/*
* viriptables.c: helper APIs for managing iptables
*
* Copyright (C) 2007-2013 Red Hat, Inc.
*
* 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; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see
* .
*
* Authors:
* Mark McLoughlin
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#ifdef HAVE_PATHS_H
# include
#endif
#include "internal.h"
#include "viriptables.h"
#include "vircommand.h"
#include "viralloc.h"
#include "virerror.h"
#include "virlog.h"
#include "virthread.h"
#if HAVE_FIREWALLD
static char *firewall_cmd_path = NULL;
static int
virIpTablesOnceInit(void)
{
firewall_cmd_path = virFindFileInPath("firewall-cmd");
if (!firewall_cmd_path) {
VIR_INFO("firewall-cmd not found on system. "
"firewalld support disabled for iptables.");
} else {
virCommandPtr cmd = virCommandNew(firewall_cmd_path);
int status;
virCommandAddArgList(cmd, "--state", NULL);
if (virCommandRun(cmd, &status) < 0 || status != 0) {
VIR_INFO("firewall-cmd found but disabled for iptables");
VIR_FREE(firewall_cmd_path);
firewall_cmd_path = NULL;
} else {
VIR_INFO("using firewalld for iptables commands");
}
virCommandFree(cmd);
}
return 0;
}
VIR_ONCE_GLOBAL_INIT(virIpTables)
#endif
#define VIR_FROM_THIS VIR_FROM_NONE
enum {
ADD = 0,
REMOVE
};
typedef struct
{
char *table;
char *chain;
} iptRules;
struct _iptablesContext
{
iptRules *input_filter;
iptRules *forward_filter;
iptRules *nat_postrouting;
iptRules *mangle_postrouting;
};
static void
iptRulesFree(iptRules *rules)
{
VIR_FREE(rules->table);
VIR_FREE(rules->chain);
VIR_FREE(rules);
}
static iptRules *
iptRulesNew(const char *table,
const char *chain)
{
iptRules *rules;
if (VIR_ALLOC(rules) < 0)
return NULL;
if (!(rules->table = strdup(table)))
goto error;
if (!(rules->chain = strdup(chain)))
goto error;
return rules;
error:
iptRulesFree(rules);
return NULL;
}
static virCommandPtr
iptablesCommandNew(iptRules *rules, int family, int action)
{
virCommandPtr cmd = NULL;
#if HAVE_FIREWALLD
virIpTablesInitialize();
if (firewall_cmd_path) {
cmd = virCommandNew(firewall_cmd_path);
virCommandAddArgList(cmd, "--direct", "--passthrough",
(family == AF_INET6) ? "ipv6" : "ipv4", NULL);
}
#endif
if (cmd == NULL) {
cmd = virCommandNew((family == AF_INET6)
? IP6TABLES_PATH : IPTABLES_PATH);
}
virCommandAddArgList(cmd, "--table", rules->table,
action == ADD ? "--insert" : "--delete",
rules->chain, NULL);
return cmd;
}
static int
iptablesCommandRunAndFree(virCommandPtr cmd)
{
int ret;
ret = virCommandRun(cmd, NULL);
virCommandFree(cmd);
return ret;
}
static int ATTRIBUTE_SENTINEL
iptablesAddRemoveRule(iptRules *rules, int family, int action,
const char *arg, ...)
{
va_list args;
virCommandPtr cmd = NULL;
const char *s;
cmd = iptablesCommandNew(rules, family, action);
virCommandAddArg(cmd, arg);
va_start(args, arg);
while ((s = va_arg(args, const char *)))
virCommandAddArg(cmd, s);
va_end(args);
return iptablesCommandRunAndFree(cmd);
}
/**
* iptablesContextNew:
*
* Create a new IPtable context
*
* Returns a pointer to the new structure or NULL in case of error
*/
iptablesContext *
iptablesContextNew(void)
{
iptablesContext *ctx;
if (VIR_ALLOC(ctx) < 0)
return NULL;
if (!(ctx->input_filter = iptRulesNew("filter", "INPUT")))
goto error;
if (!(ctx->forward_filter = iptRulesNew("filter", "FORWARD")))
goto error;
if (!(ctx->nat_postrouting = iptRulesNew("nat", "POSTROUTING")))
goto error;
if (!(ctx->mangle_postrouting = iptRulesNew("mangle", "POSTROUTING")))
goto error;
return ctx;
error:
iptablesContextFree(ctx);
return NULL;
}
/**
* iptablesContextFree:
* @ctx: pointer to the IP table context
*
* Free the resources associated with an IP table context
*/
void
iptablesContextFree(iptablesContext *ctx)
{
if (ctx->input_filter)
iptRulesFree(ctx->input_filter);
if (ctx->forward_filter)
iptRulesFree(ctx->forward_filter);
if (ctx->nat_postrouting)
iptRulesFree(ctx->nat_postrouting);
if (ctx->mangle_postrouting)
iptRulesFree(ctx->mangle_postrouting);
VIR_FREE(ctx);
}
static int
iptablesInput(iptablesContext *ctx,
int family,
const char *iface,
int port,
int action,
int tcp)
{
char portstr[32];
snprintf(portstr, sizeof(portstr), "%d", port);
portstr[sizeof(portstr) - 1] = '\0';
return iptablesAddRemoveRule(ctx->input_filter,
family,
action,
"--in-interface", iface,
"--protocol", tcp ? "tcp" : "udp",
"--destination-port", portstr,
"--jump", "ACCEPT",
NULL);
}
/**
* iptablesAddTcpInput:
* @ctx: pointer to the IP table context
* @iface: the interface name
* @port: the TCP port to add
*
* Add an input to the IP table allowing access to the given @port on
* the given @iface interface for TCP packets
*
* Returns 0 in case of success or an error code in case of error
*/
int
iptablesAddTcpInput(iptablesContext *ctx,
int family,
const char *iface,
int port)
{
return iptablesInput(ctx, family, iface, port, ADD, 1);
}
/**
* iptablesRemoveTcpInput:
* @ctx: pointer to the IP table context
* @iface: the interface name
* @port: the TCP port to remove
*
* Removes an input from the IP table, hence forbidding access to the given
* @port on the given @iface interface for TCP packets
*
* Returns 0 in case of success or an error code in case of error
*/
int
iptablesRemoveTcpInput(iptablesContext *ctx,
int family,
const char *iface,
int port)
{
return iptablesInput(ctx, family, iface, port, REMOVE, 1);
}
/**
* iptablesAddUdpInput:
* @ctx: pointer to the IP table context
* @iface: the interface name
* @port: the UDP port to add
*
* Add an input to the IP table allowing access to the given @port on
* the given @iface interface for UDP packets
*
* Returns 0 in case of success or an error code in case of error
*/
int
iptablesAddUdpInput(iptablesContext *ctx,
int family,
const char *iface,
int port)
{
return iptablesInput(ctx, family, iface, port, ADD, 0);
}
/**
* iptablesRemoveUdpInput:
* @ctx: pointer to the IP table context
* @iface: the interface name
* @port: the UDP port to remove
*
* Removes an input from the IP table, hence forbidding access to the given
* @port on the given @iface interface for UDP packets
*
* Returns 0 in case of success or an error code in case of error
*/
int
iptablesRemoveUdpInput(iptablesContext *ctx,
int family,
const char *iface,
int port)
{
return iptablesInput(ctx, family, iface, port, REMOVE, 0);
}
static char *iptablesFormatNetwork(virSocketAddr *netaddr,
unsigned int prefix)
{
virSocketAddr network;
char *netstr;
char *ret;
if (!(VIR_SOCKET_ADDR_IS_FAMILY(netaddr, AF_INET) ||
VIR_SOCKET_ADDR_IS_FAMILY(netaddr, AF_INET6))) {
virReportError(VIR_ERR_CONFIG_UNSUPPORTED, "%s",
_("Only IPv4 or IPv6 addresses can be used with iptables"));
return NULL;
}
if (virSocketAddrMaskByPrefix(netaddr, prefix, &network) < 0) {
virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Failure to mask address"));
return NULL;
}
netstr = virSocketAddrFormat(&network);
if (!netstr)
return NULL;
if (virAsprintf(&ret, "%s/%d", netstr, prefix) < 0)
virReportOOMError();
VIR_FREE(netstr);
return ret;
}
/* Allow all traffic coming from the bridge, with a valid network address
* to proceed to WAN
*/
static int
iptablesForwardAllowOut(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev,
int action)
{
int ret;
char *networkstr;
virCommandPtr cmd = NULL;
if (!(networkstr = iptablesFormatNetwork(netaddr, prefix)))
return -1;
cmd = iptablesCommandNew(ctx->forward_filter,
VIR_SOCKET_ADDR_FAMILY(netaddr),
action);
virCommandAddArgList(cmd,
"--source", networkstr,
"--in-interface", iface, NULL);
if (physdev && physdev[0])
virCommandAddArgList(cmd, "--out-interface", physdev, NULL);
virCommandAddArgList(cmd, "--jump", "ACCEPT", NULL);
ret = iptablesCommandRunAndFree(cmd);
VIR_FREE(networkstr);
return ret;
}
/**
* iptablesAddForwardAllowOut:
* @ctx: pointer to the IP table context
* @network: the source network name
* @iface: the source interface name
* @physdev: the physical output device
*
* Add a rule to the IP table context to allow the traffic for the
* network @network via interface @iface to be forwarded to
* @physdev device. This allow the outbound traffic on a bridge.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardAllowOut(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev)
{
return iptablesForwardAllowOut(ctx, netaddr, prefix, iface, physdev, ADD);
}
/**
* iptablesRemoveForwardAllowOut:
* @ctx: pointer to the IP table context
* @network: the source network name
* @iface: the source interface name
* @physdev: the physical output device
*
* Remove a rule from the IP table context hence forbidding forwarding
* of the traffic for the network @network via interface @iface
* to the @physdev device output. This stops the outbound traffic on a bridge.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardAllowOut(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev)
{
return iptablesForwardAllowOut(ctx, netaddr, prefix, iface, physdev, REMOVE);
}
/* Allow all traffic destined to the bridge, with a valid network address
* and associated with an existing connection
*/
static int
iptablesForwardAllowRelatedIn(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev,
int action)
{
int ret;
char *networkstr;
if (!(networkstr = iptablesFormatNetwork(netaddr, prefix)))
return -1;
if (physdev && physdev[0]) {
ret = iptablesAddRemoveRule(ctx->forward_filter,
VIR_SOCKET_ADDR_FAMILY(netaddr),
action,
"--destination", networkstr,
"--in-interface", physdev,
"--out-interface", iface,
"--match", "conntrack",
"--ctstate", "ESTABLISHED,RELATED",
"--jump", "ACCEPT",
NULL);
} else {
ret = iptablesAddRemoveRule(ctx->forward_filter,
VIR_SOCKET_ADDR_FAMILY(netaddr),
action,
"--destination", networkstr,
"--out-interface", iface,
"--match", "conntrack",
"--ctstate", "ESTABLISHED,RELATED",
"--jump", "ACCEPT",
NULL);
}
VIR_FREE(networkstr);
return ret;
}
/**
* iptablesAddForwardAllowRelatedIn:
* @ctx: pointer to the IP table context
* @network: the source network name
* @iface: the output interface name
* @physdev: the physical input device or NULL
*
* Add rules to the IP table context to allow the traffic for the
* network @network on @physdev device to be forwarded to
* interface @iface, if it is part of an existing connection.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardAllowRelatedIn(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev)
{
return iptablesForwardAllowRelatedIn(ctx, netaddr, prefix, iface, physdev, ADD);
}
/**
* iptablesRemoveForwardAllowRelatedIn:
* @ctx: pointer to the IP table context
* @network: the source network name
* @iface: the output interface name
* @physdev: the physical input device or NULL
*
* Remove rules from the IP table context hence forbidding the traffic for
* network @network on @physdev device to be forwarded to
* interface @iface, if it is part of an existing connection.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardAllowRelatedIn(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev)
{
return iptablesForwardAllowRelatedIn(ctx, netaddr, prefix, iface, physdev, REMOVE);
}
/* Allow all traffic destined to the bridge, with a valid network address
*/
static int
iptablesForwardAllowIn(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev,
int action)
{
int ret;
char *networkstr;
if (!(networkstr = iptablesFormatNetwork(netaddr, prefix)))
return -1;
if (physdev && physdev[0]) {
ret = iptablesAddRemoveRule(ctx->forward_filter,
VIR_SOCKET_ADDR_FAMILY(netaddr),
action,
"--destination", networkstr,
"--in-interface", physdev,
"--out-interface", iface,
"--jump", "ACCEPT",
NULL);
} else {
ret = iptablesAddRemoveRule(ctx->forward_filter,
VIR_SOCKET_ADDR_FAMILY(netaddr),
action,
"--destination", networkstr,
"--out-interface", iface,
"--jump", "ACCEPT",
NULL);
}
VIR_FREE(networkstr);
return ret;
}
/**
* iptablesAddForwardAllowIn:
* @ctx: pointer to the IP table context
* @network: the source network name
* @iface: the output interface name
* @physdev: the physical input device or NULL
*
* Add rules to the IP table context to allow the traffic for the
* network @network on @physdev device to be forwarded to
* interface @iface. This allow the inbound traffic on a bridge.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardAllowIn(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev)
{
return iptablesForwardAllowIn(ctx, netaddr, prefix, iface, physdev, ADD);
}
/**
* iptablesRemoveForwardAllowIn:
* @ctx: pointer to the IP table context
* @network: the source network name
* @iface: the output interface name
* @physdev: the physical input device or NULL
*
* Remove rules from the IP table context hence forbidding the traffic for
* network @network on @physdev device to be forwarded to
* interface @iface. This stops the inbound traffic on a bridge.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardAllowIn(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *iface,
const char *physdev)
{
return iptablesForwardAllowIn(ctx, netaddr, prefix, iface, physdev, REMOVE);
}
/* Allow all traffic between guests on the same bridge,
* with a valid network address
*/
static int
iptablesForwardAllowCross(iptablesContext *ctx,
int family,
const char *iface,
int action)
{
return iptablesAddRemoveRule(ctx->forward_filter,
family,
action,
"--in-interface", iface,
"--out-interface", iface,
"--jump", "ACCEPT",
NULL);
}
/**
* iptablesAddForwardAllowCross:
* @ctx: pointer to the IP table context
* @iface: the input/output interface name
*
* Add rules to the IP table context to allow traffic to cross that
* interface. It allows all traffic between guests on the same bridge
* represented by that interface.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardAllowCross(iptablesContext *ctx,
int family,
const char *iface)
{
return iptablesForwardAllowCross(ctx, family, iface, ADD);
}
/**
* iptablesRemoveForwardAllowCross:
* @ctx: pointer to the IP table context
* @iface: the input/output interface name
*
* Remove rules to the IP table context to block traffic to cross that
* interface. It forbids traffic between guests on the same bridge
* represented by that interface.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardAllowCross(iptablesContext *ctx,
int family,
const char *iface)
{
return iptablesForwardAllowCross(ctx, family, iface, REMOVE);
}
/* Drop all traffic trying to forward from the bridge.
* ie the bridge is the in interface
*/
static int
iptablesForwardRejectOut(iptablesContext *ctx,
int family,
const char *iface,
int action)
{
return iptablesAddRemoveRule(ctx->forward_filter,
family,
action,
"--in-interface", iface,
"--jump", "REJECT",
NULL);
}
/**
* iptablesAddForwardRejectOut:
* @ctx: pointer to the IP table context
* @iface: the output interface name
*
* Add rules to the IP table context to forbid all traffic to that
* interface. It forbids forwarding from the bridge to that interface.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardRejectOut(iptablesContext *ctx,
int family,
const char *iface)
{
return iptablesForwardRejectOut(ctx, family, iface, ADD);
}
/**
* iptablesRemoveForwardRejectOut:
* @ctx: pointer to the IP table context
* @iface: the output interface name
*
* Remove rules from the IP table context forbidding all traffic to that
* interface. It reallow forwarding from the bridge to that interface.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardRejectOut(iptablesContext *ctx,
int family,
const char *iface)
{
return iptablesForwardRejectOut(ctx, family, iface, REMOVE);
}
/* Drop all traffic trying to forward to the bridge.
* ie the bridge is the out interface
*/
static int
iptablesForwardRejectIn(iptablesContext *ctx,
int family,
const char *iface,
int action)
{
return iptablesAddRemoveRule(ctx->forward_filter,
family,
action,
"--out-interface", iface,
"--jump", "REJECT",
NULL);
}
/**
* iptablesAddForwardRejectIn:
* @ctx: pointer to the IP table context
* @iface: the input interface name
*
* Add rules to the IP table context to forbid all traffic from that
* interface. It forbids forwarding from that interface to the bridge.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardRejectIn(iptablesContext *ctx,
int family,
const char *iface)
{
return iptablesForwardRejectIn(ctx, family, iface, ADD);
}
/**
* iptablesRemoveForwardRejectIn:
* @ctx: pointer to the IP table context
* @iface: the input interface name
*
* Remove rules from the IP table context forbidding all traffic from that
* interface. It allows forwarding from that interface to the bridge.
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardRejectIn(iptablesContext *ctx,
int family,
const char *iface)
{
return iptablesForwardRejectIn(ctx, family, iface, REMOVE);
}
/* Masquerade all traffic coming from the network associated
* with the bridge
*/
static int
iptablesForwardMasquerade(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *physdev,
virSocketAddrRangePtr addr,
virPortRangePtr port,
const char *protocol,
int action)
{
int ret = -1;
char *networkstr = NULL;
char *addrStartStr = NULL;
char *addrEndStr = NULL;
char *portRangeStr = NULL;
char *natRangeStr = NULL;
virCommandPtr cmd = NULL;
if (!(networkstr = iptablesFormatNetwork(netaddr, prefix)))
return -1;
if (!VIR_SOCKET_ADDR_IS_FAMILY(netaddr, AF_INET)) {
/* Higher level code *should* guaranteee it's impossible to get here. */
virReportError(VIR_ERR_INTERNAL_ERROR,
_("Attempted to NAT '%s'. NAT is only supported for IPv4."),
networkstr);
goto cleanup;
}
if (VIR_SOCKET_ADDR_IS_FAMILY(&addr->start, AF_INET)) {
if (!(addrStartStr = virSocketAddrFormat(&addr->start)))
goto cleanup;
if (VIR_SOCKET_ADDR_IS_FAMILY(&addr->end, AF_INET)) {
if (!(addrEndStr = virSocketAddrFormat(&addr->end)))
goto cleanup;
}
}
cmd = iptablesCommandNew(ctx->nat_postrouting, AF_INET, action);
virCommandAddArgList(cmd, "--source", networkstr, NULL);
if (protocol && protocol[0])
virCommandAddArgList(cmd, "-p", protocol, NULL);
virCommandAddArgList(cmd, "!", "--destination", networkstr, NULL);
if (physdev && physdev[0])
virCommandAddArgList(cmd, "--out-interface", physdev, NULL);
if (protocol && protocol[0]) {
if (port->start == 0 && port->end == 0) {
port->start = 1024;
port->end = 65535;
}
if (port->start < port->end && port->end < 65536) {
if (virAsprintf(&portRangeStr, ":%u-%u",
port->start, port->end) < 0) {
virReportOOMError();
goto cleanup;
}
} else {
virReportError(VIR_ERR_INTERNAL_ERROR,
_("Invalid port range '%u-%u'."),
port->start, port->end);
}
}
/* Use --jump SNAT if public addr is specified */
if (addrStartStr && addrStartStr[0]) {
int r = 0;
if (addrEndStr && addrEndStr[0]) {
r = virAsprintf(&natRangeStr, "%s-%s%s", addrStartStr, addrEndStr,
portRangeStr ? portRangeStr : "");
} else {
r = virAsprintf(&natRangeStr, "%s%s", addrStartStr,
portRangeStr ? portRangeStr : "");
}
if (r < 0) {
virReportOOMError();
goto cleanup;
}
virCommandAddArgList(cmd, "--jump", "SNAT",
"--to-source", natRangeStr, NULL);
} else {
virCommandAddArgList(cmd, "--jump", "MASQUERADE", NULL);
if (portRangeStr && portRangeStr[0])
virCommandAddArgList(cmd, "--to-ports", &portRangeStr[1], NULL);
}
ret = virCommandRun(cmd, NULL);
cleanup:
virCommandFree(cmd);
VIR_FREE(networkstr);
VIR_FREE(addrStartStr);
VIR_FREE(addrEndStr);
VIR_FREE(portRangeStr);
VIR_FREE(natRangeStr);
return ret;
}
/**
* iptablesAddForwardMasquerade:
* @ctx: pointer to the IP table context
* @network: the source network name
* @physdev: the physical input device or NULL
* @protocol: the network protocol or NULL
*
* Add rules to the IP table context to allow masquerading
* network @network on @physdev. This allow the bridge to
* masquerade for that network (on @physdev).
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesAddForwardMasquerade(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *physdev,
virSocketAddrRangePtr addr,
virPortRangePtr port,
const char *protocol)
{
return iptablesForwardMasquerade(ctx, netaddr, prefix, physdev, addr, port,
protocol, ADD);
}
/**
* iptablesRemoveForwardMasquerade:
* @ctx: pointer to the IP table context
* @network: the source network name
* @physdev: the physical input device or NULL
* @protocol: the network protocol or NULL
*
* Remove rules from the IP table context to stop masquerading
* network @network on @physdev. This stops the bridge from
* masquerading for that network (on @physdev).
*
* Returns 0 in case of success or an error code otherwise
*/
int
iptablesRemoveForwardMasquerade(iptablesContext *ctx,
virSocketAddr *netaddr,
unsigned int prefix,
const char *physdev,
virSocketAddrRangePtr addr,
virPortRangePtr port,
const char *protocol)
{
return iptablesForwardMasquerade(ctx, netaddr, prefix, physdev, addr, port,
protocol, REMOVE);
}
static int
iptablesOutputFixUdpChecksum(iptablesContext *ctx,
const char *iface,
int port,
int action)
{
char portstr[32];
snprintf(portstr, sizeof(portstr), "%d", port);
portstr[sizeof(portstr) - 1] = '\0';
return iptablesAddRemoveRule(ctx->mangle_postrouting,
AF_INET,
action,
"--out-interface", iface,
"--protocol", "udp",
"--destination-port", portstr,
"--jump", "CHECKSUM", "--checksum-fill",
NULL);
}
/**
* iptablesAddOutputFixUdpChecksum:
* @ctx: pointer to the IP table context
* @iface: the interface name
* @port: the UDP port to match
*
* Add a rule to the mangle table's POSTROUTING chain that fixes up the
* checksum of packets with the given destination @port.
* the given @iface interface for TCP packets.
*
* Returns 0 in case of success or an error code in case of error.
* (NB: if the system's iptables does not support checksum mangling,
* this will return an error, which should be ignored.)
*/
int
iptablesAddOutputFixUdpChecksum(iptablesContext *ctx,
const char *iface,
int port)
{
return iptablesOutputFixUdpChecksum(ctx, iface, port, ADD);
}
/**
* iptablesRemoveOutputFixUdpChecksum:
* @ctx: pointer to the IP table context
* @iface: the interface name
* @port: the UDP port of the rule to remove
*
* Removes the checksum fixup rule that was previous added with
* iptablesAddOutputFixUdpChecksum.
*
* Returns 0 in case of success or an error code in case of error
* (again, if iptables doesn't support checksum fixup, this will
* return an error, which should be ignored)
*/
int
iptablesRemoveOutputFixUdpChecksum(iptablesContext *ctx,
const char *iface,
int port)
{
return iptablesOutputFixUdpChecksum(ctx, iface, port, REMOVE);
}