Automatic Let's Encrypt certificate serving (RSA + ECC) and pure Lua implementation of the ACMEv2 protocol.
http-01 and tls-alpn-01 challenges are supported.
This library consists of two parts:
resty.acme.autossl: automatic lifecycle management of Let's Encrypt certificatesresty.acme.client: Lua implementation of ACME v2 protocol
Install using opm:
opm install fffonion/lua-resty-acmeAlternatively, to install using luarocks:
luarocks install lua-resty-acme
# manually install a luafilesystem
luarocks install luafilesystemNote you will need to manually install luafilesystem when using LuaRocks. This is made to maintain
backward compatibility.
This library uses an FFI-based openssl backend,
which currently supports OpenSSL 1.1.1, 1.1.0 and 1.0.2 series.
Production.
Create account private key and fallback certs:
# create account key
openssl genpkey -algorithm RSA -pkeyopt rsa_keygen_bits:4096 -out /etc/openresty/account.key
# create fallback cert and key
openssl req -newkey rsa:2048 -nodes -keyout /etc/openresty/default.key -x509 -days 365 -out /etc/openresty/default.pemUse the following example config:
events {}
http {
resolver 8.8.8.8 ipv6=off;
lua_shared_dict acme 16m;
# required to verify Let's Encrypt API
lua_ssl_trusted_certificate /etc/ssl/certs/ca-certificates.crt;
lua_ssl_verify_depth 2;
init_by_lua_block {
require("resty.acme.autossl").init({
-- setting the following to true
-- implies that you read and accepted https://letsencrypt.org/repository/
tos_accepted = true,
-- uncomment following for first time setup
-- staging = true,
-- uncomment following to enable RSA + ECC double cert
-- domain_key_types = { 'rsa', 'ecc' },
-- uncomment following to enable tls-alpn-01 challenge
-- enabled_challenge_handlers = { 'http-01', 'tls-alpn-01' },
account_key_path = "/etc/openresty/account.key",
account_email = "youemail@youdomain.com",
domain_whitelist = { "example.com" },
})
}
init_worker_by_lua_block {
require("resty.acme.autossl").init_worker()
}
server {
listen 80;
listen 443 ssl;
server_name example.com;
# fallback certs, make sure to create them before hand
ssl_certificate /etc/openresty/default.pem;
ssl_certificate_key /etc/openresty/default.key;
ssl_certificate_by_lua_block {
require("resty.acme.autossl").ssl_certificate()
}
location = /.well-known {
content_by_lua_block {
require("resty.acme.autossl").serve_http_challenge()
}
}
}
}When testing deployment, it's recommanded to uncomment the staging = true to allow an
end-to-end test of your environment. This can avoid configuration failure result into too
many requests that hits rate limiting on Let's Encrypt API.
By default autossl only creates RSA certificates. To use ECC certificates or both, uncomment
domain_key_types = { 'rsa', 'ecc' }. Note that multiple certificate
chain is only supported by NGINX 1.11.0 or later.
A certificate will be queued to create after Nginx seen request with such SNI, which might take tens of seconds to finish. During the meantime, requests with such SNI are responsed with the fallback certificate.
Note that domain_whitelist or domain_whitelist_callback must be set to include your domain
that you wish to server autossl, to prevent potential abuse using fake SNI in SSL handshake.
domain_whitelist defines a table that includes all domains should be included, and
domain_whitelist_callback defines a function that accepts domain as parameter and return
boolean to indicate if it should be included.
domain_whitelist = { "domain1.com", "domain2.com", "domain3.com" },To match a pattern in your domain name, for example all subdomains under example.com, use:
domain_whitelist_callback = function(domain, is_new_cert_needed)
return ngx.re.match(domain, [[\.example\.com$]], "jo")
endFurthermore, since checking domain whitelist is running in certificate phase. It's possible to use cosocket API here. Do note that this will increase the SSL handshake latency.
domain_whitelist_callback = function(domain, is_new_cert_needed)
-- send HTTP request
local http = require("resty.http")
local res, err = httpc:request_uri("http://example.com")
-- access the storage
local value, err = require("resty.acme.autossl").storage:get("key")
-- do something to check the domain
-- return is_domain_included
end}),domain_whitelist_callback function is provided with a second argument,
which indicates whether the certificate is about to be served on incoming HTTP request (false) or new certificate is about to be requested (true). This allows to use cached values on hot path (serving requests) while fetching fresh data from storage for new certificates. One may also implement different logic, e.g. do extra checks before requesting new cert.
In case of certificate request failure one may want to prevent ACME client to request another certificate immediatelly. By default, the cooloff period it is set to 300 seconds (5 minutes). It may be customized with failure_cooloff or with failure_cooloff_callback function, e.g. to implement exponential backoff.
failure_cooloff_callback = function(domain, count)
if count == 1 then
return 600 -- 10 minutes
elseif count == 2 then
return 1800 -- 30 minutes
elseif count == 3 then
return 3600 -- 1 hour
elseif count == 4 then
return 43200 -- 12 hours
elseif count == 5 then
return 43200 -- 12 hours
else
return 86400 -- 24 hours
end
endtls-alpn-01 challenge is currently supported on Openresty 1.15.8.x, 1.17.8.x and 1.19.3.x.
Click to expand sample config
events {}
http {
resolver 8.8.8.8 ipv6=off;
lua_shared_dict acme 16m;
# required to verify Let's Encrypt API
lua_ssl_trusted_certificate /etc/ssl/certs/ca-certificates.crt;
lua_ssl_verify_depth 2;
init_by_lua_block {
require("resty.acme.autossl").init({
-- setting the following to true
-- implies that you read and accepted https://letsencrypt.org/repository/
tos_accepted = true,
-- uncomment following for first time setup
-- staging = true,
-- uncomment folloing to enable RSA + ECC double cert
-- domain_key_types = { 'rsa', 'ecc' },
-- uncomment following to enable tls-alpn-01 challenge
enabled_challenge_handlers = { 'http-01', 'tls-alpn-01' },
account_key_path = "/etc/openresty/account.key",
account_email = "youemail@youdomain.com",
domain_whitelist = { "example.com" },
storage_adapter = "file",
})
}
init_worker_by_lua_block {
require("resty.acme.autossl").init_worker()
}
server {
listen 80;
listen unix:/tmp/nginx-default.sock ssl;
# listen unix:/tmp/nginx-default.sock ssl proxy_protocol;
server_name example.com;
# set_real_ip_from unix:;
# real_ip_header proxy_protocol;
# fallback certs, make sure to create them before hand
ssl_certificate /etc/openresty/default.pem;
ssl_certificate_key /etc/openresty/default.key;
ssl_certificate_by_lua_block {
require("resty.acme.autossl").ssl_certificate()
}
location /.well-known {
content_by_lua_block {
require("resty.acme.autossl").serve_http_challenge()
}
}
}
}
stream {
init_worker_by_lua_block {
require("resty.acme.autossl").init({
-- setting the following to true
-- implies that you read and accepted https://letsencrypt.org/repository/
tos_accepted = true,
-- uncomment following for first time setup
-- staging = true,
-- uncomment folloing to enable RSA + ECC double cert
-- domain_key_types = { 'rsa', 'ecc' },
-- uncomment following to enable tls-alpn-01 challenge
enabled_challenge_handlers = { 'http-01', 'tls-alpn-01' },
account_key_path = "/etc/openresty/account.key",
account_email = "youemail@youdomain.com",
domain_whitelist = { "example.com" },
storage_adapter = "file"
})
require("resty.acme.autossl").init_worker()
}
map $ssl_preread_alpn_protocols $backend {
~\bacme-tls/1\b unix:/tmp/nginx-tls-alpn.sock;
default unix:/tmp/nginx-default.sock;
}
server {
listen 443;
listen [::]:443;
ssl_preread on;
proxy_pass $backend;
# proxy_protocol on;
}
server {
listen unix:/tmp/nginx-tls-alpn.sock ssl;
# listen nix:/tmp/nginx-tls-alpn.sock ssl proxy_protocol;
ssl_certificate certs/default.pem;
ssl_certificate_key certs/default.key;
# requires --with-stream_realip_module
# set_real_ip_from unix:;
ssl_certificate_by_lua_block {
require("resty.acme.autossl").serve_tls_alpn_challenge()
}
content_by_lua_block {
ngx.exit(0)
}
}
}In the above sample config, we set a http server and two stream server.
The very front stream server listens for 443 port and route to different upstream
based on client ALPN. The tls-alpn-01 responder listens on unix:/tmp/nginx-tls-alpn.sock.
All normal https traffic listens on unix:/tmp/nginx-default.sock.
[stream server unix:/tmp/nginx-tls-alpn.sock ssl]
Y /
[stream server 443] --- ALPN is acme-tls ?
N \
[http server unix:/tmp/nginx-default.sock ssl]
- The config passed to
require("resty.acme.autossl").initin both subsystem should be kept same as possible. tls-alpn-01challenge handler doesn't need any third party dependency.- You can enable
http-01andtls-alpn-01challenge handlers at the same time. httpandstreamsubsystem doesn't share shm, thus considering use a storage other thanshm. If you must useshm, you will need to apply this patch.
A config table can be passed to resty.acme.autossl.init(), the default values are:
default_config = {
-- accept term of service https://letsencrypt.org/repository/
tos_accepted = false,
-- if using the let's encrypt staging API
staging = false,
-- the path to account private key in PEM format
account_key_path = nil,
-- the account email to register
account_email = nil,
-- number of certificate cache, per type
cache_size = 100,
domain_key_paths = {
-- the global domain RSA private key
rsa = nil,
-- the global domain ECC private key
ecc = nil,
},
-- the private key algorithm to use, can be one or both of
-- 'rsa' and 'ecc'
domain_key_types = { 'rsa' },
-- restrict registering new cert only with domain defined in this table
domain_whitelist = nil,
-- restrict registering new cert only with domain checked by this function
domain_whitelist_callback = nil,
-- interval to wait before retrying after failed certificate request
failure_cooloff = 300,
-- function that returns interval to wait before retrying after failed certificate request
failure_cooloff_callback = nil,
-- the threshold to renew a cert before it expires, in seconds
renew_threshold = 7 * 86400,
-- interval to check cert renewal, in seconds
renew_check_interval = 6 * 3600,
-- the store certificates
storage_adapter = "shm",
-- the storage config passed to storage adapter
storage_config = {
shm_name = 'acme',
},
-- the challenge types enabled
enabled_challenge_handlers = { 'http-01' },
-- time to wait before signaling ACME server to validate in seconds
challenge_start_delay = 0,
}If account_key_path is not specified, a new account key will be created
everytime Nginx reloads configuration. Note this may trigger New Account
rate limiting on Let's Encrypt API.
If domain_key_paths is not specified, a new private key will be generated
for each certificate (4096-bits RSA and 256-bits prime256v1 ECC). Note that
generating such key will block worker and will be especially noticable on VMs
where entropy is low.
Pass config table directly to ACME client as second parameter. The following example demonstrates how to use a CA provider other than Let's Encrypt and also set the preferred chain.
resty.acme.autossl.init({
tos_accepted = true,
account_email = "example@example.com",
}, {
api_uri = "https://acme.otherca.com/directory",
preferred_chain = "OtherCA PKI Root CA",
}
)See also Storage Adapters below.
When using distributed storage types, it's useful to bump up challenge_start_delay to allow
changes in storage to propogate around. When challenge_start_delay is set to 0, no wait
will be performed before start validating challenges.
syntax: certkey, err = autossl.get_certkey(domain, type?)
Return the PEM-encoded certificate and private key for domain from storage. Optionally
accepts a type parameter which can be "rsa" or "ecc"; if omitted, type will default
to "rsa".
syntax: c, err = client.new(config)
Create a ACMEv2 client.
Default values for config are:
default_config = {
-- the ACME v2 API endpoint to use
api_uri = "https://acme-v02.api.letsencrypt.org/directory",
-- the account email to register
account_email = nil,
-- the account key in PEM format text
account_key = nil,
-- the account kid (as an URL)
account_kid = nil,
-- external account binding key id
eab_kid = nil,
-- external account binding hmac key, base64url encoded
eab_hmac_key = nil,
-- external account registering handler
eab_handler = nil,
-- storage for challenge
storage_adapter = "shm",
-- the storage config passed to storage adapter
storage_config = {
shm_name = "acme"
},
-- the challenge types enabled, selection of `http-01` and `tls-alpn-01`
enabled_challenge_handlers = {"http-01"},
-- select preferred root CA issuer's Common Name if appliable
preferred_chain = nil,
-- callback function that allows to wait before signaling ACME server to validate
challenge_start_callback = nil,
}If account_kid is omitted, user must call client:new_account() to register a
new account. Note that when using the same account_key, client:new_account()
will return the same kid that is previosuly registered.
If CA requires External Account Binding, user can set
eab_kid and eab_hmac_key to load an existing account, or set account_email and
eab_handler to register a new account. eab_hmac_key must be base64 url encoded.
In later case, user must call client:new_account() to register a new account.
eab_handler must be an function that accepts account_email as parameter and
returns eab_kid, eab_hmac_key and error if any.
eab_handler = function(account_email)
-- do something to register an account with account_email
-- if err then
-- return nil, nil, err
-- end
return eab_kid, eab_hmac_key
endThe following CA provider's EAB handler is supported by lua-resty-acme and user doesn't
need to implement their own eab_handler:
preferred_chain is used to select a chain with matching Common Name in its root CA. For example,
user can use use "ISRG Root X1" to force use the new default chain in Let's Encrypt. When no
value is configured or the configured name is not found in any chain, the default chain will be
used.
challenge_start_callback is a callback function to allow the client to wait before signalling
ACME server to start validate challenge. It's useful in a distributed setup where challenges take
time to propogate. challenge_start_callback accepts challenge_type and challenge_token.
The client calls this function every second until it returns true indicating challenge should start;
if this challenge_start_callback is not set, no wait will be performed.
challenge_start_callback = function(challenge_type, challenge_token)
-- do something here
-- if we are good
return true
endSee also Storage Adapters below.
syntax: err = client:init()
Initialize the client, requires availability of cosocket API. This function will login or register an account.
syntax: err = client:order_certificate(domain,...)
Create a certificate with one or more domains. Note that wildcard domains are not supported as it can only be verified by dns-01 challenge.
syntax: client:serve_http_challenge()
Serve http-01 challenge. A common use case will be to
put this as a content_by_* block for /.well-known path.
syntax: client:serve_tls_alpn_challenge()
Serve tls-alpn-01 challenge. See this section on how to use this handler.
Storage adapters are used in autossl or acme client to storage temporary or
persistent data. Depending on the deployment environment, there're currently
five storage adapters available to select from. To implement a custom storage
adapter, please refer to
this doc.
Filesystem based storage. Sample configuration:
storage_config = {
dir = '/etc/openresty/storage',
}If dir is omitted, the OS temporary directory will be used.
luafilesystem or luafilesystem-ffi is needed when using the file storage for renewal.
Lua shared dict based storage. Note this storage is volatile between Nginx restarts (not reloads). Sample configuration:
storage_config = {
shm_name = 'dict_name',
}Redis based storage. The default config is:
storage_config = {
host = '127.0.0.1',
port = 6379,
database = 0,
-- Redis authentication key
auth = nil,
}Redis >= 2.6.0 is required as this storage requires PEXPIRE.
Hashicorp Vault based storage. Only KV V2 backend is supported. The default config is:
storage_config = {
host = '127.0.0.1',
port = 8200,
-- secrets kv prefix path
kv_path = "acme",
-- timeout in ms
timeout = 2000,
-- use HTTPS
https = false,
-- turn on tls verification
tls_verify = true
-- SNI used in request, default to host if omitted
tls_server_name = nil,
-- Auth Method, default to token, can be "token" or "kubernetes"
auth_method = "token"
-- Vault token
token = nil,
-- Vault's authentication path to use
auth_path = "kubernetes",
-- The role to try and assign
auth_role = nil,
-- The path to the JWT
jwt_path = "/var/run/secrets/kubernetes.io/serviceaccount/token",
-- Vault namespace
namespace = nil,
}-
Token: This is the default and allows to pass a literal "token" in the configuration
-
Kubernetes: Via this method, one can utilize vault's built-in auth method for kubernetes What this basically this is take the service account token and validates it has been signed by Kubernetes CA. The major benefit here, is that config files don't expose your token anymore.
The following configurations apply here:
-- Vault's authentication path to use auth_path = "kubernetes", -- The role to try and assign auth_role = nil, -- The path to the JWT jwt_path = "/var/run/secrets/kubernetes.io/serviceaccount/token",
Hashicorp Consul based storage. The default config is:
storage_config = {
host = '127.0.0.1',
port = 8500,
-- kv prefix path
kv_path = "acme",
-- Consul ACL token
token = nil,
-- timeout in ms
timeout = 2000,
}etcd based storage. Right now only v2 protocol is supported.
The default config is:
storage_config = {
http_host = 'http://127.0.0.1:4001',
protocol = 'v2',
key_prefix = '',
timeout = 60,
ssl_verify = false,
}Etcd storage requires lua-resty-etcd library to installed.
It can be manually installed with opm install api7/lua-resty-etcd or luarocks install lua-resty-etcd.
- autossl: ocsp staping
Setup e2e test environment by running bash t/fixtures/prepare_env.sh.
Then run cpanm install Test::Nginx::Socket and then prove -r t.
- Improvements of
filestorage by @dbalagansky - Addition of kubernetes auth in 'vault' storage by @UXabre
This module is licensed under the BSD license.
Copyright (C) 2019, by fffonion fffonion@gmail.com.
All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
-
Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
-
Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- Automatic Certificate Management Environment (ACME)
- haproxytech/haproxy-lua-acme The ACME Lua implementation used in HAProxy.
- GUI/lua-resty-auto-ssl
- lua-resty-openssl
- Let's Encrypt API rate limits