Documentation ¶
Overview ¶
Package praefect is a Gitaly reverse proxy for transparently routing gRPC calls to a set of Gitaly services.
Index ¶
- Variables
- func DeleteObjectPoolHandler(rs datastore.RepositoryStore, conns Connections) grpc.StreamHandler
- func NewBackchannelServerFactory(logger *logrus.Entry, refSvc gitalypb.RefTransactionServer, ...) backchannel.ServerFactory
- func NewGRPCServer(conf config.Config, logger *logrus.Entry, registry *protoregistry.Registry, ...) *grpc.Server
- func RemoveAllHandler(rs datastore.RepositoryStore, conns Connections) grpc.StreamHandler
- func RemoveRepositoryHandler(rs datastore.RepositoryStore, conns Connections) grpc.StreamHandler
- func RenameRepositoryHandler(virtualStoragesNames []string, rs datastore.RepositoryStore) grpc.StreamHandler
- func RepositoryExistsHandler(rs datastore.RepositoryStore) grpc.StreamHandler
- func RunPraefectServer(tb testing.TB, ctx context.Context, conf config.Config, opt BuildOptions) (*grpc.ClientConn, *grpc.Server, testhelper.Cleanup)
- func WithDelayMetric(h prommetrics.HistogramVec) func(*ReplMgr)
- func WithDequeueBatchSize(size uint) func(*ReplMgr)
- func WithLatencyMetric(h prommetrics.HistogramVec) func(*ReplMgr)
- func WithMockBackends(tb testing.TB, backendRegistrars map[string]func(*grpc.Server)) func([]*config.VirtualStorage) []testhelper.Cleanup
- func WithParallelStorageProcessingWorkers(n uint) func(*ReplMgr)
- type AssignmentGetter
- type AssignmentStore
- type Backoff
- type BackoffFactory
- type BackoffReset
- type BuildOptions
- type Connections
- type Coordinator
- type ExpBackoffFactory
- type HealthChecker
- type MetadataVerifier
- func (v *MetadataVerifier) Collect(ch chan<- prometheus.Metric)
- func (v *MetadataVerifier) Describe(ch chan<- *prometheus.Desc)
- func (v *MetadataVerifier) Run(ctx context.Context, ticker helper.Ticker) error
- func (v *MetadataVerifier) RunExpiredLeaseReleaser(ctx context.Context, ticker helper.Ticker) error
- type Node
- type NodeSet
- type PerRepositoryRouter
- func (r *PerRepositoryRouter) RouteRepositoryAccessor(ctx context.Context, virtualStorage, relativePath string, forcePrimary bool) (RepositoryAccessorRoute, error)
- func (r *PerRepositoryRouter) RouteRepositoryCreation(ctx context.Context, ...) (RepositoryMutatorRoute, error)
- func (r *PerRepositoryRouter) RouteRepositoryMaintenance(ctx context.Context, virtualStorage, relativePath string) (RepositoryMaintenanceRoute, error)
- func (r *PerRepositoryRouter) RouteRepositoryMutator(ctx context.Context, ...) (RepositoryMutatorRoute, error)
- func (r *PerRepositoryRouter) RouteStorageAccessor(ctx context.Context, virtualStorage string) (RouterNode, error)
- func (r *PerRepositoryRouter) RouteStorageMutator(ctx context.Context, virtualStorage string) (StorageMutatorRoute, error)
- type PrimaryGetter
- type Random
- type ReplMgr
- func (r ReplMgr) Collect(ch chan<- prometheus.Metric)
- func (r ReplMgr) Describe(ch chan<- *prometheus.Desc)
- func (r ReplMgr) ProcessBacklog(ctx context.Context, b BackoffFactory)
- func (r ReplMgr) ProcessReplicationEvent(ctx context.Context, event datastore.ReplicationEvent, ...) error
- func (r ReplMgr) ProcessStale(ctx context.Context, ticker helper.Ticker, staleAfter time.Duration) chan struct{}
- type ReplMgrOpt
- type Replicator
- type RepositoryAccessorRoute
- type RepositoryMaintenanceRoute
- type RepositoryMutatorRoute
- type Router
- type RouterNode
- type ServerFactory
- type StaticHealthChecker
- type StorageMutatorRoute
Constants ¶
This section is empty.
Variables ¶
var ErrNoHealthyNodes = errors.New("no healthy nodes")
ErrNoHealthyNodes is returned when there are no healthy nodes to serve a request.
var ErrNoSuitableNode = errors.New("no suitable node to serve the request")
ErrNoSuitableNode is returned when there is not suitable node to serve a request.
var ErrRepositoryReadOnly = structerr.NewFailedPrecondition("repository is in read-only mode")
ErrRepositoryReadOnly is returned when the repository is in read-only mode. This happens if the primary does not have the latest changes.
Functions ¶
func DeleteObjectPoolHandler ¶
func DeleteObjectPoolHandler(rs datastore.RepositoryStore, conns Connections) grpc.StreamHandler
DeleteObjectPoolHandler intercepts DeleteObjectPool calls, deletes the database records and deletes the object pool from every backing Gitaly node.
func NewBackchannelServerFactory ¶
func NewBackchannelServerFactory(logger *logrus.Entry, refSvc gitalypb.RefTransactionServer, registry *sidechannel.Registry) backchannel.ServerFactory
NewBackchannelServerFactory returns a ServerFactory that serves the RefTransactionServer on the backchannel connection.
func NewGRPCServer ¶
func NewGRPCServer( conf config.Config, logger *logrus.Entry, registry *protoregistry.Registry, director proxy.StreamDirector, txMgr *transactions.Manager, rs datastore.RepositoryStore, assignmentStore AssignmentStore, conns Connections, primaryGetter PrimaryGetter, creds credentials.TransportCredentials, checks []service.CheckFunc, grpcOpts ...grpc.ServerOption, ) *grpc.Server
NewGRPCServer returns gRPC server with registered proxy-handler and actual services praefect serves on its own. It includes a set of unary and stream interceptors required to add logging, authentication, etc.
func RemoveAllHandler ¶
func RemoveAllHandler(rs datastore.RepositoryStore, conns Connections) grpc.StreamHandler
RemoveAllHandler intercepts RemoveAll calls, deletes the database records before calling each gitaly.
func RemoveRepositoryHandler ¶
func RemoveRepositoryHandler(rs datastore.RepositoryStore, conns Connections) grpc.StreamHandler
RemoveRepositoryHandler intercepts RemoveRepository calls, deletes the database records and deletes the repository from every backing Gitaly node.
func RenameRepositoryHandler ¶
func RenameRepositoryHandler(virtualStoragesNames []string, rs datastore.RepositoryStore) grpc.StreamHandler
RenameRepositoryHandler handles /gitaly.RepositoryService/RenameRepository calls by renaming the repository in the lookup table stored in the database.
func RepositoryExistsHandler ¶
func RepositoryExistsHandler(rs datastore.RepositoryStore) grpc.StreamHandler
RepositoryExistsHandler handles /gitaly.RepositoryService/RepositoryExists calls by checking whether there is a record of the repository in the database.
func RunPraefectServer ¶
func RunPraefectServer( tb testing.TB, ctx context.Context, conf config.Config, opt BuildOptions, ) (*grpc.ClientConn, *grpc.Server, testhelper.Cleanup)
RunPraefectServer starts praefect service based on the passed in configuration and options. The caller is responsible to call returned testhelper.Cleanup in order to stop the service and release all acquired resources. The function should be used only for testing purposes and not as part of the production code.
func WithDelayMetric ¶
func WithDelayMetric(h prommetrics.HistogramVec) func(*ReplMgr)
WithDelayMetric is an option to set the delay prometheus metric
func WithDequeueBatchSize ¶
WithDequeueBatchSize configures the number of events to dequeue in a single batch.
func WithLatencyMetric ¶
func WithLatencyMetric(h prommetrics.HistogramVec) func(*ReplMgr)
WithLatencyMetric is an option to set the latency prometheus metric
func WithMockBackends ¶
func WithMockBackends(tb testing.TB, backendRegistrars map[string]func(*grpc.Server)) func([]*config.VirtualStorage) []testhelper.Cleanup
WithMockBackends mocks backends with a set of passed in functions that know to register a gRPC server.
func WithParallelStorageProcessingWorkers ¶
WithParallelStorageProcessingWorkers configures the number of workers used to process replication events per virtual storage.
Types ¶
type AssignmentGetter ¶
type AssignmentGetter interface { // GetHostAssignments returns the names of the storages assigned to host the repository. // The primary node must always be assigned. GetHostAssignments(ctx context.Context, virtualStorage string, repositoryID int64) ([]string, error) }
AssignmentGetter is an interface for getting repository host node assignments.
type AssignmentStore ¶
type AssignmentStore interface { AssignmentGetter // SetReplicationFactor sets a repository's replication factor to the desired value and returns the // resulting assignments. SetReplicationFactor(ctx context.Context, virtualStorage, relativePath string, replicationFactor int) ([]string, error) }
AssignmentStore is the interface which Praefect uses to operate on repository assignments.
func NewDisabledAssignmentStore ¶
func NewDisabledAssignmentStore(storages map[string][]string) AssignmentStore
NewDisabledAssignmentStore returns an assignments store that can be used if no database is configured. It returns every configured storage as assigned and errors when trying to set assignments.
type BackoffFactory ¶
type BackoffFactory interface { // Create return new backoff provider and a reset function for it. Create() (Backoff, BackoffReset) }
BackoffFactory creates backoff function and a reset pair for it.
type BuildOptions ¶
type BuildOptions struct { // WithQueue sets an implementation of the replication queue to use by praefect service. WithQueue datastore.ReplicationEventQueue // WithTxMgr sets the transaction manager to use by praefect service. WithTxMgr *transactions.Manager // WithBackends sets a callback that is triggered during initialization. WithBackends func([]*config.VirtualStorage) []testhelper.Cleanup // WithAnnotations sets a proto-registry to use by praefect service. WithAnnotations *protoregistry.Registry // WithLogger sets a logger to use by praefect service. WithLogger *logrus.Entry // WithNodeMgr sets an implementation of the node manager to use by praefect service. WithNodeMgr nodes.Manager // WithRepoStore sets an implementation of the repositories store to use by praefect service. WithRepoStore datastore.RepositoryStore // WithAssignmentStore sets an implementation of the repositories store to use by praefect service. WithAssignmentStore AssignmentStore // WithConnections sets a set of connections to gitalies. WithConnections Connections // WithPrimaryGetter sets an implementation of the primary node getter to use by praefect service. WithPrimaryGetter PrimaryGetter // WithRouter sets an implementation of the request router to use by praefect service. WithRouter Router // WithChecks sets a list of check to run when ReadinessCheck RPC is called. WithChecks []service.CheckFunc }
BuildOptions is a set of configurations options that can be set to configure praefect service.
type Connections ¶
type Connections map[string]map[string]*grpc.ClientConn
Connections is a set of connections to configured storage nodes by their virtual storages.
type Coordinator ¶
type Coordinator struct {
// contains filtered or unexported fields
}
Coordinator takes care of directing client requests to the appropriate downstream server. The coordinator is thread safe; concurrent calls to register nodes are safe.
func NewCoordinator ¶
func NewCoordinator( queue datastore.ReplicationEventQueue, rs datastore.RepositoryStore, router Router, txMgr *transactions.Manager, conf config.Config, r *protoregistry.Registry, ) *Coordinator
NewCoordinator returns a new Coordinator that utilizes the provided logger
func (*Coordinator) Collect ¶
func (c *Coordinator) Collect(metrics chan<- prometheus.Metric)
func (*Coordinator) Describe ¶
func (c *Coordinator) Describe(descs chan<- *prometheus.Desc)
func (*Coordinator) StreamDirector ¶
func (c *Coordinator) StreamDirector(ctx context.Context, fullMethodName string, peeker proxy.StreamPeeker) (*proxy.StreamParameters, error)
StreamDirector determines which downstream servers receive requests
type ExpBackoffFactory ¶
ExpBackoffFactory creates exponentially growing durations.
func (ExpBackoffFactory) Create ¶
func (b ExpBackoffFactory) Create() (Backoff, BackoffReset)
Create returns a backoff function based on Start and Max time durations.
type HealthChecker ¶
type HealthChecker interface { // HealthyNodes gets a list of healthy storages by their virtual storage. HealthyNodes() map[string][]string }
HealthChecker manages information of locally healthy nodes.
type MetadataVerifier ¶
type MetadataVerifier struct {
// contains filtered or unexported fields
}
MetadataVerifier verifies the repository metadata against the actual replicas on the Gitaly nodes. It queries the database for replicas that haven't been verified in a given time and checks whether the Gitalys still have them. If a Gitaly doesn't have a replica, the replica's metadata record is removed and the removal logged. The repository's record is still left in place even if all of the replicas are lost to ensure the data loss doesn't go unnoticed.
func NewMetadataVerifier ¶
func NewMetadataVerifier( log logrus.FieldLogger, db glsql.Querier, conns Connections, healthChecker HealthChecker, verificationInterval time.Duration, performDeletions bool, ) *MetadataVerifier
NewMetadataVerifier creates a new MetadataVerifier.
func (*MetadataVerifier) Collect ¶
func (v *MetadataVerifier) Collect(ch chan<- prometheus.Metric)
Collect collects the metrics exposed from the MetadataVerifier.
func (*MetadataVerifier) Describe ¶
func (v *MetadataVerifier) Describe(ch chan<- *prometheus.Desc)
Describe describes the collected metrics to Prometheus.
func (*MetadataVerifier) Run ¶
Run runs the metadata verifier. It keeps running until the context is canceled.
func (*MetadataVerifier) RunExpiredLeaseReleaser ¶
RunExpiredLeaseReleaser releases expired leases on every tick. It keeps running until the context is canceled.
type Node ¶
type Node struct { // Storage is the name of the storage node. Storage string // Address is the address of the node. Address string // Token is the authentication token of the node. Token string // Connection is a gRPC connection to the storage node. Connection *grpc.ClientConn }
Node is a storage node in a virtual storage.
type NodeSet ¶
NodeSet contains nodes by their virtual storage and storage names.
func DialNodes ¶
func DialNodes( ctx context.Context, virtualStorages []*config.VirtualStorage, registry *protoregistry.Registry, errorTracker tracker.ErrorTracker, handshaker client.Handshaker, sidechannelRegistry *sidechannel.Registry, ) (NodeSet, error)
DialNodes dials the configured storage nodes.
func NodeSetFromNodeManager ¶
NodeSetFromNodeManager converts connections set up by the node manager in to a NodeSet. This is a temporary adapter required due to cyclic imports between the praefect and nodes packages.
func (NodeSet) Close ¶
func (set NodeSet) Close()
Close closes the connections in the NodeSet. Errors on closing are ignored.
func (NodeSet) Connections ¶
func (set NodeSet) Connections() Connections
Connections is a convenience method to return the connections from the NodeSet.
func (NodeSet) HealthClients ¶
func (set NodeSet) HealthClients() nodes.HealthClients
HealthClients is a convenience method to return the HealthClients from the NodeSet.
type PerRepositoryRouter ¶
type PerRepositoryRouter struct {
// contains filtered or unexported fields
}
PerRepositoryRouter implements a router that routes requests respecting per repository primary nodes.
func NewPerRepositoryRouter ¶
func NewPerRepositoryRouter( conns Connections, pg PrimaryGetter, hc HealthChecker, rand Random, csg datastore.ConsistentStoragesGetter, ag AssignmentGetter, rs datastore.RepositoryStore, defaultReplicationFactors map[string]int, ) *PerRepositoryRouter
NewPerRepositoryRouter returns a new PerRepositoryRouter using the passed configuration.
func (*PerRepositoryRouter) RouteRepositoryAccessor ¶
func (r *PerRepositoryRouter) RouteRepositoryAccessor(ctx context.Context, virtualStorage, relativePath string, forcePrimary bool) (RepositoryAccessorRoute, error)
func (*PerRepositoryRouter) RouteRepositoryCreation ¶
func (r *PerRepositoryRouter) RouteRepositoryCreation(ctx context.Context, virtualStorage, relativePath, additionalRelativePath string) (RepositoryMutatorRoute, error)
RouteRepositoryCreation routes an incoming repository creation to a set of target nodes that will be designated to hold the new repository.
func (*PerRepositoryRouter) RouteRepositoryMaintenance ¶
func (r *PerRepositoryRouter) RouteRepositoryMaintenance(ctx context.Context, virtualStorage, relativePath string) (RepositoryMaintenanceRoute, error)
RouteRepositoryMaintenance will route the maintenance call to all healthy nodes in a best-effort strategy. We do not raise an error in case the primary node is unhealthy, but will in case all nodes are unhealthy.
func (*PerRepositoryRouter) RouteRepositoryMutator ¶
func (r *PerRepositoryRouter) RouteRepositoryMutator(ctx context.Context, virtualStorage, relativePath, additionalRelativePath string) (RepositoryMutatorRoute, error)
func (*PerRepositoryRouter) RouteStorageAccessor ¶
func (r *PerRepositoryRouter) RouteStorageAccessor(ctx context.Context, virtualStorage string) (RouterNode, error)
RouteStorageAccessor routes requests for storage-scoped accessor RPCs. The only storage scoped accessor RPC is RemoteService/FindRemoteRepository, which in turn executes a command without a repository. This can be done by any Gitaly server as it doesn't depend on the state on the server.
func (*PerRepositoryRouter) RouteStorageMutator ¶
func (r *PerRepositoryRouter) RouteStorageMutator(ctx context.Context, virtualStorage string) (StorageMutatorRoute, error)
RouteStorageMutator is not implemented here. The only storage scoped mutator RPC is related to namespace operations. These are not relevant anymore, given hashed storage is default everywhere, and should be eventually removed.
type PrimaryGetter ¶
type PrimaryGetter interface { // GetPrimary returns the primary storage for a given repository. GetPrimary(ctx context.Context, virtualStorage string, repositoryID int64) (string, error) }
PrimaryGetter is an interface for getting a primary of a repository.
type Random ¶
type Random interface { // Intn returns a random integer in the range [0,n). Intn(n int) int // Shuffle pseudo-randomizes the order of elements. n is the number of elements. // Shuffle panics if n < 0. swap swaps the elements with indexes i and j. Shuffle(n int, swap func(i, j int)) }
Random is the interface of the Go random number generator.
func NewLockedRandom ¶
NewLockedRandom wraps the passed in Random to make it safe for concurrent use.
type ReplMgr ¶
type ReplMgr struct {
// contains filtered or unexported fields
}
ReplMgr is a replication manager for handling replication jobs
func NewReplMgr ¶
func NewReplMgr(log logrus.FieldLogger, storageNames map[string][]string, queue datastore.ReplicationEventQueue, rs datastore.RepositoryStore, hc HealthChecker, nodes NodeSet, opts ...ReplMgrOpt) ReplMgr
NewReplMgr initializes a replication manager with the provided dependencies and options
func (ReplMgr) Collect ¶
func (r ReplMgr) Collect(ch chan<- prometheus.Metric)
func (ReplMgr) Describe ¶
func (r ReplMgr) Describe(ch chan<- *prometheus.Desc)
func (ReplMgr) ProcessBacklog ¶
func (r ReplMgr) ProcessBacklog(ctx context.Context, b BackoffFactory)
ProcessBacklog starts processing of queued jobs. It will be processing jobs until ctx is Done. ProcessBacklog blocks until all backlog processing goroutines have returned
func (ReplMgr) ProcessReplicationEvent ¶
func (r ReplMgr) ProcessReplicationEvent(ctx context.Context, event datastore.ReplicationEvent, targetCC *grpc.ClientConn) error
ProcessReplicationEvent processes a single replication event given the target client connection
type ReplMgrOpt ¶
type ReplMgrOpt func(*ReplMgr)
ReplMgrOpt allows a replicator to be configured with additional options
type Replicator ¶
type Replicator interface { // Replicate propagates changes from the source to the target Replicate(ctx context.Context, event datastore.ReplicationEvent, source, target *grpc.ClientConn) error // Destroy will remove the target repo on the specified target connection Destroy(ctx context.Context, event datastore.ReplicationEvent, target *grpc.ClientConn) error // Rename will rename(move) the target repo on the specified target connection Rename(ctx context.Context, event datastore.ReplicationEvent, target *grpc.ClientConn) error }
Replicator performs the actual replication logic between two nodes
type RepositoryAccessorRoute ¶
type RepositoryAccessorRoute struct { // ReplicaPath is the disk path where the replicas are stored. ReplicaPath string // Node contains the details of the node that should handle the request. Node RouterNode }
RepositoryAccessorRoute describes how to route a repository scoped accessor call.
type RepositoryMaintenanceRoute ¶
type RepositoryMaintenanceRoute struct { // RepositoryID is the repository's ID as Praefect identifies it. RepositoryID int64 // ReplicaPath is the disk path where the replicas are stored. ReplicaPath string // Nodes contains all the nodes the call should be routed to. Nodes []RouterNode }
RepositoryMaintenanceRoute describes how to route a repository scoped maintenance call.
type RepositoryMutatorRoute ¶
type RepositoryMutatorRoute struct { // RepositoryID is the repository's ID as Praefect identifies it. RepositoryID int64 // ReplicaPath is the disk path where the replicas are stored. ReplicaPath string // AdditionalReplicaPath is the disk path where the possible additional repository in the request // is stored. This is only used for object pools. AdditionalReplicaPath string // Primary is the primary node of the transaction. Primary RouterNode // Secondaries are the secondary participating in a transaction. Secondaries []RouterNode // ReplicationTargets are additional nodes that do not participate in a transaction // but need the changes replicated. ReplicationTargets []string }
RepositoryMutatorRoute describes how to route a repository scoped mutator call.
type Router ¶
type Router interface { // RouteStorageAccessor returns the node which should serve the storage accessor request. RouteStorageAccessor(ctx context.Context, virtualStorage string) (RouterNode, error) // RouteStorageMutator returns a route to primary and secondary nodes that should handle the // storage mutator request. RouteStorageMutator(ctx context.Context, virtualStorage string) (StorageMutatorRoute, error) // RouteRepositoryAccessor returns the node that should serve the repository accessor // request. If forcePrimary is set to `true`, it returns the primary node. RouteRepositoryAccessor(ctx context.Context, virtualStorage, relativePath string, forcePrimary bool) (RepositoryAccessorRoute, error) // RouteRepositoryMutator returns a route to primary and secondary nodes that should handle the // repository mutator request. Additionally, it returns nodes which do not participate in the // transaction, but to which the change should be replicated. RouteRepositoryMutator should only // be used with existing repositories. RouteRepositoryMutator(ctx context.Context, virtualStorage, relativePath, additionalRepoRelativePath string) (RepositoryMutatorRoute, error) // RouteRepositoryCreation decides returns the primary and secondaries that should handle the repository creation // request. It is up to the caller to store the assignments and primary information after finishing the RPC. RouteRepositoryCreation(ctx context.Context, virtualStorage, relativePath, additionalRepoRelativePath string) (RepositoryMutatorRoute, error) // RouteRepositoryMaintenance routes the given maintenance-style RPC to all nodes which // should perform maintenance. This would typically include all online nodes, regardless of // whether the repository hosted by them is up-to-date or not. Maintenance tasks should // never be replicated. RouteRepositoryMaintenance(ctx context.Context, virtualStorage, relativePath string) (RepositoryMaintenanceRoute, error) }
Router decides which nodes to direct accessor and mutator RPCs to.
func NewNodeManagerRouter ¶
func NewNodeManagerRouter(mgr nodes.Manager, rs datastore.RepositoryStore) Router
NewNodeManagerRouter returns a router that uses the NodeManager to make routing decisions.
type RouterNode ¶
type RouterNode struct { // Storage is storage of the node. Storage string // Connection is the connection to the node. Connection *grpc.ClientConn }
RouterNode is a subset of a node's configuration needed to perform request routing.
type ServerFactory ¶
type ServerFactory struct {
// contains filtered or unexported fields
}
ServerFactory is a factory of praefect grpc servers
func NewServerFactory ¶
func NewServerFactory( conf config.Config, logger *logrus.Entry, director proxy.StreamDirector, nodeMgr nodes.Manager, txMgr *transactions.Manager, queue datastore.ReplicationEventQueue, rs datastore.RepositoryStore, assignmentStore AssignmentStore, registry *protoregistry.Registry, conns Connections, primaryGetter PrimaryGetter, checks []service.CheckFunc, ) *ServerFactory
NewServerFactory returns factory object for initialization of praefect gRPC servers.
func (*ServerFactory) Create ¶
func (s *ServerFactory) Create(secure bool) (*grpc.Server, error)
Create returns newly instantiated and initialized with interceptors instance of the gRPC server.
func (*ServerFactory) GracefulStop ¶
func (s *ServerFactory) GracefulStop()
GracefulStop stops both the secure and insecure servers gracefully.
func (*ServerFactory) Serve ¶
func (s *ServerFactory) Serve(l net.Listener, secure bool) error
Serve starts serving on the provided listener with newly created grpc.Server
func (*ServerFactory) Stop ¶
func (s *ServerFactory) Stop()
Stop stops all servers created by the factory.
type StaticHealthChecker ¶
StaticHealthChecker returns the nodes as always healthy.
func (StaticHealthChecker) HealthyNodes ¶
func (healthyNodes StaticHealthChecker) HealthyNodes() map[string][]string
type StorageMutatorRoute ¶
type StorageMutatorRoute struct { // Primary is the primary node of the routing decision. Primary RouterNode // Secondaries are the secondary nodes of the routing decision. Secondaries []RouterNode }
StorageMutatorRoute describes how to route a storage scoped mutator call.
Source Files ¶
Directories ¶
Path | Synopsis |
---|---|
Package commonerr contains common errors between different Praefect components.
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Package commonerr contains common errors between different Praefect components. |
Package datastore provides data models and datastore persistence abstractions for tracking the state of repository replicas.
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Package datastore provides data models and datastore persistence abstractions for tracking the state of repository replicas. |
advisorylock
Package advisorylock contains the lock IDs of all advisory locks used in Praefect.
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Package advisorylock contains the lock IDs of all advisory locks used in Praefect. |
glsql
Package glsql (Gitaly SQL) is a helper package to work with plain SQL queries.
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Package glsql (Gitaly SQL) is a helper package to work with plain SQL queries. |