forked from TrueCloudLab/lego
129 lines
4.7 KiB
Markdown
129 lines
4.7 KiB
Markdown
---
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title: Obtain a Certificate
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date: 2019-03-03T16:39:46+01:00
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draft: false
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weight: 2
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---
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This guide explains various ways to obtain a new certificate.
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<!--more-->
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## Using the built-in web server
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Open a terminal, and execute the following command (insert your own email address and domain):
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```bash
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lego --email="you@example.com" --domains="example.com" --http run
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```
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You will find your certificate in the `.lego` folder of the current working directory:
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```console
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$ ls -1 ./.lego/certificates
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example.com.crt
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example.com.issuer.crt
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example.com.json
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example.com.key
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[maybe more files for different domains...]
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```
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where
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- `example.com.crt` is the server certificate (including the CA certificate),
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- `example.com.key` is the private key needed for the server certificate,
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- `example.com.issuer.crt` is the CA certificate, and
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- `example.com.json` contains some JSON encoded meta information.
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For each domain, you will have a set of these four files.
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For wildcard certificates (`*.example.com`), the filenames will look like `_.example.com.crt`.
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The `.crt` and `.key` files are PEM-encoded x509 certificates and private keys.
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If you're looking for a `cert.pem` and `privkey.pem`, you can just use `example.com.crt` and `example.com.key`.
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## Using a DNS provider
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If you can't or don't want to start a web server, you need to use a DNS provider.
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lego comes with [support for many]({{< ref "dns#dns-providers" >}}) providers,
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and you need to pick the one where your domain's DNS settings are set up.
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Typically, this is the registrar where you bought the domain, but in some cases this can be another third-party provider.
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For this example, let's assume you have setup CloudFlare for your domain.
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Execute this command:
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```bash
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CLOUDFLARE_EMAIL="you@example.com" \
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CLOUDFLARE_API_KEY="yourprivatecloudflareapikey" \
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lego --email "you@example.com" --dns cloudflare --domains "example.org" run
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```
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## Using a custom certificate signing request (CSR)
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The first step in the process of obtaining certificates involves creating a signing request.
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This CSR bundles various information, including the domain name(s) and a public key.
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By default, lego will hide this step from you, but if you already have a CSR, you can easily reuse it:
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```bash
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lego --email="you@example.com" --http --csr="/path/to/csr.pem" run
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```
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lego will infer the domains to be validated based on the contents of the CSR, so make sure the CSR's Common Name and optional SubjectAltNames are set correctly.
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## Using an existing, running web server
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If you have an existing server running on port 80, the `--http` option also requires the `--http.webroot` option.
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This just writes the http-01 challenge token to the given directory in the folder `.well-known/acme-challenge` and does not start a server.
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The given directory **should** be publicly served as `/` on the domain(s) for the validation to complete.
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If the given directory is not publicly served you will have to support rewriting the request to the directory;
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You could also implement a rewrite to rewrite `.well-known/acme-challenge` to the given directory `.well-known/acme-challenge`.
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You should be able to run an existing webserver on port 80 and have lego write the token file with the HTTP-01 challenge key authorization to `<webroot dir>/.well-known/acme-challenge/` by running something like:
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```bash
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lego --accept-tos --email you@example.com --http --http.webroot /path/to/webroot --domains example.com run
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```
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## Running a script afterward
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You can easily hook into the certificate-obtaining process by providing the path to a script:
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```bash
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lego --email="you@example.com" --domains="example.com" --http run --run-hook="./myscript.sh"
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```
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Some information is provided through environment variables:
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- `LEGO_ACCOUNT_EMAIL`: the email of the account.
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- `LEGO_CERT_DOMAIN`: the main domain of the certificate.
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- `LEGO_CERT_PATH`: the path of the certificate.
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- `LEGO_CERT_KEY_PATH`: the path of the certificate key.
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### Use case
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A typical use case is distribute the certificate for other services and reload them if necessary.
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Since PEM-formatted TLS certificates are understood by many programs, it is relatively simple to use certificates for more than a web server.
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This example script installs the new certificate for a mail server, and reloads it.
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Beware: this is just a starting point, error checking is omitted for brevity.
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```bash
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#!/bin/bash
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# copy certificates to a directory controlled by Postfix
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postfix_cert_dir="/etc/postfix/certificates"
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# our Postfix server only handles mail for @example.com domain
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if [ "$LEGO_CERT_DOMAIN" = "example.com" ]; then
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install -u postfix -g postfix -m 0644 "$LEGO_CERT_PATH" "$postfix_cert_dir"
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install -u postfix -g postfix -m 0640 "$LEGO_KEY_PATH" "$postfix_cert_dir"
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systemctl reload postfix@-service
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fi
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```
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