eudev/udev_rules.c
2005-09-14 14:28:59 +02:00

1172 lines
33 KiB
C

/*
* udev_rules.c
*
* Copyright (C) 2003 Greg Kroah-Hartman <greg@kroah.com>
* Copyright (C) 2003-2005 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 <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <fcntl.h>
#include <ctype.h>
#include <unistd.h>
#include <errno.h>
#include <syslog.h>
#include <sys/wait.h>
#include <sys/stat.h>
#include "libsysfs/sysfs/libsysfs.h"
#include "list.h"
#include "udev_libc_wrapper.h"
#include "udev.h"
#include "udev_utils.h"
#include "udev_version.h"
#include "logging.h"
#include "udev_rules.h"
#include "udev_db.h"
/* extract possible {attr} and move str behind it */
static char *get_format_attribute(char **str)
{
char *pos;
char *attr = NULL;
if (*str[0] == '{') {
pos = strchr(*str, '}');
if (pos == NULL) {
err("missing closing brace for format");
return NULL;
}
pos[0] = '\0';
attr = *str+1;
*str = pos+1;
dbg("attribute='%s', str='%s'", attr, *str);
}
return attr;
}
/* extract possible format length and move str behind it*/
static int get_format_len(char **str)
{
int num;
char *tail;
if (isdigit(*str[0])) {
num = (int) strtoul(*str, &tail, 10);
if (num > 0) {
*str = tail;
dbg("format length=%i", num);
return num;
} else {
err("format parsing error '%s'", *str);
}
}
return -1;
}
static int get_key(char **line, char **key, char **value)
{
char *linepos;
char *temp;
linepos = *line;
if (!linepos)
return -1;
if (strchr(linepos, '\\')) {
dbg("escaped characters are not supported, skip");
return -1;
}
/* skip whitespace */
while (isspace(linepos[0]))
linepos++;
/* get the key */
*key = linepos;
while (1) {
linepos++;
if (linepos[0] == '\0')
return -1;
if (isspace(linepos[0]))
break;
if (linepos[0] == '=')
break;
}
/* terminate key */
linepos[0] = '\0';
linepos++;
/* skip whitespace */
while (isspace(linepos[0]))
linepos++;
/* get the value*/
if (linepos[0] == '"') {
linepos++;
temp = strchr(linepos, '"');
if (!temp) {
dbg("missing closing quote");
return -1;
}
dbg("value is quoted");
temp[0] = '\0';
} else if (linepos[0] == '\'') {
linepos++;
temp = strchr(linepos, '\'');
if (!temp) {
dbg("missing closing quote");
return -1;
}
dbg("value is quoted");
temp[0] = '\0';
} else if (linepos[0] == '\0') {
dbg("value is empty");
} else {
temp = linepos;
while (temp[0] && !isspace(temp[0]))
temp++;
temp[0] = '\0';
}
*value = linepos;
return 0;
}
static int import_keys_into_env(struct udevice *udev, const char *buf, size_t bufsize)
{
char line[LINE_SIZE];
const char *bufline;
char *linepos;
char *variable;
char *value;
size_t cur;
size_t count;
int lineno;
/* loop through the whole buffer */
lineno = 0;
cur = 0;
while (cur < bufsize) {
count = buf_get_line(buf, bufsize, cur);
bufline = &buf[cur];
cur += count+1;
lineno++;
if (count >= sizeof(line)) {
err("line too long, conf line skipped %s, line %d", udev_config_filename, lineno);
continue;
}
/* eat the whitespace */
while ((count > 0) && isspace(bufline[0])) {
bufline++;
count--;
}
if (count == 0)
continue;
/* see if this is a comment */
if (bufline[0] == COMMENT_CHARACTER)
continue;
memcpy(line, bufline, count);
line[count] = '\0';
linepos = line;
if (get_key(&linepos, &variable, &value) == 0) {
dbg("import '%s=%s'", variable, value);
name_list_key_add(&udev->env_list, variable, value);
setenv(variable, value, 1);
}
}
return 0;
}
static int import_file_into_env(struct udevice *udev, const char *filename)
{
char *buf;
size_t bufsize;
if (file_map(filename, &buf, &bufsize) != 0) {
err("can't open '%s'", filename);
return -1;
}
import_keys_into_env(udev, buf, bufsize);
file_unmap(buf, bufsize);
return 0;
}
static int import_program_into_env(struct udevice *udev, const char *program)
{
char result[1024];
size_t reslen;
if (run_program(program, udev->subsystem, result, sizeof(result), &reslen, (udev_log_priority >= LOG_INFO)) != 0)
return -1;
return import_keys_into_env(udev, result, reslen);
}
static int import_parent_into_env(struct udevice *udev, struct sysfs_class_device *class_dev, const char *filter)
{
struct sysfs_class_device *parent = sysfs_get_classdev_parent(class_dev);
int rc = -1;
if (parent != NULL) {
struct udevice udev_parent;
struct name_entry *name_loop;
dbg("found parent '%s', get the node name", parent->path);
udev_init_device(&udev_parent, NULL, NULL, NULL);
/* import the udev_db of the parent */
if (udev_db_get_device(&udev_parent, &parent->path[strlen(sysfs_path)]) == 0) {
dbg("import stored parent env '%s'", udev_parent.name);
list_for_each_entry(name_loop, &udev_parent.env_list, node) {
char name[NAME_SIZE];
char *pos;
strlcpy(name, name_loop->name, sizeof(name));
pos = strchr(name, '=');
if (pos) {
pos[0] = '\0';
pos++;
if (strcmp_pattern(filter, name) == 0) {
dbg("import key '%s'", name_loop->name);
name_list_add(&udev->env_list, name_loop->name, 0);
setenv(name, pos, 1);
} else
dbg("skip key '%s'", name_loop->name);
}
}
rc = 0;
} else
dbg("parent not found in database");
udev_cleanup_device(&udev_parent);
}
return rc;
}
static int match_name_and_get_number(const char *base, const char *devname)
{
size_t baselen;
char *endptr;
int num;
baselen = strlen(base);
if (strncmp(base, devname, baselen) != 0)
return -1;
if (devname[baselen] == '\0')
return 0;
if (!isdigit(devname[baselen]))
return -1;
num = strtoul(&devname[baselen], &endptr, 10);
if (endptr[0] != '\0')
return -1;
return num;
}
/* finds the lowest positive device number such that <name>N isn't present in the udevdb
* if <name> doesn't exist, 0 is returned, N otherwise */
static int find_free_number(const char *base, const char *devpath)
{
char db_devpath[PATH_SIZE];
char filename[PATH_SIZE];
struct udevice udev_db;
int num = 0;
/* check if the device already owns a matching name */
udev_init_device(&udev_db, NULL, NULL, NULL);
if (udev_db_get_device(&udev_db, devpath) == 0) {
struct name_entry *name_loop;
int devnum;
devnum = match_name_and_get_number(base, udev_db.name);
if (devnum >= 0) {
num = devnum;
dbg("device '%s', already has the node '%s' with num %u, use it", devpath, base, num);
goto out;
}
list_for_each_entry(name_loop, &udev_db.symlink_list, node) {
devnum = match_name_and_get_number(base, name_loop->name);
if (devnum >= 0) {
num = devnum;
dbg("device '%s', already has a symlink '%s' with num %u, use it", devpath, base, num);
goto out;
}
}
}
/* just search the database again and again until a free name is found */
strlcpy(filename, base, sizeof(filename));
while (1) {
dbg("look for existing node '%s'", filename);
if (udev_db_lookup_name(filename, db_devpath, sizeof(db_devpath)) != 0) {
dbg("free num=%d", num);
break;
}
num++;
if (num > 100000) {
err("find_free_number aborted at num=%d", num);
num = -1;
break;
}
snprintf(filename, sizeof(filename), "%s%d", base, num);
filename[sizeof(filename)-1] = '\0';
}
out:
udev_cleanup_device(&udev_db);
return num;
}
static int find_sysfs_attribute(struct sysfs_class_device *class_dev, struct sysfs_device *sysfs_device,
const char *name, char *value, size_t len)
{
struct sysfs_class_device *class_dev_parent;
struct sysfs_attribute *tmpattr;
dbg("look for device attribute '%s'", name);
if (class_dev) {
dbg("look for class attribute '%s/%s'", class_dev->path, name);
tmpattr = sysfs_get_classdev_attr(class_dev, name);
if (tmpattr)
goto attr_found;
class_dev_parent = sysfs_get_classdev_parent(class_dev);
if (class_dev_parent) {
tmpattr = sysfs_get_classdev_attr(class_dev_parent, name);
if (tmpattr)
goto attr_found;
}
}
if (sysfs_device) {
dbg("look for devices attribute '%s/%s'", sysfs_device->path, name);
tmpattr = sysfs_get_device_attr(sysfs_device, name);
if (tmpattr)
goto attr_found;
}
return -1;
attr_found:
strlcpy(value, tmpattr->value, len);
remove_trailing_chars(value, '\n');
dbg("found attribute '%s'", tmpattr->path);
return 0;
}
#define WAIT_LOOP_PER_SECOND 20
static int wait_for_sysfs(struct udevice *udev, const char *file, int timeout)
{
char filename[PATH_SIZE];
struct stat stats;
int loop = timeout * WAIT_LOOP_PER_SECOND;
snprintf(filename, sizeof(filename), "%s%s/%s", sysfs_path, udev->devpath, file);
filename[sizeof(filename)-1] = '\0';
dbg("wait %i sec for '%s'", timeout, filename);
while (--loop) {
if (stat(filename, &stats) == 0) {
info("file appeared after %i loops", (timeout * WAIT_LOOP_PER_SECOND) - loop-1);
return 0;
}
usleep(1000 * 1000 / WAIT_LOOP_PER_SECOND);
}
info("waiting for '%s' failed", filename);
return -1;
}
static void apply_format(struct udevice *udev, char *string, size_t maxsize,
struct sysfs_class_device *class_dev, struct sysfs_device *sysfs_device)
{
char temp[PATH_SIZE];
char temp2[PATH_SIZE];
char *head, *tail, *pos, *cpos, *attr, *rest;
int len;
int i;
int count;
unsigned int next_free_number;
struct sysfs_class_device *class_dev_parent;
enum subst_type {
SUBST_UNKNOWN,
SUBST_DEVPATH,
SUBST_ID,
SUBST_KERNEL_NUMBER,
SUBST_KERNEL_NAME,
SUBST_MAJOR,
SUBST_MINOR,
SUBST_RESULT,
SUBST_SYSFS,
SUBST_ENUM,
SUBST_PARENT,
SUBST_TEMP_NODE,
SUBST_ROOT,
SUBST_MODALIAS,
SUBST_ENV,
};
static const struct subst_map {
char *name;
char fmt;
enum subst_type type;
} map[] = {
{ .name = "devpath", .fmt = 'p', .type = SUBST_DEVPATH },
{ .name = "id", .fmt = 'b', .type = SUBST_ID },
{ .name = "number", .fmt = 'n', .type = SUBST_KERNEL_NUMBER },
{ .name = "kernel", .fmt = 'k', .type = SUBST_KERNEL_NAME },
{ .name = "major", .fmt = 'M', .type = SUBST_MAJOR },
{ .name = "minor", .fmt = 'm', .type = SUBST_MINOR },
{ .name = "result", .fmt = 'c', .type = SUBST_RESULT },
{ .name = "sysfs", .fmt = 's', .type = SUBST_SYSFS },
{ .name = "enum", .fmt = 'e', .type = SUBST_ENUM },
{ .name = "parent", .fmt = 'P', .type = SUBST_PARENT },
{ .name = "tempnode", .fmt = 'N', .type = SUBST_TEMP_NODE },
{ .name = "root", .fmt = 'r', .type = SUBST_ROOT },
{ .name = "modalias", .fmt = 'A', .type = SUBST_MODALIAS },
{ .name = "env", .fmt = 'E', .type = SUBST_ENV },
{ NULL, '\0', 0 }
};
enum subst_type type;
const struct subst_map *subst;
head = string;
while (1) {
len = -1;
while (head[0] != '\0') {
if (head[0] == '$') {
/* substitute named variable */
if (head[1] == '\0')
break;
if (head[1] == '$') {
strlcpy(temp, head+2, sizeof(temp));
strlcpy(head+1, temp, maxsize);
head++;
continue;
}
head[0] = '\0';
for (subst = map; subst->name; subst++) {
if (strncasecmp(&head[1], subst->name, strlen(subst->name)) == 0) {
type = subst->type;
tail = head + strlen(subst->name)+1;
dbg("will substitute format name '%s'", subst->name);
goto found;
}
}
}
else if (head[0] == '%') {
/* substitute format char */
if (head[1] == '\0')
break;
if (head[1] == '%') {
strlcpy(temp, head+2, sizeof(temp));
strlcpy(head+1, temp, maxsize);
head++;
continue;
}
head[0] = '\0';
tail = head+1;
len = get_format_len(&tail);
for (subst = map; subst->name; subst++) {
if (tail[0] == subst->fmt) {
type = subst->type;
tail++;
dbg("will substitute format char '%c'", subst->fmt);
goto found;
}
}
}
head++;
}
break;
found:
attr = get_format_attribute(&tail);
strlcpy(temp, tail, sizeof(temp));
dbg("format=%i, string='%s', tail='%s', class_dev=%p, sysfs_dev=%p",
type ,string, tail, class_dev, sysfs_device);
switch (type) {
case SUBST_DEVPATH:
strlcat(string, udev->devpath, maxsize);
dbg("substitute devpath '%s'", udev->devpath);
break;
case SUBST_ID:
strlcat(string, udev->bus_id, maxsize);
dbg("substitute bus_id '%s'", udev->bus_id);
break;
case SUBST_KERNEL_NAME:
strlcat(string, udev->kernel_name, maxsize);
dbg("substitute kernel name '%s'", udev->kernel_name);
break;
case SUBST_KERNEL_NUMBER:
strlcat(string, udev->kernel_number, maxsize);
dbg("substitute kernel number '%s'", udev->kernel_number);
break;
case SUBST_MAJOR:
sprintf(temp2, "%d", major(udev->devt));
strlcat(string, temp2, maxsize);
dbg("substitute major number '%s'", temp2);
break;
case SUBST_MINOR:
sprintf(temp2, "%d", minor(udev->devt));
strlcat(string, temp2, maxsize);
dbg("substitute minor number '%s'", temp2);
break;
case SUBST_RESULT:
if (udev->program_result[0] == '\0')
break;
/* get part part of the result string */
i = 0;
if (attr != NULL)
i = strtoul(attr, &rest, 10);
if (i > 0) {
dbg("request part #%d of result string", i);
cpos = udev->program_result;
while (--i) {
while (cpos[0] != '\0' && !isspace(cpos[0]))
cpos++;
while (isspace(cpos[0]))
cpos++;
}
if (i > 0) {
err("requested part of result string not found");
break;
}
strlcpy(temp2, cpos, sizeof(temp2));
/* %{2+}c copies the whole string from the second part on */
if (rest[0] != '+') {
cpos = strchr(temp2, ' ');
if (cpos)
cpos[0] = '\0';
}
strlcat(string, temp2, maxsize);
dbg("substitute part of result string '%s'", temp2);
} else {
strlcat(string, udev->program_result, maxsize);
dbg("substitute result string '%s'", udev->program_result);
}
break;
case SUBST_SYSFS:
if (attr == NULL) {
dbg("missing attribute");
break;
}
if (find_sysfs_attribute(class_dev, sysfs_device, attr, temp2, sizeof(temp2)) != 0) {
struct sysfs_device *parent_device;
dbg("sysfs attribute '%s' not found, walk up the physical devices", attr);
parent_device = sysfs_get_device_parent(sysfs_device);
while (parent_device) {
dbg("looking at '%s'", parent_device->path);
if (find_sysfs_attribute(NULL, parent_device, attr, temp2, sizeof(temp2)) == 0)
break;
parent_device = sysfs_get_device_parent(parent_device);
}
if (!parent_device)
break;
}
/* strip trailing whitespace of sysfs value */
i = strlen(temp2);
while (i > 0 && isspace(temp2[i-1]))
temp2[--i] = '\0';
count = replace_untrusted_chars(temp2);
if (count)
info("%i untrusted character(s) replaced" , count);
strlcat(string, temp2, maxsize);
dbg("substitute sysfs value '%s'", temp2);
break;
case SUBST_ENUM:
next_free_number = find_free_number(string, udev->devpath);
if (next_free_number > 0) {
sprintf(temp2, "%d", next_free_number);
strlcat(string, temp2, maxsize);
}
break;
case SUBST_PARENT:
if (!class_dev)
break;
class_dev_parent = sysfs_get_classdev_parent(class_dev);
if (class_dev_parent != NULL) {
struct udevice udev_parent;
dbg("found parent '%s', get the node name", class_dev_parent->path);
udev_init_device(&udev_parent, NULL, NULL, NULL);
/* lookup the name in the udev_db with the DEVPATH of the parent */
if (udev_db_get_device(&udev_parent, &class_dev_parent->path[strlen(sysfs_path)]) == 0) {
strlcat(string, udev_parent.name, maxsize);
dbg("substitute parent node name'%s'", udev_parent.name);
} else
dbg("parent not found in database");
udev_cleanup_device(&udev_parent);
}
break;
case SUBST_TEMP_NODE:
if (udev->tmp_node[0] == '\0') {
dbg("create temporary device node for callout");
snprintf(udev->tmp_node, sizeof(udev->tmp_node), "%s/.tmp-%u-%u",
udev_root, major(udev->devt), minor(udev->devt));
udev->tmp_node[sizeof(udev->tmp_node)-1] = '\0';
udev_make_node(udev, udev->tmp_node, udev->devt, 0600, 0, 0);
}
strlcat(string, udev->tmp_node, maxsize);
dbg("substitute temporary device node name '%s'", udev->tmp_node);
break;
case SUBST_ROOT:
strlcat(string, udev_root, maxsize);
dbg("substitute udev_root '%s'", udev_root);
break;
case SUBST_MODALIAS:
if (find_sysfs_attribute(NULL, sysfs_device, "modalias", temp2, sizeof(temp2)) != 0)
break;
strlcat(string, temp2, maxsize);
dbg("substitute MODALIAS '%s'", temp2);
break;
case SUBST_ENV:
if (attr == NULL) {
dbg("missing attribute");
break;
}
pos = getenv(attr);
if (pos == NULL) {
dbg("env '%s' not available", attr);
break;
}
dbg("substitute env '%s=%s'", attr, pos);
strlcat(string, pos, maxsize);
break;
default:
err("unknown substitution type=%i", type);
break;
}
/* possibly truncate to format-char specified length */
if (len != -1) {
head[len] = '\0';
dbg("truncate to %i chars, subtitution string becomes '%s'", len, head);
}
strlcat(string, temp, maxsize);
}
}
static char *key_val(struct udev_rule *rule, struct key *key)
{
return rule->buf + key->val_off;
}
static char *key_pair_name(struct udev_rule *rule, struct key_pair *pair)
{
return rule->buf + pair->key_name_off;
}
static int match_key(const char *key_name, struct udev_rule *rule, struct key *key, const char *val)
{
int match;
char value[PATH_SIZE];
char *key_value;
char *pos;
if (key->operation == KEY_OP_UNSET)
return 0;
strlcpy(value, rule->buf + key->val_off, sizeof(value));
key_value = value;
dbg("key %s value='%s'", key_name, key_value);
while (key_value) {
pos = strchr(key_value, '|');
if (pos) {
pos[0] = '\0';
pos++;
}
dbg("match %s '%s' <-> '%s'", key_name, key_value, val);
match = (strcmp_pattern(key_value, val) == 0);
if (match && (key->operation != KEY_OP_NOMATCH)) {
dbg("%s is true (matching value)", key_name);
return 0;
}
if (!match && (key->operation == KEY_OP_NOMATCH)) {
dbg("%s is true (non-matching value)", key_name);
return 0;
}
key_value = pos;
}
dbg("%s is false", key_name);
return -1;
}
/* match a single rule against a given device and possibly its parent devices */
static int match_rule(struct udevice *udev, struct udev_rule *rule,
struct sysfs_class_device *class_dev, struct sysfs_device *sysfs_device)
{
struct sysfs_device *parent_device = sysfs_device;
int i;
if (match_key("ACTION", rule, &rule->action, udev->action))
goto exit;
if (match_key("KERNEL", rule, &rule->kernel_name, udev->kernel_name))
goto exit;
if (match_key("SUBSYSTEM", rule, &rule->subsystem, udev->subsystem))
goto exit;
if (match_key("DEVPATH", rule, &rule->devpath, udev->devpath))
goto exit;
if (rule->modalias.operation != KEY_OP_UNSET) {
char value[NAME_SIZE];
if (find_sysfs_attribute(NULL, sysfs_device, "modalias", value, sizeof(value)) != 0) {
dbg("MODALIAS value not found");
goto exit;
}
if (match_key("MODALIAS", rule, &rule->modalias, value))
goto exit;
}
for (i = 0; i < rule->env.count; i++) {
struct key_pair *pair = &rule->env.keys[i];
/* we only check for matches, assignments will be handled later */
if (pair->key.operation != KEY_OP_ASSIGN) {
const char *key_name = key_pair_name(rule, pair);
const char *value = getenv(key_name);
if (!value) {
dbg("ENV{'%s'} is not set, treat as empty", key_name);
value = "";
}
if (match_key("ENV", rule, &pair->key, value))
goto exit;
}
}
if (rule->wait_for_sysfs.operation != KEY_OP_UNSET) {
int match;
match = (wait_for_sysfs(udev, key_val(rule, &rule->wait_for_sysfs), 3) == 0);
if (match && (rule->wait_for_sysfs.operation != KEY_OP_NOMATCH)) {
dbg("WAIT_FOR_SYSFS is true (matching value)");
return 0;
}
if (!match && (rule->wait_for_sysfs.operation == KEY_OP_NOMATCH)) {
dbg("WAIT_FOR_SYSFS is true, (non matching value)");
return 0;
}
dbg("WAIT_FOR_SYSFS is false");
return -1;
}
/* walk up the chain of physical devices and find a match */
while (1) {
/* check for matching driver */
if (rule->driver.operation != KEY_OP_UNSET) {
if (parent_device == NULL) {
dbg("device has no sysfs_device");
goto exit;
}
if (match_key("DRIVER", rule, &rule->driver, parent_device->driver_name))
goto try_parent;
}
/* check for matching bus value */
if (rule->bus.operation != KEY_OP_UNSET) {
if (parent_device == NULL) {
dbg("device has no sysfs_device");
goto exit;
}
if (match_key("BUS", rule, &rule->bus, parent_device->bus))
goto try_parent;
}
/* check for matching bus id */
if (rule->id.operation != KEY_OP_UNSET) {
if (parent_device == NULL) {
dbg("device has no sysfs_device");
goto exit;
}
if (match_key("ID", rule, &rule->id, parent_device->bus_id))
goto try_parent;
}
/* check for matching sysfs pairs */
if (rule->sysfs.count) {
dbg("check %i SYSFS keys", rule->sysfs.count);
for (i = 0; i < rule->sysfs.count; i++) {
struct key_pair *pair = &rule->sysfs.keys[i];
const char *key_name = key_pair_name(rule, pair);
const char *key_value = key_val(rule, &pair->key);
char value[VALUE_SIZE];
size_t len;
if (find_sysfs_attribute(class_dev, parent_device, key_name, value, sizeof(value)) != 0)
goto try_parent;
/* strip trailing whitespace of value, if not asked to match for it */
len = strlen(key_value);
if (len && !isspace(key_value[len-1])) {
len = strlen(value);
while (len > 0 && isspace(value[len-1]))
value[--len] = '\0';
dbg("removed %zi trailing whitespace chars from '%s'", strlen(value)-len, value);
}
if (match_key("SYSFS", rule, &pair->key, value))
goto try_parent;
}
dbg("all %i SYSFS keys matched", rule->sysfs.count);
}
/* found matching physical device */
break;
try_parent:
dbg("try parent sysfs device");
parent_device = sysfs_get_device_parent(parent_device);
if (parent_device == NULL)
goto exit;
dbg("look at sysfs_device->path='%s'", parent_device->path);
dbg("look at sysfs_device->bus_id='%s'", parent_device->bus_id);
}
/* execute external program */
if (rule->program.operation != KEY_OP_UNSET) {
char program[PATH_SIZE];
char result[PATH_SIZE];
strlcpy(program, key_val(rule, &rule->program), sizeof(program));
apply_format(udev, program, sizeof(program), class_dev, sysfs_device);
if (run_program(program, udev->subsystem, result, sizeof(result), NULL, (udev_log_priority >= LOG_INFO)) != 0) {
dbg("PROGRAM is false");
udev->program_result[0] = '\0';
if (rule->program.operation != KEY_OP_NOMATCH)
goto exit;
} else {
int count;
dbg("PROGRAM matches");
remove_trailing_chars(result, '\n');
count = replace_untrusted_chars(result);
if (count)
info("%i untrusted character(s) replaced" , count);
dbg("result is '%s'", result);
strlcpy(udev->program_result, result, sizeof(udev->program_result));
dbg("PROGRAM returned successful");
if (rule->program.operation == KEY_OP_NOMATCH)
goto exit;
}
dbg("PROGRAM key is true");
}
/* check for matching result of external program */
if (match_key("RESULT", rule, &rule->result, udev->program_result))
goto exit;
/* import variables returned from program or or file into environment */
if (rule->import.operation != KEY_OP_UNSET) {
char import[PATH_SIZE];
int rc = -1;
strlcpy(import, key_val(rule, &rule->import), sizeof(import));
apply_format(udev, import, sizeof(import), class_dev, sysfs_device);
dbg("check for IMPORT import='%s'", import);
if (rule->import_type == IMPORT_PROGRAM) {
rc = import_program_into_env(udev, import);
} else if (rule->import_type == IMPORT_FILE) {
dbg("import file import='%s'", import);
rc = import_file_into_env(udev, import);
} else if (rule->import_type == IMPORT_PARENT && class_dev) {
dbg("import parent import='%s'", import);
rc = import_parent_into_env(udev, class_dev, import);
}
if (rc) {
dbg("IMPORT failed");
if (rule->import.operation != KEY_OP_NOMATCH)
goto exit;
} else
dbg("IMPORT '%s' imported", key_val(rule, &rule->import));
dbg("IMPORT key is true");
}
/* rule matches, if we have ENV assignments export it */
for (i = 0; i < rule->env.count; i++) {
struct key_pair *pair = &rule->env.keys[i];
if (pair->key.operation == KEY_OP_ASSIGN) {
const char *key_name = key_pair_name(rule, pair);
const char *value = key_val(rule, &pair->key);
name_list_key_add(&udev->env_list, key_name, value);
setenv(key_name, value, 1);
dbg("export ENV '%s=%s'", key_name, value);
}
}
return 0;
exit:
return -1;
}
int udev_rules_get_name(struct udev_rules *rules, struct udevice *udev, struct sysfs_class_device *class_dev)
{
struct sysfs_class_device *class_dev_parent;
struct sysfs_device *sysfs_device = NULL;
struct udev_rule *rule;
int name_set = 0;
dbg("class_dev->name='%s'", class_dev->name);
/* Figure out where the "device"-symlink is at. For char devices this will
* always be in the class_dev->path. On block devices, only the main block
* device will have the device symlink in it's path. All partition devices
* need to look at the symlink in its parent directory.
*/
class_dev_parent = sysfs_get_classdev_parent(class_dev);
if (class_dev_parent != NULL) {
dbg("given class device has a parent, use this instead");
sysfs_device = sysfs_get_classdev_device(class_dev_parent);
} else {
sysfs_device = sysfs_get_classdev_device(class_dev);
}
if (sysfs_device) {
dbg("found devices device: path='%s', bus_id='%s', bus='%s'",
sysfs_device->path, sysfs_device->bus_id, sysfs_device->bus);
strlcpy(udev->bus_id, sysfs_device->bus_id, sizeof(udev->bus_id));
}
dbg("udev->kernel_name='%s'", udev->kernel_name);
/* look for a matching rule to apply */
udev_rules_iter_init(rules);
while (1) {
rule = udev_rules_iter_next(rules);
if (rule == NULL)
break;
if (name_set && rule->name.operation != KEY_OP_UNSET) {
dbg("node name already set, rule ignored");
continue;
}
dbg("process rule");
if (match_rule(udev, rule, class_dev, sysfs_device) == 0) {
/* apply options */
if (rule->ignore_device) {
info("rule applied, '%s' is ignored", udev->kernel_name);
udev->ignore_device = 1;
return 0;
}
if (rule->ignore_remove) {
udev->ignore_remove = 1;
dbg("remove event should be ignored");
}
/* apply all_partitions option only at a main block device */
if (rule->partitions && udev->type == DEV_BLOCK && udev->kernel_number[0] == '\0') {
udev->partitions = rule->partitions;
dbg("creation of partition nodes requested");
}
/* apply permissions */
if (!udev->mode_final && rule->mode != 0000) {
if (rule->mode_operation == KEY_OP_ASSIGN_FINAL)
udev->mode_final = 1;
udev->mode = rule->mode;
dbg("applied mode=%#o to '%s'", rule->mode, udev->kernel_name);
}
if (!udev->owner_final && rule->owner.operation != KEY_OP_UNSET) {
if (rule->owner.operation == KEY_OP_ASSIGN_FINAL)
udev->owner_final = 1;
strlcpy(udev->owner, key_val(rule, &rule->owner), sizeof(udev->owner));
apply_format(udev, udev->owner, sizeof(udev->owner), class_dev, sysfs_device);
dbg("applied owner='%s' to '%s'", udev->owner, udev->kernel_name);
}
if (!udev->group_final && rule->group.operation != KEY_OP_UNSET) {
if (rule->group.operation == KEY_OP_ASSIGN_FINAL)
udev->group_final = 1;
strlcpy(udev->group, key_val(rule, &rule->group), sizeof(udev->group));
apply_format(udev, udev->group, sizeof(udev->group), class_dev, sysfs_device);
dbg("applied group='%s' to '%s'", udev->group, udev->kernel_name);
}
/* collect symlinks */
if (!udev->symlink_final && rule->symlink.operation != KEY_OP_UNSET) {
char temp[PATH_SIZE];
char *pos, *next;
int count;
if (rule->symlink.operation == KEY_OP_ASSIGN_FINAL)
udev->symlink_final = 1;
if (rule->symlink.operation == KEY_OP_ASSIGN || rule->symlink.operation == KEY_OP_ASSIGN_FINAL) {
info("reset symlink list");
name_list_cleanup(&udev->symlink_list);
}
strlcpy(temp, key_val(rule, &rule->symlink), sizeof(temp));
apply_format(udev, temp, sizeof(temp), class_dev, sysfs_device);
count = replace_untrusted_chars(temp);
if (count)
info("%i untrusted character(s) replaced" , count);
dbg("rule applied, added symlink(s) '%s'", temp);
/* add multiple symlinks separated by spaces */
pos = temp;
while (isspace(pos[0]))
pos++;
next = strchr(pos, ' ');
while (next) {
next[0] = '\0';
info("add symlink '%s'", pos);
name_list_add(&udev->symlink_list, pos, 0);
while (isspace(next[1]))
next++;
pos = &next[1];
next = strchr(pos, ' ');
}
if (pos[0] != '\0') {
info("add symlink '%s'", pos);
name_list_add(&udev->symlink_list, pos, 0);
}
}
/* set name, later rules with name set will be ignored */
if (rule->name.operation != KEY_OP_UNSET) {
int count;
name_set = 1;
strlcpy(udev->name, key_val(rule, &rule->name), sizeof(udev->name));
apply_format(udev, udev->name, sizeof(udev->name), class_dev, sysfs_device);
count = replace_untrusted_chars(udev->name);
if (count)
info("%i untrusted character(s) replaced", count);
info("rule applied, '%s' becomes '%s'", udev->kernel_name, udev->name);
if (udev->type != DEV_NET)
dbg("name, '%s' is going to have owner='%s', group='%s', mode=%#o partitions=%i",
udev->name, udev->owner, udev->group, udev->mode, udev->partitions);
}
if (!udev->run_final && rule->run.operation != KEY_OP_UNSET) {
char program[PATH_SIZE];
if (rule->run.operation == KEY_OP_ASSIGN_FINAL)
udev->run_final = 1;
if (rule->run.operation == KEY_OP_ASSIGN || rule->run.operation == KEY_OP_ASSIGN_FINAL) {
info("reset run list");
name_list_cleanup(&udev->run_list);
}
strlcpy(program, key_val(rule, &rule->run), sizeof(program));
apply_format(udev, program, sizeof(program), class_dev, sysfs_device);
dbg("add run '%s'", program);
name_list_add(&udev->run_list, program, 0);
}
if (rule->last_rule) {
dbg("last rule to be applied");
break;
}
if (rule->goto_label.operation != KEY_OP_UNSET) {
dbg("moving forward to label '%s'", key_val(rule, &rule->goto_label));
udev_rules_iter_label(rules, key_val(rule, &rule->goto_label));
}
}
}
if (!name_set) {
strlcpy(udev->name, udev->kernel_name, sizeof(udev->name));
info("no node name set, will use kernel name '%s'", udev->name);
}
if (udev->tmp_node[0] != '\0') {
dbg("removing temporary device node");
unlink_secure(udev->tmp_node);
udev->tmp_node[0] = '\0';
}
return 0;
}
int udev_rules_get_run(struct udev_rules *rules, struct udevice *udev,
struct sysfs_class_device *class_dev, struct sysfs_device *sysfs_dev)
{
struct udev_rule *rule;
if (class_dev && !sysfs_dev)
sysfs_dev = sysfs_get_classdev_device(class_dev);
if (sysfs_dev) {
dbg("found devices device: path='%s', bus_id='%s', bus='%s'",
sysfs_dev->path, sysfs_dev->bus_id, sysfs_dev->bus);
strlcpy(udev->bus_id, sysfs_dev->bus_id, sizeof(udev->bus_id));
}
dbg("udev->kernel_name='%s'", udev->kernel_name);
/* look for a matching rule to apply */
udev_rules_iter_init(rules);
while (1) {
rule = udev_rules_iter_next(rules);
if (rule == NULL)
break;
dbg("process rule");
if (rule->name.operation != KEY_OP_UNSET || rule->symlink.operation != KEY_OP_UNSET ||
rule->mode_operation != KEY_OP_UNSET || rule->owner.operation != KEY_OP_UNSET || rule->group.operation != KEY_OP_UNSET) {
dbg("skip rule that names a device");
continue;
}
if (match_rule(udev, rule, class_dev, sysfs_dev) == 0) {
if (rule->ignore_device) {
info("rule applied, '%s' is ignored", udev->kernel_name);
udev->ignore_device = 1;
return 0;
}
if (!udev->run_final && rule->run.operation != KEY_OP_UNSET) {
char program[PATH_SIZE];
if (rule->run.operation == KEY_OP_ASSIGN || rule->run.operation == KEY_OP_ASSIGN_FINAL) {
info("reset run list");
name_list_cleanup(&udev->run_list);
}
strlcpy(program, key_val(rule, &rule->run), sizeof(program));
apply_format(udev, program, sizeof(program), class_dev, sysfs_dev);
dbg("add run '%s'", program);
name_list_add(&udev->run_list, program, 0);
if (rule->run.operation == KEY_OP_ASSIGN_FINAL)
break;
}
if (rule->last_rule) {
dbg("last rule to be applied");
break;
}
if (rule->goto_label.operation != KEY_OP_UNSET) {
dbg("moving forward to label '%s'", key_val(rule, &rule->goto_label));
udev_rules_iter_label(rules, key_val(rule, &rule->goto_label));
}
}
}
return 0;
}