI1_SD_A_BIT 6 #else #error "Invalid SAI1_SD_A Pin Configuration!" #endif // SAI1_FS_A Pin <0=>Not Used <1=>PE4 #define RTE_SAI1_FS_A_PORT_ID 0 #if (RTE_SAI1_FS_A_PORT_ID == 0) #define RTE_SAI1_FS_A_PIN 0 #elif (RTE_SAI1_FS_A_PORT_ID == 1) #define RTE_SAI1_FS_A_PIN 1 #define RTE_SAI1_FS_A_PORT GPIOE #define RTE_SAI1_FS_A_BIT 4 #else #error "Invalid SAI1_FS_A Pin Configuration!" #endif // SAI1_SCK_A Pin <0=>Not Used <1=>PE5 #define RTE_SAI1_SCK_A_PORT_ID 0 #if (RTE_SAI1_SCK_A_PORT_ID == 0) #define RTE_SAI1_SCK_A_PIN 0 #elif (RTE_SAI1_SCK_A_PORT_ID == 1) #define RTE_SAI1_SCK_A_PIN 1 #define RTE_SAI1_SCK_A_PORT GPIOE #define RTE_SAI1_SCK_A_BIT 5 #else #error "Invalid SAI1_SCK_A Pin Configuration!" #endif // SAI1_MCLK_A Pin <0=>Not Used <1=>PE2 <2=>PG7 #define RTE_SAI1_MCLK_A_PORT_ID 0 #if (RTE_SAI1_MCLK_A_PORT_ID == 0) #define RTE_SAI1_MCLK_A_PIN 0 #elif (RTE_SAI1_MCLK_A_PORT_ID == 1) #define RTE_SAI1_MCLK_A_PIN 1 #define RTE_SAI1_MCLK_A_PORT GPIOE #define RTE_SAI1_MCLK_A_BIT 2 #elif (RTE_SAI1_MCLK_A_PORT_ID == 2) #define RTE_SAI1_MCLK_A_PIN 1 #define RTE_SAI1_MCLK_A_PORT GPIOG #define RTE_SAI1_MCLK_A_BIT 7 #else #error "Invalid SAI1_MCLK_A Pin Configuration!" #endif // SAI1_SD_B Pin <0=>Not Used <1=>PE3 <2=>PF6 #define RTE_SAI1_SD_B_PORT_ID 0 #if (RTE_SAI1_SD_B_PORT_ID == 0) #define RTE_SAI1_SD_B_PIN 0 #elif (RTE_SAI1_SD_B_PORT_ID == 1) #define RTE_SAI1_SD_B_PIN 1 #define RTE_SAI1_SD_B_PORT GPIOE #define RTE_SAI1_SD_B_BIT 3 #elif (RTE_SAI1_SD_B_PORT_ID == 2) #define RTE_SAI1_SD_B_PIN 1 #define RTE_SAI1_SD_B_PORT GPIOF #define RTE_SAI1_SD_B_BIT 6 #else #error "Invalid SAI1_SD_B Pin Configuration!" #endif // SAI1_FS_B Pin <0=>Not Used <1=>PF9 #define RTE_SAI1_FS_B_PORT_ID 0 #if (RTE_SAI1_FS_B_PORT_ID == 0) #define RTE_SAI1_FS_B_PIN 0 #elif (RTE_SAI1_FS_B_PORT_ID == 1) #define RTE_SAI1_FS_B_PIN 1 #define RTE_SAI1_FS_B_PORT GPIOF #define RTE_SAI1_FS_B_BIT 9 #else #error "Invalid SAI1_FS_B Pin Configuration!" #endif // SAI1_SCK_B Pin <0=>Not Used <1=>PF8 #define RTE_SAI1_SCK_B_PORT_ID 0 #if (RTE_SAI1_SCK_B_PORT_ID == 0) #define RTE_SAI1_SCK_B_PIN 0 #elif (RTE_SAI1_SCK_B_PORT_ID == 1) #define RTE_SAI1_SCK_B_PIN 1 #define RTE_SAI1_SCK_B_PORT GPIOF #define RTE_SAI1_SCK_B_BIT 8 #else #error "Invalid SAI1_SCK_B Pin Configuration!" #endif // SAI1_MCLK_B Pin <0=>Not Used <1=>PF7 #define RTE_SAI1_MCLK_B_PORT_ID 0 #if (RTE_SAI1_MCLK_B_PORT_ID == 0) #define RTE_SAI1_MCLK_B_PIN 0 #elif (RTE_SAI1_MCLK_B_PORT_ID == 1) #define RTE_SAI1_MCLK_B_PIN 1 #define RTE_SAI1_MCLK_B_PORT GPIOF #define RTE_SAI1_MCLK_B_BIT 7 #else #error "Invalid SAI1_MCLK_B Pin Configuration!" #endif // DMA SAI1_A // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <1=>1 <3=>3 // Selects DMA Stream (only Stream 1 or 3 can be used) // Channel <0=>0 // Selects DMA Channel (only Channel 0 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SAI1_A_DMA 0 #define RTE_SAI1_A_DMA_NUMBER 2 #define RTE_SAI1_A_DMA_STREAM 1 #define RTE_SAI1_A_DMA_CHANNEL 0 #define RTE_SAI1_A_DMA_PRIORITY 0 // DMA SAI1_B // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <4=>4 <5=>5 <7=>7 // Selects DMA Stream (only Stream 4, 5 or 7 can be used) // Channel <0=>0 <1=>1 // Selects DMA Channel (only Channel 0 or 1 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SAI1_B_DMA 0 #define RTE_SAI1_B_DMA_NUMBER 2 #define RTE_SAI1_B_DMA_STREAM 5 #define RTE_SAI1_B_DMA_CHANNEL 0 #define RTE_SAI1_B_DMA_PRIORITY 0 // // SAI2 (Serial Audio Interface 2) [Driver_SAI2] // Configuration settings for Driver_SAI2 in component ::CMSIS Driver:SAI #define RTE_SAI2 0 // SAI2_SD_A Pin <0=>Not Used <1=>PD11 <2=>PI6 #define RTE_SAI2_SD_A_PORT_ID 0 #if (RTE_SAI2_SD_A_PORT_ID == 0) #define RTE_SAI2_SD_A_PIN 0 #elif (RTE_SAI2_SD_A_PORT_ID == 1) #define RTE_SAI2_SD_A_PIN 1 #define RTE_SAI2_SD_A_PORT GPIOD #define RTE_SAI2_SD_A_BIT 11 #elif (RTE_SAI2_SD_A_PORT_ID == 2) #define RTE_SAI2_SD_A_PIN 1 #define RTE_SAI2_SD_A_PORT GPIOI #define RTE_SAI2_SD_A_BIT 6 #else #error "Invalid SAI2_SD_A Pin Configuration!" #endif // SAI2_FS_A Pin <0=>Not Used <1=>PD12 <2=>PI7 #define RTE_SAI2_FS_A_PORT_ID 0 #if (RTE_SAI2_FS_A_PORT_ID == 0) #define RTE_SAI2_FS_A_PIN 0 #elif (RTE_SAI2_FS_A_PORT_ID == 1) #define RTE_SAI2_FS_A_PIN 1 #define RTE_SAI2_FS_A_PORT GPIOD #define RTE_SAI2_FS_A_BIT 12 #elif (RTE_SAI2_FS_A_PORT_ID == 2) #define RTE_SAI2_FS_A_PIN 1 #define RTE_SAI2_FS_A_PORT GPIOI #define RTE_SAI2_FS_A_BIT 7 #else #error "Invalid SAI2_FS_A Pin Configuration!" #endif // SAI2_SCK_A Pin <0=>Not Used <1=>PD13 <2=>PI5 #define RTE_SAI2_SCK_A_PORT_ID 0 #if (RTE_SAI2_SCK_A_PORT_ID == 0) #define RTE_SAI2_SCK_A_PIN 0 #elif (RTE_SAI2_SCK_A_PORT_ID == 1) #define RTE_SAI2_SCK_A_PIN 1 #define RTE_SAI2_SCK_A_PORT GPIOD #define RTE_SAI2_SCK_A_BIT 13 #elif (RTE_SAI2_SCK_A_PORT_ID == 2) #define RTE_SAI2_SCK_A_PIN 1 #define RTE_SAI2_SCK_A_PORT GPIOI #define RTE_SAI2_SCK_A_BIT 5 #else #error "Invalid SAI2_SCK_A Pin Configuration!" #endif // SAI2_MCLK_A Pin <0=>Not Used <1=>PE0 <2=>PI4 #define RTE_SAI2_MCLK_A_PORT_ID 0 #if (RTE_SAI2_MCLK_A_PORT_ID == 0) #define RTE_SAI2_MCLK_A_PIN 0 #elif (RTE_SAI2_MCLK_A_PORT_ID == 1) #define RTE_SAI2_MCLK_A_PIN 1 #define RTE_SAI2_MCLK_A_PORT GPIOE #define RTE_SAI2_MCLK_A_BIT 0 #elif (RTE_SAI2_MCLK_A_PORT_ID == 2) #define RTE_SAI2_MCLK_A_PIN 1 #define RTE_SAI2_MCLK_A_PORT GPIOI #define RTE_SAI2_MCLK_A_BIT 4 #else #error "Invalid SAI2_MCLK_A Pin Configuration!" #endif // SAI2_SD_B Pin <0=>Not Used <1=>PA0 <2=>PE11 <3=>PF11 <4=>PG10 #define RTE_SAI2_SD_B_PORT_ID 0 #if (RTE_SAI2_SD_B_PORT_ID == 0) #define RTE_SAI2_SD_B_PIN 0 #elif (RTE_SAI2_SD_B_PORT_ID == 1) #define RTE_SAI2_SD_B_PIN 1 #define RTE_SAI2_SD_B_PORT GPIOA #define RTE_SAI2_SD_B_BIT 0 #elif (RTE_SAI2_SD_B_PORT_ID == 2) #define RTE_SAI2_SD_B_PIN 1 #define RTE_SAI2_SD_B_PORT GPIOE #define RTE_SAI2_SD_B_BIT 11 #elif (RTE_SAI2_SD_B_PORT_ID == 3) #define RTE_SAI2_SD_B_PIN 1 #define RTE_SAI2_SD_B_PORT GPIOF #define RTE_SAI2_SD_B_BIT 11 #elif (RTE_SAI2_SD_B_PORT_ID == 4) #define RTE_SAI2_SD_B_PIN 1 #define RTE_SAI2_SD_B_PORT GPIOG #define RTE_SAI2_SD_B_BIT 10 #else #error "Invalid SAI2_SD_B Pin Configuration!" #endif // SAI2_FS_B Pin <0=>Not Used <1=>PA12 <2=>PC0 <3=>PE13 <4=>PG9 #define RTE_SAI2_FS_B_PORT_ID 0 #if (RTE_SAI2_FS_B_PORT_ID == 0) #define RTE_SAI2_FS_B_PIN 0 #elif (RTE_SAI2_FS_B_PORT_ID == 1) #define RTE_SAI2_FS_B_PIN 1 #define RTE_SAI2_FS_B_PORT GPIOA #define RTE_SAI2_FS_B_BIT 12 #elif (RTE_SAI2_FS_B_PORT_ID == 2) #define RTE_SAI2_FS_B_PIN 1 #define RTE_SAI2_FS_B_PORT GPIOC #define RTE_SAI2_FS_B_BIT 0 #elif (RTE_SAI2_FS_B_PORT_ID == 3) #define RTE_SAI2_FS_B_PIN 1 #define RTE_SAI2_FS_B_PORT GPIOE #define RTE_SAI2_FS_B_BIT 13 #elif (RTE_SAI2_FS_B_PORT_ID == 4) #define RTE_SAI2_FS_B_PIN 1 #define RTE_SAI2_FS_B_PORT GPIOG #define RTE_SAI2_FS_B_BIT 9 #else #error "Invalid SAI2_FS_B Pin Configuration!" #endif // SAI2_SCK_B Pin <0=>Not Used <1=>PA2 <2=>PE12 <3=>PH2 #define RTE_SAI2_SCK_B_PORT_ID 0 #if (RTE_SAI2_SCK_B_PORT_ID == 0) #define RTE_SAI2_SCK_B_PIN 0 #elif (RTE_SAI2_SCK_B_PORT_ID == 1) #define RTE_SAI2_SCK_B_PIN 1 #define RTE_SAI2_SCK_B_PORT GPIOA #define RTE_SAI2_SCK_B_BIT 2 #elif (RTE_SAI2_SCK_B_PORT_ID == 2) #define RTE_SAI2_SCK_B_PIN 1 #define RTE_SAI2_SCK_B_PORT GPIOE #define RTE_SAI2_SCK_B_BIT 12 #elif (RTE_SAI2_SCK_B_PORT_ID == 3) #define RTE_SAI2_SCK_B_PIN 1 #define RTE_SAI2_SCK_B_PORT GPIOH #define RTE_SAI2_SCK_B_BIT 2 #else #error "Invalid SAI2_SCK_B Pin Configuration!" #endif // SAI2_MCLK_B Pin <0=>Not Used <1=>PA1 <2=>PE6 <3=>PE14 <4=>PH3 #define RTE_SAI2_MCLK_B_PORT_ID 0 #if (RTE_SAI2_MCLK_B_PORT_ID == 0) #define RTE_SAI2_MCLK_B_PIN 0 #elif (RTE_SAI2_MCLK_B_PORT_ID == 1) #define RTE_SAI2_MCLK_B_PIN 1 #define RTE_SAI2_MCLK_B_PORT GPIOA #define RTE_SAI2_MCLK_B_BIT 1 #elif (RTE_SAI2_MCLK_B_PORT_ID == 2) #define RTE_SAI2_MCLK_B_PIN 1 #define RTE_SAI2_MCLK_B_PORT GPIOE #define RTE_SAI2_MCLK_B_BIT 6 #elif (RTE_SAI2_MCLK_B_PORT_ID == 3) #define RTE_SAI2_MCLK_B_PIN 1 #define RTE_SAI2_MCLK_B_PORT GPIOE #define RTE_SAI2_MCLK_B_BIT 14 #elif (RTE_SAI2_MCLK_B_PORT_ID == 4) #define RTE_SAI2_MCLK_B_PIN 1 #define RTE_SAI2_MCLK_B_PORT GPIOH #define RTE_SAI2_MCLK_B_BIT 3 #else #error "Invalid SAI2_MCLK_B Pin Configuration!" #endif // DMA SAI2_A // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <4=>4 // Selects DMA Stream (only Stream 4 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_SAI2_A_DMA 0 #define RTE_SAI2_A_DMA_NUMBER 2 #define RTE_SAI2_A_DMA_STREAM 4 #define RTE_SAI2_A_DMA_CHANNEL 3 #define RTE_SAI2_A_DMA_PRIORITY 0 // DMA SAI2_B // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <6=>6 <7=>7 // Selects DMA Stream (only Stream 6 or 7 can be used) // Channel <0=>0 <3=>3 // Selects DMA Channel (only Channel 0 or 3 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SAI2_B_DMA 0 #define RTE_SAI2_B_DMA_NUMBER 2 #define RTE_SAI2_B_DMA_STREAM 7 #define RTE_SAI2_B_DMA_CHANNEL 0 #define RTE_SAI2_B_DMA_PRIORITY 0 // // SDMMC1 (SD/SDIO/MMC card host interface 1) [Driver_MCI0] // Configuration settings for Driver_MCI0 in component ::CMSIS Driver:MCI #define RTE_SDMMC1 0 // SDMMC Peripheral Bus // SDMMC1_CK Pin <0=>PC12 #define RTE_SDMMC1_CK_PORT_ID 0 #if (RTE_SDMMC1_CK_PORT_ID == 0) #define RTE_SDMMC1_CK_PORT GPIOC #define RTE_SDMMC1_CK_PIN GPIO_PIN_12 #else #error "Invalid SDMMC1_CLK Pin Configuration!" #endif // SDMMC1_CMD Pin <0=>PD2 #define RTE_SDMMC1_CMD_PORT_ID 0 #if (RTE_SDMMC1_CMD_PORT_ID == 0) #define RTE_SDMMC1_CMD_PORT GPIOD #define RTE_SDMMC1_CMD_PIN GPIO_PIN_2 #else #error "Invalid SDMMC1_CMD Pin Configuration!" #endif // SDMMC1_D0 Pin <0=>PC8 #define RTE_SDMMC1_D0_PORT_ID 0 #if (RTE_SDMMC1_D0_PORT_ID == 0) #define RTE_SDMMC1_D0_PORT GPIOC #define RTE_SDMMC1_D0_PIN GPIO_PIN_8 #else #error "Invalid SDMMC1_D0 Pin Configuration!" #endif // SDMMC1_D[1 .. 3] #define RTE_SDMMC1_BUS_WIDTH_4 1 // SDMMC1_D1 Pin <0=>PC9 #define RTE_SDMMC1_D1_PORT_ID 0 #if (RTE_SDMMC1_D1_PORT_ID == 0) #define RTE_SDMMC1_D1_PORT GPIOC #define RTE_SDMMC1_D1_PIN GPIO_PIN_9 #else #error "Invalid SDMMC1_D1 Pin Configuration!" #endif // SDMMC1_D2 Pin <0=>PC10 #define RTE_SDMMC1_D2_PORT_ID 0 #if (RTE_SDMMC1_D2_PORT_ID == 0) #define RTE_SDMMC1_D2_PORT GPIOC #define RTE_SDMMC1_D2_PIN GPIO_PIN_10 #else #error "Invalid SDMMC1_D2 Pin Configuration!" #endif // SDMMC1_D3 Pin <0=>PC11 #define RTE_SDMMC1_D3_PORT_ID 0 #if (RTE_SDMMC1_D3_PORT_ID == 0) #define RTE_SDMMC1_D3_PORT GPIOC #define RTE_SDMMC1_D3_PIN GPIO_PIN_11 #else #error "Invalid SDMMC1_D3 Pin Configuration!" #endif // SDMMC1_D[1 .. 3] // SDMMC1_D[4 .. 7] #define RTE_SDMMC1_BUS_WIDTH_8 0 // SDMMC1_D4 Pin <0=>PB8 #define RTE_SDMMC1_D4_PORT_ID 0 #if (RTE_SDMMC1_D4_PORT_ID == 0) #define RTE_SDMMC1_D4_PORT GPIOB #define RTE_SDMMC1_D4_PIN GPIO_PIN_8 #else #error "Invalid SDMMC1_D4 Pin Configuration!" #endif // SDMMC1_D5 Pin <0=>PB9 #define RTE_SDMMC1_D5_PORT_ID 0 #if (RTE_SDMMC1_D5_PORT_ID == 0) #define RTE_SDMMC1_D5_PORT GPIOB #define RTE_SDMMC1_D5_PIN GPIO_PIN_9 #else #error "Invalid SDMMC1_D5 Pin Configuration!" #endif // SDMMC1_D6 Pin <0=>PC6 #define RTE_SDMMC1_D6_PORT_ID 0 #if (RTE_SDMMC1_D6_PORT_ID == 0) #define RTE_SDMMC1_D6_PORT GPIOC #define RTE_SDMMC1_D6_PIN GPIO_PIN_6 #else #error "Invalid SDMMC1_D6 Pin Configuration!" #endif // SDMMC1_D7 Pin <0=>PC7 #define RTE_SDMMC1_D7_PORT_ID 0 #if (RTE_SDMMC1_D7_PORT_ID == 0) #define RTE_SDMMC1_D7_PORT GPIOC #define RTE_SDMMC1_D7_PIN GPIO_PIN_7 #else #error "Invalid SDMMC1_D7 Pin Configuration!" #endif // SDMMC1_D[4 .. 7] // SDMMC 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 <7=>GPIOH <8=>GPIOI // Selects Port Name // Bit <0-15> // Selects Port Bit // Pull Resistor <0=>Inactive <1=>Pull-up <2=>Pull-down // Select Pin Pull Resistor function // #define RTE_SDMMC1_CD_PIN_EN 0 #define RTE_SDMMC1_CD_ACTIVE 0 #define RTE_SDMMC1_CD_PORT GPIO_PORT(0) #define RTE_SDMMC1_CD_PIN 0 #define RTE_SDMMC1_CD_PULL 1 // 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 <7=>GPIOH <8=>GPIOI // Selects Port Name // Bit <0-15> // Selects Port Bit // Pull Resistor <0=>Inactive <1=>Pull-up <2=>Pull-down // Select Pin Pull Resistor function // #define RTE_SDMMC1_WP_EN 0 #define RTE_SDMMC1_WP_ACTIVE 0 #define RTE_SDMMC1_WP_PORT GPIO_PORT(0) #define RTE_SDMMC1_WP_PIN 0 #define RTE_SDMMC1_WP_PULL 1 // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <3=>3 <6=>6 // Selects DMA Stream (only Stream 3 or 6 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_SDMMC1_RX_DMA 1 #define RTE_SDMMC1_RX_DMA_NUMBER 2 #define RTE_SDMMC1_RX_DMA_STREAM 3 #define RTE_SDMMC1_RX_DMA_CHANNEL 4 #define RTE_SDMMC1_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <3=>3 <6=>6 // Selects DMA Stream (only Stream 3 or 6 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_SDMMC1_TX_DMA 1 #define RTE_SDMMC1_TX_DMA_NUMBER 2 #define RTE_SDMMC1_TX_DMA_STREAM 6 #define RTE_SDMMC1_TX_DMA_CHANNEL 4 #define RTE_SDMMC1_TX_DMA_PRIORITY 0 // // SDMMC2 (SD/SDIO/MMC card host interface 2) [Driver_MCI1] // Configuration settings for Driver_MCI1 in component ::CMSIS Driver:MCI #define RTE_SDMMC2 0 // SDMMC Peripheral Bus // SDMMC2_CK Pin <0=>PD6 #define RTE_SDMMC2_CK_PORT_ID 0 #if (RTE_SDMMC2_CK_PORT_ID == 0) #define RTE_SDMMC2_CK_PORT GPIOD #define RTE_SDMMC2_CK_PIN GPIO_PIN_6 #define RTE_SDMMC2_CK_AF GPIO_AF11_SDMMC2 #else #error "Invalid SDMMC2_CLK Pin Configuration!" #endif // SDMMC2_CMD Pin <0=>PD7 #define RTE_SDMMC2_CMD_PORT_ID 0 #if (RTE_SDMMC2_CMD_PORT_ID == 0) #define RTE_SDMMC2_CMD_PORT GPIOD #define RTE_SDMMC2_CMD_PIN GPIO_PIN_7 #define RTE_SDMMC2_CMD_AF GPIO_AF11_SDMMC2 #else #error "Invalid SDMMC2_CMD Pin Configuration!" #endif // SDMMC2_D0 Pin <0=>PB14 <1=>PG9 #define RTE_SDMMC2_D0_PORT_ID 0 #if (RTE_SDMMC2_D0_PORT_ID == 0) #define RTE_SDMMC2_D0_PORT GPIOB #define RTE_SDMMC2_D0_PIN GPIO_PIN_14 #define RTE_SDMMC2_D0_AF GPIO_AF10_SDMMC2 #elif (RTE_SDMMC2_D0_PORT_ID == 1) #define RTE_SDMMC2_D0_PORT GPIOG #define RTE_SDMMC2_D0_PIN GPIO_PIN_9 #define RTE_SDMMC2_D0_AF GPIO_AF11_SDMMC2 #else #error "Invalid SDMMC2_D0 Pin Configuration!" #endif // SDMMC2_D[1 .. 3] #define RTE_SDMMC2_BUS_WIDTH_4 1 // SDMMC2_D1 Pin <0=>PB15 <1=>PG10 #define RTE_SDMMC2_D1_PORT_ID 0 #if (RTE_SDMMC2_D1_PORT_ID == 0) #define RTE_SDMMC2_D1_PORT GPIOB #define RTE_SDMMC2_D1_PIN GPIO_PIN_15 #define RTE_SDMMC2_D1_AF GPIO_AF10_SDMMC2 #elif (RTE_SDMMC2_D1_PORT_ID == 1) #define RTE_SDMMC2_D1_PORT GPIOG #define RTE_SDMMC2_D1_PIN GPIO_PIN_10 #define RTE_SDMMC2_D1_AF GPIO_AF11_SDMMC2 #else #error "Invalid SDMMC2_D1 Pin Configuration!" #endif // SDMMC2_D2 Pin <0=>PB3 <1=>PG11 #define RTE_SDMMC2_D2_PORT_ID 0 #if (RTE_SDMMC2_D2_PORT_ID == 0) #define RTE_SDMMC2_D2_PORT GPIOB #define RTE_SDMMC2_D2_PIN GPIO_PIN_3 #define RTE_SDMMC2_D2_AF GPIO_AF10_SDMMC2 #elif (RTE_SDMMC2_D2_PORT_ID == 1) #define RTE_SDMMC2_D2_PORT GPIOG #define RTE_SDMMC2_D2_PIN GPIO_PIN_11 #define RTE_SDMMC2_D2_AF GPIO_AF10_SDMMC2 #else #error "Invalid SDMMC2_D2 Pin Configuration!" #endif // SDMMC2_D3 Pin <0=>PB4 <1=>PG12 #define RTE_SDMMC2_D3_PORT_ID 0 #if (RTE_SDMMC2_D3_PORT_ID == 0) #define RTE_SDMMC2_D3_PORT GPIOB #define RTE_SDMMC2_D3_PIN GPIO_PIN_4 #define RTE_SDMMC2_D3_AF GPIO_AF10_SDMMC2 #elif (RTE_SDMMC2_D3_PORT_ID == 1) #define RTE_SDMMC2_D3_PORT GPIOG #define RTE_SDMMC2_D3_PIN GPIO_PIN_12 #define RTE_SDMMC2_D3_AF GPIO_AF11_SDMMC2 #else #error "Invalid SDMMC2_D3 Pin Configuration!" #endif // SDMMC2_D[1 .. 3] // SDMMC2_D[4 .. 7] #define RTE_SDMMC2_BUS_WIDTH_8 0 // SDMMC2_D4 Pin <0=>PB8 #define RTE_SDMMC2_D4_PORT_ID 0 #if (RTE_SDMMC2_D4_PORT_ID == 0) #define RTE_SDMMC2_D4_PORT GPIOB #define RTE_SDMMC2_D4_PIN GPIO_PIN_8 #define RTE_SDMMC2_D4_AF GPIO_AF10_SDMMC2 #else #error "Invalid SDMMC2_D4 Pin Configuration!" #endif // SDMMC2_D5 Pin <0=>PB9 #define RTE_SDMMC2_D5_PORT_ID 0 #if (RTE_SDMMC2_D5_PORT_ID == 0) #define RTE_SDMMC2_D5_PORT GPIOB #define RTE_SDMMC2_D5_PIN GPIO_PIN_9 #define RTE_SDMMC2_D5_AF GPIO_AF10_SDMMC2 #else #error "Invalid SDMMC2_D5 Pin Configuration!" #endif // SDMMC2_D6 Pin <0=>PC6 #define RTE_SDMMC2_D6_PORT_ID 0 #if (RTE_SDMMC2_D6_PORT_ID == 0) #define RTE_SDMMC2_D6_PORT GPIOC #define RTE_SDMMC2_D6_PIN GPIO_PIN_6 #define RTE_SDMMC2_D6_AF GPIO_AF10_SDMMC2 #else #error "Invalid SDMMC2_D6 Pin Configuration!" #endif // SDMMC2_D7 Pin <0=>PC7 #define RTE_SDMMC2_D7_PORT_ID 0 #if (RTE_SDMMC2_D7_PORT_ID == 0) #define RTE_SDMMC2_D7_PORT GPIOC #define RTE_SDMMC2_D7_PIN GPIO_PIN_7 #define RTE_SDMMC2_D7_AF GPIO_AF10_SDMMC2 #else #error "Invalid SDMMC2_D7 Pin Configuration!" #endif // SDMMC2_D[4 .. 7] // SDMMC 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 <7=>GPIOH <8=>GPIOI // Selects Port Name // Bit <0-15> // Selects Port Bit // Pull Resistor <0=>Inactive <1=>Pull-up <2=>Pull-down // Select Pin Pull Resistor function // #define RTE_SDMMC2_CD_PIN_EN 1 #define RTE_SDMMC2_CD_ACTIVE 0 #define RTE_SDMMC2_CD_PORT GPIO_PORT(2) #define RTE_SDMMC2_CD_PIN 12 #define RTE_SDMMC2_CD_PULL 1 // 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 <7=>GPIOH <8=>GPIOI // Selects Port Name // Bit <0-15> // Selects Port Bit // Pull Resistor <0=>Inactive <1=>Pull-up <2=>Pull-down // Select Pin Pull Resistor function // #define RTE_SDMMC2_WP_EN 0 #define RTE_SDMMC2_WP_ACTIVE 0 #define RTE_SDMMC2_WP_PORT GPIO_PORT(0) #define RTE_SDMMC2_WP_PIN 0 #define RTE_SDMMC2_WP_PULL 1 // DMA Rx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <0=>0 <5=>5 // Selects DMA Stream (only Stream 0 or 5 can be used) // Channel <11=>11 // Selects DMA Channel (only Channel 11 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SDMMC2_RX_DMA 1 #define RTE_SDMMC2_RX_DMA_NUMBER 2 #define RTE_SDMMC2_RX_DMA_STREAM 0 #define RTE_SDMMC2_RX_DMA_CHANNEL 11 #define RTE_SDMMC2_RX_DMA_PRIORITY 0 // DMA Tx // Number <2=>2 // Selects DMA Number (only DMA2 can be used) // Stream <0=>0 <5=>5 // Selects DMA Stream (only Stream 0 or 5 can be used) // Channel <11=>11 // Selects DMA Channel (only Channel 11 can be used) // Priority <0=>Low <1=>Medium <2=>High <3=>Very High // Selects DMA Priority // #define RTE_SDMMC2_TX_DMA 1 #define RTE_SDMMC2_TX_DMA_NUMBER 2 #define RTE_SDMMC2_TX_DMA_STREAM 5 #define RTE_SDMMC2_TX_DMA_CHANNEL 11 #define RTE_SDMMC2_TX_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 <3=>PI9 <4=>PH14 #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 GPIO_PIN_11 #elif (RTE_CAN1_RX_PORT_ID == 1) #define RTE_CAN1_RX_PORT GPIOB #define RTE_CAN1_RX_BIT GPIO_PIN_8 #elif (RTE_CAN1_RX_PORT_ID == 2) #define RTE_CAN1_RX_PORT GPIOD #define RTE_CAN1_RX_BIT GPIO_PIN_0 #elif (RTE_CAN1_RX_PORT_ID == 3) #define RTE_CAN1_RX_PORT GPIOI #define RTE_CAN1_RX_BIT GPIO_PIN_9 #elif (RTE_CAN1_RX_PORT_ID == 4) #define RTE_CAN1_RX_PORT GPIOH #define RTE_CAN1_RX_BIT GPIO_PIN_14 #else #error "Invalid CAN1_RX Pin Configuration!" #endif // CAN1_TX Pin <0=>PA12 <1=>PB9 <2=>PD1 <3=>PH13 #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 GPIO_PIN_12 #elif (RTE_CAN1_TX_PORT_ID == 1) #define RTE_CAN1_TX_PORT GPIOB #define RTE_CAN1_TX_BIT GPIO_PIN_9 #elif (RTE_CAN1_TX_PORT_ID == 2) #define RTE_CAN1_TX_PORT GPIOD #define RTE_CAN1_TX_BIT GPIO_PIN_1 #elif (RTE_CAN1_TX_PORT_ID == 3) #define RTE_CAN1_TX_PORT GPIOH #define RTE_CAN1_TX_BIT GPIO_PIN_13 #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 GPIO_PIN_5 #elif (RTE_CAN2_RX_PORT_ID == 1) #define RTE_CAN2_RX_PORT GPIOB #define RTE_CAN2_RX_BIT GPIO_PIN_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 GPIO_PIN_6 #elif (RTE_CAN2_TX_PORT_ID == 1) #define RTE_CAN2_TX_PORT GPIOB #define RTE_CAN2_TX_BIT GPIO_PIN_13 #else #error "Invalid CAN2_TX Pin Configuration!" #endif // // CAN3 (Controller Area Network 3) [Driver_CAN3] // Configuration settings for Driver_CAN3 in component ::CMSIS Driver:CAN // Available only on STM32F76x and STM32F77x device series #define RTE_CAN3 0 // CAN3_RX Pin <0=>PA8 <1=>PB3 #define RTE_CAN3_RX_PORT_ID 0 #if (RTE_CAN3_RX_PORT_ID == 0) #define RTE_CAN3_RX_PORT GPIOA #define RTE_CAN3_RX_BIT GPIO_PIN_8 #elif (RTE_CAN3_RX_PORT_ID == 1) #define RTE_CAN3_RX_PORT GPIOB #define RTE_CAN3_RX_BIT GPIO_PIN_3 #else #error "Invalid CAN3_RX Pin Configuration!" #endif // CAN3_TX Pin <0=>PA15 <1=>PB4 #define RTE_CAN3_TX_PORT_ID 0 #if (RTE_CAN3_TX_PORT_ID == 0) #define RTE_CAN3_TX_PORT GPIOA #define RTE_CAN3_TX_BIT GPIO_PIN_15 #elif (RTE_CAN3_TX_PORT_ID == 1) #define RTE_CAN3_TX_PORT GPIOB #define RTE_CAN3_TX_BIT GPIO_PIN_4 #else #error "Invalid CAN3_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) #define RTE_ETH_MII 1 // 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 <1=>PG13 #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 #elif (RTE_ETH_MII_TXD0_PORT_ID == 1) #define RTE_ETH_MII_TXD0_PORT GPIOG #define RTE_ETH_MII_TXD0_PIN 13 #else #error "Invalid ETH_MII_TXD0 Pin Configuration!" #endif // ETH_MII_TXD1 Pin <0=>PB13 <1=>PG14 #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 #elif (RTE_ETH_MII_TXD1_PORT_ID == 1) #define RTE_ETH_MII_TXD1_PORT GPIOG #define RTE_ETH_MII_TXD1_PIN 14 #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 <1=>PE2 #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 #elif (RTE_ETH_MII_TXD3_PORT_ID == 1) #define RTE_ETH_MII_TXD3_PORT GPIOE #define RTE_ETH_MII_TXD3_PIN 2 #else #error "Invalid ETH_MII_TXD3 Pin Configuration!" #endif // ETH_MII_TX_EN Pin <0=>PB11 <1=>PG11 #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 #elif (RTE_ETH_MII_TX_EN_PORT_ID == 1) #define RTE_ETH_MII_TX_EN_PORT GPIOG #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_PORT_ID 0 #if (RTE_ETH_MII_RXD0_PORT_ID == 0) #define RTE_ETH_MII_RXD0_PORT GPIOC #define RTE_ETH_MII_RXD0_PIN 4 #else #error "Invalid ETH_MII_RXD0 Pin Configuration!" #endif // ETH_MII_RXD1 Pin <0=>PC5 #define RTE_ETH_MII_RXD1_PORT_ID 0 #if (RTE_ETH_MII_RXD1_PORT_ID == 0) #define RTE_ETH_MII_RXD1_PORT GPIOC #define RTE_ETH_MII_RXD1_PIN 5 #else #error "Invalid ETH_MII_RXD1 Pin Configuration!" #endif // ETH_MII_RXD2 Pin <0=>PB0 <1=>PH6 #define RTE_ETH_MII_RXD2_PORT_ID 0 #if (RTE_ETH_MII_RXD2_PORT_ID == 0) #define RTE_ETH_MII_RXD2_PORT GPIOB #define RTE_ETH_MII_RXD2_PIN 0 #elif (RTE_ETH_MII_RXD2_PORT_ID == 1) #define RTE_ETH_MII_RXD2_PORT GPIOH #define RTE_ETH_MII_RXD2_PIN 6 #else #error "Invalid ETH_MII_RXD2 Pin Configuration!" #endif // ETH_MII_RXD3 Pin <0=>PB1 <1=>PH7 #define RTE_ETH_MII_RXD3_PORT_ID 0 #if (RTE_ETH_MII_RXD3_PORT_ID == 0) #define RTE_ETH_MII_RXD3_PORT GPIOB #define RTE_ETH_MII_RXD3_PIN 1 #elif (RTE_ETH_MII_RXD3_PORT_ID == 1) #define RTE_ETH_MII_RXD3_PORT GPIOH #define RTE_ETH_MII_RXD3_PIN 7 #else #error "Invalid ETH_MII_RXD3 Pin Configuration!" #endif // ETH_MII_RX_DV Pin <0=>PA7 #define RTE_ETH_MII_RX_DV_PORT_ID 0 #if (RTE_ETH_MII_RX_DV_PORT_ID == 0) #define RTE_ETH_MII_RX_DV_PORT GPIOA #define RTE_ETH_MII_RX_DV_PIN 7 #else #error "Invalid ETH_MII_RX_DV Pin Configuration!" #endif // ETH_MII_RX_ER Pin <0=>Not Used <1=>PB10 <2=>PI10 #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 NULL #elif (RTE_ETH_MII_RX_ER_PORT_ID == 1) #define RTE_ETH_MII_RX_ER_PORT GPIOB #define RTE_ETH_MII_RX_ER_PIN 10 #elif (RTE_ETH_MII_RX_ER_PORT_ID == 2) #define RTE_ETH_MII_RX_ER_PORT GPIOI #define RTE_ETH_MII_RX_ER_PIN 10 #else #error "Invalid ETH_MII_RX_ER Pin Configuration!" #endif // ETH_MII_CRS Pin <0=>Not Used <1=>PA0 <2=>PH2 #define RTE_ETH_MII_CRS_PORT_ID 0 #if (RTE_ETH_MII_CRS_PORT_ID == 0) #define RTE_ETH_MII_CRS_PORT NULL #elif (RTE_ETH_MII_CRS_PORT_ID == 1) #define RTE_ETH_MII_CRS_PORT GPIOA #define RTE_ETH_MII_CRS_PIN 0 #elif (RTE_ETH_MII_CRS_PORT_ID == 2) #define RTE_ETH_MII_CRS_PORT GPIOH #define RTE_ETH_MII_CRS_PIN 2 #else #error "Invalid ETH_MII_CRS Pin Configuration!" #endif // ETH_MII_COL Pin <0=>Not Used <1=>PA3 <2=>PH3 #define RTE_ETH_MII_COL_PORT_ID 0 #if (RTE_ETH_MII_COL_PORT_ID == 0) #define RTE_ETH_MII_COL_PORT NULL #elif (RTE_ETH_MII_COL_PORT_ID == 1) #define RTE_ETH_MII_COL_PORT GPIOA #define RTE_ETH_MII_COL_PIN 3 #elif (RTE_ETH_MII_COL_PORT_ID == 2) #define RTE_ETH_MII_COL_PORT GPIOH #define RTE_ETH_MII_COL_PIN 3 #else #error "Invalid ETH_MII_COL Pin Configuration!" #endif // // RMII (Reduced Media Independent Interface) #define RTE_ETH_RMII 0 // ETH_RMII_TXD0 Pin <0=>PB12 <1=>PG13 #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 #elif (RTE_ETH_RMII_TXD0_PORT_ID == 1) #define RTE_ETH_RMII_TXD0_PORT GPIOG #define RTE_ETH_RMII_TXD0_PIN 13 #else #error "Invalid ETH_RMII_TXD0 Pin Configuration!" #endif // ETH_RMII_TXD1 Pin <0=>PB13 <1=>PG14 #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 #elif (RTE_ETH_RMII_TXD1_PORT_ID == 1) #define RTE_ETH_RMII_TXD1_PORT GPIOG #define RTE_ETH_RMII_TXD1_PIN 14 #else #error "Invalid ETH_RMII_TXD1 Pin Configuration!" #endif // ETH_RMII_TX_EN Pin <0=>PB11 <1=>PG11 #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 #elif (RTE_ETH_RMII_TX_EN_PORT_ID == 1) #define RTE_ETH_RMII_TX_EN_PORT GPIOG #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_PORT_ID 0 #if (RTE_ETH_RMII_RXD0_PORT_ID == 0) #define RTE_ETH_RMII_RXD0_PORT GPIOC #define RTE_ETH_RMII_RXD0_PIN 4 #else #error "Invalid ETH_RMII_RXD0 Pin Configuration!" #endif // ETH_RMII_RXD1 Pin <0=>PC5 #define RTE_ETH_RMII_RXD1_PORT_ID 0 #if (RTE_ETH_RMII_RXD1_PORT_ID == 0) #define RTE_ETH_RMII_RXD1_PORT GPIOC #define RTE_ETH_RMII_RXD1_PIN 5 #else #error "Invalid ETH_RMII_RXD1 Pin Configuration!" #endif // 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_PORT_ID 0 #if (RTE_ETH_RMII_CRS_DV_PORT_ID == 0) #define RTE_ETH_RMII_CRS_DV_PORT GPIOA #define RTE_ETH_RMII_CRS_DV_PIN 7 #else #error "Invalid ETH_RMII_CRS_DV Pin Configuration!" #endif // // SMI (Station Management Interface) // Hardware controlled // Enable peripheral controlled SMI on dedicated pins #define RTE_ETH_SMI_HW 1 // ETH_MDC Pin <0=>PC1 #define RTE_ETH_SMI_MDC_PORT_ID 0 #if (RTE_ETH_SMI_MDC_PORT_ID == 0) #define RTE_ETH_SMI_MDC_PORT GPIOC #define RTE_ETH_SMI_MDC_PIN 1 #else #error "Invalid ETH_MDC Pin Configuration!" #endif // ETH_MDIO Pin <0=>PA2 #define RTE_ETH_SMI_MDIO_PORT_ID 0 #if (RTE_ETH_SMI_MDIO_PORT_ID == 0) #define RTE_ETH_SMI_MDIO_PORT GPIOA #define RTE_ETH_SMI_MDIO_PIN 2 #else #error "Invalid ETH_MDIO Pin Configuration!" #endif // // Software controlled // Enable software controlled SMI on arbitrary GPIO pins #define RTE_ETH_SMI_SW 0 // ETH_MDC Pin // Configure arbitrary GPIO as MDC Pin // GPIO Pxy (x = A..H, y = 0..15) or (x = I, y = 0..11) // Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD // <4=>GPIOE <5=>GPIOF <6=>GPIOG <7=>GPIOH <8=>GPIOI // Selects Port Name // Bit <0-15> // Selects Port Bit #define RTE_ETH_SMI_SW_MDC_PORT GPIO_PORT(6) #define RTE_ETH_SMI_SW_MDC_PIN 7 // // ETH_MDIO Pin // Configure arbitrary GPIO as MDIO Pin // GPIO Pxy (x = A..H, y = 0..15) or (x = I, y = 0..11) // Port <0=>GPIOA <1=>GPIOB <2=>GPIOC <3=>GPIOD // <4=>GPIOE <5=>GPIOF <6=>GPIOG <7=>GPIOH <8=>GPIOI // Selects Port Name // Bit <0-15> // Selects Port Bit #define RTE_ETH_SMI_SW_MDIO_PORT GPIO_PORT(6) #define RTE_ETH_SMI_SW_MDIO_PIN 6 // // // // DMA Descriptor/Buffer Memory Address <0x20000000-0xE0000000> // Configure location of the Ethernet DMA Descriptor and Buffer memory #define RTE_ETH_DMA_MEM_ADDR 0x2000C000 // // USB OTG Full-speed #define RTE_USB_OTG_FS 0 // Device [Driver_USBD0] // Configuration settings for Driver_USBD0 in component ::CMSIS Driver:USB Device #define RTE_USB_OTG_FS_DEVICE 1 // VBUS Sensing Pin // Enable or disable VBUS sensing #define RTE_OTG_FS_VBUS_SENSING_PIN 1 // // Host [Driver_USBH0] // Configuration settings for Driver_USBH0 in component ::CMSIS Driver:USB Host #define RTE_USB_OTG_FS_HOST 0 // VBUS Power On/Off Pin // Configure Pin for driving VBUS // GPIO Pxy (x = A..J, y = 0..15) or (x = K, y = 0..7) // 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 <7=>GPIOH // <8=>GPIOI <8=>GPIOJ <9=>GPIOK // Selects Port Name // Bit <0-15> // Selects Port Bit // #define RTE_OTG_FS_VBUS_PIN 0 #define RTE_OTG_FS_VBUS_ACTIVE 0 #define RTE_OTG_FS_VBUS_PORT GPIO_PORT(0) #define RTE_OTG_FS_VBUS_BIT 0 // Overcurrent Detection Pin // Configure Pin for overcurrent detection // GPIO Pxy (x = A..J, y = 0..15) or (x = K, y = 0..7) // 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 <7=>GPIOH // <8=>GPIOI <8=>GPIOJ <9=>GPIOK // Selects Port Name // Bit <0-15> // Selects Port Bit // #define RTE_OTG_FS_OC_PIN 0 #define RTE_OTG_FS_OC_ACTIVE 0 #define RTE_OTG_FS_OC_PORT GPIO_PORT(0) #define RTE_OTG_FS_OC_BIT 0 // // // USB OTG High-speed #define RTE_USB_OTG_HS 0 // PHY (Physical Layer) // PHY Interface // <0=>On-chip full-speed PHY // <1=>External ULPI high-speed PHY // <2=>Internal UTMI high-speed PHY #define RTE_USB_OTG_HS_PHY 1 // External ULPI Pins (UTMI+ Low Pin Interface) // OTG_HS_ULPI_CK Pin <0=>PA5 #define RTE_USB_OTG_HS_ULPI_CK_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_CK_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_CK_PORT GPIOA #define RTE_USB_OTG_HS_ULPI_CK_PIN 5 #else #error "Invalid OTG_HS_ULPI_CK Pin Configuration!" #endif // OTG_HS_ULPI_DIR Pin <0=>PI11 <1=>PC2 #define RTE_USB_OTG_HS_ULPI_DIR_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_DIR_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_DIR_PORT GPIOI #define RTE_USB_OTG_HS_ULPI_DIR_PIN 11 #elif (RTE_USB_OTG_HS_ULPI_DIR_PORT_ID == 1) #define RTE_USB_OTG_HS_ULPI_DIR_PORT GPIOC #define RTE_USB_OTG_HS_ULPI_DIR_PIN 2 #else #error "Invalid OTG_HS_ULPI_DIR Pin Configuration!" #endif // OTG_HS_ULPI_STP Pin <0=>PC0 #define RTE_USB_OTG_HS_ULPI_STP_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_STP_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_STP_PORT GPIOC #define RTE_USB_OTG_HS_ULPI_STP_PIN 0 #else #error "Invalid OTG_HS_ULPI_STP Pin Configuration!" #endif // OTG_HS_ULPI_NXT Pin <0=>PC3 <1=>PH4 #define RTE_USB_OTG_HS_ULPI_NXT_PORT_ID 1 #if (RTE_USB_OTG_HS_ULPI_NXT_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_NXT_PORT GPIOC #define RTE_USB_OTG_HS_ULPI_NXT_PIN 3 #elif (RTE_USB_OTG_HS_ULPI_NXT_PORT_ID == 1) #define RTE_USB_OTG_HS_ULPI_NXT_PORT GPIOH #define RTE_USB_OTG_HS_ULPI_NXT_PIN 4 #else #error "Invalid OTG_HS_ULPI_NXT Pin Configuration!" #endif // OTG_HS_ULPI_D0 Pin <0=>PA3 #define RTE_USB_OTG_HS_ULPI_D0_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D0_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D0_PORT GPIOA #define RTE_USB_OTG_HS_ULPI_D0_PIN 3 #else #error "Invalid OTG_HS_ULPI_D0 Pin Configuration!" #endif // OTG_HS_ULPI_D1 Pin <0=>PB0 #define RTE_USB_OTG_HS_ULPI_D1_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D1_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D1_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D1_PIN 0 #else #error "Invalid OTG_HS_ULPI_D1 Pin Configuration!" #endif // OTG_HS_ULPI_D2 Pin <0=>PB1 #define RTE_USB_OTG_HS_ULPI_D2_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D2_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D2_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D2_PIN 1 #else #error "Invalid OTG_HS_ULPI_D2 Pin Configuration!" #endif // OTG_HS_ULPI_D3 Pin <0=>PB10 #define RTE_USB_OTG_HS_ULPI_D3_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D3_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D3_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D3_PIN 10 #else #error "Invalid OTG_HS_ULPI_D3 Pin Configuration!" #endif // OTG_HS_ULPI_D4 Pin <0=>PB11 #define RTE_USB_OTG_HS_ULPI_D4_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D4_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D4_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D4_PIN 11 #else #error "Invalid OTG_HS_ULPI_D4 Pin Configuration!" #endif // OTG_HS_ULPI_D5 Pin <0=>PB12 #define RTE_USB_OTG_HS_ULPI_D5_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D5_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D5_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D5_PIN 12 #else #error "Invalid OTG_HS_ULPI_D5 Pin Configuration!" #endif // OTG_HS_ULPI_D6 Pin <0=>PB13 #define RTE_USB_OTG_HS_ULPI_D6_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D6_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D6_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D6_PIN 13 #else #error "Invalid OTG_HS_ULPI_D6 Pin Configuration!" #endif // OTG_HS_ULPI_D7 Pin <0=>PB5 #define RTE_USB_OTG_HS_ULPI_D7_PORT_ID 0 #if (RTE_USB_OTG_HS_ULPI_D7_PORT_ID == 0) #define RTE_USB_OTG_HS_ULPI_D7_PORT GPIOB #define RTE_USB_OTG_HS_ULPI_D7_PIN 5 #else #error "Invalid OTG_HS_ULPI_D7 Pin Configuration!" #endif // // // Device [Driver_USBD1] // Configuration settings for Driver_USBD1 in component ::CMSIS Driver:USB Device #define RTE_USB_OTG_HS_DEVICE 0 // VBUS Sensing Pin // Enable or disable VBUS sensing // Relevant only if PHY Interface On-chip full-speed PHY is selected #define RTE_OTG_HS_VBUS_SENSING_PIN 0 // // Host [Driver_USBH1] // Configuration settings for Driver_USBH1 in component ::CMSIS Driver:USB Host #define RTE_USB_OTG_HS_HOST 0 // VBUS Power On/Off Pin // Configure Pin for driving VBUS // GPIO Pxy (x = A..J, y = 0..15) or (x = K, y = 0..7) // 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 <7=>GPIOH // <8=>GPIOI <8=>GPIOJ <9=>GPIOK // Selects Port Name // Bit <0-15> // Selects Port Bit // #define RTE_OTG_HS_VBUS_PIN 0 #define RTE_OTG_HS_VBUS_ACTIVE 0 #define RTE_OTG_HS_VBUS_PORT GPIO_PORT(0) #define RTE_OTG_HS_VBUS_BIT 0 // Overcurrent Detection Pin // Configure Pin for overcurrent detection // GPIO Pxy (x = A..J, y = 0..15) or (x = K, y = 0..7) // 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 <7=>GPIOH // <8=>GPIOI <8=>GPIOJ <9=>GPIOK // Selects Port Name // Bit <0-15> // Selects Port Bit // #define RTE_OTG_HS_OC_PIN 0 #define RTE_OTG_HS_OC_ACTIVE 0 #define RTE_OTG_HS_OC_PORT GPIO_PORT(0) #define RTE_OTG_HS_OC_BIT 0 // // DMA // Use dedicated DMA for transfers // If DMA is used all USB transfer data buffers have to be 4-byte aligned. #define RTE_OTG_HS_DMA 0 // #endif /* __RTE_DEVICE_H */