--[[ Copyright (c) 2019, 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. ]]-- -- Bitcoin filter rules local fun = require "fun" local bit = require "bit" local lua_util = require "lua_util" local rspamd_util = require "rspamd_util" local N = "bitcoin" local off = 0 local base58_dec = fun.tomap(fun.map( function(c) off = off + 1 return c,(off - 1) end, "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz")) local function is_traditional_btc_address(word) local hash = require "rspamd_cryptobox_hash" local bytes = {} for i=1,25 do bytes[i] = 0 end -- Base58 decode loop fun.each(function(ch) local acc = base58_dec[ch] or 0 for i=25,1,-1 do acc = acc + (58 * bytes[i]); bytes[i] = acc % 256 acc = math.floor(acc / 256); end end, word) -- Now create a validation tag local sha256 = hash.create_specific('sha256') for i=1,21 do sha256:update(string.char(bytes[i])) end sha256 = hash.create_specific('sha256', sha256:bin()):bin() -- Compare tags local valid = true for i=1,4 do if string.sub(sha256, i, i) ~= string.char(bytes[21 + i]) then valid = false end end return valid end -- Beach32 checksum combiner local function polymod(...) local chk = 1; local gen = {0x3b6a57b2, 0x26508e6d, 0x1ea119fa, 0x3d4233dd, 0x2a1462b3}; for _,t in ipairs({...}) do for _,v in ipairs(t) do local top = bit.rshift(chk, 25) chk = bit.bxor(bit.lshift(bit.band(chk, 0x1ffffff), 5), v) for i=1,5 do if bit.band(bit.rshift(top, i - 1), 0x1) ~= 0 then chk = bit.bxor(chk, gen[i]) end end end end return chk end -- Beach32 expansion function local function hrpExpand(hrp) local ret = {} fun.each(function(byte) ret[#ret + 1] = bit.rshift(byte, 5) end, fun.map(string.byte, fun.iter(hrp))) ret[#ret + 1] = 0 fun.each(function(byte) ret[#ret + 1] = bit.band(byte, 0x1f) end, fun.map(string.byte, fun.iter(hrp))) return ret end local function verify_beach32_cksum(hrp, elts) return polymod(hrpExpand(hrp), elts) == 1 end local function gen_bleach32_table(input) local d = {} local i = 1 local res = true local charset = 'qpzry9x8gf2tvdw0s3jn54khce6mua7l' fun.each(function(byte) if res then local pos = charset:find(byte, 1, true) if not pos then res = false else d[i] = pos - 1 i = i + 1 end end end, fun.iter(input)) return res and d or nil end local function is_segwit_bech32_address(task, word) local semicolon_pos = string.find(word, ':') local address_part = word if semicolon_pos then address_part = string.sub(word, semicolon_pos + 1) end local prefix = address_part:sub(1, 3) if prefix == 'bc1' or prefix:sub(1, 1) == '1' or prefix:sub(1, 1) == '3' then -- Strip beach32 prefix in bitcoin address_part = address_part:lower() local last_one_pos = address_part:find('1[^1]*$') if not last_one_pos or (last_one_pos < 1 or last_one_pos + 7 > #address_part) then return false end local hrp = address_part:sub(1, last_one_pos - 1) local addr = address_part:sub(last_one_pos + 1, -1) local decoded = gen_bleach32_table(addr) if decoded then return verify_beach32_cksum(hrp, decoded) end else -- Bitcoin cash address -- https://www.bitcoincash.org/spec/cashaddr.html local decoded = gen_bleach32_table(address_part) lua_util.debugm(N, task, 'check %s, %s decoded', word, decoded) if decoded and #decoded > 8 then if semicolon_pos then prefix = word:sub(1, semicolon_pos - 1) else prefix = 'bitcoincash' end local polymod_tbl = {} fun.each(function(byte) local b = bit.band(string.byte(byte), 0x1f) table.insert(polymod_tbl, b) end, fun.iter(prefix)) -- For semicolon table.insert(polymod_tbl, 0) fun.each(function(byte) table.insert(polymod_tbl, byte) end, decoded) lua_util.debugm(N, task, 'final polymod table: %s', polymod_tbl) return rspamd_util.btc_polymod(polymod_tbl) end end end local normal_wallet_re = [[/\b[13LM][1-9A-Za-z]{25,34}\b/AL{sa_body}]] local btc_bleach_re = [[/\b(?:[a-zA-Z]\w+:)?[qpzry9x8gf2tvdw0s3jn54khce6mua7l]{14,}\b/AL{sa_body}]] config.regexp['BITCOIN_ADDR'] = { description = 'Message has a valid bitcoin wallet address', re = string.format('(%s) || (%s)', normal_wallet_re, btc_bleach_re), re_conditions = { [normal_wallet_re] = function(task, txt, s, e) if e - s <= 2 then return false end local word = lua_util.str_trim(txt:sub(s + 1, e)) local valid = is_traditional_btc_address(word) if valid then -- To save option task:insert_result('BITCOIN_ADDR', 1.0, word) lua_util.debugm(N, task, 'found valid traditional bitcoin addr in the word: %s', word) return true else lua_util.debugm(N, task, 'found invalid bitcoin addr in the word: %s', word) return false end end, [btc_bleach_re] = function(task, txt, s, e) if e - s <= 2 then return false end local word = tostring(lua_util.str_trim(txt:sub(s + 1, e))) local valid = is_segwit_bech32_address(task, word) if valid then -- To save option task:insert_result('BITCOIN_ADDR', 1.0, word) lua_util.debugm(N, task, 'found valid bleach bitcoin addr in the word: %s', word) return true else lua_util.debugm(N, task, 'found invalid bitcoin addr in the word: %s', word) return false end end, }, score = 0.0, one_shot = true, group = 'scams', }