18 KiB
PVC Node Daemon architecture
The PVC Node Daemon is the heart of the PVC system and runs on each node to manage the state of the node and its configured resources. The daemon connects directly to the Zookeeper cluster for coordination and state.
The node daemon is build using Python 3.X and is packaged in the Debian package pvc-daemon
.
Configuration of the daemon is documented in the manual, however it is recommended to use the Ansible configuration interface to configure the PVC system for you from scratch.
Overall architecture
The PVC daemon is object-oriented - each cluster resource is represented by an Object, which is then present on each node in the cluster. This allows state changes to be reflected across the entire cluster should their data change.
During startup, the system scans the Zookeeper database and sets up the required objects. The database is then watched in real-time for additional changes to the database information.
Startup sequence
The daemon startup sequence is documented below. The main daemon entry-point is Daemon.py
inside the pvcnoded
folder, which is called from the pvcnoded.py
stub file.
-
The configuration is read from
/etc/pvc/pvcnoded.yaml
and the configuration object set up. -
Any required filesystem directories, mostly dynamic directories, are created.
-
The logger is set up. If file logging is enabled, this is the state when the first log messages are written.
-
Host networking is configured based on the
pvcnoded.yaml
configuration file. In a normal cluster, this is the point where the node will become reachable on the network as all networking is handled by the PVC node daemon. -
Sysctl tweaks are applied to the host system, to enable routing/forwarding between nodes via the host.
-
The node determines its coordinator state and starts the required daemons if applicable. In a normal cluster, this is the point where the dependent services such as Zookeeper, FRR, and Ceph become available. After this step, the daemon waits 5 seconds before proceeding to give these daemons a chance to start up.
-
The daemon connects to the Zookeeper cluster and starts its listener. If the Zookeeper cluster is unavailable, it will wait some time before abandoning the attempt and starting again from step 1.
-
Termination handling/cleanup is configured.
-
The node checks if it is already present in the Zookeeper cluster; if not, it will add itself to the database. Initial static options are also updated in the database here. The daemon state transitions from
stop
toinit
. -
The node checks if Libvirt is accessible.
-
The node starts up the NFT firewall if applicable and configures the base rule-set.
-
The node ensures that
dnsmasq
is stopped (legacy check, might be safe to remove eventually). -
The node begins setting up the object representations of resources, in order:
a. Node entries
b. Network entries, creating client networks and starting them as required.
c. Domain (VM) entries, starting up the VMs as required.
d. Ceph storage entries (OSDs, Pools, Volumes, Snapshots).
-
The node activates its keepalived timer and begins sending keepalive updates to the cluster. The daemon state transitions from
init
torun
and the system has started fully.
PVC Node Daemon manual
The PVC node daemon ins build with Python 3 and is run directly on nodes. For details of the startup sequence and general layout, see the architecture document.
Configuration
The Daemon is configured using a YAML configuration file which is passed in to the API process by the environment variable PVCD_CONFIG_FILE
. When running with the default package and SystemD unit, this file is located at /etc/pvc/pvcnoded.yaml
.
For most deployments, the management of the configuration file is handled entirely by the PVC Ansible framework and should not be modified directly. Many options from the Ansible framework map directly into the configuration options in this file.
Conventions
-
Settings may be
required
,optional
, orignored
. -
Settings may
depends
on other settings. This indicates that, if one setting is enabled, the other setting is very likelyrequired
by that setting.
pvcnoded.yaml
Example configuration:
pvc:
node: pvchv1
debug: False
functions:
enable_hypervisor: True
enable_networking: True
enable_storage: True
enable_api: True
cluster:
coordinators:
- pvchv1
- pvchv2
- pvchv3
networks:
upstream:
domain: "mydomain.net"
network: "1.1.1.0/24"
floating_ip: "1.1.1.10/24"
gateway: "1.1.1.1"
cluster:
domain: "pvc.local"
network: "10.255.0.0/24"
floating_ip: "10.255.0.254/24"
storage:
domain: "pvc.storage"
network: "10.254.0.0/24"
floating_ip: "10.254.0.254/24"
coordinator:
dns:
database:
host: localhost
port: 5432
name: pvcdns
user: pvcdns
pass: pvcdnsPassw0rd
metadata:
database:
host: localhost
port: 5432
name: pvcapi
user: pvcapi
pass: pvcapiPassw0rd
system:
fencing:
intervals:
keepalive_interval: 5
fence_intervals: 6
suicide_intervals: 0
actions:
successful_fence: migrate
failed_fence: None
ipmi:
host: pvchv1-lom
user: admin
pass: Passw0rd
migration:
target_selector: mem
configuration:
directories:
dynamic_directory: "/run/pvc"
log_directory: "/var/log/pvc"
console_log_directory: "/var/log/libvirt"
logging:
file_logging: True
stdout_logging: True
log_colours: True
log_dates: True
log_keepalives: True
log_keepalive_cluster_details: True
log_keepalive_storage_details: True
console_log_lines: 1000
networking:
bridge_device: ens4
bridge_mtu: 1500
sriov_enable: True
sriov_device:
- phy: ens1f0
mtu: 9000
vfcount: 7
upstream:
device: ens4
mtu: 1500
address: None
cluster:
device: ens4
mtu: 1500
address: by-id
storage:
device: ens4
mtu: 1500
address: by-id
node
- required
The (short) hostname of the node; host-specific.
debug
- required
Whether to enable or disable debug mode. Debug mode enables additional logging of subtasks throughout the system.
functions
→ enable_hypervisor
- required
Whether to enable the hypervisor functionality of the PVC Daemon or not. This should usually be enabled except in advanced deployment scenarios (such as a dedicated quorum-keeping micro-node or dedicated network routing node).
functions
→ enable_networking
- required
Whether to enable the client network functionality of the PVC Daemon or not. This should usually be enabled except in deployment scenarios where networking is completely unmanaged by PVC.
functions
→ enable_storage
- required
Whether to enable the virtual storage functionality of the PVC Daemon or not. This should usually be enabled except in advanced deployment scenarios featuring unmanaged external storage.
functions
→ enable_api
Whether to enable the PVC API client on the cluster floating IPs or not.
cluster
→ coordinators
- required
A list of coordinator hosts, used to generate the Zookeeper connection string and determine if the current host is a coordinator or not .
cluster
→ networks
- optional
- requires
functions
→enable_networking
Contains a dictionary of networks and their configurations for the PVC cluster. Optional only if enable_networking
is False
. The three required network types/names are upstream
, cluster
, and storage
. Each network type contains the following entries.
domain
- required
The domain name for the network. Should be a valid domain name, or None
. Specifically for the upstream
network, this should match the domain portion of the node hostname.
network
The CIDR-formatted IPv4 address block for the network.
floating_ip
The CIDR-formatted IPv4 address for the floating IP within the network. This IP will belong exclusively to the primary
coordinator node to provide a central entrypoint for functionality on the cluster.
gateway
The IPv4 address for the gateway of the network. Usually applicable only to the upstream
network, as the other two are normally unrouted and local to the cluster.
coordinator
- optional
- requires
functions
→enable_networking
Configuration for coordinator functions on the node. Optional only if enable_networking
is False
. Not optional on non-coordinator hosts, though unused. Contains the following sub-entries.
dns
→ database
→ host
- required
The hostname of the PostgreSQL instance for the DNS aggregator database. Should always be localhost
except in advanced deployment scenarios.
dns
→ database
→ port
- required
The port of the PostgreSQL instance for the DNS aggregator database. Should always be 5432
.
dns
→ database
→ name
- required
The database name for the DNS aggregator database. Should always be pvcdns
.
dns
→ database
→ user
- required
The username for the PVC node daemon to access the DNS aggregator database.
dns
→ database
→ pass
- required
The password for the PVC node daemon to access the DNS aggregator database.
metadata
→ database
→ host
- required
The hostname of the PostgreSQL instance for the Provisioner database. Should always be localhost
except in advanced deployment scenarios.
metadata
→ database
→ port
- required
The port of the PostgreSQL instance for the Provisioner database. Should always be 5432
.
metadata
→ database
→ name
- required
The database name for the Provisioner database. Should always be pvcapi
.
metadata
→ database
→ user
- required
The username for the PVC node daemon to access the Provisioner database.
metadata
→ database
→ pass
- required
The password for the PVC node daemon to access the Provisioner database.
system
→ intervals
→ keepalive_interval
- required
The number of seconds between keepalive messages to the cluster. The default is 5 seconds; for slow cluster nodes, 10-30 seconds may be more appropriate however this will result in slower responses to changes in the cluster and less accurate/up-to-date information in the clients.
system
→ intervals
→ fence_intervals
- required
The number of keepalive messages that can be missed before a node is considered dead and the fencing cycle triggered on it. The default is 6, or 30 seconds of inactivity with a 5 second keepalive_interval
. Can be set to 0 to disable fencing as the timeout will never trigger.
system
→ intervals
→ suicide_intervals
- required
The number of keepalive message that can be missed before a node considers itself dead and forcibly resets itself. Note that, due to the large number of reasons a node could become unresponsive, the suicide interval alone should not be relied upon. The default is 0, which disables this functionality. If set, should usually be equal to or less than fence_intervals
for maximum safety.
system
→ fencing
→ actions
→ successful_fence
- required
The action to take regarding VMs once a node is successfully fenced, i.e. the IPMI command to restart the node reports a success. Can be one of migrate
, to migrate and start all failed VMs on other nodes and the default, or None
to perform no action.
system
→ fencing
→ actions
→ failed_fence
- required
The action to take regarding VMs once a node fencing fails, i.e. the IPMI command to restart the node reports a failure. Can be one of None
, to perform no action and the default, or migrate
to migrate and start all failed VMs on other nodes.
WARNING: This functionality is potentially dangerous and can result in data loss or corruption in the VM disks; the post-fence migration process explicitly clears RBD locks on the disk volumes. It is designed only for specific and advanced use-cases, such as servers that do not reliably report IPMI responses or servers without IPMI (not recommended; see the cluster architecture documentation). If this is set to migrate
, the suicide_intervals
must be set to provide at least some guarantee that the VMs on the node will actually be terminated before this condition triggers. The administrator should think very carefully about their setup and potential failure modes before enabling this option.
system
→ fencing
→ ipmi
→ host
- required
The hostname or IP address of this node's IPMI interface. Must be reachable from the nodes.
system
→ fencing
→ ipmi
→ user
- required
The username for the PVC node daemon to log in to the IPMI interface. Must have permission to reboot the host (command ipmitool chassis power reset
).
system
→ fencing
→ ipmi
→ pass
- required
The password for the PVC node daemon to log in to the IPMI interface.
system
→ migration
→ target_selector
- required
The selector algorithm to use when migrating hosts away from the node. Valid selector
values are: mem
: the node with the least allocated VM memory; vcpus
: the node with the least allocated VM vCPUs; load
: the node with the least current load average; vms
: the node with the least number of provisioned VMs.
system
→ configuration
→ directories
→ dynamic_directory
- required
The directory to store ephemeral configuration files. Usually /run/pvc
or a similar temporary directory.
system
→ configuration
→ directories
→ log_directory
- required
The directory to store log files for file_logging
. Usually /var/log/pvc
or a similar directory. Must be specified even if file_logging
is False
, though ignored.
system
→ configuration
→ directories
→ console_log_directory
- required
The directory to store VM console logs. Usually /var/log/libvirt
or a similar directory.
system
→ configuration
→ logging
→ file_logging
- required
Whether to enable direct logging to a file in log_directory
or not.
system
→ configuration
→ logging
→ stdout_logging
- required
Whether to enable logging to stdout or not; captured by SystemD and JournalD by default.
system
→ configuration
→ logging
→ log_colours
- required
Whether to log ANSI colour sequences in the log output or not.
system
→ configuration
→ logging
→ log_dates
- required
Whether to log the current date and time in the log output or not.
system
→ configuration
→ logging
→ log_keepalives
- required
Whether to log keepalive messages or not.
system
→ configuration
→ logging
→ log_keepalive_cluster_details
- required
Whether to log node status information during keepalives or not.
system
→ configuration
→ logging
→ log_keepalive_storage_details
- required
Whether to log storage cluster status information during keepalives or not.
system
→ configuration
→ logging
→ console_log_lines
- required
How many lines of VM console logs to keep in the Zookeeper database for each VM.
system
→ configuration
→ networking
→ bridge_device
- optional
- requires
functions
→enable_networking
The network interface device used to create Bridged client network vLANs on. For most clusters, should match the underlying device of the various static networks (e.g. ens4
or bond0
), though may also use a separate network interface.
system
→ configuration
→ networking
→ bridge_mtu
- optional
- requires
functions
→enable_networking
The network interface MTU for the Bridged client network device. This is the maximum MTU a bridged client network can use.
system
→ configuration
→ networking
→ sriov_enable
- optional, defaults to
False
- requires
functions
→enable_networking
Enables (or disables) SR-IOV functionality in PVC. If enabled, at least one sriov_device
entry should be specified.
system
→ configuration
→ networking
→ sriov_device
- optional
- requires
functions
→enable_networking
Contains a list of SR-IOV PF (physical function) devices and their basic configuration. Each element contains the following entries:
phy
:
- required
The raw Linux network device with SR-IOV PF functionality.
mtu
The MTU of the PF device, set on daemon startup.
vfcount
The number of VF devices to create on this PF. VF devices are then managed via PVC on a per-node basis.
system
→ configuration
→ networking
- optional
- requires
functions
→enable_networking
Contains a dictionary of networks and their configurations on this node. Optional only if enable_networking
is False
. The three required network types/names are upstream
, cluster
, and storage
. Each network type contains the following entries.
device
- required
The raw Linux network device that the network exists on.
mtu
- required
The MTU of the network device.
address
- required
The IPv4 address of the interface. Can be one of: None
, for no IP address; by-id
, to automatically select an address in the relevant networks
section via the host ID (e.g. node1 will get .1
, node2 will get .2
, etc.); or a static CIDR-formatted IP address.