mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-21 04:11:48 +03:00
056446dfed
* storage: added global #defines for /int, /ext & /any * storage: introduced PATH_EXT, PATH_INT& PATH_ANY macros * core apps: moved hardcoded config files names to separate headers; prefixed them with "."; updater: added file name migration to new naming convention on backup extraction * storage: fixed storage_merge_recursive handling of complex directory structures; storage_move_to_sd: changed data migration logic to all non-dot files & all folders * core: added macro aliases for core record names * Bumped protobuf commit pointer * storage: reserved 5 pages in /int; denying write&creation of non-dot files when running out of free space Co-authored-by: あく <alleteam@gmail.com>
371 lines
11 KiB
C
371 lines
11 KiB
C
#include "tar_archive.h"
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#include <microtar.h>
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#include <storage/storage.h>
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#include <furi.h>
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#include <toolbox/path.h>
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#define TAG "TarArch"
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#define MAX_NAME_LEN 255
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#define FILE_BLOCK_SIZE 512
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#define FILE_OPEN_NTRIES 10
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#define FILE_OPEN_RETRY_DELAY 25
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typedef struct TarArchive {
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Storage* storage;
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mtar_t tar;
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tar_unpack_file_cb unpack_cb;
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void* unpack_cb_context;
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} TarArchive;
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/* API WRAPPER */
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static int mtar_storage_file_write(void* stream, const void* data, unsigned size) {
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uint16_t bytes_written = storage_file_write(stream, data, size);
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return (bytes_written == size) ? bytes_written : MTAR_EWRITEFAIL;
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}
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static int mtar_storage_file_read(void* stream, void* data, unsigned size) {
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uint16_t bytes_read = storage_file_read(stream, data, size);
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return (bytes_read == size) ? bytes_read : MTAR_EREADFAIL;
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}
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static int mtar_storage_file_seek(void* stream, unsigned offset) {
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bool res = storage_file_seek(stream, offset, true);
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return res ? MTAR_ESUCCESS : MTAR_ESEEKFAIL;
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}
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static int mtar_storage_file_close(void* stream) {
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if(stream) {
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storage_file_close(stream);
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storage_file_free(stream);
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}
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return MTAR_ESUCCESS;
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}
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const struct mtar_ops filesystem_ops = {
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.read = mtar_storage_file_read,
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.write = mtar_storage_file_write,
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.seek = mtar_storage_file_seek,
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.close = mtar_storage_file_close,
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};
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TarArchive* tar_archive_alloc(Storage* storage) {
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furi_check(storage);
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TarArchive* archive = malloc(sizeof(TarArchive));
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archive->storage = storage;
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archive->unpack_cb = NULL;
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return archive;
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}
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bool tar_archive_open(TarArchive* archive, const char* path, TarOpenMode mode) {
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furi_assert(archive);
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FS_AccessMode access_mode;
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FS_OpenMode open_mode;
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int mtar_access = 0;
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switch(mode) {
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case TAR_OPEN_MODE_READ:
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mtar_access = MTAR_READ;
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access_mode = FSAM_READ;
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open_mode = FSOM_OPEN_EXISTING;
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break;
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case TAR_OPEN_MODE_WRITE:
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mtar_access = MTAR_WRITE;
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access_mode = FSAM_WRITE;
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open_mode = FSOM_CREATE_ALWAYS;
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break;
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default:
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return false;
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}
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File* stream = storage_file_alloc(archive->storage);
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if(!storage_file_open(stream, path, access_mode, open_mode)) {
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storage_file_free(stream);
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return false;
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}
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mtar_init(&archive->tar, mtar_access, &filesystem_ops, stream);
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return true;
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}
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void tar_archive_free(TarArchive* archive) {
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furi_assert(archive);
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if(mtar_is_open(&archive->tar)) {
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mtar_close(&archive->tar);
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}
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free(archive);
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}
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void tar_archive_set_file_callback(TarArchive* archive, tar_unpack_file_cb callback, void* context) {
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furi_assert(archive);
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archive->unpack_cb = callback;
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archive->unpack_cb_context = context;
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}
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static int tar_archive_entry_counter(mtar_t* tar, const mtar_header_t* header, void* param) {
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UNUSED(tar);
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UNUSED(header);
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int32_t* counter = param;
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(*counter)++;
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return 0;
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}
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int32_t tar_archive_get_entries_count(TarArchive* archive) {
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int32_t counter = 0;
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if(mtar_foreach(&archive->tar, tar_archive_entry_counter, &counter) != MTAR_ESUCCESS) {
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counter = -1;
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}
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return counter;
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}
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bool tar_archive_dir_add_element(TarArchive* archive, const char* dirpath) {
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furi_assert(archive);
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return (mtar_write_dir_header(&archive->tar, dirpath) == MTAR_ESUCCESS);
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}
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bool tar_archive_finalize(TarArchive* archive) {
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furi_assert(archive);
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return (mtar_finalize(&archive->tar) == MTAR_ESUCCESS);
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}
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bool tar_archive_store_data(
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TarArchive* archive,
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const char* path,
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const uint8_t* data,
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const int32_t data_len) {
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furi_assert(archive);
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return (
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tar_archive_file_add_header(archive, path, data_len) &&
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tar_archive_file_add_data_block(archive, data, data_len) &&
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tar_archive_file_finalize(archive));
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}
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bool tar_archive_file_add_header(TarArchive* archive, const char* path, const int32_t data_len) {
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furi_assert(archive);
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return (mtar_write_file_header(&archive->tar, path, data_len) == MTAR_ESUCCESS);
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}
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bool tar_archive_file_add_data_block(
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TarArchive* archive,
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const uint8_t* data_block,
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const int32_t block_len) {
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furi_assert(archive);
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return (mtar_write_data(&archive->tar, data_block, block_len) == block_len);
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}
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bool tar_archive_file_finalize(TarArchive* archive) {
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furi_assert(archive);
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return (mtar_end_data(&archive->tar) == MTAR_ESUCCESS);
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}
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typedef struct {
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TarArchive* archive;
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const char* work_dir;
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Storage_name_converter converter;
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} TarArchiveDirectoryOpParams;
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static int archive_extract_foreach_cb(mtar_t* tar, const mtar_header_t* header, void* param) {
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TarArchiveDirectoryOpParams* op_params = param;
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TarArchive* archive = op_params->archive;
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bool skip_entry = false;
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if(archive->unpack_cb) {
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skip_entry = !archive->unpack_cb(
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header->name, header->type == MTAR_TDIR, archive->unpack_cb_context);
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}
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if(skip_entry) {
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FURI_LOG_W(TAG, "filter: skipping entry \"%s\"", header->name);
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return 0;
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}
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string_t full_extracted_fname;
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if(header->type == MTAR_TDIR) {
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string_init(full_extracted_fname);
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path_concat(op_params->work_dir, header->name, full_extracted_fname);
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bool create_res =
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storage_simply_mkdir(archive->storage, string_get_cstr(full_extracted_fname));
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string_clear(full_extracted_fname);
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return create_res ? 0 : -1;
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}
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if(header->type != MTAR_TREG) {
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FURI_LOG_W(TAG, "not extracting unsupported type \"%s\"", header->name);
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return 0;
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}
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string_init(full_extracted_fname);
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string_t converted_fname;
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string_init_set(converted_fname, header->name);
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if(op_params->converter) {
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op_params->converter(converted_fname);
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}
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path_concat(op_params->work_dir, string_get_cstr(converted_fname), full_extracted_fname);
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string_clear(converted_fname);
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FURI_LOG_I(TAG, "Extracting %d bytes to '%s'", header->size, header->name);
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File* out_file = storage_file_alloc(archive->storage);
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uint8_t* readbuf = malloc(FILE_BLOCK_SIZE);
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bool failed = false;
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uint8_t n_tries = FILE_OPEN_NTRIES;
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do {
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while(n_tries-- > 0) {
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if(storage_file_open(
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out_file,
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string_get_cstr(full_extracted_fname),
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FSAM_WRITE,
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FSOM_CREATE_ALWAYS)) {
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break;
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}
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FURI_LOG_W(
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TAG,
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"Failed to open '%s', reties: %d",
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string_get_cstr(full_extracted_fname),
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n_tries);
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storage_file_close(out_file);
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furi_delay_ms(FILE_OPEN_RETRY_DELAY);
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}
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if(!storage_file_is_open(out_file)) {
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failed = true;
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break;
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}
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while(!mtar_eof_data(tar)) {
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int32_t readcnt = mtar_read_data(tar, readbuf, FILE_BLOCK_SIZE);
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if(!readcnt || !storage_file_write(out_file, readbuf, readcnt)) {
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failed = true;
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break;
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}
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}
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} while(false);
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storage_file_free(out_file);
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free(readbuf);
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string_clear(full_extracted_fname);
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return failed ? -1 : 0;
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}
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bool tar_archive_unpack_to(
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TarArchive* archive,
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const char* destination,
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Storage_name_converter converter) {
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furi_assert(archive);
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TarArchiveDirectoryOpParams param = {
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.archive = archive,
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.work_dir = destination,
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.converter = converter,
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};
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FURI_LOG_I(TAG, "Restoring '%s'", destination);
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return (mtar_foreach(&archive->tar, archive_extract_foreach_cb, ¶m) == MTAR_ESUCCESS);
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};
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bool tar_archive_add_file(
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TarArchive* archive,
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const char* fs_file_path,
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const char* archive_fname,
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const int32_t file_size) {
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furi_assert(archive);
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uint8_t* file_buffer = malloc(FILE_BLOCK_SIZE);
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bool success = false;
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File* src_file = storage_file_alloc(archive->storage);
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uint8_t n_tries = FILE_OPEN_NTRIES;
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do {
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while(n_tries-- > 0) {
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if(storage_file_open(src_file, fs_file_path, FSAM_READ, FSOM_OPEN_EXISTING)) {
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break;
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}
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FURI_LOG_W(TAG, "Failed to open '%s', reties: %d", fs_file_path, n_tries);
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storage_file_close(src_file);
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furi_delay_ms(FILE_OPEN_RETRY_DELAY);
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}
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if(!storage_file_is_open(src_file) ||
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!tar_archive_file_add_header(archive, archive_fname, file_size)) {
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break;
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}
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uint16_t bytes_read = 0;
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while((bytes_read = storage_file_read(src_file, file_buffer, FILE_BLOCK_SIZE))) {
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success = tar_archive_file_add_data_block(archive, file_buffer, bytes_read);
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if(!success) {
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break;
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}
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}
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success = success && tar_archive_file_finalize(archive);
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} while(false);
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storage_file_free(src_file);
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free(file_buffer);
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return success;
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}
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bool tar_archive_add_dir(TarArchive* archive, const char* fs_full_path, const char* path_prefix) {
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furi_assert(archive);
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furi_check(path_prefix);
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File* directory = storage_file_alloc(archive->storage);
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FileInfo file_info;
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FURI_LOG_I(TAG, "Backing up '%s', '%s'", fs_full_path, path_prefix);
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char* name = malloc(MAX_NAME_LEN);
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bool success = false;
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do {
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if(!storage_dir_open(directory, fs_full_path)) {
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break;
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}
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while(true) {
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if(!storage_dir_read(directory, &file_info, name, MAX_NAME_LEN)) {
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success = true; /* empty dir / no more files */
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break;
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}
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string_t element_name, element_fs_abs_path;
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string_init(element_name);
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string_init(element_fs_abs_path);
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path_concat(fs_full_path, name, element_fs_abs_path);
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if(strlen(path_prefix)) {
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path_concat(path_prefix, name, element_name);
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} else {
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string_init_set(element_name, name);
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}
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if(file_info.flags & FSF_DIRECTORY) {
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success = tar_archive_dir_add_element(archive, string_get_cstr(element_name)) &&
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tar_archive_add_dir(
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archive,
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string_get_cstr(element_fs_abs_path),
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string_get_cstr(element_name));
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} else {
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success = tar_archive_add_file(
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archive,
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string_get_cstr(element_fs_abs_path),
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string_get_cstr(element_name),
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file_info.size);
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}
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string_clear(element_name);
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string_clear(element_fs_abs_path);
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if(!success) {
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break;
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}
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}
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} while(false);
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free(name);
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storage_file_free(directory);
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return success;
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}
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