Original repository at: https://git.bues.ch/git/disktest.git
Michael Buesch 6f3f3eac28 Update dependencies | vor 2 Tagen | |
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README.md | vor 4 Monaten |
Disktest is a tool to check Solid State Disks, Non-Volatile Memory Storage, Hard Disks, USB sticks, SD cards or other storage media for errors.
It does so by writing a pseudo random sequence to the device and then reading it back and verifying it to the same pseudo random sequence.
This tool can be used to:
The random number stream is generated by the following algorithm:
OUTPUT_DATA := CHACHA20(PBKDF2(SEED | THREAD_ID | ROUND_ID))
If more than one thread is used, then each thread generates such a random number stream, which are then interleaved in an alternating pattern.
The default algorithm ChaCha20 is a cryptographically strong random number generator. That means if the seed is kept secret, then the random sequence cannot be predicted or reconstructed by anybody else.
See option --seed
under --help
for more details.
The following disktest invocation will write a secure sequence to the disk device /dev/sdc
and subsequently read back and verify the sequence from the disk device.
disktest --write --verify -j0 /dev/sdc
For NVMe:
disktest --write --verify -j0 /dev/nvme0n1
For SD / MMC:
disktest --write --verify -j0 /dev/mmcblk0
WARNING: This will irrevocably overwrite all data on the storage device! Be absolutely certain that the device path is correct before starting the command. Your data cannot be recovered.
You probably need root
permissions to write to raw disk devices (/dev/sdX
, /dev/nvmeXn1
or /dev/mmcblkX
).
The target device
does not have to be an actual hardware device node. It can be any file path on any file system. For example you can mount an USB stick file system and write to a file on that file system. However, please note that this leaves a couple minor untested spots in the USB stick's memory, which are reserved to the file system. Also see the Windows
section below.
On Windows disktest can write to any file on any mounted storage media or raw disks.
If your storage media under test is drive E, then the following command would write a test file on drive E and verify it:
disktest --write --verify -j0 E:\testfile.img
But note that testing on filesystem level like above does not test the full device. It will omit the disk areas the filesystem uses internally. Therefore, you may want to write to the raw disk E with the Windows raw drive notation as follows:
disktest --write --verify -j0 \\.\E:
or
disktest --write --verify -j0 \\.\PhysicalDrive2
Doing so will completely wipe all data (including the filesystem) on this disk.
Always make sure that you selected the correct drive.
Especially in the \\\\.\PhysicalDriveX
notation it is extremely easy to overwrite the wrong drive by accident.
Therefore, the \\\\.\X:
(where X is the drive letter) notation is preferred.
Download the latest version of disktest from crates.io and install it to $HOME/.cargo/bin
:
cargo install disktest
Build disktest and install it to $HOME/.cargo/bin
:
cd path/to/source/package
cargo install --path .
Build and run disktest in place without installing it:
cd path/to/source/package
cargo run --release -- DISKTEST_OPTIONS_HERE
See below for a description of the available disktest
options.
Please run either of the following commands to show more information about the available command line options.
cargo run --release -- --help
disktest --help
The following table shows some example speed measurements of disktest in various operation mode on different hardware.
These speed tests don't write to an actual disk, but only to the /dev/null
device, which is a device that does nothing. So these speed test results do not include the speed limits of any actual disk hardware.
Command | Algorithm | Hardware | Data rate written |
---|---|---|---|
disktest -j12 -ACHACHA20 -w /dev/null | ChaCha20 | AMD Ryzen 5 5500U; 6x2 cores | 8.1 GiB/s |
disktest -j12 -ACHACHA12 -w /dev/null | ChaCha12 | AMD Ryzen 5 5500U; 6x2 cores | 8.2 GiB/s |
disktest -j12 -ACHACHA8 -w /dev/null | ChaCha8 | AMD Ryzen 5 5500U; 6x2 cores | 8.3 GiB/s |
disktest -j12 -ACRC -w /dev/null | CRC | AMD Ryzen 5 5500U; 6x2 cores | 8.4 GiB/s |
disktest -j4 -ACHACHA20 -w /dev/null | ChaCha20 | Intel i5-3320M; 2x2 cores | 2.1 GiB/s |
disktest -j4 -ACHACHA12 -w /dev/null | ChaCha12 | Intel i5-3320M; 2x2 cores | 3.2 GiB/s |
disktest -j4 -ACHACHA8 -w /dev/null | ChaCha8 | Intel i5-3320M; 2x2 cores | 4.4 GiB/s |
disktest -j4 -ACRC -w /dev/null | CRC | Intel i5-3320M; 2x2 cores | 7.5 GiB/s |
disktest -j4 -ACHACHA20 -w /dev/null | ChaCha20 | Raspberry Pi 4; 4 cores 1.5 GHz | 420 MiB/s |
disktest -j4 -ACHACHA12 -w /dev/null | ChaCha12 | Raspberry Pi 4; 4 cores 1.5 GHz | 670 MiB/s |
disktest -j4 -ACHACHA8 -w /dev/null | ChaCha8 | Raspberry Pi 4; 4 cores 1.5 GHz | 920 MiB/s |
disktest -j4 -ACRC -w /dev/null | CRC | Raspberry Pi 4; 4 cores 1.5 GHz | 2.5 GiB/s |
The read data rates are similar, because the algorithm used is exactly the same.
Copyright (c) 2020-2024 Michael Büsch m@bues.ch
Licensed under the Apache License version 2.0 or the MIT license, at your option.