dm9pZCAq 50c6e3b94a rework args subcommands, add -f flag | 8 miesięcy temu | |
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.hare | 8 miesięcy temu | |
embedd | 8 miesięcy temu | |
.gitignore | 8 miesięcy temu | |
LICENSE | 8 miesięcy temu | |
Makefile | 8 miesięcy temu | |
README.md | 8 miesięcy temu |
The embedd
utility is used to embed a file into a block device (or just other file).
It may be used to hide secret data on disks.
For instance, you can utilize a USB flash drive and create a "normal" file system like NTFS or FAT where already stored some data.
Then, at the end of the physical space of the USB drive, you can store secret data.
To embed secret data:
echo 'my secret data' | aespipe -e AES256 -H sha512 > ./secret.aes
# aespipe -e AES256 -H sha512 < ./my_photos.tar.xz > ./secret.aes
./.bin/embedd p -o -512 ./secret.aes /dev/sdd1
tail -c 512 file | huxd
# 0 01 10 35 fd 26 e2 3e 1b b4 17 f0 5b ae 93 ff a8
# 10 ca 3e 00 00 00 00 00 00 00 00 00 00 00 00 00 00
This command will write the header + file
to /dev/sdd1
at an offset of 512
from the end.
To extract the embedded data back, you need to know the offset where you embedded it before:
./.bin/embedd x -o -512 ./extracted.aes /dev/sdd1
cmp ./extracted.aes ./secret.aes; echo $?
# 0
WARNING: Attempting to use all disk space on the USB flash drive may corrupt the embedded file. Also, embedding a file at an offset where the actual file system already stores data will result in file system corruption.
This works similar to how Veracrypt's hidden volume works.
# ./.bin/embedd -h
./.bin/embedd: embed file to device
Usage: ./.bin/embedd [-hf] [-l <level>]
-h: print this help text
-l <level>: set log level (NONE, CRITICAL, ERROR, WARNING, [INFO], DEBUG)
-f: increase force, 1 to not ask basic quesions, 3 to not ask before writing to device
Subcommands:
x: extract file to `out-file` from `device`
p: put `input-file` to `device`
# ./.bin/embedd x -h
x: extract file to `out-file` from `device`
Usage: x [-h] [-o <offset>] out-file device
-h: print this help text
-o <offset>: offset from start (negative to offset from end)
# ./.bin/embedd p -h
p: put `input-file` to `device`
Usage: p [-h] [-o <offset>] input-file device
-h: print this help text
-o <offset>: offset from start (negative to offset from end)
to build this you need hare, it is super small, simple and fast so you can compile it with single make:
make -C .hare
and to build embedd
with hare
make RELEASE=1
# ls -l .bin/embedd
final executable will be in .bin
size_len
(value from 1 to 8)size_len
bytes (big-endian unsigned integer): file_size
(actual file size)file_size
bytes: actual fileFor example, to store a size from 1 to 255, only 1 byte is needed.
So, the header for a file size of 123 will look like this: 01 7b
.
For sizes from 255 to 65536, 2 bytes are needed (size: 567, header 02 02 37
), and so on.
```