/**************************************************************************** * apps/system/iptables/iptables.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include "argtable3.h" #include "netutils/netlib.h" /**************************************************************************** * Private Types ****************************************************************************/ /* TODO: Our getopt(), which argtable3 depends, does not support nonoptions * in the middle, so commands like 'iptables -I chain rulenum -j MASQUERADE' * cannot be supported, because the 'rulenum' will stop getopt() logic and * the -j option will never be parsed. Although we write 'rulenum' option * here, it may not work well, but it will work when our getopt() is updated. */ struct iptables_args_s { FAR struct arg_str *table; FAR struct arg_str *append_chain; FAR struct arg_str *insert_chain; FAR struct arg_str *delete_chain; FAR struct arg_str *flush_chain; FAR struct arg_str *list_chain; FAR struct arg_int *rulenum; FAR struct arg_str *target; FAR struct arg_str *outifname; FAR struct arg_end *end; }; enum iptables_command_e { COMMAND_APPEND, COMMAND_INSERT, COMMAND_DELETE, COMMAND_FLUSH, COMMAND_LIST, COMMAND_NUM, }; struct iptables_command_s { enum iptables_command_e cmd; enum nf_inet_hooks hook; int rulenum; }; /**************************************************************************** * Private Data ****************************************************************************/ static FAR const char *g_hooknames[] = { "PREROUTING", "INPUT", "FORWARD", "OUTPUT", "POSTROUTING" }; /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: iptables_showusage * * Description: * Show usage of the demo program * ****************************************************************************/ static void iptables_showusage(FAR const char *progname, FAR void** argtable) { printf("USAGE: %s -t table -[AD] chain rule-specification\n", progname); printf(" %s -t table -I chain [rulenum] rule-specification\n", progname); printf(" %s -t table -D chain rulenum\n", progname); printf(" %s -t table -[FL] [chain]\n", progname); printf("iptables command:\n"); arg_print_glossary(stdout, argtable, NULL); } /**************************************************************************** * Name: iptables_parse_hook * * Description: * Get hook from string * ****************************************************************************/ static enum nf_inet_hooks iptables_parse_hook(FAR const char *str) { unsigned int hook; if (str == NULL || strlen(str) == 0) /* Might be no input (-F/-L). */ { return NF_INET_NUMHOOKS; } for (hook = 0; hook < NF_INET_NUMHOOKS; hook++) { if (strcmp(str, g_hooknames[hook]) == 0) { return hook; } } printf("Failed to parse hook: %s, default to %d\n", str, NF_INET_NUMHOOKS); return NF_INET_NUMHOOKS; /* Failed to parse. */ } /**************************************************************************** * Name: iptables_command * * Description: * Get command from arg list * ****************************************************************************/ static struct iptables_command_s iptables_command(FAR const struct iptables_args_s *args) { struct iptables_command_s ret = { COMMAND_NUM, NF_INET_NUMHOOKS, -1 }; if (args->rulenum->count > 0) { ret.rulenum = *args->rulenum->ival; } /* Flush & list with no chain specified will result in count > 0 and empty * string in sval[0], then we map the hook to NF_INET_NUMHOOKS. */ if (args->flush_chain->count > 0) { ret.cmd = COMMAND_FLUSH; ret.hook = iptables_parse_hook(args->flush_chain->sval[0]); } else if (args->list_chain->count > 0) { ret.cmd = COMMAND_LIST; ret.hook = iptables_parse_hook(args->list_chain->sval[0]); } else if (args->append_chain->count > 0) { ret.cmd = COMMAND_APPEND; ret.hook = iptables_parse_hook(args->append_chain->sval[0]); } else if (args->insert_chain->count > 0) { ret.cmd = COMMAND_INSERT; ret.hook = iptables_parse_hook(args->insert_chain->sval[0]); ret.rulenum = MAX(ret.rulenum, 1); } else if (args->delete_chain->count > 0) { ret.cmd = COMMAND_DELETE; ret.hook = iptables_parse_hook(args->delete_chain->sval[0]); } return ret; } /**************************************************************************** * Name: iptables_addr2str * * Description: * Format address and mask to ip/preflen string. * ****************************************************************************/ static FAR char *iptables_addr2str(struct in_addr addr, struct in_addr msk, FAR char *buf, size_t bufflen) { unsigned int preflen = popcount(msk.s_addr); if (preflen != 0) { snprintf(buf, bufflen, "%s/%d", inet_ntoa(addr), preflen); } else { snprintf(buf, bufflen, "anywhere"); } return buf; } /**************************************************************************** * Name: iptables_print_chain * * Description: * Print all rules in a chain * ****************************************************************************/ static void iptables_print_chain(FAR const struct ipt_replace *repl, enum nf_inet_hooks hook) { const char fmt[] = "%12s %4s %4s %16s %16s\n"; char src[INET_ADDRSTRLEN]; char dst[INET_ADDRSTRLEN]; FAR struct ipt_entry *entry; FAR uint8_t *head = (FAR uint8_t *)repl->entries + repl->hook_entry[hook]; int size = repl->underflow[hook] - repl->hook_entry[hook]; printf("Chain %s\n", g_hooknames[hook]); printf(fmt, "target", "idev", "odev", "source", "destination"); ipt_entry_for_every(entry, head, size) { FAR struct xt_entry_target *target = IPT_TARGET(entry); printf(fmt, target->u.user.name, entry->ip.iniface, entry->ip.outiface, iptables_addr2str(entry->ip.src, entry->ip.smsk, src, sizeof(src)), iptables_addr2str(entry->ip.dst, entry->ip.dmsk, dst, sizeof(dst))); } printf("\n"); } /**************************************************************************** * Name: iptables_list * * Description: * List all rules in a table * ****************************************************************************/ static int iptables_list(FAR const char *table, enum nf_inet_hooks hook) { FAR struct ipt_replace *repl = netlib_ipt_prepare(table); unsigned int cur_hook; if (repl == NULL) { printf("Failed to read table %s from kernel!\n", table); return -EIO; } for (cur_hook = 0; cur_hook < NF_INET_NUMHOOKS; cur_hook++) { if ((repl->valid_hooks & (1 << cur_hook)) != 0 && (hook == NF_INET_NUMHOOKS || hook == cur_hook)) { iptables_print_chain(repl, cur_hook); } } free(repl); return OK; } /**************************************************************************** * Name: iptables_nat_command * * Description: * Do a NAT command * ****************************************************************************/ static int iptables_nat_command(FAR const struct iptables_command_s *cmd, FAR const char *ifname) { FAR struct ipt_replace *repl = netlib_ipt_prepare(TABLE_NAME_NAT); FAR struct ipt_entry *entry = NULL; int ret; if (repl == NULL) { printf("Failed to read table '" TABLE_NAME_NAT "' from kernel!\n"); return -EIO; } if (ifname && strlen(ifname) > 0) /* No ifname if we delete with rulenum. */ { entry = netlib_ipt_masquerade_entry(ifname); if (entry == NULL) { printf("Failed to prepare entry for dev %s!\n", ifname); ret = -ENOMEM; goto errout_with_repl; } } switch (cmd->cmd) { case COMMAND_APPEND: ret = netlib_ipt_append(&repl, entry, cmd->hook); break; case COMMAND_INSERT: ret = netlib_ipt_insert(&repl, entry, cmd->hook, cmd->rulenum); break; case COMMAND_DELETE: ret = netlib_ipt_delete(repl, entry, cmd->hook, cmd->rulenum); break; default: /* Other commands should not call into this function. */ ret = -EINVAL; break; } if (ret == OK) { ret = netlib_ipt_commit(repl); } if (entry) { free(entry); } errout_with_repl: free(repl); return ret; } /**************************************************************************** * Name: iptables_nat * * Description: * Apply rules for NAT * ****************************************************************************/ static int iptables_nat(FAR const struct iptables_args_s *args) { struct iptables_command_s cmd = iptables_command(args); switch (cmd.cmd) { case COMMAND_FLUSH: return netlib_ipt_flush(TABLE_NAME_NAT, cmd.hook); case COMMAND_LIST: return iptables_list(TABLE_NAME_NAT, cmd.hook); case COMMAND_APPEND: case COMMAND_INSERT: case COMMAND_DELETE: if (args->outifname->count == 0 && !(cmd.cmd == COMMAND_DELETE && cmd.rulenum > 0)) { printf("Table '" TABLE_NAME_NAT "' needs an out interface!\n"); return -EINVAL; } if (args->target->count > 0 && strcmp(args->target->sval[0], XT_MASQUERADE_TARGET)) { printf("Only target '" XT_MASQUERADE_TARGET "' is supported for table '" TABLE_NAME_NAT "'!\n"); return -EINVAL; } return iptables_nat_command(&cmd, args->outifname->sval[0]); default: printf("No supported command specified!\n"); return -EINVAL; } } /**************************************************************************** * Public Functions ****************************************************************************/ int main(int argc, FAR char *argv[]) { struct iptables_args_s args; int nerrors; int ret = 0; args.table = arg_str1("t", "table", "table", "table to manipulate"); args.append_chain = arg_str0("A", "append", "chain", "Append a rule to chain"); args.insert_chain = arg_str0("I", "insert", "chain", "Insert a rule to chain at rulenum " "(default = 1)"); args.delete_chain = arg_str0("D", "delete", "chain", "Delete matching rule from chain"); args.flush_chain = arg_str0("F", "flush", "chain", "Delete all rules in chain or all chains"); args.list_chain = arg_str0("L", "list", "chain", "List all rules in chain or all chains"); args.rulenum = arg_int0(NULL, NULL, "rulenum", "Rule num (1=first)"); args.target = arg_str0("j", "jump", "target", "target for rule"); args.outifname = arg_str0("o", "out-interface", "dev", "output network interface name"); args.end = arg_end(1); /* The chain of -F or -L is optional. */ args.flush_chain->hdr.flag |= ARG_HASOPTVALUE; args.list_chain->hdr.flag |= ARG_HASOPTVALUE; nerrors = arg_parse(argc, argv, (FAR void**)&args); if (nerrors != 0) { arg_print_errors(stderr, args.end, argv[0]); iptables_showusage(argv[0], (FAR void**)&args); } else if (strcmp(args.table->sval[0], TABLE_NAME_NAT) == 0) { ret = iptables_nat(&args); if (ret < 0) { printf("iptables got error on NAT: %d!\n", ret); } } else { printf("Unknown table: %s\n", args.table->sval[0]); } arg_freetable((FAR void **)&args, sizeof(args) / sizeof(FAR void *)); return ret; }