nixpkgs/nixos/modules/services/cluster/kubernetes/pki.nix

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{ config, lib, pkgs, ... }:
with lib;
let
top = config.services.kubernetes;
cfg = top.pki;
csrCA = pkgs.writeText "kube-pki-cacert-csr.json" (builtins.toJSON {
key = {
algo = "rsa";
size = 2048;
};
names = singleton cfg.caSpec;
});
csrCfssl = pkgs.writeText "kube-pki-cfssl-csr.json" (builtins.toJSON {
key = {
algo = "rsa";
size = 2048;
};
CN = top.masterAddress;
});
cfsslAPITokenBaseName = "apitoken.secret";
cfsslAPITokenPath = "${config.services.cfssl.dataDir}/${cfsslAPITokenBaseName}";
certmgrAPITokenPath = "${top.secretsPath}/${cfsslAPITokenBaseName}";
cfsslAPITokenLength = 32;
clusterAdminKubeconfig = with cfg.certs.clusterAdmin;
top.lib.mkKubeConfig "cluster-admin" {
server = top.apiserverAddress;
certFile = cert;
keyFile = key;
};
remote = with config.services; "https://${kubernetes.masterAddress}:${toString cfssl.port}";
in
{
###### interface
options.services.kubernetes.pki = with lib.types; {
enable = mkEnableOption "Whether to enable easyCert issuer service.";
certs = mkOption {
description = "List of certificate specs to feed to cert generator.";
default = {};
type = attrs;
};
genCfsslCACert = mkOption {
description = ''
Whether to automatically generate cfssl CA certificate and key,
if they don't exist.
'';
default = true;
type = bool;
};
genCfsslAPICerts = mkOption {
description = ''
Whether to automatically generate cfssl API webserver TLS cert and key,
if they don't exist.
'';
default = true;
type = bool;
};
genCfsslAPIToken = mkOption {
description = ''
Whether to automatically generate cfssl API-token secret,
if they doesn't exist.
'';
default = true;
type = bool;
};
pkiTrustOnBootstrap = mkOption {
description = "Whether to always trust remote cfssl server upon initial PKI bootstrap.";
default = true;
type = bool;
};
caCertPathPrefix = mkOption {
description = ''
Path-prefrix for the CA-certificate to be used for cfssl signing.
Suffixes ".pem" and "-key.pem" will be automatically appended for
the public and private keys respectively.
'';
default = "${config.services.cfssl.dataDir}/ca";
type = str;
};
caSpec = mkOption {
description = "Certificate specification for the auto-generated CAcert.";
default = {
CN = "kubernetes-cluster-ca";
O = "NixOS";
OU = "services.kubernetes.pki.caSpec";
L = "auto-generated";
};
type = attrs;
};
etcClusterAdminKubeconfig = mkOption {
description = ''
Symlink a kubeconfig with cluster-admin privileges to environment path
(/etc/<path>).
'';
default = null;
type = nullOr str;
};
};
###### implementation
config = mkIf cfg.enable
(let
cfsslCertPathPrefix = "${config.services.cfssl.dataDir}/cfssl";
cfsslCert = "${cfsslCertPathPrefix}.pem";
cfsslKey = "${cfsslCertPathPrefix}-key.pem";
in
{
services.cfssl = mkIf (top.apiserver.enable) {
enable = true;
address = "0.0.0.0";
tlsCert = cfsslCert;
tlsKey = cfsslKey;
configFile = toString (pkgs.writeText "cfssl-config.json" (builtins.toJSON {
signing = {
profiles = {
default = {
usages = ["digital signature"];
auth_key = "default";
expiry = "720h";
};
};
};
auth_keys = {
default = {
type = "standard";
key = "file:${cfsslAPITokenPath}";
};
};
}));
};
systemd.services.cfssl.preStart = with pkgs; with config.services.cfssl; mkIf (top.apiserver.enable)
(concatStringsSep "\n" [
"set -e"
(optionalString cfg.genCfsslCACert ''
if [ ! -f "${cfg.caCertPathPrefix}.pem" ]; then
${cfssl}/bin/cfssl genkey -initca ${csrCA} | \
${cfssl}/bin/cfssljson -bare ${cfg.caCertPathPrefix}
fi
'')
(optionalString cfg.genCfsslAPICerts ''
if [ ! -f "${dataDir}/cfssl.pem" ]; then
${cfssl}/bin/cfssl gencert -ca "${cfg.caCertPathPrefix}.pem" -ca-key "${cfg.caCertPathPrefix}-key.pem" ${csrCfssl} | \
${cfssl}/bin/cfssljson -bare ${cfsslCertPathPrefix}
fi
'')
(optionalString cfg.genCfsslAPIToken ''
if [ ! -f "${cfsslAPITokenPath}" ]; then
head -c ${toString (cfsslAPITokenLength / 2)} /dev/urandom | od -An -t x | tr -d ' ' >"${cfsslAPITokenPath}"
fi
chown cfssl "${cfsslAPITokenPath}" && chmod 400 "${cfsslAPITokenPath}"
'')]);
systemd.services.kube-certmgr-bootstrap = {
description = "Kubernetes certmgr bootstrapper";
wantedBy = [ "certmgr.service" ];
after = [ "cfssl.target" ];
script = concatStringsSep "\n" [''
set -e
# If there's a cfssl (cert issuer) running locally, then don't rely on user to
# manually paste it in place. Just symlink.
# otherwise, create the target file, ready for users to insert the token
if [ -f "${cfsslAPITokenPath}" ]; then
ln -fs "${cfsslAPITokenPath}" "${certmgrAPITokenPath}"
else
touch "${certmgrAPITokenPath}" && chmod 600 "${certmgrAPITokenPath}"
fi
''
(optionalString (cfg.pkiTrustOnBootstrap) ''
if [ ! -f "${top.caFile}" ] || [ $(cat "${top.caFile}" | wc -c) -lt 1 ]; then
${pkgs.curl}/bin/curl --fail-early -f -kd '{}' ${remote}/api/v1/cfssl/info | \
${pkgs.cfssl}/bin/cfssljson -stdout >${top.caFile}
fi
'')
];
serviceConfig = {
RestartSec = "10s";
Restart = "on-failure";
};
};
services.certmgr = {
enable = true;
package = pkgs.certmgr-selfsigned;
svcManager = "command";
specs =
let
mkSpec = _: cert: {
inherit (cert) action;
authority = {
inherit remote;
file.path = cert.caCert;
root_ca = cert.caCert;
profile = "default";
auth_key_file = certmgrAPITokenPath;
};
certificate = {
path = cert.cert;
};
private_key = cert.privateKeyOptions;
request = {
inherit (cert) CN hosts;
key = {
algo = "rsa";
size = 2048;
};
names = [ cert.fields ];
};
};
in
mapAttrs mkSpec cfg.certs;
};
#TODO: Get rid of kube-addon-manager in the future for the following reasons
# - it is basically just a shell script wrapped around kubectl
# - it assumes that it is clusterAdmin or can gain clusterAdmin rights through serviceAccount
# - it is designed to be used with k8s system components only
# - it would be better with a more Nix-oriented way of managing addons
systemd.services.kube-addon-manager = mkIf top.addonManager.enable (mkMerge [{
environment.KUBECONFIG = with cfg.certs.addonManager;
top.lib.mkKubeConfig "addon-manager" {
server = top.apiserverAddress;
certFile = cert;
keyFile = key;
};
}
(optionalAttrs (top.addonManager.bootstrapAddons != {}) {
serviceConfig.PermissionsStartOnly = true;
preStart = with pkgs;
let
files = mapAttrsToList (n: v: writeText "${n}.json" (builtins.toJSON v))
top.addonManager.bootstrapAddons;
in
''
export KUBECONFIG=${clusterAdminKubeconfig}
${kubectl}/bin/kubectl apply -f ${concatStringsSep " \\\n -f " files}
'';
})]);
environment.etc.${cfg.etcClusterAdminKubeconfig}.source = mkIf (!isNull cfg.etcClusterAdminKubeconfig)
clusterAdminKubeconfig;
environment.systemPackages = mkIf (top.kubelet.enable || top.proxy.enable) [
(pkgs.writeScriptBin "nixos-kubernetes-node-join" ''
set -e
exec 1>&2
if [ $# -gt 0 ]; then
echo "Usage: $(basename $0)"
echo ""
echo "No args. Apitoken must be provided on stdin."
echo "To get the apitoken, execute: 'sudo cat ${certmgrAPITokenPath}' on the master node."
exit 1
fi
if [ $(id -u) != 0 ]; then
echo "Run as root please."
exit 1
fi
read -r token
if [ ''${#token} != ${toString cfsslAPITokenLength} ]; then
echo "Token must be of length ${toString cfsslAPITokenLength}."
exit 1
fi
echo $token > ${certmgrAPITokenPath}
chmod 600 ${certmgrAPITokenPath}
echo "Restarting certmgr..." >&1
systemctl restart certmgr
echo "Waiting for certs to appear..." >&1
${optionalString top.kubelet.enable ''
while [ ! -f ${cfg.certs.kubelet.cert} ]; do sleep 1; done
echo "Restarting kubelet..." >&1
systemctl restart kubelet
''}
${optionalString top.proxy.enable ''
while [ ! -f ${cfg.certs.kubeProxyClient.cert} ]; do sleep 1; done
echo "Restarting kube-proxy..." >&1
systemctl restart kube-proxy
''}
${optionalString top.flannel.enable ''
while [ ! -f ${cfg.certs.flannelClient.cert} ]; do sleep 1; done
echo "Restarting flannel..." >&1
systemctl restart flannel
''}
echo "Node joined succesfully"
'')];
# isolate etcd on loopback at the master node
# easyCerts doesn't support multimaster clusters anyway atm.
services.etcd = with cfg.certs.etcd; {
listenClientUrls = ["https://127.0.0.1:2379"];
listenPeerUrls = ["https://127.0.0.1:2380"];
advertiseClientUrls = ["https://etcd.local:2379"];
initialCluster = ["${top.masterAddress}=https://etcd.local:2380"];
initialAdvertisePeerUrls = ["https://etcd.local:2380"];
certFile = mkDefault cert;
keyFile = mkDefault key;
trustedCaFile = mkDefault caCert;
};
networking.extraHosts = mkIf (config.services.etcd.enable) ''
127.0.0.1 etcd.${top.addons.dns.clusterDomain} etcd.local
'';
services.flannel = with cfg.certs.flannelClient; {
kubeconfig = top.lib.mkKubeConfig "flannel" {
server = top.apiserverAddress;
certFile = cert;
keyFile = key;
};
};
services.kubernetes = {
apiserver = mkIf top.apiserver.enable (with cfg.certs.apiServer; {
etcd = with cfg.certs.apiserverEtcdClient; {
servers = ["https://etcd.local:2379"];
certFile = mkDefault cert;
keyFile = mkDefault key;
caFile = mkDefault caCert;
};
clientCaFile = mkDefault caCert;
tlsCertFile = mkDefault cert;
tlsKeyFile = mkDefault key;
serviceAccountKeyFile = mkDefault cfg.certs.serviceAccount.cert;
kubeletClientCaFile = mkDefault caCert;
kubeletClientCertFile = mkDefault cfg.certs.apiserverKubeletClient.cert;
kubeletClientKeyFile = mkDefault cfg.certs.apiserverKubeletClient.key;
});
controllerManager = mkIf top.controllerManager.enable {
serviceAccountKeyFile = mkDefault cfg.certs.serviceAccount.key;
rootCaFile = cfg.certs.controllerManagerClient.caCert;
kubeconfig = with cfg.certs.controllerManagerClient; {
certFile = mkDefault cert;
keyFile = mkDefault key;
};
};
scheduler = mkIf top.scheduler.enable {
kubeconfig = with cfg.certs.schedulerClient; {
certFile = mkDefault cert;
keyFile = mkDefault key;
};
};
kubelet = mkIf top.kubelet.enable {
clientCaFile = mkDefault cfg.certs.kubelet.caCert;
tlsCertFile = mkDefault cfg.certs.kubelet.cert;
tlsKeyFile = mkDefault cfg.certs.kubelet.key;
kubeconfig = with cfg.certs.kubeletClient; {
certFile = mkDefault cert;
keyFile = mkDefault key;
};
};
proxy = mkIf top.proxy.enable {
kubeconfig = with cfg.certs.kubeProxyClient; {
certFile = mkDefault cert;
keyFile = mkDefault key;
};
};
};
});
}