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|
/*
* Copyright (C) 2007-2009 Tobias Brunner
* Copyright (C) 2005-2007 Martin Willi
* Copyright (C) 2005 Jan Hutter
* Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*/
#include <arpa/inet.h>
#include <string.h>
#include <netdb.h>
#include <stdio.h>
#include "traffic_selector.h"
#include <utils/linked_list.h>
#include <utils/identification.h>
#include <debug.h>
#define NON_SUBNET_ADDRESS_RANGE 255
ENUM(ts_type_name, TS_IPV4_ADDR_RANGE, TS_IPV6_ADDR_RANGE,
"TS_IPV4_ADDR_RANGE",
"TS_IPV6_ADDR_RANGE",
);
typedef struct private_traffic_selector_t private_traffic_selector_t;
/**
* Private data of an traffic_selector_t object
*/
struct private_traffic_selector_t {
/**
* Public part
*/
traffic_selector_t public;
/**
* Type of address
*/
ts_type_t type;
/**
* IP protocol (UDP, TCP, ICMP, ...)
*/
u_int8_t protocol;
/**
* narrow this traffic selector to hosts external ip
* if set, from and to have no meaning until set_address() is called
*/
bool dynamic;
/**
* subnet size in CIDR notation, 255 means a non-subnet address range
*/
u_int8_t netbits;
/**
* begin of address range, network order
*/
union {
/** dummy char for common address manipulation */
char from[0];
/** IPv4 address */
u_int32_t from4[1];
/** IPv6 address */
u_int32_t from6[4];
};
/**
* end of address range, network order
*/
union {
/** dummy char for common address manipulation */
char to[0];
/** IPv4 address */
u_int32_t to4[1];
/** IPv6 address */
u_int32_t to6[4];
};
/**
* begin of port range
*/
u_int16_t from_port;
/**
* end of port range
*/
u_int16_t to_port;
};
/**
* calculate the "to"-address for the "from" address and a subnet size
*/
static void calc_range(private_traffic_selector_t *this, u_int8_t netbits)
{
size_t len;
int bytes, bits;
u_int8_t mask;
this->netbits = netbits;
len = (this->type == TS_IPV4_ADDR_RANGE) ? 4 : 16;
bytes = (netbits + 7)/8;
bits = (bytes * 8) - netbits;
mask = bits ? (1 << bits) - 1 : 0;
memcpy(this->to, this->from, bytes);
memset(this->from + bytes, 0x00, len - bytes);
memset(this->to + bytes, 0xff, len - bytes);
this->from[bytes-1] &= ~mask;
this->to[bytes-1] |= mask;
}
/**
* calculate the subnet size from the "to" and "from" addresses
*/
static u_int8_t calc_netbits(private_traffic_selector_t *this)
{
int byte, bit;
u_int8_t netbits;
size_t size = (this->type == TS_IPV4_ADDR_RANGE) ? 4 : 16;
bool prefix = TRUE;
/* a perfect match results in a single address with a /32 or /128 netmask */
netbits = (size * 8);
this->netbits = netbits;
/* go through all bits of the addresses, beginning in the front.
* as long as they are equal, the subnet gets larger
*/
for (byte = 0; byte < size; byte++)
{
for (bit = 7; bit >= 0; bit--)
{
u_int8_t bitmask = 1 << bit;
if (prefix)
{
if ((bitmask & this->from[byte]) != (bitmask & this->to[byte]))
{
/* store the common prefix which might be a true subnet */
netbits = (7 - bit) + (byte * 8);
this->netbits = netbits;
prefix = FALSE;
}
}
else
{
if ((bitmask & this->from[byte]) || !(bitmask & this->to[byte]))
{
this->netbits = NON_SUBNET_ADDRESS_RANGE;
return netbits; /* return a pseudo subnet */
}
}
}
}
return netbits; /* return a true subnet */
}
/**
* internal generic constructor
*/
static private_traffic_selector_t *traffic_selector_create(u_int8_t protocol, ts_type_t type, u_int16_t from_port, u_int16_t to_port);
/**
* Described in header.
*/
int traffic_selector_printf_hook(char *dst, size_t len, printf_hook_spec_t *spec,
const void *const *args)
{
private_traffic_selector_t *this = *((private_traffic_selector_t**)(args[0]));
linked_list_t *list = *((linked_list_t**)(args[0]));
enumerator_t *enumerator;
char from_str[INET6_ADDRSTRLEN] = "";
char to_str[INET6_ADDRSTRLEN] = "";
char *serv_proto = NULL;
bool has_proto;
bool has_ports;
size_t written = 0;
u_int32_t from[4], to[4];
if (this == NULL)
{
return print_in_hook(dst, len, "(null)");
}
if (spec->hash)
{
enumerator = list->create_enumerator(list);
while (enumerator->enumerate(enumerator, (void**)&this))
{
/* call recursivly */
written += print_in_hook(dst, len, "%R ", this);
}
enumerator->destroy(enumerator);
return written;
}
memset(from, 0, sizeof(from));
memset(to, 0xFF, sizeof(to));
if (this->dynamic &&
memeq(this->from, from, this->type == TS_IPV4_ADDR_RANGE ? 4 : 16) &&
memeq(this->to, to, this->type == TS_IPV4_ADDR_RANGE ? 4 : 16))
{
written += print_in_hook(dst, len, "dynamic");
}
else
{
if (this->type == TS_IPV4_ADDR_RANGE)
{
inet_ntop(AF_INET, &this->from4, from_str, sizeof(from_str));
}
else
{
inet_ntop(AF_INET6, &this->from6, from_str, sizeof(from_str));
}
if (this->netbits == NON_SUBNET_ADDRESS_RANGE)
{
if (this->type == TS_IPV4_ADDR_RANGE)
{
inet_ntop(AF_INET, &this->to4, to_str, sizeof(to_str));
}
else
{
inet_ntop(AF_INET6, &this->to6, to_str, sizeof(to_str));
}
written += print_in_hook(dst, len, "%s..%s", from_str, to_str);
}
else
{
written += print_in_hook(dst, len, "%s/%d", from_str, this->netbits);
}
}
/* check if we have protocol and/or port selectors */
has_proto = this->protocol != 0;
has_ports = !(this->from_port == 0 && this->to_port == 0xFFFF);
if (!has_proto && !has_ports)
{
return written;
}
written += print_in_hook(dst, len, "[");
/* build protocol string */
if (has_proto)
{
struct protoent *proto = getprotobynumber(this->protocol);
if (proto)
{
written += print_in_hook(dst, len, "%s", proto->p_name);
serv_proto = proto->p_name;
}
else
{
written += print_in_hook(dst, len, "%d", this->protocol);
}
}
if (has_proto && has_ports)
{
written += print_in_hook(dst, len, "/");
}
/* build port string */
if (has_ports)
{
if (this->from_port == this->to_port)
{
struct servent *serv = getservbyport(htons(this->from_port), serv_proto);
if (serv)
{
written += print_in_hook(dst, len, "%s", serv->s_name);
}
else
{
written += print_in_hook(dst, len, "%d", this->from_port);
}
}
else
{
written += print_in_hook(dst, len, "%d-%d", this->from_port, this->to_port);
}
}
written += print_in_hook(dst, len, "]");
return written;
}
/**
* Implements traffic_selector_t.get_subset
*/
static traffic_selector_t *get_subset(private_traffic_selector_t *this, private_traffic_selector_t *other)
{
if (this->type == other->type && (this->protocol == other->protocol ||
this->protocol == 0 || other->protocol == 0))
{
u_int16_t from_port, to_port;
u_char *from, *to;
u_int8_t protocol;
size_t size;
private_traffic_selector_t *new_ts;
/* calculate the maximum port range allowed for both */
from_port = max(this->from_port, other->from_port);
to_port = min(this->to_port, other->to_port);
if (from_port > to_port)
{
return NULL;
}
/* select protocol, which is not zero */
protocol = max(this->protocol, other->protocol);
switch (this->type)
{
case TS_IPV4_ADDR_RANGE:
size = sizeof(this->from4);
break;
case TS_IPV6_ADDR_RANGE:
size = sizeof(this->from6);
break;
default:
return NULL;
}
/* get higher from-address */
if (memcmp(this->from, other->from, size) > 0)
{
from = this->from;
}
else
{
from = other->from;
}
/* get lower to-address */
if (memcmp(this->to, other->to, size) > 0)
{
to = other->to;
}
else
{
to = this->to;
}
/* if "from" > "to", we don't have a match */
if (memcmp(from, to, size) > 0)
{
return NULL;
}
/* we have a match in protocol, port, and address: return it... */
new_ts = traffic_selector_create(protocol, this->type, from_port, to_port);
new_ts->dynamic = this->dynamic || other->dynamic;
memcpy(new_ts->from, from, size);
memcpy(new_ts->to, to, size);
calc_netbits(new_ts);
return &new_ts->public;
}
return NULL;
}
/**
* Implements traffic_selector_t.equals
*/
static bool equals(private_traffic_selector_t *this, private_traffic_selector_t *other)
{
if (this->type != other->type)
{
return FALSE;
}
if (!(this->from_port == other->from_port &&
this->to_port == other->to_port &&
this->protocol == other->protocol))
{
return FALSE;
}
switch (this->type)
{
case TS_IPV4_ADDR_RANGE:
if (memeq(this->from4, other->from4, sizeof(this->from4)) &&
memeq(this->to4, other->to4, sizeof(this->to4)))
{
return TRUE;
}
break;
case TS_IPV6_ADDR_RANGE:
if (memeq(this->from6, other->from6, sizeof(this->from6)) &&
memeq(this->to6, other->to6, sizeof(this->to6)))
{
return TRUE;
}
break;
default:
break;
}
return FALSE;
}
METHOD(traffic_selector_t, get_from_address, chunk_t,
private_traffic_selector_t *this)
{
switch (this->type)
{
case TS_IPV4_ADDR_RANGE:
return chunk_create(this->from, sizeof(this->from4));
case TS_IPV6_ADDR_RANGE:
return chunk_create(this->from, sizeof(this->from6));
default:
return chunk_empty;
}
}
METHOD(traffic_selector_t, get_to_address, chunk_t,
private_traffic_selector_t *this)
{
switch (this->type)
{
case TS_IPV4_ADDR_RANGE:
return chunk_create(this->to, sizeof(this->to4));
case TS_IPV6_ADDR_RANGE:
return chunk_create(this->to, sizeof(this->to6));
default:
return chunk_empty;
}
}
METHOD(traffic_selector_t, get_from_port, u_int16_t,
private_traffic_selector_t *this)
{
return this->from_port;
}
METHOD(traffic_selector_t, get_to_port, u_int16_t,
private_traffic_selector_t *this)
{
return this->to_port;
}
METHOD(traffic_selector_t, get_type, ts_type_t,
private_traffic_selector_t *this)
{
return this->type;
}
METHOD(traffic_selector_t, get_protocol, u_int8_t,
private_traffic_selector_t *this)
{
return this->protocol;
}
METHOD(traffic_selector_t, is_host, bool,
private_traffic_selector_t *this, host_t *host)
{
if (host)
{
chunk_t addr;
int family = host->get_family(host);
if ((family == AF_INET && this->type == TS_IPV4_ADDR_RANGE) ||
(family == AF_INET6 && this->type == TS_IPV6_ADDR_RANGE))
{
addr = host->get_address(host);
if (memeq(addr.ptr, this->from, addr.len) &&
memeq(addr.ptr, this->to, addr.len))
{
return TRUE;
}
}
}
else
{
size_t length = (this->type == TS_IPV4_ADDR_RANGE) ? 4 : 16;
if (this->dynamic)
{
return TRUE;
}
if (memeq(this->from, this->to, length))
{
return TRUE;
}
}
return FALSE;
}
METHOD(traffic_selector_t, is_dynamic, bool,
private_traffic_selector_t *this)
{
return this->dynamic;
}
METHOD(traffic_selector_t, set_address, void,
private_traffic_selector_t *this, host_t *host)
{
if (this->dynamic)
{
this->type = host->get_family(host) == AF_INET ?
TS_IPV4_ADDR_RANGE : TS_IPV6_ADDR_RANGE;
if (host->is_anyaddr(host))
{
memset(this->from6, 0x00, sizeof(this->from6));
memset(this->to6, 0xFF, sizeof(this->to6));
this->netbits = 0;
}
else
{
chunk_t from = host->get_address(host);
memcpy(this->from, from.ptr, from.len);
memcpy(this->to, from.ptr, from.len);
this->netbits = from.len * 8;
}
}
}
/**
* Implements traffic_selector_t.is_contained_in.
*/
static bool is_contained_in(private_traffic_selector_t *this,
private_traffic_selector_t *other)
{
private_traffic_selector_t *subset;
bool contained_in = FALSE;
subset = (private_traffic_selector_t*)get_subset(this, other);
if (subset)
{
if (equals(subset, this))
{
contained_in = TRUE;
}
free(subset);
}
return contained_in;
}
METHOD(traffic_selector_t, includes, bool,
private_traffic_selector_t *this, host_t *host)
{
chunk_t addr;
int family = host->get_family(host);
if ((family == AF_INET && this->type == TS_IPV4_ADDR_RANGE) ||
(family == AF_INET6 && this->type == TS_IPV6_ADDR_RANGE))
{
addr = host->get_address(host);
return memcmp(this->from, addr.ptr, addr.len) <= 0 &&
memcmp(this->to, addr.ptr, addr.len) >= 0;
}
return FALSE;
}
METHOD(traffic_selector_t, to_subnet, void,
private_traffic_selector_t *this, host_t **net, u_int8_t *mask)
{
/* there is no way to do this cleanly, as the address range may
* be anything else but a subnet. We use from_addr as subnet
* and try to calculate a usable subnet mask.
*/
int family, non_zero_bytes;
u_int16_t port = 0;
chunk_t net_chunk;
*mask = (this->netbits == NON_SUBNET_ADDRESS_RANGE) ? calc_netbits(this)
: this->netbits;
switch (this->type)
{
case TS_IPV4_ADDR_RANGE:
family = AF_INET;
net_chunk.len = sizeof(this->from4);
break;
case TS_IPV6_ADDR_RANGE:
family = AF_INET6;
net_chunk.len = sizeof(this->from6);
break;
default:
/* unreachable */
return;
}
net_chunk.ptr = malloc(net_chunk.len);
memset(net_chunk.ptr, 0x00, net_chunk.len);
if (*mask)
{
non_zero_bytes = (*mask + 7) / 8;
memcpy(net_chunk.ptr, this->from, non_zero_bytes);
net_chunk.ptr[non_zero_bytes-1] &= 0xFF << (8 * non_zero_bytes - *mask);
}
if (this->to_port == this->from_port)
{
port = this->to_port;
}
*net = host_create_from_chunk(family, net_chunk, port);
chunk_free(&net_chunk);
}
METHOD(traffic_selector_t, clone_, traffic_selector_t*,
private_traffic_selector_t *this)
{
private_traffic_selector_t *clone;
clone = traffic_selector_create(this->protocol, this->type,
this->from_port, this->to_port);
clone->netbits = this->netbits;
clone->dynamic = this->dynamic;
switch (clone->type)
{
case TS_IPV4_ADDR_RANGE:
memcpy(clone->from4, this->from4, sizeof(this->from4));
memcpy(clone->to4, this->to4, sizeof(this->to4));
return &clone->public;
case TS_IPV6_ADDR_RANGE:
memcpy(clone->from6, this->from6, sizeof(this->from6));
memcpy(clone->to6, this->to6, sizeof(this->to6));
return &clone->public;
default:
/* unreachable */
return &clone->public;
}
}
METHOD(traffic_selector_t, destroy, void,
private_traffic_selector_t *this)
{
free(this);
}
/*
* see header
*/
traffic_selector_t *traffic_selector_create_from_bytes(u_int8_t protocol,
ts_type_t type,
chunk_t from, u_int16_t from_port,
chunk_t to, u_int16_t to_port)
{
private_traffic_selector_t *this = traffic_selector_create(protocol, type,
from_port, to_port);
switch (type)
{
case TS_IPV4_ADDR_RANGE:
if (from.len != 4 || to.len != 4)
{
free(this);
return NULL;
}
memcpy(this->from4, from.ptr, from.len);
memcpy(this->to4, to.ptr, to.len);
break;
case TS_IPV6_ADDR_RANGE:
if (from.len != 16 || to.len != 16)
{
free(this);
return NULL;
}
memcpy(this->from6, from.ptr, from.len);
memcpy(this->to6, to.ptr, to.len);
break;
default:
free(this);
return NULL;
}
calc_netbits(this);
return (&this->public);
}
/*
* see header
*/
traffic_selector_t *traffic_selector_create_from_rfc3779_format(ts_type_t type,
chunk_t from, chunk_t to)
{
size_t len;
private_traffic_selector_t *this = traffic_selector_create(0, type, 0, 65535);
switch (type)
{
case TS_IPV4_ADDR_RANGE:
len = 4;
break;
case TS_IPV6_ADDR_RANGE:
len = 16;
break;
default:
free(this);
return NULL;
}
memset(this->from, 0x00, len);
memset(this->to , 0xff, len);
if (from.len > 1)
{
memcpy(this->from, from.ptr+1, from.len-1);
}
if (to.len > 1)
{
u_int8_t mask = to.ptr[0] ? (1 << to.ptr[0]) - 1 : 0;
memcpy(this->to, to.ptr+1, to.len-1);
this->to[to.len-2] |= mask;
}
this->netbits = chunk_equals(from, to) ? (from.len-1)*8 - from.ptr[0]
: NON_SUBNET_ADDRESS_RANGE;
return (&this->public);
}
/*
* see header
*/
traffic_selector_t *traffic_selector_create_from_subnet(host_t *net,
u_int8_t netbits, u_int8_t protocol, u_int16_t port)
{
private_traffic_selector_t *this = traffic_selector_create(protocol, 0, 0, 65535);
switch (net->get_family(net))
{
case AF_INET:
{
chunk_t from;
this->type = TS_IPV4_ADDR_RANGE;
from = net->get_address(net);
memcpy(this->from, from.ptr, from.len);
if (this->from4[0] == 0)
{
/* use /0 for 0.0.0.0 */
this->to4[0] = ~0;
this->netbits = 0;
}
else
{
calc_range(this, netbits);
}
break;
}
case AF_INET6:
{
chunk_t from;
this->type = TS_IPV6_ADDR_RANGE;
from = net->get_address(net);
memcpy(this->from, from.ptr, from.len);
if (this->from6[0] == 0 && this->from6[1] == 0 &&
this->from6[2] == 0 && this->from6[3] == 0)
{
/* use /0 for ::0 */
this->to6[0] = ~0;
this->to6[1] = ~0;
this->to6[2] = ~0;
this->to6[3] = ~0;
this->netbits = 0;
}
else
{
calc_range(this, netbits);
}
break;
}
default:
{
net->destroy(net);
free(this);
return NULL;
}
}
if (port)
{
this->from_port = port;
this->to_port = port;
}
net->destroy(net);
return (&this->public);
}
/*
* see header
*/
traffic_selector_t *traffic_selector_create_from_string(
u_int8_t protocol, ts_type_t type,
char *from_addr, u_int16_t from_port,
char *to_addr, u_int16_t to_port)
{
private_traffic_selector_t *this = traffic_selector_create(protocol, type,
from_port, to_port);
switch (type)
{
case TS_IPV4_ADDR_RANGE:
if (inet_pton(AF_INET, from_addr, (struct in_addr*)this->from4) < 0)
{
free(this);
return NULL;
}
if (inet_pton(AF_INET, to_addr, (struct in_addr*)this->to4) < 0)
{
free(this);
return NULL;
}
break;
case TS_IPV6_ADDR_RANGE:
if (inet_pton(AF_INET6, from_addr, (struct in6_addr*)this->from6) < 0)
{
free(this);
return NULL;
}
if (inet_pton(AF_INET6, to_addr, (struct in6_addr*)this->to6) < 0)
{
free(this);
return NULL;
}
break;
}
calc_netbits(this);
return (&this->public);
}
/*
* see header
*/
traffic_selector_t *traffic_selector_create_dynamic(u_int8_t protocol,
u_int16_t from_port, u_int16_t to_port)
{
private_traffic_selector_t *this = traffic_selector_create(
protocol, TS_IPV4_ADDR_RANGE, from_port, to_port);
memset(this->from6, 0, sizeof(this->from6));
memset(this->to6, 0xFF, sizeof(this->to6));
this->netbits = 0;
this->dynamic = TRUE;
return &this->public;
}
/*
* see declaration
*/
static private_traffic_selector_t *traffic_selector_create(u_int8_t protocol,
ts_type_t type, u_int16_t from_port, u_int16_t to_port)
{
private_traffic_selector_t *this;
INIT(this,
.public = {
.get_subset = (traffic_selector_t*(*)(traffic_selector_t*,traffic_selector_t*))get_subset,
.equals = (bool(*)(traffic_selector_t*,traffic_selector_t*))equals,
.get_from_address = _get_from_address,
.get_to_address = _get_to_address,
.get_from_port = _get_from_port,
.get_to_port = _get_to_port,
.get_type = _get_type,
.get_protocol = _get_protocol,
.is_host = _is_host,
.is_dynamic = _is_dynamic,
.is_contained_in = (bool(*)(traffic_selector_t*,traffic_selector_t*))is_contained_in,
.includes = _includes,
.set_address = _set_address,
.to_subnet = _to_subnet,
.clone = _clone_,
.destroy = _destroy,
},
.from_port = from_port,
.to_port = to_port,
.protocol = protocol,
.type = type,
);
return this;
}
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