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systemd/udev_sysfs.c
Kay Sievers 95776dc6ec consistent key naming to match only the event device or include all parent devices
This scheme is more consistent and makes it obvious if a match happens
against the event device only, or the full chain of parent devices.

The old key names are now:
  BUS -> SUBSYSTEMS
  ID -> KERNELS
  SYSFS -> ATTRS
  DRIVER -> DRIVERS

Match keys for the event device:
  KERNEL
  SUBSYSTEM
  ATTR
  DRIVER (in a future release, for now the same as DRIVERS)

Match keys for all devices along the parent device chain:
  KERNELS
  SUBSYSTEMS
  ATTRS
  DRIVERS

ID, BUS, SYSFS are no longer mentioned in the man page but still work.
DRIVER must be converted to DRIVERS to match the new scheme. For now,
an error is logged, if DRIVER is used. In a future release, the DRIVER
key behaviour will change.
2006-08-19 16:06:25 +02:00

403 lines
12 KiB
C

/*
* udev_sysfs.c - sysfs access
*
* Copyright (C) 2005 Kay Sievers <kay.sievers@vrfy.org>
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation version 2 of the License.
*
* This program 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
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#include <stdlib.h>
#include <stdio.h>
#include <stddef.h>
#include <unistd.h>
#include <fcntl.h>
#include <ctype.h>
#include <errno.h>
#include <sys/stat.h>
#include "udev.h"
char sysfs_path[PATH_SIZE];
/* device cache */
static LIST_HEAD(dev_list);
/* attribute value cache */
static LIST_HEAD(attr_list);
struct sysfs_attr {
struct list_head node;
char path[PATH_SIZE];
char *value; /* points to value_local if value is cached */
char value_local[NAME_SIZE];
};
int sysfs_init(void)
{
const char *env;
env = getenv("SYSFS_PATH");
if (env) {
strlcpy(sysfs_path, env, sizeof(sysfs_path));
remove_trailing_chars(sysfs_path, '/');
} else
strlcpy(sysfs_path, "/sys", sizeof(sysfs_path));
dbg("sysfs_path='%s'", sysfs_path);
INIT_LIST_HEAD(&dev_list);
INIT_LIST_HEAD(&attr_list);
return 0;
}
void sysfs_cleanup(void)
{
struct sysfs_attr *attr_loop;
struct sysfs_attr *attr_temp;
struct sysfs_device *dev_loop;
struct sysfs_device *dev_temp;
list_for_each_entry_safe(attr_loop, attr_temp, &attr_list, node) {
list_del(&attr_loop->node);
free(attr_loop);
}
list_for_each_entry_safe(dev_loop, dev_temp, &dev_list, node) {
list_del(&dev_loop->node);
free(dev_loop);
}
}
void sysfs_device_set_values(struct sysfs_device *dev, const char *devpath,
const char *subsystem, const char *driver)
{
char *pos;
strlcpy(dev->devpath, devpath, sizeof(dev->devpath));
if (subsystem != NULL)
strlcpy(dev->subsystem, subsystem, sizeof(dev->subsystem));
if (driver != NULL)
strlcpy(dev->driver, driver, sizeof(dev->driver));
/* set kernel name */
pos = strrchr(dev->devpath, '/');
if (pos == NULL)
return;
strlcpy(dev->kernel, &pos[1], sizeof(dev->kernel));
dbg("kernel='%s'", dev->kernel);
/* some devices have '!' in their name, change that to '/' */
pos = dev->kernel;
while (pos[0] != '\0') {
if (pos[0] == '!')
pos[0] = '/';
pos++;
}
/* get kernel number */
pos = &dev->kernel[strlen(dev->kernel)];
while (isdigit(pos[-1]))
pos--;
strlcpy(dev->kernel_number, pos, sizeof(dev->kernel_number));
dbg("kernel_number='%s'", dev->kernel_number);
}
struct sysfs_device *sysfs_device_get(const char *devpath)
{
char path[PATH_SIZE];
char devpath_real[PATH_SIZE];
struct sysfs_device *dev;
struct sysfs_device *dev_loop;
struct stat statbuf;
char link_path[PATH_SIZE];
char link_target[PATH_SIZE];
int len;
char *pos;
dbg("open '%s'", devpath);
strlcpy(devpath_real, devpath, sizeof(devpath_real));
remove_trailing_chars(devpath_real, '/');
/* look for device already in cache (we never put an untranslated path in the cache) */
list_for_each_entry(dev_loop, &dev_list, node) {
if (strcmp(dev_loop->devpath, devpath_real) == 0) {
dbg("found in cache '%s'", dev_loop->devpath);
return dev_loop;
}
}
/* if we got a link, resolve it to the real device */
strlcpy(path, sysfs_path, sizeof(path));
strlcat(path, devpath_real, sizeof(path));
if (lstat(path, &statbuf) != 0) {
dbg("stat '%s' failed: %s", path, strerror(errno));
return NULL;
}
if (S_ISLNK(statbuf.st_mode)) {
int i;
int back;
len = readlink(path, link_target, sizeof(link_target));
if (len <= 0)
return NULL;
link_target[len] = '\0';
dbg("devpath link '%s' points to '%s'", path, link_target);
for (back = 0; strncmp(&link_target[back * 3], "../", 3) == 0; back++)
;
dbg("base '%s', tail '%s', back %i", devpath_real, &link_target[back * 3], back);
for (i = 0; i <= back; i++) {
pos = strrchr(devpath_real, '/');
if (pos == NULL)
return NULL;
pos[0] = '\0';
}
dbg("after moving back '%s'", devpath_real);
strlcat(devpath_real, "/", sizeof(devpath_real));
strlcat(devpath_real, &link_target[back * 3], sizeof(devpath_real));
/* now look for device in cache after path translation */
list_for_each_entry(dev_loop, &dev_list, node) {
if (strcmp(dev_loop->devpath, devpath_real) == 0) {
dbg("found in cache '%s'", dev_loop->devpath);
return dev_loop;
}
}
}
/* it is a new device */
dbg("new uncached device '%s'", devpath_real);
dev = malloc(sizeof(struct sysfs_device));
if (dev == NULL)
return NULL;
memset(dev, 0x00, sizeof(struct sysfs_device));
sysfs_device_set_values(dev, devpath_real, NULL, NULL);
/* get subsystem */
if (strncmp(dev->devpath, "/class/", 7) == 0) {
strlcpy(dev->subsystem, &dev->devpath[7], sizeof(dev->subsystem));
pos = strchr(dev->subsystem, '/');
if (pos != NULL)
pos[0] = '\0';
else
dev->subsystem[0] = '\0';
} else if (strncmp(dev->devpath, "/block/", 7) == 0) {
strlcpy(dev->subsystem, "block", sizeof(dev->subsystem));
} else if (strncmp(dev->devpath, "/devices/", 9) == 0) {
/* get subsystem from "bus" link */
strlcpy(link_path, sysfs_path, sizeof(link_path));
strlcat(link_path, dev->devpath, sizeof(link_path));
strlcat(link_path, "/bus", sizeof(link_path));
len = readlink(link_path, link_target, sizeof(link_target));
if (len > 0) {
link_target[len] = '\0';
dbg("bus link '%s' points to '%s'", link_path, link_target);
pos = strrchr(link_target, '/');
if (pos != NULL)
strlcpy(dev->subsystem, &pos[1], sizeof(dev->subsystem));
} else {
/* get subsystem from "subsystem" link */
strlcpy(link_path, sysfs_path, sizeof(link_path));
strlcat(link_path, dev->devpath, sizeof(link_path));
strlcat(link_path, "/subsystem", sizeof(link_path));
len = readlink(link_path, link_target, sizeof(link_target));
if (len > 0) {
link_target[len] = '\0';
dbg("subsystem link '%s' points to '%s'", link_path, link_target);
pos = strrchr(link_target, '/');
if (pos != NULL)
strlcpy(dev->subsystem, &pos[1], sizeof(dev->subsystem));
}
}
/* get driver name */
strlcpy(link_path, sysfs_path, sizeof(link_path));
strlcat(link_path, dev->devpath, sizeof(link_path));
strlcat(link_path, "/driver", sizeof(link_path));
len = readlink(link_path, link_target, sizeof(link_target));
if (len > 0) {
link_target[len] = '\0';
dbg("driver link '%s' points to '%s'", link_path, link_target);
pos = strrchr(link_target, '/');
if (pos != NULL)
strlcpy(dev->driver, &pos[1], sizeof(dev->driver));
}
} else if (strncmp(dev->devpath, "/bus/", 5) == 0 && strstr(dev->devpath, "/drivers/")) {
strlcpy(dev->subsystem, "drivers", sizeof(dev->subsystem));
} else if (strncmp(dev->devpath, "/module/", 8) == 0) {
strlcpy(dev->subsystem, "module", sizeof(dev->subsystem));
}
dbg("add to cache 'devpath=%s', subsystem='%s', driver='%s'", dev->devpath, dev->subsystem, dev->driver);
list_add(&dev->node, &dev_list);
return dev;
}
struct sysfs_device *sysfs_device_get_parent(struct sysfs_device *dev)
{
char parent_devpath[PATH_SIZE];
char device_link[PATH_SIZE];
char device_link_target[PATH_SIZE];
char *pos;
int i;
int len;
int back;
dbg("open '%s'", dev->devpath);
/* look if we already know the parent */
if (dev->parent != NULL)
return dev->parent;
/* requesting a parent is only valid for devices */
if ((strncmp(dev->devpath, "/devices/", 9) != 0) &&
(strncmp(dev->devpath, "/class/", 7) != 0) &&
(strncmp(dev->devpath, "/block/", 7) != 0))
return NULL;
strlcpy(parent_devpath, dev->devpath, sizeof(parent_devpath));
dbg("'%s'", parent_devpath);
/* strip last element */
pos = strrchr(parent_devpath, '/');
if (pos == NULL || pos == parent_devpath)
return NULL;
pos[0] = '\0';
/* are we at the top level of /devices */
if (strcmp(parent_devpath, "/devices") == 0) {
dbg("/devices top level");
return NULL;
}
/* at the top level of class/block we want to follow the "device" link */
if (strcmp(parent_devpath, "/block") == 0) {
dbg("/block top level, look for device link");
goto device_link;
}
if (strncmp(parent_devpath, "/class", 6) == 0) {
pos = strrchr(parent_devpath, '/');
if (pos == &parent_devpath[6] || pos == parent_devpath) {
dbg("/class top level, look for device link");
goto device_link;
}
}
/* get parent and remember it */
dev->parent = sysfs_device_get(parent_devpath);
return dev->parent;
device_link:
strlcpy(device_link, sysfs_path, sizeof(device_link));
strlcat(device_link, dev->devpath, sizeof(device_link));
strlcat(device_link, "/device", sizeof(device_link));
len = readlink(device_link, device_link_target, sizeof(device_link_target));
if (len < 0)
return NULL;
device_link_target[len] = '\0';
dbg("device link '%s' points to '%s'", device_link, device_link_target);
for (back = 0; strncmp(&device_link_target[back * 3], "../", 3) == 0; back++)
;
strlcpy(parent_devpath, dev->devpath, sizeof(parent_devpath));
dbg("base='%s', tail='%s', back=%i", parent_devpath, &device_link_target[back * 3], back);
for (i = 0; i < back; i++) {
pos = strrchr(parent_devpath, '/');
if (pos == NULL)
return NULL;
pos[0] = '\0';
}
dbg("after moving back '%s'", parent_devpath);
strlcat(parent_devpath, "/", sizeof(parent_devpath));
strlcat(parent_devpath, &device_link_target[back * 3], sizeof(parent_devpath));
/* get parent and remember it */
dev->parent = sysfs_device_get(parent_devpath);
return dev->parent;
}
struct sysfs_device *sysfs_device_get_parent_with_subsystem(struct sysfs_device *dev, const char *subsystem)
{
struct sysfs_device *dev_parent;
dev_parent = sysfs_device_get_parent(dev);
while (dev_parent != NULL) {
if (strcmp(dev_parent->subsystem, subsystem) == 0)
return dev_parent;
dev_parent = sysfs_device_get_parent(dev_parent);
}
return NULL;
}
char *sysfs_attr_get_value(const char *devpath, const char *attr_name)
{
char path_full[PATH_SIZE];
const char *path;
char value[NAME_SIZE];
struct sysfs_attr *attr_loop;
struct sysfs_attr *attr;
int fd;
ssize_t size;
size_t sysfs_len;
dbg("open '%s'/'%s'", devpath, attr_name);
sysfs_len = strlcpy(path_full, sysfs_path, sizeof(path_full));
path = &path_full[sysfs_len];
strlcat(path_full, devpath, sizeof(path_full));
strlcat(path_full, "/", sizeof(path_full));
strlcat(path_full, attr_name, sizeof(path_full));
/* look for attribute in cache */
list_for_each_entry(attr_loop, &attr_list, node) {
if (strcmp(attr_loop->path, path) == 0) {
dbg("found in cache '%s'", attr_loop->path);
return attr_loop->value;
}
}
/* store attribute in cache (also negatives are kept in cache) */
dbg("new uncached attribute '%s'", path_full);
attr = malloc(sizeof(struct sysfs_attr));
if (attr == NULL)
return NULL;
memset(attr, 0x00, sizeof(struct sysfs_attr));
strlcpy(attr->path, path, sizeof(attr->path));
dbg("add to cache '%s'", path_full);
list_add(&attr->node, &attr_list);
/* read attribute value */
fd = open(path_full, O_RDONLY);
if (fd < 0) {
dbg("attribute '%s' does not exist", path_full);
goto out;
}
size = read(fd, value, sizeof(value));
close(fd);
if (size < 0)
goto out;
if (size == sizeof(value))
goto out;
/* got a valid value, store and return it */
value[size] = '\0';
remove_trailing_chars(value, '\n');
dbg("cache '%s' with value '%s'", path_full, value);
strlcpy(attr->value_local, value, sizeof(attr->value_local));
attr->value = attr->value_local;
out:
return attr->value;
}