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code /
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File
net/stun.lua @ 13093:93c68c454cb8
mod_c2s,mod_s2s: Fix tag name for SLA (thanks mjk)
The (still not published) XEP-xxxx: Stream Limits Advertisement uses the
element <max-bytes/> to advertise the maximum octet size of top level
stream elements. "size" was probably a leftover of an even earlier
version of the (Proto)XEP.
author | Kim Alvefur <zash@zash.se> |
---|---|
date | Wed, 03 May 2023 18:02:11 +0200 |
parent | 12974:ba409c67353b |
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local base64 = require "prosody.util.encodings".base64; local hashes = require "prosody.util.hashes"; local net = require "prosody.util.net"; local random = require "prosody.util.random"; local struct = require "prosody.util.struct"; local bit32 = require"prosody.util.bitcompat"; local sxor = require"prosody.util.strbitop".sxor; local new_ip = require "prosody.util.ip".new_ip; --- Public helpers -- Following draft-uberti-behave-turn-rest-00, convert a 'secret' string -- into a username/password pair that can be used to auth to a TURN server local function get_user_pass_from_secret(secret, ttl, opt_username) ttl = ttl or 86400; local username; if opt_username then username = ("%d:%s"):format(os.time() + ttl, opt_username); else username = ("%d"):format(os.time() + ttl); end local password = base64.encode(hashes.hmac_sha1(secret, username)); return username, password, ttl; end -- Following RFC 8489 9.2, convert credentials to a HMAC key for signing local function get_long_term_auth_key(realm, username, password) return hashes.md5(username..":"..realm..":"..password); end --- Packet building/parsing local packet_methods = {}; local packet_mt = { __index = packet_methods }; local magic_cookie = string.char(0x21, 0x12, 0xA4, 0x42); local function lookup_table(t) local lookup = {}; for k, v in pairs(t) do lookup[k] = v; lookup[v] = k; end return lookup; end local methods = { binding = 0x001; -- TURN allocate = 0x003; refresh = 0x004; send = 0x006; data = 0x007; ["create-permission"] = 0x008; ["channel-bind"] = 0x009; }; local method_lookup = lookup_table(methods); local classes = { request = 0; indication = 1; success = 2; error = 3; }; local class_lookup = lookup_table(classes); local addr_families = { "IPv4", "IPv6" }; local addr_family_lookup = lookup_table(addr_families); local attributes = { ["mapped-address"] = 0x0001; ["username"] = 0x0006; ["message-integrity"] = 0x0008; ["error-code"] = 0x0009; ["unknown-attributes"] = 0x000A; ["realm"] = 0x0014; ["nonce"] = 0x0015; ["xor-mapped-address"] = 0x0020; ["software"] = 0x8022; ["alternate-server"] = 0x8023; ["fingerprint"] = 0x8028; ["message-integrity-sha256"] = 0x001C; ["password-algorithm"] = 0x001D; ["userhash"] = 0x001E; ["password-algorithms"] = 0x8002; ["alternate-domains"] = 0x8003; -- TURN ["requested-transport"] = 0x0019; ["xor-peer-address"] = 0x0012; ["data"] = 0x0013; ["xor-relayed-address"] = 0x0016; }; local attribute_lookup = lookup_table(attributes); function packet_methods:serialize_header(length) assert(#self.transaction_id == 12, "invalid transaction id length"); local header = struct.pack(">I2I2", self.type, length )..magic_cookie..self.transaction_id; return header; end function packet_methods:serialize() local payload = table.concat(self.attributes); return self:serialize_header(#payload)..payload; end function packet_methods:is_request() return bit32.band(self.type, 0x0110) == 0x0000; end function packet_methods:is_indication() return bit32.band(self.type, 0x0110) == 0x0010; end function packet_methods:is_success_resp() return bit32.band(self.type, 0x0110) == 0x0100; end function packet_methods:is_err_resp() return bit32.band(self.type, 0x0110) == 0x0110; end function packet_methods:get_method() local method = bit32.bor( bit32.rshift(bit32.band(self.type, 0x3E00), 2), bit32.rshift(bit32.band(self.type, 0x00E0), 1), bit32.band(self.type, 0x000F) ); return method, method_lookup[method]; end function packet_methods:get_class() local class = bit32.bor( bit32.rshift(bit32.band(self.type, 0x0100), 7), bit32.rshift(bit32.band(self.type, 0x0010), 4) ); return class, class_lookup[class]; end function packet_methods:set_type(method, class) if type(method) == "string" then method = assert(method_lookup[method:lower()], "unknown method: "..method); end if type(class) == "string" then class = assert(classes[class], "unknown class: "..class); end self.type = bit32.bor( bit32.lshift(bit32.band(method, 0x1F80), 2), bit32.lshift(bit32.band(method, 0x0070), 1), bit32.band(method, 0x000F), bit32.lshift(bit32.band(class, 0x0002), 7), bit32.lshift(bit32.band(class, 0x0001), 4) ); end local function _serialize_attribute(attr_type, value) local len = #value; local padding = string.rep("\0", (4 - len)%4); return struct.pack(">I2I2", attr_type, len )..value..padding; end function packet_methods:add_attribute(attr_type, value) if type(attr_type) == "string" then attr_type = assert(attributes[attr_type], "unknown attribute: "..attr_type); end table.insert(self.attributes, _serialize_attribute(attr_type, value)); end function packet_methods:deserialize(bytes) local type, len, cookie = struct.unpack(">I2I2I4", bytes); assert(#bytes == (len + 20), "incorrect packet length"); assert(cookie == 0x2112A442, "invalid magic cookie"); self.type = type; self.transaction_id = bytes:sub(9, 20); self.attributes = {}; local pos = 21; while pos < #bytes do local attr_hdr = bytes:sub(pos, pos+3); assert(#attr_hdr == 4, "packet truncated in attribute header"); local attr_type, attr_len = struct.unpack(">I2I2", attr_hdr); --luacheck: ignore 211/attr_type if attr_len == 0 then table.insert(self.attributes, attr_hdr); pos = pos + 20; else local data = bytes:sub(pos + 4, pos + 3 + attr_len); assert(#data == attr_len, "packet truncated in attribute value"); table.insert(self.attributes, attr_hdr..data); local n_padding = (4 - attr_len)%4; pos = pos + 4 + attr_len + n_padding; end end return self; end function packet_methods:get_attribute(attr_type, idx) idx = math.max(idx or 1, 1); if type(attr_type) == "string" then attr_type = assert(attribute_lookup[attr_type:lower()], "unknown attribute: "..attr_type); end for _, attribute in ipairs(self.attributes) do if struct.unpack(">I2", attribute) == attr_type then if idx == 1 then return attribute:sub(5); else idx = idx - 1; end end end end function packet_methods:_unpack_address(data, xor) local family, port = struct.unpack("x>BI2", data); local addr = data:sub(5); if xor then port = bit32.bxor(port, 0x2112); addr = sxor(addr, magic_cookie..self.transaction_id); end return { family = addr_families[family] or "unknown"; port = port; address = net.ntop(addr); }; end function packet_methods:_pack_address(family, addr, port, xor) if xor then port = bit32.bxor(port, 0x2112); addr = sxor(addr, magic_cookie..self.transaction_id); end local family_port = struct.pack("x>BI2", family, port); return family_port..addr end function packet_methods:get_mapped_address() local data = self:get_attribute("mapped-address"); if not data then return; end return self:_unpack_address(data, false); end function packet_methods:get_xor_mapped_address() local data = self:get_attribute("xor-mapped-address"); if not data then return; end return self:_unpack_address(data, true); end function packet_methods:add_xor_peer_address(address, port) local parsed_ip = assert(new_ip(address)); local family = assert(addr_family_lookup[parsed_ip.proto], "Unknown IP address family: "..parsed_ip.proto); self:add_attribute("xor-peer-address", self:_pack_address(family, parsed_ip.packed, port or 0, true)); end function packet_methods:get_xor_relayed_address(idx) local data = self:get_attribute("xor-relayed-address", idx); if not data then return; end return self:_unpack_address(data, true); end function packet_methods:get_xor_relayed_addresses() return { self:get_xor_relayed_address(1); self:get_xor_relayed_address(2); }; end function packet_methods:add_message_integrity(key) -- Add attribute with a dummy value so we can artificially increase -- the packet 'length' self:add_attribute("message-integrity", string.rep("\0", 20)); -- Get the packet data, minus the message-integrity attribute itself local pkt = self:serialize():sub(1, -25); local hash = hashes.hmac_sha1(key, pkt, false); self.attributes[#self.attributes] = nil; assert(#hash == 20, "invalid hash length"); self:add_attribute("message-integrity", hash); end do local transports = { udp = 0x11; }; function packet_methods:add_requested_transport(transport) local transport_code = transports[transport]; assert(transport_code, "unsupported transport: "..tostring(transport)); self:add_attribute("requested-transport", string.char( transport_code, 0x00, 0x00, 0x00 )); end end function packet_methods:get_error() local err_attr = self:get_attribute("error-code"); if not err_attr then return nil; end local number = err_attr:byte(4); local class = bit32.band(0x07, err_attr:byte(3)); local msg = err_attr:sub(5); return (class*100)+number, msg; end local function new_packet(method, class) local p = setmetatable({ transaction_id = random.bytes(12); length = 0; attributes = {}; }, packet_mt); p:set_type(method or "binding", class or "request"); return p; end return { new_packet = new_packet; get_user_pass_from_secret = get_user_pass_from_secret; get_long_term_auth_key = get_long_term_auth_key; };