cluster/nix/defs-cluster-k0.nix - hscloud - Gitiles

 machineName:

 let
   machines = (import ./defs-machines.nix);
 in rec {
   domain = ".hswaw.net";
   k8sapi = "k0.hswaw.net";
   acmeEmail = "q3k@hackerspace.pl";

   fqdn = machineName + domain;
   machine = (builtins.head (builtins.filter (n: n.fqdn == fqdn) machines));
   otherMachines = (builtins.filter (n: n.fqdn != fqdn) machines);
   machinesByName = builtins.listToAttrs (map (m: { name = m.name; value = m; }) machines);
   inherit machines;

   # Ceph cluster to run systemd modules for.
   cephCluster = {
     fsid = "74592dc2-31b7-4dbe-88cf-40459dfeb354";
     name = "k0";

     # Map from node name to mon configuration (currently always empty).
     #
     # Each mon also runs a mgr daemon (which is a leader-elected kitchen
     # sink^W^Whousekeeping service hanging off of a mon cluster).
     #
     # Consult the Ceph documentation
     # (https://docs.ceph.com/en/pacific/rados/operations/add-or-rm-mons/) on
     # how to actually carry out mon-related maintenance operations.
     mons = {
       bc01n02 = {};
     };

     # Map from node name to list of disks on node.
     # Each disk is:
     #  id:   OSD numerical ID, eg. 0 for osd.0. You get this after running
     #        ceph-lvm volume create.
     #  path: Filesystem path for disk backing drive. This should be something
     #        in /dev/disk/by-id for safety. This is only used to gate OSD
     #        daemon startup by disk presence.
     #  uuid: OSD uuid/fsid. You get this after running ceph-lvm volume create.
     #
     # Quick guide how to set up a new OSD (but please refer to the Ceph manual):
     # 0. Copy /var/lib/ceph/bootstrap-osd/k0.keyring from another OSD node to
     #    the new OSD node, if this is a new node. Remember to chown ceph:ceph
     #    chmod 0600!
     # 1. nix-shell -p ceph lvm2 cryptsetup (if on a node that's not yet an OSD)
     # 2. ceph-volume --cluster k0 lvm create --bluestore --data /dev/sdX --no-systemd --dmcrypt
     # 3. The above will mount a tmpfs on /var/lib/ceph/osd/k0-X. X is the new
     #    osd id. A file named fsid inside this directory is the new OSD fsid/uuid.
     # 4. Configure osds below with the above information, redeploy node from nix.
     osds = {
       dcr01s22 = [
         { id = 0; path = "/dev/disk/by-id/scsi-35000c500850293e3"; uuid = "314034c5-474c-4d0d-ba41-36a881c52560";}
         { id = 1; path = "/dev/disk/by-id/scsi-35000c500850312cb"; uuid = "a7f1baa0-0fc3-4ab1-9895-67abdc29de03";}
         { id = 2; path = "/dev/disk/by-id/scsi-35000c5008508e3ef"; uuid = "11ac8316-6a87-48a7-a0c7-74c3cef6c2fa";}
         { id = 3; path = "/dev/disk/by-id/scsi-35000c5008508e23f"; uuid = "c6b838d1-b08c-4788-936c-293041ed2d4d";}
       ];
       dcr01s24 = [
         { id = 4; path = "/dev/disk/by-id/scsi-35000c5008509199b"; uuid = "a2b4663d-bd8f-49b3-b0b0-195c56ba252f";}
         { id = 5; path = "/dev/disk/by-id/scsi-35000c50085046abf"; uuid = "a2242989-ccce-4367-8813-519b64b5afdb";}
         { id = 6; path = "/dev/disk/by-id/scsi-35000c5008502929b"; uuid = "7deac89c-22dd-4c2b-b3cc-43ff7f990fd6";}
         { id = 7; path = "/dev/disk/by-id/scsi-35000c5008502a323"; uuid = "e305ebb3-9cac-44d2-9f1d-bbb72c8ab51f";}
       ];
     };
   };

   pki = rec {
     make = (radix: name: rec {
       ca = ./../certs + "/ca-${radix}.crt";
       cert = ./../certs + "/${radix}-${name}.cert";
       key = ./../secrets/plain + "/${radix}-${name}.key";

       json = (builtins.toJSON {
         ca = (builtins.toString ca);
         cert = (builtins.toString cert);
         key = (builtins.toString key);
       });
     });

     etcdPeer = (make "etcdpeer" fqdn);

     etcd = {
         server = (make "etcd" fqdn);
         kube = (make "etcd" "kube");
     };

     makeKube = (name: (make "kube" name) // {
       config = {
         server = "https://${k8sapi}:${toString ports.k8sAPIServerSecure}";
         certFile = (make "kube" name).cert;
         keyFile = (make "kube" name).key;
       };
     });

     kube = rec {
       ca = apiserver.ca;

       # Used to identify apiserver.
       apiserver = (makeKube "apiserver");

       # Used to identify controller-manager.
       controllermanager = (makeKube "controllermanager");

       # Used to identify scheduler.
       scheduler = (makeKube "scheduler");

       # Used to identify kube-proxy.
       proxy = (makeKube "proxy");

       # Used to identify kubelet.
       kubelet = (makeKube "kubelet-${fqdn}");

       # Used to encrypt service accounts.
       serviceaccounts = (makeKube "serviceaccounts");
     };

     kubeFront = {
       apiserver = (make "kubefront" "apiserver");
     };
   };

   ports = {
     k8sAPIServerPlain = 4000;
     k8sAPIServerSecure = 4001;
     k8sControllerManagerPlain = 0; # would be 4002; do not serve plain http
     k8sControllerManagerSecure = 4003;
     k8sSchedulerPlain = 0; # would be 4004; do not serve plain http
     k8sSchedulerSecure = 4005;
   };
 }
	machineName:

	let
	machines = (import ./defs-machines.nix);
	in rec {
	domain = ".hswaw.net";
	k8sapi = "k0.hswaw.net";
	acmeEmail = "q3k@hackerspace.pl";

	fqdn = machineName + domain;
	machine = (builtins.head (builtins.filter (n: n.fqdn == fqdn) machines));
	otherMachines = (builtins.filter (n: n.fqdn != fqdn) machines);
	machinesByName = builtins.listToAttrs (map (m: { name = m.name; value = m; }) machines);
	inherit machines;

	# Ceph cluster to run systemd modules for.
	cephCluster = {
	fsid = "74592dc2-31b7-4dbe-88cf-40459dfeb354";
	name = "k0";

	# Map from node name to mon configuration (currently always empty).
	#
	# Each mon also runs a mgr daemon (which is a leader-elected kitchen
	# sink^W^Whousekeeping service hanging off of a mon cluster).
	#
	# Consult the Ceph documentation
	# (https://docs.ceph.com/en/pacific/rados/operations/add-or-rm-mons/) on
	# how to actually carry out mon-related maintenance operations.
	mons = {
	bc01n02 = {};
	};

	# Map from node name to list of disks on node.
	# Each disk is:
	# id: OSD numerical ID, eg. 0 for osd.0. You get this after running
	# ceph-lvm volume create.
	# path: Filesystem path for disk backing drive. This should be something
	# in /dev/disk/by-id for safety. This is only used to gate OSD
	# daemon startup by disk presence.
	# uuid: OSD uuid/fsid. You get this after running ceph-lvm volume create.
	#
	# Quick guide how to set up a new OSD (but please refer to the Ceph manual):
	# 0. Copy /var/lib/ceph/bootstrap-osd/k0.keyring from another OSD node to
	# the new OSD node, if this is a new node. Remember to chown ceph:ceph
	# chmod 0600!
	# 1. nix-shell -p ceph lvm2 cryptsetup (if on a node that's not yet an OSD)
	# 2. ceph-volume --cluster k0 lvm create --bluestore --data /dev/sdX --no-systemd --dmcrypt
	# 3. The above will mount a tmpfs on /var/lib/ceph/osd/k0-X. X is the new
	# osd id. A file named fsid inside this directory is the new OSD fsid/uuid.
	# 4. Configure osds below with the above information, redeploy node from nix.
	osds = {
	dcr01s22 = [
	{ id = 0; path = "/dev/disk/by-id/scsi-35000c500850293e3"; uuid = "314034c5-474c-4d0d-ba41-36a881c52560";}
	{ id = 1; path = "/dev/disk/by-id/scsi-35000c500850312cb"; uuid = "a7f1baa0-0fc3-4ab1-9895-67abdc29de03";}
	{ id = 2; path = "/dev/disk/by-id/scsi-35000c5008508e3ef"; uuid = "11ac8316-6a87-48a7-a0c7-74c3cef6c2fa";}
	{ id = 3; path = "/dev/disk/by-id/scsi-35000c5008508e23f"; uuid = "c6b838d1-b08c-4788-936c-293041ed2d4d";}
	];
	dcr01s24 = [
	{ id = 4; path = "/dev/disk/by-id/scsi-35000c5008509199b"; uuid = "a2b4663d-bd8f-49b3-b0b0-195c56ba252f";}
	{ id = 5; path = "/dev/disk/by-id/scsi-35000c50085046abf"; uuid = "a2242989-ccce-4367-8813-519b64b5afdb";}
	{ id = 6; path = "/dev/disk/by-id/scsi-35000c5008502929b"; uuid = "7deac89c-22dd-4c2b-b3cc-43ff7f990fd6";}
	{ id = 7; path = "/dev/disk/by-id/scsi-35000c5008502a323"; uuid = "e305ebb3-9cac-44d2-9f1d-bbb72c8ab51f";}
	];
	};
	};

	pki = rec {
	make = (radix: name: rec {
	ca = ./../certs + "/ca-${radix}.crt";
	cert = ./../certs + "/${radix}-${name}.cert";
	key = ./../secrets/plain + "/${radix}-${name}.key";

	json = (builtins.toJSON {
	ca = (builtins.toString ca);
	cert = (builtins.toString cert);
	key = (builtins.toString key);
	});
	});

	etcdPeer = (make "etcdpeer" fqdn);

	etcd = {
	server = (make "etcd" fqdn);
	kube = (make "etcd" "kube");
	};

	makeKube = (name: (make "kube" name) // {
	config = {
	server = "https://${k8sapi}:${toString ports.k8sAPIServerSecure}";
	certFile = (make "kube" name).cert;
	keyFile = (make "kube" name).key;
	};
	});

	kube = rec {
	ca = apiserver.ca;

	# Used to identify apiserver.
	apiserver = (makeKube "apiserver");

	# Used to identify controller-manager.
	controllermanager = (makeKube "controllermanager");

	# Used to identify scheduler.
	scheduler = (makeKube "scheduler");

	# Used to identify kube-proxy.
	proxy = (makeKube "proxy");

	# Used to identify kubelet.
	kubelet = (makeKube "kubelet-${fqdn}");

	# Used to encrypt service accounts.
	serviceaccounts = (makeKube "serviceaccounts");
	};

	kubeFront = {
	apiserver = (make "kubefront" "apiserver");
	};
	};

	ports = {
	k8sAPIServerPlain = 4000;
	k8sAPIServerSecure = 4001;
	k8sControllerManagerPlain = 0; # would be 4002; do not serve plain http
	k8sControllerManagerSecure = 4003;
	k8sSchedulerPlain = 0; # would be 4004; do not serve plain http
	k8sSchedulerSecure = 4005;
	};
	}