/* $NetBSD: inet.c,v 1.1.1.1 2018/04/07 22:34:26 christos Exp $ */
/* inet.c
Subroutines to manipulate internet addresses and ports in a safely portable
way... */
/*
* Copyright (c) 2004-2017 by Internet Systems Consortium, Inc. ("ISC")
* Copyright (c) 1995-2003 by Internet Software Consortium
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* Internet Systems Consortium, Inc.
* 950 Charter Street
* Redwood City, CA 94063
* <info@isc.org>
* https://www.isc.org/
*
*/
#include <sys/cdefs.h>
__RCSID("$NetBSD: inet.c,v 1.1.1.1 2018/04/07 22:34:26 christos Exp $");
#include "dhcpd.h"
/* Return just the network number of an internet address... */
struct iaddr subnet_number (addr, mask)
struct iaddr addr;
struct iaddr mask;
{
int i;
struct iaddr rv;
if (addr.len > sizeof(addr.iabuf))
log_fatal("subnet_number():%s:%d: Invalid addr length.", MDL);
if (addr.len != mask.len)
log_fatal("subnet_number():%s:%d: Addr/mask length mismatch.",
MDL);
rv.len = 0;
/* Both addresses must have the same length... */
if (addr.len != mask.len)
return rv;
rv.len = addr.len;
for (i = 0; i < rv.len; i++)
rv.iabuf [i] = addr.iabuf [i] & mask.iabuf [i];
return rv;
}
/* Combine a network number and a integer to produce an internet address.
This won't work for subnets with more than 32 bits of host address, but
maybe this isn't a problem. */
struct iaddr ip_addr (subnet, mask, host_address)
struct iaddr subnet;
struct iaddr mask;
u_int32_t host_address;
{
int i, j, k;
u_int32_t swaddr;
struct iaddr rv;
unsigned char habuf [sizeof swaddr];
if (subnet.len > sizeof(subnet.iabuf))
log_fatal("ip_addr():%s:%d: Invalid addr length.", MDL);
if (subnet.len != mask.len)
log_fatal("ip_addr():%s:%d: Addr/mask length mismatch.",
MDL);
swaddr = htonl (host_address);
memcpy (habuf, &swaddr, sizeof swaddr);
/* Combine the subnet address and the host address. If
the host address is bigger than can fit in the subnet,
return a zero-length iaddr structure. */
rv = subnet;
j = rv.len - sizeof habuf;
for (i = sizeof habuf - 1; i >= 0; i--) {
if (mask.iabuf [i + j]) {
if (habuf [i] > (mask.iabuf [i + j] ^ 0xFF)) {
rv.len = 0;
return rv;
}
for (k = i - 1; k >= 0; k--) {
if (habuf [k]) {
rv.len = 0;
return rv;
}
}
rv.iabuf [i + j] |= habuf [i];
break;
} else
rv.iabuf [i + j] = habuf [i];
}
return rv;
}
/* Given a subnet number and netmask, return the address on that subnet
for which the host portion of the address is all ones (the standard
broadcast address). */
struct iaddr broadcast_addr (subnet, mask)
struct iaddr subnet;
struct iaddr mask;
{
int i;
struct iaddr rv;
if (subnet.len > sizeof(subnet.iabuf))
log_fatal("broadcast_addr():%s:%d: Invalid addr length.", MDL);
if (subnet.len != mask.len)
log_fatal("broadcast_addr():%s:%d: Addr/mask length mismatch.",
MDL);
if (subnet.len != mask.len) {
rv.len = 0;
return rv;
}
for (i = 0; i < subnet.len; i++) {
rv.iabuf [i] = subnet.iabuf [i] | (~mask.iabuf [i] & 255);
}
rv.len = subnet.len;
return rv;
}
u_int32_t host_addr (addr, mask)
struct iaddr addr;
struct iaddr mask;
{
int i;
u_int32_t swaddr;
struct iaddr rv;
if (addr.len > sizeof(addr.iabuf))
log_fatal("host_addr():%s:%d: Invalid addr length.", MDL);
if (addr.len != mask.len)
log_fatal("host_addr():%s:%d: Addr/mask length mismatch.",
MDL);
rv.len = 0;
/* Mask out the network bits... */
rv.len = addr.len;
for (i = 0; i < rv.len; i++)
rv.iabuf [i] = addr.iabuf [i] & ~mask.iabuf [i];
/* Copy out up to 32 bits... */
memcpy (&swaddr, &rv.iabuf [rv.len - sizeof swaddr], sizeof swaddr);
/* Swap it and return it. */
return ntohl (swaddr);
}
int addr_eq (addr1, addr2)
struct iaddr addr1, addr2;
{
if (addr1.len > sizeof(addr1.iabuf))
log_fatal("addr_eq():%s:%d: Invalid addr length.", MDL);
if (addr1.len != addr2.len)
return 0;
return memcmp (addr1.iabuf, addr2.iabuf, addr1.len) == 0;
}
/* addr_match
*
* compares an IP address against a network/mask combination
* by ANDing the IP with the mask and seeing whether the result
* matches the masked network value.
*/
int
addr_match(addr, match)
struct iaddr *addr;
struct iaddrmatch *match;
{
int i;
if (addr->len != match->addr.len)
return 0;
for (i = 0 ; i < addr->len ; i++) {
if ((addr->iabuf[i] & match->mask.iabuf[i]) !=
match->addr.iabuf[i])
return 0;
}
return 1;
}
/*
* Compares the addresses a1 and a2.
*
* If a1 < a2, returns -1.
* If a1 == a2, returns 0.
* If a1 > a2, returns 1.
*
* WARNING: if a1 and a2 differ in length, returns 0.
*/
int
addr_cmp(const struct iaddr *a1, const struct iaddr *a2) {
int i;
if (a1->len != a2->len) {
return 0;
}
for (i=0; i<a1->len; i++) {
if (a1->iabuf[i] < a2->iabuf[i]) {
return -1;
}
if (a1->iabuf[i] > a2->iabuf[i]) {
return 1;
}
}
return 0;
}
/*
* Performs a bitwise-OR of two addresses.
*
* Returns 1 if the result is non-zero, or 0 otherwise.
*
* WARNING: if a1 and a2 differ in length, returns 0.
*/
int
addr_or(struct iaddr *result, const struct iaddr *a1, const struct iaddr *a2) {
int i;
int all_zero;
if (a1->len != a2->len) {
return 0;
}
all_zero = 1;
result->len = a1->len;
for (i=0; i<a1->len; i++) {
result->iabuf[i] = a1->iabuf[i] | a2->iabuf[i];
if (result->iabuf[i] != 0) {
all_zero = 0;
}
}
return !all_zero;
}
/*
* Performs a bitwise-AND of two addresses.
*
* Returns 1 if the result is non-zero, or 0 otherwise.
*
* WARNING: if a1 and a2 differ in length, returns 0.
*/
int
addr_and(struct iaddr *result, const struct iaddr *a1, const struct iaddr *a2) {
int i;
int all_zero;
if (a1->len != a2->len) {
return 0;
}
all_zero = 1;
result->len = a1->len;
for (i=0; i<a1->len; i++) {
result->iabuf[i] = a1->iabuf[i] & a2->iabuf[i];
if (result->iabuf[i] != 0) {
all_zero = 0;
}
}
return !all_zero;
}
/*
* Check if a bitmask of the given length is valid for the address.
* This is not the case if any bits longer than the bitmask are 1.
*
* So, this is valid:
*
* 127.0.0.0/8
*
* But this is not:
*
* 127.0.0.1/8
*
* Because the final ".1" would get masked out by the /8.
*/
isc_boolean_t
is_cidr_mask_valid(const struct iaddr *addr, int bits) {
int zero_bits;
int zero_bytes;
int i;
char byte;
int shift_bits;
/*
* Check our bit boundaries.
*/
if (bits < 0) {
return ISC_FALSE;
}
if (bits > (addr->len * 8)) {
return ISC_FALSE;
}
/*
* Figure out how many low-order bits need to be zero.
*/
zero_bits = (addr->len * 8) - bits;
zero_bytes = zero_bits / 8;
/*
* Check to make sure the low-order bytes are zero.
*/
for (i=1; i<=zero_bytes; i++) {
if (addr->iabuf[addr->len-i] != 0) {
return ISC_FALSE;
}
}
/*
* Look to see if any bits not in right-hand bytes are
* non-zero, by making a byte that has these bits set to zero
* comparing to the original byte. If these two values are
* equal, then the right-hand bits are zero, and we are
* happy.
*/
shift_bits = zero_bits % 8;
if (shift_bits == 0) return ISC_TRUE;
byte = addr->iabuf[addr->len-zero_bytes-1];
return (((byte >> shift_bits) << shift_bits) == byte);
}
/*
* range2cidr
*
* Converts a range of IP addresses to a set of CIDR networks.
*
* Examples:
* 192.168.0.0 - 192.168.0.255 = 192.168.0.0/24
* 10.0.0.0 - 10.0.1.127 = 10.0.0.0/24, 10.0.1.0/25
* 255.255.255.32 - 255.255.255.255 = 255.255.255.32/27, 255.255.255.64/26,
* 255.255.255.128/25
*/
isc_result_t
range2cidr(struct iaddrcidrnetlist **result,
const struct iaddr *lo, const struct iaddr *hi) {
struct iaddr addr;
struct iaddr mask;
int bit;
struct iaddr end_addr;
struct iaddr dummy;
int ofs, val;
struct iaddrcidrnetlist *net;
int tmp;
if (result == NULL) {
return DHCP_R_INVALIDARG;
}
if (*result != NULL) {
return DHCP_R_INVALIDARG;
}
if ((lo == NULL) || (hi == NULL) || (lo->len != hi->len)) {
return DHCP_R_INVALIDARG;
}
/*
* Put our start and end in the right order, if reversed.
*/
if (addr_cmp(lo, hi) > 0) {
const struct iaddr *tmp;
tmp = lo;
lo = hi;
hi = tmp;
}
/*
* Theory of operation:
*
* -------------------
* Start at the low end, and keep trying larger networks
* until we get one that is too big (explained below).
*
* We keep a "mask", which is the ones-complement of a
* normal netmask. So, a /23 has a netmask of 255.255.254.0,
* and a mask of 0.0.1.255.
*
* We know when a network is too big when we bitwise-AND the
* mask with the starting address and we get a non-zero
* result, like this:
*
* addr: 192.168.1.0, mask: 0.0.1.255
* bitwise-AND: 0.0.1.0
*
* A network is also too big if the bitwise-OR of the mask
* with the starting address is larger than the end address,
* like this:
*
* start: 192.168.1.0, mask: 0.0.1.255, end: 192.168.0.255
* bitwise-OR: 192.168.1.255
*
* -------------------
* Once we have found a network that is too big, we add the
* appropriate CIDR network to our list of found networks.
*
* We then use the next IP address as our low address, and
* begin the process of searching for a network that is
* too big again, starting with an empty mask.
*/
addr = *lo;
bit = 0;
memset(&mask, 0, sizeof(mask));
mask.len = addr.len;
while (addr_cmp(&addr, hi) <= 0) {
/*
* Bitwise-OR mask with (1 << bit)
*/
ofs = addr.len - (bit / 8) - 1;
val = 1 << (bit % 8);
if (ofs >= 0) {
mask.iabuf[ofs] |= val;
}
/*
* See if we're too big, and save this network if so.
*/
addr_or(&end_addr, &addr, &mask);
if ((ofs < 0) ||
(addr_cmp(&end_addr, hi) > 0) ||
addr_and(&dummy, &addr, &mask)) {
/*
* Add a new prefix to our list.
*/
net = dmalloc(sizeof(*net), MDL);
if (net == NULL) {
while (*result != NULL) {
net = (*result)->next;
dfree(*result, MDL);
*result = net;
}
return ISC_R_NOMEMORY;
}
net->cidrnet.lo_addr = addr;
net->cidrnet.bits = (addr.len * 8) - bit;
net->next = *result;
*result = net;
/*
* Figure out our new starting address,
* by adding (1 << bit) to our previous
* starting address.
*/
tmp = addr.iabuf[ofs] + val;
while ((ofs >= 0) && (tmp > 255)) {
addr.iabuf[ofs] = tmp - 256;
ofs--;
tmp = addr.iabuf[ofs] + 1;
}
if (ofs < 0) {
/* Gone past last address, we're done. */
break;
}
addr.iabuf[ofs] = tmp;
/*
* Reset our bit and mask.
*/
bit = 0;
memset(mask.iabuf, 0, sizeof(mask.iabuf));
memset(end_addr.iabuf, 0, sizeof(end_addr.iabuf));
} else {
/*
* If we're not too big, increase our network size.
*/
bit++;
}
}
/*
* We're done.
*/
return ISC_R_SUCCESS;
}
/*
* Free a list of CIDR networks, such as returned from range2cidr().
*/
isc_result_t
free_iaddrcidrnetlist(struct iaddrcidrnetlist **result) {
struct iaddrcidrnetlist *p;
if (result == NULL) {
return DHCP_R_INVALIDARG;
}
if (*result == NULL) {
return DHCP_R_INVALIDARG;
}
while (*result != NULL) {
p = *result;
*result = p->next;
dfree(p, MDL);
}
return ISC_R_SUCCESS;
}
/* piaddr() turns an iaddr structure into a printable address. */
/* XXX: should use a const pointer rather than passing the structure */
const char *
piaddr(const struct iaddr addr) {
static char
pbuf[sizeof("ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255")];
/* "255.255.255.255" */
/* INSIST((addr.len == 0) || (addr.len == 4) || (addr.len == 16)); */
if (addr.len == 0) {
return "<null address>";
}
if (addr.len == 4) {
return inet_ntop(AF_INET, addr.iabuf, pbuf, sizeof(pbuf));
}
if (addr.len == 16) {
return inet_ntop(AF_INET6, addr.iabuf, pbuf, sizeof(pbuf));
}
log_fatal("piaddr():%s:%d: Invalid address length %d.", MDL,
addr.len);
/* quell compiler warnings */
return NULL;
}
/* piaddrmask takes an iaddr structure mask, determines the bitlength of
* the mask, and then returns the printable CIDR notation of the two.
*/
char *
piaddrmask(struct iaddr *addr, struct iaddr *mask) {
int mw;
unsigned int oct, bit;
if ((addr->len != 4) && (addr->len != 16))
log_fatal("piaddrmask():%s:%d: Address length %d invalid",
MDL, addr->len);
if (addr->len != mask->len)
log_fatal("piaddrmask():%s:%d: Address and mask size mismatch",
MDL);
/* Determine netmask width in bits. */
for (mw = (mask->len * 8) ; mw > 0 ; ) {
oct = (mw - 1) / 8;
bit = 0x80 >> ((mw - 1) % 8);
if (!mask->iabuf[oct])
mw -= 8;
else if (mask->iabuf[oct] & bit)
break;
else
mw--;
}
if (mw < 0)
log_fatal("Impossible condition at %s:%d.", MDL);
return piaddrcidr(addr, mw);
}
/* Format an address and mask-length into printable CIDR notation. */
char *
piaddrcidr(const struct iaddr *addr, unsigned int bits) {
static char
ret[sizeof("ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255/128")];
/* "255.255.255.255/32" */
/* INSIST(addr != NULL); */
/* INSIST((addr->len == 4) || (addr->len == 16)); */
/* INSIST(bits <= (addr->len * 8)); */
if (bits > (addr->len * 8))
return NULL;
sprintf(ret, "%s/%d", piaddr(*addr), bits);
return ret;
}
/* Validate that the string represents a valid port number and
* return it in network byte order
*/
u_int16_t
validate_port(char *port) {
long local_port = 0;
long lower = 1;
long upper = 65535;
char *endptr;
errno = 0;
local_port = strtol(port, &endptr, 10);
if ((*endptr != '\0') || (errno == ERANGE) || (errno == EINVAL))
log_fatal ("Invalid port number specification: %s", port);
if (local_port < lower || local_port > upper)
log_fatal("Port number specified is out of range (%ld-%ld).",
lower, upper);
return htons((u_int16_t)local_port);
}
/* \brief Validate that the string represents a valid port pair (i.e. n,n+1)
*
* \param the string to validate
* \return the first port number in network byte order
*/
u_int16_t
validate_port_pair(char *port) {
long local_port = 0;
long lower = 1;
long upper = 65534;
char *endptr;
errno = 0;
local_port = strtol(port, &endptr, 10);
if ((*endptr != '\0') || (errno == ERANGE) || (errno == EINVAL))
log_fatal ("Invalid port pair specification: %s", port);
if (local_port < lower || local_port > upper)
log_fatal("Port pair specified is out of range (%ld-%ld).",
lower, upper);
return htons((u_int16_t)local_port);
}
#ifdef DHCPv6
/* Print a v6 address from an in6_addr struct */
const char *
pin6_addr(const struct in6_addr *src){
if (!src) {
return ("<null>");
}
struct iaddr addr;
addr.len = 16;
memcpy(addr.iabuf, src->s6_addr, 16);
return (piaddr(addr));
}
#endif
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