From 1b3b40536e234f383cad4de03a95747262ccb551 Mon Sep 17 00:00:00 2001 From: Ralf Jung Date: Tue, 26 Dec 2017 19:56:33 +0100 Subject: [PATCH 1/1] Write blog post on LE tiny --- ralf/_posts/2017-12-26-lets-encrypt.md | 261 +++++++++++++++++++++++++ 1 file changed, 261 insertions(+) create mode 100644 ralf/_posts/2017-12-26-lets-encrypt.md diff --git a/ralf/_posts/2017-12-26-lets-encrypt.md b/ralf/_posts/2017-12-26-lets-encrypt.md new file mode 100644 index 0000000..f8f848d --- /dev/null +++ b/ralf/_posts/2017-12-26-lets-encrypt.md @@ -0,0 +1,261 @@ +--- +title: Let's Encrypt Tiny +categories: Sysadmin +--- + +I think all HTTP communication on the internet should be encrypted -- and thanks +to [Let's Encrypt](https://letsencrypt.org/), we are now much closer to this +goal than we were two years ago. However, when I set up Let's Encrypt on my +server (which is more than a year ago by now), I was not very happy with the +official client: The client manages multiple certificates with different sets of +domains per certificate, but I found it entirely unclear which commands would +replace existing certificates or create a new one. Moreover, I have some +special needs: I've set up DNSSEC with TLSA records containing hashes of my +certificates, so replacing a certificate has to also update DNS and deal with +the fact that DNS entries get cached. Lucky enough, Let's Encrypt is based on +open standards, so I was not forced to use their client! + +To make a long story short, I decided to write my own Let's Encrypt client, +which I describe in this post. + + + +## Let's Encrypt Tiny + +The client is based on [acme-tiny](https://github.com/diafygi/acme-tiny), a +beautifully small Python library (<200 lines) speaking the ACME protocol. +That's the protocol developed by Let's Encrypt to communicate with an automated +CA. I duly called my client "Let's Encrypt Tiny", and with less than 250 lines +I think that name is still fair. For now, +[Let's Encrypt Tiny](https://github.com/RalfJung/server-scripts/blob/master/letsencrypt-tiny) +resides in my [server-scripts](https://github.com/RalfJung/server-scripts) +repository, and it will stay there until anyone else has an interesting in using +it. ;) + +The central concept of Let's Encrypt Tiny is a "certificate line" -- a sequence +of certificates, possibly for different private keys, that "belong together" in +the sense that each is considered (by their owner) the successor of the +previous. Services like apache are configured to use a particular certificate +line for a particular domain (well, in my case, it's the same line for all +domains, but one could imagine different setups). Each certificate line has a +separate config file, whose most important job is to configure the set of +domains in the latest certificate of the line. The key operations on a +certificate line are to create a *fresh* key and obtain a certificate for it, +and to obtain a new certificate for the *existing* key. Let's Encrypt +certificates expire after 90 days, so we have to perform renewal at least that +often, but there is no reason to always generate a fresh private key. One +reason to keep the previous key is that the TLSA record in DNS can be configured +to be a hash of just the key, so a renewal for an existing key can be done +without changing DNS. + +The other important concept in Let's Encrypt Tiny is the idea of a "staging +key", as opposed to the "live key". This is needed to properly support +DNSSEC+TLSA. Just briefly, the idea of TLSA is to not use certificate +authorities to determine the correct certificate for a domain (CAs have proven +untrustworthy again and again, and a single failing CA undermines the security +of the entire system), but instead use DNS. If DNS is secured with DNSSEC -- +which is much more resilient against a single entity failing than the CA system +-- then we can just put a hash of the certificate, or a hash of the public key, +into the DNS, side-stepping the entire CA system. Unfortunately, TLSA has not +seen widespread adoption, though a +[Firefox extension](https://addons.mozilla.org/en-US/firefox/addon/dnssec-validator/) +is available (and extensions for some other browsers as well). Still, I like +this technology, so I have deployed it on my server. + +However, one consequence of TLSA records is that a freshly generated key cannot +immediately be used (i.e., by the web server): The DNS still contains the old +key's data, and that data gets cached! In Let's Encrypt Tiny, this key first +gets "staged". Next, we have to update the DNS zone to contain TLSA records for +*both* the old and the new key. Then we have to wait until the TTL +(time-to-live) of that record passes, to make sure that no caches still contain +*only* the old key. Finally, we "unstage" the key so all the servers (web +server, jabber server, and so on) to use the new certificate and key, which are +now "live". + +## Configuration + +Let's look at an example: Here is the configuration file for this server, +ralfj.de, with comments explaining the purpose of the various options: + +``` +# The domains currently making up this certificate line: +domains = + ralfj.de + www.ralfj.de + lists.ralfj.de + git.ralfj.de + ns.ralfj.de + ipv4.ns.ralfj.de + ipv6.ns.ralfj.de + jabber.ralfj.de + conference.jabber.ralfj.de +# ... this list goes on. + +# The size of the RSA secret key (in bits). +key-length = 4096 + +[timing] +# Max. age of the private key before we generate a new one. +max-key-age-days = 256 +# How long a new private key is "staged" before it is used as the live key. +# 0 disables staging. +staging-hours = 0 +# How many days before the certificate expires should be request a new one? +renew-cert-before-expiry-days = 15 + +[hooks] +# Script to execute after the certificate changed. +post-certchange = /root/letsencrypt/cert-hook +# Script to execute after the key changed. Only needed when using DNSSEC+TLSA. +#post-keychange = /root/letsencrypt/key-hook + +[acme] +# File storing the ACME account private key (created if missing). +account-key = /etc/ssl/private/letsencrypt/account.key +# Directory to put the ACME challenges into. Must be mapped to +# /.well-known/acme-challenge on all domains listed above. For example, in +# apache, put the following directive somewhere global: +# Alias /.well-known/acme-challenge/ /srv/acme-challenge/ +challenge-dir = /srv/acme-challenge/ + +[dirs] +# Directory for certificates. +certs = /etc/ssl/mycerts/letsencrypt +# Directory for private keys. +keys = /etc/ssl/private/letsencrypt +# A place to put old certificates and keys. +backups = /etc/ssl/old/letsencrypt + +[files] +# Filename prefix (without extension) for the live key and certificate. +live = live +# Filename prefix (without extension) for the staging key and certificate. +staging = staging +``` + +With this configuration, Let's Encrypt Tiny creates files +`/etc/ssl/mycerts/letsencrypt/live.crt` and +`/etc/ssl/private/letsencrypt/live.key`. These files are always the "tip" of +the certificate line and should be configured in the various servers -- however, +most servers will need these files to be massaged a bit. First of all, we also +need a key chain, and the intermediate CA used by Let's Encrypt actually changes +over time. Moreover, some servers want certificate and key in one file, while +others want the certificates to be bundled with the keychain and expect the +private key in a separate file. Sometimes, the Diffie-Hellman parameters are +also expected in the same file as the certificate -- every SSL-supporting server +seems to handle this slightly differently. + +This is all handled by the certificate hook, which creates the various derived files: +``` +#!/bin/sh +cd /etc/ssl/mycerts/letsencrypt +export PATH="/usr/sbin/:/sbin/:$PATH" + +# Determine the intermediate CA used by this certificate. We expect the +# intermediate certificates to be stored in files in /etc/ssl/chains/, +# e.g. /etc/ssl/chains/letsencrypt-X3.crt. +ISSUER=$(openssl x509 -issuer -in live.crt -noout | sed 's/.*Authority \(X[0-9]\+\).*/\1/') +ISSUER_FILE=/etc/ssl/chains/letsencrypt-"$ISSUER".crt +if ! [ -f "$ISSUER_FILE" ]; then + echo "Cannot find certificate for issuer $(openssl x509 -issuer -in live.crt -noout)" + exit 1 +fi + +# Create derived files. We expect /etc/ssl/dh2048.pem to contain the DH +# parameters, generated with +# openssl dhparam -out /etc/ssl/dh2048.pem 2048 +cat "$ISSUER_FILE" > live.chain # just the chain +cat live.crt /etc/ssl/dh2048.pem > live.crt+dh # Certificate plus DH parameters +cat live.crt live.chain > live.crt+chain # Certificate plus chain + +# Fill in here: the code to restart/reload all relevant services. +``` + +With this, the apache SSL configuration looks as follows: + +``` +# Certificate, Key, and DH parameters +SSLCertificateFile /etc/ssl/mycerts/live.crt+dh +SSLCertificateKeyFile /etc/ssl/private/live.key +SSLCertificateChainFile /etc/ssl/mycerts/live.chain + +# configure SSL ciphers and protocols +SSLProtocol All -SSLv2 -SSLv3 +# TODO: Once OpenSSL supports GMC with more than just AES, revisit this +# NOTE: The reason we support non-FS ciphers is stupid middleboxes that don't support FS +SSLCipherSuite 'kEECDH+AESGCM:kEDH+AESGCM:kEECDH:kEDH:AESGCM:ALL:!3DES:!EXPORT:!LOW:!MEDIUM:!aNULL:!eNULL' +SSLHonorCipherOrder on +``` + +(My cipher suite is deliberately not the one from +[bettercrypto.org](https://bettercrypto.org) because I prefer to not update it +with every change in OpenSSL's supported ciphers.) + +## Obtaining the first certificate + +You can now run `letsencrypt-tiny -c letsencrypt.conf init` to perform the +initial setup. + +In the future, to change the set of domains, first edit the config file and then +run `letsencrypt-tiny -c letsencrypt.conf -k renew`. The `-k` tells Let's +Encrypt Tiny to also run the certificate hook. + +## Automation via cron + +Let's Encrypt certificates expire after 90 days, so we want renewal to be +automated. To this end, just make sure that `letsencrypt-tiny -c +letsencrypt.conf -k cron` gets run regularly, like once a day. I have the +following in root's crontab (`sudo crontab -e`): + +``` +32 6 * * * /root/server-scripts/letsencrypt-tiny -c /root/letsencrypt/conf -k cron +``` + +This will check the time intervals you configured above, and act accordingly. +If any action is taken, the script will print that information on standard +output; if you have email set up on your server, this means you will get an +email notification. + +## DNSSEC and TLSA + +Everything described so far should give you a working SSL setup if you do not +use DNSSEC+TLSA. If you *do* use DNSSEC+TLSA, like I do on this server, you +need to enable the `post-keychange` hook and have it regenerate your DNS zone, +and you need to increase `staging-hours`. The zone should always contain the +hash of the live key, and, if a staging key exists, also the hash of the staging +key. + +I am managing my DNS zones with +[zonemaker](https://www.ralfj.de/projects/zonemaker/), and wrote some Python +code to automatically generate TLSA records using the `tlsa` tool: + +``` +def TLSA_from_crt(protocol, port, crtfile): + crtfile = "/etc/ssl/mycerts/"+crtfile + open(crtfile).close() # check if the file exists + # make sure we match on *the key only*, so that we can renew the certificate without harm + zone_line = subprocess.check_output(["tlsa", "--selector", str(TLSA.Selector.SubjectPublicKeyInfo), "--certificate", crtfile, "example.org"]).decode("utf-8") + m = re.match("^[0-9a-zA-Z_.-]+ IN TLSA ([0-9]+) ([0-9]+) ([0-9]+) ([0-9a-zA-Z]+)$", zone_line) + assert m is not None + assert int(m.group(1)) == TLSA.Usage.EndEntity + assert int(m.group(2)) == TLSA.Selector.SubjectPublicKeyInfo + return TLSA(protocol, port, TLSA.Usage.EndEntity, TLSA.Selector.SubjectPublicKeyInfo, int(m.group(3)), m.group(4)) + +def TLSA_for_LE(protocol = Protocol.TCP, port = 443): + # add both the live and (potentially) staging certificate to the letsencrypt TLSA record set + r = [TLSA_from_crt(protocol, port, "letsencrypt/live.crt")] + try: + r.append(TLSA_from_crt(protocol, port, "letsencrypt/staging.crt")) + except IOError: + pass + return r +``` + +Now I add `TLSA_for_LE(port = 443)` to the records of my domains. Finally, the +key hook just runs zonemaker and has bind reload the zone (it will automatically +also be resigned). Now, whenever a staging key is created, it is automatically +added to my zone. At least 25h later (I have the TTL set to 24h), the key gets +unstaged, and the old TLSA record is removed from the zone. + +That's it! If you have any questions, feel free to report +[issues at GitHub](https://github.com/RalfJung/server-scripts/issues). -- 2.30.2