{ config, lib, pkgs, options, ... }: with lib; let cfg = config.security.acme; # Used to calculate timer accuracy for coalescing numCerts = length (builtins.attrNames cfg.certs); _24hSecs = 60 * 60 * 24; # Used to make unique paths for each cert/account config set mkHash = with builtins; val: substring 0 20 (hashString "sha256" val); mkAccountHash = acmeServer: data: mkHash "${toString acmeServer} ${data.keyType} ${data.email}"; accountDirRoot = "/var/lib/acme/.lego/accounts/"; # There are many services required to make cert renewals work. # They all follow a common structure: # - They inherit this commonServiceConfig # - They all run as the acme user # - They all use BindPath and StateDirectory where possible # to set up a sort of build environment in /tmp # The Group can vary depending on what the user has specified in # security.acme.certs..group on some of the services. commonServiceConfig = { Type = "oneshot"; User = "acme"; Group = mkDefault "acme"; UMask = 0022; StateDirectoryMode = 750; ProtectSystem = "strict"; ReadWritePaths = [ "/var/lib/acme" ]; PrivateTmp = true; WorkingDirectory = "/tmp"; CapabilityBoundingSet = [ "" ]; DevicePolicy = "closed"; LockPersonality = true; MemoryDenyWriteExecute = true; NoNewPrivileges = true; PrivateDevices = true; ProtectClock = true; ProtectHome = true; ProtectHostname = true; ProtectControlGroups = true; ProtectKernelLogs = true; ProtectKernelModules = true; ProtectKernelTunables = true; ProtectProc = "invisible"; ProcSubset = "pid"; RemoveIPC = true; RestrictAddressFamilies = [ "AF_INET" "AF_INET6" ]; RestrictNamespaces = true; RestrictRealtime = true; RestrictSUIDSGID = true; SystemCallArchitectures = "native"; SystemCallFilter = [ # 1. allow a reasonable set of syscalls "@system-service" # 2. and deny unreasonable ones "~@privileged @resources" # 3. then allow the required subset within denied groups "@chown" ]; }; # In order to avoid race conditions creating the CA for selfsigned certs, # we have a separate service which will create the necessary files. selfsignCAService = { description = "Generate self-signed certificate authority"; path = with pkgs; [ minica ]; unitConfig = { ConditionPathExists = "!/var/lib/acme/.minica/key.pem"; }; serviceConfig = commonServiceConfig // { StateDirectory = "acme/.minica"; BindPaths = "/var/lib/acme/.minica:/tmp/ca"; UMask = 0077; }; # Working directory will be /tmp script = '' minica \ --ca-key ca/key.pem \ --ca-cert ca/cert.pem \ --domains selfsigned.local ''; }; # Ensures that directories which are shared across all certs # exist and have the correct user and group, since group # is configurable on a per-cert basis. userMigrationService = let script = with builtins; '' chown -R acme .lego/accounts '' + (concatStringsSep "\n" (mapAttrsToList (cert: data: '' for fixpath in ${escapeShellArg cert} .lego/${escapeShellArg cert}; do if [ -d "$fixpath" ]; then chmod -R u=rwX,g=rX,o= "$fixpath" chown -R acme:${data.group} "$fixpath" fi done '') certConfigs)); in { description = "Fix owner and group of all ACME certificates"; serviceConfig = commonServiceConfig // { # We don't want this to run every time a renewal happens RemainAfterExit = true; # These StateDirectory entries negate the need for tmpfiles StateDirectory = [ "acme" "acme/.lego" "acme/.lego/accounts" ]; StateDirectoryMode = 755; WorkingDirectory = "/var/lib/acme"; # Run the start script as root ExecStart = "+" + (pkgs.writeShellScript "acme-fixperms" script); }; }; certToConfig = cert: data: let acmeServer = if data.server != null then data.server else cfg.server; useDns = data.dnsProvider != null; destPath = "/var/lib/acme/${cert}"; selfsignedDeps = optionals (cfg.preliminarySelfsigned) [ "acme-selfsigned-${cert}.service" ]; # Minica and lego have a "feature" which replaces * with _. We need # to make this substitution to reference the output files from both programs. # End users never see this since we rename the certs. keyName = builtins.replaceStrings ["*"] ["_"] data.domain; # FIXME when mkChangedOptionModule supports submodules, change to that. # This is a workaround extraDomains = data.extraDomainNames ++ ( optionals (data.extraDomains != "_mkMergedOptionModule") (builtins.attrNames data.extraDomains) ); # Create hashes for cert data directories based on configuration # Flags are separated to avoid collisions hashData = with builtins; '' ${concatStringsSep " " data.extraLegoFlags} - ${concatStringsSep " " data.extraLegoRunFlags} - ${concatStringsSep " " data.extraLegoRenewFlags} - ${toString acmeServer} ${toString data.dnsProvider} ${toString data.ocspMustStaple} ${data.keyType} ''; certDir = mkHash hashData; domainHash = mkHash "${concatStringsSep " " extraDomains} ${data.domain}"; accountHash = (mkAccountHash acmeServer data); accountDir = accountDirRoot + accountHash; protocolOpts = if useDns then ( [ "--dns" data.dnsProvider ] ++ optionals (!data.dnsPropagationCheck) [ "--dns.disable-cp" ] ++ optionals (data.dnsResolver != null) [ "--dns.resolvers" data.dnsResolver ] ) else ( [ "--http" "--http.webroot" data.webroot ] ); commonOpts = [ "--accept-tos" # Checking the option is covered by the assertions "--path" "." "-d" data.domain "--email" data.email "--key-type" data.keyType ] ++ protocolOpts ++ optionals (acmeServer != null) [ "--server" acmeServer ] ++ concatMap (name: [ "-d" name ]) extraDomains ++ data.extraLegoFlags; # Although --must-staple is common to both modes, it is not declared as a # mode-agnostic argument in lego and thus must come after the mode. runOpts = escapeShellArgs ( commonOpts ++ [ "run" ] ++ optionals data.ocspMustStaple [ "--must-staple" ] ++ data.extraLegoRunFlags ); renewOpts = escapeShellArgs ( commonOpts ++ [ "renew" ] ++ optionals data.ocspMustStaple [ "--must-staple" ] ++ data.extraLegoRenewFlags ); # We need to collect all the ACME webroots to grant them write # access in the systemd service. webroots = lib.remove null (lib.unique (builtins.map (certAttrs: certAttrs.webroot) (lib.attrValues config.security.acme.certs))); in { inherit accountHash cert selfsignedDeps; group = data.group; renewTimer = { description = "Renew ACME Certificate for ${cert}"; wantedBy = [ "timers.target" ]; timerConfig = { OnCalendar = cfg.renewInterval; Unit = "acme-${cert}.service"; Persistent = "yes"; # Allow systemd to pick a convenient time within the day # to run the check. # This allows the coalescing of multiple timer jobs. # We divide by the number of certificates so that if you # have many certificates, the renewals are distributed over # the course of the day to avoid rate limits. AccuracySec = "${toString (_24hSecs / numCerts)}s"; # Skew randomly within the day, per https://letsencrypt.org/docs/integration-guide/. RandomizedDelaySec = "24h"; }; }; selfsignService = { description = "Generate self-signed certificate for ${cert}"; after = [ "acme-selfsigned-ca.service" "acme-fixperms.service" ]; requires = [ "acme-selfsigned-ca.service" "acme-fixperms.service" ]; path = with pkgs; [ minica ]; unitConfig = { ConditionPathExists = "!/var/lib/acme/${cert}/key.pem"; }; serviceConfig = commonServiceConfig // { Group = data.group; UMask = 0027; StateDirectory = "acme/${cert}"; BindPaths = [ "/var/lib/acme/.minica:/tmp/ca" "/var/lib/acme/${cert}:/tmp/${keyName}" ]; }; # Working directory will be /tmp # minica will output to a folder sharing the name of the first domain # in the list, which will be ${data.domain} script = '' minica \ --ca-key ca/key.pem \ --ca-cert ca/cert.pem \ --domains ${escapeShellArg (builtins.concatStringsSep "," ([ data.domain ] ++ extraDomains))} # Create files to match directory layout for real certificates cd '${keyName}' cp ../ca/cert.pem chain.pem cat cert.pem chain.pem > fullchain.pem cat key.pem fullchain.pem > full.pem # Group might change between runs, re-apply it chown 'acme:${data.group}' * # Default permissions make the files unreadable by group + anon # Need to be readable by group chmod 640 * ''; }; renewService = { description = "Renew ACME certificate for ${cert}"; after = [ "network.target" "network-online.target" "acme-fixperms.service" "nss-lookup.target" ] ++ selfsignedDeps; wants = [ "network-online.target" "acme-fixperms.service" ] ++ selfsignedDeps; # https://github.com/NixOS/nixpkgs/pull/81371#issuecomment-605526099 wantedBy = optionals (!config.boot.isContainer) [ "multi-user.target" ]; path = with pkgs; [ lego coreutils diffutils openssl ]; serviceConfig = commonServiceConfig // { Group = data.group; # Keep in mind that these directories will be deleted if the user runs # systemctl clean --what=state # acme/.lego/${cert} is listed for this reason. StateDirectory = [ "acme/${cert}" "acme/.lego/${cert}" "acme/.lego/${cert}/${certDir}" "acme/.lego/accounts/${accountHash}" ]; ReadWritePaths = commonServiceConfig.ReadWritePaths ++ webroots; # Needs to be space separated, but can't use a multiline string because that'll include newlines BindPaths = [ "${accountDir}:/tmp/accounts" "/var/lib/acme/${cert}:/tmp/out" "/var/lib/acme/.lego/${cert}/${certDir}:/tmp/certificates" ]; # Only try loading the credentialsFile if the dns challenge is enabled EnvironmentFile = mkIf useDns data.credentialsFile; # Run as root (Prefixed with +) ExecStartPost = "+" + (pkgs.writeShellScript "acme-postrun" '' cd /var/lib/acme/${escapeShellArg cert} if [ -e renewed ]; then rm renewed ${data.postRun} fi ''); }; # Working directory will be /tmp script = '' set -euxo pipefail # This reimplements the expiration date check, but without querying # the acme server first. By doing this offline, we avoid errors # when the network or DNS are unavailable, which can happen during # nixos-rebuild switch. is_expiration_skippable() { pem=$1 # This function relies on set -e to exit early if any of the # conditions or programs fail. [[ -e $pem ]] expiration_line="$( set -euxo pipefail openssl x509 -noout -enddate <$pem \ | grep notAfter \ | sed -e 's/^notAfter=//' )" [[ -n "$expiration_line" ]] expiration_date="$(date -d "$expiration_line" +%s)" now="$(date +%s)" expiration_s=$[expiration_date - now] expiration_days=$[expiration_s / (3600 * 24)] # rounds down [[ $expiration_days -gt ${toString cfg.validMinDays} ]] } ${optionalString (data.webroot != null) '' # Ensure the webroot exists. Fixing group is required in case configuration was changed between runs. # Lego will fail if the webroot does not exist at all. ( mkdir -p '${data.webroot}/.well-known/acme-challenge' \ && chgrp '${data.group}' ${data.webroot}/.well-known/acme-challenge ) || ( echo 'Please ensure ${data.webroot}/.well-known/acme-challenge exists and is writable by acme:${data.group}' \ && exit 1 ) ''} echo '${domainHash}' > domainhash.txt # Check if we can renew if [ -e 'certificates/${keyName}.key' -a -e 'certificates/${keyName}.crt' -a -n "$(ls -1 accounts)" ]; then # When domains are updated, there's no need to do a full # Lego run, but it's likely renew won't work if days is too low. if [ -e certificates/domainhash.txt ] && cmp -s domainhash.txt certificates/domainhash.txt; then if is_expiration_skippable out/full.pem; then echo 1>&2 "nixos-acme: skipping renewal because expiration isn't within the coming ${toString cfg.validMinDays} days" else echo 1>&2 "nixos-acme: renewing now, because certificate expires within the configured ${toString cfg.validMinDays} days" lego ${renewOpts} --days ${toString cfg.validMinDays} fi else echo 1>&2 "certificate domain(s) have changed; will renew now" # Any number > 90 works, but this one is over 9000 ;-) lego ${renewOpts} --days 9001 fi # Otherwise do a full run else lego ${runOpts} fi mv domainhash.txt certificates/ # Group might change between runs, re-apply it chown 'acme:${data.group}' certificates/* # Copy all certs to the "real" certs directory CERT='certificates/${keyName}.crt' if [ -e "$CERT" ] && ! cmp -s "$CERT" out/fullchain.pem; then touch out/renewed echo Installing new certificate cp -vp 'certificates/${keyName}.crt' out/fullchain.pem cp -vp 'certificates/${keyName}.key' out/key.pem cp -vp 'certificates/${keyName}.issuer.crt' out/chain.pem ln -sf fullchain.pem out/cert.pem cat out/key.pem out/fullchain.pem > out/full.pem fi # By default group will have no access to the cert files. # This chmod will fix that. chmod 640 out/* ''; }; }; certConfigs = mapAttrs certToConfig cfg.certs; certOpts = { name, ... }: { options = { # user option has been removed user = mkOption { visible = false; default = "_mkRemovedOptionModule"; }; # allowKeysForGroup option has been removed allowKeysForGroup = mkOption { visible = false; default = "_mkRemovedOptionModule"; }; # extraDomains was replaced with extraDomainNames extraDomains = mkOption { visible = false; default = "_mkMergedOptionModule"; }; webroot = mkOption { type = types.nullOr types.str; default = null; example = "/var/lib/acme/acme-challenge"; description = '' Where the webroot of the HTTP vhost is located. .well-known/acme-challenge/ directory will be created below the webroot if it doesn't exist. http://example.org/.well-known/acme-challenge/ must also be available (notice unencrypted HTTP). ''; }; server = mkOption { type = types.nullOr types.str; default = null; description = '' ACME Directory Resource URI. Defaults to Let's Encrypt's production endpoint, , if unset. ''; }; domain = mkOption { type = types.str; default = name; description = "Domain to fetch certificate for (defaults to the entry name)."; }; email = mkOption { type = types.nullOr types.str; default = cfg.email; description = "Contact email address for the CA to be able to reach you."; }; group = mkOption { type = types.str; default = "acme"; description = "Group running the ACME client."; }; postRun = mkOption { type = types.lines; default = ""; example = "cp full.pem backup.pem"; description = '' Commands to run after new certificates go live. Note that these commands run as the root user. Executed in the same directory with the new certificate. ''; }; directory = mkOption { type = types.str; readOnly = true; default = "/var/lib/acme/${name}"; description = "Directory where certificate and other state is stored."; }; extraDomainNames = mkOption { type = types.listOf types.str; default = []; example = literalExpression '' [ "example.org" "mydomain.org" ] ''; description = '' A list of extra domain names, which are included in the one certificate to be issued. ''; }; keyType = mkOption { type = types.str; default = "ec256"; description = '' Key type to use for private keys. For an up to date list of supported values check the --key-type option at . ''; }; dnsProvider = mkOption { type = types.nullOr types.str; default = null; example = "route53"; description = '' DNS Challenge provider. For a list of supported providers, see the "code" field of the DNS providers listed at . ''; }; dnsResolver = mkOption { type = types.nullOr types.str; default = null; example = "1.1.1.1:53"; description = '' Set the resolver to use for performing recursive DNS queries. Supported: host:port. The default is to use the system resolvers, or Google's DNS resolvers if the system's cannot be determined. ''; }; credentialsFile = mkOption { type = types.path; description = '' Path to an EnvironmentFile for the cert's service containing any required and optional environment variables for your selected dnsProvider. To find out what values you need to set, consult the documentation at for the corresponding dnsProvider. ''; example = "/var/src/secrets/example.org-route53-api-token"; }; dnsPropagationCheck = mkOption { type = types.bool; default = true; description = '' Toggles lego DNS propagation check, which is used alongside DNS-01 challenge to ensure the DNS entries required are available. ''; }; ocspMustStaple = mkOption { type = types.bool; default = false; description = '' Turns on the OCSP Must-Staple TLS extension. Make sure you know what you're doing! See: ''; }; extraLegoFlags = mkOption { type = types.listOf types.str; default = []; description = '' Additional global flags to pass to all lego commands. ''; }; extraLegoRenewFlags = mkOption { type = types.listOf types.str; default = []; description = '' Additional flags to pass to lego renew. ''; }; extraLegoRunFlags = mkOption { type = types.listOf types.str; default = []; description = '' Additional flags to pass to lego run. ''; }; }; }; in { options = { security.acme = { validMinDays = mkOption { type = types.int; default = 30; description = "Minimum remaining validity before renewal in days."; }; email = mkOption { type = types.nullOr types.str; default = null; description = "Contact email address for the CA to be able to reach you."; }; renewInterval = mkOption { type = types.str; default = "daily"; description = '' Systemd calendar expression when to check for renewal. See systemd.time 7. ''; }; server = mkOption { type = types.nullOr types.str; default = null; description = '' ACME Directory Resource URI. Defaults to Let's Encrypt's production endpoint, , if unset. ''; }; preliminarySelfsigned = mkOption { type = types.bool; default = true; description = '' Whether a preliminary self-signed certificate should be generated before doing ACME requests. This can be useful when certificates are required in a webserver, but ACME needs the webserver to make its requests. With preliminary self-signed certificate the webserver can be started and can later reload the correct ACME certificates. ''; }; acceptTerms = mkOption { type = types.bool; default = false; description = '' Accept the CA's terms of service. The default provider is Let's Encrypt, you can find their ToS at . ''; }; certs = mkOption { default = { }; type = with types; attrsOf (submodule certOpts); description = '' Attribute set of certificates to get signed and renewed. Creates acme-''${cert}.{service,timer} systemd units for each certificate defined here. Other services can add dependencies to those units if they rely on the certificates being present, or trigger restarts of the service if certificates get renewed. ''; example = literalExpression '' { "example.com" = { webroot = "/var/lib/acme/acme-challenge/"; email = "foo@example.com"; extraDomainNames = [ "www.example.com" "foo.example.com" ]; }; "bar.example.com" = { webroot = "/var/lib/acme/acme-challenge/"; email = "bar@example.com"; }; } ''; }; }; }; imports = [ (mkRemovedOptionModule [ "security" "acme" "production" ] '' Use security.acme.server to define your staging ACME server URL instead. To use the let's encrypt staging server, use security.acme.server = "https://acme-staging-v02.api.letsencrypt.org/directory". '' ) (mkRemovedOptionModule [ "security" "acme" "directory" ] "ACME Directory is now hardcoded to /var/lib/acme and its permisisons are managed by systemd. See https://github.com/NixOS/nixpkgs/issues/53852 for more info.") (mkRemovedOptionModule [ "security" "acme" "preDelay" ] "This option has been removed. If you want to make sure that something executes before certificates are provisioned, add a RequiredBy=acme-\${cert}.service to the service you want to execute before the cert renewal") (mkRemovedOptionModule [ "security" "acme" "activationDelay" ] "This option has been removed. If you want to make sure that something executes before certificates are provisioned, add a RequiredBy=acme-\${cert}.service to the service you want to execute before the cert renewal") (mkChangedOptionModule [ "security" "acme" "validMin" ] [ "security" "acme" "validMinDays" ] (config: config.security.acme.validMin / (24 * 3600))) ]; config = mkMerge [ (mkIf (cfg.certs != { }) { # FIXME Most of these custom warnings and filters for security.acme.certs.* are required # because using mkRemovedOptionModule/mkChangedOptionModule with attrsets isn't possible. warnings = filter (w: w != "") (mapAttrsToList (cert: data: if data.extraDomains != "_mkMergedOptionModule" then '' The option definition `security.acme.certs.${cert}.extraDomains` has changed to `security.acme.certs.${cert}.extraDomainNames` and is now a list of strings. Setting a custom webroot for extra domains is not possible, instead use separate certs. '' else "") cfg.certs); assertions = let certs = attrValues cfg.certs; in [ { assertion = cfg.email != null || all (certOpts: certOpts.email != null) certs; message = '' You must define `security.acme.certs..email` or `security.acme.email` to register with the CA. Note that using many different addresses for certs may trigger account rate limits. ''; } { assertion = cfg.acceptTerms; message = '' You must accept the CA's terms of service before using the ACME module by setting `security.acme.acceptTerms` to `true`. For Let's Encrypt's ToS see https://letsencrypt.org/repository/ ''; } ] ++ (builtins.concatLists (mapAttrsToList (cert: data: [ { assertion = data.user == "_mkRemovedOptionModule"; message = '' The option definition `security.acme.certs.${cert}.user' no longer has any effect; Please remove it. Certificate user is now hard coded to the "acme" user. If you would like another user to have access, consider adding them to the "acme" group or changing security.acme.certs.${cert}.group. ''; } { assertion = data.allowKeysForGroup == "_mkRemovedOptionModule"; message = '' The option definition `security.acme.certs.${cert}.allowKeysForGroup' no longer has any effect; Please remove it. All certs are readable by the configured group. If this is undesired, consider changing security.acme.certs.${cert}.group to an unused group. ''; } # * in the cert value breaks building of systemd services, and makes # referencing them as a user quite weird too. Best practice is to use # the domain option. { assertion = ! hasInfix "*" cert; message = '' The cert option path `security.acme.certs.${cert}.dnsProvider` cannot contain a * character. Instead, set `security.acme.certs.${cert}.domain = "${cert}";` and remove the wildcard from the path. ''; } { assertion = data.dnsProvider == null || data.webroot == null; message = '' Options `security.acme.certs.${cert}.dnsProvider` and `security.acme.certs.${cert}.webroot` are mutually exclusive. ''; } ]) cfg.certs)); users.users.acme = { home = "/var/lib/acme"; group = "acme"; isSystemUser = true; }; users.groups.acme = {}; systemd.services = { "acme-fixperms" = userMigrationService; } // (mapAttrs' (cert: conf: nameValuePair "acme-${cert}" conf.renewService) certConfigs) // (optionalAttrs (cfg.preliminarySelfsigned) ({ "acme-selfsigned-ca" = selfsignCAService; } // (mapAttrs' (cert: conf: nameValuePair "acme-selfsigned-${cert}" conf.selfsignService) certConfigs))); systemd.timers = mapAttrs' (cert: conf: nameValuePair "acme-${cert}" conf.renewTimer) certConfigs; systemd.targets = let # Create some targets which can be depended on to be "active" after cert renewals finishedTargets = mapAttrs' (cert: conf: nameValuePair "acme-finished-${cert}" { wantedBy = [ "default.target" ]; requires = [ "acme-${cert}.service" ] ++ conf.selfsignedDeps; after = [ "acme-${cert}.service" ] ++ conf.selfsignedDeps; }) certConfigs; # Create targets to limit the number of simultaneous account creations # How it works: # - Pick a "leader" cert service, which will be in charge of creating the account, # and run first (requires + after) # - Make all other cert services sharing the same account wait for the leader to # finish before starting (requiredBy + before). # Using a target here is fine - account creation is a one time event. Even if # systemd clean --what=state is used to delete the account, so long as the user # then runs one of the cert services, there won't be any issues. accountTargets = mapAttrs' (hash: confs: let leader = "acme-${(builtins.head confs).cert}.service"; dependantServices = map (conf: "acme-${conf.cert}.service") (builtins.tail confs); in nameValuePair "acme-account-${hash}" { requiredBy = dependantServices; before = dependantServices; requires = [ leader ]; after = [ leader ]; }) (groupBy (conf: conf.accountHash) (attrValues certConfigs)); in finishedTargets // accountTargets; }) ]; meta = { maintainers = lib.teams.acme.members; doc = ./acme.xml; }; }