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/* $OpenBSD: util.c,v 1.65 2009/06/25 15:40:55 claudio Exp $ */
/* $EOM: util.c,v 1.23 2000/11/23 12:22:08 niklas Exp $ */
/*
* Copyright (c) 1998, 1999, 2001 Niklas Hallqvist. All rights reserved.
* Copyright (c) 2000, 2001, 2004 Håkan Olsson. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* This code was written under funding by Ericsson Radio Systems.
*/
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <limits.h>
#include <netdb.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
#include <ifaddrs.h>
#include <net/route.h>
#include <net/if.h>
#include "log.h"
#include "message.h"
#include "monitor.h"
#include "sysdep.h"
#include "transport.h"
#include "util.h"
/*
* Set if -N is given, allowing name lookups to be done, possibly stalling
* the daemon for quite a while.
*/
int allow_name_lookups = 0;
#if defined(INSECURE_RAND)
/*
* This is set to true in case of regression-test mode, when it will
* cause predictable random numbers be generated.
*/
int regrand = 0;
#endif
/*
* XXX These might be turned into inlines or macros, maybe even
* machine-dependent ones, for performance reasons.
*/
u_int16_t
decode_16(u_int8_t *cp)
{
return cp[0] << 8 | cp[1];
}
u_int32_t
decode_32(u_int8_t *cp)
{
return cp[0] << 24 | cp[1] << 16 | cp[2] << 8 | cp[3];
}
void
encode_16(u_int8_t *cp, u_int16_t x)
{
*cp++ = x >> 8;
*cp = x & 0xff;
}
void
encode_32(u_int8_t *cp, u_int32_t x)
{
*cp++ = x >> 24;
*cp++ = (x >> 16) & 0xff;
*cp++ = (x >> 8) & 0xff;
*cp = x & 0xff;
}
/* Check a buffer for all zeroes. */
int
zero_test(const u_int8_t *p, size_t sz)
{
while (sz-- > 0)
if (*p++ != 0)
return 0;
return 1;
}
/*
* Generate 32 bits of random data. If compiled with INSECURE_RAND
* and -r option is specified, then return deterministic data.
*/
u_int32_t
rand_32(void)
{
#if !defined(INSECURE_RAND)
return arc4random();
#else
if (regrand)
return random();
else
return arc4random();
#endif
}
/*
* Generate a random data, len bytes long.
*/
u_int8_t *
getrandom(u_int8_t *buf, size_t len)
{
u_int32_t tmp = 0;
size_t i;
for (i = 0; i < len; i++) {
if (i % sizeof tmp == 0)
tmp = rand_32();
buf[i] = tmp & 0xff;
tmp >>= 8;
}
return buf;
}
static __inline int
hex2nibble(char c)
{
if (c >= '0' && c <= '9')
return c - '0';
if (c >= 'a' && c <= 'f')
return c - 'a' + 10;
if (c >= 'A' && c <= 'F')
return c - 'A' + 10;
return -1;
}
/*
* Convert hexadecimal string in S to raw binary buffer at BUF sized SZ
* bytes. Return 0 if everything is OK, -1 otherwise.
*/
int
hex2raw(char *s, u_int8_t *buf, size_t sz)
{
u_int8_t *bp;
char *p;
int tmp;
if (strlen(s) > sz * 2)
return -1;
for (p = s + strlen(s) - 1, bp = &buf[sz - 1]; bp >= buf; bp--) {
*bp = 0;
if (p >= s) {
tmp = hex2nibble(*p--);
if (tmp == -1)
return -1;
*bp = tmp;
}
if (p >= s) {
tmp = hex2nibble(*p--);
if (tmp == -1)
return -1;
*bp |= tmp << 4;
}
}
return 0;
}
/*
* Convert raw binary buffer to a newly allocated hexadecimal string. Returns
* NULL if an error occurred. It is the caller's responsibility to free the
* returned string.
*/
char *
raw2hex(u_int8_t *buf, size_t sz)
{
char *s;
size_t i;
if ((s = (char *)malloc(sz * 2 + 1)) == NULL) {
log_error("raw2hex: malloc (%lu) failed", (unsigned long)sz * 2 + 1);
return NULL;
}
for (i = 0; i < sz; i++)
snprintf(s + (2 * i), 2 * (sz - i) + 1, "%02x", buf[i]);
s[sz * 2] = '\0';
return s;
}
in_port_t
text2port(char *port_str)
{
char *port_str_end;
long port_long;
struct servent *service;
port_long = strtol(port_str, &port_str_end, 0);
if (port_str == port_str_end) {
service = getservbyname(port_str, "udp");
if (!service) {
log_print("text2port: service \"%s\" unknown",
port_str);
return 0;
}
return ntohs(service->s_port);
} else if (port_long < 1 || port_long > (long)USHRT_MAX) {
log_print("text2port: port %ld out of range", port_long);
return 0;
}
return port_long;
}
int
text2sockaddr(char *address, char *port, struct sockaddr **sa, sa_family_t af,
int netmask)
{
struct addrinfo *ai, hints;
struct sockaddr_storage tmp_sas;
struct ifaddrs *ifap, *ifa = NULL, *llifa = NULL;
char *np = address;
char ifname[IFNAMSIZ];
u_char buf[BUFSIZ];
struct rt_msghdr *rtm;
struct sockaddr *sa2;
struct sockaddr_in *sin;
struct sockaddr_in6 *sin6;
int fd = 0, seq, len, b;
pid_t pid;
bzero(&hints, sizeof hints);
if (!allow_name_lookups)
hints.ai_flags = AI_NUMERICHOST;
hints.ai_family = PF_UNSPEC;
hints.ai_socktype = SOCK_DGRAM;
hints.ai_protocol = IPPROTO_UDP;
if (getaddrinfo(address, port, &hints, &ai)) {
/*
* If the 'default' keyword is used, do a route lookup for
* the default route, and use the interface associated with
* it to select a source address.
*/
if (!strcmp(address, "default")) {
fd = socket(PF_ROUTE, SOCK_RAW, af);
bzero(buf, sizeof(buf));
rtm = (struct rt_msghdr *)buf;
rtm->rtm_version = RTM_VERSION;
rtm->rtm_type = RTM_GET;
rtm->rtm_flags = RTF_UP;
rtm->rtm_addrs = RTA_DST;
rtm->rtm_seq = seq = arc4random();
/* default destination */
sa2 = (struct sockaddr *)((char *)rtm + rtm->rtm_hdrlen);
switch (af) {
case AF_INET: {
sin = (struct sockaddr_in *)sa2;
sin->sin_len = sizeof(*sin);
sin->sin_family = af;
break;
}
case AF_INET6: {
sin6 = (struct sockaddr_in6 *)sa2;
sin6->sin6_len = sizeof(*sin6);
sin6->sin6_family = af;
break;
}
default:
close(fd);
return -1;
}
rtm->rtm_addrs |= RTA_NETMASK|RTA_IFP|RTA_IFA;
rtm->rtm_msglen = sizeof(*rtm) + sizeof(*sa2);
if ((b = write(fd, buf, rtm->rtm_msglen)) < 0) {
close(fd);
return -1;
}
pid = getpid();
while ((len = read(fd, buf, sizeof(buf))) > 0) {
if (len < sizeof(*rtm)) {
close(fd);
return -1;
}
if (rtm->rtm_version != RTM_VERSION)
continue;
if (rtm->rtm_type == RTM_GET &&
rtm->rtm_pid == pid &&
rtm->rtm_seq == seq) {
if (rtm->rtm_errno) {
close(fd);
return -1;
}
break;
}
}
close(fd);
if ((rtm->rtm_addrs & (RTA_DST|RTA_GATEWAY)) ==
(RTA_DST|RTA_GATEWAY)) {
np = if_indextoname(rtm->rtm_index, ifname);
if (np == NULL)
return -1;
}
}
if (getifaddrs(&ifap) != 0)
return -1;
switch (af) {
default:
case AF_INET:
for (ifa = ifap; ifa; ifa = ifa->ifa_next)
if (!strcmp(ifa->ifa_name, np) &&
ifa->ifa_addr != NULL &&
ifa->ifa_addr->sa_family == AF_INET)
break;
break;
case AF_INET6:
for (ifa = ifap; ifa; ifa = ifa->ifa_next) {
if (!strcmp(ifa->ifa_name, np) &&
ifa->ifa_addr != NULL &&
ifa->ifa_addr->sa_family == AF_INET6) {
if (IN6_IS_ADDR_LINKLOCAL(
&((struct sockaddr_in6 *)
ifa->ifa_addr)->sin6_addr) &&
llifa == NULL)
llifa = ifa;
else
break;
}
}
if (ifa == NULL) {
ifa = llifa;
}
break;
}
if (ifa) {
if (netmask)
memcpy(&tmp_sas, ifa->ifa_netmask,
SA_LEN(ifa->ifa_netmask));
else
memcpy(&tmp_sas, ifa->ifa_addr,
SA_LEN(ifa->ifa_addr));
freeifaddrs(ifap);
} else {
freeifaddrs(ifap);
return -1;
}
} else {
memcpy(&tmp_sas, ai->ai_addr, SA_LEN(ai->ai_addr));
freeaddrinfo(ai);
}
*sa = malloc(SA_LEN((struct sockaddr *)&tmp_sas));
if (!*sa)
return -1;
memcpy(*sa, &tmp_sas, SA_LEN((struct sockaddr *)&tmp_sas));
return 0;
}
/*
* Convert a sockaddr to text. With zflag non-zero fill out with zeroes,
* i.e 10.0.0.10 --> "010.000.000.010"
*/
int
sockaddr2text(struct sockaddr *sa, char **address, int zflag)
{
char buf[NI_MAXHOST], *token, *bstart, *ep;
int addrlen, i, j;
long val;
if (getnameinfo(sa, SA_LEN(sa), buf, sizeof buf, 0, 0,
allow_name_lookups ? 0 : NI_NUMERICHOST))
return -1;
if (zflag == 0) {
*address = strdup(buf);
if (!*address)
return -1;
} else
switch (sa->sa_family) {
case AF_INET:
addrlen = sizeof "000.000.000.000";
*address = malloc(addrlen);
if (!*address)
return -1;
buf[addrlen] = '\0';
bstart = buf;
**address = '\0';
while ((token = strsep(&bstart, ".")) != NULL) {
if (strlen(*address) > 12) {
free(*address);
return -1;
}
val = strtol(token, &ep, 10);
if (ep == token || val < (long)0 ||
val > (long)UCHAR_MAX) {
free(*address);
return -1;
}
snprintf(*address + strlen(*address),
addrlen - strlen(*address), "%03ld", val);
if (bstart)
strlcat(*address, ".", addrlen);
}
break;
case AF_INET6:
/*
* XXX In the algorithm below there are some magic
* numbers we probably could give explaining names.
*/
addrlen =
sizeof "0000:0000:0000:0000:0000:0000:0000:0000";
*address = malloc(addrlen);
if (!*address)
return -1;
for (i = 0, j = 0; i < 8; i++) {
snprintf((*address) + j, addrlen - j,
"%02x%02x",
((struct sockaddr_in6 *)sa)->sin6_addr.s6_addr[2*i],
((struct sockaddr_in6 *)sa)->sin6_addr.s6_addr[2*i + 1]);
j += 4;
(*address)[j] =
(j < (addrlen - 1)) ? ':' : '\0';
j++;
}
break;
default:
*address = strdup("<error>");
if (!*address)
return -1;
}
return 0;
}
/*
* sockaddr_addrlen and sockaddr_addrdata return the relevant sockaddr info
* depending on address family. Useful to keep other code shorter(/clearer?).
*/
int
sockaddr_addrlen(struct sockaddr *sa)
{
switch (sa->sa_family) {
case AF_INET6:
return sizeof((struct sockaddr_in6 *)sa)->sin6_addr.s6_addr;
case AF_INET:
return sizeof((struct sockaddr_in *)sa)->sin_addr.s_addr;
default:
log_print("sockaddr_addrlen: unsupported protocol family %d",
sa->sa_family);
return 0;
}
}
u_int8_t *
sockaddr_addrdata(struct sockaddr *sa)
{
switch (sa->sa_family) {
case AF_INET6:
return (u_int8_t *)&((struct sockaddr_in6 *)sa)->sin6_addr.s6_addr;
case AF_INET:
return (u_int8_t *)&((struct sockaddr_in *)sa)->sin_addr.s_addr;
default:
log_print("sockaddr_addrdata: unsupported protocol family %d",
sa->sa_family);
return 0;
}
}
in_port_t
sockaddr_port(struct sockaddr *sa)
{
switch (sa->sa_family) {
case AF_INET6:
return ((struct sockaddr_in6 *)sa)->sin6_port;
case AF_INET:
return ((struct sockaddr_in *)sa)->sin_port;
default:
log_print("sockaddr_port: unsupported protocol family %d",
sa->sa_family);
return 0;
}
}
/* Utility function used to set the port of a sockaddr. */
void
sockaddr_set_port(struct sockaddr *sa, in_port_t port)
{
switch (sa->sa_family) {
case AF_INET:
((struct sockaddr_in *)sa)->sin_port = htons (port);
break;
case AF_INET6:
((struct sockaddr_in6 *)sa)->sin6_port = htons (port);
break;
}
}
/*
* Convert network address to text. The network address does not need
* to be properly aligned.
*/
void
util_ntoa(char **buf, int af, u_int8_t *addr)
{
struct sockaddr_storage from;
struct sockaddr *sfrom = (struct sockaddr *) & from;
socklen_t fromlen = sizeof from;
bzero(&from, fromlen);
sfrom->sa_family = af;
switch (af) {
case AF_INET:
sfrom->sa_len = sizeof(struct sockaddr_in);
break;
case AF_INET6:
sfrom->sa_len = sizeof(struct sockaddr_in6);
break;
}
memcpy(sockaddr_addrdata(sfrom), addr, sockaddr_addrlen(sfrom));
if (sockaddr2text(sfrom, buf, 0)) {
log_print("util_ntoa: could not make printable address out "
"of sockaddr %p", sfrom);
*buf = 0;
}
}
/*
* Perform sanity check on files containing secret information.
* Returns -1 on failure, 0 otherwise.
* Also, if FILE_SIZE is a not a null pointer, store file size here.
*/
int
check_file_secrecy_fd(int fd, char *name, size_t *file_size)
{
struct stat st;
if (fstat(fd, &st) == -1) {
log_error("check_file_secrecy: stat (\"%s\") failed", name);
return -1;
}
if (st.st_uid != 0 && st.st_uid != getuid()) {
log_print("check_file_secrecy_fd: "
"not loading %s - file owner is not process user", name);
errno = EPERM;
return -1;
}
if ((st.st_mode & (S_IRWXG | S_IRWXO)) != 0) {
log_print("check_file_secrecy_fd: not loading %s - too open "
"permissions", name);
errno = EPERM;
return -1;
}
if (file_size)
*file_size = (size_t)st.st_size;
return 0;
}
/* Calculate timeout. Returns -1 on error. */
long
get_timeout(struct timeval *timeout)
{
struct timeval now, result;
if (gettimeofday(&now, NULL) < 0)
return -1;
timersub(timeout, &now, &result);
return result.tv_sec;
}
/* Special for compiling with Boehms GC. See Makefile and sysdep.h */
#if defined (USE_BOEHM_GC)
char *
gc_strdup(const char *x)
{
char *strcpy(char *,const char *);
char *y = malloc(strlen(x) + 1);
return strcpy(y,x);
}
#endif
int
expand_string(char *label, size_t len, const char *srch, const char *repl)
{
char *tmp;
char *p, *q;
if ((tmp = calloc(1, len)) == NULL) {
log_error("expand_string: calloc");
return (-1);
}
p = q = label;
while ((q = strstr(p, srch)) != NULL) {
*q = '\0';
if ((strlcat(tmp, p, len) >= len) ||
(strlcat(tmp, repl, len) >= len)) {
log_print("expand_string: string too long");
return (-1);
}
q += strlen(srch);
p = q;
}
if (strlcat(tmp, p, len) >= len) {
log_print("expand_string: string too long");
return (-1);
}
strlcpy(label, tmp, len); /* always fits */
free(tmp);
return (0);
}
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