/* * Author: Thomas Ingleby * Copyright (c) 2014 Intel Corporation. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include "common.h" #include "x86/intel_galileo_rev_d.h" #define UIO_PATH "/dev/uio0" #define PLATFORM_NAME "Intel Galileo Gen 1" static uint8_t* mmap_reg = NULL; static int mmap_fd = 0; static int mmap_size = 0x1000; static unsigned int mmap_count = 0; static mraa_result_t mraa_intel_galileo_g1_mmap_unsetup() { if (mmap_reg == NULL) { syslog(LOG_WARNING, "galileo1: Mmap null register nothing to unsetup"); return MRAA_ERROR_INVALID_RESOURCE; } munmap(mmap_reg, mmap_size); mmap_reg = NULL; close(mmap_fd); return MRAA_SUCCESS; } mraa_result_t mraa_intel_galileo_g1_mmap_write(mraa_gpio_context dev, int value) { int bitpos = plat->pins[dev->phy_pin].mmap.bit_pos; if (value) { *((unsigned*) mmap_reg) |= (1 << bitpos); return MRAA_SUCCESS; } *((unsigned*) mmap_reg) &= ~(1 << bitpos); return MRAA_SUCCESS; } mraa_result_t mraa_intel_galileo_g1_mmap_setup(mraa_gpio_context dev, mraa_boolean_t en) { if (dev == NULL) { syslog(LOG_ERR, "galileo1: Gpio context not valid"); return MRAA_ERROR_INVALID_HANDLE; } if (mraa_pin_mode_test(dev->phy_pin, MRAA_PIN_FAST_GPIO) == 0) { syslog(LOG_WARNING, "galileo1: Mmap not available on this pin"); return MRAA_ERROR_NO_RESOURCES; } if (en == 0) { if (dev->mmap_write == NULL) { syslog(LOG_NOTICE, "galileo1: Can't disable disabled mmap gpio"); return MRAA_ERROR_INVALID_PARAMETER; } dev->mmap_write = NULL; mmap_count--; if (mmap_count == 0) { return mraa_intel_galileo_g1_mmap_unsetup(); } return MRAA_SUCCESS; } if (dev->mmap_write != NULL) { syslog(LOG_ERR, "galileo1: Can't enable enabled mmap gpio"); return MRAA_ERROR_INVALID_PARAMETER; } if (mmap_reg == NULL) { if ((mmap_fd = open(UIO_PATH, O_RDWR)) < 0) { syslog(LOG_ERR, "galileo1: Unable to open UIO device"); return MRAA_ERROR_INVALID_RESOURCE; } mmap_reg = mmap(NULL, mmap_size, PROT_READ | PROT_WRITE, MAP_SHARED, mmap_fd, 0); if (mmap_reg == MAP_FAILED) { syslog(LOG_ERR, "galileo1: Mmap failed to mmap"); mmap_reg = NULL; close(mmap_fd); return MRAA_ERROR_NO_RESOURCES; } } if (mraa_setup_mux_mapped(plat->pins[dev->phy_pin].mmap.gpio) != MRAA_SUCCESS) { syslog(LOG_ERR, "galileo1: Unable to setup required multiplexers for mmap"); return MRAA_ERROR_INVALID_RESOURCE; } dev->mmap_write = &mraa_intel_galileo_g1_mmap_write; return MRAA_SUCCESS; } mraa_result_t mraa_intel_galileo_g1_spi_lsbmode_replace(mraa_spi_context dev, mraa_boolean_t lsb) { uint8_t lsb_mode = (uint8_t) lsb; // Galileo Gen1 doesn't support LSB_FIRST, we need to react appropriately if (!lsb) { if (ioctl(dev->devfd, SPI_IOC_WR_LSB_FIRST, &lsb_mode) < 0) { syslog(LOG_ERR, "spi: Failed to set bit order"); return MRAA_ERROR_INVALID_RESOURCE; } if (ioctl(dev->devfd, SPI_IOC_RD_LSB_FIRST, &lsb_mode) < 0) { syslog(LOG_ERR, "spi: Failed to set bit order"); return MRAA_ERROR_INVALID_RESOURCE; } } else { return MRAA_ERROR_FEATURE_NOT_SUPPORTED; } dev->lsb = lsb; return MRAA_SUCCESS; } mraa_result_t mraa_intel_galileo_g1_pwm_init_pre(int pin) { // Gen1 galileo has no kernel muxing for GPIOs/PWM so ends up with leakage // on the PWM pins from the GPIO pins if not set to output high if (plat->pins[pin].capabilities.gpio == 1) { mraa_gpio_context mux_i; mux_i = mraa_gpio_init_raw(plat->pins[pin].gpio.pinmap); if (mux_i == NULL) { syslog(LOG_ERR, "pwm_init: error in gpio->pwm%i transition. gpio_init", pin); return MRAA_ERROR_INVALID_RESOURCE; } if (mraa_gpio_dir(mux_i, MRAA_GPIO_OUT) != MRAA_SUCCESS) { syslog(LOG_ERR, "pwm_init: error in gpio->pwm%i transition. gpio_dir", pin); return MRAA_ERROR_INVALID_RESOURCE; } if (mraa_gpio_write(mux_i, 1) != MRAA_SUCCESS) { syslog(LOG_ERR, "pwm_init: error in gpio->pwm%i transition. gpio_write", pin); return MRAA_ERROR_INVALID_RESOURCE; } if (mraa_gpio_close(mux_i) != MRAA_SUCCESS) { syslog(LOG_ERR, "pwm_init: error in gpio->pwm%i transition. gpio_close", pin); return MRAA_ERROR_INVALID_RESOURCE; } } return MRAA_SUCCESS; } mraa_board_t* mraa_intel_galileo_rev_d() { mraa_board_t* b = (mraa_board_t*) calloc(1, sizeof(mraa_board_t)); if (b == NULL) { return NULL; } b->platform_name = PLATFORM_NAME; b->phy_pin_count = 20; b->gpio_count = 14; b->aio_count = 6; b->uart_dev_count = 2; b->adc_raw = 12; b->adc_supported = 10; b->pwm_default_period = 500; b->pwm_max_period = 7968; b->pwm_min_period = 1; b->adv_func = (mraa_adv_func_t*) calloc(1, sizeof(mraa_adv_func_t)); if (b->adv_func == NULL) { goto error; } b->adv_func->gpio_mmap_setup = &mraa_intel_galileo_g1_mmap_setup; b->adv_func->spi_lsbmode_replace = &mraa_intel_galileo_g1_spi_lsbmode_replace; b->adv_func->pwm_init_pre = mraa_intel_galileo_g1_pwm_init_pre; b->pins = (mraa_pininfo_t*) calloc(MRAA_INTEL_GALILEO_REV_D_PINCOUNT, sizeof(mraa_pininfo_t)); if (b->pins == NULL) { free(b->adv_func); goto error; } // GPIO IO0 - IO10 strncpy(b->pins[0].name, "IO0", 8); b->pins[0].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 0, 1 }; b->pins[0].gpio.pinmap = 50; b->pins[0].gpio.parent_id = 0; b->pins[0].gpio.mux_total = 1; b->pins[0].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[0].gpio.mux[0].pin = 40; b->pins[0].gpio.mux[0].value = 1; b->pins[0].uart.pinmap = 0; b->pins[0].uart.parent_id = 0; b->pins[0].uart.mux_total = 1; b->pins[0].uart.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[0].uart.mux[0].pin = 40; b->pins[0].uart.mux[0].value = 0; strncpy(b->pins[1].name, "IO1", 8); b->pins[1].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 0, 1 }; b->pins[1].gpio.pinmap = 51; b->pins[1].gpio.mux_total = 1; b->pins[1].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[1].gpio.mux[0].pin = 41; b->pins[1].gpio.mux[0].value = 1; b->pins[1].uart.pinmap = 0; b->pins[1].uart.parent_id = 0; b->pins[1].uart.mux_total = 1; b->pins[1].uart.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[1].uart.mux[0].pin = 41; b->pins[1].uart.mux[0].value = 0; strncpy(b->pins[2].name, "IO2", 8); b->pins[2].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 1, 0, 0, 0, 0 }; b->pins[2].gpio.pinmap = 32; b->pins[2].gpio.mux_total = 1; b->pins[2].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[2].gpio.mux[0].pin = 31; b->pins[2].gpio.mux[0].value = 1; b->pins[2].mmap.gpio.pinmap = 14; strncpy(b->pins[2].mmap.mem_dev, "/dev/uio0", 12); b->pins[2].mmap.gpio.mux_total = 3; b->pins[2].mmap.gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[2].mmap.gpio.mux[0].pin = 0; b->pins[2].mmap.gpio.mux[0].value = 0; b->pins[2].mmap.gpio.mux[1].pincmd = PINCMD_SET_OUT_VALUE; b->pins[2].mmap.gpio.mux[1].pin = 31; b->pins[2].mmap.gpio.mux[1].value = 0; b->pins[2].mmap.gpio.mux[2].pincmd = PINCMD_SET_OUT_VALUE; b->pins[2].mmap.gpio.mux[2].pin = 14; b->pins[2].mmap.gpio.mux[2].value = 0; b->pins[2].mmap.mem_sz = 0x1000; b->pins[2].mmap.bit_pos = 6; strncpy(b->pins[3].name, "IO3", 8); b->pins[3].capabilities = (mraa_pincapabilities_t){ 1, 1, 1, 1, 0, 0, 0, 0 }; b->pins[3].gpio.pinmap = 18; b->pins[3].gpio.mux_total = 1; b->pins[3].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[3].gpio.mux[0].pin = 30; b->pins[3].gpio.mux[0].value = 1; b->pins[3].mmap.gpio.pinmap = 15; strncpy(b->pins[3].mmap.mem_dev, "/dev/uio0", 12); b->pins[3].mmap.gpio.mux_total = 3; b->pins[3].mmap.gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[3].mmap.gpio.mux[0].pin = 1; b->pins[3].mmap.gpio.mux[0].value = 0; b->pins[3].mmap.gpio.mux[1].pincmd = PINCMD_SET_OUT_VALUE; b->pins[3].mmap.gpio.mux[1].pin = 30; b->pins[3].mmap.gpio.mux[1].value = 0; b->pins[3].mmap.gpio.mux[2].pincmd = PINCMD_SET_OUT_VALUE; b->pins[3].mmap.gpio.mux[2].pin = 15; b->pins[3].mmap.gpio.mux[2].value = 0; b->pins[3].mmap.mem_sz = 0x1000; b->pins[3].mmap.bit_pos = 7; b->pins[3].pwm.pinmap = 3; b->pins[3].pwm.parent_id = 0; b->pins[3].pwm.mux_total = 1; b->pins[3].pwm.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[3].pwm.mux[0].pin = 30; b->pins[3].pwm.mux[0].value = 1; strncpy(b->pins[4].name, "IO4", 8); b->pins[4].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 0, 0 }; b->pins[4].gpio.pinmap = 28; b->pins[4].gpio.mux_total = 0; strncpy(b->pins[5].name, "IO5", 8); b->pins[5].capabilities = (mraa_pincapabilities_t){ 1, 1, 1, 0, 0, 0, 0, 0 }; b->pins[5].gpio.pinmap = 17; b->pins[5].gpio.mux_total = 0; b->pins[5].pwm.pinmap = 5; b->pins[5].pwm.parent_id = 0; b->pins[5].pwm.mux_total = 0; strncpy(b->pins[6].name, "IO6", 8); b->pins[6].gpio.pinmap = 24; b->pins[6].capabilities = (mraa_pincapabilities_t){ 1, 1, 1, 0, 0, 0, 0, 0 }; b->pins[6].gpio.mux_total = 0; b->pins[6].pwm.pinmap = 6; b->pins[6].pwm.parent_id = 0; b->pins[6].pwm.mux_total = 0; strncpy(b->pins[7].name, "IO7", 8); b->pins[7].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 0, 0 }; b->pins[7].gpio.pinmap = 27; b->pins[7].gpio.mux_total = 0; strncpy(b->pins[8].name, "IO8", 8); b->pins[8].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 0, 0 }; b->pins[8].gpio.pinmap = 26; b->pins[8].gpio.mux_total = 0; strncpy(b->pins[9].name, "IO9", 8); b->pins[9].capabilities = (mraa_pincapabilities_t){ 1, 1, 1, 0, 0, 0, 0, 0 }; b->pins[9].gpio.pinmap = 19; b->pins[9].gpio.mux_total = 0; b->pins[9].pwm.pinmap = 1; b->pins[9].pwm.parent_id = 0; b->pins[9].pwm.mux_total = 0; strncpy(b->pins[10].name, "IO10", 8); b->pins[10].capabilities = (mraa_pincapabilities_t){ 1, 1, 1, 0, 1, 0, 0, 0 }; b->pins[10].gpio.pinmap = 16; b->pins[10].gpio.mux_total = 1; b->pins[10].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[10].gpio.mux[0].pin = 42; b->pins[10].gpio.mux[0].value = 1; b->pins[10].pwm.pinmap = 7; b->pins[10].pwm.parent_id = 0; b->pins[10].pwm.mux_total = 1; b->pins[10].pwm.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[10].pwm.mux[0].pin = 42; b->pins[10].pwm.mux[0].value = 1; b->pins[10].spi.pinmap = 1; b->pins[10].spi.mux_total = 1; b->pins[10].spi.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[10].spi.mux[0].pin = 42; b->pins[10].spi.mux[0].value = 0; strncpy(b->pins[11].name, "IO11", 8); b->pins[11].capabilities = (mraa_pincapabilities_t){ 1, 1, 1, 0, 1, 0, 0, 0 }; b->pins[11].gpio.pinmap = 25; b->pins[11].gpio.mux_total = 1; b->pins[11].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[11].gpio.mux[0].pin = 43; b->pins[11].gpio.mux[0].value = 1; b->pins[11].pwm.pinmap = 4; b->pins[11].pwm.parent_id = 0; b->pins[11].pwm.mux_total = 1; b->pins[11].pwm.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[11].pwm.mux[0].pin = 43; b->pins[11].pwm.mux[0].value = 1; b->pins[11].spi.pinmap = 1; b->pins[11].spi.mux_total = 1; b->pins[11].spi.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[11].spi.mux[0].pin = 43; b->pins[11].spi.mux[0].value = 0; strncpy(b->pins[12].name, "IO12", 8); b->pins[12].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 1, 0, 0, 0 }; b->pins[12].gpio.pinmap = 38; b->pins[12].gpio.mux_total = 1; b->pins[12].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[12].gpio.mux[0].pin = 54; b->pins[12].gpio.mux[0].value = 1; b->pins[12].spi.pinmap = 1; b->pins[12].spi.mux_total = 1; b->pins[12].spi.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[12].spi.mux[0].pin = 54; b->pins[12].spi.mux[0].value = 0; strncpy(b->pins[13].name, "IO13", 8); b->pins[13].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 1, 0, 0, 0 }; b->pins[13].gpio.pinmap = 39; b->pins[13].gpio.mux_total = 1; b->pins[13].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[13].gpio.mux[0].pin = 55; b->pins[13].gpio.mux[0].value = 1; b->pins[13].spi.pinmap = 1; b->pins[13].spi.mux_total = 1; b->pins[13].spi.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[13].spi.mux[0].pin = 55; b->pins[13].spi.mux[0].value = 0; strncpy(b->pins[14].name, "A0", 8); b->pins[14].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 1, 0 }; b->pins[14].gpio.pinmap = 44; b->pins[14].gpio.mux_total = 1; b->pins[14].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[14].gpio.mux[0].pin = 37; b->pins[14].gpio.mux[0].value = 1; b->pins[14].aio.pinmap = 0; b->pins[14].aio.mux_total = 1; b->pins[14].aio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[14].aio.mux[0].pin = 37; b->pins[14].aio.mux[0].value = 0; strncpy(b->pins[15].name, "A1", 8); b->pins[15].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 1, 0 }; b->pins[15].gpio.pinmap = 45; b->pins[15].gpio.mux_total = 1; b->pins[15].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[15].gpio.mux[0].pin = 36; b->pins[15].gpio.mux[0].value = 1; b->pins[15].aio.pinmap = 1; b->pins[15].aio.mux_total = 1; b->pins[15].aio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[15].aio.mux[0].pin = 36; b->pins[15].aio.mux[0].value = 0; strncpy(b->pins[16].name, "A2", 8); b->pins[16].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 1, 0 }; b->pins[16].gpio.pinmap = 46; b->pins[16].gpio.mux_total = 1; b->pins[16].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[16].gpio.mux[0].pin = 23; b->pins[16].gpio.mux[0].value = 1; b->pins[16].aio.pinmap = 2; b->pins[16].aio.mux_total = 1; b->pins[16].aio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[16].aio.mux[0].pin = 23; b->pins[16].aio.mux[0].value = 0; strncpy(b->pins[17].name, "A3", 8); b->pins[17].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 0, 1, 0 }; b->pins[17].gpio.pinmap = 47; b->pins[17].gpio.mux_total = 1; b->pins[17].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[17].gpio.mux[0].pin = 22; b->pins[17].gpio.mux[0].value = 1; b->pins[17].aio.pinmap = 3; b->pins[17].aio.mux_total = 1; b->pins[17].aio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[17].aio.mux[0].pin = 22; b->pins[17].aio.mux[0].value = 0; strncpy(b->pins[18].name, "A4", 8); b->pins[18].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 1, 1, 0 }; b->pins[18].gpio.pinmap = 48; b->pins[18].gpio.mux_total = 2; b->pins[18].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[18].gpio.mux[0].pin = 29; b->pins[18].gpio.mux[0].value = 1; b->pins[18].gpio.mux[1].pincmd = PINCMD_SET_OUT_VALUE; b->pins[18].gpio.mux[1].pin = 21; b->pins[18].gpio.mux[1].value = 1; b->pins[18].i2c.pinmap = 1; b->pins[18].i2c.mux_total = 1; b->pins[18].i2c.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[18].i2c.mux[0].pin = 29; b->pins[18].i2c.mux[0].value = 0; b->pins[18].aio.pinmap = 4; b->pins[18].aio.mux_total = 2; b->pins[18].aio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[18].aio.mux[0].pin = 29; b->pins[18].aio.mux[0].value = 1; b->pins[18].aio.mux[1].pincmd = PINCMD_SET_OUT_VALUE; b->pins[18].aio.mux[1].pin = 21; b->pins[18].aio.mux[1].value = 0; strncpy(b->pins[19].name, "A5", 8); b->pins[19].capabilities = (mraa_pincapabilities_t){ 1, 1, 0, 0, 0, 1, 1, 0 }; b->pins[19].gpio.pinmap = 49; b->pins[19].gpio.mux_total = 2; b->pins[19].gpio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[19].gpio.mux[0].pin = 29; b->pins[19].gpio.mux[0].value = 1; b->pins[19].gpio.mux[1].pincmd = PINCMD_SET_OUT_VALUE; b->pins[19].gpio.mux[1].pin = 20; b->pins[19].gpio.mux[1].value = 1; b->pins[19].i2c.pinmap = 1; b->pins[19].i2c.mux_total = 1; b->pins[19].i2c.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[19].i2c.mux[0].pin = 29; b->pins[19].i2c.mux[0].value = 0; b->pins[19].aio.pinmap = 5; b->pins[19].aio.mux_total = 2; b->pins[19].aio.mux[0].pincmd = PINCMD_SET_OUT_VALUE; b->pins[19].aio.mux[0].pin = 29; b->pins[19].aio.mux[0].value = 1; b->pins[19].aio.mux[1].pincmd = PINCMD_SET_OUT_VALUE; b->pins[19].aio.mux[1].pin = 20; b->pins[19].aio.mux[1].value = 0; // BUS DEFINITIONS b->i2c_bus_count = 1; b->def_i2c_bus = 0; b->i2c_bus[0].bus_id = 0; b->i2c_bus[0].sda = 18; b->i2c_bus[0].scl = 19; b->spi_bus_count = 1; b->def_spi_bus = 0; b->spi_bus[0].bus_id = 1; b->spi_bus[0].slave_s = 0; b->spi_bus[0].cs = 10; b->spi_bus[0].mosi = 11; b->spi_bus[0].miso = 12; b->spi_bus[0].sclk = 13; b->uart_dev_count = 2; b->def_uart_dev = 0; b->uart_dev[0].rx = 0; b->uart_dev[0].tx = 1; b->uart_dev[0].device_path = "/dev/ttyS0"; b->uart_dev[1].rx = -1; b->uart_dev[1].tx = -1; b->uart_dev[1].device_path = "/dev/ttyS1"; return b; error: syslog(LOG_CRIT, "galileo1: Platform failed to initialise"); free(b); return NULL; }