/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2008 Nils Wallménius * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "plugin.h" #include "lib/playback_control.h" #include "lib/md5.h" PLUGIN_HEADER #define KEYBOX_FILE PLUGIN_APPS_DIR "/keybox.dat" #define BLOCK_SIZE 8 #define MAX_ENTRIES 12*BLOCK_SIZE /* keep this a multiple of BLOCK_SIZE */ #define FIELD_LEN 32 /* should be enough for anyone ;) */ /* The header begins with the unencrypted salt (4 bytes) padded with 4 bytes of zeroes. After that comes the encrypted hash of the master password (16 bytes) */ #define HEADER_LEN 24 enum { FILE_OPEN_ERROR = -1 }; struct pw_entry { bool used; char title[FIELD_LEN]; char name[FIELD_LEN]; char password[FIELD_LEN]; struct pw_entry *next; }; struct pw_list { struct pw_entry first; /* always points to the first element in the list */ struct pw_entry entries[MAX_ENTRIES]; int num_entries; } pw_list; /* use this to access hashes in different ways, not byte order independent but does it matter? */ union hash { uint8_t bytes[16]; uint32_t words[4]; }; static char buffer[sizeof(struct pw_entry)*MAX_ENTRIES]; static int bytes_read = 0; /* bytes read into the buffer */ static struct gui_synclist kb_list; static union hash key; static char master_pw[FIELD_LEN]; static uint32_t salt; static union hash pwhash; static bool data_changed = false; static void encrypt_buffer(char *buf, size_t size, uint32_t *key); static void decrypt_buffer(char *buf, size_t size, uint32_t *key); /* the following two functions are the reference TEA implementation by David Wheeler and Roger Needham taken from http://en.wikipedia.org/wiki/Tiny_Encryption_Algorithm */ static void encrypt(uint32_t* v, uint32_t* k) { uint32_t v0=v[0], v1=v[1], sum=0, i; /* set up */ static const uint32_t delta=0x9e3779b9; /* a key schedule constant */ uint32_t k0=k[0], k1=k[1], k2=k[2], k3=k[3]; /* cache key */ for (i=0; i < 32; i++) { /* basic cycle start */ sum += delta; v0 += ((v1<<4) + k0) ^ (v1 + sum) ^ ((v1>>5) + k1); v1 += ((v0<<4) + k2) ^ (v0 + sum) ^ ((v0>>5) + k3); /* end cycle */ } v[0]=v0; v[1]=v1; } static void decrypt(uint32_t* v, uint32_t* k) { uint32_t v0=v[0], v1=v[1], sum=0xC6EF3720, i; /* set up */ static const uint32_t delta=0x9e3779b9; /* a key schedule constant */ uint32_t k0=k[0], k1=k[1], k2=k[2], k3=k[3]; /* cache key */ for (i=0; i<32; i++) { /* basic cycle start */ v1 -= ((v0<<4) + k2) ^ (v0 + sum) ^ ((v0>>5) + k3); v0 -= ((v1<<4) + k0) ^ (v1 + sum) ^ ((v1>>5) + k1); sum -= delta; /* end cycle */ } v[0]=v0; v[1]=v1; } static int context_item_cb(int action, const struct menu_item_ex *this_item) { int i = (intptr_t)this_item; if (action == ACTION_REQUEST_MENUITEM && pw_list.num_entries == 0 && (i != 0 && i != 5)) { return ACTION_EXIT_MENUITEM; } return action; } MENUITEM_STRINGLIST(context_m, "Context menu", context_item_cb, "Add entry", "Edit title", "Edit user name", "Edit password", "Delete entry", "Playback Control"); static const char* kb_list_cb(int selected_item, void *data, char *buffer, size_t buffer_len) { (void)data; int i; struct pw_entry *entry = pw_list.first.next; for (i = 0; i < selected_item; i++) { if (entry) entry = entry->next; } if (!entry) return NULL; rb->snprintf(buffer, buffer_len, "%s", entry->title); return buffer; } static void init_ll(void) { pw_list.first.next = &pw_list.entries[0]; pw_list.entries[0].next = NULL; pw_list.num_entries = 0; } static void delete_entry(int selected_item) { int i; struct pw_entry *entry = &pw_list.first; struct pw_entry *entry2; /* find the entry before the one to delete */ for (i = 0; i < selected_item; i++) { if (entry->next) entry = entry->next; } entry2 = entry->next; if (!entry2) return; entry->next = entry2->next; entry2->used = false; entry2->name[0] = '\0'; entry2->password[0] = '\0'; entry2->next = NULL; rb->gui_synclist_set_nb_items(&kb_list, --pw_list.num_entries); data_changed = true; } static void add_entry(int selected_item) { int i, j; struct pw_entry *entry = pw_list.first.next; for (i = 0; i < MAX_ENTRIES && pw_list.entries[i].used; i++) ; if (MAX_ENTRIES == i) { rb->splash(HZ, "Password list full"); return; } rb->splash(HZ, "Enter title"); pw_list.entries[i].title[0] = '\0'; if (rb->kbd_input(pw_list.entries[i].title, FIELD_LEN) < 0) return; rb->splash(HZ, "Enter name"); pw_list.entries[i].name[0] = '\0'; if (rb->kbd_input(pw_list.entries[i].name, FIELD_LEN) < 0) { pw_list.entries[i].title[0] = '\0'; return; } rb->splash(HZ, "Enter password"); pw_list.entries[i].password[0] = '\0'; if (rb->kbd_input(pw_list.entries[i].password, FIELD_LEN) < 0) { pw_list.entries[i].title[0] = '\0'; pw_list.entries[i].name[0] = '\0'; return; } for (j = 0; j < selected_item; j++) { if (entry->next) entry = entry->next; } rb->gui_synclist_set_nb_items(&kb_list, ++pw_list.num_entries); pw_list.entries[i].used = true; pw_list.entries[i].next = entry->next; entry->next = &pw_list.entries[i]; if (entry->next == entry) entry->next = NULL; data_changed = true; } static void edit_title(int selected_item) { int i; struct pw_entry *entry = pw_list.first.next; for (i = 0; i < selected_item; i++) { if (entry->next) entry = entry->next; } if (rb->kbd_input(entry->title, FIELD_LEN) == 0) data_changed = true; } static void edit_name(int selected_item) { int i; struct pw_entry *entry = pw_list.first.next; for (i = 0; i < selected_item; i++) { if (entry->next) entry = entry->next; } if (rb->kbd_input(entry->name, FIELD_LEN) == 0) data_changed = true; } static void edit_pw(int selected_item) { int i; struct pw_entry *entry = pw_list.first.next; for (i = 0; i < selected_item; i++) { if (entry->next) entry = entry->next; } if (rb->kbd_input(entry->password, FIELD_LEN) == 0) data_changed = true; } static void context_menu(int selected_item) { int selection, result; bool exit = false; do { result = rb->do_menu(&context_m, &selection, NULL, false); switch (result) { case 0: add_entry(selected_item); return; case 1: edit_title(selected_item); return; case 2: edit_name(selected_item); return; case 3: edit_pw(selected_item); return; case 4: delete_entry(selected_item); return; case 5: playback_control(NULL); return; default: exit = true; break; } rb->yield(); } while (!exit); } static void splash_pw(int selected_item) { int i; struct pw_entry *entry = pw_list.first.next; for (i = 0; i < selected_item; i++) { if (entry->next) entry = entry->next; } if (entry->name != '\0') rb->splashf(0, "%s %s", entry->name, entry->password); else rb->splashf(0, "%s", entry->password); rb->get_action(CONTEXT_STD, TIMEOUT_BLOCK); } static void hash_pw(union hash *out) { int i; struct md5_s pw_md5; InitMD5(&pw_md5); AddMD5(&pw_md5, master_pw, rb->strlen(master_pw)); EndMD5(&pw_md5); for (i = 0; i < 4; i++) out->words[i] = htole32(pw_md5.p_digest[i]); } static void make_key(void) { int i; char buf[sizeof(master_pw) + sizeof(salt) + 1] = {0}; struct md5_s key_md5; size_t len = rb->strlen(master_pw); rb->strlcpy(buf, master_pw, sizeof(buf)); rb->memcpy(&buf[len], &salt, sizeof(salt)); InitMD5(&key_md5); AddMD5(&key_md5, buf, rb->strlen(buf)); EndMD5(&key_md5); for (i = 0; i < 4; i++) key.words[i] = key_md5.p_digest[i]; } static void decrypt_buffer(char *buf, size_t size, uint32_t *key) { unsigned int i; uint32_t block[2]; for (i = 0; i < size/BLOCK_SIZE; i++) { rb->memcpy(&block[0], &buf[i*BLOCK_SIZE], sizeof(block)); block[0] = letoh32(block[0]); block[1] = letoh32(block[1]); decrypt(&block[0], key); /* byte swap one block */ block[0] = letoh32(block[0]); block[1] = letoh32(block[1]); rb->memcpy(&buf[i*BLOCK_SIZE], &block[0], sizeof(block)); } } static void encrypt_buffer(char *buf, size_t size, uint32_t *key) { unsigned int i; uint32_t block[2]; for (i = 0; i < size/BLOCK_SIZE; i++) { rb->memcpy(&block[0], &buf[i*BLOCK_SIZE], sizeof(block)); /* byte swap one block */ block[0] = htole32(block[0]); block[1] = htole32(block[1]); encrypt(&block[0], key); block[0] = htole32(block[0]); block[1] = htole32(block[1]); rb->memcpy(&buf[i*BLOCK_SIZE], &block[0], sizeof(block)); } } static int parse_buffer(void) { int i; int len; struct pw_entry *entry = pw_list.first.next; char *start, *end; start = &buffer[HEADER_LEN]; rb->memcpy(&salt, &buffer[0], sizeof(salt)); make_key(); decrypt_buffer(&buffer[8], bytes_read - 8, &key.words[0]); if (rb->memcmp(&buffer[8], &pwhash, sizeof(union hash))) { rb->splash(HZ*2, "Wrong password"); return -1; } for (i = 0; i < MAX_ENTRIES; i++) { end = rb->strchr(start, '\0'); /* find eol */ len = end - &buffer[HEADER_LEN]; if ((len > bytes_read + HEADER_LEN) || start == end) { break; } rb->strlcpy(entry->title, start, FIELD_LEN); start = end + 1; end = rb->strchr(start, '\0'); /* find eol */ len = end - &buffer[HEADER_LEN]; if (len > bytes_read + HEADER_LEN) { break; } rb->strlcpy(entry->name, start, FIELD_LEN); start = end + 1; end = rb->strchr(start, '\0'); /* find eol */ len = end - &buffer[HEADER_LEN]; if (len > bytes_read + HEADER_LEN) { break; } rb->strlcpy(entry->password, start, FIELD_LEN); start = end + 1; entry->used = true; if (i + 1 < MAX_ENTRIES - 1) { entry->next = &pw_list.entries[i+1]; entry = entry->next; } else { break; } } entry->next = NULL; pw_list.num_entries = i; rb->gui_synclist_set_nb_items(&kb_list, pw_list.num_entries); return 0; } static void write_output(int fd) { size_t bytes_written; int i; size_t len, size; char *p = &buffer[HEADER_LEN]; /* reserve space for salt + hash */ rb->memcpy(&buffer[8], &pwhash, sizeof(union hash)); struct pw_entry *entry = pw_list.first.next; for (i = 0; i < pw_list.num_entries; i++) { len = rb->strlen(entry->title); rb->strlcpy(p, entry->title, len+1); p += len+1; len = rb->strlen(entry->name); rb->strlcpy(p, entry->name, len+1); p += len+1; len = rb->strlen(entry->password); rb->strlcpy(p, entry->password, len+1); p += len+1; if (entry->next) entry = entry->next; } *p++ = '\0'; /* mark the end of the list */ /* round up to a number divisible by BLOCK_SIZE */ size = ((p - buffer + BLOCK_SIZE - 1) / BLOCK_SIZE) * BLOCK_SIZE; salt = rb->rand(); make_key(); encrypt_buffer(&buffer[8], size, &key.words[0]); rb->memcpy(&buffer[0], &salt, sizeof(salt)); bytes_written = rb->write(fd, &buffer, size); } static int enter_pw(char *pw_buf, size_t buflen, bool new_pw) { char buf[2][sizeof(master_pw)]; rb->memset(buf, 0, sizeof(buf)); rb->memset(master_pw, 0, sizeof(master_pw)); if (new_pw) { rb->splash(HZ, "Enter new master password"); if (rb->kbd_input(buf[0], sizeof(buf[0])) < 0) return -1; rb->splash(HZ, "Confirm master password"); if (rb->kbd_input(buf[1], sizeof(buf[1])) < 0) return -1; if (rb->strcmp(buf[0], buf[1])) { rb->splash(HZ, "Password mismatch"); return -1; } else { rb->strlcpy(pw_buf, buf[0], buflen); hash_pw(&pwhash); return 0; } } rb->splash(HZ, "Enter master password"); if (rb->kbd_input(pw_buf, buflen) < 0) return -1; hash_pw(&pwhash); return 0; } static int keybox(void) { int button, fd; bool new_file = !rb->file_exists(KEYBOX_FILE); bool done = false; if (enter_pw(master_pw, sizeof (master_pw), new_file)) return 0; /* Read the existing file */ if (!new_file) { fd = rb->open(KEYBOX_FILE, O_RDONLY); if (fd < 0) return FILE_OPEN_ERROR; bytes_read = rb->read(fd, &buffer, sizeof(buffer)); if (parse_buffer()) return 0; rb->close(fd); } while (!done) { rb->gui_synclist_draw(&kb_list); button = rb->get_action(CONTEXT_LIST, TIMEOUT_BLOCK); if (rb->gui_synclist_do_button(&kb_list, &button, LIST_WRAP_ON)) continue; switch (button) { case ACTION_STD_OK: splash_pw(rb->gui_synclist_get_sel_pos(&kb_list)); break; case ACTION_STD_CONTEXT: context_menu(rb->gui_synclist_get_sel_pos(&kb_list)); break; case ACTION_STD_CANCEL: done = true; break; } rb->yield(); } if (data_changed) { fd = rb->open(KEYBOX_FILE, O_WRONLY | O_CREAT | O_TRUNC); if (fd < 0) return FILE_OPEN_ERROR; write_output(fd); rb->close(fd); } return 0; } static void reset(void) { static const char *message_lines[]= {"Do you really want", "to reset keybox?"}; static const char *yes_lines[]= {"Keybox reset."}; static const struct text_message message={message_lines, 2}; static const struct text_message yes_message={yes_lines, 1}; if(rb->gui_syncyesno_run(&message, &yes_message, NULL) == YESNO_YES) { rb->remove(KEYBOX_FILE); rb->memset(&buffer, 0, sizeof(buffer)); rb->memset(&pw_list, 0, sizeof(pw_list)); init_ll(); } } static int main_menu(void) { int selection, result, ret; bool exit = false; MENUITEM_STRINGLIST(menu, "Keybox", NULL, "Enter Keybox", "Reset Keybox", "Playback Control", "Exit"); do { result = rb->do_menu(&menu, &selection, NULL, false); switch (result) { case 0: ret = keybox(); if (ret) return ret; break; case 1: reset(); break; case 2: playback_control(NULL); break; case 3: exit = true; break; } rb->yield(); } while (!exit); return 0; } enum plugin_status plugin_start(const void *parameter) { (void)parameter; int ret; rb->gui_synclist_init(&kb_list, &kb_list_cb, NULL, false, 1, NULL); rb->gui_synclist_set_title(&kb_list, "Keybox", NOICON); rb->gui_synclist_set_icon_callback(&kb_list, NULL); rb->gui_synclist_set_nb_items(&kb_list, 0); rb->gui_synclist_limit_scroll(&kb_list, false); rb->gui_synclist_select_item(&kb_list, 0); init_ll(); ret = main_menu(); switch (ret) { case FILE_OPEN_ERROR: rb->splash(HZ*2, "Error opening file"); return PLUGIN_ERROR; } return PLUGIN_OK; }