nixos/tests/ceph-single-node-bluestore: init

The current Ceph tests use the old method for OSDs to store data on
disks, known as Filestore. This means there are no tests for the
Bluestore functionality that run on install, which means that things
like RocksDB being broken can slip through and break the Bluestore
functionality in a subtle and difficult to debug manner.

Add a test to check that Bluestore works, at least on a single node.
This commit is contained in:
Luke Granger-Brown 2021-02-14 17:59:29 +00:00
parent 9ac395366b
commit bfc11c643d
2 changed files with 197 additions and 0 deletions

View file

@ -55,6 +55,7 @@ in
cassandra_3_11 = handleTest ./cassandra.nix { testPackage = pkgs.cassandra_3_11; };
ceph-multi-node = handleTestOn ["x86_64-linux"] ./ceph-multi-node.nix {};
ceph-single-node = handleTestOn ["x86_64-linux"] ./ceph-single-node.nix {};
ceph-single-node-bluestore = handleTestOn ["x86_64-linux"] ./ceph-single-node-bluestore.nix {};
certmgr = handleTest ./certmgr.nix {};
cfssl = handleTestOn ["x86_64-linux"] ./cfssl.nix {};
charliecloud = handleTest ./charliecloud.nix {};

View file

@ -0,0 +1,196 @@
import ./make-test-python.nix ({pkgs, lib, ...}:
let
cfg = {
clusterId = "066ae264-2a5d-4729-8001-6ad265f50b03";
monA = {
name = "a";
ip = "192.168.1.1";
};
osd0 = {
name = "0";
key = "AQBCEJNa3s8nHRAANvdsr93KqzBznuIWm2gOGg==";
uuid = "55ba2294-3e24-478f-bee0-9dca4c231dd9";
};
osd1 = {
name = "1";
key = "AQBEEJNac00kExAAXEgy943BGyOpVH1LLlHafQ==";
uuid = "5e97a838-85b6-43b0-8950-cb56d554d1e5";
};
osd2 = {
name = "2";
key = "AQAdyhZeIaUlARAAGRoidDAmS6Vkp546UFEf5w==";
uuid = "ea999274-13d0-4dd5-9af9-ad25a324f72f";
};
};
generateCephConfig = { daemonConfig }: {
enable = true;
global = {
fsid = cfg.clusterId;
monHost = cfg.monA.ip;
monInitialMembers = cfg.monA.name;
};
} // daemonConfig;
generateHost = { pkgs, cephConfig, networkConfig, ... }: {
virtualisation = {
memorySize = 512;
emptyDiskImages = [ 20480 20480 20480 ];
vlans = [ 1 ];
};
networking = networkConfig;
environment.systemPackages = with pkgs; [
bash
sudo
ceph
xfsprogs
];
boot.kernelModules = [ "xfs" ];
services.ceph = cephConfig;
};
networkMonA = {
dhcpcd.enable = false;
interfaces.eth1.ipv4.addresses = pkgs.lib.mkOverride 0 [
{ address = cfg.monA.ip; prefixLength = 24; }
];
};
cephConfigMonA = generateCephConfig { daemonConfig = {
mon = {
enable = true;
daemons = [ cfg.monA.name ];
};
mgr = {
enable = true;
daemons = [ cfg.monA.name ];
};
osd = {
enable = true;
daemons = [ cfg.osd0.name cfg.osd1.name cfg.osd2.name ];
};
}; };
# Following deployment is based on the manual deployment described here:
# https://docs.ceph.com/docs/master/install/manual-deployment/
# For other ways to deploy a ceph cluster, look at the documentation at
# https://docs.ceph.com/docs/master/
testscript = { ... }: ''
start_all()
monA.wait_for_unit("network.target")
# Bootstrap ceph-mon daemon
monA.succeed(
"sudo -u ceph ceph-authtool --create-keyring /tmp/ceph.mon.keyring --gen-key -n mon. --cap mon 'allow *'",
"sudo -u ceph ceph-authtool --create-keyring /etc/ceph/ceph.client.admin.keyring --gen-key -n client.admin --cap mon 'allow *' --cap osd 'allow *' --cap mds 'allow *' --cap mgr 'allow *'",
"sudo -u ceph ceph-authtool /tmp/ceph.mon.keyring --import-keyring /etc/ceph/ceph.client.admin.keyring",
"monmaptool --create --add ${cfg.monA.name} ${cfg.monA.ip} --fsid ${cfg.clusterId} /tmp/monmap",
"sudo -u ceph ceph-mon --mkfs -i ${cfg.monA.name} --monmap /tmp/monmap --keyring /tmp/ceph.mon.keyring",
"sudo -u ceph touch /var/lib/ceph/mon/ceph-${cfg.monA.name}/done",
"systemctl start ceph-mon-${cfg.monA.name}",
)
monA.wait_for_unit("ceph-mon-${cfg.monA.name}")
monA.succeed("ceph mon enable-msgr2")
# Can't check ceph status until a mon is up
monA.succeed("ceph -s | grep 'mon: 1 daemons'")
# Start the ceph-mgr daemon, after copying in the keyring
monA.succeed(
"sudo -u ceph mkdir -p /var/lib/ceph/mgr/ceph-${cfg.monA.name}/",
"ceph auth get-or-create mgr.${cfg.monA.name} mon 'allow profile mgr' osd 'allow *' mds 'allow *' > /var/lib/ceph/mgr/ceph-${cfg.monA.name}/keyring",
"systemctl start ceph-mgr-${cfg.monA.name}",
)
monA.wait_for_unit("ceph-mgr-a")
monA.wait_until_succeeds("ceph -s | grep 'quorum ${cfg.monA.name}'")
monA.wait_until_succeeds("ceph -s | grep 'mgr: ${cfg.monA.name}(active,'")
# Bootstrap OSDs
monA.succeed(
"mkdir -p /var/lib/ceph/osd/ceph-${cfg.osd0.name}",
"echo bluestore > /var/lib/ceph/osd/ceph-${cfg.osd0.name}/type",
"ln -sf /dev/vdb /var/lib/ceph/osd/ceph-${cfg.osd0.name}/block",
"mkdir -p /var/lib/ceph/osd/ceph-${cfg.osd1.name}",
"echo bluestore > /var/lib/ceph/osd/ceph-${cfg.osd1.name}/type",
"ln -sf /dev/vdc /var/lib/ceph/osd/ceph-${cfg.osd1.name}/block",
"mkdir -p /var/lib/ceph/osd/ceph-${cfg.osd2.name}",
"echo bluestore > /var/lib/ceph/osd/ceph-${cfg.osd2.name}/type",
"ln -sf /dev/vdd /var/lib/ceph/osd/ceph-${cfg.osd2.name}/block",
"ceph-authtool --create-keyring /var/lib/ceph/osd/ceph-${cfg.osd0.name}/keyring --name osd.${cfg.osd0.name} --add-key ${cfg.osd0.key}",
"ceph-authtool --create-keyring /var/lib/ceph/osd/ceph-${cfg.osd1.name}/keyring --name osd.${cfg.osd1.name} --add-key ${cfg.osd1.key}",
"ceph-authtool --create-keyring /var/lib/ceph/osd/ceph-${cfg.osd2.name}/keyring --name osd.${cfg.osd2.name} --add-key ${cfg.osd2.key}",
'echo \'{"cephx_secret": "${cfg.osd0.key}"}\' | ceph osd new ${cfg.osd0.uuid} -i -',
'echo \'{"cephx_secret": "${cfg.osd1.key}"}\' | ceph osd new ${cfg.osd1.uuid} -i -',
'echo \'{"cephx_secret": "${cfg.osd2.key}"}\' | ceph osd new ${cfg.osd2.uuid} -i -',
)
# Initialize the OSDs with regular filestore
monA.succeed(
"ceph-osd -i ${cfg.osd0.name} --mkfs --osd-uuid ${cfg.osd0.uuid}",
"ceph-osd -i ${cfg.osd1.name} --mkfs --osd-uuid ${cfg.osd1.uuid}",
"ceph-osd -i ${cfg.osd2.name} --mkfs --osd-uuid ${cfg.osd2.uuid}",
"chown -R ceph:ceph /var/lib/ceph/osd",
"systemctl start ceph-osd-${cfg.osd0.name}",
"systemctl start ceph-osd-${cfg.osd1.name}",
"systemctl start ceph-osd-${cfg.osd2.name}",
)
monA.wait_until_succeeds("ceph osd stat | grep -e '3 osds: 3 up[^,]*, 3 in'")
monA.wait_until_succeeds("ceph -s | grep 'mgr: ${cfg.monA.name}(active,'")
monA.wait_until_succeeds("ceph -s | grep 'HEALTH_OK'")
monA.succeed(
"ceph osd pool create single-node-test 32 32",
"ceph osd pool ls | grep 'single-node-test'",
"ceph osd pool rename single-node-test single-node-other-test",
"ceph osd pool ls | grep 'single-node-other-test'",
)
monA.wait_until_succeeds("ceph -s | grep '2 pools, 33 pgs'")
monA.succeed(
"ceph osd getcrushmap -o crush",
"crushtool -d crush -o decrushed",
"sed 's/step chooseleaf firstn 0 type host/step chooseleaf firstn 0 type osd/' decrushed > modcrush",
"crushtool -c modcrush -o recrushed",
"ceph osd setcrushmap -i recrushed",
"ceph osd pool set single-node-other-test size 2",
)
monA.wait_until_succeeds("ceph -s | grep 'HEALTH_OK'")
monA.wait_until_succeeds("ceph -s | grep '33 active+clean'")
monA.fail(
"ceph osd pool ls | grep 'multi-node-test'",
"ceph osd pool delete single-node-other-test single-node-other-test --yes-i-really-really-mean-it",
)
# Shut down ceph by stopping ceph.target.
monA.succeed("systemctl stop ceph.target")
# Start it up
monA.succeed("systemctl start ceph.target")
monA.wait_for_unit("ceph-mon-${cfg.monA.name}")
monA.wait_for_unit("ceph-mgr-${cfg.monA.name}")
monA.wait_for_unit("ceph-osd-${cfg.osd0.name}")
monA.wait_for_unit("ceph-osd-${cfg.osd1.name}")
monA.wait_for_unit("ceph-osd-${cfg.osd2.name}")
# Ensure the cluster comes back up again
monA.succeed("ceph -s | grep 'mon: 1 daemons'")
monA.wait_until_succeeds("ceph -s | grep 'quorum ${cfg.monA.name}'")
monA.wait_until_succeeds("ceph osd stat | grep -e '3 osds: 3 up[^,]*, 3 in'")
monA.wait_until_succeeds("ceph -s | grep 'mgr: ${cfg.monA.name}(active,'")
monA.wait_until_succeeds("ceph -s | grep 'HEALTH_OK'")
'';
in {
name = "basic-single-node-ceph-cluster-bluestore";
meta = with pkgs.lib.maintainers; {
maintainers = [ lukegb ];
};
nodes = {
monA = generateHost { pkgs = pkgs; cephConfig = cephConfigMonA; networkConfig = networkMonA; };
};
testScript = testscript;
})