nixpkgs-suyu/nixos/tests/kubernetes.nix

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{ system ? builtins.currentSystem }:
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with import ../lib/testing.nix { inherit system; };
with import ../lib/qemu-flags.nix;
with pkgs.lib;
let
redisPod = pkgs.writeText "redis-master-pod.json" (builtins.toJSON {
kind = "Pod";
apiVersion = "v1";
metadata.name = "redis";
metadata.labels.name = "redis";
spec.containers = [{
name = "redis";
image = "redis";
args = ["--bind" "0.0.0.0"];
imagePullPolicy = "Never";
ports = [{
name = "redis-server";
containerPort = 6379;
}];
}];
});
redisService = pkgs.writeText "redis-service.json" (builtins.toJSON {
kind = "Service";
apiVersion = "v1";
metadata.name = "redis";
spec = {
ports = [{port = 6379; targetPort = 6379;}];
selector = {name = "redis";};
};
});
redisImage = pkgs.dockerTools.buildImage {
name = "redis";
tag = "latest";
contents = pkgs.redis;
config.Entrypoint = "/bin/redis-server";
};
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testSimplePod = ''
$kubernetes->execute("docker load < ${redisImage}");
$kubernetes->waitUntilSucceeds("kubectl create -f ${redisPod}");
$kubernetes->succeed("kubectl create -f ${redisService}");
$kubernetes->waitUntilSucceeds("kubectl get pod redis | grep Running");
$kubernetes->succeed("nc -z \$\(dig \@10.10.0.1 redis.default.svc.cluster.local +short\) 6379");
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'';
in {
# This test runs kubernetes on a single node
trivial = makeTest {
name = "kubernetes-trivial";
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nodes = {
kubernetes =
{ config, pkgs, lib, nodes, ... }:
{
virtualisation.memorySize = 768;
virtualisation.diskSize = 2048;
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programs.bash.enableCompletion = true;
environment.systemPackages = with pkgs; [ netcat bind ];
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services.kubernetes.roles = ["master" "node"];
virtualisation.docker.extraOptions = "--iptables=false --ip-masq=false -b cbr0";
networking.bridges.cbr0.interfaces = [];
networking.interfaces.cbr0 = {};
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};
};
testScript = ''
startAll;
$kubernetes->waitUntilSucceeds("kubectl get nodes | grep kubernetes | grep Ready");
${testSimplePod}
'';
};
cluster = let
runWithOpenSSL = file: cmd: pkgs.runCommand file {
buildInputs = [ pkgs.openssl ];
} cmd;
ca_key = runWithOpenSSL "ca-key.pem" "openssl genrsa -out $out 2048";
ca_pem = runWithOpenSSL "ca.pem" ''
openssl req \
-x509 -new -nodes -key ${ca_key} \
-days 10000 -out $out -subj "/CN=etcd-ca"
'';
etcd_key = runWithOpenSSL "etcd-key.pem" "openssl genrsa -out $out 2048";
etcd_csr = runWithOpenSSL "etcd.csr" ''
openssl req \
-new -key ${etcd_key} \
-out $out -subj "/CN=etcd" \
-config ${openssl_cnf}
'';
etcd_cert = runWithOpenSSL "etcd.pem" ''
openssl x509 \
-req -in ${etcd_csr} \
-CA ${ca_pem} -CAkey ${ca_key} \
-CAcreateserial -out $out \
-days 365 -extensions v3_req \
-extfile ${openssl_cnf}
'';
etcd_client_key = runWithOpenSSL "etcd-client-key.pem"
"openssl genrsa -out $out 2048";
etcd_client_csr = runWithOpenSSL "etcd-client-key.pem" ''
openssl req \
-new -key ${etcd_client_key} \
-out $out -subj "/CN=etcd-client" \
-config ${client_openssl_cnf}
'';
etcd_client_cert = runWithOpenSSL "etcd-client.crt" ''
openssl x509 \
-req -in ${etcd_client_csr} \
-CA ${ca_pem} -CAkey ${ca_key} -CAcreateserial \
-out $out -days 365 -extensions v3_req \
-extfile ${client_openssl_cnf}
'';
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apiserver_key = runWithOpenSSL "apiserver-key.pem" "openssl genrsa -out $out 2048";
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apiserver_csr = runWithOpenSSL "apiserver.csr" ''
openssl req \
-new -key ${apiserver_key} \
-out $out -subj "/CN=kube-apiserver" \
-config ${apiserver_cnf}
'';
apiserver_cert = runWithOpenSSL "apiserver.pem" ''
openssl x509 \
-req -in ${apiserver_csr} \
-CA ${ca_pem} -CAkey ${ca_key} -CAcreateserial \
-out $out -days 365 -extensions v3_req \
-extfile ${apiserver_cnf}
'';
worker_key = runWithOpenSSL "worker-key.pem" "openssl genrsa -out $out 2048";
worker_csr = runWithOpenSSL "worker.csr" ''
openssl req \
-new -key ${worker_key} \
-out $out -subj "/CN=kube-worker" \
-config ${worker_cnf}
'';
worker_cert = runWithOpenSSL "worker.pem" ''
openssl x509 \
-req -in ${worker_csr} \
-CA ${ca_pem} -CAkey ${ca_key} -CAcreateserial \
-out $out -days 365 -extensions v3_req \
-extfile ${worker_cnf}
'';
openssl_cnf = pkgs.writeText "openssl.cnf" ''
[req]
req_extensions = v3_req
distinguished_name = req_distinguished_name
[req_distinguished_name]
[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = digitalSignature, keyEncipherment
extendedKeyUsage = serverAuth
subjectAltName = @alt_names
[alt_names]
DNS.1 = etcd1
DNS.2 = etcd2
DNS.3 = etcd3
IP.1 = 127.0.0.1
'';
client_openssl_cnf = pkgs.writeText "client-openssl.cnf" ''
[req]
req_extensions = v3_req
distinguished_name = req_distinguished_name
[req_distinguished_name]
[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = digitalSignature, keyEncipherment
extendedKeyUsage = clientAuth
'';
apiserver_cnf = pkgs.writeText "apiserver-openssl.cnf" ''
[req]
req_extensions = v3_req
distinguished_name = req_distinguished_name
[req_distinguished_name]
[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = nonRepudiation, digitalSignature, keyEncipherment
subjectAltName = @alt_names
[alt_names]
DNS.1 = kubernetes
DNS.2 = kubernetes.default
DNS.3 = kubernetes.default.svc
DNS.4 = kubernetes.default.svc.cluster.local
IP.1 = 10.10.10.1
'';
worker_cnf = pkgs.writeText "worker-openssl.cnf" ''
[req]
req_extensions = v3_req
distinguished_name = req_distinguished_name
[req_distinguished_name]
[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = nonRepudiation, digitalSignature, keyEncipherment
subjectAltName = @alt_names
[alt_names]
DNS.1 = kubeWorker1
DNS.2 = kubeWorker2
'';
etcdNodeConfig = {
virtualisation.memorySize = 128;
services = {
etcd = {
enable = true;
keyFile = etcd_key;
certFile = etcd_cert;
trustedCaFile = ca_pem;
peerClientCertAuth = true;
listenClientUrls = ["https://0.0.0.0:2379"];
listenPeerUrls = ["https://0.0.0.0:2380"];
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};
};
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environment.variables = {
ETCDCTL_CERT_FILE = "${etcd_client_cert}";
ETCDCTL_KEY_FILE = "${etcd_client_key}";
ETCDCTL_CA_FILE = "${ca_pem}";
ETCDCTL_PEERS = "https://127.0.0.1:2379";
};
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networking.firewall.allowedTCPPorts = [ 2379 2380 ];
};
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kubeConfig = {
virtualisation.diskSize = 2048;
programs.bash.enableCompletion = true;
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services.flannel = {
enable = true;
network = "10.10.0.0/16";
iface = "eth1";
etcd = {
endpoints = ["https://etcd1:2379" "https://etcd2:2379" "https://etcd3:2379"];
keyFile = etcd_client_key;
certFile = etcd_client_cert;
caFile = ca_pem;
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};
};
# vxlan
networking.firewall.allowedUDPPorts = [ 8472 ];
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systemd.services.docker.after = ["flannel.service"];
systemd.services.docker.serviceConfig.EnvironmentFile = "/run/flannel/subnet.env";
virtualisation.docker.extraOptions = "--iptables=false --ip-masq=false --bip $FLANNEL_SUBNET";
services.kubernetes.verbose = true;
services.kubernetes.etcd = {
servers = ["https://etcd1:2379" "https://etcd2:2379" "https://etcd3:2379"];
keyFile = etcd_client_key;
certFile = etcd_client_cert;
caFile = ca_pem;
};
environment.systemPackages = [ pkgs.bind pkgs.tcpdump pkgs.utillinux ];
};
kubeMasterConfig = {pkgs, ...}: {
require = [kubeConfig];
# kube apiserver
networking.firewall.allowedTCPPorts = [ 443 ];
virtualisation.memorySize = 512;
services.kubernetes = {
roles = ["master"];
scheduler.leaderElect = true;
controllerManager.leaderElect = true;
apiserver = {
publicAddress = "0.0.0.0";
advertiseAddress = "192.168.1.8";
tlsKeyFile = apiserver_key;
tlsCertFile = apiserver_cert;
clientCaFile = ca_pem;
kubeletClientCaFile = ca_pem;
kubeletClientKeyFile = worker_key;
kubeletClientCertFile = worker_cert;
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};
};
};
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kubeWorkerConfig = { pkgs, ... }: {
require = [kubeConfig];
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virtualisation.memorySize = 512;
# kubelet
networking.firewall.allowedTCPPorts = [ 10250 ];
services.kubernetes = {
roles = ["node"];
kubeconfig = {
server = "https://kubernetes:443";
caFile = ca_pem;
certFile = worker_cert;
keyFile = worker_key;
};
kubelet = {
tlsKeyFile = worker_key;
tlsCertFile = worker_cert;
};
};
};
in makeTest {
name = "kubernetes-cluster";
nodes = {
etcd1 = { config, pkgs, nodes, ... }: {
require = [etcdNodeConfig];
services.etcd = {
advertiseClientUrls = ["https://etcd1:2379"];
initialCluster = ["etcd1=https://etcd1:2380" "etcd2=https://etcd2:2380" "etcd3=https://etcd3:2380"];
initialAdvertisePeerUrls = ["https://etcd1:2380"];
};
};
etcd2 = { config, pkgs, ... }: {
require = [etcdNodeConfig];
services.etcd = {
advertiseClientUrls = ["https://etcd2:2379"];
initialCluster = ["etcd1=https://etcd1:2380" "etcd2=https://etcd2:2380" "etcd3=https://etcd3:2380"];
initialAdvertisePeerUrls = ["https://etcd2:2380"];
};
};
etcd3 = { config, pkgs, ... }: {
require = [etcdNodeConfig];
services.etcd = {
advertiseClientUrls = ["https://etcd3:2379"];
initialCluster = ["etcd1=https://etcd1:2380" "etcd2=https://etcd2:2380" "etcd3=https://etcd3:2380"];
initialAdvertisePeerUrls = ["https://etcd3:2380"];
};
};
kubeMaster1 = { config, pkgs, lib, nodes, ... }: {
require = [kubeMasterConfig];
};
kubeMaster2 = { config, pkgs, lib, nodes, ... }: {
require = [kubeMasterConfig];
};
# Kubernetes TCP load balancer
kubernetes = { config, pkgs, ... }: {
# kubernetes
networking.firewall.allowedTCPPorts = [ 443 ];
services.haproxy.enable = true;
services.haproxy.config = ''
global
log 127.0.0.1 local0 notice
user haproxy
group haproxy
defaults
log global
retries 2
timeout connect 3000
timeout server 5000
timeout client 5000
listen kubernetes
bind 0.0.0.0:443
mode tcp
option ssl-hello-chk
balance roundrobin
server kube-master-1 kubeMaster1:443 check
server kube-master-2 kubeMaster2:443 check
'';
};
kubeWorker1 = { config, pkgs, lib, nodes, ... }: {
require = [kubeWorkerConfig];
};
kubeWorker2 = { config, pkgs, lib, nodes, ... }: {
require = [kubeWorkerConfig];
};
};
testScript = ''
startAll;
${testSimplePod}
'';
};
}