/* * sysfs_device.c * * Generic device utility functions for libsysfs * * Copyright (C) IBM Corp. 2003 * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include "libsysfs.h" #include "sysfs.h" /** * get_dev_driver: fills in the dev->driver_name field, but searches by * opening subsystem. Only to be used if no driver link exists in * device directory. * * Returns 0 on SUCCESS and 1 on error */ static int get_dev_driver(struct sysfs_device *dev) { struct dlist *drvlist = NULL; char path[SYSFS_PATH_MAX], devpath[SYSFS_PATH_MAX]; char *drv = NULL, *c = NULL; if (dev == NULL) { errno = EINVAL; return 1; } if (dev->bus[0] == '\0') return 1; memset(path, 0, SYSFS_PATH_MAX); memset(devpath, 0, SYSFS_PATH_MAX); safestrcpy(path, SYSFS_BUS_NAME); safestrcat(path, "/"); safestrcat(path, dev->bus); safestrcat(path, "/"); safestrcat(path, SYSFS_DRIVERS_NAME); safestrcpy(devpath, dev->path); c = strstr(devpath, SYSFS_DEVICES_NAME); if (c == NULL) return 1; *c = '\0'; safestrcatmax(c, path, (sizeof(devpath) - strlen(devpath))); drvlist = sysfs_open_subsystem_list(path); if (drvlist != NULL) { dlist_for_each_data(drvlist, drv, char) { safestrcpy(path, devpath); safestrcat(path, "/"); safestrcat(path, drv); safestrcat(path, "/"); safestrcat(path, dev->bus_id); if (sysfs_path_is_link(path) == 0) { safestrcpy(dev->driver_name, drv); sysfs_close_list(drvlist); return 0; } } sysfs_close_list(drvlist); } return 1; } /* * get_device_driver_name: gets device's driver name, searches for driver * link first before going the brute force route. * @dev: device to retrieve driver * returns 0 with success and 1 with error */ static int get_device_driver_name(struct sysfs_device *dev) { char devpath[SYSFS_PATH_MAX], drvpath[SYSFS_PATH_MAX]; if (dev == NULL) { errno = EINVAL; return 1; } memset(devpath, 0, SYSFS_PATH_MAX); memset(drvpath, 0, SYSFS_PATH_MAX); safestrcpy(devpath, dev->path); safestrcat(devpath, "/driver"); if ((sysfs_get_link(devpath, drvpath, SYSFS_PATH_MAX)) != 0) return(get_dev_driver(dev)); return (sysfs_get_name_from_path(drvpath, dev->driver_name, SYSFS_NAME_LEN)); } /** * sysfs_get_device_bus: retrieves the bus name the device is on, checks path * to bus' link to make sure it has correct device. * @dev: device to get busname. * returns 0 with success and -1 with error. */ int sysfs_get_device_bus(struct sysfs_device *dev) { char subsys[SYSFS_NAME_LEN], path[SYSFS_PATH_MAX]; char target[SYSFS_PATH_MAX], *bus = NULL, *c = NULL; struct dlist *buslist = NULL; if (dev == NULL) { errno = EINVAL; return -1; } memset(subsys, 0, SYSFS_NAME_LEN); safestrcpy(subsys, SYSFS_BUS_NAME); /* subsys = bus */ buslist = sysfs_open_subsystem_list(subsys); if (buslist != NULL) { dlist_for_each_data(buslist, bus, char) { memset(path, 0, SYSFS_PATH_MAX); safestrcpy(path, dev->path); c = strstr(path, "/devices"); if (c == NULL) { dprintf("Invalid path to device %s\n", path); sysfs_close_list(buslist); return -1; } *c = '\0'; safestrcat(path, "/"); safestrcat(path, SYSFS_BUS_NAME); safestrcat(path, "/"); safestrcat(path, bus); safestrcat(path, "/"); safestrcat(path, SYSFS_DEVICES_NAME); safestrcat(path, "/"); safestrcat(path, dev->bus_id); if ((sysfs_path_is_link(path)) == 0) { memset(target, 0, SYSFS_PATH_MAX); if ((sysfs_get_link(path, target, SYSFS_PATH_MAX)) != 0) { dprintf("Error getting link target\n"); sysfs_close_list(buslist); return -1; } if (!(strncmp(target, dev->path, SYSFS_PATH_MAX))) { safestrcpy(dev->bus, bus); sysfs_close_list(buslist); return 0; } } } sysfs_close_list(buslist); } return -1; } /** * sysfs_close_device_tree: closes every device in the supplied tree, * closing children only. * @devroot: device root of tree. */ void sysfs_close_device_tree(struct sysfs_device *devroot) { if (devroot != NULL) { if (devroot->children != NULL) { struct sysfs_device *child = NULL; dlist_for_each_data(devroot->children, child, struct sysfs_device) { sysfs_close_device_tree(child); } } sysfs_close_device(devroot); } } /** * sysfs_close_dev_tree: routine for dlist integration */ static void sysfs_close_dev_tree(void *dev) { sysfs_close_device_tree((struct sysfs_device *)dev); } /** * sysfs_close_device: closes and cleans up a device * @dev = device to clean up */ void sysfs_close_device(struct sysfs_device *dev) { if (dev != NULL) { if (dev->parent != NULL) sysfs_close_device(dev->parent); if (dev->directory != NULL) sysfs_close_directory(dev->directory); if (dev->children != NULL && dev->children->count == 0) dlist_destroy(dev->children); free(dev); } } /** * alloc_device: allocates and initializes device structure * returns struct sysfs_device */ static struct sysfs_device *alloc_device(void) { return (struct sysfs_device *)calloc(1, sizeof(struct sysfs_device)); } /** * open_device_dir: opens up sysfs_directory for specific root dev * @name: name of root * returns struct sysfs_directory with success and NULL with error */ static struct sysfs_directory *open_device_dir(const char *path) { struct sysfs_directory *rdir = NULL; if (path == NULL) { errno = EINVAL; return NULL; } rdir = sysfs_open_directory(path); if (rdir == NULL) { errno = EINVAL; dprintf ("Device %s not supported on this system\n", path); return NULL; } if ((sysfs_read_dir_subdirs(rdir)) != 0) { dprintf ("Error reading device at dir %s\n", path); sysfs_close_directory(rdir); return NULL; } return rdir; } /** * sysfs_open_device_path: opens and populates device structure * @path: path to device, this is the /sys/devices/ path * returns sysfs_device structure with success or NULL with error */ struct sysfs_device *sysfs_open_device_path(const char *path) { struct sysfs_device *dev = NULL; if (path == NULL) { errno = EINVAL; return NULL; } if ((sysfs_path_is_dir(path)) != 0) { dprintf("Incorrect path to device: %s\n", path); return NULL; } dev = alloc_device(); if (dev == NULL) { dprintf("Error allocating device at %s\n", path); return NULL; } if ((sysfs_get_name_from_path(path, dev->bus_id, SYSFS_NAME_LEN)) != 0) { errno = EINVAL; dprintf("Error getting device bus_id\n"); sysfs_close_device(dev); return NULL; } safestrcpy(dev->path, path); if ((sysfs_remove_trailing_slash(dev->path)) != 0) { dprintf("Invalid path to device %s\n", dev->path); sysfs_close_device(dev); return NULL; } /* * The "name" attribute no longer exists... return the device's * sysfs representation instead, in the "dev->name" field, which * implies that the dev->name and dev->bus_id contain same data. */ safestrcpy(dev->name, dev->bus_id); if (sysfs_get_device_bus(dev) != 0) dprintf("Could not get device bus\n"); if (get_device_driver_name(dev) != 0) { dprintf("Could not get device %s's driver\n", dev->bus_id); safestrcpy(dev->driver_name, SYSFS_UNKNOWN); } return dev; } /** * sysfs_open_device_tree: opens root device and all of its children, * creating a tree of devices. Only opens children. * @path: sysfs path to devices * returns struct sysfs_device and its children with success or NULL with * error. */ struct sysfs_device *sysfs_open_device_tree(const char *path) { struct sysfs_device *rootdev = NULL, *new = NULL; struct sysfs_directory *cur = NULL; if (path == NULL) { errno = EINVAL; return NULL; } rootdev = sysfs_open_device_path(path); if (rootdev == NULL) { dprintf("Error opening root device at %s\n", path); return NULL; } if (rootdev->directory == NULL) { rootdev->directory = open_device_dir(rootdev->path); if (rootdev->directory == NULL) return NULL; } if (rootdev->directory->subdirs != NULL) { dlist_for_each_data(rootdev->directory->subdirs, cur, struct sysfs_directory) { new = sysfs_open_device_tree(cur->path); if (new == NULL) { dprintf("Error opening device tree at %s\n", cur->path); sysfs_close_device_tree(rootdev); return NULL; } if (rootdev->children == NULL) rootdev->children = dlist_new_with_delete (sizeof(struct sysfs_device), sysfs_close_dev_tree); dlist_unshift_sorted(rootdev->children, new, sort_list); } } return rootdev; } /** * sysfs_close_root_device: closes root and all devices * @root: root device to close */ void sysfs_close_root_device(struct sysfs_root_device *root) { if (root != NULL) { if (root->devices != NULL) dlist_destroy(root->devices); if (root->directory != NULL) sysfs_close_directory(root->directory); free(root); } } /** * sysfs_get_root_devices: opens up all the devices under this root device * @root: root device to open devices for * returns dlist of devices with success and NULL with error */ struct dlist *sysfs_get_root_devices(struct sysfs_root_device *root) { struct sysfs_device *dev = NULL; struct sysfs_directory *cur = NULL; if (root == NULL) { errno = EINVAL; return NULL; } if (root->directory == NULL) { root->directory = open_device_dir(root->path); if (root->directory == NULL) return NULL; } if (root->directory->subdirs == NULL) return 0; dlist_for_each_data(root->directory->subdirs, cur, struct sysfs_directory) { dev = sysfs_open_device_tree(cur->path); if (dev == NULL) { dprintf ("Error opening device at %s\n", cur->path); continue; } if (root->devices == NULL) root->devices = dlist_new_with_delete (sizeof(struct sysfs_device), sysfs_close_dev_tree); dlist_unshift_sorted(root->devices, dev, sort_list); } return root->devices; } /** * sysfs_open_root_device: opens sysfs devices root and all of its * devices. * @name: name of /sys/devices/root to open * returns struct sysfs_root_device if success and NULL with error */ struct sysfs_root_device *sysfs_open_root_device(const char *name) { struct sysfs_root_device *root = NULL; char rootpath[SYSFS_PATH_MAX]; if (name == NULL) { errno = EINVAL; return NULL; } memset(rootpath, 0, SYSFS_PATH_MAX); if (sysfs_get_mnt_path(rootpath, SYSFS_PATH_MAX) != 0) { dprintf ("Sysfs not supported on this system\n"); return NULL; } safestrcat(rootpath, "/"); safestrcat(rootpath, SYSFS_DEVICES_NAME); safestrcat(rootpath, "/"); safestrcat(rootpath, name); if ((sysfs_path_is_dir(rootpath)) != 0) { errno = EINVAL; dprintf("Invalid root device: %s\n", name); return NULL; } root = (struct sysfs_root_device *)calloc (1, sizeof(struct sysfs_root_device)); if (root == NULL) { dprintf("calloc failure\n"); return NULL; } safestrcpy(root->name, name); safestrcpy(root->path, rootpath); if ((sysfs_remove_trailing_slash(root->path)) != 0) { dprintf("Invalid path to root device %s\n", root->path); sysfs_close_root_device(root); return NULL; } return root; } /** * sysfs_get_device_attributes: returns a dlist of attributes corresponding to * the specific device * @device: struct sysfs_device * for which attributes are to be returned */ struct dlist *sysfs_get_device_attributes(struct sysfs_device *device) { if (device == NULL) { errno = EINVAL; return NULL; } if (device->directory == NULL) { device->directory = sysfs_open_directory(device->path); if (device->directory == NULL) return NULL; } if (device->directory->attributes == NULL) { if ((sysfs_read_dir_attributes(device->directory)) != 0) return NULL; } return (device->directory->attributes); } /** * sysfs_refresh_device_attributes: refreshes the device's list of attributes * @device: sysfs_device whose attributes to refresh * * NOTE: Upon return, prior references to sysfs_attributes for this device * _may_ not be valid * * Returns list of attributes on success and NULL on failure */ struct dlist *sysfs_refresh_device_attributes(struct sysfs_device *device) { if (device == NULL) { errno = EINVAL; return NULL; } if (device->directory == NULL) return (sysfs_get_device_attributes(device)); if ((sysfs_refresh_dir_attributes(device->directory)) != 0) { dprintf("Error refreshing device attributes\n"); return NULL; } return (device->directory->attributes); } /** * sysfs_get_device_attr: searches dev's attributes by name * @dev: device to look through * @name: attribute name to get * returns sysfs_attribute reference with success or NULL with error. */ struct sysfs_attribute *sysfs_get_device_attr(struct sysfs_device *dev, const char *name) { struct dlist *attrlist = NULL; if (dev == NULL || name == NULL) { errno = EINVAL; return NULL; } attrlist = sysfs_get_device_attributes(dev); if (attrlist == NULL) return NULL; return sysfs_get_directory_attribute(dev->directory, (char *)name); } /** * get_device_absolute_path: looks up the bus the device is on, gets * absolute path to the device * @device: device for which path is needed * @path: buffer to store absolute path * @psize: size of "path" * Returns 0 on success -1 on failure */ static int get_device_absolute_path(const char *device, const char *bus, char *path, size_t psize) { char bus_path[SYSFS_PATH_MAX]; if (device == NULL || path == NULL) { errno = EINVAL; return -1; } memset(bus_path, 0, SYSFS_PATH_MAX); if (sysfs_get_mnt_path(bus_path, SYSFS_PATH_MAX) != 0) { dprintf ("Sysfs not supported on this system\n"); return -1; } safestrcat(bus_path, "/"); safestrcat(bus_path, SYSFS_BUS_NAME); safestrcat(bus_path, "/"); safestrcat(bus_path, bus); safestrcat(bus_path, "/"); safestrcat(bus_path, SYSFS_DEVICES_NAME); safestrcat(bus_path, "/"); safestrcat(bus_path, device); /* * We now are at /sys/bus/"bus_name"/devices/"device" which is a link. * Now read this link to reach to the device. */ if ((sysfs_get_link(bus_path, path, psize)) != 0) { dprintf("Error getting to device %s\n", device); return -1; } return 0; } /** * sysfs_open_device: open a device by id (use the "bus" subsystem) * @bus: bus the device belongs to * @bus_id: bus_id of the device to open - has to be the "bus_id" in * /sys/bus/xxx/devices * returns struct sysfs_device if found, NULL otherwise * NOTE: * 1. Use sysfs_close_device to close the device * 2. Bus the device is on must be supplied * Use sysfs_find_device_bus to get the bus name */ struct sysfs_device *sysfs_open_device(const char *bus, const char *bus_id) { char sysfs_path[SYSFS_PATH_MAX]; struct sysfs_device *device = NULL; if (bus_id == NULL || bus == NULL) { errno = EINVAL; return NULL; } memset(sysfs_path, 0, SYSFS_PATH_MAX); if ((get_device_absolute_path(bus_id, bus, sysfs_path, SYSFS_PATH_MAX)) != 0) { dprintf("Error getting to device %s\n", bus_id); return NULL; } device = sysfs_open_device_path(sysfs_path); if (device == NULL) { dprintf("Error opening device %s\n", bus_id); return NULL; } return device; } /** * sysfs_get_device_parent: opens up given device's parent and returns a * reference to its sysfs_device * @dev: sysfs_device whose parent is requested * Returns sysfs_device of the parent on success and NULL on failure */ struct sysfs_device *sysfs_get_device_parent(struct sysfs_device *dev) { char ppath[SYSFS_PATH_MAX], *tmp = NULL; if (dev == NULL) { errno = EINVAL; return NULL; } if (dev->parent != NULL) return (dev->parent); memset(ppath, 0, SYSFS_PATH_MAX); safestrcpy(ppath, dev->path); tmp = strrchr(ppath, '/'); if (tmp == NULL) { dprintf("Invalid path to device %s\n", ppath); return NULL; } if (*(tmp + 1) == '\0') { *tmp = '\0'; tmp = strrchr(tmp, '/'); if (tmp == NULL) { dprintf("Invalid path to device %s\n", ppath); return NULL; } } *tmp = '\0'; /* * All "devices" have the "detach_state" attribute - validate here */ safestrcat(ppath, "/detach_state"); if ((sysfs_path_is_file(ppath)) != 0) { dprintf("Device at %s does not have a parent\n", dev->path); return NULL; } tmp = strrchr(ppath, '/'); *tmp = '\0'; dev->parent = sysfs_open_device_path(ppath); if (dev->parent == NULL) { dprintf("Error opening device %s's parent at %s\n", dev->bus_id, ppath); return NULL; } return (dev->parent); } /* * sysfs_open_device_attr: open the given device's attribute * @bus: Bus on which to look * @dev_id: device for which attribute is required * @attrname: name of the attribute to look for * Returns struct sysfs_attribute on success and NULL on failure * * NOTE: * A call to sysfs_close_attribute() is required to close * the attribute returned and free memory. */ struct sysfs_attribute *sysfs_open_device_attr(const char *bus, const char *bus_id, const char *attrib) { struct sysfs_attribute *attribute = NULL; char devpath[SYSFS_PATH_MAX]; if (bus == NULL || bus_id == NULL || attrib == NULL) { errno = EINVAL; return NULL; } memset(devpath, 0, SYSFS_PATH_MAX); if ((get_device_absolute_path(bus_id, bus, devpath, SYSFS_PATH_MAX)) != 0) { dprintf("Error getting to device %s\n", bus_id); return NULL; } safestrcat(devpath, "/"); safestrcat(devpath, attrib); attribute = sysfs_open_attribute(devpath); if (attribute == NULL) { dprintf("Error opening attribute %s for device %s\n", attrib, bus_id); return NULL; } if ((sysfs_read_attribute(attribute)) != 0) { dprintf("Error reading attribute %s for device %s\n", attrib, bus_id); sysfs_close_attribute(attribute); return NULL; } return attribute; }