Let’s Encrypt
Automatic HTTPS
You can configure Traefik to use an ACME provider (like Let’s Encrypt) for automatic certificate generation.
Let’s Encrypt and Rate Limiting
Note that Let’s Encrypt API has rate limiting.
Use Let’s Encrypt staging server with the caServer
configuration option when experimenting to avoid hitting this limit too fast.
Certificate Resolvers
Traefik requires you to define “Certificate Resolvers” in the static configuration, which are responsible for retrieving certificates from an ACME server.
Then, each “router” is configured to enable TLS, and is associated to a certificate resolver through the tls.certresolver
configuration option.
Certificates are requested for domain names retrieved from the router’s dynamic configuration.
You can read more about this retrieval mechanism in the following section: ACME Domain Definition.
Defining a certificates resolver does not result in all routers automatically using it. Each router that is supposed to use the resolver must reference it.
Configuration Reference
There are many available options for ACME. For a quick glance at what’s possible, browse the configuration reference:
File (TOML)
# Enable ACME (Let's Encrypt): automatic SSL.
[certificatesResolvers.myresolver.acme]
# Email address used for registration.
#
# Required
#
email = "test@example.com"
# File or key used for certificates storage.
#
# Required
#
storage = "acme.json"
# CA server to use.
# Uncomment the line to use Let's Encrypt's staging server,
# leave commented to go to prod.
#
# Optional
# Default: "https://acme-v02.api.letsencrypt.org/directory"
#
# caServer = "https://acme-staging-v02.api.letsencrypt.org/directory"
# Preferred chain to use.
#
# If the CA offers multiple certificate chains, prefer the chain with an issuer matching this Subject Common Name.
# If no match, the default offered chain will be used.
#
# Optional
# Default: ""
#
# preferredChain = "ISRG Root X1"
# KeyType to use.
#
# Optional
# Default: "RSA4096"
#
# Available values : "EC256", "EC384", "RSA2048", "RSA4096", "RSA8192"
#
# keyType = "RSA4096"
# Use a TLS-ALPN-01 ACME challenge.
#
# Optional (but recommended)
#
[certificatesResolvers.myresolver.acme.tlsChallenge]
# Use a HTTP-01 ACME challenge.
#
# Optional
#
# [certificatesResolvers.myresolver.acme.httpChallenge]
# EntryPoint to use for the HTTP-01 challenges.
#
# Required
#
# entryPoint = "web"
# Use a DNS-01 ACME challenge rather than HTTP-01 challenge.
# Note: mandatory for wildcard certificate generation.
#
# Optional
#
# [certificatesResolvers.myresolver.acme.dnsChallenge]
# DNS provider used.
#
# Required
#
# provider = "digitalocean"
# By default, the provider will verify the TXT DNS challenge record before letting ACME verify.
# If delayBeforeCheck is greater than zero, this check is delayed for the configured duration in seconds.
# Useful if internal networks block external DNS queries.
#
# Optional
# Default: 0
#
# delayBeforeCheck = 0
# Use following DNS servers to resolve the FQDN authority.
#
# Optional
# Default: empty
#
# resolvers = ["1.1.1.1:53", "8.8.8.8:53"]
# Disable the DNS propagation checks before notifying ACME that the DNS challenge is ready.
#
# NOT RECOMMENDED:
# Increase the risk of reaching Let's Encrypt's rate limits.
#
# Optional
# Default: false
#
# disablePropagationCheck = true
File (YAML)
certificatesResolvers:
myresolver:
# Enable ACME (Let's Encrypt): automatic SSL.
acme:
# Email address used for registration.
#
# Required
#
email: "test@example.com"
# File or key used for certificates storage.
#
# Required
#
storage: "acme.json"
# CA server to use.
# Uncomment the line to use Let's Encrypt's staging server,
# leave commented to go to prod.
#
# Optional
# Default: "https://acme-v02.api.letsencrypt.org/directory"
#
# caServer: "https://acme-staging-v02.api.letsencrypt.org/directory"
# Preferred chain to use.
#
# If the CA offers multiple certificate chains, prefer the chain with an issuer matching this Subject Common Name.
# If no match, the default offered chain will be used.
#
# Optional
# Default: ""
#
# preferredChain: 'ISRG Root X1'
# KeyType to use.
#
# Optional
# Default: "RSA4096"
#
# Available values : "EC256", "EC384", "RSA2048", "RSA4096", "RSA8192"
#
# keyType: RSA4096
# Use a TLS-ALPN-01 ACME challenge.
#
# Optional (but recommended)
#
tlsChallenge:
# Use a HTTP-01 ACME challenge.
#
# Optional
#
# httpChallenge:
# EntryPoint to use for the HTTP-01 challenges.
#
# Required
#
# entryPoint: web
# Use a DNS-01 ACME challenge rather than HTTP-01 challenge.
# Note: mandatory for wildcard certificate generation.
#
# Optional
#
# dnsChallenge:
# DNS provider used.
#
# Required
#
# provider: digitalocean
# By default, the provider will verify the TXT DNS challenge record before letting ACME verify.
# If delayBeforeCheck is greater than zero, this check is delayed for the configured duration in seconds.
# Useful if internal networks block external DNS queries.
#
# Optional
# Default: 0
#
# delayBeforeCheck: 0
# Use following DNS servers to resolve the FQDN authority.
#
# Optional
# Default: empty
#
# resolvers
# - "1.1.1.1:53"
# - "8.8.8.8:53"
# Disable the DNS propagation checks before notifying ACME that the DNS challenge is ready.
#
# NOT RECOMMENDED:
# Increase the risk of reaching Let's Encrypt's rate limits.
#
# Optional
# Default: false
#
# disablePropagationCheck: true
CLI
# Enable ACME (Let's Encrypt): automatic SSL.
# Email address used for registration.
#
# Required
#
--certificatesresolvers.myresolver.acme.email=test@example.com
# File or key used for certificates storage.
#
# Required
#
--certificatesresolvers.myresolver.acme.storage=acme.json
# CA server to use.
# Uncomment the line to use Let's Encrypt's staging server,
# leave commented to go to prod.
#
# Optional
# Default: "https://acme-v02.api.letsencrypt.org/directory"
#
--certificatesresolvers.myresolver.acme.caserver=https://acme-staging-v02.api.letsencrypt.org/directory
# Preferred chain to use.
#
# If the CA offers multiple certificate chains, prefer the chain with an issuer matching this Subject Common Name.
# If no match, the default offered chain will be used.
#
# Optional
# Default: ""
#
--certificatesresolvers.myresolver.acme.preferredchain="ISRG Root X1"
# KeyType to use.
#
# Optional
# Default: "RSA4096"
#
# Available values : "EC256", "EC384", "RSA2048", "RSA4096", "RSA8192"
#
--certificatesresolvers.myresolver.acme.keytype=RSA4096
# Use a TLS-ALPN-01 ACME challenge.
#
# Optional (but recommended)
#
--certificatesresolvers.myresolver.acme.tlschallenge=true
# Use a HTTP-01 ACME challenge.
#
# Optional
#
--certificatesresolvers.myresolver.acme.httpchallenge=true
# EntryPoint to use for the HTTP-01 challenges.
#
# Required
#
--certificatesresolvers.myresolver.acme.httpchallenge.entrypoint=web
# Use a DNS-01 ACME challenge rather than HTTP-01 challenge.
# Note: mandatory for wildcard certificate generation.
#
# Optional
#
--certificatesresolvers.myresolver.acme.dnschallenge=true
# DNS provider used.
#
# Required
#
--certificatesresolvers.myresolver.acme.dnschallenge.provider=digitalocean
# By default, the provider will verify the TXT DNS challenge record before letting ACME verify.
# If delayBeforeCheck is greater than zero, this check is delayed for the configured duration in seconds.
# Useful if internal networks block external DNS queries.
#
# Optional
# Default: 0
#
--certificatesresolvers.myresolver.acme.dnschallenge.delaybeforecheck=0
# Use following DNS servers to resolve the FQDN authority.
#
# Optional
# Default: empty
#
--certificatesresolvers.myresolver.acme.dnschallenge.resolvers=1.1.1.1:53,8.8.8.8:53
# Disable the DNS propagation checks before notifying ACME that the DNS challenge is ready.
#
# NOT RECOMMENDED:
# Increase the risk of reaching Let's Encrypt's rate limits.
#
# Optional
# Default: false
#
--certificatesresolvers.myresolver.acme.dnschallenge.disablepropagationcheck=true
Domain Definition
Certificate resolvers request certificates for a set of the domain names inferred from routers, with the following logic:
If the router has a
tls.domains
option set, then the certificate resolver uses themain
(and optionallysans
) option oftls.domains
to know the domain names for this router.If no
tls.domains
option is set, then the certificate resolver uses the router’s rule, by checking theHost()
matchers. Please note that multipleHost()
matchers can be used) for specifying multiple domain names for this router.
Please note that:
When multiple domain names are inferred from a given router, only one certificate is requested with the first domain name as the main domain, and the other domains as “SANs” (Subject Alternative Name).
As ACME V2 supports “wildcard domains”, any router can provide a wildcard domain name, as “main” domain or as “SAN” domain.
Please check the configuration examples below for more details.
Configuration Examples
Enabling ACME
File (TOML)
[entryPoints]
[entryPoints.web]
address = ":80"
[entryPoints.websecure]
address = ":443"
[certificatesResolvers.myresolver.acme]
email = "your-email@example.com"
storage = "acme.json"
[certificatesResolvers.myresolver.acme.httpChallenge]
# used during the challenge
entryPoint = "web"
File (YAML)
entryPoints:
web:
address: ":80"
websecure:
address: ":443"
certificatesResolvers:
myresolver:
acme:
email: your-email@example.com
storage: acme.json
httpChallenge:
# used during the challenge
entryPoint: web
CLI
--entrypoints.web.address=:80
--entrypoints.websecure.address=:443
# ...
--certificatesresolvers.myresolver.acme.email=your-email@example.com
--certificatesresolvers.myresolver.acme.storage=acme.json
# used during the challenge
--certificatesresolvers.myresolver.acme.httpchallenge.entrypoint=web
Defining a certificates resolver does not result in all routers automatically using it. Each router that is supposed to use the resolver must reference it.
Single Domain from Router’s Rule Example
A certificate for the domain
example.com
is requested:Docker
## Dynamic configuration
labels:
- traefik.http.routers.blog.rule=Host(`example.com`) && Path(`/blog`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
Docker (Swarm)
## Dynamic configuration
deploy:
labels:
- traefik.http.routers.blog.rule=Host(`example.com`) && Path(`/blog`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
- traefik.http.services.blog-svc.loadbalancer.server.port=8080"
Kubernetes
apiVersion: traefik.containo.us/v1alpha1
kind: IngressRoute
metadata:
name: blogtls
spec:
entryPoints:
- websecure
routes:
- match: Host(`example.com`) && Path(`/blog`)
kind: Rule
services:
- name: blog
port: 8080
tls:
certResolver: myresolver
Marathon
labels: {
"traefik.http.routers.blog.rule": "Host(`example.com`) && Path(`/blog`)",
"traefik.http.routers.blog.tls": "true",
"traefik.http.routers.blog.tls.certresolver": "myresolver",
"traefik.http.services.blog-svc.loadbalancer.server.port": "8080"
}
Rancher
## Dynamic configuration
labels:
- traefik.http.routers.blog.rule=Host(`example.com`) && Path(`/blog`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
File (TOML)
## Dynamic configuration
[http.routers]
[http.routers.blog]
rule = "Host(`example.com`) && Path(`/blog`)"
[http.routers.blog.tls]
certResolver = "myresolver"
File (YAML)
## Dynamic configuration
http:
routers:
blog:
rule: "Host(`example.com`) && Path(`/blog`)"
tls:
certResolver: myresolver
Multiple Domains from Router’s Rule Example
A certificate for the domains
example.com
(main) andblog.example.org
is requested:Docker
## Dynamic configuration
labels:
- traefik.http.routers.blog.rule=(Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
Docker (Swarm)
## Dynamic configuration
deploy:
labels:
- traefik.http.routers.blog.rule=(Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
- traefik.http.services.blog-svc.loadbalancer.server.port=8080"
Kubernetes
apiVersion: traefik.containo.us/v1alpha1
kind: IngressRoute
metadata:
name: blogtls
spec:
entryPoints:
- websecure
routes:
- match: (Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)
kind: Rule
services:
- name: blog
port: 8080
tls:
certResolver: myresolver
Marathon
labels: {
"traefik.http.routers.blog.rule": "(Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)",
"traefik.http.routers.blog.tls": "true",
"traefik.http.routers.blog.tls.certresolver": "myresolver",
"traefik.http.services.blog-svc.loadbalancer.server.port": "8080"
}
Rancher
## Dynamic configuration
labels:
- traefik.http.routers.blog.rule=(Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
File (TOML)
## Dynamic configuration
[http.routers]
[http.routers.blog]
rule = "(Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)"
[http.routers.blog.tls]
certResolver = "myresolver"
File (YAML)
## Dynamic configuration
http:
routers:
blog:
rule: "(Host(`example.com`) && Path(`/blog`)) || Host(`blog.example.org`)"
tls:
certResolver: myresolver
Multiple Domains from Router’s tls.domain
Example
A certificate for the domains
example.com
(main) and*.example.org
(SAN) is requested:Docker
## Dynamic configuration
labels:
- traefik.http.routers.blog.rule=Host(`example.com`) && Path(`/blog`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
- traefik.http.routers.blog.tls.domains[0].main=example.org
- traefik.http.routers.blog.tls.domains[0].sans=*.example.org
Docker (Swarm)
## Dynamic configuration
deploy:
labels:
- traefik.http.routers.blog.rule=Host(`example.com`) && Path(`/blog`)
- traefik.http.services.blog-svc.loadbalancer.server.port=8080"
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
- traefik.http.routers.blog.tls.domains[0].main=example.org
- traefik.http.routers.blog.tls.domains[0].sans=*.example.org
Kubernetes
apiVersion: traefik.containo.us/v1alpha1
kind: IngressRoute
metadata:
name: blogtls
spec:
entryPoints:
- websecure
routes:
- match: Host(`example.com`) && Path(`/blog`)
kind: Rule
services:
- name: blog
port: 8080
tls:
certResolver: myresolver
domains:
- main: example.org
sans:
- '*.example.org'
Marathon
labels: {
"traefik.http.routers.blog.rule": "Host(`example.com`) && Path(`/blog`)",
"traefik.http.routers.blog.tls": "true",
"traefik.http.routers.blog.tls.certresolver": "myresolver",
"traefik.http.routers.blog.tls.domains[0].main": "example.com",
"traefik.http.routers.blog.tls.domains[0].sans": "*.example.com",
"traefik.http.services.blog-svc.loadbalancer.server.port": "8080"
}
Rancher
## Dynamic configuration
labels:
- traefik.http.routers.blog.rule=Host(`example.com`) && Path(`/blog`)
- traefik.http.routers.blog.tls=true
- traefik.http.routers.blog.tls.certresolver=myresolver
- traefik.http.routers.blog.tls.domains[0].main=example.org
- traefik.http.routers.blog.tls.domains[0].sans=*.example.org
File (TOML)
## Dynamic configuration
[http.routers]
[http.routers.blog]
rule = "Host(`example.com`) && Path(`/blog`)"
[http.routers.blog.tls]
certResolver = "myresolver" # From static configuration
[[http.routers.blog.tls.domains]]
main = "example.org"
sans = ["*.example.org"]
File (YAML)
## Dynamic configuration
http:
routers:
blog:
rule: "Host(`example.com`) && Path(`/blog`)"
tls:
certResolver: myresolver
domains:
- main: "example.org"
sans:
- "*.example.org"
Automatic Renewals
Traefik automatically tracks the expiry date of ACME certificates it generates.
If there are less than 30 days remaining before the certificate expires, Traefik will attempt to renew it automatically.
Certificates that are no longer used may still be renewed, as Traefik does not currently check if the certificate is being used before renewing.
Using LetsEncrypt with Kubernetes
When using LetsEncrypt with kubernetes, there are some known caveats with both the ingress and crd providers.
If you intend to run multiple instances of Traefik with LetsEncrypt, please ensure you read the sections on those provider pages.
The Different ACME Challenges
Defining a certificates resolver does not result in all routers automatically using it. Each router that is supposed to use the resolver must reference it.
tlsChallenge
Use the TLS-ALPN-01
challenge to generate and renew ACME certificates by provisioning a TLS certificate.
As described on the Let’s Encrypt community forum, when using the TLS-ALPN-01
challenge, Traefik must be reachable by Let’s Encrypt through port 443.
Configuring the tlsChallenge
File (TOML)
[certificatesResolvers.myresolver.acme]
# ...
[certificatesResolvers.myresolver.acme.tlsChallenge]
File (YAML)
certificatesResolvers:
myresolver:
acme:
# ...
tlsChallenge: {}
CLI
# ...
--certificatesresolvers.myresolver.acme.tlschallenge=true
httpChallenge
Use the HTTP-01
challenge to generate and renew ACME certificates by provisioning an HTTP resource under a well-known URI.
As described on the Let’s Encrypt community forum, when using the HTTP-01
challenge, certificatesresolvers.myresolver.acme.httpchallenge.entrypoint
must be reachable by Let’s Encrypt through port 80.
Using an EntryPoint Called web for the httpChallenge
File (TOML)
[entryPoints]
[entryPoints.web]
address = ":80"
[entryPoints.websecure]
address = ":443"
[certificatesResolvers.myresolver.acme]
# ...
[certificatesResolvers.myresolver.acme.httpChallenge]
entryPoint = "web"
File (YAML)
entryPoints:
web:
address: ":80"
websecure:
address: ":443"
certificatesResolvers:
myresolver:
acme:
# ...
httpChallenge:
entryPoint: web
CLI
--entrypoints.web.address=:80
--entrypoints.websecure.address=:443
# ...
--certificatesresolvers.myresolver.acme.httpchallenge.entrypoint=web
Redirection is fully compatible with the HTTP-01
challenge.
dnsChallenge
Use the DNS-01
challenge to generate and renew ACME certificates by provisioning a DNS record.
Configuring a dnsChallenge
with the DigitalOcean Provider
File (TOML)
[certificatesResolvers.myresolver.acme]
# ...
[certificatesResolvers.myresolver.acme.dnsChallenge]
provider = "digitalocean"
delayBeforeCheck = 0
# ...
File (YAML)
certificatesResolvers:
myresolver:
acme:
# ...
dnsChallenge:
provider: digitalocean
delayBeforeCheck: 0
# ...
CLI
# ...
--certificatesresolvers.myresolver.acme.dnschallenge.provider=digitalocean
--certificatesresolvers.myresolver.acme.dnschallenge.delaybeforecheck=0
# ...
Important
A provider
is mandatory.
providers
Here is a list of supported providers
, that can automate the DNS verification, along with the required environment variables and their wildcard & root domain support. Do not hesitate to complete it.
Many lego environment variables can be overridden by their respective _FILE
counterpart, which should have a filepath to a file that contains the secret as its value. For example, CF_API_EMAIL_FILE=/run/secrets/traefik_cf-api-email
could be used to provide a Cloudflare API email address as a Docker secret named traefik_cf-api-email
.
For complete details, refer to your provider’s Additional configuration link.
Provider Name | Provider Code | Environment Variables | |
---|---|---|---|
ACME DNS | acme-dns | ACME_DNS_API_BASE , ACME_DNS_STORAGE_PATH | Additional configuration |
Alibaba Cloud | alidns | ALICLOUD_ACCESS_KEY , ALICLOUD_SECRET_KEY , ALICLOUD_REGION_ID | Additional configuration |
ArvanCloud | arvancloud | ARVANCLOUD_API_KEY | Additional configuration |
Auroradns | auroradns | AURORA_USER_ID , AURORA_KEY , AURORA_ENDPOINT | Additional configuration |
Autodns | autodns | AUTODNS_API_USER , AUTODNS_API_PASSWORD | Additional configuration |
Azure | azure | AZURE_CLIENT_ID , AZURE_CLIENT_SECRET , AZURE_SUBSCRIPTION_ID , AZURE_TENANT_ID , AZURE_RESOURCE_GROUP , [AZURE_METADATA_ENDPOINT] | Additional configuration |
Bindman | bindman | BINDMAN_MANAGER_ADDRESS | Additional configuration |
Blue Cat | bluecat | BLUECAT_SERVER_URL , BLUECAT_USER_NAME , BLUECAT_PASSWORD , BLUECAT_CONFIG_NAME , BLUECAT_DNS_VIEW | Additional configuration |
Checkdomain | checkdomain | CHECKDOMAIN_TOKEN , | Additional configuration |
CloudDNS | clouddns | CLOUDDNS_CLIENT_ID , CLOUDDNS_EMAIL , CLOUDDNS_PASSWORD | Additional configuration |
ClouDNS | cloudns | CLOUDNS_AUTH_ID , CLOUDNS_AUTH_PASSWORD | Additional configuration |
Cloudflare | cloudflare | CF_API_EMAIL , CF_API_KEY 5 or CF_DNS_API_TOKEN , [CF_ZONE_API_TOKEN] | Additional configuration |
CloudXNS | cloudxns | CLOUDXNS_API_KEY , CLOUDXNS_SECRET_KEY | Additional configuration |
ConoHa | conoha | CONOHA_TENANT_ID , CONOHA_API_USERNAME , CONOHA_API_PASSWORD | Additional configuration |
Constellix | constellix | CONSTELLIX_API_KEY , CONSTELLIX_SECRET_KEY | Additional configuration |
deSEC | desec | DESEC_TOKEN | Additional configuration |
DigitalOcean | digitalocean | DO_AUTH_TOKEN | Additional configuration |
DNSimple | dnsimple | DNSIMPLE_OAUTH_TOKEN , DNSIMPLE_BASE_URL | Additional configuration |
DNS Made Easy | dnsmadeeasy | DNSMADEEASY_API_KEY , DNSMADEEASY_API_SECRET , DNSMADEEASY_SANDBOX | Additional configuration |
DNSPod | dnspod | DNSPOD_API_KEY | Additional configuration |
Domain Offensive (do.de) | dode | DODE_TOKEN | Additional configuration |
DreamHost | dreamhost | DREAMHOST_API_KEY | Additional configuration |
Duck DNS | duckdns | DUCKDNS_TOKEN | Additional configuration |
Dyn | dyn | DYN_CUSTOMER_NAME , DYN_USER_NAME , DYN_PASSWORD | Additional configuration |
Dynu | dynu | DYNU_API_KEY | Additional configuration |
EasyDNS | easydns | EASYDNS_TOKEN , EASYDNS_KEY | Additional configuration |
EdgeDNS | edgedns | AKAMAI_CLIENT_TOKEN , AKAMAI_CLIENT_SECRET , AKAMAI_ACCESS_TOKEN | Additional configuration |
External Program | exec | EXEC_PATH | Additional configuration |
Exoscale | exoscale | EXOSCALE_API_KEY , EXOSCALE_API_SECRET , EXOSCALE_ENDPOINT | Additional configuration |
Fast DNS | fastdns | AKAMAI_CLIENT_TOKEN , AKAMAI_CLIENT_SECRET , AKAMAI_ACCESS_TOKEN | Additional configuration |
Gandi | gandi | GANDI_API_KEY | Additional configuration |
Gandi v5 | gandiv5 | GANDIV5_API_KEY | Additional configuration |
Glesys | glesys | GLESYS_API_USER , GLESYS_API_KEY , GLESYS_DOMAIN | Additional configuration |
GoDaddy | godaddy | GODADDY_API_KEY , GODADDY_API_SECRET | Additional configuration |
Google Cloud DNS | gcloud | GCE_PROJECT , Application Default Credentials 2 3, [GCE_SERVICE_ACCOUNT_FILE ] | Additional configuration |
Hetzner | hetzner | HETZNER_API_KEY | Additional configuration |
hosting.de | hostingde | HOSTINGDE_API_KEY , HOSTINGDE_ZONE_NAME | Additional configuration |
HTTP request | httpreq | HTTPREQ_ENDPOINT , HTTPREQ_MODE , HTTPREQ_USERNAME , HTTPREQ_PASSWORD 1 | Additional configuration |
HyperOne | hyperone | HYPERONE_PASSPORT_LOCATION , HYPERONE_LOCATION_ID | Additional configuration |
IIJ | iij | IIJ_API_ACCESS_KEY , IIJ_API_SECRET_KEY , IIJ_DO_SERVICE_CODE | Additional configuration |
INWX | inwx | INWX_USERNAME , INWX_PASSWORD | Additional configuration |
Joker.com | joker | JOKER_API_KEY or JOKER_USERNAME , JOKER_PASSWORD | Additional configuration |
Lightsail | lightsail | AWS_ACCESS_KEY_ID , AWS_SECRET_ACCESS_KEY , DNS_ZONE | Additional configuration |
Linode v4 | linode | LINODE_TOKEN | Additional configuration |
Liquid Web | liquidweb | LIQUID_WEB_PASSWORD , LIQUID_WEB_USERNAME , LIQUID_WEB_ZONE | Additional configuration |
LuaDNS | luadns | LUADNS_API_USERNAME , LUADNS_API_TOKEN | Additional configuration |
manual | manual | none, but you need to run Traefik interactively 4, turn on debug log to see instructions and press Enter. | |
MyDNS.jp | mydnsjp | MYDNSJP_MASTER_ID , MYDNSJP_PASSWORD | Additional configuration |
Mythic Beasts | mythicbeasts | MYTHICBEASTS_USER_NAME , MYTHICBEASTS_PASSWORD | Additional configuration |
Namecheap | namecheap | NAMECHEAP_API_USER , NAMECHEAP_API_KEY | Additional configuration |
name.com | namedotcom | NAMECOM_USERNAME , NAMECOM_API_TOKEN , NAMECOM_SERVER | Additional configuration |
Namesilo | namesilo | NAMESILO_API_KEY | Additional configuration |
Netcup | netcup | NETCUP_CUSTOMER_NUMBER , NETCUP_API_KEY , NETCUP_API_PASSWORD | Additional configuration |
Netlify | netlify | NETLIFY_TOKEN | Additional configuration |
NIFCloud | nifcloud | NIFCLOUD_ACCESS_KEY_ID , NIFCLOUD_SECRET_ACCESS_KEY | Additional configuration |
NS1 | ns1 | NS1_API_KEY | Additional configuration |
Open Telekom Cloud | otc | OTC_DOMAIN_NAME , OTC_USER_NAME , OTC_PASSWORD , OTC_PROJECT_NAME , OTC_IDENTITY_ENDPOINT | Additional configuration |
OVH | ovh | OVH_ENDPOINT , OVH_APPLICATION_KEY , OVH_APPLICATION_SECRET , OVH_CONSUMER_KEY | Additional configuration |
Openstack Designate | designate | OS_AUTH_URL , OS_USERNAME , OS_PASSWORD , OS_TENANT_NAME , OS_REGION_NAME | Additional configuration |
Oracle Cloud | oraclecloud | OCI_COMPARTMENT_OCID , OCI_PRIVKEY_FILE , OCI_PRIVKEY_PASS , OCI_PUBKEY_FINGERPRINT , OCI_REGION , OCI_TENANCY_OCID , OCI_USER_OCID | Additional configuration |
PowerDNS | pdns | PDNS_API_KEY , PDNS_API_URL | Additional configuration |
Rackspace | rackspace | RACKSPACE_USER , RACKSPACE_API_KEY | Additional configuration |
reg.ru | regru | REGRU_USERNAME , REGRU_PASSWORD | Additional configuration |
RFC2136 | rfc2136 | RFC2136_TSIG_KEY , RFC2136_TSIG_SECRET , RFC2136_TSIG_ALGORITHM , RFC2136_NAMESERVER | Additional configuration |
Route 53 | route53 | AWS_ACCESS_KEY_ID , AWS_SECRET_ACCESS_KEY , [AWS_REGION] , [AWS_HOSTED_ZONE_ID] or a configured user/instance IAM profile. | Additional configuration |
RimuHosting | rimuhosting | RIMUHOSTING_API_KEY | Additional configuration |
Sakura Cloud | sakuracloud | SAKURACLOUD_ACCESS_TOKEN , SAKURACLOUD_ACCESS_TOKEN_SECRET | Additional configuration |
Scaleway | scaleway | SCALEWAY_API_TOKEN | Additional configuration |
Selectel | selectel | SELECTEL_API_TOKEN | Additional configuration |
Servercow | servercow | SERVERCOW_USERNAME , SERVERCOW_PASSWORD | Additional configuration |
Stackpath | stackpath | STACKPATH_CLIENT_ID , STACKPATH_CLIENT_SECRET , STACKPATH_STACK_ID | Additional configuration |
TransIP | transip | TRANSIP_ACCOUNT_NAME , TRANSIP_PRIVATE_KEY_PATH | Additional configuration |
VegaDNS | vegadns | SECRET_VEGADNS_KEY , SECRET_VEGADNS_SECRET , VEGADNS_URL | Additional configuration |
Versio | versio | VERSIO_USERNAME , VERSIO_PASSWORD | Additional configuration |
Vscale | vscale | VSCALE_API_TOKEN | Additional configuration |
VULTR | vultr | VULTR_API_KEY | Additional configuration |
Yandex | yandex | YANDEX_PDD_TOKEN | Additional configuration |
Zone.ee | zoneee | ZONEEE_API_USER , ZONEEE_API_KEY | Additional configuration |
Zonomi | zonomi | ZONOMI_API_KEY | Additional configuration |
delayBeforeCheck
By default, the provider
verifies the TXT record before letting ACME verify. You can delay this operation by specifying a delay (in seconds) with delayBeforeCheck
(value must be greater than zero). This option is useful when internal networks block external DNS queries.
resolvers
Use custom DNS servers to resolve the FQDN authority.
File (TOML)
[certificatesResolvers.myresolver.acme]
# ...
[certificatesResolvers.myresolver.acme.dnsChallenge]
# ...
resolvers = ["1.1.1.1:53", "8.8.8.8:53"]
File (YAML)
certificatesResolvers:
myresolver:
acme:
# ...
dnsChallenge:
# ...
resolvers:
- "1.1.1.1:53"
- "8.8.8.8:53"
CLI
# ...
--certificatesresolvers.myresolver.acme.dnschallenge.resolvers=1.1.1.1:53,8.8.8.8:53
Wildcard Domains
ACME V2 supports wildcard certificates. As described in Let’s Encrypt’s post wildcard certificates can only be generated through a DNS-01
challenge.
More Configuration
caServer
Required, Default=”https://acme-v02.api.letsencrypt.org/directory“
The CA server to use:
- Let’s Encrypt production server: https://acme-v02.api.letsencrypt.org/directory
- Let’s Encrypt staging server: https://acme-staging-v02.api.letsencrypt.org/directory
Using the Let’s Encrypt staging server
File (TOML)
[certificatesResolvers.myresolver.acme]
# ...
caServer = "https://acme-staging-v02.api.letsencrypt.org/directory"
# ...
File (YAML)
certificatesResolvers:
myresolver:
acme:
# ...
caServer: https://acme-staging-v02.api.letsencrypt.org/directory
# ...
CLI
# ...
--certificatesresolvers.myresolver.acme.caserver=https://acme-staging-v02.api.letsencrypt.org/directory
# ...
storage
Required, Default=”acme.json”
The storage
option sets the location where your ACME certificates are saved to.
File (TOML)
[certificatesResolvers.myresolver.acme]
# ...
storage = "acme.json"
# ...
File (YAML)
certificatesResolvers:
myresolver:
acme:
# ...
storage: acme.json
# ...
CLI
# ...
--certificatesresolvers.myresolver.acme.storage=acme.json
# ...
ACME certificates are stored in a JSON file that needs to have a 600
file mode.
In Docker you can mount either the JSON file, or the folder containing it:
docker run -v "/my/host/acme.json:/acme.json" traefik
docker run -v "/my/host/acme:/etc/traefik/acme" traefik
Warning
For concurrency reasons, this file cannot be shared across multiple instances of Traefik.
preferredChain
Optional, Default=””
Preferred chain to use.
If the CA offers multiple certificate chains, prefer the chain with an issuer matching this Subject Common Name. If no match, the default offered chain will be used.
File (TOML)
[certificatesResolvers.myresolver.acme]
# ...
preferredChain = "ISRG Root X1"
# ...
File (YAML)
certificatesResolvers:
myresolver:
acme:
# ...
preferredChain: 'ISRG Root X1'
# ...
CLI
# ...
--certificatesresolvers.myresolver.acme.preferredChain="ISRG Root X1"
# ...
Fallback
If Let’s Encrypt is not reachable, the following certificates will apply:
- Previously generated ACME certificates (before downtime)
- Expired ACME certificates
- Provided certificates
Important
For new (sub)domains which need Let’s Encrypt authentication, the default Traefik certificate will be used until Traefik is restarted.
more information about the HTTP message format can be found here ↩
docker stack
remark: there is no way to support terminal attached to container when deploying withdocker stack
, so you might need to run container withdocker run -it
to generate certificates usingmanual
provider. ↩The
Global API Key
needs to be used, not theOrigin CA Key
. ↩