githaven-fork/vendor/github.com/olivere/elastic/v7/cluster_reroute.go
Lunny Xiao 5dbf36f356
Issue search support elasticsearch (#9428)
* Issue search support elasticsearch

* Fix lint

* Add indexer name on app.ini

* add a warnning on SearchIssuesByKeyword

* improve code
2020-02-13 14:06:17 +08:00

439 lines
13 KiB
Go
Vendored

// Copyright 2012-present Oliver Eilhard. All rights reserved.
// Use of this source code is governed by a MIT-license.
// See http://olivere.mit-license.org/license.txt for details.
package elastic
import (
"context"
"errors"
"fmt"
"net/http"
"net/url"
"strings"
)
// ClusterRerouteService allows for manual changes to the allocation of
// individual shards in the cluster. For example, a shard can be moved from
// one node to another explicitly, an allocation can be cancelled, and
// an unassigned shard can be explicitly allocated to a specific node.
//
// See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/cluster-reroute.html
// for details.
type ClusterRerouteService struct {
client *Client
pretty *bool // pretty format the returned JSON response
human *bool // return human readable values for statistics
errorTrace *bool // include the stack trace of returned errors
filterPath []string // list of filters used to reduce the response
headers http.Header // custom request-level HTTP headers
metrics []string
dryRun *bool
explain *bool
retryFailed *bool
masterTimeout string
timeout string
commands []AllocationCommand
body interface{}
}
// NewClusterRerouteService creates a new ClusterRerouteService.
func NewClusterRerouteService(client *Client) *ClusterRerouteService {
return &ClusterRerouteService{
client: client,
}
}
// Pretty tells Elasticsearch whether to return a formatted JSON response.
func (s *ClusterRerouteService) Pretty(pretty bool) *ClusterRerouteService {
s.pretty = &pretty
return s
}
// Human specifies whether human readable values should be returned in
// the JSON response, e.g. "7.5mb".
func (s *ClusterRerouteService) Human(human bool) *ClusterRerouteService {
s.human = &human
return s
}
// ErrorTrace specifies whether to include the stack trace of returned errors.
func (s *ClusterRerouteService) ErrorTrace(errorTrace bool) *ClusterRerouteService {
s.errorTrace = &errorTrace
return s
}
// FilterPath specifies a list of filters used to reduce the response.
func (s *ClusterRerouteService) FilterPath(filterPath ...string) *ClusterRerouteService {
s.filterPath = filterPath
return s
}
// Header adds a header to the request.
func (s *ClusterRerouteService) Header(name string, value string) *ClusterRerouteService {
if s.headers == nil {
s.headers = http.Header{}
}
s.headers.Add(name, value)
return s
}
// Headers specifies the headers of the request.
func (s *ClusterRerouteService) Headers(headers http.Header) *ClusterRerouteService {
s.headers = headers
return s
}
// Metric limits the information returned to the specified metric.
// It can be one of: "_all", "blocks", "metadata", "nodes", "routing_table", "master_node", "version".
// Defaults to all but metadata.
func (s *ClusterRerouteService) Metric(metrics ...string) *ClusterRerouteService {
s.metrics = append(s.metrics, metrics...)
return s
}
// DryRun indicates whether to simulate the operation only and return the
// resulting state.
func (s *ClusterRerouteService) DryRun(dryRun bool) *ClusterRerouteService {
s.dryRun = &dryRun
return s
}
// Explain, when set to true, returns an explanation of why the commands
// can or cannot be executed.
func (s *ClusterRerouteService) Explain(explain bool) *ClusterRerouteService {
s.explain = &explain
return s
}
// RetryFailed indicates whether to retry allocation of shards that are blocked
// due to too many subsequent allocation failures.
func (s *ClusterRerouteService) RetryFailed(retryFailed bool) *ClusterRerouteService {
s.retryFailed = &retryFailed
return s
}
// MasterTimeout specifies an explicit timeout for connection to master.
func (s *ClusterRerouteService) MasterTimeout(masterTimeout string) *ClusterRerouteService {
s.masterTimeout = masterTimeout
return s
}
// Timeout specifies an explicit operationtimeout.
func (s *ClusterRerouteService) Timeout(timeout string) *ClusterRerouteService {
s.timeout = timeout
return s
}
// Add adds one or more commands to be executed.
func (s *ClusterRerouteService) Add(commands ...AllocationCommand) *ClusterRerouteService {
s.commands = append(s.commands, commands...)
return s
}
// Body specifies the body to be sent.
// If you specify Body, the commands passed via Add are ignored.
// In other words: Body takes precedence over Add.
func (s *ClusterRerouteService) Body(body interface{}) *ClusterRerouteService {
s.body = body
return s
}
// buildURL builds the URL for the operation.
func (s *ClusterRerouteService) buildURL() (string, url.Values, error) {
// Build URL
path := "/_cluster/reroute"
// Add query string parameters
params := url.Values{}
if v := s.pretty; v != nil {
params.Set("pretty", fmt.Sprint(*v))
}
if v := s.human; v != nil {
params.Set("human", fmt.Sprint(*v))
}
if v := s.errorTrace; v != nil {
params.Set("error_trace", fmt.Sprint(*v))
}
if len(s.filterPath) > 0 {
params.Set("filter_path", strings.Join(s.filterPath, ","))
}
if v := s.dryRun; v != nil {
params.Set("dry_run", fmt.Sprint(*v))
}
if v := s.explain; v != nil {
params.Set("explain", fmt.Sprint(*v))
}
if v := s.retryFailed; v != nil {
params.Set("retry_failed", fmt.Sprint(*v))
}
if len(s.metrics) > 0 {
params.Set("metric", strings.Join(s.metrics, ","))
}
if s.masterTimeout != "" {
params.Set("master_timeout", s.masterTimeout)
}
if s.timeout != "" {
params.Set("timeout", s.timeout)
}
return path, params, nil
}
// Validate checks if the operation is valid.
func (s *ClusterRerouteService) Validate() error {
if s.body == nil && len(s.commands) == 0 {
return errors.New("missing allocate commands or raw body")
}
return nil
}
// Do executes the operation.
func (s *ClusterRerouteService) Do(ctx context.Context) (*ClusterRerouteResponse, error) {
// Check pre-conditions
if err := s.Validate(); err != nil {
return nil, err
}
// Get URL for request
path, params, err := s.buildURL()
if err != nil {
return nil, err
}
// Setup HTTP request body
var body interface{}
if s.body != nil {
body = s.body
} else {
commands := make([]interface{}, len(s.commands))
for i, cmd := range s.commands {
src, err := cmd.Source()
if err != nil {
return nil, err
}
commands[i] = map[string]interface{}{
cmd.Name(): src,
}
}
query := make(map[string]interface{})
query["commands"] = commands
body = query
}
// Get HTTP response
res, err := s.client.PerformRequest(ctx, PerformRequestOptions{
Method: "POST",
Path: path,
Params: params,
Body: body,
Headers: s.headers,
})
if err != nil {
return nil, err
}
// Return operation response
ret := new(ClusterRerouteResponse)
if err := s.client.decoder.Decode(res.Body, ret); err != nil {
return nil, err
}
return ret, nil
}
// ClusterRerouteResponse is the response of ClusterRerouteService.Do.
type ClusterRerouteResponse struct {
State *ClusterStateResponse `json:"state"`
Explanations []RerouteExplanation `json:"explanations,omitempty"`
}
// RerouteExplanation is returned in ClusterRerouteResponse if
// the "explain" parameter is set to "true".
type RerouteExplanation struct {
Command string `json:"command"`
Parameters map[string]interface{} `json:"parameters"`
Decisions []RerouteDecision `json:"decisions"`
}
// RerouteDecision is a decision the decider made while rerouting.
type RerouteDecision interface{}
// -- Allocation commands --
// AllocationCommand is a command to be executed in a call
// to Cluster Reroute API.
type AllocationCommand interface {
Name() string
Source() (interface{}, error)
}
var _ AllocationCommand = (*MoveAllocationCommand)(nil)
// MoveAllocationCommand moves a shard from a specific node to
// another node.
type MoveAllocationCommand struct {
index string
shardId int
fromNode string
toNode string
}
// NewMoveAllocationCommand creates a new MoveAllocationCommand.
func NewMoveAllocationCommand(index string, shardId int, fromNode, toNode string) *MoveAllocationCommand {
return &MoveAllocationCommand{
index: index,
shardId: shardId,
fromNode: fromNode,
toNode: toNode,
}
}
// Name of the command in a request to the Cluster Reroute API.
func (cmd *MoveAllocationCommand) Name() string { return "move" }
// Source generates the (inner) JSON to be used when serializing the command.
func (cmd *MoveAllocationCommand) Source() (interface{}, error) {
source := make(map[string]interface{})
source["index"] = cmd.index
source["shard"] = cmd.shardId
source["from_node"] = cmd.fromNode
source["to_node"] = cmd.toNode
return source, nil
}
var _ AllocationCommand = (*CancelAllocationCommand)(nil)
// CancelAllocationCommand cancels relocation, or recovery of a given shard on a node.
type CancelAllocationCommand struct {
index string
shardId int
node string
allowPrimary bool
}
// NewCancelAllocationCommand creates a new CancelAllocationCommand.
func NewCancelAllocationCommand(index string, shardId int, node string, allowPrimary bool) *CancelAllocationCommand {
return &CancelAllocationCommand{
index: index,
shardId: shardId,
node: node,
allowPrimary: allowPrimary,
}
}
// Name of the command in a request to the Cluster Reroute API.
func (cmd *CancelAllocationCommand) Name() string { return "cancel" }
// Source generates the (inner) JSON to be used when serializing the command.
func (cmd *CancelAllocationCommand) Source() (interface{}, error) {
source := make(map[string]interface{})
source["index"] = cmd.index
source["shard"] = cmd.shardId
source["node"] = cmd.node
source["allow_primary"] = cmd.allowPrimary
return source, nil
}
var _ AllocationCommand = (*AllocateStalePrimaryAllocationCommand)(nil)
// AllocateStalePrimaryAllocationCommand allocates an unassigned stale
// primary shard to a specific node. Use with extreme care as this will
// result in data loss. Allocation deciders are ignored.
type AllocateStalePrimaryAllocationCommand struct {
index string
shardId int
node string
acceptDataLoss bool
}
// NewAllocateStalePrimaryAllocationCommand creates a new
// AllocateStalePrimaryAllocationCommand.
func NewAllocateStalePrimaryAllocationCommand(index string, shardId int, node string, acceptDataLoss bool) *AllocateStalePrimaryAllocationCommand {
return &AllocateStalePrimaryAllocationCommand{
index: index,
shardId: shardId,
node: node,
acceptDataLoss: acceptDataLoss,
}
}
// Name of the command in a request to the Cluster Reroute API.
func (cmd *AllocateStalePrimaryAllocationCommand) Name() string { return "allocate_stale_primary" }
// Source generates the (inner) JSON to be used when serializing the command.
func (cmd *AllocateStalePrimaryAllocationCommand) Source() (interface{}, error) {
source := make(map[string]interface{})
source["index"] = cmd.index
source["shard"] = cmd.shardId
source["node"] = cmd.node
source["accept_data_loss"] = cmd.acceptDataLoss
return source, nil
}
var _ AllocationCommand = (*AllocateReplicaAllocationCommand)(nil)
// AllocateReplicaAllocationCommand allocates an unassigned replica shard
// to a specific node. Checks if allocation deciders allow allocation.
type AllocateReplicaAllocationCommand struct {
index string
shardId int
node string
}
// NewAllocateReplicaAllocationCommand creates a new
// AllocateReplicaAllocationCommand.
func NewAllocateReplicaAllocationCommand(index string, shardId int, node string) *AllocateReplicaAllocationCommand {
return &AllocateReplicaAllocationCommand{
index: index,
shardId: shardId,
node: node,
}
}
// Name of the command in a request to the Cluster Reroute API.
func (cmd *AllocateReplicaAllocationCommand) Name() string { return "allocate_replica" }
// Source generates the (inner) JSON to be used when serializing the command.
func (cmd *AllocateReplicaAllocationCommand) Source() (interface{}, error) {
source := make(map[string]interface{})
source["index"] = cmd.index
source["shard"] = cmd.shardId
source["node"] = cmd.node
return source, nil
}
// AllocateEmptyPrimaryAllocationCommand allocates an unassigned empty
// primary shard to a specific node. Use with extreme care as this will
// result in data loss. Allocation deciders are ignored.
type AllocateEmptyPrimaryAllocationCommand struct {
index string
shardId int
node string
acceptDataLoss bool
}
// NewAllocateEmptyPrimaryAllocationCommand creates a new
// AllocateEmptyPrimaryAllocationCommand.
func NewAllocateEmptyPrimaryAllocationCommand(index string, shardId int, node string, acceptDataLoss bool) *AllocateEmptyPrimaryAllocationCommand {
return &AllocateEmptyPrimaryAllocationCommand{
index: index,
shardId: shardId,
node: node,
acceptDataLoss: acceptDataLoss,
}
}
// Name of the command in a request to the Cluster Reroute API.
func (cmd *AllocateEmptyPrimaryAllocationCommand) Name() string { return "allocate_empty_primary" }
// Source generates the (inner) JSON to be used when serializing the command.
func (cmd *AllocateEmptyPrimaryAllocationCommand) Source() (interface{}, error) {
source := make(map[string]interface{})
source["index"] = cmd.index
source["shard"] = cmd.shardId
source["node"] = cmd.node
source["accept_data_loss"] = cmd.acceptDataLoss
return source, nil
}