/* * viriptables.c: helper APIs for managing iptables * * Copyright (C) 2007-2014 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 * . */ #include #include #include #include #include #include #include #include "internal.h" #include "viriptables.h" #include "vircommand.h" #include "viralloc.h" #include "virerror.h" #include "virfile.h" #include "virlog.h" #include "virthread.h" #include "virstring.h" #include "virutil.h" #include "virhash.h" VIR_LOG_INIT("util.iptables"); #define VIR_FROM_THIS VIR_FROM_NONE enum { ADD = 0, REMOVE }; typedef struct { const char *parent; const char *child; } iptablesGlobalChain; typedef struct { virFirewallLayer layer; const char *table; iptablesGlobalChain *chains; size_t nchains; bool *changed; } iptablesGlobalChainData; static int iptablesPrivateChainCreate(virFirewallPtr fw, virFirewallLayer layer, const char *const *lines, void *opaque) { iptablesGlobalChainData *data = opaque; virHashTablePtr chains = NULL; virHashTablePtr links = NULL; const char *const *tmp; int ret = -1; size_t i; if (!(chains = virHashCreate(50, NULL))) goto cleanup; if (!(links = virHashCreate(50, NULL))) goto cleanup; tmp = lines; while (tmp && *tmp) { if (STRPREFIX(*tmp, "-N ")) { /* eg "-N LIBVIRT_INP" */ if (virHashUpdateEntry(chains, *tmp + 3, (void *)0x1) < 0) goto cleanup; } else if (STRPREFIX(*tmp, "-A ")) { /* eg "-A INPUT -j LIBVIRT_INP" */ char *sep = strchr(*tmp + 3, ' '); if (sep) { *sep = '\0'; if (STRPREFIX(sep + 1, "-j ")) { if (virHashUpdateEntry(links, sep + 4, (char *)*tmp + 3) < 0) goto cleanup; } } } tmp++; } for (i = 0; i < data->nchains; i++) { const char *from; if (!virHashLookup(chains, data->chains[i].child)) { virFirewallAddRule(fw, layer, "--table", data->table, "--new-chain", data->chains[i].child, NULL); *data->changed = true; } from = virHashLookup(links, data->chains[i].child); if (!from || STRNEQ(from, data->chains[i].parent)) virFirewallAddRule(fw, layer, "--table", data->table, "--insert", data->chains[i].parent, "--jump", data->chains[i].child, NULL); } ret = 0; cleanup: virHashFree(chains); virHashFree(links); return ret; } int iptablesSetupPrivateChains(void) { virFirewallPtr fw = NULL; int ret = -1; iptablesGlobalChain filter_chains[] = { {"INPUT", "LIBVIRT_INP"}, {"OUTPUT", "LIBVIRT_OUT"}, {"FORWARD", "LIBVIRT_FWO"}, {"FORWARD", "LIBVIRT_FWI"}, {"FORWARD", "LIBVIRT_FWX"}, }; iptablesGlobalChain natmangle_chains[] = { {"POSTROUTING", "LIBVIRT_PRT"}, }; bool changed = false; iptablesGlobalChainData data[] = { { VIR_FIREWALL_LAYER_IPV4, "filter", filter_chains, ARRAY_CARDINALITY(filter_chains), &changed }, { VIR_FIREWALL_LAYER_IPV4, "nat", natmangle_chains, ARRAY_CARDINALITY(natmangle_chains), &changed }, { VIR_FIREWALL_LAYER_IPV4, "mangle", natmangle_chains, ARRAY_CARDINALITY(natmangle_chains), &changed }, { VIR_FIREWALL_LAYER_IPV6, "filter", filter_chains, ARRAY_CARDINALITY(filter_chains), &changed }, { VIR_FIREWALL_LAYER_IPV6, "nat", natmangle_chains, ARRAY_CARDINALITY(natmangle_chains), &changed }, { VIR_FIREWALL_LAYER_IPV6, "mangle", natmangle_chains, ARRAY_CARDINALITY(natmangle_chains), &changed }, }; size_t i; fw = virFirewallNew(); virFirewallStartTransaction(fw, 0); for (i = 0; i < ARRAY_CARDINALITY(data); i++) virFirewallAddRuleFull(fw, data[i].layer, false, iptablesPrivateChainCreate, &(data[i]), "--table", data[i].table, "--list-rules", NULL); if (virFirewallApply(fw) < 0) goto cleanup; ret = changed ? 1 : 0; cleanup: virFirewallFree(fw); return ret; } static void iptablesInput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port, int action, int tcp) { char portstr[32]; snprintf(portstr, sizeof(portstr), "%d", port); portstr[sizeof(portstr) - 1] = '\0'; virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "INPUT", "--in-interface", iface, "--protocol", tcp ? "tcp" : "udp", "--destination-port", portstr, "--jump", "ACCEPT", NULL); } static void iptablesOutput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port, int action, int tcp) { char portstr[32]; snprintf(portstr, sizeof(portstr), "%d", port); portstr[sizeof(portstr) - 1] = '\0'; virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "OUTPUT", "--out-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 */ void iptablesAddTcpInput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port) { iptablesInput(fw, layer, 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 */ void iptablesRemoveTcpInput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port) { iptablesInput(fw, layer, 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 */ void iptablesAddUdpInput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port) { iptablesInput(fw, layer, 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 */ void iptablesRemoveUdpInput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port) { return iptablesInput(fw, layer, iface, port, REMOVE, 0); } /** * iptablesAddUdpOutput: * @ctx: pointer to the IP table context * @iface: the interface name * @port: the UDP port to add * * Add an output to the IP table allowing access to the given @port from * the given @iface interface for UDP packets */ void iptablesAddUdpOutput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port) { iptablesOutput(fw, layer, iface, port, ADD, 0); } /** * iptablesRemoveUdpOutput: * @ctx: pointer to the IP table context * @iface: the interface name * @port: the UDP port to remove * * Removes an output from the IP table, hence forbidding access to the given * @port from the given @iface interface for UDP packets */ void iptablesRemoveUdpOutput(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int port) { iptablesOutput(fw, layer, iface, port, REMOVE, 0); } static char *iptablesFormatNetwork(virSocketAddr *netaddr, unsigned int prefix) { virSocketAddr network; VIR_AUTOFREE(char *) netstr = NULL; 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; ignore_value(virAsprintf(&ret, "%s/%d", netstr, prefix)); return ret; } /* Allow all traffic coming from the bridge, with a valid network address * to proceed to WAN */ static int iptablesForwardAllowOut(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev, int action) { VIR_AUTOFREE(char *) networkstr = NULL; virFirewallLayer layer = VIR_SOCKET_ADDR_FAMILY(netaddr) == AF_INET ? VIR_FIREWALL_LAYER_IPV4 : VIR_FIREWALL_LAYER_IPV6; if (!(networkstr = iptablesFormatNetwork(netaddr, prefix))) return -1; if (physdev && physdev[0]) virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--source", networkstr, "--in-interface", iface, "--out-interface", physdev, "--jump", "ACCEPT", NULL); else virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--source", networkstr, "--in-interface", iface, "--jump", "ACCEPT", NULL); return 0; } /** * 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev) { return iptablesForwardAllowOut(fw, 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev) { return iptablesForwardAllowOut(fw, 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev, int action) { virFirewallLayer layer = VIR_SOCKET_ADDR_FAMILY(netaddr) == AF_INET ? VIR_FIREWALL_LAYER_IPV4 : VIR_FIREWALL_LAYER_IPV6; VIR_AUTOFREE(char *) networkstr = NULL; if (!(networkstr = iptablesFormatNetwork(netaddr, prefix))) return -1; if (physdev && physdev[0]) virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--destination", networkstr, "--in-interface", physdev, "--out-interface", iface, "--match", "conntrack", "--ctstate", "ESTABLISHED,RELATED", "--jump", "ACCEPT", NULL); else virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--destination", networkstr, "--out-interface", iface, "--match", "conntrack", "--ctstate", "ESTABLISHED,RELATED", "--jump", "ACCEPT", NULL); return 0; } /** * 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev) { return iptablesForwardAllowRelatedIn(fw, 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev) { return iptablesForwardAllowRelatedIn(fw, netaddr, prefix, iface, physdev, REMOVE); } /* Allow all traffic destined to the bridge, with a valid network address */ static int iptablesForwardAllowIn(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev, int action) { virFirewallLayer layer = VIR_SOCKET_ADDR_FAMILY(netaddr) == AF_INET ? VIR_FIREWALL_LAYER_IPV4 : VIR_FIREWALL_LAYER_IPV6; VIR_AUTOFREE(char *) networkstr = NULL; if (!(networkstr = iptablesFormatNetwork(netaddr, prefix))) return -1; if (physdev && physdev[0]) virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--destination", networkstr, "--in-interface", physdev, "--out-interface", iface, "--jump", "ACCEPT", NULL); else virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--destination", networkstr, "--out-interface", iface, "--jump", "ACCEPT", NULL); return 0; } /** * 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev) { return iptablesForwardAllowIn(fw, 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *iface, const char *physdev) { return iptablesForwardAllowIn(fw, netaddr, prefix, iface, physdev, REMOVE); } static void iptablesForwardAllowCross(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int action) { virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--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 */ void iptablesAddForwardAllowCross(virFirewallPtr fw, virFirewallLayer layer, const char *iface) { iptablesForwardAllowCross(fw, layer, 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 */ void iptablesRemoveForwardAllowCross(virFirewallPtr fw, virFirewallLayer layer, const char *iface) { iptablesForwardAllowCross(fw, layer, iface, REMOVE); } static void iptablesForwardRejectOut(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int action) { virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "delete", "FORWARD", "--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 */ void iptablesAddForwardRejectOut(virFirewallPtr fw, virFirewallLayer layer, const char *iface) { iptablesForwardRejectOut(fw, layer, 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 */ void iptablesRemoveForwardRejectOut(virFirewallPtr fw, virFirewallLayer layer, const char *iface) { iptablesForwardRejectOut(fw, layer, iface, REMOVE); } static void iptablesForwardRejectIn(virFirewallPtr fw, virFirewallLayer layer, const char *iface, int action) { virFirewallAddRule(fw, layer, "--table", "filter", action == ADD ? "--insert" : "--delete", "FORWARD", "--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 */ void iptablesAddForwardRejectIn(virFirewallPtr fw, virFirewallLayer layer, const char *iface) { iptablesForwardRejectIn(fw, layer, 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 */ void iptablesRemoveForwardRejectIn(virFirewallPtr fw, virFirewallLayer layer, const char *iface) { iptablesForwardRejectIn(fw, layer, iface, REMOVE); } /* Masquerade all traffic coming from the network associated * with the bridge */ static int iptablesForwardMasquerade(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *physdev, virSocketAddrRangePtr addr, virPortRangePtr port, const char *protocol, int action) { VIR_AUTOFREE(char *) networkstr = NULL; VIR_AUTOFREE(char *) addrStartStr = NULL; VIR_AUTOFREE(char *) addrEndStr = NULL; VIR_AUTOFREE(char *) portRangeStr = NULL; VIR_AUTOFREE(char *) natRangeStr = NULL; virFirewallRulePtr rule; 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); return -1; } if (VIR_SOCKET_ADDR_IS_FAMILY(&addr->start, AF_INET)) { if (!(addrStartStr = virSocketAddrFormat(&addr->start))) return -1; if (VIR_SOCKET_ADDR_IS_FAMILY(&addr->end, AF_INET)) { if (!(addrEndStr = virSocketAddrFormat(&addr->end))) return -1; } } if (protocol && protocol[0]) { rule = virFirewallAddRule(fw, VIR_FIREWALL_LAYER_IPV4, "--table", "nat", action == ADD ? "--insert" : "--delete", "POSTROUTING", "--source", networkstr, "-p", protocol, "!", "--destination", networkstr, NULL); } else { rule = virFirewallAddRule(fw, VIR_FIREWALL_LAYER_IPV4, "--table", "nat", action == ADD ? "--insert" : "--delete", "POSTROUTING", "--source", networkstr, "!", "--destination", networkstr, NULL); } if (physdev && physdev[0]) virFirewallRuleAddArgList(fw, rule, "--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) return -1; } 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) return -1; virFirewallRuleAddArgList(fw, rule, "--jump", "SNAT", "--to-source", natRangeStr, NULL); } else { virFirewallRuleAddArgList(fw, rule, "--jump", "MASQUERADE", NULL); if (portRangeStr && portRangeStr[0]) virFirewallRuleAddArgList(fw, rule, "--to-ports", &portRangeStr[1], NULL); } return 0; } /** * 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *physdev, virSocketAddrRangePtr addr, virPortRangePtr port, const char *protocol) { return iptablesForwardMasquerade(fw, 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(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *physdev, virSocketAddrRangePtr addr, virPortRangePtr port, const char *protocol) { return iptablesForwardMasquerade(fw, netaddr, prefix, physdev, addr, port, protocol, REMOVE); } /* Don't masquerade traffic coming from the network associated with the bridge * if said traffic targets @destaddr. */ static int iptablesForwardDontMasquerade(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *physdev, const char *destaddr, int action) { VIR_AUTOFREE(char *) networkstr = 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); return -1; } if (physdev && physdev[0]) virFirewallAddRule(fw, VIR_FIREWALL_LAYER_IPV4, "--table", "nat", action == ADD ? "--insert" : "--delete", "POSTROUTING", "--out-interface", physdev, "--source", networkstr, "--destination", destaddr, "--jump", "RETURN", NULL); else virFirewallAddRule(fw, VIR_FIREWALL_LAYER_IPV4, "--table", "nat", action == ADD ? "--insert" : "--delete", "POSTROUTING", "--source", networkstr, "--destination", destaddr, "--jump", "RETURN", NULL); return 0; } /** * iptablesAddDontMasquerade: * @netaddr: the source network name * @prefix: prefix (# of 1 bits) of netmask to apply to @netaddr * @physdev: the physical output device or NULL * @destaddr: the destination network not to masquerade for * * Add rules to the IP table context to avoid masquerading from * @netaddr/@prefix to @destaddr on @physdev. @destaddr must be in a format * directly consumable by iptables, it must not depend on user input or * configuration. * * Returns 0 in case of success or an error code otherwise. */ int iptablesAddDontMasquerade(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *physdev, const char *destaddr) { return iptablesForwardDontMasquerade(fw, netaddr, prefix, physdev, destaddr, ADD); } /** * iptablesRemoveDontMasquerade: * @netaddr: the source network name * @prefix: prefix (# of 1 bits) of netmask to apply to @netaddr * @physdev: the physical output device or NULL * @destaddr: the destination network not to masquerade for * * Remove rules from the IP table context that prevent masquerading from * @netaddr/@prefix to @destaddr on @physdev. @destaddr must be in a format * directly consumable by iptables, it must not depend on user input or * configuration. * * Returns 0 in case of success or an error code otherwise. */ int iptablesRemoveDontMasquerade(virFirewallPtr fw, virSocketAddr *netaddr, unsigned int prefix, const char *physdev, const char *destaddr) { return iptablesForwardDontMasquerade(fw, netaddr, prefix, physdev, destaddr, REMOVE); } static void iptablesOutputFixUdpChecksum(virFirewallPtr fw, const char *iface, int port, int action) { char portstr[32]; snprintf(portstr, sizeof(portstr), "%d", port); portstr[sizeof(portstr) - 1] = '\0'; virFirewallAddRule(fw, VIR_FIREWALL_LAYER_IPV4, "--table", "mangle", action == ADD ? "--insert" : "--delete", "POSTROUTING", "--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. * */ void iptablesAddOutputFixUdpChecksum(virFirewallPtr fw, const char *iface, int port) { iptablesOutputFixUdpChecksum(fw, 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. */ void iptablesRemoveOutputFixUdpChecksum(virFirewallPtr fw, const char *iface, int port) { iptablesOutputFixUdpChecksum(fw, iface, port, REMOVE); }