(This is the bleeding edge, not yet released version. If you just want to use Monocypher, grab the latest version, or download the source and header files directly. If you want to contribute, see the notes at the end.)
Monocypher is an easy to use, easy to deploy, auditable crypto library written in portable C. It approaches the size of TweetNaCl and the speed of libsodium.
Official site.
Official releases.
The manual can be found at https://monocypher.org/manual/, and in the
doc/
folder.
The easiest way to use Monocypher is to include src/monocypher.h
and
src/monocypher.c
directly into your project. They compile as C (since
C99) and C++ (since C++98).
If you need the optional SHA-512 or Ed25519, grab
src/optional/monocypher-ed25519.h
and
src/optional/monocypher-ed25519.c
as well.
Run make
, then grab the src/monocypher.h
header and either the
lib/libmonocypher.a
or lib/libmonocypher.so
library. The default
compiler is gcc -std=c99
, and the default flags are -pedantic -Wall -Wextra -O3 -march=native
. If they don't work on your platform, you
can change them like this:
$ make CC="clang -std=c11" CFLAGS="-O2"
Run make
, then make install
as root. This will install Monocypher in
/usr/local
by default. This can be changed with PREFIX
and
DESTDIR
:
$ make install PREFIX="/opt"
Once installed, you may use pkg-config
to compile and link your
program. For instance:
$ gcc program.c $(pkg-config monocypher --cflags) -c
$ gcc program.o $(pkg-config monocypher --libs) -o program
If for any reason you wish to avoid installing the man pages or the
pkg-config
file, you can use the following installation sub targets
instead: install-lib
, install-doc
, and install-pc
.
$ make test
It should display a nice printout of all the tests, ending with "All tests OK!". If you see "failure" or "Error" anywhere, something has gone wrong.
Do not use Monocypher without running those tests at least once.
The same test suite can be run under Clang sanitisers and Valgrind, and be checked for code coverage:
$ tests/test.sh
$ tests/coverage.sh
The code may be analysed more formally with Frama-c and the TIS interpreter. To analyse the code with Frama-c, run:
$ tests/formal-analysis.sh
$ tests/frama-c.sh
This will have Frama-c parse, and analyse the code, then launch a GUI.
You must have Frama-c installed. See frama-c.sh
for the recommended
settings. To run the code under the TIS interpreter, run
$ tests/formal-analysis.sh
$ tis-interpreter.sh --cc -Dvolatile= tests/formal-analysis/*.c
Notes:
tis-interpreter.sh
is part of TIS. If it is not in your path,
adjust the command accordingly.
The TIS interpreter sometimes fails to evaluate correct programs when
they use the volatile
keyword (which is only used as an attempt to
prevent dead store elimination for memory wipes). The -cc -Dvolatile=
option works around that bug by ignoring volatile
altogether.
Monocypher has optional compatibility with Ed25519. To have that, add
monocypher-ed25519.h
and monocypher-ed25519.c
provided in
src/optional
to your project. If you compile or install Monocypher
with the makefile, they will be automatically included.
Monocypher also has the BLAKE2_NO_UNROLLING
preprocessor flag, which
is activated by compiling monocypher.c with the -DBLAKE2_NO_UNROLLING
option.
The -DBLAKE2_NO_UNROLLING
option is a performance tweak. By default,
Monocypher unrolls the BLAKE2b inner loop, because doing so is over 25%
faster on modern processors. Some embedded processors however, run the
unrolled loop slower (possibly because of the cost of fetching 5KB of
additional code). If you're using an embedded platform, try this
option. The binary will be about 5KB smaller, and in some cases faster.
The MONOCYPHER_CPP_NAMESPACE
preprocessor definition allows C++ users
who compile Monocypher as C++ to wrap it in a namespace. When it is not
defined (the default), we assume Monocypher is compiled as C, and an
extern "C"
declaration is added when we detect that the header is
included in C++ code.
The change-prefix.sh
script can rename all functions by replacing
crypto_
by a chosen prefix, so you can avoid name clashes. For
instance, the following command changes all instances of crypto_
by
foobar_
(note the absence of the underscore):
./change-prefix.sh foobar
If you are reading this, you cloned the GitHub repository. You miss a couple files that ship with the tarball releases:
tests/vectors.h
header. Generating it requires libsodium. Go
to tests/gen/
, then run make
.doc/doc_gen.sh
script. You will need mandoc and Python 3.To generate a tarball, simply type make dist
. It will make a tarball
with a name that matches the current version (using git describe
), in
the current directory.