// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package api import ( "bytes" "context" "crypto/tls" "encoding/json" "fmt" "io" "net" "net/http" "net/url" "os" "strconv" "strings" "sync" "time" "github.com/hashicorp/go-cleanhttp" "github.com/hashicorp/go-hclog" "github.com/hashicorp/go-rootcerts" ) const ( // HTTPAddrEnvName defines an environment variable name which sets // the HTTP address if there is no -http-addr specified. HTTPAddrEnvName = "CONSUL_HTTP_ADDR" // HTTPTokenEnvName defines an environment variable name which sets // the HTTP token. HTTPTokenEnvName = "CONSUL_HTTP_TOKEN" // HTTPTokenFileEnvName defines an environment variable name which sets // the HTTP token file. HTTPTokenFileEnvName = "CONSUL_HTTP_TOKEN_FILE" // HTTPAuthEnvName defines an environment variable name which sets // the HTTP authentication header. HTTPAuthEnvName = "CONSUL_HTTP_AUTH" // HTTPSSLEnvName defines an environment variable name which sets // whether or not to use HTTPS. HTTPSSLEnvName = "CONSUL_HTTP_SSL" // HTTPCAFile defines an environment variable name which sets the // CA file to use for talking to Consul over TLS. HTTPCAFile = "CONSUL_CACERT" // HTTPCAPath defines an environment variable name which sets the // path to a directory of CA certs to use for talking to Consul over TLS. HTTPCAPath = "CONSUL_CAPATH" // HTTPClientCert defines an environment variable name which sets the // client cert file to use for talking to Consul over TLS. HTTPClientCert = "CONSUL_CLIENT_CERT" // HTTPClientKey defines an environment variable name which sets the // client key file to use for talking to Consul over TLS. HTTPClientKey = "CONSUL_CLIENT_KEY" // HTTPTLSServerName defines an environment variable name which sets the // server name to use as the SNI host when connecting via TLS HTTPTLSServerName = "CONSUL_TLS_SERVER_NAME" // HTTPSSLVerifyEnvName defines an environment variable name which sets // whether or not to disable certificate checking. HTTPSSLVerifyEnvName = "CONSUL_HTTP_SSL_VERIFY" // GRPCAddrEnvName defines an environment variable name which sets the gRPC // address for consul connect envoy. Note this isn't actually used by the api // client in this package but is defined here for consistency with all the // other ENV names we use. GRPCAddrEnvName = "CONSUL_GRPC_ADDR" // GRPCCAFileEnvName defines an environment variable name which sets the // CA file to use for talking to Consul gRPC over TLS. GRPCCAFileEnvName = "CONSUL_GRPC_CACERT" // GRPCCAPathEnvName defines an environment variable name which sets the // path to a directory of CA certs to use for talking to Consul gRPC over TLS. GRPCCAPathEnvName = "CONSUL_GRPC_CAPATH" // HTTPNamespaceEnvVar defines an environment variable name which sets // the HTTP Namespace to be used by default. This can still be overridden. HTTPNamespaceEnvName = "CONSUL_NAMESPACE" // HTTPPartitionEnvName defines an environment variable name which sets // the HTTP Partition to be used by default. This can still be overridden. HTTPPartitionEnvName = "CONSUL_PARTITION" // QueryBackendStreaming Query backend of type streaming QueryBackendStreaming = "streaming" // QueryBackendBlockingQuery Query backend of type blocking query QueryBackendBlockingQuery = "blocking-query" ) type StatusError struct { Code int Body string } func (e StatusError) Error() string { return fmt.Sprintf("Unexpected response code: %d (%s)", e.Code, e.Body) } // QueryOptions are used to parameterize a query type QueryOptions struct { // Namespace overrides the `default` namespace // Note: Namespaces are available only in Consul Enterprise Namespace string // Partition overrides the `default` partition // Note: Partitions are available only in Consul Enterprise Partition string // SamenessGroup is used find the SamenessGroup in the given // Partition and will find the failover order for the Service // from the SamenessGroup Members, with the given Partition being // the first member. // Note: SamenessGroups are available only in Consul Enterprise SamenessGroup string // Providing a datacenter overwrites the DC provided // by the Config Datacenter string // Providing a peer name in the query option Peer string // AllowStale allows any Consul server (non-leader) to service // a read. This allows for lower latency and higher throughput AllowStale bool // RequireConsistent forces the read to be fully consistent. // This is more expensive but prevents ever performing a stale // read. RequireConsistent bool // UseCache requests that the agent cache results locally. See // https://www.consul.io/api/features/caching.html for more details on the // semantics. UseCache bool // MaxAge limits how old a cached value will be returned if UseCache is true. // If there is a cached response that is older than the MaxAge, it is treated // as a cache miss and a new fetch invoked. If the fetch fails, the error is // returned. Clients that wish to allow for stale results on error can set // StaleIfError to a longer duration to change this behavior. It is ignored // if the endpoint supports background refresh caching. See // https://www.consul.io/api/features/caching.html for more details. MaxAge time.Duration // StaleIfError specifies how stale the client will accept a cached response // if the servers are unavailable to fetch a fresh one. Only makes sense when // UseCache is true and MaxAge is set to a lower, non-zero value. It is // ignored if the endpoint supports background refresh caching. See // https://www.consul.io/api/features/caching.html for more details. StaleIfError time.Duration // WaitIndex is used to enable a blocking query. Waits // until the timeout or the next index is reached WaitIndex uint64 // WaitHash is used by some endpoints instead of WaitIndex to perform blocking // on state based on a hash of the response rather than a monotonic index. // This is required when the state being blocked on is not stored in Raft, for // example agent-local proxy configuration. WaitHash string // WaitTime is used to bound the duration of a wait. // Defaults to that of the Config, but can be overridden. WaitTime time.Duration // Token is used to provide a per-request ACL token // which overrides the agent's default token. Token string // Near is used to provide a node name that will sort the results // in ascending order based on the estimated round trip time from // that node. Setting this to "_agent" will use the agent's node // for the sort. Near string // NodeMeta is used to filter results by nodes with the given // metadata key/value pairs. Currently, only one key/value pair can // be provided for filtering. NodeMeta map[string]string // RelayFactor is used in keyring operations to cause responses to be // relayed back to the sender through N other random nodes. Must be // a value from 0 to 5 (inclusive). RelayFactor uint8 // LocalOnly is used in keyring list operation to force the keyring // query to only hit local servers (no WAN traffic). LocalOnly bool // Connect filters prepared query execution to only include Connect-capable // services. This currently affects prepared query execution. Connect bool // ctx is an optional context pass through to the underlying HTTP // request layer. Use Context() and WithContext() to manage this. ctx context.Context // Filter requests filtering data prior to it being returned. The string // is a go-bexpr compatible expression. Filter string // MergeCentralConfig returns a service definition merged with the // proxy-defaults/global and service-defaults/:service config entries. // This can be used to ensure a full service definition is returned in the response // especially when the service might not be written into the catalog that way. MergeCentralConfig bool // Global is used to request information from all datacenters. Currently only // used for operator usage requests. Global bool } func (o *QueryOptions) Context() context.Context { if o != nil && o.ctx != nil { return o.ctx } return context.Background() } func (o *QueryOptions) WithContext(ctx context.Context) *QueryOptions { o2 := new(QueryOptions) if o != nil { *o2 = *o } o2.ctx = ctx return o2 } // WriteOptions are used to parameterize a write type WriteOptions struct { // Namespace overrides the `default` namespace // Note: Namespaces are available only in Consul Enterprise Namespace string // Partition overrides the `default` partition // Note: Partitions are available only in Consul Enterprise Partition string // Providing a datacenter overwrites the DC provided // by the Config Datacenter string // Token is used to provide a per-request ACL token // which overrides the agent's default token. Token string // RelayFactor is used in keyring operations to cause responses to be // relayed back to the sender through N other random nodes. Must be // a value from 0 to 5 (inclusive). RelayFactor uint8 // ctx is an optional context pass through to the underlying HTTP // request layer. Use Context() and WithContext() to manage this. ctx context.Context } func (o *WriteOptions) Context() context.Context { if o != nil && o.ctx != nil { return o.ctx } return context.Background() } func (o *WriteOptions) WithContext(ctx context.Context) *WriteOptions { o2 := new(WriteOptions) if o != nil { *o2 = *o } o2.ctx = ctx return o2 } // QueryMeta is used to return meta data about a query type QueryMeta struct { // LastIndex. This can be used as a WaitIndex to perform // a blocking query LastIndex uint64 // LastContentHash. This can be used as a WaitHash to perform a blocking query // for endpoints that support hash-based blocking. Endpoints that do not // support it will return an empty hash. LastContentHash string // Time of last contact from the leader for the // server servicing the request LastContact time.Duration // Is there a known leader KnownLeader bool // How long did the request take RequestTime time.Duration // Is address translation enabled for HTTP responses on this agent AddressTranslationEnabled bool // CacheHit is true if the result was served from agent-local cache. CacheHit bool // CacheAge is set if request was ?cached and indicates how stale the cached // response is. CacheAge time.Duration // QueryBackend represent which backend served the request. QueryBackend string // DefaultACLPolicy is used to control the ACL interaction when there is no // defined policy. This can be "allow" which means ACLs are used to // deny-list, or "deny" which means ACLs are allow-lists. DefaultACLPolicy string // ResultsFilteredByACLs is true when some of the query's results were // filtered out by enforcing ACLs. It may be false because nothing was // removed, or because the endpoint does not yet support this flag. ResultsFilteredByACLs bool } // WriteMeta is used to return meta data about a write type WriteMeta struct { // How long did the request take RequestTime time.Duration } // HttpBasicAuth is used to authenticate http client with HTTP Basic Authentication type HttpBasicAuth struct { // Username to use for HTTP Basic Authentication Username string // Password to use for HTTP Basic Authentication Password string } // Config is used to configure the creation of a client type Config struct { // Address is the address of the Consul server Address string // Scheme is the URI scheme for the Consul server Scheme string // Prefix for URIs for when consul is behind an API gateway (reverse // proxy). The API gateway must strip off the PathPrefix before // passing the request onto consul. PathPrefix string // Datacenter to use. If not provided, the default agent datacenter is used. Datacenter string // Transport is the Transport to use for the http client. Transport *http.Transport // HttpClient is the client to use. Default will be // used if not provided. HttpClient *http.Client // HttpAuth is the auth info to use for http access. HttpAuth *HttpBasicAuth // WaitTime limits how long a Watch will block. If not provided, // the agent default values will be used. WaitTime time.Duration // Token is used to provide a per-request ACL token // which overrides the agent's default token. Token string // TokenFile is a file containing the current token to use for this client. // If provided it is read once at startup and never again. TokenFile string // Namespace is the name of the namespace to send along for the request // when no other Namespace is present in the QueryOptions Namespace string // Partition is the name of the partition to send along for the request // when no other Partition is present in the QueryOptions Partition string TLSConfig TLSConfig } // TLSConfig is used to generate a TLSClientConfig that's useful for talking to // Consul using TLS. type TLSConfig struct { // Address is the optional address of the Consul server. The port, if any // will be removed from here and this will be set to the ServerName of the // resulting config. Address string // CAFile is the optional path to the CA certificate used for Consul // communication, defaults to the system bundle if not specified. CAFile string // CAPath is the optional path to a directory of CA certificates to use for // Consul communication, defaults to the system bundle if not specified. CAPath string // CAPem is the optional PEM-encoded CA certificate used for Consul // communication, defaults to the system bundle if not specified. CAPem []byte // CertFile is the optional path to the certificate for Consul // communication. If this is set then you need to also set KeyFile. CertFile string // CertPEM is the optional PEM-encoded certificate for Consul // communication. If this is set then you need to also set KeyPEM. CertPEM []byte // KeyFile is the optional path to the private key for Consul communication. // If this is set then you need to also set CertFile. KeyFile string // KeyPEM is the optional PEM-encoded private key for Consul communication. // If this is set then you need to also set CertPEM. KeyPEM []byte // InsecureSkipVerify if set to true will disable TLS host verification. InsecureSkipVerify bool } // DefaultConfig returns a default configuration for the client. By default this // will pool and reuse idle connections to Consul. If you have a long-lived // client object, this is the desired behavior and should make the most efficient // use of the connections to Consul. If you don't reuse a client object, which // is not recommended, then you may notice idle connections building up over // time. To avoid this, use the DefaultNonPooledConfig() instead. func DefaultConfig() *Config { return defaultConfig(nil, cleanhttp.DefaultPooledTransport) } // DefaultConfigWithLogger returns a default configuration for the client. It // is exactly the same as DefaultConfig, but allows for a pre-configured logger // object to be passed through. func DefaultConfigWithLogger(logger hclog.Logger) *Config { return defaultConfig(logger, cleanhttp.DefaultPooledTransport) } // DefaultNonPooledConfig returns a default configuration for the client which // does not pool connections. This isn't a recommended configuration because it // will reconnect to Consul on every request, but this is useful to avoid the // accumulation of idle connections if you make many client objects during the // lifetime of your application. func DefaultNonPooledConfig() *Config { return defaultConfig(nil, cleanhttp.DefaultTransport) } // defaultConfig returns the default configuration for the client, using the // given function to make the transport. func defaultConfig(logger hclog.Logger, transportFn func() *http.Transport) *Config { if logger == nil { logger = hclog.New(&hclog.LoggerOptions{ Name: "consul-api", }) } config := &Config{ Address: "127.0.0.1:8500", Scheme: "http", Transport: transportFn(), } if addr := os.Getenv(HTTPAddrEnvName); addr != "" { config.Address = addr } if tokenFile := os.Getenv(HTTPTokenFileEnvName); tokenFile != "" { config.TokenFile = tokenFile } if token := os.Getenv(HTTPTokenEnvName); token != "" { config.Token = token } if auth := os.Getenv(HTTPAuthEnvName); auth != "" { var username, password string if strings.Contains(auth, ":") { split := strings.SplitN(auth, ":", 2) username = split[0] password = split[1] } else { username = auth } config.HttpAuth = &HttpBasicAuth{ Username: username, Password: password, } } if ssl := os.Getenv(HTTPSSLEnvName); ssl != "" { enabled, err := strconv.ParseBool(ssl) if err != nil { logger.Warn(fmt.Sprintf("could not parse %s", HTTPSSLEnvName), "error", err) } if enabled { config.Scheme = "https" } } if v := os.Getenv(HTTPTLSServerName); v != "" { config.TLSConfig.Address = v } if v := os.Getenv(HTTPCAFile); v != "" { config.TLSConfig.CAFile = v } if v := os.Getenv(HTTPCAPath); v != "" { config.TLSConfig.CAPath = v } if v := os.Getenv(HTTPClientCert); v != "" { config.TLSConfig.CertFile = v } if v := os.Getenv(HTTPClientKey); v != "" { config.TLSConfig.KeyFile = v } if v := os.Getenv(HTTPSSLVerifyEnvName); v != "" { doVerify, err := strconv.ParseBool(v) if err != nil { logger.Warn(fmt.Sprintf("could not parse %s", HTTPSSLVerifyEnvName), "error", err) } if !doVerify { config.TLSConfig.InsecureSkipVerify = true } } if v := os.Getenv(HTTPNamespaceEnvName); v != "" { config.Namespace = v } if v := os.Getenv(HTTPPartitionEnvName); v != "" { config.Partition = v } return config } // TLSConfig is used to generate a TLSClientConfig that's useful for talking to // Consul using TLS. func SetupTLSConfig(tlsConfig *TLSConfig) (*tls.Config, error) { tlsClientConfig := &tls.Config{ InsecureSkipVerify: tlsConfig.InsecureSkipVerify, } if tlsConfig.Address != "" { server := tlsConfig.Address hasPort := strings.LastIndex(server, ":") > strings.LastIndex(server, "]") if hasPort { var err error server, _, err = net.SplitHostPort(server) if err != nil { return nil, err } } tlsClientConfig.ServerName = server } if len(tlsConfig.CertPEM) != 0 && len(tlsConfig.KeyPEM) != 0 { tlsCert, err := tls.X509KeyPair(tlsConfig.CertPEM, tlsConfig.KeyPEM) if err != nil { return nil, err } tlsClientConfig.Certificates = []tls.Certificate{tlsCert} } else if len(tlsConfig.CertPEM) != 0 || len(tlsConfig.KeyPEM) != 0 { return nil, fmt.Errorf("both client cert and client key must be provided") } if tlsConfig.CertFile != "" && tlsConfig.KeyFile != "" { tlsCert, err := tls.LoadX509KeyPair(tlsConfig.CertFile, tlsConfig.KeyFile) if err != nil { return nil, err } tlsClientConfig.Certificates = []tls.Certificate{tlsCert} } else if tlsConfig.CertFile != "" || tlsConfig.KeyFile != "" { return nil, fmt.Errorf("both client cert and client key must be provided") } if tlsConfig.CAFile != "" || tlsConfig.CAPath != "" || len(tlsConfig.CAPem) != 0 { rootConfig := &rootcerts.Config{ CAFile: tlsConfig.CAFile, CAPath: tlsConfig.CAPath, CACertificate: tlsConfig.CAPem, } if err := rootcerts.ConfigureTLS(tlsClientConfig, rootConfig); err != nil { return nil, err } } return tlsClientConfig, nil } func (c *Config) GenerateEnv() []string { env := make([]string, 0, 10) env = append(env, fmt.Sprintf("%s=%s", HTTPAddrEnvName, c.Address), fmt.Sprintf("%s=%s", HTTPTokenEnvName, c.Token), fmt.Sprintf("%s=%s", HTTPTokenFileEnvName, c.TokenFile), fmt.Sprintf("%s=%t", HTTPSSLEnvName, c.Scheme == "https"), fmt.Sprintf("%s=%s", HTTPCAFile, c.TLSConfig.CAFile), fmt.Sprintf("%s=%s", HTTPCAPath, c.TLSConfig.CAPath), fmt.Sprintf("%s=%s", HTTPClientCert, c.TLSConfig.CertFile), fmt.Sprintf("%s=%s", HTTPClientKey, c.TLSConfig.KeyFile), fmt.Sprintf("%s=%s", HTTPTLSServerName, c.TLSConfig.Address), fmt.Sprintf("%s=%t", HTTPSSLVerifyEnvName, !c.TLSConfig.InsecureSkipVerify)) if c.HttpAuth != nil { env = append(env, fmt.Sprintf("%s=%s:%s", HTTPAuthEnvName, c.HttpAuth.Username, c.HttpAuth.Password)) } else { env = append(env, fmt.Sprintf("%s=", HTTPAuthEnvName)) } return env } // Client provides a client to the Consul API type Client struct { modifyLock sync.RWMutex headers http.Header config Config } // Headers gets the current set of headers used for requests. This returns a // copy; to modify it call AddHeader or SetHeaders. func (c *Client) Headers() http.Header { c.modifyLock.RLock() defer c.modifyLock.RUnlock() if c.headers == nil { return nil } ret := make(http.Header) for k, v := range c.headers { for _, val := range v { ret[k] = append(ret[k], val) } } return ret } // AddHeader allows a single header key/value pair to be added // in a race-safe fashion. func (c *Client) AddHeader(key, value string) { c.modifyLock.Lock() defer c.modifyLock.Unlock() c.headers.Add(key, value) } // SetHeaders clears all previous headers and uses only the given // ones going forward. func (c *Client) SetHeaders(headers http.Header) { c.modifyLock.Lock() defer c.modifyLock.Unlock() c.headers = headers } // NewClient returns a new client func NewClient(config *Config) (*Client, error) { // bootstrap the config defConfig := DefaultConfig() if config.Address == "" { config.Address = defConfig.Address } if config.Scheme == "" { config.Scheme = defConfig.Scheme } if config.Transport == nil { config.Transport = defConfig.Transport } if config.TLSConfig.Address == "" { config.TLSConfig.Address = defConfig.TLSConfig.Address } if config.TLSConfig.CAFile == "" { config.TLSConfig.CAFile = defConfig.TLSConfig.CAFile } if config.TLSConfig.CAPath == "" { config.TLSConfig.CAPath = defConfig.TLSConfig.CAPath } if config.TLSConfig.CertFile == "" { config.TLSConfig.CertFile = defConfig.TLSConfig.CertFile } if config.TLSConfig.KeyFile == "" { config.TLSConfig.KeyFile = defConfig.TLSConfig.KeyFile } if !config.TLSConfig.InsecureSkipVerify { config.TLSConfig.InsecureSkipVerify = defConfig.TLSConfig.InsecureSkipVerify } if config.HttpClient == nil { var err error config.HttpClient, err = NewHttpClient(config.Transport, config.TLSConfig) if err != nil { return nil, err } } if config.Namespace == "" { config.Namespace = defConfig.Namespace } if config.Partition == "" { config.Partition = defConfig.Partition } parts := strings.SplitN(config.Address, "://", 2) if len(parts) == 2 { switch parts[0] { case "http": // Never revert to http if TLS was explicitly requested. case "https": config.Scheme = "https" case "unix": trans := cleanhttp.DefaultTransport() trans.DialContext = func(_ context.Context, _, _ string) (net.Conn, error) { return net.Dial("unix", parts[1]) } httpClient, err := NewHttpClient(trans, config.TLSConfig) if err != nil { return nil, err } config.HttpClient = httpClient default: return nil, fmt.Errorf("Unknown protocol scheme: %s", parts[0]) } config.Address = parts[1] // separate out a reverse proxy prefix, if it is present. // NOTE: Rewriting this code to use url.Parse() instead of // strings.SplitN() breaks existing test cases. switch parts[0] { case "http", "https": parts := strings.SplitN(parts[1], "/", 2) if len(parts) == 2 { config.Address = parts[0] config.PathPrefix = "/" + parts[1] } } } // If the TokenFile is set, always use that, even if a Token is configured. // This is because when TokenFile is set it is read into the Token field. // We want any derived clients to have to re-read the token file. // The precedence of ACL token should be: // 1. -token-file cli option // 2. -token cli option // 3. CONSUL_HTTP_TOKEN_FILE environment variable // 4. CONSUL_HTTP_TOKEN environment variable if config.TokenFile != "" && config.TokenFile != defConfig.TokenFile { data, err := os.ReadFile(config.TokenFile) if err != nil { return nil, fmt.Errorf("Error loading token file %s : %s", config.TokenFile, err) } if token := strings.TrimSpace(string(data)); token != "" { config.Token = token } } else if config.Token != "" && defConfig.Token != config.Token { // Fall through } else if defConfig.TokenFile != "" { data, err := os.ReadFile(defConfig.TokenFile) if err != nil { return nil, fmt.Errorf("Error loading token file %s : %s", defConfig.TokenFile, err) } if token := strings.TrimSpace(string(data)); token != "" { config.Token = token config.TokenFile = defConfig.TokenFile } } else { config.Token = defConfig.Token } return &Client{config: *config, headers: make(http.Header)}, nil } // NewHttpClient returns an http client configured with the given Transport and TLS // config. func NewHttpClient(transport *http.Transport, tlsConf TLSConfig) (*http.Client, error) { client := &http.Client{ Transport: transport, } // TODO (slackpad) - Once we get some run time on the HTTP/2 support we // should turn it on by default if TLS is enabled. We would basically // just need to call http2.ConfigureTransport(transport) here. We also // don't want to introduce another external dependency on // golang.org/x/net/http2 at this time. For a complete recipe for how // to enable HTTP/2 support on a transport suitable for the API client // library see agent/http_test.go:TestHTTPServer_H2. if transport.TLSClientConfig == nil { tlsClientConfig, err := SetupTLSConfig(&tlsConf) if err != nil { return nil, err } transport.TLSClientConfig = tlsClientConfig } return client, nil } // request is used to help build up a request type request struct { config *Config method string url *url.URL params url.Values body io.Reader header http.Header obj interface{} ctx context.Context } // setQueryOptions is used to annotate the request with // additional query options func (r *request) setQueryOptions(q *QueryOptions) { if q == nil { return } if q.Namespace != "" { // For backwards-compatibility with existing tests, // use the short-hand query param name "ns" // rather than the alternative long-hand "namespace" r.params.Set("ns", q.Namespace) } if q.Partition != "" { // For backwards-compatibility with existing tests, // use the long-hand query param name "partition" // rather than the alternative short-hand "ap" r.params.Set("partition", q.Partition) } if q.SamenessGroup != "" { // For backwards-compatibility with existing tests, // use the long-hand query param name "sameness-group" // rather than the alternative short-hand "sg" r.params.Set("sameness-group", q.SamenessGroup) } if q.Datacenter != "" { // For backwards-compatibility with existing tests, // use the short-hand query param name "dc" // rather than the alternative long-hand "datacenter" r.params.Set("dc", q.Datacenter) } if q.Peer != "" { r.params.Set("peer", q.Peer) } if q.AllowStale { r.params.Set("stale", "") } if q.RequireConsistent { r.params.Set("consistent", "") } if q.WaitIndex != 0 { r.params.Set("index", strconv.FormatUint(q.WaitIndex, 10)) } if q.WaitTime != 0 { r.params.Set("wait", durToMsec(q.WaitTime)) } if q.WaitHash != "" { r.params.Set("hash", q.WaitHash) } if q.Token != "" { r.header.Set("X-Consul-Token", q.Token) } if q.Near != "" { r.params.Set("near", q.Near) } if q.Filter != "" { r.params.Set("filter", q.Filter) } if len(q.NodeMeta) > 0 { for key, value := range q.NodeMeta { r.params.Add("node-meta", key+":"+value) } } if q.RelayFactor != 0 { r.params.Set("relay-factor", strconv.Itoa(int(q.RelayFactor))) } if q.LocalOnly { r.params.Set("local-only", fmt.Sprintf("%t", q.LocalOnly)) } if q.Connect { r.params.Set("connect", "true") } if q.UseCache && !q.RequireConsistent { r.params.Set("cached", "") cc := []string{} if q.MaxAge > 0 { cc = append(cc, fmt.Sprintf("max-age=%.0f", q.MaxAge.Seconds())) } if q.StaleIfError > 0 { cc = append(cc, fmt.Sprintf("stale-if-error=%.0f", q.StaleIfError.Seconds())) } if len(cc) > 0 { r.header.Set("Cache-Control", strings.Join(cc, ", ")) } } if q.MergeCentralConfig { r.params.Set("merge-central-config", "") } if q.Global { r.params.Set("global", "") } r.ctx = q.ctx } // durToMsec converts a duration to a millisecond specified string. If the // user selected a positive value that rounds to 0 ms, then we will use 1 ms // so they get a short delay, otherwise Consul will translate the 0 ms into // a huge default delay. func durToMsec(dur time.Duration) string { ms := dur / time.Millisecond if dur > 0 && ms == 0 { ms = 1 } return fmt.Sprintf("%dms", ms) } // serverError is a string we look for to detect 500 errors. const serverError = "Unexpected response code: 500" // IsRetryableError returns true for 500 errors from the Consul servers, and // network connection errors. These are usually retryable at a later time. // This applies to reads but NOT to writes. This may return true for errors // on writes that may have still gone through, so do not use this to retry // any write operations. func IsRetryableError(err error) bool { if err == nil { return false } if _, ok := err.(net.Error); ok { return true } // TODO (slackpad) - Make a real error type here instead of using // a string check. return strings.Contains(err.Error(), serverError) } // setWriteOptions is used to annotate the request with // additional write options func (r *request) setWriteOptions(q *WriteOptions) { if q == nil { return } // For backwards-compatibility, continue to use the shorthand "ns" // rather than "namespace" if q.Namespace != "" { r.params.Set("ns", q.Namespace) } if q.Partition != "" { r.params.Set("partition", q.Partition) } // For backwards-compatibility, continue to use the shorthand "dc" // rather than "datacenter" if q.Datacenter != "" { r.params.Set("dc", q.Datacenter) } if q.Token != "" { r.header.Set("X-Consul-Token", q.Token) } if q.RelayFactor != 0 { r.params.Set("relay-factor", strconv.Itoa(int(q.RelayFactor))) } r.ctx = q.ctx } // toHTTP converts the request to an HTTP request func (r *request) toHTTP() (*http.Request, error) { // Encode the query parameters r.url.RawQuery = r.params.Encode() // Check if we should encode the body if r.body == nil && r.obj != nil { b, err := encodeBody(r.obj) if err != nil { return nil, err } r.body = b } // Create the HTTP request req, err := http.NewRequest(r.method, r.url.RequestURI(), r.body) if err != nil { return nil, err } // validate that socket communications that do not use the host, detect // slashes in the host name and replace it with local host. // this is required since go started validating req.host in 1.20.6 and 1.19.11. // prior to that they would strip out the slashes for you. They removed that // behavior and added more strict validation as part of a CVE. // This issue is being tracked by the Go team: // https://github.com/golang/go/issues/61431 // If there is a resolution in this issue, we will remove this code. // In the time being, this is the accepted workaround. if strings.HasPrefix(r.url.Host, "/") { r.url.Host = "localhost" } req.URL.Host = r.url.Host req.URL.Scheme = r.url.Scheme req.Host = r.url.Host req.Header = r.header // Content-Type must always be set when a body is present // See https://github.com/hashicorp/consul/issues/10011 if req.Body != nil && req.Header.Get("Content-Type") == "" { req.Header.Set("Content-Type", "application/json") } // Setup auth if r.config.HttpAuth != nil { req.SetBasicAuth(r.config.HttpAuth.Username, r.config.HttpAuth.Password) } if r.ctx != nil { return req.WithContext(r.ctx), nil } return req, nil } // newRequest is used to create a new request func (c *Client) newRequest(method, path string) *request { r := &request{ config: &c.config, method: method, url: &url.URL{ Scheme: c.config.Scheme, Host: c.config.Address, Path: c.config.PathPrefix + path, }, params: make(map[string][]string), header: c.Headers(), } if c.config.Datacenter != "" { r.params.Set("dc", c.config.Datacenter) } if c.config.Namespace != "" { r.params.Set("ns", c.config.Namespace) } if c.config.Partition != "" { r.params.Set("partition", c.config.Partition) } if c.config.WaitTime != 0 { r.params.Set("wait", durToMsec(r.config.WaitTime)) } if c.config.Token != "" { r.header.Set("X-Consul-Token", r.config.Token) } return r } // doRequest runs a request with our client func (c *Client) doRequest(r *request) (time.Duration, *http.Response, error) { req, err := r.toHTTP() if err != nil { return 0, nil, err } start := time.Now() resp, err := c.config.HttpClient.Do(req) diff := time.Since(start) return diff, resp, err } // Query is used to do a GET request against an endpoint // and deserialize the response into an interface using // standard Consul conventions. func (c *Client) query(endpoint string, out interface{}, q *QueryOptions) (*QueryMeta, error) { r := c.newRequest("GET", endpoint) r.setQueryOptions(q) rtt, resp, err := c.doRequest(r) if err != nil { return nil, err } defer closeResponseBody(resp) if err := requireOK(resp); err != nil { return nil, err } qm := &QueryMeta{} parseQueryMeta(resp, qm) qm.RequestTime = rtt if err := decodeBody(resp, out); err != nil { return nil, err } return qm, nil } // write is used to do a PUT request against an endpoint // and serialize/deserialized using the standard Consul conventions. func (c *Client) write(endpoint string, in, out interface{}, q *WriteOptions) (*WriteMeta, error) { r := c.newRequest("PUT", endpoint) r.setWriteOptions(q) r.obj = in rtt, resp, err := c.doRequest(r) if err != nil { return nil, err } defer closeResponseBody(resp) if err := requireOK(resp); err != nil { return nil, err } wm := &WriteMeta{RequestTime: rtt} if out != nil { if err := decodeBody(resp, &out); err != nil { return nil, err } } else if _, err := io.ReadAll(resp.Body); err != nil { return nil, err } return wm, nil } // delete is used to do a DELETE request against an endpoint func (c *Client) delete(endpoint string, q *QueryOptions) (*WriteMeta, error) { r := c.newRequest("DELETE", endpoint) r.setQueryOptions(q) rtt, resp, err := c.doRequest(r) if err != nil { return nil, err } defer closeResponseBody(resp) if err = requireHttpCodes(resp, 204, 200); err != nil { return nil, err } wm := &WriteMeta{RequestTime: rtt} return wm, nil } // parseQueryMeta is used to help parse query meta-data // // TODO(rb): bug? the error from this function is never handled func parseQueryMeta(resp *http.Response, q *QueryMeta) error { header := resp.Header // Parse the X-Consul-Index (if it's set - hash based blocking queries don't // set this) if indexStr := header.Get("X-Consul-Index"); indexStr != "" { index, err := strconv.ParseUint(indexStr, 10, 64) if err != nil { return fmt.Errorf("Failed to parse X-Consul-Index: %v", err) } q.LastIndex = index } q.LastContentHash = header.Get("X-Consul-ContentHash") // Parse the X-Consul-LastContact last, err := strconv.ParseUint(header.Get("X-Consul-LastContact"), 10, 64) if err != nil { return fmt.Errorf("Failed to parse X-Consul-LastContact: %v", err) } q.LastContact = time.Duration(last) * time.Millisecond // Parse the X-Consul-KnownLeader switch header.Get("X-Consul-KnownLeader") { case "true": q.KnownLeader = true default: q.KnownLeader = false } // Parse X-Consul-Translate-Addresses switch header.Get("X-Consul-Translate-Addresses") { case "true": q.AddressTranslationEnabled = true default: q.AddressTranslationEnabled = false } // Parse X-Consul-Default-ACL-Policy switch v := header.Get("X-Consul-Default-ACL-Policy"); v { case "allow", "deny": q.DefaultACLPolicy = v } // Parse the X-Consul-Results-Filtered-By-ACLs switch header.Get("X-Consul-Results-Filtered-By-ACLs") { case "true": q.ResultsFilteredByACLs = true default: q.ResultsFilteredByACLs = false } // Parse Cache info if cacheStr := header.Get("X-Cache"); cacheStr != "" { q.CacheHit = strings.EqualFold(cacheStr, "HIT") } if ageStr := header.Get("Age"); ageStr != "" { age, err := strconv.ParseUint(ageStr, 10, 64) if err != nil { return fmt.Errorf("Failed to parse Age Header: %v", err) } q.CacheAge = time.Duration(age) * time.Second } switch v := header.Get("X-Consul-Query-Backend"); v { case QueryBackendStreaming, QueryBackendBlockingQuery: q.QueryBackend = v } return nil } // decodeBody is used to JSON decode a body func decodeBody(resp *http.Response, out interface{}) error { dec := json.NewDecoder(resp.Body) return dec.Decode(out) } // encodeBody is used to encode a request body func encodeBody(obj interface{}) (io.Reader, error) { buf := bytes.NewBuffer(nil) enc := json.NewEncoder(buf) if err := enc.Encode(obj); err != nil { return nil, err } return buf, nil } // requireOK is used to wrap doRequest and check for a 200 func requireOK(resp *http.Response) error { return requireHttpCodes(resp, 200) } // requireHttpCodes checks for the "allowable" http codes for a response func requireHttpCodes(resp *http.Response, httpCodes ...int) error { // if there is an http code that we require, return w no error for _, httpCode := range httpCodes { if resp.StatusCode == httpCode { return nil } } // if we reached here, then none of the http codes in resp matched any that we expected // so err out return generateUnexpectedResponseCodeError(resp) } // closeResponseBody reads resp.Body until EOF, and then closes it. The read // is necessary to ensure that the http.Client's underlying RoundTripper is able // to re-use the TCP connection. See godoc on net/http.Client.Do. func closeResponseBody(resp *http.Response) error { _, _ = io.Copy(io.Discard, resp.Body) return resp.Body.Close() } func (req *request) filterQuery(filter string) { if filter == "" { return } req.params.Set("filter", filter) } // generateUnexpectedResponseCodeError consumes the rest of the body, closes // the body stream and generates an error indicating the status code was // unexpected. func generateUnexpectedResponseCodeError(resp *http.Response) error { var buf bytes.Buffer io.Copy(&buf, resp.Body) closeResponseBody(resp) trimmed := strings.TrimSpace(string(buf.Bytes())) return StatusError{Code: resp.StatusCode, Body: trimmed} } func requireNotFoundOrOK(resp *http.Response) (bool, *http.Response, error) { switch resp.StatusCode { case 200: return true, resp, nil case 404: return false, resp, nil default: return false, nil, generateUnexpectedResponseCodeError(resp) } }