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/*
* Copyright (c) 2012 - Eric Biederman
*/
#include <config.h>
#ifdef ENABLE_SUBIDS
#include "prototypes.h"
#include "defines.h"
#include <stdio.h>
#include "commonio.h"
#include "subordinateio.h"
#include <sys/types.h>
#include <pwd.h>
struct subordinate_range {
const char *owner;
unsigned long start;
unsigned long count;
};
#define NFIELDS 3
/*
* subordinate_dup: create a duplicate range
*
* @ent: a pointer to a subordinate_range struct
*
* Returns a pointer to a newly allocated duplicate subordinate_range struct
* or NULL on failure
*/
static /*@null@*/ /*@only@*/void *subordinate_dup (const void *ent)
{
const struct subordinate_range *rangeent = ent;
struct subordinate_range *range;
range = (struct subordinate_range *) malloc (sizeof *range);
if (NULL == range) {
return NULL;
}
range->owner = strdup (rangeent->owner);
if (NULL == range->owner) {
free(range);
return NULL;
}
range->start = rangeent->start;
range->count = rangeent->count;
return range;
}
/*
* subordinate_free: free a subordinate_range struct
*
* @ent: pointer to a subordinate_range struct to free.
*/
static void subordinate_free (/*@out@*/ /*@only@*/void *ent)
{
struct subordinate_range *rangeent = ent;
free ((void *)(rangeent->owner));
free (rangeent);
}
/*
* subordinate_parse:
*
* @line: a line to parse
*
* Returns a pointer to a subordinate_range struct representing the values
* in @line, or NULL on failure. Note that the returned value should not
* be freed by the caller.
*/
static void *subordinate_parse (const char *line)
{
static struct subordinate_range range;
static char rangebuf[1024];
int i;
char *cp;
char *fields[NFIELDS];
/*
* Copy the string to a temporary buffer so the substrings can
* be modified to be NULL terminated.
*/
if (strlen (line) >= sizeof rangebuf)
return NULL; /* fail if too long */
strcpy (rangebuf, line);
/*
* Save a pointer to the start of each colon separated
* field. The fields are converted into NUL terminated strings.
*/
for (cp = rangebuf, i = 0; (i < NFIELDS) && (NULL != cp); i++) {
fields[i] = cp;
while (('\0' != *cp) && (':' != *cp)) {
cp++;
}
if ('\0' != *cp) {
*cp = '\0';
cp++;
} else {
cp = NULL;
}
}
/*
* There must be exactly NFIELDS colon separated fields or
* the entry is invalid. Also, fields must be non-blank.
*/
if (i != NFIELDS || *fields[0] == '\0' || *fields[1] == '\0' || *fields[2] == '\0')
return NULL;
range.owner = fields[0];
if (getulong (fields[1], &range.start) == 0)
return NULL;
if (getulong (fields[2], &range.count) == 0)
return NULL;
return ⦥
}
/*
* subordinate_put: print a subordinate_range value to a file
*
* @ent: a pointer to a subordinate_range struct to print out.
* @file: file to which to print.
*
* Returns 0 on success, -1 on error.
*/
static int subordinate_put (const void *ent, FILE * file)
{
const struct subordinate_range *range = ent;
return fprintf(file, "%s:%lu:%lu\n",
range->owner,
range->start,
range->count) < 0 ? -1 : 0;
}
static struct commonio_ops subordinate_ops = {
subordinate_dup, /* dup */
subordinate_free, /* free */
NULL, /* getname */
subordinate_parse, /* parse */
subordinate_put, /* put */
fgets, /* fgets */
fputs, /* fputs */
NULL, /* open_hook */
NULL, /* close_hook */
};
static /*@observer@*/ /*@null*/const struct subordinate_range *subordinate_next(struct commonio_db *db)
{
return (const struct subordinate_range *)commonio_next (db);
}
/*
* range_exists: Check whether @owner owns any ranges
*
* @db: database to query
* @owner: owner being queried
*
* Returns true if @owner owns any subuid ranges, false otherwise.
*/
static const bool range_exists(struct commonio_db *db, const char *owner)
{
const struct subordinate_range *range;
commonio_rewind(db);
while ((range = commonio_next(db)) != NULL) {
if (0 == strcmp(range->owner, owner))
return true;
}
return false;
}
/*
* find_range: find a range which @owner is authorized to use which includes
* subuid @val.
*
* @db: database to query
* @owner: owning uid being queuried
* @val: subuid being searched for.
*
* Returns a range of subuids belonging to @owner and including the subuid
* @val, or NULL if no such range exists.
*/
static const struct subordinate_range *find_range(struct commonio_db *db,
const char *owner, unsigned long val)
{
const struct subordinate_range *range;
/*
* Search for exact username/group specification
*
* This is the original method - go fast through the db, doing only
* exact username/group string comparison. Therefore we leave it as-is
* for the time being, in order to keep it equally fast as it was
* before.
*/
commonio_rewind(db);
while ((range = commonio_next(db)) != NULL) {
unsigned long first = range->start;
unsigned long last = first + range->count - 1;
if (0 != strcmp(range->owner, owner))
continue;
if ((val >= first) && (val <= last))
return range;
}
/*
* We only do special handling for these two files
*/
if ((0 != strcmp(db->filename, "/etc/subuid")) && (0 != strcmp(db->filename, "/etc/subgid")))
return NULL;
/*
* Search loop above did not produce any result. Let's rerun it,
* but this time try to matcha actual UIDs. The first entry that
* matches is considered a success.
* (It may be specified as literal UID or as another username which
* has the same UID as the username we are looking for.)
*/
struct passwd *pwd;
uid_t owner_uid;
char owner_uid_string[33] = "";
/* Get UID of the username we are looking for */
pwd = getpwnam(owner);
if (NULL == pwd) {
/* Username not defined in /etc/passwd, or error occured during lookup */
return NULL;
}
owner_uid = pwd->pw_uid;
sprintf(owner_uid_string, "%lu", (unsigned long int)owner_uid);
commonio_rewind(db);
while ((range = commonio_next(db)) != NULL) {
unsigned long first = range->start;
unsigned long last = first + range->count - 1;
/* For performance reasons check range before using getpwnam() */
if ((val < first) || (val > last)) {
continue;
}
/*
* Range matches. Check if range owner is specified
* as numeric UID and if it matches.
*/
if (0 == strcmp(range->owner, owner_uid_string)) {
return range;
}
/*
* Ok, this range owner is not specified as numeric UID
* we are looking for. It may be specified as another
* UID or as a literal username.
*
* If specified as another UID, the call to getpwnam()
* will return NULL.
*
* If specified as literal username, we will get its
* UID and compare that to UID we are looking for.
*/
const struct passwd *range_owner_pwd;
range_owner_pwd = getpwnam(range->owner);
if (NULL == range_owner_pwd) {
continue;
}
if (owner_uid == range_owner_pwd->pw_uid) {
return range;
}
}
return NULL;
}
/*
* have_range: check whether @owner is authorized to use the range
* (@start .. @start+@count-1).
* @db: database to check
* @owner: owning uid being queried
* @start: start of range
* @count: number of uids in range
*
* Returns true if @owner is authorized to use the range, false otherwise.
*/
static bool have_range(struct commonio_db *db,
const char *owner, unsigned long start, unsigned long count)
{
const struct subordinate_range *range;
unsigned long end;
if (count == 0)
return false;
end = start + count - 1;
range = find_range (db, owner, start);
while (range) {
unsigned long last;
last = range->start + range->count - 1;
if (last >= (start + count - 1))
return true;
count = end - last;
start = last + 1;
range = find_range(db, owner, start);
}
return false;
}
/*
* subordinate_range_cmp: compare uid ranges
*
* @p1: pointer to a commonio_entry struct to compare
* @p2: pointer to second commonio_entry struct to compare
*
* Returns 0 if the entries are the same. Otherwise return -1
* if the range in p1 is lower than that in p2, or (if the ranges are
* equal) if the owning uid in p1 is lower than p2's. Return 1 if p1's
* range or owning uid is great than p2's.
*/
static int subordinate_range_cmp (const void *p1, const void *p2)
{
struct subordinate_range *range1, *range2;
if ((*(struct commonio_entry **) p1)->eptr == NULL)
return 1;
if ((*(struct commonio_entry **) p2)->eptr == NULL)
return -1;
range1 = ((struct subordinate_range *) (*(struct commonio_entry **) p1)->eptr);
range2 = ((struct subordinate_range *) (*(struct commonio_entry **) p2)->eptr);
if (range1->start < range2->start)
return -1;
else if (range1->start > range2->start)
return 1;
else if (range1->count < range2->count)
return -1;
else if (range1->count > range2->count)
return 1;
else
return strcmp(range1->owner, range2->owner);
}
/*
* find_free_range: find an unused consecutive sequence of ids to allocate
* to a user.
* @db: database to search
* @min: the first uid in the range to find
* @max: the highest uid to find
* @count: the number of uids needed
*
* Return the lowest new uid, or ULONG_MAX on failure.
*/
static unsigned long find_free_range(struct commonio_db *db,
unsigned long min, unsigned long max,
unsigned long count)
{
const struct subordinate_range *range;
unsigned long low, high;
/* When given invalid parameters fail */
if ((count == 0) || (max < min))
goto fail;
/* Sort by range then by owner */
commonio_sort (db, subordinate_range_cmp);
commonio_rewind(db);
low = min;
while ((range = commonio_next(db)) != NULL) {
unsigned long first = range->start;
unsigned long last = first + range->count - 1;
/* Find the top end of the hole before this range */
high = first;
/* Don't allocate IDs after max (included) */
if (high > max + 1) {
high = max + 1;
}
/* Is the hole before this range large enough? */
if ((high > low) && ((high - low) >= count))
return low;
/* Compute the low end of the next hole */
if (low < (last + 1))
low = last + 1;
if (low > max)
goto fail;
}
/* Is the remaining unclaimed area large enough? */
if (((max - low) + 1) >= count)
return low;
fail:
return ULONG_MAX;
}
/*
* add_range: add a subuid range to an owning uid's list of authorized
* subuids.
* @db: database to which to add
* @owner: uid which owns the subuid
* @start: the first uid in the owned range
* @count: the number of uids in the range
*
* Return 1 if the range is already present or on succcess. On error
* return 0 and set errno appropriately.
*/
static int add_range(struct commonio_db *db,
const char *owner, unsigned long start, unsigned long count)
{
struct subordinate_range range;
range.owner = owner;
range.start = start;
range.count = count;
/* See if the range is already present */
if (have_range(db, owner, start, count))
return 1;
/* Otherwise append the range */
return commonio_append(db, &range);
}
/*
* remove_range: remove a range of subuids from an owning uid's list
* of authorized subuids.
* @db: database to work on
* @owner: owning uid whose range is being removed
* @start: start of the range to be removed
* @count: number of uids in the range.
*
* Returns 0 on failure, 1 on success. Failure means that we needed to
* create a new range to represent the new limits, and failed doing so.
*/
static int remove_range (struct commonio_db *db,
const char *owner,
unsigned long start, unsigned long count)
{
struct commonio_entry *ent;
unsigned long end;
if (count == 0) {
return 1;
}
end = start + count - 1;
for (ent = db->head; NULL != ent; ent = ent->next) {
struct subordinate_range *range = ent->eptr;
unsigned long first;
unsigned long last;
/* Skip unparsed entries */
if (NULL == range) {
continue;
}
first = range->start;
last = first + range->count - 1;
/* Skip entries with a different owner */
if (0 != strcmp (range->owner, owner)) {
continue;
}
/* Skip entries outside of the range to remove */
if ((end < first) || (start > last)) {
continue;
}
if (start <= first) {
if (end >= last) {
/* to be removed: [start, end]
* range: [first, last] */
/* entry completely contained in the
* range to remove */
commonio_del_entry (db, ent);
} else {
/* to be removed: [start, end]
* range: [first, last] */
/* Remove only the start of the entry */
range->start = end + 1;
range->count = (last - range->start) + 1;
ent->changed = true;
db->changed = true;
}
} else {
if (end >= last) {
/* to be removed: [start, end]
* range: [first, last] */
/* Remove only the end of the entry */
range->count = start - range->start;
ent->changed = true;
db->changed = true;
} else {
/* to be removed: [start, end]
* range: [first, last] */
/* Remove the middle of the range
* This requires to create a new range */
struct subordinate_range tail;
tail.owner = range->owner;
tail.start = end + 1;
tail.count = (last - tail.start) + 1;
if (commonio_append (db, &tail) == 0) {
return 0;
}
range->count = start - range->start;
ent->changed = true;
db->changed = true;
}
}
}
return 1;
}
static struct commonio_db subordinate_uid_db = {
"/etc/subuid", /* filename */
&subordinate_ops, /* ops */
NULL, /* fp */
#ifdef WITH_SELINUX
NULL, /* scontext */
#endif
0644, /* st_mode */
0, /* st_uid */
0, /* st_gid */
NULL, /* head */
NULL, /* tail */
NULL, /* cursor */
false, /* changed */
false, /* isopen */
false, /* locked */
false /* readonly */
};
int sub_uid_setdbname (const char *filename)
{
return commonio_setname (&subordinate_uid_db, filename);
}
/*@observer@*/const char *sub_uid_dbname (void)
{
return subordinate_uid_db.filename;
}
bool sub_uid_file_present (void)
{
return commonio_present (&subordinate_uid_db);
}
int sub_uid_lock (void)
{
return commonio_lock (&subordinate_uid_db);
}
int sub_uid_open (int mode)
{
return commonio_open (&subordinate_uid_db, mode);
}
bool sub_uid_assigned(const char *owner)
{
return range_exists (&subordinate_uid_db, owner);
}
bool have_sub_uids(const char *owner, uid_t start, unsigned long count)
{
return have_range (&subordinate_uid_db, owner, start, count);
}
int sub_uid_add (const char *owner, uid_t start, unsigned long count)
{
return add_range (&subordinate_uid_db, owner, start, count);
}
int sub_uid_remove (const char *owner, uid_t start, unsigned long count)
{
return remove_range (&subordinate_uid_db, owner, start, count);
}
int sub_uid_close (void)
{
return commonio_close (&subordinate_uid_db);
}
int sub_uid_unlock (void)
{
return commonio_unlock (&subordinate_uid_db);
}
uid_t sub_uid_find_free_range(uid_t min, uid_t max, unsigned long count)
{
unsigned long start;
start = find_free_range (&subordinate_uid_db, min, max, count);
return start == ULONG_MAX ? (uid_t) -1 : start;
}
static struct commonio_db subordinate_gid_db = {
"/etc/subgid", /* filename */
&subordinate_ops, /* ops */
NULL, /* fp */
#ifdef WITH_SELINUX
NULL, /* scontext */
#endif
0644, /* st_mode */
0, /* st_uid */
0, /* st_gid */
NULL, /* head */
NULL, /* tail */
NULL, /* cursor */
false, /* changed */
false, /* isopen */
false, /* locked */
false /* readonly */
};
int sub_gid_setdbname (const char *filename)
{
return commonio_setname (&subordinate_gid_db, filename);
}
/*@observer@*/const char *sub_gid_dbname (void)
{
return subordinate_gid_db.filename;
}
bool sub_gid_file_present (void)
{
return commonio_present (&subordinate_gid_db);
}
int sub_gid_lock (void)
{
return commonio_lock (&subordinate_gid_db);
}
int sub_gid_open (int mode)
{
return commonio_open (&subordinate_gid_db, mode);
}
bool have_sub_gids(const char *owner, gid_t start, unsigned long count)
{
return have_range(&subordinate_gid_db, owner, start, count);
}
bool sub_gid_assigned(const char *owner)
{
return range_exists (&subordinate_gid_db, owner);
}
int sub_gid_add (const char *owner, gid_t start, unsigned long count)
{
return add_range (&subordinate_gid_db, owner, start, count);
}
int sub_gid_remove (const char *owner, gid_t start, unsigned long count)
{
return remove_range (&subordinate_gid_db, owner, start, count);
}
int sub_gid_close (void)
{
return commonio_close (&subordinate_gid_db);
}
int sub_gid_unlock (void)
{
return commonio_unlock (&subordinate_gid_db);
}
gid_t sub_gid_find_free_range(gid_t min, gid_t max, unsigned long count)
{
unsigned long start;
start = find_free_range (&subordinate_gid_db, min, max, count);
return start == ULONG_MAX ? (gid_t) -1 : start;
}
#else /* !ENABLE_SUBIDS */
extern int errno; /* warning: ANSI C forbids an empty source file */
#endif /* !ENABLE_SUBIDS */
|