/* mbed Microcontroller Library * Copyright (c) 2018-2019 ARM Limited * 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 * * http://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. */ #ifndef STATIC_PINMAP_H #define STATIC_PINMAP_H #include "PinNames.h" #include "spi_api.h" #include "pwmout_api.h" #include "analogin_api.h" #include "analogout_api.h" #include "i2c_api.h" #include "serial_api.h" #include "qspi_api.h" #include "can_api.h" #include #if STATIC_PINMAP_READY #include "PeripheralPinMaps.h" #if defined(DEVICE_PWMOUT) && defined(PINMAP_PWM) MSTD_CONSTEXPR_FN_14 PinMap get_pwm_pinmap(const PinName pin) { for (const PinMap &pinmap : PINMAP_PWM) { if (pinmap.pin == pin) { return {pin, pinmap.peripheral, pinmap.function}; } } return {NC, (int) NC, (int) NC}; } #endif // DEVICE_PWMOUT #if defined(DEVICE_ANALOGIN) && defined(PINMAP_ANALOGIN) MSTD_CONSTEXPR_FN_14 PinMap get_analogin_pinmap(const PinName pin) { for (const PinMap &pinmap : PINMAP_ANALOGIN) { if (pinmap.pin == pin) { return {pin, pinmap.peripheral, pinmap.function}; } } #if PINMAP_ANALOGIN_INTERNAL for (const PinMap &pinmap : PINMAP_ANALOGIN_INTERNAL) { if (pinmap.pin == pin) { return {pin, pinmap.peripheral, pinmap.function}; } } #endif return {NC, (int) NC, (int) NC}; } #endif // DEVICE_ANALOGIN #if defined(DEVICE_ANALOGOUT) && defined(PINMAP_ANALOGOUT) MSTD_CONSTEXPR_FN_14 PinMap get_analogout_pinmap(const PinName pin) { for (const PinMap &pinmap : PINMAP_ANALOGOUT) { if (pinmap.pin == pin) { return {pin, pinmap.peripheral, pinmap.function}; } } return {NC, (int) NC, (int) NC}; } #endif // DEVICE_ANALOGOUT #if defined(DEVICE_I2C) && defined(PINMAP_I2C_SDA) && defined(PINMAP_I2C_SCL) MSTD_CONSTEXPR_FN_14 i2c_pinmap_t get_i2c_pinmap(const PinName sda, const PinName scl) { const PinMap *sda_map = nullptr; for (const PinMap &pinmap : PINMAP_I2C_SDA) { if (pinmap.pin == sda) { sda_map = &pinmap; break; } } const PinMap *scl_map = nullptr; for (const PinMap &pinmap : PINMAP_I2C_SCL) { if (pinmap.pin == scl) { scl_map = &pinmap; break; } } if (!sda_map || !scl_map || sda_map->peripheral != scl_map->peripheral) { return {(int) NC, NC, (int) NC, NC, (int) NC}; } return {sda_map->peripheral, sda_map->pin, sda_map->function, scl_map->pin, scl_map->function}; } #endif //DEVICE_I2C #if defined(DEVICE_SERIAL) && defined(PINMAP_UART_TX) && defined(PINMAP_UART_RX) MSTD_CONSTEXPR_FN_14 serial_pinmap_t get_uart_pinmap(const PinName tx, const PinName rx) { const PinMap *tx_map = nullptr; for (const PinMap &pinmap : PINMAP_UART_TX) { if (pinmap.pin == tx) { tx_map = &pinmap; break; } } const PinMap *rx_map = nullptr; for (const PinMap &pinmap : PINMAP_UART_RX) { if (pinmap.pin == rx) { rx_map = &pinmap; break; } } if (!tx_map || !rx_map || rx_map->peripheral != tx_map->peripheral) { return {(int) NC, NC, (int) NC, NC, (int) NC, false}; } if (tx_map->pin == STDIO_UART_TX && rx_map->pin == STDIO_UART_RX) { return {tx_map->peripheral, tx_map->pin, tx_map->function, rx_map->pin, rx_map->function, true}; } else { return {tx_map->peripheral, tx_map->pin, tx_map->function, rx_map->pin, rx_map->function, false}; } } #if defined(DEVICE_SERIAL_FC) && defined(PINMAP_UART_RTS) && defined(PINMAP_UART_CTS) MSTD_CONSTEXPR_FN_14 serial_fc_pinmap_t get_uart_fc_pinmap(const PinName rxflow, const PinName txflow) { const PinMap *rts_map = nullptr; for (const PinMap &pinmap : PINMAP_UART_RTS) { if (pinmap.pin == rxflow) { rts_map = &pinmap; break; } } const PinMap *cts_map = nullptr; for (const PinMap &pinmap : PINMAP_UART_CTS) { if (pinmap.pin == txflow) { cts_map = &pinmap; break; } } if ((!rts_map || !cts_map) || (rts_map->peripheral != cts_map->peripheral)) { return {(int) NC, NC, (int) NC, NC, (int) NC}; } return {cts_map->peripheral, cts_map->pin, cts_map->function, rts_map->pin, rts_map->function}; } #endif // DEVICE_SERIAL_FC #endif // DEVICE_SERIAL #if defined(DEVICE_SPI) && defined(PINMAP_SPI_MOSI) && defined(PINMAP_SPI_MISO) && defined(PINMAP_SPI_SCLK) && defined(PINMAP_SPI_SSEL) MSTD_CONSTEXPR_FN_14 spi_pinmap_t get_spi_pinmap(const PinName mosi, const PinName miso, const PinName sclk, const PinName ssel) { const PinMap *mosi_map = nullptr; for (const PinMap &pinmap : PINMAP_SPI_MOSI) { if (pinmap.pin == mosi) { mosi_map = &pinmap; break; } } const PinMap *miso_map = nullptr; for (const PinMap &pinmap : PINMAP_SPI_MISO) { if (pinmap.pin == miso) { miso_map = &pinmap; break; } } const PinMap *sclk_map = nullptr; for (const PinMap &pinmap : PINMAP_SPI_SCLK) { if (pinmap.pin == sclk) { sclk_map = &pinmap; break; } } const PinMap *ssel_map = nullptr; for (const PinMap &pinmap : PINMAP_SPI_SSEL) { if (pinmap.pin == ssel) { ssel_map = &pinmap; break; } } if ((!mosi_map || !miso_map || !sclk_map || !ssel_map) || (mosi_map->peripheral != miso_map->peripheral || mosi_map->peripheral != sclk_map->peripheral) || (ssel_map->pin != NC && mosi_map->peripheral != ssel_map->peripheral)) { return {(int) NC, NC, (int) NC, NC, (int) NC, NC, (int) NC, NC, (int) NC}; } return {mosi_map->peripheral, mosi_map->pin, mosi_map->function, miso_map->pin, miso_map->function, sclk_map->pin, sclk_map->function, ssel_map->pin, ssel_map->function}; } #endif // DEVICE_SPI #if defined(DEVICE_CAN) && defined(PINMAP_CAN_RD) && defined(PINMAP_CAN_TD) MSTD_CONSTEXPR_FN_14 can_pinmap_t get_can_pinmap(const PinName rd, const PinName td) { const PinMap *rd_map = nullptr; for (const PinMap &pinmap : PINMAP_CAN_RD) { if (pinmap.pin == rd) { rd_map = &pinmap; break; } } const PinMap *td_map = nullptr; for (const PinMap &pinmap : PINMAP_CAN_TD) { if (pinmap.pin == td) { td_map = &pinmap; break; } } if (!rd_map || !td_map || rd_map->peripheral != td_map->peripheral) { return {(int) NC, NC, (int) NC, NC, (int) NC}; } return {rd_map->peripheral, rd_map->pin, rd_map->function, td_map->pin, td_map->function}; } #endif //DEVICE_CAN #if defined(DEVICE_QSPI) && defined(PINMAP_QSPI_DATA0) && defined(PINMAP_QSPI_DATA1) && defined(PINMAP_QSPI_DATA2) && defined(PINMAP_QSPI_DATA3) && defined(PINMAP_QSPI_SCLK) && defined(PINMAP_QSPI_SSEL) MSTD_CONSTEXPR_FN_14 qspi_pinmap_t get_qspi_pinmap(const PinName data0, const PinName data1, const PinName data2, const PinName data3, const PinName sclk, const PinName ssel) { const PinMap *data0_map = nullptr; for (const PinMap &pinmap : PINMAP_QSPI_DATA0) { if (pinmap.pin == data0) { data0_map = &pinmap; break; } } const PinMap *data1_map = nullptr; for (const PinMap &pinmap : PINMAP_QSPI_DATA1) { if (pinmap.pin == data1) { data1_map = &pinmap; break; } } const PinMap *data2_map = nullptr; for (const PinMap &pinmap : PINMAP_QSPI_DATA2) { if (pinmap.pin == data2) { data2_map = &pinmap; break; } } const PinMap *data3_map = nullptr; for (const PinMap &pinmap : PINMAP_QSPI_DATA3) { if (pinmap.pin == data3) { data3_map = &pinmap; break; } } const PinMap *sclk_map = nullptr; for (const PinMap &pinmap : PINMAP_QSPI_SCLK) { if (pinmap.pin == sclk) { sclk_map = &pinmap; break; } } const PinMap *ssel_map = nullptr; for (const PinMap &pinmap : PINMAP_QSPI_SSEL) { if (pinmap.pin == ssel) { ssel_map = &pinmap; break; } } if (!data0_map || !data1_map || !data2_map || !data3_map || !sclk_map || !ssel_map || data0_map->peripheral != data1_map->peripheral || data0_map->peripheral != data2_map->peripheral || data0_map->peripheral != data3_map->peripheral || data0_map->peripheral != sclk_map->peripheral || data0_map->peripheral != ssel_map->peripheral) { return {(int) NC, NC, (int) NC, NC, (int) NC, NC, (int) NC, NC, (int) NC}; } return {data0_map->peripheral, data0_map->pin, data0_map->function, data1_map->pin, data1_map->function, data2_map->pin, data2_map->function, data3_map->pin, data3_map->function, sclk_map->pin, sclk_map->function, ssel_map->pin, ssel_map->function}; } #endif //DEVICE_QSPI #else // STATIC_PINMAP_READY #if DEVICE_PWMOUT MSTD_CONSTEXPR_FN_14 PinMap get_pwm_pinmap(const PinName pin) { return {pin, (int) NC, (int) NC}; } #endif // DEVICE_PWMOUT #if DEVICE_ANALOGIN MSTD_CONSTEXPR_FN_14 PinMap get_analogin_pinmap(const PinName pin) { return {pin, (int) NC, (int) NC}; } #endif // DEVICE_ANALOGIN #if DEVICE_ANALOGOUT MSTD_CONSTEXPR_FN_14 PinMap get_analogout_pinmap(const PinName pin) { return {pin, (int) NC, (int) NC}; } #endif // DEVICE_ANALOGOUT #if DEVICE_I2C MSTD_CONSTEXPR_FN_14 i2c_pinmap_t get_i2c_pinmap(const PinName sda, const PinName scl) { return {(int) NC, sda, (int) NC, scl, (int) NC}; } #endif //DEVICE_I2C #if DEVICE_SERIAL MSTD_CONSTEXPR_FN_14 serial_pinmap_t get_uart_pinmap(const PinName tx, const PinName rx) { return {(int) NC, tx, (int) NC, rx, (int) NC, false}; } #if DEVICE_SERIAL_FC MSTD_CONSTEXPR_FN_14 serial_fc_pinmap_t get_uart_fc_pinmap(const PinName rxflow, const PinName txflow) { return {(int) NC, txflow, (int) NC, rxflow, (int) NC}; } #endif // DEVICE_SERIAL_FC #endif // DEVICE_SERIAL #if DEVICE_SPI MSTD_CONSTEXPR_FN_14 spi_pinmap_t get_spi_pinmap(const PinName mosi, const PinName miso, const PinName sclk, const PinName ssel) { return {(int) NC, mosi, (int) NC, miso, (int) NC, sclk, (int) NC, ssel, (int) NC}; } #endif // DEVICE_SERIAL #if DEVICE_CAN MSTD_CONSTEXPR_FN_14 can_pinmap_t get_can_pinmap(const PinName rd, const PinName td) { return {(int) NC, rd, (int) NC, td, (int) NC}; } #endif //DEVICE_CAN #if DEVICE_QSPI MSTD_CONSTEXPR_FN_14 qspi_pinmap_t get_qspi_pinmap(const PinName data0, const PinName data1, const PinName data2, const PinName data3, const PinName sclk, const PinName ssel) { return {(int) NC, data0, (int) NC, data1, (int) NC, data2, (int) NC, data3, (int) NC, sclk, (int) NC, ssel, (int) NC}; } #endif //DEVICE_QSPI #endif // STATIC_PINMAP_READY #endif // STATIC_PINMAP_H