Prerequisites: `python3`; `gcc` and/or `clang`; OpenSSL. Currently tested only under Linux, but porting to other systems shouldn't be difficult. ### For sysadmins To install in `/usr/local/{include,lib,bin}`: ./configure && make -j8 install If you're running an old Linux system and see that the `randombytes-info` output says `randombytes source kernel-devurandom` (this will happen on Linux kernels before 3.17), add the lines dd count=1 bs=64 if=/dev/random of=/dev/urandom status=none \ && findmnt -t tmpfs -T /var/run >/dev/null \ && touch /var/run/urandom-ready & to your boot scripts to improve librandombytes startup time. On new Linux systems, `randombytes-info` should instead say `kernel-getrandom` and startup time should be fine in any case, unaffected by these lines. If you're running a Linux virtual machine (old or new) and see startup delays, you probably need the host to provide `virtio-rng`. ### For developers with an unprivileged account Typically you'll already have export LD_LIBRARY_PATH="$HOME/lib" export LIBRARY_PATH="$HOME/lib" export CPATH="$HOME/include" export PATH="$HOME/bin:$PATH" in `$HOME/.profile`. To install in `$HOME/{include,lib,bin}`: ./configure --prefix=$HOME && make -j8 install ### For distributors creating a package Run ./configure --prefix=/usr && make -j8 and then follow your usual packaging procedures for the `build/0/package` files: build/0/package/man/man3/randombytes.3 build/0/package/man/man1/randombytes-info.1 build/0/package/include/randombytes.h build/0/package/lib/librandombytes* build/0/package/bin/randombytes-info Note that `librandombytes-kernel` and `librandombytes-openssl` are alternative implementations of the same librandombytes API. There are default symlinks to `librandombytes-kernel`, but you should allow the sysadmin to change these symlinks to `librandombytes-openssl` by simply installing a `librandombytes-openssl` package. The OpenSSL dependency is for `librandombytes-openssl`; the rest of librandombytes is independent of OpenSSL. ### More options You can run ./configure --host=amd64 to override `./configure`'s guess of the architecture that it should compile for. However, cross-compilers aren't yet selected automatically. Inside the `build` directory, `0` is symlinked to `amd64` for `--host=amd64`. Running `make clean` removes `build/amd64`. Re-running `./configure` automatically starts with `make clean`. A subsequent `./configure --host=arm64` will create `build/arm64` and symlink `0 -> arm64`, without touching an existing `build/amd64`. Compilers tried are listed in `compilers/default`. Each compiler includes `-fPIC` to create a shared library and `-fwrapv` to switch to a slightly less dangerous version of C; also, `-fvisibility=hidden` is added automatically to hide non-public symbols in the library. The first compiler that seems to work is used to compile everything.