#include "../flipchess.h" #include #include #include #include //#include #include #include #include "flipchess_icons.h" #include "../helpers/flipchess_haptic.h" #define MAX_TEXT_LEN 30 // 30 = max length of text #define MAX_TEXT_BUF (MAX_TEXT_LEN + 1) // max length of text + null terminator #define MAX_ADDR_BUF (42 + 1) // 42 = max length of address + null terminator #define NUM_ADDRS 6 #define PAGE_LOADING 0 #define PAGE_INFO 1 #define PAGE_MNEMONIC 2 #define PAGE_SEED 3 #define PAGE_XPRV_ROOT 4 #define PAGE_XPRV_ACCT 5 #define PAGE_XPUB_ACCT 6 #define PAGE_XPRV_EXTD 7 #define PAGE_XPUB_EXTD 8 #define PAGE_ADDR_BEGIN 9 #define PAGE_ADDR_END (PAGE_ADDR_BEGIN + NUM_ADDRS - 1) #define TEXT_LOADING "Loading..." #define TEXT_NEW_WALLET "New wallet" #define TEXT_DEFAULT_COIN "Coin" #define TEXT_RECEIVE_ADDRESS "receive address:" #define TEXT_DEFAULT_DERIV "m/44'/X'/0'/0" const char* TEXT_INFO = "-Scroll pages with up/down-" "p1,2) BIP39 Mnemonic/Seed" "p3) BIP32 Root Key " "p4,5) Prv/Pub Account Keys" "p6,7) Prv/Pub BIP32 Keys " "p8+) Receive Addresses "; // #define TEXT_SAVE_QR "Save QR" #define TEXT_QRFILE_EXT ".qrcode" // 7 chars + 1 null // bip44_coin, xprv_version, xpub_version, addr_version, wif_version, addr_format const uint32_t COIN_INFO_ARRAY[3][6] = { {COIN_BTC, 0x0488ade4, 0x0488b21e, 0x00, 0x80, FlipChessCoinBTC0}, {COIN_ETH, 0x0488ade4, 0x0488b21e, 0x00, 0x80, FlipChessCoinETH60}, {COIN_DOGE, 0x02fac398, 0x02facafd, 0x1e, 0x9e, FlipChessCoinBTC0}}; // coin_name, derivation_path const char* COIN_TEXT_ARRAY[3][3] = { {"BTC", "m/44'/0'/0'/0", "bitcoin:"}, {"ETH", "m/44'/60'/0'/0", "ethereum:"}, {"DOGE", "m/44'/3'/0'/0", "dogecoin:"}}; struct FlipChessScene1 { View* view; FlipChessScene1Callback callback; void* context; }; typedef struct { int page; int strength; uint32_t coin; bool overwrite; bool mnemonic_only; CONFIDENTIAL const char* mnemonic; CONFIDENTIAL uint8_t seed[64]; CONFIDENTIAL const HDNode* node; CONFIDENTIAL const char* xprv_root; CONFIDENTIAL const char* xprv_account; CONFIDENTIAL const char* xpub_account; CONFIDENTIAL const char* xprv_extended; CONFIDENTIAL const char* xpub_extended; char* recv_addresses[NUM_ADDRS]; } FlipChessScene1Model; // Node for the receive address static CONFIDENTIAL HDNode* s_addr_node = NULL; // Generic display text static CONFIDENTIAL char* s_disp_text1 = NULL; static CONFIDENTIAL char* s_disp_text2 = NULL; static CONFIDENTIAL char* s_disp_text3 = NULL; static CONFIDENTIAL char* s_disp_text4 = NULL; static CONFIDENTIAL char* s_disp_text5 = NULL; static CONFIDENTIAL char* s_disp_text6 = NULL; // Derivation path text static const char* s_derivation_text = TEXT_DEFAULT_DERIV; // Warning text static bool s_warn_insecure = false; #define WARN_INSECURE_TEXT_1 "Recommendation:" #define WARN_INSECURE_TEXT_2 "Set BIP39 Passphrase" //static bool s_busy = false; void flipchess_scene_1_set_callback( FlipChessScene1* instance, FlipChessScene1Callback callback, void* context) { furi_assert(instance); furi_assert(callback); instance->callback = callback; instance->context = context; } static void flipchess_scene_1_init_address( char* addr_text, const HDNode* node, uint32_t coin_type, uint32_t addr_index) { //s_busy = true; // buffer for address serialization // subtract 2 for "0x", 1 for null terminator const size_t buflen = MAX_ADDR_BUF - (2 + 1); // subtract 2 for "0x" char buf[MAX_ADDR_BUF - 2] = {0}; // Use static node for address generation memcpy(s_addr_node, node, sizeof(HDNode)); memzero(addr_text, MAX_ADDR_BUF); hdnode_private_ckd(s_addr_node, addr_index); hdnode_fill_public_key(s_addr_node); // coin info // bip44_coin, xprv_version, xpub_version, addr_version, wif_version, addr_format uint32_t coin_info[6] = {0}; for(size_t i = 0; i < 6; i++) { coin_info[i] = COIN_INFO_ARRAY[coin_type][i]; } if(coin_info[5] == FlipChessCoinBTC0) { // BTC / DOGE style address // BTC / DOGE style address ecdsa_get_address( s_addr_node->public_key, coin_info[3], HASHER_SHA2_RIPEMD, HASHER_SHA2D, buf, buflen); strcpy(addr_text, buf); //ecdsa_get_wif(addr_node->private_key, WIF_VERSION, HASHER_SHA2D, buf, buflen); } else if(coin_info[5] == FlipChessCoinETH60) { // ETH // ETH style address hdnode_get_ethereum_pubkeyhash(s_addr_node, (uint8_t*)buf); addr_text[0] = '0'; addr_text[1] = 'x'; // Convert the hash to a hex string flipchess_btox((uint8_t*)buf, 20, addr_text + 2); } // Clear the address node memzero(s_addr_node, sizeof(HDNode)); //s_busy = false; } static void flipchess_scene_1_draw_generic(const char* text, const size_t line_len, const bool chunk) { // Split the text into parts size_t len = line_len; if(len > MAX_TEXT_LEN) { len = MAX_TEXT_LEN; } for(size_t si = 1; si <= 6; si++) { char* ptr = NULL; if(si == 1) ptr = s_disp_text1; else if(si == 2) ptr = s_disp_text2; else if(si == 3) ptr = s_disp_text3; else if(si == 4) ptr = s_disp_text4; else if(si == 5) ptr = s_disp_text5; else if(si == 6) ptr = s_disp_text6; memzero(ptr, MAX_TEXT_BUF); strncpy(ptr, text + ((si - 1) * len), len); // add a space every 4 characters and shift the text if(len < 23 && chunk) { for(size_t i = 0; i < strlen(ptr); i++) { if(i % 5 == 0) { for(size_t j = strlen(ptr); j > i; j--) { ptr[j] = ptr[j - 1]; } ptr[i] = ' '; } } } } } static void flipchess_scene_1_draw_mnemonic(const char* mnemonic) { // Delineate sections of the mnemonic every 4 words const size_t mnemonic_working_len = strlen(mnemonic) + 1; char* mnemonic_working = malloc(mnemonic_working_len); strcpy(mnemonic_working, mnemonic); int word = 0; for(size_t i = 0; i < strlen(mnemonic_working); i++) { if(mnemonic_working[i] == ' ') { word++; if(word % 4 == 0) { mnemonic_working[i] = ','; } } } // Split the mnemonic into parts char* mnemonic_part = flipchess_strtok(mnemonic_working, ","); int mi = 0; while(mnemonic_part != NULL) { char* ptr = NULL; mi++; if(mi == 1) ptr = s_disp_text1; else if(mi == 2) ptr = s_disp_text2; else if(mi == 3) ptr = s_disp_text3; else if(mi == 4) ptr = s_disp_text4; else if(mi == 5) ptr = s_disp_text5; else if(mi == 6) ptr = s_disp_text6; memzero(ptr, MAX_TEXT_BUF); if(strlen(mnemonic_part) > MAX_TEXT_LEN) { strncpy(ptr, mnemonic_part, MAX_TEXT_LEN); } else { strncpy(ptr, mnemonic_part, strlen(mnemonic_part)); } mnemonic_part = flipchess_strtok(NULL, ","); } // Free the working mnemonic memory memzero(mnemonic_working, mnemonic_working_len); free(mnemonic_working); } static void flipchess_scene_1_draw_seed(FlipChessScene1Model* const model) { const size_t seed_working_len = 64 * 2 + 1; char* seed_working = malloc(seed_working_len); // Convert the seed to a hex string flipchess_btox(model->seed, 64, seed_working); flipchess_scene_1_draw_generic(seed_working, 22, false); // Free the working seed memory memzero(seed_working, seed_working_len); free(seed_working); } static void flipchess_scene_1_clear_text() { memzero((void*)s_disp_text1, MAX_TEXT_BUF); memzero((void*)s_disp_text2, MAX_TEXT_BUF); memzero((void*)s_disp_text3, MAX_TEXT_BUF); memzero((void*)s_disp_text4, MAX_TEXT_BUF); memzero((void*)s_disp_text5, MAX_TEXT_BUF); memzero((void*)s_disp_text6, MAX_TEXT_BUF); } void flipchess_scene_1_draw(Canvas* canvas, FlipChessScene1Model* model) { //UNUSED(model); canvas_clear(canvas); canvas_set_color(canvas, ColorBlack); flipchess_scene_1_clear_text(); if(model->page == PAGE_INFO) { flipchess_scene_1_draw_generic(TEXT_INFO, 27, false); } else if(model->page == PAGE_MNEMONIC) { flipchess_scene_1_draw_mnemonic(model->mnemonic); } else if(model->page == PAGE_SEED) { flipchess_scene_1_draw_seed(model); } else if(model->page == PAGE_XPRV_ROOT) { flipchess_scene_1_draw_generic(model->xprv_root, 20, false); } else if(model->page == PAGE_XPRV_ACCT) { flipchess_scene_1_draw_generic(model->xprv_account, 20, false); } else if(model->page == PAGE_XPUB_ACCT) { flipchess_scene_1_draw_generic(model->xpub_account, 20, false); } else if(model->page == PAGE_XPRV_EXTD) { flipchess_scene_1_draw_generic(model->xprv_extended, 20, false); } else if(model->page == PAGE_XPUB_EXTD) { flipchess_scene_1_draw_generic(model->xpub_extended, 20, false); } else if(model->page >= PAGE_ADDR_BEGIN && model->page <= PAGE_ADDR_END) { size_t line_len = 12; if(model->coin == FlipChessCoinETH60) { line_len = 14; } flipchess_scene_1_draw_generic( model->recv_addresses[model->page - PAGE_ADDR_BEGIN], line_len, true); } if(model->page == PAGE_LOADING) { canvas_set_font(canvas, FontPrimary); canvas_draw_str(canvas, 2, 10, TEXT_LOADING); canvas_draw_str(canvas, 7, 30, s_derivation_text); canvas_draw_icon(canvas, 86, 22, &I_Keychain_39x36); if (s_warn_insecure) { canvas_set_font(canvas, FontSecondary); canvas_draw_str(canvas, 2, 50, WARN_INSECURE_TEXT_1); canvas_draw_str(canvas, 2, 60, WARN_INSECURE_TEXT_2); } } else if(model->page >= PAGE_ADDR_BEGIN && model->page <= PAGE_ADDR_END) { // draw address header canvas_set_font(canvas, FontSecondary); // coin_name, derivation_path const char* receive_text = COIN_TEXT_ARRAY[model->coin][0]; if(receive_text == NULL) { receive_text = TEXT_DEFAULT_COIN; } const size_t receive_len = strlen(receive_text) * 7; canvas_draw_str_aligned(canvas, 2, 2, AlignLeft, AlignTop, receive_text); canvas_draw_str_aligned( canvas, receive_len + 1, 2, AlignLeft, AlignTop, TEXT_RECEIVE_ADDRESS); // draw address number const unsigned char addr_num[1] = {(unsigned char)(model->page - PAGE_ADDR_BEGIN)}; char addr_num_text[3] = {0}; flipchess_btox(addr_num, 1, addr_num_text); addr_num_text[0] = '/'; canvas_draw_str_aligned(canvas, 125, 2, AlignRight, AlignTop, addr_num_text); // draw QR code file path char addr_name_text[14] = {0}; strcpy(addr_name_text, COIN_TEXT_ARRAY[model->coin][0]); flipchess_btox(addr_num, 1, addr_name_text + strlen(addr_name_text)); strcpy(addr_name_text + strlen(addr_name_text), TEXT_QRFILE_EXT); //elements_button_right(canvas, addr_name_text); canvas_draw_str_aligned(canvas, 125, 53, AlignRight, AlignTop, addr_name_text); // draw address canvas_set_font(canvas, FontPrimary); canvas_draw_str(canvas, 7, 22, s_disp_text1); canvas_draw_str(canvas, 7, 34, s_disp_text2); canvas_draw_str(canvas, 7, 46, s_disp_text3); canvas_draw_str(canvas, 7, 58, s_disp_text4); } else { canvas_set_font(canvas, FontSecondary); canvas_draw_str_aligned(canvas, 1, 2, AlignLeft, AlignTop, s_disp_text1); canvas_draw_str_aligned(canvas, 1, 12, AlignLeft, AlignTop, s_disp_text2); canvas_draw_str_aligned(canvas, 1, 22, AlignLeft, AlignTop, s_disp_text3); canvas_draw_str_aligned(canvas, 1, 32, AlignLeft, AlignTop, s_disp_text4); canvas_draw_str_aligned(canvas, 1, 42, AlignLeft, AlignTop, s_disp_text5); canvas_draw_str_aligned(canvas, 1, 52, AlignLeft, AlignTop, s_disp_text6); } } static int flipchess_scene_1_model_init( FlipChessScene1Model* const model, const int strength, const uint32_t coin, const bool overwrite, const char* passphrase_text) { model->page = PAGE_LOADING; model->mnemonic_only = false; model->strength = strength; model->coin = coin; model->overwrite = overwrite; // Allocate memory for mnemonic char* mnemonic = malloc(TEXT_BUFFER_SIZE); memzero(mnemonic, TEXT_BUFFER_SIZE); // Check if the mnemonic key & data is already saved in persistent storage, or overwrite is true if(overwrite || (!flipchess_has_file(FlipChessFileKey, NULL, false) && !flipchess_has_file(FlipChessFileDat, NULL, false))) { // Set mnemonic only mode model->mnemonic_only = true; // Generate a random mnemonic using trezor-crypto const char* mnemonic_gen = mnemonic_generate(strength); // Check if the mnemonic is valid if(mnemonic_check(mnemonic_gen) == 0) return FlipChessStatusMnemonicCheckError; // 13 = mnemonic check error // Save the mnemonic to persistent storage else if(!flipchess_save_file_secure(mnemonic_gen)) return FlipChessStatusSaveError; // 12 = save error // Clear the generated mnemonic from memory mnemonic_clear(); } // Load the mnemonic from persistent storage if(!flipchess_load_file_secure(mnemonic)) { // Set mnemonic only mode for this error for memory cleanup purposes model->mnemonic_only = true; return FlipChessStatusLoadError; // 11 = load error } model->mnemonic = mnemonic; // Check if the mnemonic is valid if(mnemonic_check(model->mnemonic) == 0) { // Set mnemonic only mode for this error for memory cleanup purposes model->mnemonic_only = true; return FlipChessStatusMnemonicCheckError; // 13 = mnemonic check error } // test return values //model->mnemonic_only = true; //return FlipChessStatusMnemonicCheckError; // 13 = mnemonic check error // if we are only generating the mnemonic, return if(model->mnemonic_only) { return FlipChessStatusReturn; // 10 = mnemonic only, return from parent } // Generate a BIP39 seed from the mnemonic mnemonic_to_seed(model->mnemonic, passphrase_text, model->seed, 0); // Generate a BIP32 root HD node from the mnemonic HDNode* root = malloc(sizeof(HDNode)); hdnode_from_seed(model->seed, 64, SECP256K1_NAME, root); // buffer for key serialization const size_t buflen = 128; char buf[128 + 1] = {0}; // coin info // bip44_coin, xprv_version, xpub_version, addr_version, wif_version, addr_format uint32_t coin_info[6] = {0}; for(size_t i = 0; i < 6; i++) { coin_info[i] = COIN_INFO_ARRAY[coin][i]; } // root uint32_t fingerprint = 0; hdnode_serialize_private(root, fingerprint, coin_info[1], buf, buflen); char* xprv_root = malloc(buflen + 1); strncpy(xprv_root, buf, buflen); model->xprv_root = xprv_root; HDNode* node = root; // purpose m/44' fingerprint = hdnode_fingerprint(node); hdnode_private_ckd_prime(node, DERIV_PURPOSE); // purpose // coin m/44'/0' or m/44'/60' fingerprint = hdnode_fingerprint(node); hdnode_private_ckd_prime(node, coin_info[0]); // coin // account m/44'/0'/0' or m/44'/60'/0' fingerprint = hdnode_fingerprint(node); hdnode_private_ckd_prime(node, DERIV_ACCOUNT); // account hdnode_serialize_private(node, fingerprint, coin_info[1], buf, buflen); char* xprv_acc = malloc(buflen + 1); strncpy(xprv_acc, buf, buflen); model->xprv_account = xprv_acc; hdnode_serialize_public(node, fingerprint, coin_info[2], buf, buflen); char* xpub_acc = malloc(buflen + 1); strncpy(xpub_acc, buf, buflen); model->xpub_account = xpub_acc; // external/internal (change) m/44'/0'/0'/0 or m/44'/60'/0'/0 fingerprint = hdnode_fingerprint(node); hdnode_private_ckd(node, DERIV_CHANGE); // external/internal (change) hdnode_serialize_private(node, fingerprint, coin_info[1], buf, buflen); char* xprv_ext = malloc(buflen + 1); strncpy(xprv_ext, buf, buflen); model->xprv_extended = xprv_ext; hdnode_serialize_public(node, fingerprint, coin_info[2], buf, buflen); char* xpub_ext = malloc(buflen + 1); strncpy(xpub_ext, buf, buflen); model->xpub_extended = xpub_ext; model->node = node; // Initialize addresses for(uint8_t a = 0; a < NUM_ADDRS; a++) { model->recv_addresses[a] = malloc(MAX_ADDR_BUF); memzero(model->recv_addresses[a], MAX_ADDR_BUF); flipchess_scene_1_init_address(model->recv_addresses[a], node, coin, a); // Save QR code file memzero(buf, buflen); strcpy(buf, COIN_TEXT_ARRAY[coin][0]); const unsigned char addr_num[1] = {a}; flipchess_btox(addr_num, 1, buf + strlen(buf)); strcpy(buf + strlen(buf), TEXT_QRFILE_EXT); flipchess_save_qrfile(COIN_TEXT_ARRAY[coin][2], model->recv_addresses[a], buf); memzero(buf, buflen); } model->page = PAGE_INFO; #if USE_BIP39_CACHE // Clear the BIP39 cache bip39_cache_clear(); #endif // 0 = success return FlipChessStatusSuccess; } bool flipchess_scene_1_input(InputEvent* event, void* context) { furi_assert(context); FlipChessScene1* instance = context; // Ignore input if busy // if(s_busy) { // return false; // } if(event->type == InputTypeRelease) { switch(event->key) { case InputKeyBack: with_view_model( instance->view, FlipChessScene1Model * model, { UNUSED(model); instance->callback(FlipChessCustomEventScene1Back, instance->context); }, true); break; case InputKeyRight: case InputKeyDown: with_view_model( instance->view, FlipChessScene1Model * model, { //UNUSED(model); int page = (model->page + 1) % (PAGE_ADDR_END + 1); if(page == 0) { page = PAGE_INFO; } model->page = page; }, true); break; case InputKeyLeft: case InputKeyUp: with_view_model( instance->view, FlipChessScene1Model * model, { //UNUSED(model); int page = (model->page - 1) % (PAGE_ADDR_END + 1); if(page == 0) { page = PAGE_ADDR_END; } model->page = page; }, true); break; // case InputKeyRight: case InputKeyOk: // with_view_model( // instance->view, // FlipChessScene1Model * model, // { // if(model->page >= PAGE_ADDR_BEGIN && model->page <= PAGE_ADDR_END) { // } // }, // true); // break; // case InputKeyLeft: case InputKeyMAX: break; } } return true; } void flipchess_scene_1_exit(void* context) { furi_assert(context); FlipChessScene1* instance = (FlipChessScene1*)context; with_view_model( instance->view, FlipChessScene1Model * model, { model->page = PAGE_LOADING; model->strength = FlipChessStrength256; model->coin = FlipChessCoinBTC0; memzero(model->seed, 64); // if mnemonic_only is true, then we don't need to free the data here if(!model->mnemonic_only) { memzero((void*)model->mnemonic, strlen(model->mnemonic)); free((void*)model->mnemonic); memzero((void*)model->node, sizeof(HDNode)); free((void*)model->node); memzero((void*)model->xprv_root, strlen(model->xprv_root)); memzero((void*)model->xprv_account, strlen(model->xprv_account)); memzero((void*)model->xpub_account, strlen(model->xpub_account)); memzero((void*)model->xprv_extended, strlen(model->xprv_extended)); memzero((void*)model->xpub_extended, strlen(model->xpub_extended)); free((void*)model->xprv_root); free((void*)model->xprv_account); free((void*)model->xpub_account); free((void*)model->xprv_extended); free((void*)model->xpub_extended); for(int a = 0; a < NUM_ADDRS; a++) { memzero((void*)model->recv_addresses[a], MAX_ADDR_BUF); free((void*)model->recv_addresses[a]); } } }, true); flipchess_scene_1_clear_text(); } void flipchess_scene_1_enter(void* context) { furi_assert(context); FlipChessScene1* instance = (FlipChessScene1*)context; FlipChess* app = instance->context; // BIP39 Strength setting int strength = 256; // FlipChessStrength256 // 24 words (256 bit) if(app->bip39_strength == FlipChessStrength128) { strength = 128; // 12 words (128 bit) } else if(app->bip39_strength == FlipChessStrength192) { strength = 192; // 18 words (192 bit) } // BIP39 Passphrase setting const char* passphrase_text = ""; if(app->passphrase == FlipChessPassphraseOn && strlen(app->passphrase_text) > 0) { passphrase_text = app->passphrase_text; s_warn_insecure = false; } else { s_warn_insecure = true; } // BIP44 Coin setting const uint32_t coin = app->bip44_coin; // coin_name, derivation_path s_derivation_text = COIN_TEXT_ARRAY[coin][1]; // Overwrite the saved seed with a new one setting bool overwrite = app->overwrite_saved_seed != 0; if(overwrite) { s_derivation_text = TEXT_NEW_WALLET; } flipchess_play_happy_bump(app); //notification_message(app->notification, &sequence_blink_cyan_100); flipchess_led_set_rgb(app, 255, 0, 0); with_view_model( instance->view, FlipChessScene1Model * model, { // s_busy = true; const int status = flipchess_scene_1_model_init(model, strength, coin, overwrite, passphrase_text); // nonzero status, free the mnemonic if(status != FlipChessStatusSuccess) { memzero((void*)model->mnemonic, strlen(model->mnemonic)); free((void*)model->mnemonic); } // if error, set the error message if(status == FlipChessStatusSaveError) { model->mnemonic = "ERROR:,Save error"; model->page = PAGE_MNEMONIC; flipchess_play_long_bump(app); } else if(status == FlipChessStatusLoadError) { model->mnemonic = "ERROR:,Load error"; model->page = PAGE_MNEMONIC; flipchess_play_long_bump(app); } else if(status == FlipChessStatusMnemonicCheckError) { model->mnemonic = "ERROR:,Mnemonic check error"; model->page = PAGE_MNEMONIC; flipchess_play_long_bump(app); } // s_busy = false; // if overwrite is set and mnemonic generated, return from scene immediately if(status == FlipChessStatusReturn) { instance->callback(FlipChessCustomEventScene1Back, instance->context); } }, true); } FlipChessScene1* flipchess_scene_1_alloc() { FlipChessScene1* instance = malloc(sizeof(FlipChessScene1)); instance->view = view_alloc(); view_allocate_model(instance->view, ViewModelTypeLocking, sizeof(FlipChessScene1Model)); view_set_context(instance->view, instance); // furi_assert crashes in events without this view_set_draw_callback(instance->view, (ViewDrawCallback)flipchess_scene_1_draw); view_set_input_callback(instance->view, flipchess_scene_1_input); view_set_enter_callback(instance->view, flipchess_scene_1_enter); view_set_exit_callback(instance->view, flipchess_scene_1_exit); // allocate the address node s_addr_node = (HDNode*)malloc(sizeof(HDNode)); // allocate the display text s_disp_text1 = (char*)malloc(MAX_TEXT_BUF); s_disp_text2 = (char*)malloc(MAX_TEXT_BUF); s_disp_text3 = (char*)malloc(MAX_TEXT_BUF); s_disp_text4 = (char*)malloc(MAX_TEXT_BUF); s_disp_text5 = (char*)malloc(MAX_TEXT_BUF); s_disp_text6 = (char*)malloc(MAX_TEXT_BUF); return instance; } void flipchess_scene_1_free(FlipChessScene1* instance) { furi_assert(instance); with_view_model( instance->view, FlipChessScene1Model * model, { UNUSED(model); }, true); // free the address node memzero(s_addr_node, sizeof(HDNode)); free(s_addr_node); // free the display text flipchess_scene_1_clear_text(); free(s_disp_text1); free(s_disp_text2); free(s_disp_text3); free(s_disp_text4); free(s_disp_text5); free(s_disp_text6); view_free(instance->view); free(instance); } View* flipchess_scene_1_get_view(FlipChessScene1* instance) { furi_assert(instance); return instance->view; }