s6-networking
Software
skarnet.org
The s6-tlsd-io program
s6-tlsd-io is a program that establishes a TLS or SSL
server connection over an existing TCP connection, then
communicates with an existing local program over already
established pipes. It is the only server-side program in
s6-networking that performs cryptography.
s6-networking does not include
cryptographic software. All the crypto used in s6-tlsd-io
is provided by the chosen SSL backend:
BearSSL or
LibreSSL, depending on
the options given when configuring s6-networking.
Interface
s6-tlsd-io [ -S | -s ] [ -Y | -y ] [ -v verbosity ] [ -K kimeout ] [ -k snilevel ] [ -d notif ] [ -- ] fdr fdw
- s6-tlsd-io expects to have an open connection it
can talk to on its standard input and output. It also expects to read
cleartext data from file descriptor fdr and write cleartext
data to file descriptor fdw.
- It expects a TLS client on the other side of the network connection
to initiate a TLS handshake, and it answers it.
- Then it acts as a full duplex tunnel, decrypting and transmitting
data from stdin to fdw, and encrypting and transmitting data
from fdr to stdout.
- When it cannot transmit any more data from/to the local application
because connections have closed, s6-tlsd-io exits.
Exit codes
- 0: the connection terminated normally.
- 96: error while configuring the TLS context - for instance, invalid private key or server certificate files.
- 97: error while setting up the TLS server engine.
- 98: TLS error while running the engine.
- 100: wrong usage.
- 111: system call failed.
Protocol version and parameters
During the TLS/SSL handshake, s6-tlsd-io tries the
versions of the protocol that is supported by default by the
backend, with the default algorithms and cipher suites;
the backend normally ensures that the most secure combination
is tried first, with slow degradation until the client and
the server agree.
As a server, s6-tlsd-io can be conservative in its
choice of protocols. It is currently not very conservative
when using the BearSSL backend; it could become more so in
the future, by defining a custom server profile that supports
only TLS-1.2 but with several algorithms and cipher suites.
Environment variables
s6-tlsd-io expects to have the following
environment variables set:
- KEYFILE: a path to the file
containing the server's private key, DER- or PEM-encoded.
- CERTFILE: a path to the file
containing the server's certificate chain, DER- or PEM-encoded.
If PEM-encoded, the file can actually contain a chain
of certificates.
If one of those variables is unset, s6-tlsd-io
will refuse to run.
Alternatively, if snilevel is nonzero, the private
key for the server named x should be held in a file
whose name is contained in the KEYFILE:x
environment variable, and the corresponding certificate chain
file should be named in the CERTFILE:x
environment variable. If snilevel is 2 or more, the
KEYFILE and CERTFILE variables will be
entirely ignored.
If you are using client certificates, s6-tlsd-io
also requires either one of the following variables to be set:
- CADIR: a directory where trust anchors
(i.e. root or intermediate CA certificates) can be found,
one per file, DER- or PEM-encoded.
- CAFILE: a file containing the whole set
of trust anchors, PEM-encoded.
If s6-tlsd-io is run as root, it can also read two
more environment variables, TLS_UID and TLS_GID,
which contain a numeric uid and a numeric gid; s6-tlsd-io
then drops its root privileges to this uid/gid after reading its
private key file. This ensures that the engine, including the
handshake, is run with as little privilege as possible.
SSL close handling
If the local application initiates the end of the session by sending
EOF to fdr, there are two ways for the TLS layer to handle it.
- It can send a close_notify alert, and wait for
an acknowledgement from the peer, at which point the connection
is closed. The advantage of this setup is that it is secure
even when the application protocol is not auto-terminated, i.e.
when it does not know when its data stops. Old protocols such
as HTTP-0.9 are in this case. The drawback of this setup is
that it breaks full-duplex: once a peer has sent the
close_notify, it must discard all the incoming
records that are not a close_notify from the
other peer. So if a client sends EOF while it is still
receiving data from the server, the connection closes
immediately and the data can be truncated.
- It can simply transmit the EOF, shutting down
half the TCP connection, and wait for the EOF back.
The advantage of this setup is that it maintains
full-duplex: a client can send EOF after its initial
request, and still receive a complete answer from the
server. The drawback is that it is insecure when the application
protocol is not auto-terminated.
Nowadays (2020), most protocols are auto-terminated, so
it is not dangerous anymore to use EOF tranmission, and that
is the default for s6-tlsd-io. Nevertheless, by
using the -S option, you can
force it to use the close_notify method if your
application requires it to be secure.
s6-tlsd-io options
- -v verbosity : Be more or less
verbose. Default for verbosity is 1. 0 is quiet, 2 is
verbose, more than 2 is debug output. This option currently has
no effect.
- -S : send a close_notify alert
and break the connection when receiving a local EOF.
- -s : transmit EOF by half-closing the TCP
connection without using close_notify. This is the default.
- -Y : Require an optional client certificate.
- -y : Require a mandatory client certificate.
The default, with neither the -Y nor the -y option,
is not to require a client certificate at all.
- -K kimeout : if the peer fails
to send data for kimeout milliseconds during the handshake,
close the connection. The default is 0, which means infinite timeout
(never kill the connection).
- -k snilevel : support alternative
certificate chains for SNI. If snilevel is nonzero, private
key file names are read from every environment variable of the form
KEYFILE:x, where x is a server name that
the client may require, and a corresponding certificate chain for the name
x should exist in the file named after the contents of the
CERTFILE:x environment variable. If snilevel
is 2 or more, only those files are read, and the generic
KEYFILE and CERTFILE variables are ignored.
If snilevel is 0, or if the option is not given, which is the
default, KEYFILE and CERTFILE are the only private
key / certificate chain pair that are loaded, no other environment
variable is read for keypairs.
- -d notif : handshake notification.
notif must be a file descriptor open for writing. When the
TLS handshake has completed, some data (terminated by two null
characters) will be sent to file descriptor notif. The
data contains information about the TLS parameters of the connection;
its exact contents are left unspecified, but there's at least
an SSL_PROTOCOL=protocol string and
an SSL_CIPHER=cipher string, both
null-terminated.
Sending this data serves a dual purpose: telling the notif
reader that the handshake has completed, and providing it with some
basic information about the connection. If this option is not given,
no such notification is performed.