/* * This file is part of the TREZOR project. * * Copyright (C) 2014 Pavol Rusnak * Copyright (C) 2016 Jochen Hoenicke * * This library is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library. If not, see . */ #include #include "recovery.h" #include "fsm.h" #include "storage.h" #include "layout2.h" #include "protect.h" #include "types.pb.h" #include "messages.h" #include "rng.h" #include "bip39.h" #include "oled.h" #include "usb.h" #include "types.pb.h" #include "recovery-table.h" /* number of words expected in the new seed */ static uint32_t word_count; /* recovery mode: * 0: not recovering * 1: recover by scrambled plain text words * 2: recover by matrix entry */ static int awaiting_word = 0; /* True if we should check that seed corresponds to bip39. */ static bool enforce_wordlist; /* For scrambled recovery Trezor may ask for faked words if * seed is short. This contains the fake word. */ static char fake_word[12]; /* Word position in the seed that we are currently asking for. * This is 0 if we ask for a fake word. Only for scrambled recovery. */ static uint32_t word_pos; /* Scrambled recovery: How many words has the user already entered. * Matrix recovery: How many digits has the user already entered. */ static uint32_t word_index; /* Order in which we ask for the words. It holds that * word_order[word_index] == word_pos. Only for scrambled recovery. */ static char word_order[24]; /* The recovered seed. This is filled during the recovery process. */ static char words[24][12]; /* The "pincode" of the current word. This is basically the "pin" * that the user would have entered for the current word if the words * were displayed in alphabetical order. Note that it is base 9, not * base 10. Only for matrix recovery. */ static uint16_t word_pincode; /* The pinmatrix currently displayed on screen. * Only for matrix recovery. */ static uint8_t word_matrix[9]; #define MASK_IDX(x) ((x) & 0xfff) #define TABLE1(x) MASK_IDX(word_table1[x]) #define TABLE2(x) MASK_IDX(word_table2[x]) /* Helper function to format a two digit number. * Parameter dest is buffer containing the string. It should already * start with "##th". The number is written in place. * Parameter number gives the number that we should format. */ static void format_number(char *dest, int number) { if (number < 10) { dest[0] = ' '; } else { dest[0] = '0' + number / 10; } dest[1] = '0' + number % 10; if (number == 1 || number == 21) { dest[2] = 's'; dest[3] = 't'; } else if (number == 2 || number == 22) { dest[2] = 'n'; dest[3] = 'd'; } else if (number == 3 || number == 23) { dest[2] = 'r'; dest[3] = 'd'; } } /* Send a request for a new word/matrix code to the PC. */ static void recovery_request(void) { WordRequest resp; memset(&resp, 0, sizeof(WordRequest)); resp.has_type = true; resp.type = awaiting_word == 1 ? WordRequestType_WordRequestType_Plain : (word_index % 4 == 3) ? WordRequestType_WordRequestType_Matrix6 : WordRequestType_WordRequestType_Matrix9; msg_write(MessageType_MessageType_WordRequest, &resp); } /* Called when the last word was entered. * Check mnemonic and send success/failure. */ static void recovery_done(void) { uint32_t i; strlcpy(storage.mnemonic, words[0], sizeof(storage.mnemonic)); for (i = 1; i < word_count; i++) { strlcat(storage.mnemonic, " ", sizeof(storage.mnemonic)); strlcat(storage.mnemonic, words[i], sizeof(storage.mnemonic)); } if (!enforce_wordlist || mnemonic_check(storage.mnemonic)) { storage.has_mnemonic = true; if (!enforce_wordlist) { // not enforcing => mark storage as imported storage.has_imported = true; storage.imported = true; } storage_commit(); fsm_sendSuccess("Device recovered"); } else { storage_reset(); fsm_sendFailure(FailureType_Failure_SyntaxError, "Invalid mnemonic, are words in correct order?"); } awaiting_word = 0; layoutHome(); } /* Helper function for matrix recovery: * Formats a string describing the word range from first to last where * prefixlen gives the number of characters in first and last that are * significant, i.e. the word before first or the word after last differ * exactly at the prefixlen-th character. * * Invariants: * memcmp("first - 1", first, prefixlen) != 0 * memcmp(last, "last + 1", prefixlen) != 0 * first[prefixlen-2] == last[prefixlen-2] except for range WI-Z. */ static void add_choice(char choice[12], int prefixlen, const char *first, const char *last) { // assert prefixlen < 4 int i; char *dest = choice; for (i = 0; i < prefixlen; i++) { *dest++ = toupper((int) first[i]); } if (first[0] != last[0]) { /* special case WI-Z; also used for T-Z, etc. */ *dest++ = '-'; *dest++ = toupper((int) last[0]); } else if (last[prefixlen-1] == first[prefixlen-1]) { /* single prefix */ } else if (prefixlen < 3) { /* AB-AC, etc. */ *dest++ = '-'; for (i = 0; i < prefixlen; i++) { *dest++ = toupper((int) last[i]); } } else { /* RE[A-M] etc. */ /* remove last and replace with space */ dest[-1] = ' '; if (first[prefixlen - 1]) { /* handle special case: CAN[-D] */ *dest++ = toupper((int)first[prefixlen - 1]); } *dest++ = '-'; *dest++ = toupper((int) last[prefixlen - 1]); } *dest++ = 0; } /* Helper function for matrix recovery: * Display the recovery matrix given in choices. If twoColumn is set * use 2x3 layout, otherwise 3x3 layout. Also generates a random * scrambling and stores it in word_matrix. */ static void display_choices(bool twoColumn, char choices[9][12], int num) { int i; int nColumns = twoColumn ? 2 : 3; int displayedChoices = nColumns * 3; int row, col; for (i = 0; i < displayedChoices; i++) { word_matrix[i] = i; } /* scramble matrix */ random_permute((char*)word_matrix, displayedChoices); if (word_index % 4 == 0) { char desc[] = "##th word"; int nr = (word_index / 4) + 1; format_number(desc, nr); layoutDialogSwipe(&bmp_icon_info, NULL, NULL, NULL, "Please enter the", (nr < 10 ? desc + 1 : desc), "of your mnemonic", NULL, NULL, NULL); } else { oledBox(0, 18, 127, 63, false); } for (row = 0; row < 3; row ++) { int y = 55 - row * 11; for (col = 0; col < nColumns; col++) { int x = twoColumn ? 64 * col + 32 : 42 * col + 22; int choice = word_matrix[nColumns*row + col]; const char *text = choice < num ? choices[choice] : "-"; oledDrawString(x - oledStringWidth(text)/2, y, text); } } oledRefresh(); /* avoid picking out of range numbers */ for (i = 0; i < displayedChoices; i++) { if (word_matrix[i] > num) word_matrix[i] = 0; } /* two column layout: middle column = right column */ if (twoColumn) { static const uint8_t twolayout[9] = { 0, 1, 1, 2, 3, 3, 4, 5, 5 }; for (i = 8; i >= 2; i--) { word_matrix[i] = word_matrix[twolayout[i]]; } } } /* Helper function for matrix recovery: * Generates a new matrix and requests the next pin. */ static void next_matrix(void) { const char * const *wl = mnemonic_wordlist(); char word_choices[9][12]; uint32_t i, idx, first, num; bool last = (word_index % 4) == 3; switch (word_index % 4) { case 3: idx = TABLE1(word_pincode / 9) + word_pincode % 9; first = word_table2[idx] & 0xfff; num = (word_table2[idx+1] & 0xfff) - first; for (i = 0; i < num; i++) { strlcpy(word_choices[i], wl[first + i], sizeof(word_choices[i])); } break; case 2: idx = TABLE1(word_pincode); num = TABLE1(word_pincode + 1) - idx; for (i = 0; i < num; i++) { add_choice(word_choices[i], (word_table2[idx + i] >> 12), wl[TABLE2(idx + i)], wl[TABLE2(idx + i + 1) - 1]); } break; case 1: idx = word_pincode * 9; num = 9; for (i = 0; i < num; i++) { add_choice(word_choices[i], (word_table1[idx + i] >> 12), wl[TABLE2(TABLE1(idx + i))], wl[TABLE2(TABLE1(idx + i + 1)) - 1]); } break; case 0: num = 9; for (i = 0; i < num; i++) { add_choice(word_choices[i], 1, wl[TABLE2(TABLE1(9*i))], wl[TABLE2(TABLE1(9*(i+1)))-1]); } break; } display_choices(last, word_choices, num); recovery_request(); } /* Function called when a digit was entered by user. * digit: ascii code of the entered digit ('1'-'9') or * '\x08' for backspace. */ static void recovery_digit(const char digit) { if (digit == 8) { /* backspace: undo */ if ((word_index % 4) == 0) { /* undo complete word */ if (word_index > 0) word_index -= 4; } else { word_index--; word_pincode /= 9; } next_matrix(); return; } if (digit < '1' || digit > '9') { recovery_request(); return; } int choice = word_matrix[digit - '1']; if ((word_index % 4) == 3) { /* received final word */ int y = 54 - ((digit - '1')/3)*11; int x = 64 * (((digit - '1') % 3) > 0); oledInvert(x, y, x + 63, y + 9); oledRefresh(); usbSleep(250); int idx = TABLE2(TABLE1(word_pincode / 9) + (word_pincode % 9)) + choice; uint32_t widx = word_index / 4; word_pincode = 0; strlcpy(words[widx], mnemonic_wordlist()[idx], sizeof(words[widx])); if (widx + 1 == word_count) { recovery_done(); return; } /* next word */ } else { word_pincode = word_pincode * 9 + choice; } word_index++; next_matrix(); } /* Helper function for scrambled recovery: * Ask the user for the next word. */ void next_word(void) { word_pos = word_order[word_index]; if (word_pos == 0) { const char * const *wl = mnemonic_wordlist(); strlcpy(fake_word, wl[random_uniform(2048)], sizeof(fake_word)); layoutDialogSwipe(&bmp_icon_info, NULL, NULL, NULL, "Please enter the word", NULL, fake_word, NULL, "on your computer", NULL); } else { fake_word[0] = 0; char desc[] = "##th word"; format_number(desc, word_pos); layoutDialogSwipe(&bmp_icon_info, NULL, NULL, NULL, "Please enter the", NULL, (word_pos < 10 ? desc + 1 : desc), NULL, "of your mnemonic", NULL); } recovery_request(); } void recovery_init(uint32_t _word_count, bool passphrase_protection, bool pin_protection, const char *language, const char *label, bool _enforce_wordlist, uint32_t type, uint32_t u2f_counter) { if (_word_count != 12 && _word_count != 18 && _word_count != 24) return; word_count = _word_count; enforce_wordlist = _enforce_wordlist; if (pin_protection && !protectChangePin()) { fsm_sendFailure(FailureType_Failure_ActionCancelled, "PIN change failed"); layoutHome(); return; } storage.has_passphrase_protection = true; storage.passphrase_protection = passphrase_protection; storage_setLanguage(language); storage_setLabel(label); storage_setU2FCounter(u2f_counter); if ((type & RecoveryDeviceType_RecoveryDeviceType_Matrix) != 0) { awaiting_word = 2; word_index = 0; next_matrix(); } else { uint32_t i; for (i = 0; i < word_count; i++) { word_order[i] = i + 1; } for (i = word_count; i < 24; i++) { word_order[i] = 0; } random_permute(word_order, 24); awaiting_word = 1; word_index = 0; next_word(); } } static void recovery_scrambledword(const char *word) { if (word_pos == 0) { // fake word if (strcmp(word, fake_word) != 0) { storage_reset(); fsm_sendFailure(FailureType_Failure_SyntaxError, "Wrong word retyped"); layoutHome(); return; } } else { // real word if (enforce_wordlist) { // check if word is valid const char * const *wl = mnemonic_wordlist(); bool found = false; while (*wl) { if (strcmp(word, *wl) == 0) { found = true; break; } wl++; } if (!found) { storage_reset(); fsm_sendFailure(FailureType_Failure_SyntaxError, "Word not found in a wordlist"); layoutHome(); return; } } strlcpy(words[word_pos - 1], word, sizeof(words[word_pos - 1])); } if (word_index + 1 == 24) { // last one recovery_done(); } else { word_index++; next_word(); } } /* Function called when a word was entered by user. Used * for scrambled recovery. */ void recovery_word(const char *word) { switch (awaiting_word) { case 2: recovery_digit(word[0]); break; case 1: recovery_scrambledword(word); break; default: fsm_sendFailure(FailureType_Failure_UnexpectedMessage, "Not in Recovery mode"); break; } } /* Abort recovery. */ void recovery_abort(void) { if (awaiting_word) { layoutHome(); awaiting_word = 0; } } #if DEBUG_LINK const char *recovery_get_fake_word(void) { return fake_word; } uint32_t recovery_get_word_pos(void) { return word_pos; } #endif