A simple, 0-dependency Swift package for reading and writing ar
archives. Inspired by ar.
Created by gh-md-toc
Documentation is available here.
ArArchiveKit supports the "Common", BSD, and SVR4/GNU variations of ar
as described in FreeBSD manpages.
Support for symbol tables may come soon.
Add this to the dependencies
array in Package.swift
:
.package(url: "https://github.com/LebJe/ArArchiveKit.git", from: "0.3.0")
Also add this to the targets
array in the aforementioned file:
.product(name: "ArArchiveKit", package: "ArArchiveKit")
To write archives, you'll need a ArArchiveWriter
:
var writer = ArArchiveWriter()
Once you have your writer, you must create a Header
, that describes the file you wish to add to your archive:
var time: Int = 1615929568
// You can also use date
let date: Date = ...
time = Int(date.timeIntervalSince1970)
let header = Header(
// `name` will be truncated to 16 characters.
name: "hello.txt",
modificationTime: time
)
Once you have your Header
, you can write it, along with the contents of your file, to the archive:
// Without Foundation
var contents = [
UInt8(ascii: "H"),
UInt8(ascii: "e"),
UInt8(ascii: "l"),
UInt8(ascii: "l"),
UInt8(ascii: "o"),
]
// With Foundation
let myData: Data = "Hello".data(using .utf8)!
contents = Array<UInt8>(myData)
writer.addFile(header: header, contents: contents)
If you have a text file, use the overloaded version of addFile
:
writer.addFile(header: header, contents: "Hello")
Once you have added your files, you can get the archive like this:
// Call finalize to get the binary representation (Array<UInt8>) of the archive.
let bytes = writer.finalize()
// You convert it to data like this:
let data = Data(bytes)
// And write it:
try data.write(to: URL(fileURLWithPath: "myArchive.a"))
To read archives, you need an ArArchiveReader
:
// myData is the bytes of the archive.
let myData: Data = ...
let reader = ArArchiveReader(archive: Array<UInt8>(myData))
Once you have your reader, there are several ways you can retrieve the data:
You can iterate though all the files in the archive like this:
for (header, data) in reader {
// `data` is `Array<UInt8>` that contains the raw bytes of the file in the archive.
// `header` is the `Header` that describes the `data`.
// if you know `data` is a `String`, then you can use this initializer:
let str = String(data)
}
Accessing data through the subscript
is useful when you only need to access a few items in a large archive:
// The subscript provides you with random access to any file in the archive:
let firstFile = reader[0]
let fifthFile = reader[6]
You can also use the version of the subscript that takes a Header
- useful for when you have a Header
, but not the index of that header.
let header = reader.headers.first(where: { $0.name.contains(".swift") })!
let data = reader[header: header]
Exaples/ReaderAndWriter
: This example shows how to use ArArchiveKit to read or extract entries from any archive using onlyDarwin.C
(macOS),Glibc
(Linux) orucrt
(Windows (not tested)).
ArArchiveKit doesn't depend on any library, Foundation
, or Darwin
/Glibc
/ucrt
- only the Swift standard library. It should compile on any platform where the standard library compiles.
ArArchiveKit is currently being built on Windows, but not tested, as the Swift Package Manager Resources doesn't seem to work (or isn't available) on Windows.
Before committing, please install pre-commit, and swift-format and install the pre-commit hook:
$ brew bundle # install the packages specified in Brewfile
$ pre-commit install
# Commit your changes.
To install pre-commit on other platforms, refer to the documentation.