/* firewall_rules_dlg.c * * 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. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ /* * Generate firewall ACL rules based on packet addresses and ports. * For directional rules, an outside interface is assumed. * * There may be better ways to present the information, e.g. all rules * in one huge text window, or some sort of tree view. */ /* * To add a new product, add syntax functions modify the products[] array. * * To add a new syntax function, add its prototype above the products[] * array, and add the function below with all the others. */ /* Copied from gtk/firewall_rules.c */ #include "config.h" #include #include "epan/address.h" #include "firewall_rules.h" static void sf_ipfw_mac(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_netfilter_mac(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ios_std_ipv4(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ios_ext_ipv4(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ipfilter_ipv4(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ipfw_ipv4(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_netfilter_ipv4(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_pf_ipv4(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); /* XXX - Can you addresses-only filters using WFW/netsh? */ static void sf_ios_ext_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ipfilter_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ipfw_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_netfilter_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_pf_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_netsh_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ios_ext_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ipfilter_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_ipfw_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_netfilter_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_pf_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); static void sf_netsh_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny); typedef struct _fw_product_t { const char *name; const char *rule_hint; const char *comment_pfx; syntax_func mac_func; syntax_func ipv4_func; syntax_func port_func; syntax_func ipv4_port_func; gboolean does_inbound; } fw_product; static fw_product products[] = { { "Cisco IOS (standard)", "Change NUMBER to a valid ACL number.", "!", NULL, sf_ios_std_ipv4, NULL, NULL, FALSE }, { "Cisco IOS (extended)", "Change NUMBER to a valid ACL number.", "!", NULL, sf_ios_ext_ipv4, sf_ios_ext_port, sf_ios_ext_ipv4_port, TRUE }, { "IP Filter (ipfilter)", "Change le0 to a valid interface if needed.", "#", NULL, sf_ipfilter_ipv4, sf_ipfilter_port, sf_ipfilter_ipv4_port, TRUE }, { "IPFirewall (ipfw)", "", "#", sf_ipfw_mac, sf_ipfw_ipv4, sf_ipfw_port, sf_ipfw_ipv4_port, TRUE }, { "Netfilter (iptables)", "Change eth0 to a valid interface if needed.", "#", sf_netfilter_mac, sf_netfilter_ipv4, sf_netfilter_port, sf_netfilter_ipv4_port, TRUE }, { "Packet Filter (pf)", "$ext_if should be set to a valid interface.", "#", NULL, sf_pf_ipv4, sf_pf_port, sf_pf_ipv4_port, TRUE }, { "Windows Firewall (netsh)", "", "#", NULL, NULL, sf_netsh_port, sf_netsh_ipv4_port, FALSE } }; #define NUM_PRODS (sizeof(products) / sizeof(fw_product)) size_t firewall_product_count(void) { return NUM_PRODS; } const char *firewall_product_name(size_t product_idx) { if (product_idx >= NUM_PRODS) return "Unknown"; return products[product_idx].name; } const char *firewall_product_rule_hint(size_t product_idx) { if (product_idx >= NUM_PRODS) return ""; return products[product_idx].rule_hint; } const char *firewall_product_comment_prefix(size_t product_idx) { if (product_idx >= NUM_PRODS) return ""; return products[product_idx].comment_pfx; } syntax_func firewall_product_mac_func(size_t product_idx) { if (product_idx >= NUM_PRODS) return NULL; return products[product_idx].mac_func; } syntax_func firewall_product_ipv4_func(size_t product_idx) { if (product_idx >= NUM_PRODS) return NULL; return products[product_idx].ipv4_func; } syntax_func firewall_product_port_func(size_t product_idx) { if (product_idx >= NUM_PRODS) return NULL; return products[product_idx].port_func; } syntax_func firewall_product_ipv4_port_func(size_t product_idx) { if (product_idx >= NUM_PRODS) return NULL; return products[product_idx].ipv4_port_func; } gboolean firewall_product_does_inbound(size_t product_idx) { if (product_idx >= NUM_PRODS) return FALSE; return products[product_idx].does_inbound; } /* MAC */ #define IPFW_DENY (deny ? "deny" : "allow") #define IPFW_IN (inbound ? "in" : "out") static void sf_ipfw_mac(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "add %s MAC %s any %s", IPFW_DENY, addr, IPFW_IN); } #define NF_DROP (deny ? "DROP" : "ACCEPT") #define NF_INPUT (inbound ? "INPUT" : "OUTPUT") static void sf_netfilter_mac(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "iptables --append %s --in-interface eth0 --mac-source %s --jump %s", NF_INPUT, addr, NF_DROP); } /* IPv4 */ #define IOS_DENY (deny ? "deny" : "permit") static void sf_ios_std_ipv4(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound _U_, gboolean deny) { g_string_append_printf(rtxt, "access-list NUMBER %s host %s", IOS_DENY, addr); } static void sf_ios_ext_ipv4(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { if (inbound) g_string_append_printf(rtxt, "access-list NUMBER %s ip host %s any", IOS_DENY, addr); else g_string_append_printf(rtxt, "access-list NUMBER %s ip any host %s", IOS_DENY, addr); } #define IPFILTER_DENY (deny ? "block" : "pass") #define IPFILTER_IN (inbound ? "in" : "out") static void sf_ipfilter_ipv4(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "%s %s on le0 from %s to any", IPFILTER_DENY, IPFILTER_IN, addr); } static void sf_ipfw_ipv4(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "add %s ip from %s to any %s", IPFW_DENY, addr, IPFW_IN); } #define NF_ADDR_DIR (inbound ? "--source" : "--destination") static void sf_netfilter_ipv4(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "iptables --append %s --in-interface eth0 %s %s/32 --jump %s", NF_INPUT, NF_ADDR_DIR, addr, NF_DROP); } #define PF_DENY (deny ? "block" : "pass") #define PF_IN (inbound ? "in" : "out") static void sf_pf_ipv4(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "%s %s quick on $ext_if from %s to any", PF_DENY, PF_IN, addr); } /* Port */ #define RT_TCP_UDP (ptype == PT_TCP ? "tcp" : "udp") static void sf_ios_ext_port(GString *rtxt, gchar *addr _U_, guint32 port, port_type ptype, gboolean inbound _U_, gboolean deny) { g_string_append_printf(rtxt, "access-list NUMBER %s %s any any eq %u", IOS_DENY, RT_TCP_UDP, port); } static void sf_ipfilter_port(GString *rtxt, gchar *addr _U_, guint32 port, port_type ptype _U_, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "%s %s on le0 proto %s from any to any port = %u", IPFILTER_DENY, IPFILTER_IN, RT_TCP_UDP, port); } static void sf_ipfw_port(GString *rtxt, gchar *addr _U_, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "add %s %s from any to any %u %s", IPFW_DENY, RT_TCP_UDP, port, IPFW_IN); } #define NF_PORT_DIR (inbound ? "--source-port" : "--destination-port") static void sf_netfilter_port(GString *rtxt, gchar *addr _U_, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "iptables --append %s --in-interface eth0 --protocol %s %s %u --jump %s", NF_INPUT, RT_TCP_UDP, NF_PORT_DIR, port, NF_DROP); } static void sf_pf_port(GString *rtxt, gchar *addr _U_, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "%s %s quick on $ext_if proto %s from any to any port %u", PF_DENY, PF_IN, RT_TCP_UDP, port); } #define NETSH_DENY (deny ? "DISABLE" : "ENABLE") static void sf_netsh_port(GString *rtxt, gchar *addr _U_, guint32 port, port_type ptype, gboolean inbound _U_, gboolean deny) { g_string_append_printf(rtxt, "add portopening %s %u Wireshark %s", RT_TCP_UDP, port, NETSH_DENY); } /* IPv4 + port */ static void sf_ios_ext_ipv4_port(GString *rtxt, gchar *addr, guint32 port _U_, port_type ptype _U_, gboolean inbound, gboolean deny) { if (inbound) g_string_append_printf(rtxt, "access-list NUMBER %s %s host %s any eq %u", IOS_DENY, RT_TCP_UDP, addr, port); else g_string_append_printf(rtxt, "access-list NUMBER %s %s any host %s eq %u", IOS_DENY, RT_TCP_UDP, addr, port); } static void sf_ipfilter_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { if (inbound) g_string_append_printf(rtxt, "%s %s on le0 proto %s from %s to any port = %u", IPFILTER_DENY, IPFILTER_IN, RT_TCP_UDP, addr, port); else g_string_append_printf(rtxt, "%s %s on le0 proto %s from any to %s port = %u", IPFILTER_DENY, IPFILTER_IN, RT_TCP_UDP, addr, port); } static void sf_ipfw_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "add %s %s from %s to any %u %s", IPFW_DENY, RT_TCP_UDP, addr, port, IPFW_IN); } static void sf_pf_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "%s %s quick on $ext_if proto %s from %s to any port %u", PF_DENY, PF_IN, RT_TCP_UDP, addr, port); } static void sf_netfilter_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound, gboolean deny) { g_string_append_printf(rtxt, "iptables --append %s --in-interface eth0 --protocol %s %s %s/32 %s %u --jump %s", NF_INPUT, RT_TCP_UDP, NF_ADDR_DIR, addr, NF_PORT_DIR, port, NF_DROP); } static void sf_netsh_ipv4_port(GString *rtxt, gchar *addr, guint32 port, port_type ptype, gboolean inbound _U_, gboolean deny) { g_string_append_printf(rtxt, "add portopening %s %u Wireshark %s %s", RT_TCP_UDP, port, NETSH_DENY, addr); } /* * Editor modelines - http://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 4 * tab-width: 8 * indent-tabs-mode: nil * End: * * vi: set shiftwidth=4 tabstop=8 expandtab: * :indentSize=4:tabSize=8:noTabs=true: */