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|
/* keyutils.c: key utility library
*
* Copyright (C) 2005,2011 Red Hat, Inc. All Rights Reserved.
* Written by David Howells (dhowells@redhat.com)
*
* This program 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 of the License, or (at your option) any later version.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdarg.h>
#include <string.h>
#include <unistd.h>
#include <dlfcn.h>
#include <sys/uio.h>
#include <errno.h>
#include <asm/unistd.h>
#include "keyutils.h"
const char keyutils_version_string[] = PKGVERSION;
const char keyutils_build_string[] = PKGBUILD;
#ifdef NO_GLIBC_KEYERR
static int error_inited;
static void (*libc_perror)(const char *msg);
static char *(*libc_strerror_r)(int errnum, char *buf, size_t n);
//static int (*libc_xpg_strerror_r)(int errnum, char *buf, size_t n);
#define RTLD_NEXT ((void *) -1L)
#endif
#define __weak __attribute__((weak))
key_serial_t __weak add_key(const char *type,
const char *description,
const void *payload,
size_t plen,
key_serial_t ringid)
{
return syscall(__NR_add_key,
type, description, payload, plen, ringid);
}
key_serial_t __weak request_key(const char *type,
const char *description,
const char * callout_info,
key_serial_t destringid)
{
return syscall(__NR_request_key,
type, description, callout_info, destringid);
}
static inline long __keyctl(int cmd,
unsigned long arg2,
unsigned long arg3,
unsigned long arg4,
unsigned long arg5)
{
return syscall(__NR_keyctl,
cmd, arg2, arg3, arg4, arg5);
}
long __weak keyctl(int cmd, ...)
{
va_list va;
unsigned long arg2, arg3, arg4, arg5;
va_start(va, cmd);
arg2 = va_arg(va, unsigned long);
arg3 = va_arg(va, unsigned long);
arg4 = va_arg(va, unsigned long);
arg5 = va_arg(va, unsigned long);
va_end(va);
return __keyctl(cmd, arg2, arg3, arg4, arg5);
}
key_serial_t keyctl_get_keyring_ID(key_serial_t id, int create)
{
return keyctl(KEYCTL_GET_KEYRING_ID, id, create);
}
key_serial_t keyctl_join_session_keyring(const char *name)
{
return keyctl(KEYCTL_JOIN_SESSION_KEYRING, name);
}
long keyctl_update(key_serial_t id, const void *payload, size_t plen)
{
return keyctl(KEYCTL_UPDATE, id, payload, plen);
}
long keyctl_revoke(key_serial_t id)
{
return keyctl(KEYCTL_REVOKE, id);
}
long keyctl_chown(key_serial_t id, uid_t uid, gid_t gid)
{
return keyctl(KEYCTL_CHOWN, id, uid, gid);
}
long keyctl_setperm(key_serial_t id, key_perm_t perm)
{
return keyctl(KEYCTL_SETPERM, id, perm);
}
long keyctl_describe(key_serial_t id, char *buffer, size_t buflen)
{
return keyctl(KEYCTL_DESCRIBE, id, buffer, buflen);
}
long keyctl_clear(key_serial_t ringid)
{
return keyctl(KEYCTL_CLEAR, ringid);
}
long keyctl_link(key_serial_t id, key_serial_t ringid)
{
return keyctl(KEYCTL_LINK, id, ringid);
}
long keyctl_unlink(key_serial_t id, key_serial_t ringid)
{
return keyctl(KEYCTL_UNLINK, id, ringid);
}
long keyctl_search(key_serial_t ringid,
const char *type,
const char *description,
key_serial_t destringid)
{
return keyctl(KEYCTL_SEARCH, ringid, type, description, destringid);
}
long keyctl_read(key_serial_t id, char *buffer, size_t buflen)
{
return keyctl(KEYCTL_READ, id, buffer, buflen);
}
long keyctl_instantiate(key_serial_t id,
const void *payload,
size_t plen,
key_serial_t ringid)
{
return keyctl(KEYCTL_INSTANTIATE, id, payload, plen, ringid);
}
long keyctl_negate(key_serial_t id, unsigned timeout, key_serial_t ringid)
{
return keyctl(KEYCTL_NEGATE, id, timeout, ringid);
}
long keyctl_set_reqkey_keyring(int reqkey_defl)
{
return keyctl(KEYCTL_SET_REQKEY_KEYRING, reqkey_defl);
}
long keyctl_set_timeout(key_serial_t id, unsigned timeout)
{
return keyctl(KEYCTL_SET_TIMEOUT, id, timeout);
}
long keyctl_assume_authority(key_serial_t id)
{
return keyctl(KEYCTL_ASSUME_AUTHORITY, id);
}
long keyctl_get_security(key_serial_t id, char *buffer, size_t buflen)
{
return keyctl(KEYCTL_GET_SECURITY, id, buffer, buflen);
}
long keyctl_session_to_parent(void)
{
return keyctl(KEYCTL_SESSION_TO_PARENT);
}
long keyctl_reject(key_serial_t id, unsigned timeout, unsigned error,
key_serial_t ringid)
{
long ret = keyctl(KEYCTL_REJECT, id, timeout, error, ringid);
/* fall back to keyctl_negate() if this op is not supported by this
* kernel version */
if (ret == -1 && errno == EOPNOTSUPP)
return keyctl_negate(id, timeout, ringid);
return ret;
}
long keyctl_instantiate_iov(key_serial_t id,
const struct iovec *payload_iov,
unsigned ioc,
key_serial_t ringid)
{
long ret = keyctl(KEYCTL_INSTANTIATE_IOV, id, payload_iov, ioc, ringid);
/* fall back to keyctl_instantiate() if this op is not supported by
* this kernel version */
if (ret == -1 && errno == EOPNOTSUPP) {
unsigned loop;
size_t bsize = 0, seg;
void *buf, *p;
if (!payload_iov || !ioc)
return keyctl_instantiate(id, NULL, 0, ringid);
for (loop = 0; loop < ioc; loop++)
bsize += payload_iov[loop].iov_len;
if (bsize == 0)
return keyctl_instantiate(id, NULL, 0, ringid);
p = buf = malloc(bsize);
if (!buf)
return -1;
for (loop = 0; loop < ioc; loop++) {
seg = payload_iov[loop].iov_len;
p = memcpy(p, payload_iov[loop].iov_base, seg) + seg;
}
ret = keyctl_instantiate(id, buf, bsize, ringid);
free(buf);
}
return ret;
}
long keyctl_invalidate(key_serial_t id)
{
return keyctl(KEYCTL_INVALIDATE, id);
}
long keyctl_get_persistent(uid_t uid, key_serial_t id)
{
return keyctl(KEYCTL_GET_PERSISTENT, uid, id);
}
long keyctl_dh_compute(key_serial_t priv, key_serial_t prime,
key_serial_t base, char *buffer, size_t buflen)
{
struct keyctl_dh_params params = { .priv = priv,
.prime = prime,
.base = base };
return keyctl(KEYCTL_DH_COMPUTE, ¶ms, buffer, buflen, 0);
}
long keyctl_dh_compute_kdf(key_serial_t priv, key_serial_t prime,
key_serial_t base, char *hashname, char *otherinfo,
size_t otherinfolen, char *buffer, size_t buflen)
{
struct keyctl_dh_params params = { .priv = priv,
.prime = prime,
.base = base };
struct keyctl_kdf_params kdfparams = { .hashname = hashname,
.otherinfo = otherinfo,
.otherinfolen = otherinfolen };
return keyctl(KEYCTL_DH_COMPUTE, ¶ms, buffer, buflen, &kdfparams);
}
long keyctl_restrict_keyring(key_serial_t keyring, const char *type,
const char *restriction)
{
return keyctl(KEYCTL_RESTRICT_KEYRING, keyring, type, restriction);
}
long keyctl_pkey_query(key_serial_t key_id,
const char *info,
struct keyctl_pkey_query *result)
{
return keyctl(KEYCTL_PKEY_QUERY, key_id, NULL, info, result);
}
long keyctl_pkey_encrypt(key_serial_t key_id,
const char *info,
const void *data, size_t data_len,
void *enc, size_t enc_len)
{
struct keyctl_pkey_params params = {
.key_id = key_id,
.in_len = data_len,
.out_len = enc_len,
};
return keyctl(KEYCTL_PKEY_ENCRYPT, ¶ms, info, data, enc);
}
long keyctl_pkey_decrypt(key_serial_t key_id,
const char *info,
const void *enc, size_t enc_len,
void *data, size_t data_len)
{
struct keyctl_pkey_params params = {
.key_id = key_id,
.in_len = enc_len,
.out_len = data_len,
};
return keyctl(KEYCTL_PKEY_DECRYPT, ¶ms, info, enc, data);
}
long keyctl_pkey_sign(key_serial_t key_id,
const char *info,
const void *data, size_t data_len,
void *sig, size_t sig_len)
{
struct keyctl_pkey_params params = {
.key_id = key_id,
.in_len = data_len,
.out_len = sig_len,
};
return keyctl(KEYCTL_PKEY_SIGN, ¶ms, info, data, sig);
}
long keyctl_pkey_verify(key_serial_t key_id,
const char *info,
const void *data, size_t data_len,
const void *sig, size_t sig_len)
{
struct keyctl_pkey_params params = {
.key_id = key_id,
.in_len = data_len,
.in2_len = sig_len,
};
return keyctl(KEYCTL_PKEY_VERIFY, ¶ms, info, data, sig);
}
long keyctl_move(key_serial_t id,
key_serial_t from_ringid,
key_serial_t to_ringid,
unsigned int flags)
{
return keyctl(KEYCTL_MOVE, id, from_ringid, to_ringid, flags);
}
long keyctl_capabilities(unsigned char *buffer, size_t buflen)
{
long n;
n = keyctl(KEYCTL_CAPABILITIES, buffer, buflen);
if (n != -1 || errno != EOPNOTSUPP)
return n;
/* Emulate the operation */
if (buflen > 0) {
memset(buffer, 0, buflen);
errno = 0;
keyctl_get_persistent(-1, 0);
if (errno != EOPNOTSUPP)
buffer[0] |= KEYCTL_CAPS0_PERSISTENT_KEYRINGS;
errno = 0;
keyctl_dh_compute(0, 0, 0, NULL, 0);
if (errno != EOPNOTSUPP)
buffer[0] |= KEYCTL_CAPS0_DIFFIE_HELLMAN;
errno = 0;
keyctl_pkey_query(0, NULL, NULL);
if (errno != EOPNOTSUPP)
buffer[0] |= KEYCTL_CAPS0_PUBLIC_KEY;
/* Can't emulate KEYCTL_CAPS0_BIG_KEY without a valid
* destination keyring.
*/
errno = 0;
keyctl_invalidate(0);
if (errno != EOPNOTSUPP)
buffer[0] |= KEYCTL_CAPS0_INVALIDATE;
errno = 0;
keyctl_restrict_keyring(0, NULL, NULL);
if (errno != EOPNOTSUPP)
buffer[0] |= KEYCTL_CAPS0_RESTRICT_KEYRING;
errno = 0;
keyctl_move(0, 0, 0, 0);
if (errno != EOPNOTSUPP)
buffer[0] |= KEYCTL_CAPS0_MOVE;
}
return sizeof(unsigned char);
}
long keyctl_watch_key(key_serial_t id, int watch_queue_fd, int watch_id)
{
return keyctl(KEYCTL_WATCH_KEY, id, watch_queue_fd, watch_id);
}
/*****************************************************************************/
/*
* fetch key description into an allocated buffer
* - resulting string is NUL terminated
* - returns count not including NUL
*/
int keyctl_describe_alloc(key_serial_t id, char **_buffer)
{
char *buf;
long buflen, ret;
ret = keyctl_describe(id, NULL, 0);
if (ret < 0)
return -1;
for (;;) {
buflen = ret;
buf = malloc(buflen);
if (!buf)
return -1;
ret = keyctl_describe(id, buf, buflen);
if (ret < 0) {
free(buf);
return -1;
}
if (buflen >= ret)
break;
free(buf);
}
*_buffer = buf;
return ret - 1;
}
/*****************************************************************************/
/*
* fetch key contents into an allocated buffer
* - resulting buffer has an extra NUL added to the end
* - returns count (not including extraneous NUL)
*/
int keyctl_read_alloc(key_serial_t id, void **_buffer)
{
char *buf;
long buflen, ret;
ret = keyctl_read(id, NULL, 0);
if (ret < 0)
return -1;
for (;;) {
buflen = ret;
buf = malloc(buflen + 1);
if (!buf)
return -1;
ret = keyctl_read(id, buf, buflen);
if (ret < 0) {
free(buf);
return -1;
}
if (buflen >= ret)
break;
free(buf);
}
buf[ret] = 0;
*_buffer = buf;
return ret;
}
/*****************************************************************************/
/*
* fetch key security label into an allocated buffer
* - resulting string is NUL terminated
* - returns count not including NUL
*/
int keyctl_get_security_alloc(key_serial_t id, char **_buffer)
{
char *buf;
long buflen, ret;
ret = keyctl_get_security(id, NULL, 0);
if (ret < 0)
return -1;
for (;;) {
buflen = ret;
buf = malloc(buflen);
if (!buf)
return -1;
ret = keyctl_get_security(id, buf, buflen);
if (ret < 0) {
free(buf);
return -1;
}
if (buflen >= ret)
break;
free(buf);
}
*_buffer = buf;
return ret - 1;
}
/*****************************************************************************/
/*
* fetch DH computation results into an allocated buffer
* - resulting buffer has an extra NUL added to the end
* - returns count (not including extraneous NUL)
*/
int keyctl_dh_compute_alloc(key_serial_t priv, key_serial_t prime,
key_serial_t base, void **_buffer)
{
char *buf;
long buflen, ret;
ret = keyctl_dh_compute(priv, prime, base, NULL, 0);
if (ret < 0)
return -1;
buflen = ret;
buf = malloc(buflen + 1);
if (!buf)
return -1;
ret = keyctl_dh_compute(priv, prime, base, buf, buflen);
if (ret < 0) {
free(buf);
return -1;
}
buf[ret] = 0;
*_buffer = buf;
return ret;
}
/*
* Depth-first recursively apply a function over a keyring tree
*/
static int recursive_key_scan_aux(key_serial_t parent, key_serial_t key,
int depth, recursive_key_scanner_t func,
void *data)
{
key_serial_t *pk;
key_perm_t perm;
size_t ringlen;
void *ring;
char *desc, type[255];
int desc_len, uid, gid, ret, n, kcount = 0;
if (depth > 800)
return 0;
/* read the key description */
desc = NULL;
desc_len = keyctl_describe_alloc(key, &desc);
if (desc_len < 0)
goto do_this_key;
/* parse */
type[0] = 0;
n = sscanf(desc, "%[^;];%d;%d;%x;", type, &uid, &gid, &perm);
if (n != 4) {
free(desc);
desc = NULL;
errno = -EINVAL;
desc_len = -1;
goto do_this_key;
}
/* if it's a keyring then we're going to want to recursively search it
* if we can */
if (strcmp(type, "keyring") == 0) {
/* read the keyring's contents */
ret = keyctl_read_alloc(key, &ring);
if (ret < 0)
goto do_this_key;
ringlen = ret;
/* walk the keyring */
pk = ring;
for (ringlen = ret;
ringlen >= sizeof(key_serial_t);
ringlen -= sizeof(key_serial_t)
)
kcount += recursive_key_scan_aux(key, *pk++, depth + 1,
func, data);
free(ring);
}
do_this_key:
kcount += func(parent, key, desc, desc_len, data);
free(desc);
return kcount;
}
/*
* Depth-first apply a function over a keyring tree
*/
int recursive_key_scan(key_serial_t key, recursive_key_scanner_t func, void *data)
{
return recursive_key_scan_aux(0, key, 0, func, data);
}
/*
* Depth-first apply a function over session keyring tree
*/
int recursive_session_key_scan(recursive_key_scanner_t func, void *data)
{
key_serial_t session =
keyctl_get_keyring_ID(KEY_SPEC_SESSION_KEYRING, 0);
if (session > 0)
return recursive_key_scan(session, func, data);
return 0;
}
/*
* Find a key by type and description
*/
key_serial_t find_key_by_type_and_desc(const char *type, const char *desc,
key_serial_t destringid)
{
key_serial_t id, error;
FILE *f;
char buf[1024], typebuf[40], rdesc[1024], *kdesc, *cp;
int n, ndesc, dlen;
error = ENOKEY;
id = request_key(type, desc, NULL, destringid);
if (id >= 0 || errno == ENOMEM)
return id;
if (errno != ENOKEY)
error = errno;
dlen = strlen(desc);
f = fopen("/proc/keys", "r");
if (!f) {
fprintf(stderr, "libkeyutils: Can't open /proc/keys: %m\n");
return -1;
}
while (fgets(buf, sizeof(buf), f)) {
cp = strchr(buf, '\n');
if (*cp)
*cp = '\0';
ndesc = 0;
n = sscanf(buf, "%x %*s %*u %*s %*x %*d %*d %s %n",
&id, typebuf, &ndesc);
if (n == 2 && ndesc > 0 && ndesc <= cp - buf) {
if (strcmp(typebuf, type) != 0)
continue;
kdesc = buf + ndesc;
if (memcmp(kdesc, desc, dlen) != 0)
continue;
if (kdesc[dlen] != ':' &&
kdesc[dlen] != '\0' &&
kdesc[dlen] != ' ')
continue;
kdesc[dlen] = '\0';
/* The key type appends extra stuff to the end of the
* description after a colon in /proc/keys. Colons,
* however, are allowed in descriptions, so we need to
* make a further check. */
n = keyctl_describe(id, rdesc, sizeof(rdesc) - 1);
if (n == -1) {
if (errno != ENOKEY)
error = errno;
if (errno == ENOMEM)
break;
}
if (n >= sizeof(rdesc) - 1)
continue;
rdesc[n] = '\0';
cp = strrchr(rdesc, ';');
if (!cp)
continue;
cp++;
if (strcmp(cp, desc) != 0)
continue;
fclose(f);
if (destringid &&
keyctl_link(id, destringid) == -1)
return -1;
return id;
}
}
fclose(f);
errno = error;
return -1;
}
#ifdef NO_GLIBC_KEYERR
/*****************************************************************************/
/*
* initialise error handling
*/
static void error_init(void)
{
char *err;
error_inited = 1;
dlerror();
libc_perror = dlsym(RTLD_NEXT,"perror");
if (!libc_perror) {
fprintf(stderr, "Failed to look up next perror\n");
err = dlerror();
if (err)
fprintf(stderr, "%s\n", err);
abort();
}
//fprintf(stderr, "next perror at %p\n", libc_perror);
libc_strerror_r = dlsym(RTLD_NEXT,"strerror_r");
if (!libc_strerror_r) {
fprintf(stderr, "Failed to look up next strerror_r\n");
err = dlerror();
if (err)
fprintf(stderr, "%s\n", err);
abort();
}
//fprintf(stderr, "next strerror_r at %p\n", libc_strerror_r);
#if 0
libc_xpg_strerror_r = dlsym(RTLD_NEXT,"xpg_strerror_r");
if (!libc_xpg_strerror_r) {
fprintf(stderr, "Failed to look up next xpg_strerror_r\n");
err = dlerror();
if (err)
fprintf(stderr, "%s\n", err);
abort();
}
//fprintf(stderr, "next xpg_strerror_r at %p\n", libc_xpg_strerror_r);
#endif
} /* end error_init() */
/*****************************************************************************/
/*
* overload glibc's strerror_r() with a version that knows about key errors
*/
char *strerror_r(int errnum, char *buf, size_t n)
{
const char *errstr;
int len;
printf("hello\n");
if (!error_inited)
error_init();
switch (errnum) {
case ENOKEY:
errstr = "Requested key not available";
break;
case EKEYEXPIRED:
errstr = "Key has expired";
break;
case EKEYREVOKED:
errstr = "Key has been revoked";
break;
case EKEYREJECTED:
errstr = "Key was rejected by service";
break;
default:
return libc_strerror_r(errnum, buf, n);
}
len = strlen(errstr) + 1;
if (n > len) {
errno = ERANGE;
if (n > 0) {
memcpy(buf, errstr, n - 1);
buf[n - 1] = 0;
}
return NULL;
}
else {
memcpy(buf, errstr, len);
return buf;
}
} /* end strerror_r() */
#if 0
/*****************************************************************************/
/*
* overload glibc's strerror_r() with a version that knows about key errors
*/
int xpg_strerror_r(int errnum, char *buf, size_t n)
{
const char *errstr;
int len;
if (!error_inited)
error_init();
switch (errnum) {
case ENOKEY:
errstr = "Requested key not available";
break;
case EKEYEXPIRED:
errstr = "Key has expired";
break;
case EKEYREVOKED:
errstr = "Key has been revoked";
break;
case EKEYREJECTED:
errstr = "Key was rejected by service";
break;
default:
return libc_xpg_strerror_r(errnum, buf, n);
}
len = strlen(errstr) + 1;
if (n > len) {
errno = ERANGE;
if (n > 0) {
memcpy(buf, errstr, n - 1);
buf[n - 1] = 0;
}
return -1;
}
else {
memcpy(buf, errstr, len);
return 0;
}
} /* end xpg_strerror_r() */
#endif
/*****************************************************************************/
/*
*
*/
void perror(const char *msg)
{
if (!error_inited)
error_init();
switch (errno) {
case ENOKEY:
fprintf(stderr, "%s: Requested key not available\n", msg);
return;
case EKEYEXPIRED:
fprintf(stderr, "%s: Key has expired\n", msg);
return;
case EKEYREVOKED:
fprintf(stderr, "%s: Key has been revoked\n", msg);
return;
case EKEYREJECTED:
fprintf(stderr, "%s: Key was rejected by service\n", msg);
return;
default:
libc_perror(msg);
return;
}
} /* end perror() */
#endif
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