Compile and install

Dependencies

sslh uses:

libconfig. For Debian this is contained in package libconfig8-dev. You can compile with or without it using USELIBCONFIG in the Makefile.
libwrap. For Debian, this is contained in packages libwrap0-dev. You can compile with or without it using USELIBWRAP in the Makefile.
libsystemd, in package libsystemd-dev. You can compile with or without it using USESYSTEMD in the Makefile.
libcap, in package libcap-dev. You can compile with or without it using USELIBCAP in the Makefile
libbsd, to enable to change the process name (as shown in ps, so each forked process shows what protocol and what connection it is serving), which requires libbsd at runtime, and libbsd-dev at compile-time.

For OpenSUSE, these are contained in packages libconfig9 and libconfig-dev in repository http://download.opensuse.org/repositories/multimedia:/libs/openSUSE_12.1/

For Fedora, you'll need packages libconfig and libconfig-devel:

yum install libconfig libconfig-devel

If you want to rebuild sslh-conf.c (after a make distclean for example), you will also need to add conf2struct (v1.5) to your path.

After this, the Makefile should work:

make install

There are a couple of configuration options at the beginning of the Makefile:

USELIBWRAP compiles support for host access control (see hosts_access(3)), you will need libwrap headers and library to compile (libwrap0-dev in Debian).
USELIBCONFIG compiles support for the configuration file. You will need libconfig headers to compile (libconfig8-dev in Debian).
USESYSTEMD compiles support for using systemd socket activation. You will need systemd headers to compile (systemd-devel in Fedora).
USELIBBSD compiles support for updating the process name (as shown by ps).

The Makefile produces two different executables: sslh-fork and sslh-select:

sslh-fork forks a new process for each incoming connection. It is well-tested and very reliable, but incurs the overhead of many processes.
If you are going to use sslh for a "small" setup (less than a dozen ssh connections and a low-traffic https server) then sslh-fork is probably more suited for you.
sslh-select uses only one thread, which monitors all connections at once. It is more recent and less tested, but only incurs a 16 byte overhead per connection. Also, if it stops, you'll lose all connections, which means you can't upgrade it remotely.
If you are going to use sslh on a "medium" setup (a few thousand ssh connections, and another few thousand ssl connections), sslh-select will be better.

If you have a very large site (tens of thousands of connections), you'll need a vapourware version that would use libevent or something like that.

In general:

  make
  cp sslh-fork /usr/local/sbin/sslh
  cp basic.cfg /etc/sslh.cfg
          vi /etc/sslh.cfg

For Debian:

  cp scripts/etc.init.d.sslh /etc/init.d/sslh

For CentOS:

  cp scripts/etc.rc.d.init.d.sslh.centos /etc/rc.d/init.d/sslh

You might need to create links in /etc/rc.d so that the server start automatically at boot-up, e.g. under Debian:

update-rc.d sslh defaults