/*- * Copyright 2016 Vsevolod Stakhov * * Licensed 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. */ #include "lua_common.h" /*** * @module rspamd_ip * `rspamd_ip` is a helper module to simplify IP addresses manipulations. * @example local print_octets = function(ip) print('Normal order octets:') for _,o in ipairs(ip:str_octets()) do print(o) end print('Reversed order octets:') for _,o in ipairs(ip:inversed_str_octets()) do print(o) end print('Numeric octets:') for _,o in ipairs(ip:to_table()) do print(o) end end local rspamd_ip = require "rspamd_ip" -- Create ipv4 local ip4 = rspamd_ip.from_string('127.0.0.1') -- Implicit conversion to string print(ip4) -- Numeric version print(ip4:get_version()) print_octets(ip4) -- Create a sample ipv6 address local ip6 = rspamd_ip.from_string('2001:41d0:8:dd9a::100') print(ip6) print(ip6:get_version()) print_octets(ip6) */ /*** * @method ip:to_string([pretty=false]) * Converts valid IP address to string * @param {bool} pretty print IP address with port and braces (for IPv6) * @return {string or nil} string representation of IP or `nil` if IP is invalid */ LUA_FUNCTION_DEF (ip, to_string); /*** * @method ip:to_number() * Converts valid IP address to number or list of numbers in case of IPv6 * @return {integer(s) or nil} numeric representation of IP in *host* byte order or `nil` if IP is invalid */ LUA_FUNCTION_DEF (ip, to_number); /*** * @method ip:to_table() * Converts valid IP address to the table of numeric octets * @return {table or nil} numeric octets of IP address or `nil` if IP is invalid * @example local ip = rspamd_ip.from_string('127.0.0.1') for _,o in ipairs(ip:to_table()) do print(o) end -- Output: -- 127 -- 0 -- 0 -- 1 */ LUA_FUNCTION_DEF (ip, to_table); /*** * @method ip:str_octets() * Converts valid IP address to the table of string octets. The difference from * @see ip:to_table() is that this method returns just hex strings for ipv6 * addresses. * @return {table or nil} string octets of IP address or `nil` if IP is invalid */ LUA_FUNCTION_DEF (ip, str_octets); /*** * @method ip:str_octets() * Converts valid IP address to the table of string octets in reversed order. The difference from * @see ip:to_table() is that this method returns just hex strings for ipv6 * addresses. * @return {table or nil} string octets of IP address or `nil` if IP is invalid * @example local ip = rspamd_ip.from_string('127.0.0.1') for _,o in ipairs(ip:to_table()) do print(o) end -- Output: -- 1 -- 0 -- 0 -- 127 */ LUA_FUNCTION_DEF (ip, inversed_str_octets); /*** * @function rspamd_ip.from_string(line) * Create IP address from its string representation. * @param {string} line valid IP address string (either ipv4 or ipv6) * @return {ip} new ip object or `nil` if input is invalid */ LUA_FUNCTION_DEF (ip, from_string); /*** * @method ip:__gc() * Automatically destroys IP object. */ LUA_FUNCTION_DEF (ip, destroy); /*** * @method ip:get_version() * Gets numeric version of ip address * @return {number} `4` for IPv4 and `6` for IPv6 */ LUA_FUNCTION_DEF (ip, get_version); /*** * @method ip:is_valid() * Checks if an IP object is a valid IP address. * @return {boolean} `true` if IP is valid and `false` otherwise */ LUA_FUNCTION_DEF (ip, is_valid); /*** * @method ip:apply_mask(mask) * Applies mask to IP address, resetting up to `mask` least significant bits to zero. * @param {integer} mask how many bits to reset * @return {ip} new IP object with `mask` bits reset */ LUA_FUNCTION_DEF (ip, apply_mask); /*** * @method ip:__eq(other) * Compares two IP addresses * @param {ip} other IP to compare * @return {boolean} `true` if two objects are the same */ LUA_FUNCTION_DEF (ip, equal); /*** * @method ip:copy() * Performs deep copy of IP address. * @return {ip} a fresh copy of IP address */ LUA_FUNCTION_DEF (ip, copy); /** * @method ip:get_port() * Returns associated port for this IP address * @return {number} port number or nil */ LUA_FUNCTION_DEF (ip, get_port); /*** * @method ip:is_local() * Returns true if address is local one * @return {boolean} `true` if address is local */ LUA_FUNCTION_DEF (ip, is_local); static const struct luaL_reg iplib_m[] = { LUA_INTERFACE_DEF (ip, to_string), LUA_INTERFACE_DEF (ip, to_table), LUA_INTERFACE_DEF (ip, to_number), LUA_INTERFACE_DEF (ip, str_octets), LUA_INTERFACE_DEF (ip, inversed_str_octets), LUA_INTERFACE_DEF (ip, get_version), LUA_INTERFACE_DEF (ip, get_port), LUA_INTERFACE_DEF (ip, is_valid), LUA_INTERFACE_DEF (ip, apply_mask), LUA_INTERFACE_DEF (ip, copy), LUA_INTERFACE_DEF (ip, is_local), {"__tostring", lua_ip_to_string}, {"__eq", lua_ip_equal}, {"__gc", lua_ip_destroy}, {NULL, NULL} }; static const struct luaL_reg iplib_f[] = { LUA_INTERFACE_DEF (ip, from_string), {"from_ip", lua_ip_copy}, {NULL, NULL} }; static struct rspamd_lua_ip * lua_ip_new (lua_State *L, struct rspamd_lua_ip *old) { struct rspamd_lua_ip *ip, **pip; ip = g_malloc0 (sizeof (*ip)); if (old != NULL && old->addr != NULL) { ip->addr = rspamd_inet_address_copy (old->addr); } pip = lua_newuserdata (L, sizeof (struct rspamd_lua_ip *)); rspamd_lua_setclass (L, "rspamd{ip}", -1); *pip = ip; return ip; } struct rspamd_lua_ip * lua_check_ip (lua_State * L, gint pos) { void *ud = rspamd_lua_check_udata (L, pos, "rspamd{ip}"); luaL_argcheck (L, ud != NULL, pos, "'ip' expected"); return ud ? *((struct rspamd_lua_ip **)ud) : NULL; } static gint lua_ip_to_table (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); guint max, i; guint8 *ptr; if (ip != NULL && ip->addr) { ptr = rspamd_inet_address_get_hash_key (ip->addr, &max); lua_createtable (L, max, 0); for (i = 1; i <= max; i++, ptr++) { lua_pushinteger (L, *ptr); lua_rawseti (L, -2, i); } } else { lua_pushnil (L); } return 1; } static gint lua_ip_str_octets (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); guint max, i; guint8 *ptr; gint af; char numbuf[8]; if (ip != NULL && ip->addr) { af = rspamd_inet_address_get_af (ip->addr); ptr = rspamd_inet_address_get_hash_key (ip->addr, &max); lua_createtable (L, max * 2, 0); for (i = 1; i <= max; i++, ptr++) { if (af == AF_INET) { rspamd_snprintf (numbuf, sizeof (numbuf), "%d", *ptr); lua_pushstring (L, numbuf); lua_rawseti (L, -2, i); } else { rspamd_snprintf (numbuf, sizeof (numbuf), "%xd", (*ptr & 0xf0) >> 4); lua_pushstring (L, numbuf); lua_rawseti (L, -2, i * 2 - 1); rspamd_snprintf (numbuf, sizeof (numbuf), "%xd", *ptr & 0x0f); lua_pushstring (L, numbuf); lua_rawseti (L, -2, i * 2); } } } else { lua_pushnil (L); } return 1; } static gint lua_ip_inversed_str_octets (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); guint max, i; guint8 *ptr; char numbuf[4]; gint af; if (ip != NULL && ip->addr) { ptr = rspamd_inet_address_get_hash_key (ip->addr, &max); af = rspamd_inet_address_get_af (ip->addr); lua_createtable (L, max * 2, 0); ptr += max - 1; for (i = 1; i <= max; i++, ptr--) { if (af == AF_INET) { rspamd_snprintf (numbuf, sizeof (numbuf), "%d", *ptr); lua_pushstring (L, numbuf); lua_rawseti (L, -2, i); } else { rspamd_snprintf (numbuf, sizeof (numbuf), "%xd", *ptr & 0x0f); lua_pushstring (L, numbuf); lua_rawseti (L, -2, i * 2 - 1); rspamd_snprintf (numbuf, sizeof (numbuf), "%xd", (*ptr & 0xf0) >> 4); lua_pushstring (L, numbuf); lua_rawseti (L, -2, i * 2); } } } else { lua_pushnil (L); } return 1; } static gint lua_ip_to_string (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); if (ip != NULL && ip->addr) { if (lua_isboolean (L, 2) && lua_toboolean (L, 2) == true) { lua_pushstring (L, rspamd_inet_address_to_string_pretty (ip->addr)); } else { lua_pushstring (L, rspamd_inet_address_to_string (ip->addr)); } } else { luaL_error (L, "invalid arguments"); } return 1; } static gint lua_ip_get_port (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); if (ip != NULL && ip->addr) { lua_pushinteger (L, rspamd_inet_address_get_port (ip->addr)); } else { lua_pushnil (L); } return 1; } static gint lua_ip_from_string (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip; const gchar *ip_str; ip_str = luaL_checkstring (L, 1); if (ip_str) { ip = lua_ip_new (L, NULL); if (!rspamd_parse_inet_address (&ip->addr, ip_str, 0)) { msg_warn ("cannot parse ip: %s", ip_str); ip->addr = NULL; } } else { lua_pushnil (L); } return 1; } static gint lua_ip_to_number (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); guint32 c; guint max, i; guchar *ptr; if (ip != NULL && ip->addr) { ptr = rspamd_inet_address_get_hash_key (ip->addr, &max); for (i = 0; i < max / sizeof (c); i ++) { memcpy (&c, ptr + i * sizeof (c), sizeof (c)); lua_pushinteger (L, ntohl (c)); } return max; } else { lua_pushnil (L); } return 1; } static gint lua_ip_destroy (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); if (ip) { if (ip->addr) { rspamd_inet_address_free (ip->addr); } g_free (ip); } return 0; } static gint lua_ip_get_version (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); if (ip && ip->addr) { lua_pushinteger (L, rspamd_inet_address_get_af (ip->addr) == AF_INET6 ? 6 : 4); } else { lua_pushnil (L); } return 1; } static gint lua_ip_is_valid (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); if (ip) { lua_pushboolean (L, ip->addr != NULL); } else { lua_pushnil (L); } return 1; } static gint lua_ip_apply_mask (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1), *nip; gint mask; mask = lua_tonumber (L, 2); if (mask > 0 && ip != NULL && ip->addr) { nip = lua_ip_new (L, ip); rspamd_inet_address_apply_mask (nip->addr, mask); } else { lua_pushnil (L); } return 1; } static gint lua_ip_equal (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip1 = lua_check_ip (L, 1), *ip2 = lua_check_ip (L, 2); gboolean res = FALSE; if (ip1 && ip2 && ip1->addr && ip2->addr) { res = rspamd_inet_address_compare (ip1->addr, ip2->addr); } lua_pushboolean (L, res); return 1; } static gint lua_ip_copy (lua_State *L) { LUA_TRACE_POINT; struct rspamd_lua_ip *ip = lua_check_ip (L, 1); if (ip) { lua_ip_new (L, ip); } else { lua_pushnil (L); } return 1; } static gint lua_ip_is_local (lua_State *L) { struct rspamd_lua_ip *ip = lua_check_ip (L, 1); gboolean check_laddrs = TRUE; if (ip && ip->addr) { if (lua_type (L, 2) == LUA_TBOOLEAN) { check_laddrs = lua_toboolean (L, 2); } lua_pushboolean (L, rspamd_inet_address_is_local (ip->addr, check_laddrs)); } else { lua_pushnil (L); } return 1; } void rspamd_lua_ip_push (lua_State *L, rspamd_inet_addr_t *addr) { struct rspamd_lua_ip *ip, **pip; ip = g_malloc0 (sizeof (struct rspamd_lua_ip)); ip->addr = rspamd_inet_address_copy (addr); pip = lua_newuserdata (L, sizeof (struct rspamd_lua_ip *)); rspamd_lua_setclass (L, "rspamd{ip}", -1); *pip = ip; } void rspamd_lua_ip_push_fromstring (lua_State *L, const gchar *ip_str) { struct rspamd_lua_ip *ip, **pip; if (ip_str == NULL) { lua_pushnil (L); } else { ip = g_malloc0 (sizeof (struct rspamd_lua_ip)); if (rspamd_parse_inet_address (&ip->addr, ip_str, 0)) { pip = lua_newuserdata (L, sizeof (struct rspamd_lua_ip *)); rspamd_lua_setclass (L, "rspamd{ip}", -1); *pip = ip; } else { g_free (ip); lua_pushnil (L); } } } static gint lua_load_ip (lua_State * L) { lua_newtable (L); luaL_register (L, NULL, iplib_f); return 1; } void luaopen_ip (lua_State * L) { luaL_newmetatable (L, "rspamd{ip}"); lua_pushstring (L, "__index"); lua_pushvalue (L, -2); lua_settable (L, -3); lua_pushstring (L, "class"); lua_pushstring (L, "rspamd{ip}"); lua_rawset (L, -3); luaL_register (L, NULL, iplib_m); rspamd_lua_add_preload (L, "rspamd_ip", lua_load_ip); lua_pop (L, 1); }