/** * Codes for errors generated within this library */ export declare const FlateErrorCode: { readonly UnexpectedEOF: 0; readonly InvalidBlockType: 1; readonly InvalidLengthLiteral: 2; readonly InvalidDistance: 3; readonly StreamFinished: 4; readonly NoStreamHandler: 5; readonly InvalidHeader: 6; readonly NoCallback: 7; readonly InvalidUTF8: 8; readonly ExtraFieldTooLong: 9; readonly InvalidDate: 10; readonly FilenameTooLong: 11; readonly StreamFinishing: 12; readonly InvalidZipData: 13; readonly UnknownCompressionMethod: 14; }; /** * An error generated within this library */ export interface FlateError extends Error { /** * The code associated with this error */ code: number; } /** * Options for compressing data into a DEFLATE format */ export interface DeflateOptions { /** * The level of compression to use, ranging from 0-9. * * 0 will store the data without compression. * 1 is fastest but compresses the worst, 9 is slowest but compresses the best. * The default level is 6. * * Typically, binary data benefits much more from higher values than text data. * In both cases, higher values usually take disproportionately longer than the reduction in final size that results. * * For example, a 1 MB text file could: * - become 1.01 MB with level 0 in 1ms * - become 400 kB with level 1 in 10ms * - become 320 kB with level 9 in 100ms */ level?: 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9; /** * The memory level to use, ranging from 0-12. Increasing this increases speed and compression ratio at the cost of memory. * * Note that this is exponential: while level 0 uses 4 kB, level 4 uses 64 kB, level 8 uses 1 MB, and level 12 uses 16 MB. * It is recommended not to lower the value below 4, since that tends to hurt performance. * In addition, values above 8 tend to help very little on most data and can even hurt performance. * * The default value is automatically determined based on the size of the input data. */ mem?: 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12; } /** * Options for compressing data into a GZIP format */ export interface GzipOptions extends DeflateOptions { /** * When the file was last modified. Defaults to the current time. * Set this to 0 to avoid revealing a modification date entirely. */ mtime?: Date | string | number; /** * The filename of the data. If the `gunzip` command is used to decompress the data, it will output a file * with this name instead of the name of the compressed file. */ filename?: string; } /** * Options for compressing data into a Zlib format */ export interface ZlibOptions extends DeflateOptions { } /** * Handler for data (de)compression streams * @param data The data output from the stream processor * @param final Whether this is the final block */ export declare type FlateStreamHandler = (data: Uint8Array, final: boolean) => void; /** * Handler for asynchronous data (de)compression streams * @param err Any error that occurred * @param data The data output from the stream processor * @param final Whether this is the final block */ export declare type AsyncFlateStreamHandler = (err: FlateError | null, data: Uint8Array, final: boolean) => void; /** * Callback for asynchronous (de)compression methods * @param err Any error that occurred * @param data The resulting data. Only present if `err` is null */ export declare type FlateCallback = (err: FlateError | null, data: Uint8Array) => void; interface AsyncOptions { /** * Whether or not to "consume" the source data. This will make the typed array/buffer you pass in * unusable but will increase performance and reduce memory usage. */ consume?: boolean; } /** * Options for compressing data asynchronously into a DEFLATE format */ export interface AsyncDeflateOptions extends DeflateOptions, AsyncOptions { } /** * Options for decompressing DEFLATE data asynchronously */ export interface AsyncInflateOptions extends AsyncOptions { /** * The original size of the data. Currently, the asynchronous API disallows * writing into a buffer you provide; the best you can do is provide the * size in bytes and be given back a new typed array. */ size?: number; } /** * Options for compressing data asynchronously into a GZIP format */ export interface AsyncGzipOptions extends GzipOptions, AsyncOptions { } /** * Options for decompressing GZIP data asynchronously */ export interface AsyncGunzipOptions extends AsyncOptions { } /** * Options for compressing data asynchronously into a Zlib format */ export interface AsyncZlibOptions extends ZlibOptions, AsyncOptions { } /** * Options for decompressing Zlib data asynchronously */ export interface AsyncUnzlibOptions extends AsyncInflateOptions { } /** * A terminable compression/decompression process */ export interface AsyncTerminable { /** * Terminates the worker thread immediately. The callback will not be called. */ (): void; } /** * Streaming DEFLATE compression */ export declare class Deflate { /** * Creates a DEFLATE stream * @param opts The compression options * @param cb The callback to call whenever data is deflated */ constructor(opts: DeflateOptions, cb?: FlateStreamHandler); constructor(cb?: FlateStreamHandler); private o; private d; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; private p; /** * Pushes a chunk to be deflated * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchronous streaming DEFLATE compression */ export declare class AsyncDeflate { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Creates an asynchronous DEFLATE stream * @param opts The compression options * @param cb The callback to call whenever data is deflated */ constructor(opts: DeflateOptions, cb?: AsyncFlateStreamHandler); /** * Creates an asynchronous DEFLATE stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: AsyncFlateStreamHandler); /** * Pushes a chunk to be deflated * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * A method to terminate the stream's internal worker. Subsequent calls to * push() will silently fail. */ terminate: AsyncTerminable; } /** * Asynchronously compresses data with DEFLATE without any wrapper * @param data The data to compress * @param opts The compression options * @param cb The function to be called upon compression completion * @returns A function that can be used to immediately terminate the compression */ export declare function deflate(data: Uint8Array, opts: AsyncDeflateOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously compresses data with DEFLATE without any wrapper * @param data The data to compress * @param cb The function to be called upon compression completion */ export declare function deflate(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Compresses data with DEFLATE without any wrapper * @param data The data to compress * @param opts The compression options * @returns The deflated version of the data */ export declare function deflateSync(data: Uint8Array, opts?: DeflateOptions): Uint8Array; /** * Streaming DEFLATE decompression */ export declare class Inflate { /** * Creates an inflation stream * @param cb The callback to call whenever data is inflated */ constructor(cb?: FlateStreamHandler); private s; private o; private p; private d; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; private e; private c; /** * Pushes a chunk to be inflated * @param chunk The chunk to push * @param final Whether this is the final chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchronous streaming DEFLATE decompression */ export declare class AsyncInflate { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Creates an asynchronous inflation stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: AsyncFlateStreamHandler); /** * Pushes a chunk to be inflated * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * A method to terminate the stream's internal worker. Subsequent calls to * push() will silently fail. */ terminate: AsyncTerminable; } /** * Asynchronously expands DEFLATE data with no wrapper * @param data The data to decompress * @param opts The decompression options * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function inflate(data: Uint8Array, opts: AsyncInflateOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously expands DEFLATE data with no wrapper * @param data The data to decompress * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function inflate(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Expands DEFLATE data with no wrapper * @param data The data to decompress * @param out Where to write the data. Saves memory if you know the decompressed size and provide an output buffer of that length. * @returns The decompressed version of the data */ export declare function inflateSync(data: Uint8Array, out?: Uint8Array): Uint8Array; /** * Streaming GZIP compression */ export declare class Gzip { private c; private l; private v; private o; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; /** * Creates a GZIP stream * @param opts The compression options * @param cb The callback to call whenever data is deflated */ constructor(opts: GzipOptions, cb?: FlateStreamHandler); /** * Creates a GZIP stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: FlateStreamHandler); /** * Pushes a chunk to be GZIPped * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; private p; } /** * Asynchronous streaming GZIP compression */ export declare class AsyncGzip { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Creates an asynchronous GZIP stream * @param opts The compression options * @param cb The callback to call whenever data is deflated */ constructor(opts: GzipOptions, cb?: AsyncFlateStreamHandler); /** * Creates an asynchronous GZIP stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: AsyncFlateStreamHandler); /** * Pushes a chunk to be GZIPped * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * A method to terminate the stream's internal worker. Subsequent calls to * push() will silently fail. */ terminate: AsyncTerminable; } /** * Asynchronously compresses data with GZIP * @param data The data to compress * @param opts The compression options * @param cb The function to be called upon compression completion * @returns A function that can be used to immediately terminate the compression */ export declare function gzip(data: Uint8Array, opts: AsyncGzipOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously compresses data with GZIP * @param data The data to compress * @param cb The function to be called upon compression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function gzip(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Compresses data with GZIP * @param data The data to compress * @param opts The compression options * @returns The gzipped version of the data */ export declare function gzipSync(data: Uint8Array, opts?: GzipOptions): Uint8Array; /** * Streaming GZIP decompression */ export declare class Gunzip { private v; private p; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; /** * Creates a GUNZIP stream * @param cb The callback to call whenever data is inflated */ constructor(cb?: FlateStreamHandler); /** * Pushes a chunk to be GUNZIPped * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchronous streaming GZIP decompression */ export declare class AsyncGunzip { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Creates an asynchronous GUNZIP stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: AsyncFlateStreamHandler); /** * Pushes a chunk to be GUNZIPped * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * A method to terminate the stream's internal worker. Subsequent calls to * push() will silently fail. */ terminate: AsyncTerminable; } /** * Asynchronously expands GZIP data * @param data The data to decompress * @param opts The decompression options * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function gunzip(data: Uint8Array, opts: AsyncGunzipOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously expands GZIP data * @param data The data to decompress * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function gunzip(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Expands GZIP data * @param data The data to decompress * @param out Where to write the data. GZIP already encodes the output size, so providing this doesn't save memory. * @returns The decompressed version of the data */ export declare function gunzipSync(data: Uint8Array, out?: Uint8Array): Uint8Array; /** * Streaming Zlib compression */ export declare class Zlib { private c; private v; private o; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; /** * Creates a Zlib stream * @param opts The compression options * @param cb The callback to call whenever data is deflated */ constructor(opts: ZlibOptions, cb?: FlateStreamHandler); /** * Creates a Zlib stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: FlateStreamHandler); /** * Pushes a chunk to be zlibbed * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; private p; } /** * Asynchronous streaming Zlib compression */ export declare class AsyncZlib { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Creates an asynchronous DEFLATE stream * @param opts The compression options * @param cb The callback to call whenever data is deflated */ constructor(opts: ZlibOptions, cb?: AsyncFlateStreamHandler); /** * Creates an asynchronous DEFLATE stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: AsyncFlateStreamHandler); /** * Pushes a chunk to be deflated * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * A method to terminate the stream's internal worker. Subsequent calls to * push() will silently fail. */ terminate: AsyncTerminable; } /** * Asynchronously compresses data with Zlib * @param data The data to compress * @param opts The compression options * @param cb The function to be called upon compression completion */ export declare function zlib(data: Uint8Array, opts: AsyncZlibOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously compresses data with Zlib * @param data The data to compress * @param cb The function to be called upon compression completion * @returns A function that can be used to immediately terminate the compression */ export declare function zlib(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Compress data with Zlib * @param data The data to compress * @param opts The compression options * @returns The zlib-compressed version of the data */ export declare function zlibSync(data: Uint8Array, opts?: ZlibOptions): Uint8Array; /** * Streaming Zlib decompression */ export declare class Unzlib { private v; private p; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; /** * Creates a Zlib decompression stream * @param cb The callback to call whenever data is inflated */ constructor(cb?: FlateStreamHandler); /** * Pushes a chunk to be unzlibbed * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchronous streaming Zlib decompression */ export declare class AsyncUnzlib { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Creates an asynchronous Zlib decompression stream * @param cb The callback to call whenever data is deflated */ constructor(cb?: AsyncFlateStreamHandler); /** * Pushes a chunk to be decompressed from Zlib * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * A method to terminate the stream's internal worker. Subsequent calls to * push() will silently fail. */ terminate: AsyncTerminable; } /** * Asynchronously expands Zlib data * @param data The data to decompress * @param opts The decompression options * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function unzlib(data: Uint8Array, opts: AsyncGunzipOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously expands Zlib data * @param data The data to decompress * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function unzlib(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Expands Zlib data * @param data The data to decompress * @param out Where to write the data. Saves memory if you know the decompressed size and provide an output buffer of that length. * @returns The decompressed version of the data */ export declare function unzlibSync(data: Uint8Array, out?: Uint8Array): Uint8Array; export { gzip as compress, AsyncGzip as AsyncCompress }; export { gzipSync as compressSync, Gzip as Compress }; /** * Streaming GZIP, Zlib, or raw DEFLATE decompression */ export declare class Decompress { private G; private I; private Z; /** * Creates a decompression stream * @param cb The callback to call whenever data is decompressed */ constructor(cb?: FlateStreamHandler); private s; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; private p; /** * Pushes a chunk to be decompressed * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression */ export declare class AsyncDecompress { private G; private I; private Z; /** * Creates an asynchronous decompression stream * @param cb The callback to call whenever data is decompressed */ constructor(cb?: AsyncFlateStreamHandler); /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Pushes a chunk to be decompressed * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchrononously expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format * @param data The data to decompress * @param opts The decompression options * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function decompress(data: Uint8Array, opts: AsyncInflateOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchrononously expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format * @param data The data to decompress * @param cb The function to be called upon decompression completion * @returns A function that can be used to immediately terminate the decompression */ export declare function decompress(data: Uint8Array, cb: FlateCallback): AsyncTerminable; /** * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format * @param data The data to decompress * @param out Where to write the data. Saves memory if you know the decompressed size and provide an output buffer of that length. * @returns The decompressed version of the data */ export declare function decompressSync(data: Uint8Array, out?: Uint8Array): Uint8Array; /** * Attributes for files added to a ZIP archive object */ export interface ZipAttributes { /** * The operating system of origin for this file. The value is defined * by PKZIP's APPNOTE.txt, section 4.4.2.2. For example, 0 (the default) * is MS/DOS, 3 is Unix, 19 is macOS. */ os?: number; /** * The file's attributes. These are traditionally somewhat complicated * and platform-dependent, so using them is scarcely necessary. However, * here is a representation of what this is, bit by bit: * * `TTTTugtrwxrwxrwx0000000000ADVSHR` * * TTTT = file type (rarely useful) * * u = setuid, g = setgid, t = sticky * * rwx = user permissions, rwx = group permissions, rwx = other permissions * * 0000000000 = unused * * A = archive, D = directory, V = volume label, S = system file, H = hidden, R = read-only * * If you want to set the Unix permissions, for instance, just bit shift by 16, e.g. 0o644 << 16. * Note that attributes usually only work in conjunction with the `os` setting: you must use * `os` = 3 (Unix) if you want to set Unix permissions */ attrs?: number; /** * Extra metadata to add to the file. This field is defined by PKZIP's APPNOTE.txt, * section 4.4.28. At most 65,535 bytes may be used in each ID. The ID must be an * integer between 0 and 65,535, inclusive. * * This field is incredibly rare and almost never needed except for compliance with * proprietary standards and software. */ extra?: Record; /** * The comment to attach to the file. This field is defined by PKZIP's APPNOTE.txt, * section 4.4.26. The comment must be at most 65,535 bytes long UTF-8 encoded. This * field is not read by consumer software. */ comment?: string; /** * When the file was last modified. Defaults to the current time. */ mtime?: GzipOptions['mtime']; } /** * Options for creating a ZIP archive */ export interface ZipOptions extends DeflateOptions, ZipAttributes { } /** * Options for expanding a ZIP archive */ export interface UnzipOptions { /** * A filter function to extract only certain files from a ZIP archive */ filter?: UnzipFileFilter; } /** * Options for asynchronously creating a ZIP archive */ export interface AsyncZipOptions extends AsyncDeflateOptions, ZipAttributes { } /** * Options for asynchronously expanding a ZIP archive */ export interface AsyncUnzipOptions extends UnzipOptions { } /** * A file that can be used to create a ZIP archive */ export declare type ZippableFile = Uint8Array | Zippable | [Uint8Array | Zippable, ZipOptions]; /** * A file that can be used to asynchronously create a ZIP archive */ export declare type AsyncZippableFile = Uint8Array | AsyncZippable | [Uint8Array | AsyncZippable, AsyncZipOptions]; /** * The complete directory structure of a ZIPpable archive */ export interface Zippable { [path: string]: ZippableFile; } /** * The complete directory structure of an asynchronously ZIPpable archive */ export interface AsyncZippable { [path: string]: AsyncZippableFile; } /** * An unzipped archive. The full path of each file is used as the key, * and the file is the value */ export interface Unzipped { [path: string]: Uint8Array; } /** * Handler for string generation streams * @param data The string output from the stream processor * @param final Whether this is the final block */ export declare type StringStreamHandler = (data: string, final: boolean) => void; /** * Callback for asynchronous ZIP decompression * @param err Any error that occurred * @param data The decompressed ZIP archive */ export declare type UnzipCallback = (err: FlateError | null, data: Unzipped) => void; /** * Handler for streaming ZIP decompression * @param file The file that was found in the archive */ export declare type UnzipFileHandler = (file: UnzipFile) => void; /** * Streaming UTF-8 decoding */ export declare class DecodeUTF8 { private p; private t; /** * Creates a UTF-8 decoding stream * @param cb The callback to call whenever data is decoded */ constructor(cb?: StringStreamHandler); /** * Pushes a chunk to be decoded from UTF-8 binary * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; /** * The handler to call whenever data is available */ ondata: StringStreamHandler; } /** * Streaming UTF-8 encoding */ export declare class EncodeUTF8 { private d; /** * Creates a UTF-8 decoding stream * @param cb The callback to call whenever data is encoded */ constructor(cb?: FlateStreamHandler); /** * Pushes a chunk to be encoded to UTF-8 * @param chunk The string data to push * @param final Whether this is the last chunk */ push(chunk: string, final?: boolean): void; /** * The handler to call whenever data is available */ ondata: FlateStreamHandler; } /** * Converts a string into a Uint8Array for use with compression/decompression methods * @param str The string to encode * @param latin1 Whether or not to interpret the data as Latin-1. This should * not need to be true unless decoding a binary string. * @returns The string encoded in UTF-8/Latin-1 binary */ export declare function strToU8(str: string, latin1?: boolean): Uint8Array; /** * Converts a Uint8Array to a string * @param dat The data to decode to string * @param latin1 Whether or not to interpret the data as Latin-1. This should * not need to be true unless encoding to binary string. * @returns The original UTF-8/Latin-1 string */ export declare function strFromU8(dat: Uint8Array, latin1?: boolean): string; /** * A stream that can be used to create a file in a ZIP archive */ export interface ZipInputFile extends ZipAttributes { /** * The filename to associate with the data provided to this stream. If you * want a file in a subdirectory, use forward slashes as a separator (e.g. * `directory/filename.ext`). This will still work on Windows. */ filename: string; /** * The size of the file in bytes. This attribute may be invalid after * the file is added to the ZIP archive; it must be correct only before the * stream completes. * * If you don't want to have to compute this yourself, consider extending the * ZipPassThrough class and overriding its process() method, or using one of * ZipDeflate or AsyncZipDeflate. */ size: number; /** * A CRC of the original file contents. This attribute may be invalid after * the file is added to the ZIP archive; it must be correct only before the * stream completes. * * If you don't want to have to generate this yourself, consider extending the * ZipPassThrough class and overriding its process() method, or using one of * ZipDeflate or AsyncZipDeflate. */ crc: number; /** * The compression format for the data stream. This number is determined by * the spec in PKZIP's APPNOTE.txt, section 4.4.5. For example, 0 = no * compression, 8 = deflate, 14 = LZMA */ compression: number; /** * Bits 1 and 2 of the general purpose bit flag, specified in PKZIP's * APPNOTE.txt, section 4.4.4. Should be between 0 and 3. This is unlikely * to be necessary. */ flag?: number; /** * The handler to be called when data is added. After passing this stream to * the ZIP file object, this handler will always be defined. To call it: * * `stream.ondata(error, chunk, final)` * * error = any error that occurred (null if there was no error) * * chunk = a Uint8Array of the data that was added (null if there was an * error) * * final = boolean, whether this is the final chunk in the stream */ ondata?: AsyncFlateStreamHandler; /** * A method called when the stream is no longer needed, for clean-up * purposes. This will not always be called after the stream completes, * so you may wish to call this.terminate() after the final chunk is * processed if you have clean-up logic. */ terminate?: AsyncTerminable; } /** * A pass-through stream to keep data uncompressed in a ZIP archive. */ export declare class ZipPassThrough implements ZipInputFile { filename: string; crc: number; size: number; compression: number; os?: number; attrs?: number; comment?: string; extra?: Record; mtime?: GzipOptions['mtime']; ondata: AsyncFlateStreamHandler; private c; /** * Creates a pass-through stream that can be added to ZIP archives * @param filename The filename to associate with this data stream */ constructor(filename: string); /** * Processes a chunk and pushes to the output stream. You can override this * method in a subclass for custom behavior, but by default this passes * the data through. You must call this.ondata(err, chunk, final) at some * point in this method. * @param chunk The chunk to process * @param final Whether this is the last chunk */ protected process(chunk: Uint8Array, final: boolean): void; /** * Pushes a chunk to be added. If you are subclassing this with a custom * compression algorithm, note that you must push data from the source * file only, pre-compression. * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate * for better performance */ export declare class ZipDeflate implements ZipInputFile { filename: string; crc: number; size: number; compression: number; flag: 0 | 1 | 2 | 3; os?: number; attrs?: number; comment?: string; extra?: Record; mtime?: GzipOptions['mtime']; ondata: AsyncFlateStreamHandler; private d; /** * Creates a DEFLATE stream that can be added to ZIP archives * @param filename The filename to associate with this data stream * @param opts The compression options */ constructor(filename: string, opts?: DeflateOptions); process(chunk: Uint8Array, final: boolean): void; /** * Pushes a chunk to be deflated * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * Asynchronous streaming DEFLATE compression for ZIP archives */ export declare class AsyncZipDeflate implements ZipInputFile { filename: string; crc: number; size: number; compression: number; flag: 0 | 1 | 2 | 3; os?: number; attrs?: number; comment?: string; extra?: Record; mtime?: GzipOptions['mtime']; ondata: AsyncFlateStreamHandler; private d; terminate: AsyncTerminable; /** * Creates a DEFLATE stream that can be added to ZIP archives * @param filename The filename to associate with this data stream * @param opts The compression options */ constructor(filename: string, opts?: DeflateOptions); process(chunk: Uint8Array, final: boolean): void; /** * Pushes a chunk to be deflated * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): void; } /** * A zippable archive to which files can incrementally be added */ export declare class Zip { private u; private d; /** * Creates an empty ZIP archive to which files can be added * @param cb The callback to call whenever data for the generated ZIP archive * is available */ constructor(cb?: AsyncFlateStreamHandler); /** * Adds a file to the ZIP archive * @param file The file stream to add */ add(file: ZipInputFile): void; /** * Ends the process of adding files and prepares to emit the final chunks. * This *must* be called after adding all desired files for the resulting * ZIP file to work properly. */ end(): void; private e; /** * A method to terminate any internal workers used by the stream. Subsequent * calls to add() will fail. */ terminate(): void; /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; } /** * Asynchronously creates a ZIP file * @param data The directory structure for the ZIP archive * @param opts The main options, merged with per-file options * @param cb The callback to call with the generated ZIP archive * @returns A function that can be used to immediately terminate the compression */ export declare function zip(data: AsyncZippable, opts: AsyncZipOptions, cb: FlateCallback): AsyncTerminable; /** * Asynchronously creates a ZIP file * @param data The directory structure for the ZIP archive * @param cb The callback to call with the generated ZIP archive * @returns A function that can be used to immediately terminate the compression */ export declare function zip(data: AsyncZippable, cb: FlateCallback): AsyncTerminable; /** * Synchronously creates a ZIP file. Prefer using `zip` for better performance * with more than one file. * @param data The directory structure for the ZIP archive * @param opts The main options, merged with per-file options * @returns The generated ZIP archive */ export declare function zipSync(data: Zippable, opts?: ZipOptions): Uint8Array; /** * A decoder for files in ZIP streams */ export interface UnzipDecoder { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * Pushes a chunk to be decompressed * @param data The data in this chunk. Do not consume (detach) this data. * @param final Whether this is the last chunk in the data stream */ push(data: Uint8Array, final: boolean): void; /** * A method to terminate any internal workers used by the stream. Subsequent * calls to push() should silently fail. */ terminate?: AsyncTerminable; } /** * A constructor for a decoder for unzip streams */ export interface UnzipDecoderConstructor { /** * Creates an instance of the decoder * @param filename The name of the file * @param size The compressed size of the file * @param originalSize The original size of the file */ new (filename: string, size?: number, originalSize?: number): UnzipDecoder; /** * The compression format for the data stream. This number is determined by * the spec in PKZIP's APPNOTE.txt, section 4.4.5. For example, 0 = no * compression, 8 = deflate, 14 = LZMA */ compression: number; } /** * Information about a file to be extracted from a ZIP archive */ export interface UnzipFileInfo { /** * The name of the file */ name: string; /** * The compressed size of the file */ size: number; /** * The original size of the file */ originalSize: number; /** * The compression format for the data stream. This number is determined by * the spec in PKZIP's APPNOTE.txt, section 4.4.5. For example, 0 = no * compression, 8 = deflate, 14 = LZMA. If the filter function returns true * but this value is not 8, the unzip function will throw. */ compression: number; } /** * A filter for files to be extracted during the unzipping process * @param file The info for the current file being processed * @returns Whether or not to extract the current file */ export declare type UnzipFileFilter = (file: UnzipFileInfo) => boolean; /** * Streaming file extraction from ZIP archives */ export interface UnzipFile { /** * The handler to call whenever data is available */ ondata: AsyncFlateStreamHandler; /** * The name of the file */ name: string; /** * The compression format for the data stream. This number is determined by * the spec in PKZIP's APPNOTE.txt, section 4.4.5. For example, 0 = no * compression, 8 = deflate, 14 = LZMA. If start() is called but there is no * decompression stream available for this method, start() will throw. */ compression: number; /** * The compressed size of the file. Will not be present for archives created * in a streaming fashion. */ size?: number; /** * The original size of the file. Will not be present for archives created * in a streaming fashion. */ originalSize?: number; /** * Starts reading from the stream. Calling this function will always enable * this stream, but ocassionally the stream will be enabled even without * this being called. */ start(): void; /** * A method to terminate any internal workers used by the stream. ondata * will not be called any further. */ terminate: AsyncTerminable; } /** * Streaming pass-through decompression for ZIP archives */ export declare class UnzipPassThrough implements UnzipDecoder { static compression: number; ondata: AsyncFlateStreamHandler; push(data: Uint8Array, final: boolean): void; } /** * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for * better performance. */ export declare class UnzipInflate implements UnzipDecoder { static compression: number; private i; ondata: AsyncFlateStreamHandler; /** * Creates a DEFLATE decompression that can be used in ZIP archives */ constructor(); push(data: Uint8Array, final: boolean): void; } /** * Asynchronous streaming DEFLATE decompression for ZIP archives */ export declare class AsyncUnzipInflate implements UnzipDecoder { static compression: number; private i; ondata: AsyncFlateStreamHandler; terminate: AsyncTerminable; /** * Creates a DEFLATE decompression that can be used in ZIP archives */ constructor(_: string, sz?: number); push(data: Uint8Array, final: boolean): void; } /** * A ZIP archive decompression stream that emits files as they are discovered */ export declare class Unzip { private d; private c; private p; private k; private o; /** * Creates a ZIP decompression stream * @param cb The callback to call whenever a file in the ZIP archive is found */ constructor(cb?: UnzipFileHandler); /** * Pushes a chunk to be unzipped * @param chunk The chunk to push * @param final Whether this is the last chunk */ push(chunk: Uint8Array, final?: boolean): any; /** * Registers a decoder with the stream, allowing for files compressed with * the compression type provided to be expanded correctly * @param decoder The decoder constructor */ register(decoder: UnzipDecoderConstructor): void; /** * The handler to call whenever a file is discovered */ onfile: UnzipFileHandler; } /** * Asynchronously decompresses a ZIP archive * @param data The raw compressed ZIP file * @param opts The ZIP extraction options * @param cb The callback to call with the decompressed files * @returns A function that can be used to immediately terminate the unzipping */ export declare function unzip(data: Uint8Array, opts: AsyncUnzipOptions, cb: UnzipCallback): AsyncTerminable; /** * Asynchronously decompresses a ZIP archive * @param data The raw compressed ZIP file * @param cb The callback to call with the decompressed files * @returns A function that can be used to immediately terminate the unzipping */ export declare function unzip(data: Uint8Array, cb: UnzipCallback): AsyncTerminable; /** * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better * performance with more than one file. * @param data The raw compressed ZIP file * @param opts The ZIP extraction options * @returns The decompressed files */ export declare function unzipSync(data: Uint8Array, opts?: UnzipOptions): Unzipped;