421 lines
12 KiB
Go
421 lines
12 KiB
Go
package api
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import (
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"bytes"
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"fmt"
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"io"
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"net/http"
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"strconv"
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"strings"
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)
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// KVPair is used to represent a single K/V entry
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type KVPair struct {
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// Key is the name of the key. It is also part of the URL path when accessed
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// via the API.
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Key string
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// CreateIndex holds the index corresponding the creation of this KVPair. This
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// is a read-only field.
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CreateIndex uint64
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// ModifyIndex is used for the Check-And-Set operations and can also be fed
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// back into the WaitIndex of the QueryOptions in order to perform blocking
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// queries.
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ModifyIndex uint64
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// LockIndex holds the index corresponding to a lock on this key, if any. This
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// is a read-only field.
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LockIndex uint64
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// Flags are any user-defined flags on the key. It is up to the implementer
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// to check these values, since Consul does not treat them specially.
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Flags uint64
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// Value is the value for the key. This can be any value, but it will be
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// base64 encoded upon transport.
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Value []byte
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// Session is a string representing the ID of the session. Any other
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// interactions with this key over the same session must specify the same
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// session ID.
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Session string
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}
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// KVPairs is a list of KVPair objects
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type KVPairs []*KVPair
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// KVOp constants give possible operations available in a KVTxn.
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type KVOp string
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const (
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KVSet KVOp = "set"
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KVDelete KVOp = "delete"
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KVDeleteCAS KVOp = "delete-cas"
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KVDeleteTree KVOp = "delete-tree"
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KVCAS KVOp = "cas"
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KVLock KVOp = "lock"
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KVUnlock KVOp = "unlock"
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KVGet KVOp = "get"
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KVGetTree KVOp = "get-tree"
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KVCheckSession KVOp = "check-session"
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KVCheckIndex KVOp = "check-index"
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KVCheckNotExists KVOp = "check-not-exists"
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)
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// KVTxnOp defines a single operation inside a transaction.
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type KVTxnOp struct {
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Verb KVOp
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Key string
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Value []byte
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Flags uint64
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Index uint64
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Session string
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}
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// KVTxnOps defines a set of operations to be performed inside a single
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// transaction.
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type KVTxnOps []*KVTxnOp
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// KVTxnResponse has the outcome of a transaction.
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type KVTxnResponse struct {
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Results []*KVPair
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Errors TxnErrors
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}
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// KV is used to manipulate the K/V API
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type KV struct {
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c *Client
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}
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// KV is used to return a handle to the K/V apis
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func (c *Client) KV() *KV {
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return &KV{c}
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}
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// Get is used to lookup a single key. The returned pointer
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// to the KVPair will be nil if the key does not exist.
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func (k *KV) Get(key string, q *QueryOptions) (*KVPair, *QueryMeta, error) {
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resp, qm, err := k.getInternal(key, nil, q)
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if err != nil {
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return nil, nil, err
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}
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if resp == nil {
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return nil, qm, nil
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}
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defer resp.Body.Close()
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var entries []*KVPair
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if err := decodeBody(resp, &entries); err != nil {
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return nil, nil, err
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}
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if len(entries) > 0 {
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return entries[0], qm, nil
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}
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return nil, qm, nil
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}
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// List is used to lookup all keys under a prefix
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func (k *KV) List(prefix string, q *QueryOptions) (KVPairs, *QueryMeta, error) {
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resp, qm, err := k.getInternal(prefix, map[string]string{"recurse": ""}, q)
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if err != nil {
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return nil, nil, err
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}
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if resp == nil {
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return nil, qm, nil
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}
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defer resp.Body.Close()
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var entries []*KVPair
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if err := decodeBody(resp, &entries); err != nil {
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return nil, nil, err
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}
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return entries, qm, nil
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}
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// Keys is used to list all the keys under a prefix. Optionally,
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// a separator can be used to limit the responses.
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func (k *KV) Keys(prefix, separator string, q *QueryOptions) ([]string, *QueryMeta, error) {
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params := map[string]string{"keys": ""}
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if separator != "" {
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params["separator"] = separator
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}
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resp, qm, err := k.getInternal(prefix, params, q)
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if err != nil {
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return nil, nil, err
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}
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if resp == nil {
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return nil, qm, nil
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}
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defer resp.Body.Close()
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var entries []string
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if err := decodeBody(resp, &entries); err != nil {
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return nil, nil, err
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}
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return entries, qm, nil
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}
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func (k *KV) getInternal(key string, params map[string]string, q *QueryOptions) (*http.Response, *QueryMeta, error) {
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r := k.c.newRequest("GET", "/v1/kv/"+strings.TrimPrefix(key, "/"))
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r.setQueryOptions(q)
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for param, val := range params {
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r.params.Set(param, val)
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}
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rtt, resp, err := k.c.doRequest(r)
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if err != nil {
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return nil, nil, err
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}
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qm := &QueryMeta{}
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parseQueryMeta(resp, qm)
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qm.RequestTime = rtt
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if resp.StatusCode == 404 {
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resp.Body.Close()
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return nil, qm, nil
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} else if resp.StatusCode != 200 {
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resp.Body.Close()
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return nil, nil, fmt.Errorf("Unexpected response code: %d", resp.StatusCode)
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}
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return resp, qm, nil
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}
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// Put is used to write a new value. Only the
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// Key, Flags and Value is respected.
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func (k *KV) Put(p *KVPair, q *WriteOptions) (*WriteMeta, error) {
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params := make(map[string]string, 1)
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if p.Flags != 0 {
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params["flags"] = strconv.FormatUint(p.Flags, 10)
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}
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_, wm, err := k.put(p.Key, params, p.Value, q)
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return wm, err
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}
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// CAS is used for a Check-And-Set operation. The Key,
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// ModifyIndex, Flags and Value are respected. Returns true
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// on success or false on failures.
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func (k *KV) CAS(p *KVPair, q *WriteOptions) (bool, *WriteMeta, error) {
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params := make(map[string]string, 2)
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if p.Flags != 0 {
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params["flags"] = strconv.FormatUint(p.Flags, 10)
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}
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params["cas"] = strconv.FormatUint(p.ModifyIndex, 10)
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return k.put(p.Key, params, p.Value, q)
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}
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// Acquire is used for a lock acquisition operation. The Key,
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// Flags, Value and Session are respected. Returns true
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// on success or false on failures.
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func (k *KV) Acquire(p *KVPair, q *WriteOptions) (bool, *WriteMeta, error) {
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params := make(map[string]string, 2)
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if p.Flags != 0 {
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params["flags"] = strconv.FormatUint(p.Flags, 10)
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}
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params["acquire"] = p.Session
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return k.put(p.Key, params, p.Value, q)
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}
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// Release is used for a lock release operation. The Key,
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// Flags, Value and Session are respected. Returns true
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// on success or false on failures.
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func (k *KV) Release(p *KVPair, q *WriteOptions) (bool, *WriteMeta, error) {
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params := make(map[string]string, 2)
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if p.Flags != 0 {
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params["flags"] = strconv.FormatUint(p.Flags, 10)
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}
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params["release"] = p.Session
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return k.put(p.Key, params, p.Value, q)
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}
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func (k *KV) put(key string, params map[string]string, body []byte, q *WriteOptions) (bool, *WriteMeta, error) {
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if len(key) > 0 && key[0] == '/' {
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return false, nil, fmt.Errorf("Invalid key. Key must not begin with a '/': %s", key)
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}
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r := k.c.newRequest("PUT", "/v1/kv/"+key)
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r.setWriteOptions(q)
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for param, val := range params {
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r.params.Set(param, val)
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}
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r.body = bytes.NewReader(body)
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rtt, resp, err := requireOK(k.c.doRequest(r))
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if err != nil {
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return false, nil, err
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}
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defer resp.Body.Close()
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qm := &WriteMeta{}
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qm.RequestTime = rtt
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var buf bytes.Buffer
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if _, err := io.Copy(&buf, resp.Body); err != nil {
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return false, nil, fmt.Errorf("Failed to read response: %v", err)
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}
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res := strings.Contains(buf.String(), "true")
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return res, qm, nil
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}
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// Delete is used to delete a single key
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func (k *KV) Delete(key string, w *WriteOptions) (*WriteMeta, error) {
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_, qm, err := k.deleteInternal(key, nil, w)
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return qm, err
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}
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// DeleteCAS is used for a Delete Check-And-Set operation. The Key
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// and ModifyIndex are respected. Returns true on success or false on failures.
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func (k *KV) DeleteCAS(p *KVPair, q *WriteOptions) (bool, *WriteMeta, error) {
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params := map[string]string{
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"cas": strconv.FormatUint(p.ModifyIndex, 10),
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}
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return k.deleteInternal(p.Key, params, q)
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}
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// DeleteTree is used to delete all keys under a prefix
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func (k *KV) DeleteTree(prefix string, w *WriteOptions) (*WriteMeta, error) {
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_, qm, err := k.deleteInternal(prefix, map[string]string{"recurse": ""}, w)
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return qm, err
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}
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func (k *KV) deleteInternal(key string, params map[string]string, q *WriteOptions) (bool, *WriteMeta, error) {
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r := k.c.newRequest("DELETE", "/v1/kv/"+strings.TrimPrefix(key, "/"))
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r.setWriteOptions(q)
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for param, val := range params {
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r.params.Set(param, val)
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}
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rtt, resp, err := requireOK(k.c.doRequest(r))
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if err != nil {
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return false, nil, err
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}
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defer resp.Body.Close()
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qm := &WriteMeta{}
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qm.RequestTime = rtt
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var buf bytes.Buffer
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if _, err := io.Copy(&buf, resp.Body); err != nil {
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return false, nil, fmt.Errorf("Failed to read response: %v", err)
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}
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res := strings.Contains(buf.String(), "true")
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return res, qm, nil
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}
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// TxnOp is the internal format we send to Consul. It's not specific to KV,
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// though currently only KV operations are supported.
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type TxnOp struct {
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KV *KVTxnOp
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}
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// TxnOps is a list of transaction operations.
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type TxnOps []*TxnOp
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// TxnResult is the internal format we receive from Consul.
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type TxnResult struct {
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KV *KVPair
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}
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// TxnResults is a list of TxnResult objects.
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type TxnResults []*TxnResult
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// TxnError is used to return information about an operation in a transaction.
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type TxnError struct {
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OpIndex int
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What string
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}
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// TxnErrors is a list of TxnError objects.
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type TxnErrors []*TxnError
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// TxnResponse is the internal format we receive from Consul.
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type TxnResponse struct {
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Results TxnResults
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Errors TxnErrors
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}
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// Txn is used to apply multiple KV operations in a single, atomic transaction.
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//
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// Note that Go will perform the required base64 encoding on the values
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// automatically because the type is a byte slice. Transactions are defined as a
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// list of operations to perform, using the KVOp constants and KVTxnOp structure
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// to define operations. If any operation fails, none of the changes are applied
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// to the state store. Note that this hides the internal raw transaction interface
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// and munges the input and output types into KV-specific ones for ease of use.
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// If there are more non-KV operations in the future we may break out a new
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// transaction API client, but it will be easy to keep this KV-specific variant
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// supported.
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//
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// Even though this is generally a write operation, we take a QueryOptions input
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// and return a QueryMeta output. If the transaction contains only read ops, then
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// Consul will fast-path it to a different endpoint internally which supports
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// consistency controls, but not blocking. If there are write operations then
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// the request will always be routed through raft and any consistency settings
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// will be ignored.
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//
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// Here's an example:
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//
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// ops := KVTxnOps{
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// &KVTxnOp{
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// Verb: KVLock,
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// Key: "test/lock",
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// Session: "adf4238a-882b-9ddc-4a9d-5b6758e4159e",
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// Value: []byte("hello"),
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// },
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// &KVTxnOp{
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// Verb: KVGet,
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// Key: "another/key",
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// },
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// }
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// ok, response, _, err := kv.Txn(&ops, nil)
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//
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// If there is a problem making the transaction request then an error will be
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// returned. Otherwise, the ok value will be true if the transaction succeeded
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// or false if it was rolled back. The response is a structured return value which
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// will have the outcome of the transaction. Its Results member will have entries
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// for each operation. Deleted keys will have a nil entry in the, and to save
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// space, the Value of each key in the Results will be nil unless the operation
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// is a KVGet. If the transaction was rolled back, the Errors member will have
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// entries referencing the index of the operation that failed along with an error
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// message.
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func (k *KV) Txn(txn KVTxnOps, q *QueryOptions) (bool, *KVTxnResponse, *QueryMeta, error) {
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r := k.c.newRequest("PUT", "/v1/txn")
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r.setQueryOptions(q)
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// Convert into the internal format since this is an all-KV txn.
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ops := make(TxnOps, 0, len(txn))
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for _, kvOp := range txn {
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ops = append(ops, &TxnOp{KV: kvOp})
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}
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r.obj = ops
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rtt, resp, err := k.c.doRequest(r)
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if err != nil {
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return false, nil, nil, err
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}
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defer resp.Body.Close()
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qm := &QueryMeta{}
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parseQueryMeta(resp, qm)
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qm.RequestTime = rtt
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if resp.StatusCode == http.StatusOK || resp.StatusCode == http.StatusConflict {
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var txnResp TxnResponse
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if err := decodeBody(resp, &txnResp); err != nil {
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return false, nil, nil, err
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}
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// Convert from the internal format.
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kvResp := KVTxnResponse{
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Errors: txnResp.Errors,
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}
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for _, result := range txnResp.Results {
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kvResp.Results = append(kvResp.Results, result.KV)
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}
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return resp.StatusCode == http.StatusOK, &kvResp, qm, nil
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}
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var buf bytes.Buffer
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if _, err := io.Copy(&buf, resp.Body); err != nil {
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return false, nil, nil, fmt.Errorf("Failed to read response: %v", err)
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}
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return false, nil, nil, fmt.Errorf("Failed request: %s", buf.String())
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}
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