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data.go
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package meta
import (
"sort"
"time"
"github.com/gogo/protobuf/proto"
"github.com/influxdb/influxdb/influxql"
"github.com/influxdb/influxdb/meta/internal"
)
//go:generate protoc --gogo_out=. internal/meta.proto
const (
// DefaultRetentionPolicyReplicaN is the default value of RetentionPolicyInfo.ReplicaN.
DefaultRetentionPolicyReplicaN = 1
// DefaultRetentionPolicyDuration is the default value of RetentionPolicyInfo.Duration.
DefaultRetentionPolicyDuration = 7 * (24 * time.Hour)
// MinRetentionPolicyDuration represents the minimum duration for a policy.
MinRetentionPolicyDuration = time.Hour
)
// Data represents the top level collection of all metadata.
type Data struct {
Term uint64 // associated raft term
Index uint64 // associated raft index
ClusterID uint64
Nodes []NodeInfo
Databases []DatabaseInfo
Users []UserInfo
MaxNodeID uint64
MaxShardGroupID uint64
MaxShardID uint64
}
// Node returns a node by id.
func (data *Data) Node(id uint64) *NodeInfo {
for i := range data.Nodes {
if data.Nodes[i].ID == id {
return &data.Nodes[i]
}
}
return nil
}
// NodeByHost returns a node by hostname.
func (data *Data) NodeByHost(host string) *NodeInfo {
for i := range data.Nodes {
if data.Nodes[i].Host == host {
return &data.Nodes[i]
}
}
return nil
}
// CreateNode adds a node to the metadata.
func (data *Data) CreateNode(host string) error {
// Ensure a node with the same host doesn't already exist.
if data.NodeByHost(host) != nil {
return ErrNodeExists
}
// Append new node.
data.MaxNodeID++
data.Nodes = append(data.Nodes, NodeInfo{
ID: data.MaxNodeID,
Host: host,
})
return nil
}
// DeleteNode removes a node from the metadata.
func (data *Data) DeleteNode(id uint64) error {
for i := range data.Nodes {
if data.Nodes[i].ID == id {
data.Nodes = append(data.Nodes[:i], data.Nodes[i+1:]...)
return nil
}
}
return ErrNodeNotFound
}
// Database returns a database by name.
func (data *Data) Database(name string) *DatabaseInfo {
for i := range data.Databases {
if data.Databases[i].Name == name {
return &data.Databases[i]
}
}
return nil
}
// CreateDatabase creates a new database.
// Returns an error if name is blank or if a database with the same name already exists.
func (data *Data) CreateDatabase(name string) error {
if name == "" {
return ErrDatabaseNameRequired
} else if data.Database(name) != nil {
return ErrDatabaseExists
}
// Append new node.
data.Databases = append(data.Databases, DatabaseInfo{Name: name})
return nil
}
// DropDatabase removes a database by name.
func (data *Data) DropDatabase(name string) error {
for i := range data.Databases {
if data.Databases[i].Name == name {
data.Databases = append(data.Databases[:i], data.Databases[i+1:]...)
return nil
}
}
return ErrDatabaseNotFound
}
// RetentionPolicy returns a retention policy for a database by name.
func (data *Data) RetentionPolicy(database, name string) (*RetentionPolicyInfo, error) {
di := data.Database(database)
if di == nil {
return nil, ErrDatabaseNotFound
}
for i := range di.RetentionPolicies {
if di.RetentionPolicies[i].Name == name {
return &di.RetentionPolicies[i], nil
}
}
return nil, ErrRetentionPolicyNotFound
}
// CreateRetentionPolicy creates a new retention policy on a database.
// Returns an error if name is blank or if a database does not exist.
func (data *Data) CreateRetentionPolicy(database string, rpi *RetentionPolicyInfo) error {
// Validate retention policy.
if rpi.Name == "" {
return ErrRetentionPolicyNameRequired
} else if rpi.ReplicaN != len(data.Nodes) {
return ErrReplicationFactorMismatch
}
// Find database.
di := data.Database(database)
if di == nil {
return ErrDatabaseNotFound
} else if di.RetentionPolicy(rpi.Name) != nil {
return ErrRetentionPolicyExists
}
// Append new policy.
di.RetentionPolicies = append(di.RetentionPolicies, RetentionPolicyInfo{
Name: rpi.Name,
Duration: rpi.Duration,
ShardGroupDuration: shardGroupDuration(rpi.Duration),
ReplicaN: rpi.ReplicaN,
})
return nil
}
// DropRetentionPolicy removes a retention policy from a database by name.
func (data *Data) DropRetentionPolicy(database, name string) error {
// Find database.
di := data.Database(database)
if di == nil {
return ErrDatabaseNotFound
}
// Remove from list.
for i := range di.RetentionPolicies {
if di.RetentionPolicies[i].Name == name {
di.RetentionPolicies = append(di.RetentionPolicies[:i], di.RetentionPolicies[i+1:]...)
return nil
}
}
return ErrRetentionPolicyNotFound
}
// UpdateRetentionPolicy updates an existing retention policy.
func (data *Data) UpdateRetentionPolicy(database, name string, rpu *RetentionPolicyUpdate) error {
// Find database.
di := data.Database(database)
if di == nil {
return ErrDatabaseNotFound
}
// Find policy.
rpi := di.RetentionPolicy(name)
if rpi == nil {
return ErrRetentionPolicyNotFound
}
// Ensure new policy doesn't match an existing policy.
if rpu.Name != nil && *rpu.Name != name && di.RetentionPolicy(*rpu.Name) != nil {
return ErrRetentionPolicyNameExists
}
// Enforce duration of at least MinRetentionPolicyDuration
if rpu.Duration != nil && *rpu.Duration < MinRetentionPolicyDuration && *rpu.Duration != 0 {
return ErrRetentionPolicyDurationTooLow
}
// Update fields.
if rpu.Name != nil {
rpi.Name = *rpu.Name
}
if rpu.Duration != nil {
rpi.Duration = *rpu.Duration
}
if rpu.ReplicaN != nil {
rpi.ReplicaN = *rpu.ReplicaN
}
return nil
}
// SetDefaultRetentionPolicy sets the default retention policy for a database.
func (data *Data) SetDefaultRetentionPolicy(database, name string) error {
// Find database and verify policy exists.
di := data.Database(database)
if di == nil {
return ErrDatabaseNotFound
} else if di.RetentionPolicy(name) == nil {
return ErrRetentionPolicyNotFound
}
// Set default policy.
di.DefaultRetentionPolicy = name
return nil
}
// ShardGroup returns a list of all shard groups on a database and policy.
func (data *Data) ShardGroups(database, policy string) ([]ShardGroupInfo, error) {
// Find retention policy.
rpi, err := data.RetentionPolicy(database, policy)
if err != nil {
return nil, err
} else if rpi == nil {
return nil, ErrRetentionPolicyNotFound
}
groups := make([]ShardGroupInfo, 0, len(rpi.ShardGroups))
for _, g := range rpi.ShardGroups {
if g.Deleted() {
continue
}
groups = append(groups, g)
}
return groups, nil
}
// ShardGroupsByTimeRange returns a list of all shard groups on a database and policy that may contain data
// for the specified time range. Shard groups are sorted by start time.
func (data *Data) ShardGroupsByTimeRange(database, policy string, tmin, tmax time.Time) ([]ShardGroupInfo, error) {
// Find retention policy.
rpi, err := data.RetentionPolicy(database, policy)
if err != nil {
return nil, err
} else if rpi == nil {
return nil, ErrRetentionPolicyNotFound
}
groups := make([]ShardGroupInfo, 0, len(rpi.ShardGroups))
for _, g := range rpi.ShardGroups {
if g.Deleted() || !g.Overlaps(tmin, tmax) {
continue
}
groups = append(groups, g)
}
sort.Sort(ShardGroupInfos(groups))
return groups, nil
}
// ShardGroupByTimestamp returns the shard group on a database and policy for a given timestamp.
func (data *Data) ShardGroupByTimestamp(database, policy string, timestamp time.Time) (*ShardGroupInfo, error) {
// Find retention policy.
rpi, err := data.RetentionPolicy(database, policy)
if err != nil {
return nil, err
} else if rpi == nil {
return nil, ErrRetentionPolicyNotFound
}
return rpi.ShardGroupByTimestamp(timestamp), nil
}
// CreateShardGroup creates a shard group on a database and policy for a given timestamp.
func (data *Data) CreateShardGroup(database, policy string, timestamp time.Time) error {
// Ensure there are nodes in the metadata.
if len(data.Nodes) == 0 {
return ErrNodesRequired
}
// Find retention policy.
rpi, err := data.RetentionPolicy(database, policy)
if err != nil {
return err
} else if rpi == nil {
return ErrRetentionPolicyNotFound
}
// Verify that shard group doesn't already exist for this timestamp.
if rpi.ShardGroupByTimestamp(timestamp) != nil {
return ErrShardGroupExists
}
// Require at least one replica but no more replicas than nodes.
replicaN := rpi.ReplicaN
if replicaN == 0 {
replicaN = 1
} else if replicaN > len(data.Nodes) {
replicaN = len(data.Nodes)
}
// Determine shard count by node count divided by replication factor.
// This will ensure nodes will get distributed across nodes evenly and
// replicated the correct number of times.
shardN := len(data.Nodes) / replicaN
// Create the shard group.
data.MaxShardGroupID++
sgi := ShardGroupInfo{}
sgi.ID = data.MaxShardGroupID
sgi.StartTime = timestamp.Truncate(rpi.ShardGroupDuration).UTC()
sgi.EndTime = sgi.StartTime.Add(rpi.ShardGroupDuration).UTC()
// Create shards on the group.
sgi.Shards = make([]ShardInfo, shardN)
for i := range sgi.Shards {
data.MaxShardID++
sgi.Shards[i] = ShardInfo{ID: data.MaxShardID}
}
// Assign data nodes to shards via round robin.
// Start from a repeatably "random" place in the node list.
nodeIndex := int(data.Index % uint64(len(data.Nodes)))
for i := range sgi.Shards {
si := &sgi.Shards[i]
for j := 0; j < replicaN; j++ {
nodeID := data.Nodes[nodeIndex%len(data.Nodes)].ID
si.OwnerIDs = append(si.OwnerIDs, nodeID)
nodeIndex++
}
}
// Retention policy has a new shard group, so update the policy.
rpi.ShardGroups = append(rpi.ShardGroups, sgi)
return nil
}
// DeleteShardGroup removes a shard group from a database and retention policy by id.
func (data *Data) DeleteShardGroup(database, policy string, id uint64) error {
// Find retention policy.
rpi, err := data.RetentionPolicy(database, policy)
if err != nil {
return err
} else if rpi == nil {
return ErrRetentionPolicyNotFound
}
// Find shard group by ID and set its deletion timestamp.
for i := range rpi.ShardGroups {
if rpi.ShardGroups[i].ID == id {
rpi.ShardGroups[i].DeletedAt = time.Now().UTC()
return nil
}
}
return ErrShardGroupNotFound
}
// CreateContinuousQuery adds a named continuous query to a database.
func (data *Data) CreateContinuousQuery(database, name, query string) error {
di := data.Database(database)
if di == nil {
return ErrDatabaseNotFound
}
// Ensure the name doesn't already exist.
for i := range di.ContinuousQueries {
if di.ContinuousQueries[i].Name == name {
return ErrContinuousQueryExists
}
}
// Append new query.
di.ContinuousQueries = append(di.ContinuousQueries, ContinuousQueryInfo{
Name: name,
Query: query,
})
return nil
}
// DropContinuousQuery removes a continuous query.
func (data *Data) DropContinuousQuery(database, name string) error {
di := data.Database(database)
if di == nil {
return ErrDatabaseNotFound
}
for i := range di.ContinuousQueries {
if di.ContinuousQueries[i].Name == name {
di.ContinuousQueries = append(di.ContinuousQueries[:i], di.ContinuousQueries[i+1:]...)
return nil
}
}
return ErrContinuousQueryNotFound
}
// User returns a user by username.
func (data *Data) User(username string) *UserInfo {
for i := range data.Users {
if data.Users[i].Name == username {
return &data.Users[i]
}
}
return nil
}
// CreateUser creates a new user.
func (data *Data) CreateUser(name, hash string, admin bool) error {
// Ensure the user doesn't already exist.
if name == "" {
return ErrUsernameRequired
} else if data.User(name) != nil {
return ErrUserExists
}
// Append new user.
data.Users = append(data.Users, UserInfo{
Name: name,
Hash: hash,
Admin: admin,
})
return nil
}
// DropUser removes an existing user by name.
func (data *Data) DropUser(name string) error {
for i := range data.Users {
if data.Users[i].Name == name {
data.Users = append(data.Users[:i], data.Users[i+1:]...)
return nil
}
}
return ErrUserNotFound
}
// UpdateUser updates the password hash of an existing user.
func (data *Data) UpdateUser(name, hash string) error {
for i := range data.Users {
if data.Users[i].Name == name {
data.Users[i].Hash = hash
return nil
}
}
return ErrUserNotFound
}
// SetPrivilege sets a privilege for a user on a database.
func (data *Data) SetPrivilege(name, database string, p influxql.Privilege) error {
ui := data.User(name)
if ui == nil {
return ErrUserNotFound
}
if ui.Privileges == nil {
ui.Privileges = make(map[string]influxql.Privilege)
}
ui.Privileges[database] = p
return nil
}
// SetAdminPrivilege sets the admin privilege for a user.
func (data *Data) SetAdminPrivilege(name string, admin bool) error {
ui := data.User(name)
if ui == nil {
return ErrUserNotFound
}
ui.Admin = admin
return nil
}
// UserPrivileges gets the privileges for a user.
func (data *Data) UserPrivileges(name string) (map[string]influxql.Privilege, error) {
ui := data.User(name)
if ui == nil {
return nil, ErrUserNotFound
}
return ui.Privileges, nil
}
// UserPrivilege gets the privilege for a user on a database.
func (data *Data) UserPrivilege(name, database string) (*influxql.Privilege, error) {
ui := data.User(name)
if ui == nil {
return nil, ErrUserNotFound
}
for db, p := range ui.Privileges {
if db == database {
return &p, nil
}
}
return influxql.NewPrivilege(influxql.NoPrivileges), nil
}
// Clone returns a copy of data with a new version.
func (data *Data) Clone() *Data {
other := *data
// Copy nodes.
if data.Nodes != nil {
other.Nodes = make([]NodeInfo, len(data.Nodes))
for i := range data.Nodes {
other.Nodes[i] = data.Nodes[i].clone()
}
}
// Deep copy databases.
if data.Databases != nil {
other.Databases = make([]DatabaseInfo, len(data.Databases))
for i := range data.Databases {
other.Databases[i] = data.Databases[i].clone()
}
}
// Copy users.
if data.Users != nil {
other.Users = make([]UserInfo, len(data.Users))
for i := range data.Users {
other.Users[i] = data.Users[i].clone()
}
}
return &other
}
// marshal serializes to a protobuf representation.
func (data *Data) marshal() *internal.Data {
pb := &internal.Data{
Term: proto.Uint64(data.Term),
Index: proto.Uint64(data.Index),
ClusterID: proto.Uint64(data.ClusterID),
MaxNodeID: proto.Uint64(data.MaxNodeID),
MaxShardGroupID: proto.Uint64(data.MaxShardGroupID),
MaxShardID: proto.Uint64(data.MaxShardID),
}
pb.Nodes = make([]*internal.NodeInfo, len(data.Nodes))
for i := range data.Nodes {
pb.Nodes[i] = data.Nodes[i].marshal()
}
pb.Databases = make([]*internal.DatabaseInfo, len(data.Databases))
for i := range data.Databases {
pb.Databases[i] = data.Databases[i].marshal()
}
pb.Users = make([]*internal.UserInfo, len(data.Users))
for i := range data.Users {
pb.Users[i] = data.Users[i].marshal()
}
return pb
}
// unmarshal deserializes from a protobuf representation.
func (data *Data) unmarshal(pb *internal.Data) {
data.Term = pb.GetTerm()
data.Index = pb.GetIndex()
data.ClusterID = pb.GetClusterID()
data.MaxNodeID = pb.GetMaxNodeID()
data.MaxShardGroupID = pb.GetMaxShardGroupID()
data.MaxShardID = pb.GetMaxShardID()
data.Nodes = make([]NodeInfo, len(pb.GetNodes()))
for i, x := range pb.GetNodes() {
data.Nodes[i].unmarshal(x)
}
data.Databases = make([]DatabaseInfo, len(pb.GetDatabases()))
for i, x := range pb.GetDatabases() {
data.Databases[i].unmarshal(x)
}
data.Users = make([]UserInfo, len(pb.GetUsers()))
for i, x := range pb.GetUsers() {
data.Users[i].unmarshal(x)
}
}
// MarshalBinary encodes the metadata to a binary format.
func (data *Data) MarshalBinary() ([]byte, error) {
return proto.Marshal(data.marshal())
}
// UnmarshalBinary decodes the object from a binary format.
func (data *Data) UnmarshalBinary(buf []byte) error {
var pb internal.Data
if err := proto.Unmarshal(buf, &pb); err != nil {
return err
}
data.unmarshal(&pb)
return nil
}
// NodeInfo represents information about a single node in the cluster.
type NodeInfo struct {
ID uint64
Host string
}
// clone returns a deep copy of ni.
func (ni NodeInfo) clone() NodeInfo { return ni }
// marshal serializes to a protobuf representation.
func (ni NodeInfo) marshal() *internal.NodeInfo {
pb := &internal.NodeInfo{}
pb.ID = proto.Uint64(ni.ID)
pb.Host = proto.String(ni.Host)
return pb
}
// unmarshal deserializes from a protobuf representation.
func (ni *NodeInfo) unmarshal(pb *internal.NodeInfo) {
ni.ID = pb.GetID()
ni.Host = pb.GetHost()
}
// DatabaseInfo represents information about a database in the system.
type DatabaseInfo struct {
Name string
DefaultRetentionPolicy string
RetentionPolicies []RetentionPolicyInfo
ContinuousQueries []ContinuousQueryInfo
}
// RetentionPolicy returns a retention policy by name.
func (di DatabaseInfo) RetentionPolicy(name string) *RetentionPolicyInfo {
for i := range di.RetentionPolicies {
if di.RetentionPolicies[i].Name == name {
return &di.RetentionPolicies[i]
}
}
return nil
}
// clone returns a deep copy of di.
func (di DatabaseInfo) clone() DatabaseInfo {
other := di
if di.RetentionPolicies != nil {
other.RetentionPolicies = make([]RetentionPolicyInfo, len(di.RetentionPolicies))
for i := range di.RetentionPolicies {
other.RetentionPolicies[i] = di.RetentionPolicies[i].clone()
}
}
// Copy continuous queries.
if di.ContinuousQueries != nil {
other.ContinuousQueries = make([]ContinuousQueryInfo, len(di.ContinuousQueries))
for i := range di.ContinuousQueries {
other.ContinuousQueries[i] = di.ContinuousQueries[i].clone()
}
}
return other
}
// marshal serializes to a protobuf representation.
func (di DatabaseInfo) marshal() *internal.DatabaseInfo {
pb := &internal.DatabaseInfo{}
pb.Name = proto.String(di.Name)
pb.DefaultRetentionPolicy = proto.String(di.DefaultRetentionPolicy)
pb.RetentionPolicies = make([]*internal.RetentionPolicyInfo, len(di.RetentionPolicies))
for i := range di.RetentionPolicies {
pb.RetentionPolicies[i] = di.RetentionPolicies[i].marshal()
}
pb.ContinuousQueries = make([]*internal.ContinuousQueryInfo, len(di.ContinuousQueries))
for i := range di.ContinuousQueries {
pb.ContinuousQueries[i] = di.ContinuousQueries[i].marshal()
}
return pb
}
// unmarshal deserializes from a protobuf representation.
func (di *DatabaseInfo) unmarshal(pb *internal.DatabaseInfo) {
di.Name = pb.GetName()
di.DefaultRetentionPolicy = pb.GetDefaultRetentionPolicy()
di.RetentionPolicies = make([]RetentionPolicyInfo, len(pb.GetRetentionPolicies()))
for i, x := range pb.GetRetentionPolicies() {
di.RetentionPolicies[i].unmarshal(x)
}
di.ContinuousQueries = make([]ContinuousQueryInfo, len(pb.GetContinuousQueries()))
for i, x := range pb.GetContinuousQueries() {
di.ContinuousQueries[i].unmarshal(x)
}
}
// RetentionPolicyInfo represents metadata about a retention policy.
type RetentionPolicyInfo struct {
Name string
ReplicaN int
Duration time.Duration
ShardGroupDuration time.Duration
ShardGroups []ShardGroupInfo
}
// NewRetentionPolicyInfo returns a new instance of RetentionPolicyInfo with defaults set.
func NewRetentionPolicyInfo(name string) *RetentionPolicyInfo {
return &RetentionPolicyInfo{
Name: name,
ReplicaN: DefaultRetentionPolicyReplicaN,
Duration: DefaultRetentionPolicyDuration,
}
}
// ShardGroupByTimestamp returns the shard group in the policy that contains the timestamp.
func (rpi *RetentionPolicyInfo) ShardGroupByTimestamp(timestamp time.Time) *ShardGroupInfo {
for i := range rpi.ShardGroups {
if rpi.ShardGroups[i].Contains(timestamp) && !rpi.ShardGroups[i].Deleted() {
return &rpi.ShardGroups[i]
}
}
return nil
}
// ExpiredShardGroups returns the Shard Groups which are considered expired, for the given time.
func (rpi *RetentionPolicyInfo) ExpiredShardGroups(t time.Time) []*ShardGroupInfo {
groups := make([]*ShardGroupInfo, 0)
for i := range rpi.ShardGroups {
if rpi.ShardGroups[i].Deleted() {
continue
}
if rpi.Duration != 0 && rpi.ShardGroups[i].EndTime.Add(rpi.Duration).Before(t) {
groups = append(groups, &rpi.ShardGroups[i])
}
}
return groups
}
// DeletedShardGroups returns the Shard Groups which are marked as deleted.
func (rpi *RetentionPolicyInfo) DeletedShardGroups() []*ShardGroupInfo {
groups := make([]*ShardGroupInfo, 0)
for i := range rpi.ShardGroups {
if rpi.ShardGroups[i].Deleted() {
groups = append(groups, &rpi.ShardGroups[i])
}
}
return groups
}
// marshal serializes to a protobuf representation.
func (rpi *RetentionPolicyInfo) marshal() *internal.RetentionPolicyInfo {
pb := &internal.RetentionPolicyInfo{
Name: proto.String(rpi.Name),
ReplicaN: proto.Uint32(uint32(rpi.ReplicaN)),
Duration: proto.Int64(int64(rpi.Duration)),
ShardGroupDuration: proto.Int64(int64(rpi.ShardGroupDuration)),
}
pb.ShardGroups = make([]*internal.ShardGroupInfo, len(rpi.ShardGroups))
for i, sgi := range rpi.ShardGroups {
pb.ShardGroups[i] = sgi.marshal()
}
return pb
}
// unmarshal deserializes from a protobuf representation.
func (rpi *RetentionPolicyInfo) unmarshal(pb *internal.RetentionPolicyInfo) {
rpi.Name = pb.GetName()
rpi.ReplicaN = int(pb.GetReplicaN())
rpi.Duration = time.Duration(pb.GetDuration())
rpi.ShardGroupDuration = time.Duration(pb.GetShardGroupDuration())
rpi.ShardGroups = make([]ShardGroupInfo, len(pb.GetShardGroups()))
for i, x := range pb.GetShardGroups() {
rpi.ShardGroups[i].unmarshal(x)
}
}
// clone returns a deep copy of rpi.
func (rpi RetentionPolicyInfo) clone() RetentionPolicyInfo {
other := rpi
if rpi.ShardGroups != nil {
other.ShardGroups = make([]ShardGroupInfo, len(rpi.ShardGroups))
for i := range rpi.ShardGroups {
other.ShardGroups[i] = rpi.ShardGroups[i].clone()
}
}
return other
}
// shardGroupDuration returns the duration for a shard group based on a policy duration.
func shardGroupDuration(d time.Duration) time.Duration {
if d >= 180*24*time.Hour || d == 0 { // 6 months or 0
return 7 * 24 * time.Hour
} else if d >= 2*24*time.Hour { // 2 days
return 1 * 24 * time.Hour
}
return 1 * time.Hour
}
// ShardGroupInfo represents metadata about a shard group. The DeletedAt field is important
// because it makes it clear that a ShardGroup has been marked as deleted, and allow the system
// to be sure that a ShardGroup is not simply missing. If the DeletedAt is set, the system can
// safely delete any associated shards.
type ShardGroupInfo struct {
ID uint64
StartTime time.Time
EndTime time.Time
DeletedAt time.Time
Shards []ShardInfo
}
type ShardGroupInfos []ShardGroupInfo
func (a ShardGroupInfos) Len() int { return len(a) }
func (a ShardGroupInfos) Less(i, j int) bool { return a[i].StartTime.Before(a[j].StartTime) }
func (a ShardGroupInfos) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
// Contains return true if the shard group contains data for the timestamp.
func (sgi *ShardGroupInfo) Contains(timestamp time.Time) bool {
return !sgi.StartTime.After(timestamp) && sgi.EndTime.After(timestamp)
}
// Overlaps return whether the shard group contains data for the time range between min and max
func (sgi *ShardGroupInfo) Overlaps(min, max time.Time) bool {
return !sgi.StartTime.After(max) && sgi.EndTime.After(min)
}
// Deleted returns whether this ShardGroup has been deleted.
func (sgi *ShardGroupInfo) Deleted() bool {
return !sgi.DeletedAt.IsZero()
}
// clone returns a deep copy of sgi.
func (sgi ShardGroupInfo) clone() ShardGroupInfo {
other := sgi
if sgi.Shards != nil {
other.Shards = make([]ShardInfo, len(sgi.Shards))
for i := range sgi.Shards {
other.Shards[i] = sgi.Shards[i].clone()
}
}
return other
}
// ShardFor returns the ShardInfo for a Point hash
func (s *ShardGroupInfo) ShardFor(hash uint64) ShardInfo {
return s.Shards[hash%uint64(len(s.Shards))]
}
// marshal serializes to a protobuf representation.
func (sgi *ShardGroupInfo) marshal() *internal.ShardGroupInfo {
pb := &internal.ShardGroupInfo{
ID: proto.Uint64(sgi.ID),
StartTime: proto.Int64(MarshalTime(sgi.StartTime)),
EndTime: proto.Int64(MarshalTime(sgi.EndTime)),
DeletedAt: proto.Int64(MarshalTime(sgi.DeletedAt)),
}
pb.Shards = make([]*internal.ShardInfo, len(sgi.Shards))
for i := range sgi.Shards {
pb.Shards[i] = sgi.Shards[i].marshal()
}
return pb
}
// unmarshal deserializes from a protobuf representation.
func (sgi *ShardGroupInfo) unmarshal(pb *internal.ShardGroupInfo) {
sgi.ID = pb.GetID()
sgi.StartTime = UnmarshalTime(pb.GetStartTime())
sgi.EndTime = UnmarshalTime(pb.GetEndTime())
sgi.DeletedAt = UnmarshalTime(pb.GetDeletedAt())
sgi.Shards = make([]ShardInfo, len(pb.GetShards()))
for i, x := range pb.GetShards() {
sgi.Shards[i].unmarshal(x)
}
}
// ShardInfo represents metadata about a shard.
type ShardInfo struct {
ID uint64
OwnerIDs []uint64
}
// OwnedBy returns whether the shard's owner IDs includes nodeID.
func (si ShardInfo) OwnedBy(nodeID uint64) bool {
for _, id := range si.OwnerIDs {
if id == nodeID {
return true
}
}
return false
}
// clone returns a deep copy of si.
func (si ShardInfo) clone() ShardInfo {
other := si
if si.OwnerIDs != nil {
other.OwnerIDs = make([]uint64, len(si.OwnerIDs))
copy(other.OwnerIDs, si.OwnerIDs)
}
return other
}
// marshal serializes to a protobuf representation.
func (si ShardInfo) marshal() *internal.ShardInfo {
pb := &internal.ShardInfo{
ID: proto.Uint64(si.ID),
}
pb.OwnerIDs = make([]uint64, len(si.OwnerIDs))
copy(pb.OwnerIDs, si.OwnerIDs)
return pb
}
// unmarshal deserializes from a protobuf representation.
func (si *ShardInfo) unmarshal(pb *internal.ShardInfo) {
si.ID = pb.GetID()
si.OwnerIDs = make([]uint64, len(pb.GetOwnerIDs()))
copy(si.OwnerIDs, pb.GetOwnerIDs())
}
// ContinuousQueryInfo represents metadata about a continuous query.
type ContinuousQueryInfo struct {
Name string
Query string
}
// clone returns a deep copy of cqi.
func (cqi ContinuousQueryInfo) clone() ContinuousQueryInfo { return cqi }
// marshal serializes to a protobuf representation.
func (cqi ContinuousQueryInfo) marshal() *internal.ContinuousQueryInfo {
return &internal.ContinuousQueryInfo{
Name: proto.String(cqi.Name),
Query: proto.String(cqi.Query),
}
}
// unmarshal deserializes from a protobuf representation.
func (cqi *ContinuousQueryInfo) unmarshal(pb *internal.ContinuousQueryInfo) {
cqi.Name = pb.GetName()
cqi.Query = pb.GetQuery()
}
// UserInfo represents metadata about a user in the system.
type UserInfo struct {
Name string
Hash string
Admin bool
Privileges map[string]influxql.Privilege
}
// Authorize returns true if the user is authorized and false if not.
func (ui *UserInfo) Authorize(privilege influxql.Privilege, database string) bool {
if ui.Admin {
return true
}
p, ok := ui.Privileges[database]
return ok && (p == privilege || p == influxql.AllPrivileges)
}
// clone returns a deep copy of si.
func (ui UserInfo) clone() UserInfo {
other := ui
if ui.Privileges != nil {