forked from TrueCloudLab/distribution
b22c6b7a4e
Adds READMEs and enforces vendor is done at repository root Signed-off-by: Derek McGowan <derek@mcgstyle.net>
177 lines
7.3 KiB
Text
177 lines
7.3 KiB
Text
package letsencrypt // import "rsc.io/letsencrypt"
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Package letsencrypt obtains TLS certificates from LetsEncrypt.org.
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LetsEncrypt.org is a service that issues free SSL/TLS certificates to
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servers that can prove control over the given domain's DNS records or the
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servers pointed at by those records.
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Warning
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Like any other random code you find on the internet, this package should not
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be relied upon in important, production systems without thorough testing to
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ensure that it meets your needs.
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In the long term you should be using
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https://golang.org/x/crypto/acme/autocert instead of this package. Send
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improvements there, not here.
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This is a package that I wrote for my own personal web sites (swtch.com,
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rsc.io) in a hurry when my paid-for SSL certificate was expiring. It has no
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tests, has barely been used, and there is some anecdotal evidence that it
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does not properly renew certificates in a timely fashion, so servers that
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run for more than 3 months may run into trouble. I don't run this code
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anymore: to simplify maintenance, I moved the sites off of Ubuntu VMs and
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onto Google App Engine, configured with inexpensive long-term certificates
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purchased from cheapsslsecurity.com.
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This package was interesting primarily as an example of how simple the API
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for using LetsEncrypt.org could be made, in contrast to the low-level
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implementations that existed at the time. In that respect, it helped inform
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the design of the golang.org/x/crypto/acme/autocert package.
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Quick Start
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A complete HTTP/HTTPS web server using TLS certificates from
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LetsEncrypt.org, redirecting all HTTP access to HTTPS, and maintaining TLS
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certificates in a file letsencrypt.cache across server restarts.
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package main
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import (
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"fmt"
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"log"
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"net/http"
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"rsc.io/letsencrypt"
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)
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func main() {
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http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
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fmt.Fprintf(w, "Hello, TLS!\n")
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})
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var m letsencrypt.Manager
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if err := m.CacheFile("letsencrypt.cache"); err != nil {
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log.Fatal(err)
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}
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log.Fatal(m.Serve())
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}
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Overview
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The fundamental type in this package is the Manager, which manages obtaining
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and refreshing a collection of TLS certificates, typically for use by an
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HTTPS server. The example above shows the most basic use of a Manager. The
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use can be customized by calling additional methods of the Manager.
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Registration
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A Manager m registers anonymously with LetsEncrypt.org, including agreeing
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to the letsencrypt.org terms of service, the first time it needs to obtain a
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certificate. To register with a particular email address and with the option
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of a prompt for agreement with the terms of service, call m.Register.
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GetCertificate
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The Manager's GetCertificate method returns certificates from the Manager's
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cache, filling the cache by requesting certificates from LetsEncrypt.org. In
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this way, a server with a tls.Config.GetCertificate set to m.GetCertificate
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will demand load a certificate for any host name it serves. To force loading
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of certificates ahead of time, install m.GetCertificate as before but then
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call m.Cert for each host name.
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A Manager can only obtain a certificate for a given host name if it can
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prove control of that host name to LetsEncrypt.org. By default it proves
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control by answering an HTTPS-based challenge: when the LetsEncrypt.org
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servers connect to the named host on port 443 (HTTPS), the TLS SNI handshake
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must use m.GetCertificate to obtain a per-host certificate. The most common
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way to satisfy this requirement is for the host name to resolve to the IP
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address of a (single) computer running m.ServeHTTPS, or at least running a
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Go TLS server with tls.Config.GetCertificate set to m.GetCertificate.
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However, other configurations are possible. For example, a group of machines
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could use an implementation of tls.Config.GetCertificate that cached
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certificates but handled cache misses by making RPCs to a Manager m on an
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elected leader machine.
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In typical usage, then, the setting of tls.Config.GetCertificate to
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m.GetCertificate serves two purposes: it provides certificates to the TLS
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server for ordinary serving, and it also answers challenges to prove
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ownership of the domains in order to obtain those certificates.
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To force the loading of a certificate for a given host into the Manager's
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cache, use m.Cert.
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Persistent Storage
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If a server always starts with a zero Manager m, the server effectively
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fetches a new certificate for each of its host name from LetsEncrypt.org on
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each restart. This is unfortunate both because the server cannot start if
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LetsEncrypt.org is unavailable and because LetsEncrypt.org limits how often
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it will issue a certificate for a given host name (at time of writing, the
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limit is 5 per week for a given host name). To save server state proactively
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to a cache file and to reload the server state from that same file when
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creating a new manager, call m.CacheFile with the name of the file to use.
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For alternate storage uses, m.Marshal returns the current state of the
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Manager as an opaque string, m.Unmarshal sets the state of the Manager using
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a string previously returned by m.Marshal (usually a different m), and
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m.Watch returns a channel that receives notifications about state changes.
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Limits
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To avoid hitting basic rate limits on LetsEncrypt.org, a given Manager
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limits all its interactions to at most one request every minute, with an
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initial allowed burst of 20 requests.
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By default, if GetCertificate is asked for a certificate it does not have,
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it will in turn ask LetsEncrypt.org for that certificate. This opens a
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potential attack where attackers connect to a server by IP address and
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pretend to be asking for an incorrect host name. Then GetCertificate will
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attempt to obtain a certificate for that host, incorrectly, eventually
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hitting LetsEncrypt.org's rate limit for certificate requests and making it
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impossible to obtain actual certificates. Because servers hold certificates
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for months at a time, however, an attack would need to be sustained over a
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time period of at least a month in order to cause real problems.
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To mitigate this kind of attack, a given Manager limits itself to an average
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of one certificate request for a new host every three hours, with an initial
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allowed burst of up to 20 requests. Long-running servers will therefore stay
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within the LetsEncrypt.org limit of 300 failed requests per month.
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Certificate refreshes are not subject to this limit.
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To eliminate the attack entirely, call m.SetHosts to enumerate the exact set
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of hosts that are allowed in certificate requests.
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Web Servers
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The basic requirement for use of a Manager is that there be an HTTPS server
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running on port 443 and calling m.GetCertificate to obtain TLS certificates.
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Using standard primitives, the way to do this is:
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srv := &http.Server{
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Addr: ":https",
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TLSConfig: &tls.Config{
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GetCertificate: m.GetCertificate,
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},
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}
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srv.ListenAndServeTLS("", "")
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However, this pattern of serving HTTPS with demand-loaded TLS certificates
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comes up enough to wrap into a single method m.ServeHTTPS.
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Similarly, many HTTPS servers prefer to redirect HTTP clients to the HTTPS
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URLs. That functionality is provided by RedirectHTTP.
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The combination of serving HTTPS with demand-loaded TLS certificates and
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serving HTTPS redirects to HTTP clients is provided by m.Serve, as used in
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the original example above.
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func RedirectHTTP(w http.ResponseWriter, r *http.Request)
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type Manager struct { ... }
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