package api import ( "io" "io/ioutil" "strconv" "strings" "time" ) // Operator can be used to perform low-level operator tasks for Nomad. type Operator struct { c *Client } // Operator returns a handle to the operator endpoints. func (c *Client) Operator() *Operator { return &Operator{c} } // RaftServer has information about a server in the Raft configuration. type RaftServer struct { // ID is the unique ID for the server. These are currently the same // as the address, but they will be changed to a real GUID in a future // release of Nomad. ID string // Node is the node name of the server, as known by Nomad, or this // will be set to "(unknown)" otherwise. Node string // Address is the IP:port of the server, used for Raft communications. Address string // Leader is true if this server is the current cluster leader. Leader bool // Voter is true if this server has a vote in the cluster. This might // be false if the server is staging and still coming online, or if // it's a non-voting server, which will be added in a future release of // Nomad. Voter bool // RaftProtocol is the version of the Raft protocol spoken by this server. RaftProtocol string } // RaftConfiguration is returned when querying for the current Raft configuration. type RaftConfiguration struct { // Servers has the list of servers in the Raft configuration. Servers []*RaftServer // Index has the Raft index of this configuration. Index uint64 } // RaftGetConfiguration is used to query the current Raft peer set. func (op *Operator) RaftGetConfiguration(q *QueryOptions) (*RaftConfiguration, error) { r, err := op.c.newRequest("GET", "/v1/operator/raft/configuration") if err != nil { return nil, err } r.setQueryOptions(q) _, resp, err := requireOK(op.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() var out RaftConfiguration if err := decodeBody(resp, &out); err != nil { return nil, err } return &out, nil } // RaftRemovePeerByAddress is used to kick a stale peer (one that it in the Raft // quorum but no longer known to Serf or the catalog) by address in the form of // "IP:port". func (op *Operator) RaftRemovePeerByAddress(address string, q *WriteOptions) error { r, err := op.c.newRequest("DELETE", "/v1/operator/raft/peer") if err != nil { return err } r.setWriteOptions(q) r.params.Set("address", address) _, resp, err := requireOK(op.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // RaftRemovePeerByID is used to kick a stale peer (one that is in the Raft // quorum but no longer known to Serf or the catalog) by ID. func (op *Operator) RaftRemovePeerByID(id string, q *WriteOptions) error { r, err := op.c.newRequest("DELETE", "/v1/operator/raft/peer") if err != nil { return err } r.setWriteOptions(q) r.params.Set("id", id) _, resp, err := requireOK(op.c.doRequest(r)) if err != nil { return err } resp.Body.Close() return nil } // SchedulerConfiguration is the config for controlling scheduler behavior type SchedulerConfiguration struct { // SchedulerAlgorithm lets you select between available scheduling algorithms. SchedulerAlgorithm SchedulerAlgorithm // PreemptionConfig specifies whether to enable eviction of lower // priority jobs to place higher priority jobs. PreemptionConfig PreemptionConfig // CreateIndex/ModifyIndex store the create/modify indexes of this configuration. CreateIndex uint64 ModifyIndex uint64 } // SchedulerConfigurationResponse is the response object that wraps SchedulerConfiguration type SchedulerConfigurationResponse struct { // SchedulerConfig contains scheduler config options SchedulerConfig *SchedulerConfiguration QueryMeta } // SchedulerSetConfigurationResponse is the response object used // when updating scheduler configuration type SchedulerSetConfigurationResponse struct { // Updated returns whether the config was actually updated // Only set when the request uses CAS Updated bool WriteMeta } // SchedulerAlgorithm is an enum string that encapsulates the valid options for a // SchedulerConfiguration stanza's SchedulerAlgorithm. These modes will allow the // scheduler to be user-selectable. type SchedulerAlgorithm string const ( SchedulerAlgorithmBinpack SchedulerAlgorithm = "binpack" SchedulerAlgorithmSpread SchedulerAlgorithm = "spread" ) // PreemptionConfig specifies whether preemption is enabled based on scheduler type type PreemptionConfig struct { SystemSchedulerEnabled bool BatchSchedulerEnabled bool ServiceSchedulerEnabled bool } // SchedulerGetConfiguration is used to query the current Scheduler configuration. func (op *Operator) SchedulerGetConfiguration(q *QueryOptions) (*SchedulerConfigurationResponse, *QueryMeta, error) { var resp SchedulerConfigurationResponse qm, err := op.c.query("/v1/operator/scheduler/configuration", &resp, q) if err != nil { return nil, nil, err } return &resp, qm, nil } // SchedulerSetConfiguration is used to set the current Scheduler configuration. func (op *Operator) SchedulerSetConfiguration(conf *SchedulerConfiguration, q *WriteOptions) (*SchedulerSetConfigurationResponse, *WriteMeta, error) { var out SchedulerSetConfigurationResponse wm, err := op.c.write("/v1/operator/scheduler/configuration", conf, &out, q) if err != nil { return nil, nil, err } return &out, wm, nil } // SchedulerCASConfiguration is used to perform a Check-And-Set update on the // Scheduler configuration. The ModifyIndex value will be respected. Returns // true on success or false on failures. func (op *Operator) SchedulerCASConfiguration(conf *SchedulerConfiguration, q *WriteOptions) (*SchedulerSetConfigurationResponse, *WriteMeta, error) { var out SchedulerSetConfigurationResponse wm, err := op.c.write("/v1/operator/scheduler/configuration?cas="+strconv.FormatUint(conf.ModifyIndex, 10), conf, &out, q) if err != nil { return nil, nil, err } return &out, wm, nil } // Snapshot is used to capture a snapshot state of a running cluster. // The returned reader that must be consumed fully func (op *Operator) Snapshot(q *QueryOptions) (io.ReadCloser, error) { r, err := op.c.newRequest("GET", "/v1/operator/snapshot") if err != nil { return nil, err } r.setQueryOptions(q) _, resp, err := requireOK(op.c.doRequest(r)) if err != nil { return nil, err } digest := resp.Header.Get("Digest") cr, err := newChecksumValidatingReader(resp.Body, digest) if err != nil { io.Copy(ioutil.Discard, resp.Body) resp.Body.Close() return nil, err } return cr, nil } // SnapshotRestore is used to restore a running nomad cluster to an original // state. func (op *Operator) SnapshotRestore(in io.Reader, q *WriteOptions) (*WriteMeta, error) { wm, err := op.c.write("/v1/operator/snapshot", in, nil, q) if err != nil { return nil, err } return wm, nil } type License struct { // The unique identifier of the license LicenseID string // The customer ID associated with the license CustomerID string // If set, an identifier that should be used to lock the license to a // particular site, cluster, etc. InstallationID string // The time at which the license was issued IssueTime time.Time // The time at which the license starts being valid StartTime time.Time // The time after which the license expires ExpirationTime time.Time // The time at which the license ceases to function and can // no longer be used in any capacity TerminationTime time.Time // The product the license is valid for Product string // License Specific Flags Flags map[string]interface{} // Modules is a list of the licensed enterprise modules Modules []string // List of features enabled by the license Features []string } type LicenseReply struct { License *License QueryMeta } func (op *Operator) LicensePut(license string, q *WriteOptions) (*WriteMeta, error) { r, err := op.c.newRequest("PUT", "/v1/operator/license") if err != nil { return nil, err } r.setWriteOptions(q) r.body = strings.NewReader(license) rtt, resp, err := requireOK(op.c.doRequest(r)) if err != nil { return nil, err } defer resp.Body.Close() wm := &WriteMeta{RequestTime: rtt} parseWriteMeta(resp, wm) return wm, nil } func (op *Operator) LicenseGet(q *QueryOptions) (*LicenseReply, *QueryMeta, error) { var reply LicenseReply qm, err := op.c.query("/v1/operator/license", &reply, q) if err != nil { return nil, nil, err } return &reply, qm, nil } // Metrics returns a slice of bytes containing metrics, optionally formatted as either json or prometheus func (op *Operator) Metrics(q *QueryOptions) ([]byte, error) { if q == nil { q = &QueryOptions{} } metricsReader, err := op.c.rawQuery("/v1/metrics", q) if err != nil { return nil, err } metricsBytes, err := ioutil.ReadAll(metricsReader) if err != nil { return nil, err } return metricsBytes, nil }