You can use

dd if=/dev/zero of=file count=1024 bs=1024 

to zero fill a file.

Instead of that I want to one fill a file. How do I do that?

There is no /dev/one file, so how can I simulate that effect via on bash shell?

  • Write a C program to do it, should be trivial. – ᆼᆺᆼ Jun 5 '12 at 21:16

Try this:

dd if=<(yes $'\01' | tr -d "\n") of=file count=1024 bs=1024

Substitute $'\377' or $'\xFF' if you want all the bits to be ones.

  • For others: on macOS you will need to set environment variable LANG="C" to get tr to behave in the way that makes this command work – Matt Sephton Jul 23 '18 at 22:07
  • @MattSephton: I just tested it on MacOS Sierra and it works fine for me without changing LANG (mine is en_US.UTF-8). – Dennis Williamson Jul 23 '18 at 23:08
  • Interesting. I was changing \00 to \xFF and was getting something other than \xFF until I used LANG="C" – Matt Sephton Jul 24 '18 at 0:28
  • 1
    @MattSephton: Anything \x80 or above. Evidently it doesn't like the 8th bit set unless LANG=C. For those that might not be aware, you can do that for just the environment of tr: dd if=<(yes $'\xFF' | LANG=C tr -d "\n") of=file count=1024 bs=1024 and it doesn't affect the general environment. – Dennis Williamson Jul 24 '18 at 2:08
  • 1
    @ChrisStryczynski: Did you run it using sudo? That's one possible reason for that error. If so, then this is one way to make it work: sudo bash -c 'dd if=<(yes $'\01' | tr -d "\n") of=file count=1024 bs=1024' – Dennis Williamson Feb 25 '19 at 22:43
tr '\0' '\377' < /dev/zero | dd bs=64K of=/dev/sdx

This should be much faster. Choose your blocksizes (or add counts) like you need at. Writing ones to a SSD-Disk till full with a blocksize of 99M gave me 350M/s write performance.

  • I confirm this is at least twice as fast as the accepted solution. However I didn't notice any noticeable performance improvement from varying the blocksize (though there is a huge decrease of performance without the bs argument). – Skippy le Grand Gourou Oct 29 '13 at 17:40

Well, you could do this:

dd if=/dev/zero count=1024 bs=1024 |
  tr '\000' '\001' > file
  • One fill would be '\377', no? – Neil Jun 5 '12 at 21:24
  • 1
    Hmm, I guess it depends on what you want. This will fill a file with bytes of value 1 (01 01 01 01 ...). Using \377 gets you all bits set to 1 (so FF FF FF FF ...). Depends on the OP's requirements. – larsks Jun 5 '12 at 21:33
pv /dev/zero |tr \\000 \\377 >targetfile

...where \377 is the octal representation of 255 (a byte with all bits set to one). Why tr only works with octal numbers, I don't know -- but be careful not to subconsciously translate this to 3FF.

The syntax for using tr is error prone. I recommend verifying that it is making the desired translation...

cat /dev/zero |tr \\000 \\377 |hexdump -C

Note: pv is a nice utility that replaces cat and adds a progress/rate display.

  • 1
    Note: If you are trying to fill an entire device, it's probably better to avoid dd since that will slow things down (by a lot) if you don't manually select an optimum bs value. – Brent Bradburn Oct 15 '16 at 20:59
  • pv will also give an estimate of time remaining if it has enough information to do so. – Brent Bradburn Oct 15 '16 at 21:23
  • While you're at it, maybe prefix with time and nice. – Brent Bradburn Oct 16 '16 at 23:25

I created a device driver in my github. Installing it creates a file /dev/one that is writing only bits set to 1.

The c file called one.c (the only interesting part is in device_file_read):

// File Driver to create a devince /dev/one like the /dev/zero

#include <linux/init.h>
#include <linux/module.h>
#include <linux/fs.h>
#include <linux/uaccess.h>


static int device_file_major_number = 0;
static const char device_name[] = "one";

static ssize_t device_file_read(
        struct file *file_ptr,
        char __user *user_buffer,
        size_t count,
        loff_t *position) {
    printk( KERN_NOTICE "One: Device file is read at offset = %i, read bytes count = %u\n" , (int)*position , (unsigned int)count );

    // Allocate Kernel buffer
    char* ptr = (char*) vmalloc(count);

    // Fill it with one, byte per byte
    // -- Note that byte is the smallest accesible data unit
    memset(ptr, 0xFF, count);

    char res = copy_to_user(user_buffer, ptr, count);
    if (res != 0){ return -EFAULT; }

    // Return number of byte read
    return count;

static struct file_operations simple_driver_fops = {
    .owner   = THIS_MODULE,
    .read    = device_file_read,

int register_device(void) {
    int res = 0;
    printk( KERN_NOTICE "One: register_device() is called.\n" );
    res = register_chrdev( 0, device_name, &simple_driver_fops );
    if( res < 0 ) {
        printk( KERN_WARNING "One:  can\'t register character device with error code = %i\n", res );
        return res;
    device_file_major_number = res;
    printk( KERN_NOTICE "One: registered character device with major number = %i and minor numbers 0...255\n", device_file_major_number );
    return 0;

void unregister_device(void) {
    printk( KERN_NOTICE "One: unregister_device() is called\n" );
    if(device_file_major_number != 0) {
        unregister_chrdev(device_file_major_number, device_name);

static int my_init(void) {
    return 0;

static void my_exit(void) {

// Declare register and unregister command

The Makefile


BUILDSYSTEM_DIR:=/lib/modules/$(shell uname -r)/build
PWD:=$(shell pwd)
obj-m := $(TARGET_MODULE).o
# See: https://stackoverflow.com/questions/15910064/how-to-compile-a-linux-kernel-module-using-std-gnu99
ccflags-y := -std=gnu99 -Wno-declaration-after-statement

    # run kernel build system to make module
    $(MAKE) -C $(BUILDSYSTEM_DIR) M=$(PWD) modules

    # run kernel build system to cleanup in current directory
    $(MAKE) -C $(BUILDSYSTEM_DIR) M=$(PWD) clean
    rm -f MOK.priv MOK*.der

    echo "Creating key"
    openssl req -new -x509 -newkey rsa:2048 -days 36500 -keyout MOK.priv -outform DER -out MOK.der -nodes -subj "/CN=TinmarinoUnsafe/"
    echo "\e[31;1mPlease enter a password you will be asked for on reboot:\e[0m"
    mokutil --import MOK.der
    echo "\e[31;1mNow you must: 1/ reboot, 2/ Select Unroll MOK, 3/ Enter password you previously gave\e[0m"

    cp one.ko one.ko.bck
    /usr/src/linux-headers-$(shell uname -r)/scripts/sign-file sha256 MOK.priv MOK.der one.ko

    insmod ./$(TARGET_MODULE).ko

    rmmod ./$(TARGET_MODULE).ko

    mknod /dev/one c $(shell cat /proc/devices | grep one$ | cut -d ' ' -f1) 0

    rm /dev/one

    [ "$(shell xxd -p -l 10 /dev/one)" = "ffffffffffffffffffff" ] \
        && echo "\e[32mSUCCESS\e[0m" \
        || echo "\e[31mFAILED\e[0m"

The instalation is long (3min) due to the driver signature enforcement. Froget this part if you disabled it in your UEFI.

  1. git clone https://github.com/tinmarino/dev_one.git DevOne && cd DevOne # Download
  2. make build # Compile
  3. make key # Generate key for signing
  4. sudo make sign # Sign driver module to permit MOK enforcement (security)
  5. sudo reboot now # Reboot and enable Mok
    1. A blue screen (MOK manager) will appear
    2. Choose "Enroll MOK"
    3. Choose "Continue"
    4. Choose "Yes" (when asked "Enroll the key")
    5. Enter the password you gave at make sign
    6. Choose "Reboot" (again)
  6. sudo make load # Load
  7. sudo make device # Create /dev/one
  8. make test # Test if all is ok

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