go-diskfs is a go library for performing manipulation of disks, disk images and filesystems natively in go.
You can do nearly everything that go-diskfs provides using shell tools like gdisk/fdisk/mkfs.vfat/mtools/sgdisk/sfdisk/dd. However, these have the following limitations:
- they need to be installed on your system
- you need to fork/exec to the command (and possibly a shell) to run them
- some are difficult to run without mounting disks, which may not be possible or may be risky in your environment, and almost certainly will require root privileges
- you do not want to launch a VM to run the excellent libguestfs and it may not be installed
go-diskfs performs all modifications natively in go, without mounting any disks.
Note: detailed go documentation is available at godoc.org.
go-diskfs
has a few basic concepts:
- Disk
- Partition
- Filesystem
A disk represents either a file or block device that you access and manipulate. With access to the disk, you can:
- read, modify or create a partition table
- open an existing or create a new filesystem
A partition is a slice of a disk, beginning at one point and ending at a later one. You can have multiple partitions on a disk, and a partition table that describes how partitions are laid out on the disk.
A filesystem is a construct that gives you access to create, read and write directories and files.
You do not need a partitioned disk to work with a filesystem; filesystems can be an entire disk
, just as they can be an entire block device. However, they also can be in a partition in a disk
Before you can do anything with a disk - partitions or filesystems - you need to access it.
- If you have an existing disk or image file, you
Open()
it - If you are creating a new one, usually just disk image files, you
Create()
it
The disk will be opened read-write, with exclusive access. If it cannot do either, it will fail.
Once you have a Disk
, you can work with partitions or filesystems in it.
The following are the partition actions you can take on a disk:
GetPartitionTable()
- if one exists. Will report the table layout and type.Partition()
- partition the disk, overwriting any previous table if it exists
As of this writing, supported partition formats are Master Boot Record (mbr
) and GUID Partition Table (gpt
).
Once you have a valid disk, and optionally partition, you can access filesystems on that disk image or partition.
CreateFilesystem()
- create a filesystem in an individual partition or the entire diskGetFilesystem()
- access an existing filesystem in a partition or the entire disk
As of this writing, supported filesystems include FAT32
and ISO9660
(a.k.a. .iso
).
With a filesystem in hand, you can create, access and modify directories and files.
Mkdir()
- make a directory in a filesystemReaddir()
- read all of the entries in a directoryOpenFile()
- open a file for read, optionally write, create and append
Note that OpenFile()
is intended to match os.OpenFile and returns a godiskfs.File
that closely matches os.File
With a File
in hand, you then can:
Write(p []byte)
to the fileRead(b []byte)
from the fileSeek(offset int64, whence int)
to set the next read or write to an offset in the file
Some filesystem types are intended to be created once, after which they are read-only, for example ISO9660
/.iso
and squashfs
.
godiskfs
recognizes read-only filesystems and limits working with them to the following:
- You can
GetFilesystem()
a read-only filesystem and do all read activities, but cannot write to them. Any attempt toMkdir()
orOpenFile()
in write/append/create modes orWrite()
to the file will result in an error. - You can
CreateFilesystem()
a read-only filesystem and write anything to it that you want. It will do all of its work in a "scratch" area, or temporary "workspace" directory on your local filesystem. When you are ready to complete it, you callFinalize()
, after which it becomes read-only. If you forget toFinalize()
it, you get... nothing. TheFinalize()
function exists only on read-only filesystems.
There are examples in the examples/ directory. Here is one to get you started.
The following example will create a fully bootable EFI disk image. It assumes you have a bootable EFI file (any modern Linux kernel compiled with CONFIG_EFI_STUB=y
will work) available.
import diskfs "github.com/diskfs/go-diskfs"
espSize int := 100*1024*1024 // 100 MB
diskSize int := espSize + 4*1024*1024 // 104 MB
// create a disk image
diskImg := "/tmp/disk.img"
disk := diskfs.Create(diskImg, diskSize, diskfs.Raw)
// create a partition table
blkSize int := 512
partitionSectors int := espSize / blkSize
partitionStart int := 2048
partitionEnd int := partitionSectors - partitionStart + 1
table := PartitionTable{
type: partition.GPT,
partitions:[
Partition{Start: partitionStart, End: partitionEnd, Type: partition.EFISystemPartition, Name: "EFI System"}
]
}
// apply the partition table
err = disk.Partition(table)
/*
* create an ESP partition with some contents
*/
kernel, err := ioutil.ReadFile("/some/kernel/file")
fs, err := disk.CreateFilesystem(0, diskfs.TypeFat32)
// make our directories
err = fs.Mkdir("/EFI/BOOT")
rw, err := fs.OpenFile("/EFI/BOOT/BOOTX64.EFI", os.O_CREATE|os.O_RDRWR)
err = rw.Write(kernel)
There are two ways to run tests: unit and integration (somewhat loosely defined).
- Unit: these tests run entirely within the go process, primarily test unexported and some exported functions, and may use pre-defined test fixtures in a directory's
testdata/
subdirectory. By default, these are run by runninggo test ./...
or justmake unit_test
. - Integration: these test the exported functions and their ability to create or manipulate correct files. They are validated by running a docker container with the right utilities to validate the output. These are run by running
TEST_IMAGE=diskfs/godiskfs go test ./...
or justmake test
. The value ofTEST_IMAGE
will be the image to use to run tests.
For integration tests to work, the correct docker image must be available. You can create it by running make image
. Check the Makefile to see the docker build
command used to create it. Running make test
automatically creates the image for you.
The integration test image contains the various tools necessary to test images: mtools
, fdisk
, gdisk
, etc. It works on precisely one file at a time. In order to avoid docker volume mounting limitations with various OSes, instead of mounting the image -v
, it expects to receive the image as a stdin
stream, and saves it internally to the container as /file.img
.
For example, to test the existence of directory /abc
on file $PWD/foo.img
:
cat $PWD/foo.img | docker run -i --rm $INT_IMAGE mdir -i /file.img /abc
Future plans are to add the following:
- embed boot code in
mbr
e.g.altmbr.bin
(no need forgpt
since an ESP with/EFI/BOOT/BOOT<arch>.EFI
will boot) ext4
filesystemJoliet
extensions toiso9660
Rock Ridge
sparse file support - supports the flag, but not yet reading or writingsquashfs
sparse file support - currently treats sparse files as regular filesqcow
disk format