// Copyright (c) 2014-2018, The Monero Project // // All rights reserved. // // Redistribution and use in source and binary forms, with or without modification, are // permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, this list of // conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright notice, this list // of conditions and the following disclaimer in the documentation and/or other // materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its contributors may be // used to endorse or promote products derived from this software without specific // prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL // THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, // STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF // THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. /*! * \file electrum-words.cpp * * \brief Mnemonic seed generation and wallet restoration from them. * * This file and its header file are for translating Electrum-style word lists * into their equivalent byte representations for cross-compatibility with * that method of "backing up" one's wallet keys. */ #include #include #include #include #include "wipeable_string.h" #include "misc_language.h" #include "int-util.h" #include "mnemonics/electrum-words.h" #include #include "chinese_simplified.h" #include "english.h" #include "dutch.h" #include "french.h" #include "italian.h" #include "german.h" #include "spanish.h" #include "portuguese.h" #include "japanese.h" #include "russian.h" #include "esperanto.h" #include "lojban.h" #include "english_old.h" #include "language_base.h" #include "singleton.h" #undef MONERO_DEFAULT_LOG_CATEGORY #define MONERO_DEFAULT_LOG_CATEGORY "mnemonic" namespace crypto { namespace ElectrumWords { std::vector get_language_list(); } } namespace { uint32_t create_checksum_index(const std::vector &word_list, uint32_t unique_prefix_length); bool checksum_test(std::vector seed, uint32_t unique_prefix_length); /*! * \brief Finds the word list that contains the seed words and puts the indices * where matches occured in matched_indices. * \param seed List of words to match. * \param has_checksum The seed has a checksum word (maybe not checked). * \param matched_indices The indices where the seed words were found are added to this. * \param language Language instance pointer to write to after it is found. * \return true if all the words were present in some language false if not. */ bool find_seed_language(const std::vector &seed, bool has_checksum, std::vector &matched_indices, Language::Base **language) { // If there's a new language added, add an instance of it here. std::vector language_instances({ Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance() }); Language::Base *fallback = NULL; std::vector::const_iterator it2; matched_indices.reserve(seed.size()); // Iterate through all the languages and find a match for (std::vector::iterator it1 = language_instances.begin(); it1 != language_instances.end(); it1++) { const std::unordered_map &word_map = (*it1)->get_word_map(); const std::unordered_map &trimmed_word_map = (*it1)->get_trimmed_word_map(); // To iterate through seed words bool full_match = true; epee::wipeable_string trimmed_word; // Iterate through all the words and see if they're all present for (it2 = seed.begin(); it2 != seed.end(); it2++) { if (has_checksum) { trimmed_word = Language::utf8prefix(*it2, (*it1)->get_unique_prefix_length()); // Use the trimmed words and map if (trimmed_word_map.count(trimmed_word) == 0) { full_match = false; break; } matched_indices.push_back(trimmed_word_map.at(trimmed_word)); } else { if (word_map.count(*it2) == 0) { full_match = false; break; } matched_indices.push_back(word_map.at(*it2)); } } if (full_match) { // if we were using prefix only, and we have a checksum, check it now // to avoid false positives due to prefix set being too common if (has_checksum) if (!checksum_test(seed, (*it1)->get_unique_prefix_length())) { fallback = *it1; full_match = false; } } if (full_match) { *language = *it1; MINFO("Full match for language " << (*language)->get_english_language_name()); return true; } // Some didn't match. Clear the index array. memwipe(matched_indices.data(), matched_indices.size() * sizeof(matched_indices[0])); matched_indices.clear(); } // if we get there, we've not found a good match, but we might have a fallback, // if we detected a match which did not fit the checksum, which might be a badly // typed/transcribed seed in the right language if (fallback) { *language = fallback; MINFO("Fallback match for language " << (*language)->get_english_language_name()); return true; } MINFO("No match found"); memwipe(matched_indices.data(), matched_indices.size() * sizeof(matched_indices[0])); return false; } /*! * \brief Creates a checksum index in the word list array on the list of words. * \param word_list Vector of words * \param unique_prefix_length the prefix length of each word to use for checksum * \return Checksum index */ uint32_t create_checksum_index(const std::vector &word_list, uint32_t unique_prefix_length) { epee::wipeable_string trimmed_words = ""; for (std::vector::const_iterator it = word_list.begin(); it != word_list.end(); it++) { if (it->length() > unique_prefix_length) { trimmed_words += Language::utf8prefix(*it, unique_prefix_length); } else { trimmed_words += *it; } } boost::crc_32_type result; result.process_bytes(trimmed_words.data(), trimmed_words.length()); return result.checksum() % word_list.size(); } /*! * \brief Does the checksum test on the seed passed. * \param seed Vector of seed words * \param unique_prefix_length the prefix length of each word to use for checksum * \return True if the test passed false if not. */ bool checksum_test(std::vector seed, uint32_t unique_prefix_length) { if (seed.empty()) return false; // The last word is the checksum. epee::wipeable_string last_word = seed.back(); seed.pop_back(); epee::wipeable_string checksum = seed[create_checksum_index(seed, unique_prefix_length)]; epee::wipeable_string trimmed_checksum = checksum.length() > unique_prefix_length ? Language::utf8prefix(checksum, unique_prefix_length) : checksum; epee::wipeable_string trimmed_last_word = last_word.length() > unique_prefix_length ? Language::utf8prefix(last_word, unique_prefix_length) : last_word; bool ret = trimmed_checksum == trimmed_last_word; MINFO("Checksum is " << (ret ? "valid" : "invalid")); return ret; } } /*! * \namespace crypto * * \brief crypto namespace. */ namespace crypto { /*! * \namespace crypto::ElectrumWords * * \brief Mnemonic seed word generation and wallet restoration helper functions. */ namespace ElectrumWords { /*! * \brief Converts seed words to bytes (secret key). * \param words String containing the words separated by spaces. * \param dst To put the secret data restored from the words. * \param len The number of bytes to expect, 0 if unknown * \param duplicate If true and len is not zero, we accept half the data, and duplicate it * \param language_name Language of the seed as found gets written here. * \return false if not a multiple of 3 words, or if word is not in the words list */ bool words_to_bytes(const epee::wipeable_string &words, epee::wipeable_string& dst, size_t len, bool duplicate, std::string &language_name) { std::vector seed; words.split(seed); if (len % 4) { MERROR("Invalid seed: not a multiple of 4"); return false; } bool has_checksum = true; if (len) { // error on non-compliant word list const size_t expected = len * 8 * 3 / 32; if (seed.size() != expected/2 && seed.size() != expected && seed.size() != expected + 1) { MERROR("Invalid seed: unexpected number of words"); return false; } // If it is seed with a checksum. has_checksum = seed.size() == (expected + 1); } std::vector matched_indices; auto wiper = epee::misc_utils::create_scope_leave_handler([&](){memwipe(matched_indices.data(), matched_indices.size() * sizeof(matched_indices[0]));}); Language::Base *language; if (!find_seed_language(seed, has_checksum, matched_indices, &language)) { MERROR("Invalid seed: language not found"); return false; } language_name = language->get_language_name(); uint32_t word_list_length = language->get_word_list().size(); if (has_checksum) { if (!checksum_test(seed, language->get_unique_prefix_length())) { // Checksum fail MERROR("Invalid seed: invalid checksum"); return false; } seed.pop_back(); } for (unsigned int i=0; i < seed.size() / 3; i++) { uint32_t w[4]; w[1] = matched_indices[i*3]; w[2] = matched_indices[i*3 + 1]; w[3] = matched_indices[i*3 + 2]; w[0]= w[1] + word_list_length * (((word_list_length - w[1]) + w[2]) % word_list_length) + word_list_length * word_list_length * (((word_list_length - w[2]) + w[3]) % word_list_length); if (!(w[0]% word_list_length == w[1])) { memwipe(w, sizeof(w)); MERROR("Invalid seed: mumble mumble"); return false; } w[0] = SWAP32LE(w[0]); dst.append((const char*)&w[0], 4); // copy 4 bytes to position memwipe(w, sizeof(w)); } if (len > 0 && duplicate) { const size_t expected = len * 3 / 32; if (seed.size() == expected/2) { dst += ' '; // if electrum 12-word seed, duplicate dst += dst; // if electrum 12-word seed, duplicate dst.pop_back(); // trailing space } } return true; } /*! * \brief Converts seed words to bytes (secret key). * \param words String containing the words separated by spaces. * \param dst To put the secret key restored from the words. * \param language_name Language of the seed as found gets written here. * \return false if not a multiple of 3 words, or if word is not in the words list */ bool words_to_bytes(const epee::wipeable_string &words, crypto::secret_key& dst, std::string &language_name) { epee::wipeable_string s; if (!words_to_bytes(words, s, sizeof(dst), true, language_name)) { MERROR("Invalid seed: failed to convert words to bytes"); return false; } if (s.size() != sizeof(dst)) { MERROR("Invalid seed: wrong output size"); return false; } dst = *(const crypto::secret_key*)s.data(); return true; } /*! * \brief Converts bytes (secret key) to seed words. * \param src Secret key * \param words Space delimited concatenated words get written here. * \param language_name Seed language name * \return true if successful false if not. Unsuccessful if wrong key size. */ bool bytes_to_words(const char *src, size_t len, epee::wipeable_string& words, const std::string &language_name) { if (len % 4 != 0 || len == 0) return false; const Language::Base *language = NULL; const std::vector language_list = crypto::ElectrumWords::get_language_list(); for (const Language::Base *l: language_list) { if (language_name == l->get_language_name() || language_name == l->get_english_language_name()) language = l; } if (!language) { return false; } const std::vector &word_list = language->get_word_list(); // To store the words for random access to add the checksum word later. std::vector words_store; uint32_t word_list_length = word_list.size(); // 4 bytes -> 3 words. 8 digits base 16 -> 3 digits base 1626 for (unsigned int i=0; i < len/4; i++, words.push_back(' ')) { uint32_t w[4]; w[0] = SWAP32LE(*(const uint32_t*)(src + (i * 4))); w[1] = w[0] % word_list_length; w[2] = ((w[0] / word_list_length) + w[1]) % word_list_length; w[3] = (((w[0] / word_list_length) / word_list_length) + w[2]) % word_list_length; words += word_list[w[1]]; words += ' '; words += word_list[w[2]]; words += ' '; words += word_list[w[3]]; words_store.push_back(word_list[w[1]]); words_store.push_back(word_list[w[2]]); words_store.push_back(word_list[w[3]]); memwipe(w, sizeof(w)); } words += words_store[create_checksum_index(words_store, language->get_unique_prefix_length())]; return true; } bool bytes_to_words(const crypto::secret_key& src, epee::wipeable_string& words, const std::string &language_name) { return bytes_to_words(src.data, sizeof(src), words, language_name); } std::vector get_language_list() { static const std::vector language_instances({ Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance(), Language::Singleton::instance() }); return language_instances; } /*! * \brief Gets a list of seed languages that are supported. * \param languages The vector is set to the list of languages. */ void get_language_list(std::vector &languages, bool english) { const std::vector language_instances = get_language_list(); for (std::vector::const_iterator it = language_instances.begin(); it != language_instances.end(); it++) { languages.push_back(english ? (*it)->get_english_language_name() : (*it)->get_language_name()); } } /*! * \brief Tells if the seed passed is an old style seed or not. * \param seed The seed to check (a space delimited concatenated word list) * \return true if the seed passed is a old style seed false if not. */ bool get_is_old_style_seed(const epee::wipeable_string &seed) { std::vector word_list; seed.split(word_list); return word_list.size() != (seed_length + 1); } std::string get_english_name_for(const std::string &name) { const std::vector language_instances = get_language_list(); for (std::vector::const_iterator it = language_instances.begin(); it != language_instances.end(); it++) { if ((*it)->get_language_name() == name) return (*it)->get_english_language_name(); } return ""; } } }