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|
/*
* lib/addr.c Network Address
*
* This library 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 version 2.1
* of the License.
*
* Copyright (c) 2003-2012 Thomas Graf <tgraf@suug.ch>
*/
/**
* @ingroup core_types
* @defgroup addr Network Address
*
* Abstract data type representing any kind of network address
*
* Related sections in the development guide:
* - @core_doc{_abstract_address, Network Addresses}
*
* @{
*
* Header
* ------
* ~~~~{.c}
* #include <netlink/addr.h>
* ~~~~
*/
#include <netlink-local.h>
#include <netlink/netlink.h>
#include <netlink/utils.h>
#include <netlink/addr.h>
#include <linux/socket.h>
/* All this DECnet stuff is stolen from iproute2, thanks to whoever wrote
* this, probably Alexey. */
static inline uint16_t dn_ntohs(uint16_t addr)
{
union {
uint8_t byte[2];
uint16_t word;
} u = {
.word = addr,
};
return ((uint16_t) u.byte[0]) | (((uint16_t) u.byte[1]) << 8);
}
static inline int do_digit(char *str, uint16_t *addr, uint16_t scale,
size_t *pos, size_t len, int *started)
{
uint16_t tmp = *addr / scale;
if (*pos == len)
return 1;
if (((tmp) > 0) || *started || (scale == 1)) {
*str = tmp + '0';
*started = 1;
(*pos)++;
*addr -= (tmp * scale);
}
return 0;
}
static const char *dnet_ntop(char *addrbuf, size_t addrlen, char *str,
size_t len)
{
uint16_t addr = dn_ntohs(*(uint16_t *)addrbuf);
uint16_t area = addr >> 10;
size_t pos = 0;
int started = 0;
if (addrlen != 2)
return NULL;
addr &= 0x03ff;
if (len == 0)
return str;
if (do_digit(str + pos, &area, 10, &pos, len, &started))
return str;
if (do_digit(str + pos, &area, 1, &pos, len, &started))
return str;
if (pos == len)
return str;
*(str + pos) = '.';
pos++;
started = 0;
if (do_digit(str + pos, &addr, 1000, &pos, len, &started))
return str;
if (do_digit(str + pos, &addr, 100, &pos, len, &started))
return str;
if (do_digit(str + pos, &addr, 10, &pos, len, &started))
return str;
if (do_digit(str + pos, &addr, 1, &pos, len, &started))
return str;
if (pos == len)
return str;
*(str + pos) = 0;
return str;
}
static int dnet_num(const char *src, uint16_t * dst)
{
int rv = 0;
int tmp;
*dst = 0;
while ((tmp = *src++) != 0) {
tmp -= '0';
if ((tmp < 0) || (tmp > 9))
return rv;
rv++;
(*dst) *= 10;
(*dst) += tmp;
}
return rv;
}
static inline int dnet_pton(const char *src, char *addrbuf)
{
uint16_t area = 0;
uint16_t node = 0;
int pos;
pos = dnet_num(src, &area);
if ((pos == 0) || (area > 63) ||
((*(src + pos) != '.') && (*(src + pos) != ',')))
return -NLE_INVAL;
pos = dnet_num(src + pos + 1, &node);
if ((pos == 0) || (node > 1023))
return -NLE_INVAL;
*(uint16_t *)addrbuf = dn_ntohs((area << 10) | node);
return 1;
}
static void addr_destroy(struct nl_addr *addr)
{
if (!addr)
return;
if (addr->a_refcnt != 1)
BUG();
free(addr);
}
/**
* @name Creating Abstract Network Addresses
* @{
*/
/**
* Allocate new abstract address object.
* @arg maxsize Maximum size of the binary address.
* @return Newly allocated address object or NULL
*/
struct nl_addr *nl_addr_alloc(size_t maxsize)
{
struct nl_addr *addr;
addr = calloc(1, sizeof(*addr) + maxsize);
if (!addr)
return NULL;
addr->a_refcnt = 1;
addr->a_maxsize = maxsize;
return addr;
}
/**
* Allocate new abstract address object based on a binary address.
* @arg family Address family.
* @arg buf Buffer containing the binary address.
* @arg size Length of binary address buffer.
* @return Newly allocated address handle or NULL
*/
struct nl_addr *nl_addr_build(int family, void *buf, size_t size)
{
struct nl_addr *addr;
addr = nl_addr_alloc(size);
if (!addr)
return NULL;
addr->a_family = family;
addr->a_len = size;
addr->a_prefixlen = size*8;
if (size)
memcpy(addr->a_addr, buf, size);
return addr;
}
/**
* Allocate abstract address based on netlink attribute.
* @arg nla Netlink attribute of unspecific type.
* @arg family Address family.
*
* Considers the netlink attribute payload a address of the specified
* family and allocates a new abstract address based on it.
*
* @return Newly allocated address handle or NULL.
*/
struct nl_addr *nl_addr_alloc_attr(struct nlattr *nla, int family)
{
return nl_addr_build(family, nla_data(nla), nla_len(nla));
}
/**
* Allocate abstract address object based on a character string
* @arg addrstr Address represented as character string.
* @arg hint Address family hint or AF_UNSPEC.
* @arg result Pointer to store resulting address.
*
* Regognizes the following address formats:
*@code
* Format Len Family
* ----------------------------------------------------------------
* IPv6 address format 16 AF_INET6
* ddd.ddd.ddd.ddd 4 AF_INET
* HH:HH:HH:HH:HH:HH 6 AF_LLC
* AA{.|,}NNNN 2 AF_DECnet
* HH:HH:HH:... variable AF_UNSPEC
* @endcode
*
* Special values:
* - none: All bits and length set to 0.
* - {default|all|any}: All bits set to 0, length based on hint or
* AF_INET if no hint is given.
*
* The prefix length may be appened at the end prefixed with a
* slash, e.g. 10.0.0.0/8.
*
* @return 0 on success or a negative error code.
*/
int nl_addr_parse(const char *addrstr, int hint, struct nl_addr **result)
{
int err, copy = 0, len = 0, family = AF_UNSPEC;
char *str, *prefix, buf[32];
struct nl_addr *addr = NULL; /* gcc ain't that smart */
str = strdup(addrstr);
if (!str) {
err = -NLE_NOMEM;
goto errout;
}
prefix = strchr(str, '/');
if (prefix)
*prefix = '\0';
if (!strcasecmp(str, "none")) {
family = hint;
goto prefix;
}
if (!strcasecmp(str, "default") ||
!strcasecmp(str, "all") ||
!strcasecmp(str, "any")) {
switch (hint) {
case AF_INET:
case AF_UNSPEC:
/* Kind of a hack, we assume that if there is
* no hint given the user wants to have a IPv4
* address given back. */
family = AF_INET;
len = 4;
goto prefix;
case AF_INET6:
family = AF_INET6;
len = 16;
goto prefix;
case AF_LLC:
family = AF_LLC;
len = 6;
goto prefix;
default:
err = -NLE_AF_NOSUPPORT;
goto errout;
}
}
copy = 1;
if (hint == AF_INET || hint == AF_UNSPEC) {
if (inet_pton(AF_INET, str, buf) > 0) {
family = AF_INET;
len = 4;
goto prefix;
}
if (hint == AF_INET) {
err = -NLE_NOADDR;
goto errout;
}
}
if (hint == AF_INET6 || hint == AF_UNSPEC) {
if (inet_pton(AF_INET6, str, buf) > 0) {
family = AF_INET6;
len = 16;
goto prefix;
}
if (hint == AF_INET6) {
err = -NLE_NOADDR;
goto errout;
}
}
if ((hint == AF_LLC || hint == AF_UNSPEC) && strchr(str, ':')) {
unsigned int a, b, c, d, e, f;
if (sscanf(str, "%02x:%02x:%02x:%02x:%02x:%02x",
&a, &b, &c, &d, &e, &f) == 6) {
family = AF_LLC;
len = 6;
buf[0] = (unsigned char) a;
buf[1] = (unsigned char) b;
buf[2] = (unsigned char) c;
buf[3] = (unsigned char) d;
buf[4] = (unsigned char) e;
buf[5] = (unsigned char) f;
goto prefix;
}
if (hint == AF_LLC) {
err = -NLE_NOADDR;
goto errout;
}
}
if ((hint == AF_DECnet || hint == AF_UNSPEC) &&
(strchr(str, '.') || strchr(str, ','))) {
if (dnet_pton(str, buf) > 0) {
family = AF_DECnet;
len = 2;
goto prefix;
}
if (hint == AF_DECnet) {
err = -NLE_NOADDR;
goto errout;
}
}
if (hint == AF_UNSPEC && strchr(str, ':')) {
int i = 0;
char *s = str, *p;
for (;;) {
long l = strtol(s, &p, 16);
if (s == p || l > 0xff || i >= sizeof(buf)) {
err = -NLE_INVAL;
goto errout;
}
buf[i++] = (unsigned char) l;
if (*p == '\0')
break;
s = ++p;
}
len = i;
family = AF_UNSPEC;
goto prefix;
}
err = -NLE_NOADDR;
goto errout;
prefix:
addr = nl_addr_alloc(len);
if (!addr) {
err = -NLE_NOMEM;
goto errout;
}
nl_addr_set_family(addr, family);
if (copy)
nl_addr_set_binary_addr(addr, buf, len);
if (prefix) {
char *p;
long pl = strtol(++prefix, &p, 0);
if (p == prefix) {
addr_destroy(addr);
err = -NLE_INVAL;
goto errout;
}
nl_addr_set_prefixlen(addr, pl);
} else
nl_addr_set_prefixlen(addr, len * 8);
*result = addr;
err = 0;
errout:
free(str);
return err;
}
/**
* Clone existing abstract address object.
* @arg addr Abstract address object.
* @return Newly allocated abstract address object being a duplicate of the
* specified address object or NULL if a failure occured.
*/
struct nl_addr *nl_addr_clone(struct nl_addr *addr)
{
struct nl_addr *new;
new = nl_addr_build(addr->a_family, addr->a_addr, addr->a_len);
if (new)
new->a_prefixlen = addr->a_prefixlen;
return new;
}
/** @} */
/**
* @name Managing Usage References
* @{
*/
struct nl_addr *nl_addr_get(struct nl_addr *addr)
{
addr->a_refcnt++;
return addr;
}
void nl_addr_put(struct nl_addr *addr)
{
if (!addr)
return;
if (addr->a_refcnt == 1)
addr_destroy(addr);
else
addr->a_refcnt--;
}
/**
* Check whether an abstract address object is shared.
* @arg addr Abstract address object.
* @return Non-zero if the abstract address object is shared, otherwise 0.
*/
int nl_addr_shared(struct nl_addr *addr)
{
return addr->a_refcnt > 1;
}
/** @} */
/**
* @name Miscellaneous
* @{
*/
/**
* Compares two abstract address objects.
* @arg a A abstract address object.
* @arg b Another abstract address object.
*
* @return Integer less than, equal to or greather than zero if \c is found,
* respectively to be less than, to, or be greater than \c b.
*/
int nl_addr_cmp(struct nl_addr *a, struct nl_addr *b)
{
int d = a->a_family - b->a_family;
if (d == 0) {
d = a->a_len - b->a_len;
if (a->a_len && d == 0)
d = memcmp(a->a_addr, b->a_addr, a->a_len);
if (d == 0)
return (a->a_prefixlen - b->a_prefixlen);
}
return d;
}
/**
* Compares the prefix of two abstract address objects.
* @arg a A abstract address object.
* @arg b Another abstract address object.
*
* @return Integer less than, equal to or greather than zero if \c is found,
* respectively to be less than, to, or be greater than \c b.
*/
int nl_addr_cmp_prefix(struct nl_addr *a, struct nl_addr *b)
{
int d = a->a_family - b->a_family;
if (d == 0) {
int len = min(a->a_prefixlen, b->a_prefixlen);
int bytes = len / 8;
d = memcmp(a->a_addr, b->a_addr, bytes);
if (d == 0) {
int mask = (1UL << (len % 8)) - 1UL;
d = (a->a_addr[bytes] & mask) -
(b->a_addr[bytes] & mask);
}
}
return d;
}
/**
* Returns true if the address consists of all zeros
* @arg addr Address to look at.
*/
int nl_addr_iszero(struct nl_addr *addr)
{
int i;
for (i = 0; i < addr->a_len; i++)
if (addr->a_addr[i])
return 0;
return 1;
}
/**
* Check if an address matches a certain family.
* @arg addr Address represented as character string.
* @arg family Desired address family.
*
* @return 1 if the address is of the desired address family,
* otherwise 0 is returned.
*/
int nl_addr_valid(char *addr, int family)
{
int ret;
char buf[32];
switch (family) {
case AF_INET:
case AF_INET6:
ret = inet_pton(family, addr, buf);
if (ret <= 0)
return 0;
break;
case AF_DECnet:
ret = dnet_pton(addr, buf);
if (ret <= 0)
return 0;
break;
case AF_LLC:
if (sscanf(addr, "%*02x:%*02x:%*02x:%*02x:%*02x:%*02x") != 6)
return 0;
break;
}
return 1;
}
/**
* Guess address family of an abstract address object based on address size.
* @arg addr Abstract address object.
* @return Address family or AF_UNSPEC if guessing wasn't successful.
*/
int nl_addr_guess_family(struct nl_addr *addr)
{
switch (addr->a_len) {
case 4:
return AF_INET;
case 6:
return AF_LLC;
case 16:
return AF_INET6;
default:
return AF_UNSPEC;
}
}
/**
* Fill out sockaddr structure with values from abstract address object.
* @arg addr Abstract address object.
* @arg sa Destination sockaddr structure buffer.
* @arg salen Length of sockaddr structure buffer.
*
* Fills out the specified sockaddr structure with the data found in the
* specified abstract address. The salen argument needs to be set to the
* size of sa but will be modified to the actual size used during before
* the function exits.
*
* @return 0 on success or a negative error code
*/
int nl_addr_fill_sockaddr(struct nl_addr *addr, struct sockaddr *sa,
socklen_t *salen)
{
switch (addr->a_family) {
case AF_INET: {
struct sockaddr_in *sai = (struct sockaddr_in *) sa;
if (*salen < sizeof(*sai))
return -NLE_INVAL;
sai->sin_family = addr->a_family;
memcpy(&sai->sin_addr, addr->a_addr, 4);
*salen = sizeof(*sai);
}
break;
case AF_INET6: {
struct sockaddr_in6 *sa6 = (struct sockaddr_in6 *) sa;
if (*salen < sizeof(*sa6))
return -NLE_INVAL;
sa6->sin6_family = addr->a_family;
memcpy(&sa6->sin6_addr, addr->a_addr, 16);
*salen = sizeof(*sa6);
}
break;
default:
return -NLE_INVAL;
}
return 0;
}
/** @} */
/**
* @name Getting Information About Addresses
* @{
*/
/**
* Call getaddrinfo() for an abstract address object.
* @arg addr Abstract address object.
* @arg result Pointer to store resulting address list.
*
* Calls getaddrinfo() for the specified abstract address in AI_NUMERICHOST
* mode.
*
* @note The caller is responsible for freeing the linked list using the
* interface provided by getaddrinfo(3).
*
* @return 0 on success or a negative error code.
*/
int nl_addr_info(struct nl_addr *addr, struct addrinfo **result)
{
int err;
char buf[INET6_ADDRSTRLEN+5];
struct addrinfo hint = {
.ai_flags = AI_NUMERICHOST,
.ai_family = addr->a_family,
};
nl_addr2str(addr, buf, sizeof(buf));
err = getaddrinfo(buf, NULL, &hint, result);
if (err != 0) {
switch (err) {
case EAI_ADDRFAMILY: return -NLE_AF_NOSUPPORT;
case EAI_AGAIN: return -NLE_AGAIN;
case EAI_BADFLAGS: return -NLE_INVAL;
case EAI_FAIL: return -NLE_NOADDR;
case EAI_FAMILY: return -NLE_AF_NOSUPPORT;
case EAI_MEMORY: return -NLE_NOMEM;
case EAI_NODATA: return -NLE_NOADDR;
case EAI_NONAME: return -NLE_OBJ_NOTFOUND;
case EAI_SERVICE: return -NLE_OPNOTSUPP;
case EAI_SOCKTYPE: return -NLE_BAD_SOCK;
default: return -NLE_FAILURE;
}
}
return 0;
}
/**
* Resolve abstract address object to a name using getnameinfo().
* @arg addr Abstract address object.
* @arg host Destination buffer for host name.
* @arg hostlen Length of destination buffer.
*
* Resolves the abstract address to a name and writes the looked up result
* into the host buffer. getnameinfo() is used to perform the lookup and
* is put into NI_NAMEREQD mode so the function will fail if the lookup
* couldn't be performed.
*
* @return 0 on success or a negative error code.
*/
int nl_addr_resolve(struct nl_addr *addr, char *host, size_t hostlen)
{
int err;
struct sockaddr_in6 buf;
socklen_t salen = sizeof(buf);
err = nl_addr_fill_sockaddr(addr, (struct sockaddr *) &buf, &salen);
if (err < 0)
return err;
err = getnameinfo((struct sockaddr *) &buf, salen, host, hostlen,
NULL, 0, NI_NAMEREQD);
if (err < 0)
return nl_syserr2nlerr(err);
return 0;
}
/** @} */
/**
* @name Attributes
* @{
*/
void nl_addr_set_family(struct nl_addr *addr, int family)
{
addr->a_family = family;
}
int nl_addr_get_family(struct nl_addr *addr)
{
return addr->a_family;
}
/**
* Set binary address of abstract address object.
* @arg addr Abstract address object.
* @arg buf Buffer containing binary address.
* @arg len Length of buffer containing binary address.
*/
int nl_addr_set_binary_addr(struct nl_addr *addr, void *buf, size_t len)
{
if (len > addr->a_maxsize)
return -NLE_RANGE;
addr->a_len = len;
memcpy(addr->a_addr, buf, len);
return 0;
}
/**
* Get binary address of abstract address object.
* @arg addr Abstract address object.
*/
void *nl_addr_get_binary_addr(struct nl_addr *addr)
{
return addr->a_addr;
}
/**
* Get length of binary address of abstract address object.
* @arg addr Abstract address object.
*/
unsigned int nl_addr_get_len(struct nl_addr *addr)
{
return addr->a_len;
}
void nl_addr_set_prefixlen(struct nl_addr *addr, int prefixlen)
{
addr->a_prefixlen = prefixlen;
}
/**
* Get prefix length of abstract address object.
* @arg addr Abstract address object.
*/
unsigned int nl_addr_get_prefixlen(struct nl_addr *addr)
{
return addr->a_prefixlen;
}
/** @} */
/**
* @name Translations to Strings
* @{
*/
/**
* Convert abstract address object to character string.
* @arg addr Abstract address object.
* @arg buf Destination buffer.
* @arg size Size of destination buffer.
*
* Converts an abstract address to a character string and stores
* the result in the specified destination buffer.
*
* @return Address represented in ASCII stored in destination buffer.
*/
char *nl_addr2str(struct nl_addr *addr, char *buf, size_t size)
{
int i;
char tmp[16];
if (!addr || !addr->a_len) {
snprintf(buf, size, "none");
if (addr)
goto prefix;
else
return buf;
}
switch (addr->a_family) {
case AF_INET:
inet_ntop(AF_INET, addr->a_addr, buf, size);
break;
case AF_INET6:
inet_ntop(AF_INET6, addr->a_addr, buf, size);
break;
case AF_DECnet:
dnet_ntop(addr->a_addr, addr->a_len, buf, size);
break;
case AF_LLC:
default:
snprintf(buf, size, "%02x",
(unsigned char) addr->a_addr[0]);
for (i = 1; i < addr->a_len; i++) {
snprintf(tmp, sizeof(tmp), ":%02x",
(unsigned char) addr->a_addr[i]);
strncat(buf, tmp, size - strlen(buf) - 1);
}
break;
}
prefix:
if (addr->a_prefixlen != (8 * addr->a_len)) {
snprintf(tmp, sizeof(tmp), "/%u", addr->a_prefixlen);
strncat(buf, tmp, size - strlen(buf) - 1);
}
return buf;
}
/** @} */
/**
* @name Address Family Transformations
* @{
*/
static const struct trans_tbl afs[] = {
__ADD(AF_UNSPEC,unspec)
__ADD(AF_UNIX,unix)
__ADD(AF_LOCAL,local)
__ADD(AF_INET,inet)
__ADD(AF_AX25,ax25)
__ADD(AF_IPX,ipx)
__ADD(AF_APPLETALK,appletalk)
__ADD(AF_NETROM,netrom)
__ADD(AF_BRIDGE,bridge)
__ADD(AF_ATMPVC,atmpvc)
__ADD(AF_X25,x25)
__ADD(AF_INET6,inet6)
__ADD(AF_ROSE,rose)
__ADD(AF_DECnet,decnet)
__ADD(AF_NETBEUI,netbeui)
__ADD(AF_SECURITY,security)
__ADD(AF_KEY,key)
__ADD(AF_NETLINK,netlink)
__ADD(AF_ROUTE,route)
__ADD(AF_PACKET,packet)
__ADD(AF_ASH,ash)
__ADD(AF_ECONET,econet)
__ADD(AF_ATMSVC,atmsvc)
__ADD(AF_SNA,sna)
__ADD(AF_IRDA,irda)
__ADD(AF_PPPOX,pppox)
__ADD(AF_WANPIPE,wanpipe)
__ADD(AF_LLC,llc)
__ADD(AF_BLUETOOTH,bluetooth)
};
char *nl_af2str(int family, char *buf, size_t size)
{
return __type2str(family, buf, size, afs, ARRAY_SIZE(afs));
}
int nl_str2af(const char *name)
{
int fam = __str2type(name, afs, ARRAY_SIZE(afs));
return fam >= 0 ? fam : -EINVAL;
}
/** @} */
/** @} */
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