#include #include "file_helper.h" #include "flipper_file_helper.h" #include "flipper_file.h" #include "flipper_file_i.h" #include #include FlipperFile* flipper_file_alloc(Storage* storage) { // furi_assert(storage); FlipperFile* flipper_file = malloc(sizeof(FlipperFile)); flipper_file->storage = storage; flipper_file->file = storage_file_alloc(flipper_file->storage); flipper_file->strict_mode = false; return flipper_file; } void flipper_file_free(FlipperFile* flipper_file) { furi_assert(flipper_file); if(storage_file_is_open(flipper_file->file)) { storage_file_close(flipper_file->file); } storage_file_free(flipper_file->file); free(flipper_file); } void flipper_file_set_strict_mode(FlipperFile* flipper_file, bool strict_mode) { furi_assert(flipper_file); flipper_file->strict_mode = strict_mode; } bool flipper_file_open_existing(FlipperFile* flipper_file, const char* filename) { furi_assert(flipper_file); bool result = storage_file_open( flipper_file->file, filename, FSAM_READ | FSAM_WRITE, FSOM_OPEN_EXISTING); return result; } bool flipper_file_open_append(FlipperFile* flipper_file, const char* filename) { furi_assert(flipper_file); bool result = storage_file_open(flipper_file->file, filename, FSAM_READ | FSAM_WRITE, FSOM_OPEN_APPEND); // Add EOL if it is not there if(storage_file_size(flipper_file->file) >= 1) { do { char last_char; result = false; if(!file_helper_seek(flipper_file->file, -1)) break; uint16_t bytes_were_read = storage_file_read(flipper_file->file, &last_char, 1); if(bytes_were_read != 1) break; if(last_char != flipper_file_eoln) { if(!file_helper_write_eol(flipper_file->file)) break; } result = true; } while(false); } return result; } bool flipper_file_open_always(FlipperFile* flipper_file, const char* filename) { furi_assert(flipper_file); bool result = storage_file_open( flipper_file->file, filename, FSAM_READ | FSAM_WRITE, FSOM_CREATE_ALWAYS); return result; } bool flipper_file_open_new(FlipperFile* flipper_file, const char* filename) { furi_assert(flipper_file); bool result = storage_file_open(flipper_file->file, filename, FSAM_READ | FSAM_WRITE, FSOM_CREATE_NEW); return result; } bool flipper_file_close(FlipperFile* flipper_file) { furi_assert(flipper_file); if(storage_file_is_open(flipper_file->file)) { return storage_file_close(flipper_file->file); } return true; } bool flipper_file_rewind(FlipperFile* flipper_file) { furi_assert(flipper_file); return storage_file_seek(flipper_file->file, 0, true); } bool flipper_file_read_header(FlipperFile* flipper_file, string_t filetype, uint32_t* version) { bool result = false; do { result = flipper_file_read_string(flipper_file, flipper_file_filetype_key, filetype); if(!result) break; result = flipper_file_read_uint32(flipper_file, flipper_file_version_key, version, 1); if(!result) break; } while(false); return result; } bool flipper_file_write_header( FlipperFile* flipper_file, string_t filetype, const uint32_t version) { bool result = false; do { result = flipper_file_write_string(flipper_file, flipper_file_filetype_key, filetype); if(!result) break; result = flipper_file_write_uint32(flipper_file, flipper_file_version_key, &version, 1); if(!result) break; } while(false); return result; } bool flipper_file_write_header_cstr( FlipperFile* flipper_file, const char* filetype, const uint32_t version) { bool result = false; string_t value; string_init_set(value, filetype); result = flipper_file_write_header(flipper_file, value, version); string_clear(value); return result; } bool flipper_file_get_value_count(FlipperFile* flipper_file, const char* key, uint32_t* count) { furi_assert(flipper_file); bool result = false; bool last = false; string_t value; string_init(value); uint32_t position = storage_file_tell(flipper_file->file); do { if(!flipper_file_seek_to_key(flipper_file->file, key, flipper_file->strict_mode)) break; // Balance between speed and memory consumption // I prefer lower speed but less memory consumption *count = 0; result = true; while(true) { if(!file_helper_read_value(flipper_file->file, value, &last)) { result = false; break; } *count = *count + 1; if(last) break; } } while(false); if(!storage_file_seek(flipper_file->file, position, true)) { result = false; } string_clear(value); return result; } bool flipper_file_write_comment(FlipperFile* flipper_file, string_t data) { furi_assert(flipper_file); bool result = false; do { const char comment_buffer[2] = {flipper_file_comment, ' '}; result = file_helper_write(flipper_file->file, comment_buffer, sizeof(comment_buffer)); if(!result) break; result = file_helper_write(flipper_file->file, string_get_cstr(data), string_size(data)); if(!result) break; result = file_helper_write_eol(flipper_file->file); } while(false); return result; } bool flipper_file_write_comment_cstr(FlipperFile* flipper_file, const char* data) { bool result = false; string_t value; string_init_set(value, data); result = flipper_file_write_comment(flipper_file, value); string_clear(value); return result; } bool flipper_file_delete_key_and_call( FlipperFile* flipper_file, const char* key, flipper_file_cb call, const char* cb_key, const void* cb_data, const uint16_t cb_data_size) { bool result = false; File* scratch_file = storage_file_alloc(flipper_file->storage); do { // get size uint64_t file_size = storage_file_size(flipper_file->file); if(file_size == 0) break; if(!storage_file_seek(flipper_file->file, 0, true)) break; // find key if(!flipper_file_seek_to_key(flipper_file->file, key, flipper_file->strict_mode)) break; // get key start position uint64_t start_position = storage_file_tell(flipper_file->file) - strlen(key); if(start_position >= 2) { start_position -= 2; } else { // something wrong break; } // get value end position if(!file_helper_seek_to_next_line(flipper_file->file)) break; uint64_t end_position = storage_file_tell(flipper_file->file); // newline symbol if(end_position < file_size) { end_position += 1; } // open scratchpad const char* scratch_name = ""; if(!flipper_file_get_scratchpad_name(&scratch_name)) break; if(!storage_file_open( scratch_file, scratch_name, FSAM_READ | FSAM_WRITE, FSOM_CREATE_ALWAYS)) break; // copy key file before key to scratchpad if(!file_helper_copy(flipper_file->file, scratch_file, 0, start_position)) break; // do something in between if needed if(call != NULL) { if(!call(scratch_file, cb_key, cb_data, cb_data_size)) break; }; // copy key file after key value to scratchpad if(!file_helper_copy(flipper_file->file, scratch_file, end_position, file_size)) break; file_size = storage_file_tell(scratch_file); if(file_size == 0) break; if(!storage_file_seek(flipper_file->file, 0, true)) break; // copy whole scratchpad file to the original file if(!file_helper_copy(scratch_file, flipper_file->file, 0, file_size)) break; // and truncate original file if(!storage_file_truncate(flipper_file->file)) break; // close and remove scratchpad file if(!storage_file_close(scratch_file)) break; if(storage_common_remove(flipper_file->storage, scratch_name) != FSE_OK) break; result = true; } while(false); storage_file_free(scratch_file); return result; } bool flipper_file_delete_key(FlipperFile* flipper_file, const char* key) { furi_assert(flipper_file); return flipper_file_delete_key_and_call(flipper_file, key, NULL, NULL, NULL, 0); } bool flipper_file_write_internal( File* file, const char* key, const void* _data, const uint16_t data_size, FlipperFileValueType type) { bool result = false; string_t value; string_init(value); do { result = flipper_file_write_key(file, key); if(!result) break; for(uint16_t i = 0; i < data_size; i++) { switch(type) { case FlipperFileValueHex: { const uint8_t* data = _data; string_printf(value, "%02X", data[i]); }; break; case FlipperFileValueFloat: { const float* data = _data; string_printf(value, "%f", data[i]); }; break; case FlipperFileValueInt32: { const int32_t* data = _data; string_printf(value, "%" PRIi32, data[i]); }; break; case FlipperFileValueUint32: { const uint32_t* data = _data; string_printf(value, "%" PRId32, data[i]); }; break; } if((i + 1) < data_size) { string_cat(value, " "); } result = file_helper_write(file, string_get_cstr(value), string_size(value)); if(!result) break; } result = file_helper_write_eol(file); } while(false); string_clear(value); return result; } bool flipper_file_read_internal( File* file, const char* key, void* _data, const uint16_t data_size, bool strict_mode, FlipperFileValueType type) { bool result = false; string_t value; string_init(value); if(flipper_file_seek_to_key(file, key, strict_mode)) { result = true; for(uint16_t i = 0; i < data_size; i++) { bool last = false; result = file_helper_read_value(file, value, &last); if(result) { int scan_values = 0; switch(type) { case FlipperFileValueHex: { uint8_t* data = _data; // sscanf "%02X" does not work here if(hex_chars_to_uint8( string_get_char(value, 0), string_get_char(value, 1), &data[i])) { scan_values = 1; } }; break; case FlipperFileValueFloat: { float* data = _data; // newlib-nano does not have sscanf for floats // scan_values = sscanf(string_get_cstr(value), "%f", &data[i]); char* end_char; data[i] = strtof(string_get_cstr(value), &end_char); if(*end_char == 0) { // very probably ok scan_values = 1; } }; break; case FlipperFileValueInt32: { int32_t* data = _data; scan_values = sscanf(string_get_cstr(value), "%" PRIi32, &data[i]); }; break; case FlipperFileValueUint32: { uint32_t* data = _data; scan_values = sscanf(string_get_cstr(value), "%" PRId32, &data[i]); }; break; } if(scan_values != 1) { result = false; break; } } else { break; } if(last && ((i + 1) != data_size)) { result = false; break; } } } string_clear(value); return result; } File* flipper_file_get_file(FlipperFile* flipper_file) { furi_assert(flipper_file); furi_assert(flipper_file->file); return flipper_file->file; }