/* * Author: Thomas Ingleby <thomas.c.ingleby@intel.com> * Author: Brendan Le Foll <brendan.le.foll@intel.com> * Copyright (c) 2014, 2015 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 "gpio.h" #include "mraa_internal.h" #include <stdlib.h> #include <fcntl.h> #include <string.h> #include <unistd.h> #include <poll.h> #include <pthread.h> #include <signal.h> #include <sys/stat.h> #include <sys/mman.h> #define SYSFS_CLASS_GPIO "/sys/class/gpio" #define MAX_SIZE 64 #define POLL_TIMEOUT static mraa_result_t mraa_gpio_get_valfp(mraa_gpio_context dev) { char bu[MAX_SIZE]; sprintf(bu, SYSFS_CLASS_GPIO "/gpio%d/value", dev->pin); dev->value_fp = open(bu, O_RDWR); if (dev->value_fp == -1) { return MRAA_ERROR_INVALID_RESOURCE; } return MRAA_SUCCESS; } static mraa_gpio_context mraa_gpio_init_internal(mraa_adv_func_t* func_table, int pin) { if (pin < 0) return NULL; mraa_result_t status = MRAA_SUCCESS; char bu[MAX_SIZE]; int length; mraa_gpio_context dev = (mraa_gpio_context) calloc(1, sizeof(struct _gpio)); if (dev == NULL) { syslog(LOG_CRIT, "gpio: Failed to allocate memory for context"); return NULL; } dev->advance_func = func_table; dev->pin = pin; if (IS_FUNC_DEFINED(dev, gpio_init_internal_replace)) { status = dev->advance_func->gpio_init_internal_replace(dev, pin); if (status == MRAA_SUCCESS) return dev; else goto init_internal_cleanup; } if (IS_FUNC_DEFINED(dev, gpio_init_pre)) { status = dev->advance_func->gpio_init_pre(pin); if (status != MRAA_SUCCESS) goto init_internal_cleanup; } dev->value_fp = -1; dev->isr_value_fp = -1; #ifndef HAVE_PTHREAD_CANCEL dev->isr_control_pipe[0] = dev->isr_control_pipe[1] = -1; #endif dev->isr_thread_terminating = 0; dev->phy_pin = -1; // then check to make sure the pin is exported. char directory[MAX_SIZE]; snprintf(directory, MAX_SIZE, SYSFS_CLASS_GPIO "/gpio%d/", dev->pin); struct stat dir; if (stat(directory, &dir) == 0 && S_ISDIR(dir.st_mode)) { dev->owner = 0; // Not Owner } else { int export = open(SYSFS_CLASS_GPIO "/export", O_WRONLY); if (export == -1) { syslog(LOG_ERR, "gpio: Failed to open export for writing"); status = MRAA_ERROR_NO_RESOURCES; goto init_internal_cleanup; } length = snprintf(bu, sizeof(bu), "%d", dev->pin); if (write(export, bu, length * sizeof(char)) == -1) { syslog(LOG_ERR, "gpio: Failed to write %d to export", dev->pin); close(export); status = MRAA_ERROR_NO_RESOURCES; goto init_internal_cleanup; } dev->owner = 1; close(export); } init_internal_cleanup: if (status != MRAA_SUCCESS) { if (dev != NULL) free(dev); return NULL; } return dev; } mraa_gpio_context mraa_gpio_init(int pin) { mraa_board_t* board = plat; if (board == NULL) { syslog(LOG_ERR, "gpio: platform not initialised"); return NULL; } if (mraa_is_sub_platform_id(pin)) { syslog(LOG_NOTICE, "gpio: Using sub platform"); board = board->sub_platform; if (board == NULL) { syslog(LOG_ERR, "gpio: Sub platform Not Initialised"); return NULL; } pin = mraa_get_sub_platform_index(pin); } if (pin < 0 || pin > board->phy_pin_count) { syslog(LOG_ERR, "gpio: pin %i beyond platform definition", pin); return NULL; } if (board->pins[pin].capabilites.gpio != 1) { syslog(LOG_ERR, "gpio: pin %i not capable of gpio", pin); return NULL; } if (board->pins[pin].gpio.mux_total > 0) { if (mraa_setup_mux_mapped(board->pins[pin].gpio) != MRAA_SUCCESS) { syslog(LOG_ERR, "gpio: unable to setup muxes"); return NULL; } } mraa_gpio_context r = mraa_gpio_init_internal(board->adv_func, board->pins[pin].gpio.pinmap); if (r == NULL) { syslog(LOG_CRIT, "gpio: mraa_gpio_init_raw(%d) returned error", pin); return NULL; } if (r->phy_pin == -1) r->phy_pin = pin; if (IS_FUNC_DEFINED(r, gpio_init_post)) { mraa_result_t ret = r->advance_func->gpio_init_post(r); if (ret != MRAA_SUCCESS) { free(r); return NULL; } } return r; } mraa_gpio_context mraa_gpio_init_raw(int pin) { return mraa_gpio_init_internal(plat == NULL ? NULL : plat->adv_func , pin); } static mraa_result_t mraa_gpio_wait_interrupt(int fd #ifndef HAVE_PTHREAD_CANCEL , int control_fd #endif ) { unsigned char c; #ifdef HAVE_PTHREAD_CANCEL struct pollfd pfd[1]; #else struct pollfd pfd[2]; if (control_fd < 0) { return MRAA_ERROR_INVALID_RESOURCE; } #endif if (fd < 0) { return MRAA_ERROR_INVALID_RESOURCE; } // setup poll on POLLPRI pfd[0].fd = fd; pfd[0].events = POLLPRI; // do an initial read to clear interrupt lseek(fd, 0, SEEK_SET); read(fd, &c, 1); #ifdef HAVE_PTHREAD_CANCEL // Wait for it forever or until pthread_cancel // poll is a cancelable point like sleep() int x = poll(pfd, 1, -1); #else // setup poll on the controling fd pfd[1].fd = control_fd; pfd[1].events = 0; // POLLHUP, POLLERR, and POLLNVAL // Wait for it forever or until control fd is closed int x = poll(pfd, 2, -1); #endif // do a final read to clear interrupt read(fd, &c, 1); return MRAA_SUCCESS; } #if defined(SWIGJAVA) || defined(JAVACALLBACK) pthread_key_t env_key; extern JavaVM *globVM; static pthread_once_t env_key_init = PTHREAD_ONCE_INIT; jmethodID runGlobal; static void make_env_key(void) { JNIEnv *jenv; (*globVM)->GetEnv(globVM, (void **)&jenv, JNI_VERSION_1_8); jclass rcls = (*jenv)->FindClass(jenv, "java/lang/Runnable"); jmethodID runm = (*jenv)->GetMethodID(jenv, rcls, "run", "()V"); runGlobal = (jmethodID)(*jenv)->NewGlobalRef(jenv, (jobject)runm); pthread_key_create(&env_key, NULL); } void mraa_java_isr_callback(void* data) { JNIEnv *jenv = (JNIEnv *) pthread_getspecific(env_key); (*jenv)->CallVoidMethod(jenv, (jobject)data, runGlobal); } #endif static void* mraa_gpio_interrupt_handler(void* arg) { mraa_gpio_context dev = (mraa_gpio_context) arg; if (IS_FUNC_DEFINED(dev, gpio_interrupt_handler_replace)) return dev->advance_func->gpio_interrupt_handler_replace(dev); mraa_result_t ret; // open gpio value with open(3) char bu[MAX_SIZE]; sprintf(bu, SYSFS_CLASS_GPIO "/gpio%d/value", dev->pin); int fp = open(bu, O_RDONLY); if (fp < 0) { syslog(LOG_ERR, "gpio: failed to open gpio%d/value", dev->pin); return NULL; } #ifndef HAVE_PTHREAD_CANCEL if (pipe(dev->isr_control_pipe)) { syslog(LOG_ERR, "gpio: failed to create isr control pipe"); close(fp); return NULL; } #endif dev->isr_value_fp = fp; #if defined(SWIGJAVA) || defined(JAVACALLBACK) JNIEnv *jenv; if(dev->isr == mraa_java_isr_callback) { jint err = (*globVM)->AttachCurrentThreadAsDaemon(globVM, (void **)&jenv, NULL); if (err != JNI_OK) { close(dev->isr_value_fp); dev->isr_value_fp = -1; return NULL; } pthread_once(&env_key_init, make_env_key); pthread_setspecific(env_key, jenv); } #endif for (;;) { ret = mraa_gpio_wait_interrupt(dev->isr_value_fp #ifndef HAVE_PTHREAD_CANCEL , dev->isr_control_pipe[0] #endif ); if (ret == MRAA_SUCCESS && !dev->isr_thread_terminating) { #ifdef HAVE_PTHREAD_CANCEL pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, NULL); #endif #ifdef SWIGPYTHON // In order to call a python object (all python functions are objects) we // need to aquire the GIL (Global Interpreter Lock). This may not always be // necessary but especially if doing IO (like print()) python will segfault // if we do not hold a lock on the GIL PyGILState_STATE gilstate = PyGILState_Ensure(); PyObject* arglist; PyObject* ret; arglist = Py_BuildValue("(O)", dev->isr_args); if (arglist == NULL) { syslog(LOG_ERR, "gpio: Py_BuildValue NULL"); } else { ret = PyEval_CallObject((PyObject*) dev->isr, arglist); if (ret == NULL) { syslog(LOG_ERR, "gpio: PyEval_CallObject failed"); PyObject *pvalue, *ptype, *ptraceback; PyObject *pvalue_pystr, *ptype_pystr, *ptraceback_pystr; char *pvalue_cstr, *ptype_cstr, *ptraceback_cstr; PyErr_Fetch(&pvalue, &ptype, &ptraceback); pvalue_pystr = PyObject_Str(pvalue); ptype_pystr = PyObject_Str(ptype); ptraceback_pystr = PyObject_Str(ptraceback); // Python2 #if PY_VERSION_HEX < 0x03000000 pvalue_cstr = PyString_AsString(pvalue_pystr); ptype_cstr = PyString_AsString(ptype_pystr); ptraceback_cstr = PyString_AsString(ptraceback_pystr); // Python 3 and up #elif PY_VERSION_HEX >= 0x03000000 // In Python 3 we need one extra conversion PyObject *pvalue_ustr, *ptype_ustr, *ptraceback_ustr; pvalue_ustr = PyUnicode_AsUTF8String(pvalue_pystr); pvalue_cstr = PyBytes_AsString(pvalue_ustr); ptype_ustr = PyUnicode_AsUTF8String(ptype_pystr); ptype_cstr = PyBytes_AsString(ptype_ustr); ptraceback_ustr = PyUnicode_AsUTF8String(ptraceback_pystr); ptraceback_cstr = PyBytes_AsString(ptraceback_ustr); #endif // PY_VERSION_HEX syslog(LOG_ERR, "gpio: the error was %s:%s:%s", pvalue_cstr, ptype_cstr, ptraceback_cstr ); Py_XDECREF(pvalue); Py_XDECREF(ptype); Py_XDECREF(ptraceback); Py_XDECREF(pvalue_pystr); Py_XDECREF(ptype_pystr); Py_XDECREF(ptraceback_pystr); // Python 3 and up #if PY_VERSION_HEX >= 0x03000000 Py_XDECREF(pvalue_ustr); Py_XDECREF(ptype_ustr); Py_XDECREF(ptraceback_ustr); #endif // PY_VERSION_HEX } else { Py_DECREF(ret); } Py_DECREF(arglist); } PyGILState_Release(gilstate); #else dev->isr(dev->isr_args); #endif #ifdef HAVE_PTHREAD_CANCEL pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL); #endif } else { // we must have got an error code or exit request so die nicely #ifdef HAVE_PTHREAD_CANCEL pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, NULL); #endif close(dev->isr_value_fp); dev->isr_value_fp = -1; #if defined(SWIGJAVA) || defined(JAVACALLBACK) if(dev->isr == mraa_java_isr_callback) { (*jenv)->DeleteGlobalRef(jenv, (jobject)dev->isr_args); (*globVM)->DetachCurrentThread(globVM); } #endif return NULL; } } } mraa_result_t mraa_gpio_edge_mode(mraa_gpio_context dev, mraa_gpio_edge_t mode) { if (IS_FUNC_DEFINED(dev, gpio_edge_mode_replace)) return dev->advance_func->gpio_edge_mode_replace(dev, mode); if (dev->value_fp != -1) { close(dev->value_fp); dev->value_fp = -1; } char filepath[MAX_SIZE]; snprintf(filepath, MAX_SIZE, SYSFS_CLASS_GPIO "/gpio%d/edge", dev->pin); int edge = open(filepath, O_RDWR); if (edge == -1) { syslog(LOG_ERR, "gpio: Failed to open edge for writing"); return MRAA_ERROR_INVALID_RESOURCE; } char bu[MAX_SIZE]; int length; switch (mode) { case MRAA_GPIO_EDGE_NONE: length = snprintf(bu, sizeof(bu), "none"); break; case MRAA_GPIO_EDGE_BOTH: length = snprintf(bu, sizeof(bu), "both"); break; case MRAA_GPIO_EDGE_RISING: length = snprintf(bu, sizeof(bu), "rising"); break; case MRAA_GPIO_EDGE_FALLING: length = snprintf(bu, sizeof(bu), "falling"); break; default: close(edge); return MRAA_ERROR_FEATURE_NOT_IMPLEMENTED; } if (write(edge, bu, length * sizeof(char)) == -1) { syslog(LOG_ERR, "gpio: Failed to write to edge"); close(edge); return MRAA_ERROR_INVALID_RESOURCE; } close(edge); return MRAA_SUCCESS; } mraa_result_t mraa_gpio_isr(mraa_gpio_context dev, mraa_gpio_edge_t mode, void (*fptr)(void*), void* args) { // we only allow one isr per mraa_gpio_context if (dev->thread_id != 0) { return MRAA_ERROR_NO_RESOURCES; } if (MRAA_SUCCESS != mraa_gpio_edge_mode(dev, mode)) { return MRAA_ERROR_UNSPECIFIED; } dev->isr = fptr; #if defined(SWIGJAVA) || defined(JAVACALLBACK) JNIEnv *jenv; /* Most UPM sensors use the C API, the global ref must be created here. */ /* The reason for checking the callback function is internal callbacks. */ if (fptr == mraa_java_isr_callback) { (*globVM)->GetEnv(globVM, (void **)&jenv, JNI_VERSION_1_8); jobject grunnable = (*jenv)->NewGlobalRef(jenv, (jobject) args); args = (void *) grunnable; } #endif dev->isr_args = args; pthread_create(&dev->thread_id, NULL, mraa_gpio_interrupt_handler, (void*) dev); return MRAA_SUCCESS; } mraa_result_t mraa_gpio_isr_exit(mraa_gpio_context dev) { mraa_result_t ret = MRAA_SUCCESS; // wasting our time, there is no isr to exit from if (dev->thread_id == 0 && dev->isr_value_fp == -1) { return ret; } // mark the beginning of the thread termination process for interested parties dev->isr_thread_terminating = 1; // stop isr being useful ret = mraa_gpio_edge_mode(dev, MRAA_GPIO_EDGE_NONE); if ((dev->thread_id != 0)) { #ifdef HAVE_PTHREAD_CANCEL if ((pthread_cancel(dev->thread_id) != 0) || (pthread_join(dev->thread_id, NULL) != 0)) { ret = MRAA_ERROR_INVALID_HANDLE; } #else close(dev->isr_control_pipe[1]); if (pthread_join(dev->thread_id, NULL) != 0) ret = MRAA_ERROR_INVALID_HANDLE; close(dev->isr_control_pipe[0]); dev->isr_control_pipe[0] = dev->isr_control_pipe[1] = -1; #endif } // close the filehandle in case it's still open if (dev->isr_value_fp != -1) { if (close(dev->isr_value_fp) != 0) { ret = MRAA_ERROR_INVALID_PARAMETER; } } // assume our thread will exit either way we just lost it's handle dev->thread_id = 0; dev->isr_value_fp = -1; dev->isr_thread_terminating = 0; return ret; } mraa_result_t mraa_gpio_mode(mraa_gpio_context dev, mraa_gpio_mode_t mode) { if (IS_FUNC_DEFINED(dev, gpio_mode_replace)) return dev->advance_func->gpio_mode_replace(dev, mode); if (IS_FUNC_DEFINED(dev, gpio_mode_pre)) { mraa_result_t pre_ret = (dev->advance_func->gpio_mode_pre(dev, mode)); if (pre_ret != MRAA_SUCCESS) return pre_ret; } if (dev->value_fp != -1) { close(dev->value_fp); dev->value_fp = -1; } char filepath[MAX_SIZE]; snprintf(filepath, MAX_SIZE, SYSFS_CLASS_GPIO "/gpio%d/drive", dev->pin); int drive = open(filepath, O_WRONLY); if (drive == -1) { syslog(LOG_ERR, "gpio: Failed to open drive for writing"); return MRAA_ERROR_INVALID_RESOURCE; } char bu[MAX_SIZE]; int length; switch (mode) { case MRAA_GPIO_STRONG: length = snprintf(bu, sizeof(bu), "strong"); break; case MRAA_GPIO_PULLUP: length = snprintf(bu, sizeof(bu), "pullup"); break; case MRAA_GPIO_PULLDOWN: length = snprintf(bu, sizeof(bu), "pulldown"); break; case MRAA_GPIO_HIZ: length = snprintf(bu, sizeof(bu), "hiz"); break; default: close(drive); return MRAA_ERROR_FEATURE_NOT_IMPLEMENTED; } if (write(drive, bu, length * sizeof(char)) == -1) { syslog(LOG_ERR, "gpio: Failed to write to drive mode"); close(drive); return MRAA_ERROR_INVALID_RESOURCE; } close(drive); if (IS_FUNC_DEFINED(dev, gpio_mode_post)) return dev->advance_func->gpio_mode_post(dev, mode); return MRAA_SUCCESS; } mraa_result_t mraa_gpio_dir(mraa_gpio_context dev, mraa_gpio_dir_t dir) { if (IS_FUNC_DEFINED(dev, gpio_dir_replace)) { return dev->advance_func->gpio_dir_replace(dev, dir); } if (IS_FUNC_DEFINED(dev, gpio_dir_pre)) { mraa_result_t pre_ret = (dev->advance_func->gpio_dir_pre(dev, dir)); if (pre_ret != MRAA_SUCCESS) { return pre_ret; } } if (dev == NULL) { return MRAA_ERROR_INVALID_HANDLE; } if (dev->value_fp != -1) { close(dev->value_fp); dev->value_fp = -1; } char filepath[MAX_SIZE]; snprintf(filepath, MAX_SIZE, SYSFS_CLASS_GPIO "/gpio%d/direction", dev->pin); int direction = open(filepath, O_RDWR); if (direction == -1) { // Direction Failed to Open. If HIGH or LOW was passed will try and set // If not fail as usual. switch (dir) { case MRAA_GPIO_OUT_HIGH: return mraa_gpio_write(dev, 1); case MRAA_GPIO_OUT_LOW: return mraa_gpio_write(dev, 0); default: return MRAA_ERROR_INVALID_RESOURCE; } } char bu[MAX_SIZE]; int length; switch (dir) { case MRAA_GPIO_OUT: length = snprintf(bu, sizeof(bu), "out"); break; case MRAA_GPIO_IN: length = snprintf(bu, sizeof(bu), "in"); break; case MRAA_GPIO_OUT_HIGH: length = snprintf(bu, sizeof(bu), "high"); break; case MRAA_GPIO_OUT_LOW: length = snprintf(bu, sizeof(bu), "low"); break; default: close(direction); return MRAA_ERROR_FEATURE_NOT_IMPLEMENTED; } if (write(direction, bu, length * sizeof(char)) == -1) { close(direction); return MRAA_ERROR_INVALID_RESOURCE; } close(direction); if (IS_FUNC_DEFINED(dev, gpio_dir_post)) return dev->advance_func->gpio_dir_post(dev, dir); return MRAA_SUCCESS; } int mraa_gpio_read(mraa_gpio_context dev) { if (dev == NULL) return -1; if (IS_FUNC_DEFINED(dev, gpio_read_replace)) return dev->advance_func->gpio_read_replace(dev); if (dev->mmap_read != NULL) return dev->mmap_read(dev); if (dev->value_fp == -1) { if (mraa_gpio_get_valfp(dev) != MRAA_SUCCESS) { syslog(LOG_ERR, "gpio: Failed to get value file pointer"); return -1; } } else { // if value_fp is new this is pointless lseek(dev->value_fp, 0, SEEK_SET); } char bu[2]; if (read(dev->value_fp, bu, 2 * sizeof(char)) != 2) { syslog(LOG_ERR, "gpio: Failed to read a sensible value from sysfs"); return -1; } lseek(dev->value_fp, 0, SEEK_SET); return (int) strtol(bu, NULL, 10); } mraa_result_t mraa_gpio_write(mraa_gpio_context dev, int value) { if (dev == NULL) return MRAA_ERROR_INVALID_HANDLE; if (dev->mmap_write != NULL) return dev->mmap_write(dev, value); if (IS_FUNC_DEFINED(dev, gpio_write_pre)) { mraa_result_t pre_ret = (dev->advance_func->gpio_write_pre(dev, value)); if (pre_ret != MRAA_SUCCESS) return pre_ret; } if (IS_FUNC_DEFINED(dev, gpio_write_replace)) { return dev->advance_func->gpio_write_replace(dev, value); } if (dev->value_fp == -1) { if (mraa_gpio_get_valfp(dev) != MRAA_SUCCESS) { return MRAA_ERROR_INVALID_RESOURCE; } } if (lseek(dev->value_fp, 0, SEEK_SET) == -1) { return MRAA_ERROR_INVALID_RESOURCE; } char bu[MAX_SIZE]; int length = snprintf(bu, sizeof(bu), "%d", value); if (write(dev->value_fp, bu, length * sizeof(char)) == -1) { return MRAA_ERROR_INVALID_HANDLE; } if (IS_FUNC_DEFINED(dev, gpio_write_post)) return dev->advance_func->gpio_write_post(dev, value); return MRAA_SUCCESS; } static mraa_result_t mraa_gpio_unexport_force(mraa_gpio_context dev) { int unexport = open(SYSFS_CLASS_GPIO "/unexport", O_WRONLY); if (unexport == -1) { syslog(LOG_ERR, "gpio: Failed to open unexport for writing"); return MRAA_ERROR_INVALID_RESOURCE; } char bu[MAX_SIZE]; int length = snprintf(bu, sizeof(bu), "%d", dev->pin); if (write(unexport, bu, length * sizeof(char)) == -1) { syslog(LOG_ERR, "gpio: Failed to write to unexport"); close(unexport); return MRAA_ERROR_INVALID_RESOURCE; } close(unexport); mraa_gpio_isr_exit(dev); return MRAA_SUCCESS; } static mraa_result_t mraa_gpio_unexport(mraa_gpio_context dev) { if (dev->owner) { return mraa_gpio_unexport_force(dev); } return MRAA_ERROR_INVALID_RESOURCE; } mraa_result_t mraa_gpio_close(mraa_gpio_context dev) { mraa_result_t result = MRAA_SUCCESS; if (IS_FUNC_DEFINED(dev, gpio_close_pre)) { result = dev->advance_func->gpio_close_pre(dev); } if (dev->value_fp != -1) { close(dev->value_fp); } mraa_gpio_unexport(dev); free(dev); return result; } mraa_result_t mraa_gpio_owner(mraa_gpio_context dev, mraa_boolean_t own) { if (dev == NULL) { return MRAA_ERROR_INVALID_RESOURCE; } syslog(LOG_DEBUG, "gpio: Set owner to %d", (int) own); dev->owner = own; return MRAA_SUCCESS; } mraa_result_t mraa_gpio_use_mmaped(mraa_gpio_context dev, mraa_boolean_t mmap_en) { if (IS_FUNC_DEFINED(dev, gpio_mmap_setup)) { return dev->advance_func->gpio_mmap_setup(dev, mmap_en); } syslog(LOG_ERR, "gpio: mmap not implemented on this platform"); return MRAA_ERROR_FEATURE_NOT_IMPLEMENTED; } int mraa_gpio_get_pin(mraa_gpio_context dev) { if (dev == NULL) { syslog(LOG_ERR, "gpio: context is invalid"); return -1; } return dev->phy_pin; } int mraa_gpio_get_pin_raw(mraa_gpio_context dev) { if (dev == NULL) { syslog(LOG_ERR, "gpio: context is invalid"); return -1; } return dev->pin; }