package swift import ( "bufio" "bytes" "crypto/hmac" "crypto/md5" "crypto/sha1" "encoding/hex" "encoding/json" "fmt" "hash" "io" "mime" "net/http" "net/url" "path" "strconv" "strings" "sync" "time" ) const ( DefaultUserAgent = "goswift/1.0" // Default user agent DefaultRetries = 3 // Default number of retries on token expiry TimeFormat = "2006-01-02T15:04:05" // Python date format for json replies parsed as UTC UploadTar = "tar" // Data format specifier for Connection.BulkUpload(). UploadTarGzip = "tar.gz" // Data format specifier for Connection.BulkUpload(). UploadTarBzip2 = "tar.bz2" // Data format specifier for Connection.BulkUpload(). allContainersLimit = 10000 // Number of containers to fetch at once allObjectsLimit = 10000 // Number objects to fetch at once allObjectsChanLimit = 1000 // ...when fetching to a channel ) // Connection holds the details of the connection to the swift server. // // You need to provide UserName, ApiKey and AuthUrl when you create a // connection then call Authenticate on it. // // The auth version in use will be detected from the AuthURL - you can // override this with the AuthVersion parameter. // // If using v2 auth you can also set Region in the Connection // structure. If you don't set Region you will get the default region // which may not be what you want. // // For reference some common AuthUrls looks like this: // // Rackspace US https://auth.api.rackspacecloud.com/v1.0 // Rackspace UK https://lon.auth.api.rackspacecloud.com/v1.0 // Rackspace v2 https://identity.api.rackspacecloud.com/v2.0 // Memset Memstore UK https://auth.storage.memset.com/v1.0 // Memstore v2 https://auth.storage.memset.com/v2.0 // // When using Google Appengine you must provide the Connection with an // appengine-specific Transport: // // import ( // "appengine/urlfetch" // "fmt" // "github.com/ncw/swift" // ) // // func handler(w http.ResponseWriter, r *http.Request) { // ctx := appengine.NewContext(r) // tr := urlfetch.Transport{Context: ctx} // c := swift.Connection{ // UserName: "user", // ApiKey: "key", // AuthUrl: "auth_url", // Transport: tr, // } // _ := c.Authenticate() // containers, _ := c.ContainerNames(nil) // fmt.Fprintf(w, "containers: %q", containers) // } // // If you don't supply a Transport, one is made which relies on // http.ProxyFromEnvironment (http://golang.org/pkg/net/http/#ProxyFromEnvironment). // This means that the connection will respect the HTTP proxy specified by the // environment variables $HTTP_PROXY and $NO_PROXY. type Connection struct { // Parameters - fill these in before calling Authenticate // They are all optional except UserName, ApiKey and AuthUrl Domain string // User's domain name DomainId string // User's domain Id UserName string // UserName for api ApiKey string // Key for api access AuthUrl string // Auth URL Retries int // Retries on error (default is 3) UserAgent string // Http User agent (default goswift/1.0) ConnectTimeout time.Duration // Connect channel timeout (default 10s) Timeout time.Duration // Data channel timeout (default 60s) Region string // Region to use eg "LON", "ORD" - default is use first region (v2,v3 auth only) AuthVersion int // Set to 1, 2 or 3 or leave at 0 for autodetect Internal bool // Set this to true to use the the internal / service network Tenant string // Name of the tenant (v2,v3 auth only) TenantId string // Id of the tenant (v2,v3 auth only) EndpointType EndpointType // Endpoint type (v2,v3 auth only) (default is public URL unless Internal is set) TenantDomain string // Name of the tenant's domain (v3 auth only), only needed if it differs from the user domain TenantDomainId string // Id of the tenant's domain (v3 auth only), only needed if it differs the from user domain TrustId string // Id of the trust (v3 auth only) Transport http.RoundTripper `json:"-" xml:"-"` // Optional specialised http.Transport (eg. for Google Appengine) // These are filled in after Authenticate is called as are the defaults for above StorageUrl string AuthToken string client *http.Client Auth Authenticator `json:"-" xml:"-"` // the current authenticator authLock sync.Mutex // lock when R/W StorageUrl, AuthToken, Auth } // Error - all errors generated by this package are of this type. Other error // may be passed on from library functions though. type Error struct { StatusCode int // HTTP status code if relevant or 0 if not Text string } // Error satisfy the error interface. func (e *Error) Error() string { return e.Text } // newError make a new error from a string. func newError(StatusCode int, Text string) *Error { return &Error{ StatusCode: StatusCode, Text: Text, } } // newErrorf makes a new error from sprintf parameters. func newErrorf(StatusCode int, Text string, Parameters ...interface{}) *Error { return newError(StatusCode, fmt.Sprintf(Text, Parameters...)) } // errorMap defines http error codes to error mappings. type errorMap map[int]error var ( // Specific Errors you might want to check for equality BadRequest = newError(400, "Bad Request") AuthorizationFailed = newError(401, "Authorization Failed") ContainerNotFound = newError(404, "Container Not Found") ContainerNotEmpty = newError(409, "Container Not Empty") ObjectNotFound = newError(404, "Object Not Found") ObjectCorrupted = newError(422, "Object Corrupted") TimeoutError = newError(408, "Timeout when reading or writing data") Forbidden = newError(403, "Operation forbidden") TooLargeObject = newError(413, "Too Large Object") // Mappings for authentication errors authErrorMap = errorMap{ 400: BadRequest, 401: AuthorizationFailed, 403: Forbidden, } // Mappings for container errors ContainerErrorMap = errorMap{ 400: BadRequest, 403: Forbidden, 404: ContainerNotFound, 409: ContainerNotEmpty, } // Mappings for object errors objectErrorMap = errorMap{ 400: BadRequest, 403: Forbidden, 404: ObjectNotFound, 413: TooLargeObject, 422: ObjectCorrupted, } ) // checkClose is used to check the return from Close in a defer // statement. func checkClose(c io.Closer, err *error) { cerr := c.Close() if *err == nil { *err = cerr } } // parseHeaders checks a response for errors and translates into // standard errors if necessary. func (c *Connection) parseHeaders(resp *http.Response, errorMap errorMap) error { if errorMap != nil { if err, ok := errorMap[resp.StatusCode]; ok { return err } } if resp.StatusCode < 200 || resp.StatusCode > 299 { return newErrorf(resp.StatusCode, "HTTP Error: %d: %s", resp.StatusCode, resp.Status) } return nil } // readHeaders returns a Headers object from the http.Response. // // If it receives multiple values for a key (which should never // happen) it will use the first one func readHeaders(resp *http.Response) Headers { headers := Headers{} for key, values := range resp.Header { headers[key] = values[0] } return headers } // Headers stores HTTP headers (can only have one of each header like Swift). type Headers map[string]string // Does an http request using the running timer passed in func (c *Connection) doTimeoutRequest(timer *time.Timer, req *http.Request) (*http.Response, error) { // Do the request in the background so we can check the timeout type result struct { resp *http.Response err error } done := make(chan result, 1) go func() { resp, err := c.client.Do(req) done <- result{resp, err} }() // Wait for the read or the timeout select { case r := <-done: return r.resp, r.err case <-timer.C: // Kill the connection on timeout so we don't leak sockets or goroutines cancelRequest(c.Transport, req) return nil, TimeoutError } panic("unreachable") // For Go 1.0 } // Set defaults for any unset values // // Call with authLock held func (c *Connection) setDefaults() { if c.UserAgent == "" { c.UserAgent = DefaultUserAgent } if c.Retries == 0 { c.Retries = DefaultRetries } if c.ConnectTimeout == 0 { c.ConnectTimeout = 10 * time.Second } if c.Timeout == 0 { c.Timeout = 60 * time.Second } if c.Transport == nil { c.Transport = &http.Transport{ // TLSClientConfig: &tls.Config{RootCAs: pool}, // DisableCompression: true, Proxy: http.ProxyFromEnvironment, MaxIdleConnsPerHost: 2048, } } if c.client == nil { c.client = &http.Client{ // CheckRedirect: redirectPolicyFunc, Transport: c.Transport, } } } // Authenticate connects to the Swift server. // // If you don't call it before calling one of the connection methods // then it will be called for you on the first access. func (c *Connection) Authenticate() (err error) { c.authLock.Lock() defer c.authLock.Unlock() return c.authenticate() } // Internal implementation of Authenticate // // Call with authLock held func (c *Connection) authenticate() (err error) { c.setDefaults() // Flush the keepalives connection - if we are // re-authenticating then stuff has gone wrong flushKeepaliveConnections(c.Transport) if c.Auth == nil { c.Auth, err = newAuth(c) if err != nil { return } } retries := 1 again: var req *http.Request req, err = c.Auth.Request(c) if err != nil { return } if req != nil { timer := time.NewTimer(c.ConnectTimeout) var resp *http.Response resp, err = c.doTimeoutRequest(timer, req) if err != nil { return } defer func() { checkClose(resp.Body, &err) // Flush the auth connection - we don't want to keep // it open if keepalives were enabled flushKeepaliveConnections(c.Transport) }() if err = c.parseHeaders(resp, authErrorMap); err != nil { // Try again for a limited number of times on // AuthorizationFailed or BadRequest. This allows us // to try some alternate forms of the request if (err == AuthorizationFailed || err == BadRequest) && retries > 0 { retries-- goto again } return } err = c.Auth.Response(resp) if err != nil { return } } if customAuth, isCustom := c.Auth.(CustomEndpointAuthenticator); isCustom && c.EndpointType != "" { c.StorageUrl = customAuth.StorageUrlForEndpoint(c.EndpointType) } else { c.StorageUrl = c.Auth.StorageUrl(c.Internal) } c.AuthToken = c.Auth.Token() if !c.authenticated() { err = newError(0, "Response didn't have storage url and auth token") return } return } // Get an authToken and url // // The Url may be updated if it needed to authenticate using the OnReAuth function func (c *Connection) getUrlAndAuthToken(targetUrlIn string, OnReAuth func() (string, error)) (targetUrlOut, authToken string, err error) { c.authLock.Lock() defer c.authLock.Unlock() targetUrlOut = targetUrlIn if !c.authenticated() { err = c.authenticate() if err != nil { return } if OnReAuth != nil { targetUrlOut, err = OnReAuth() if err != nil { return } } } authToken = c.AuthToken return } // flushKeepaliveConnections is called to flush pending requests after an error. func flushKeepaliveConnections(transport http.RoundTripper) { if tr, ok := transport.(interface { CloseIdleConnections() }); ok { tr.CloseIdleConnections() } } // UnAuthenticate removes the authentication from the Connection. func (c *Connection) UnAuthenticate() { c.authLock.Lock() c.StorageUrl = "" c.AuthToken = "" c.authLock.Unlock() } // Authenticated returns a boolean to show if the current connection // is authenticated. // // Doesn't actually check the credentials against the server. func (c *Connection) Authenticated() bool { c.authLock.Lock() defer c.authLock.Unlock() return c.authenticated() } // Internal version of Authenticated() // // Call with authLock held func (c *Connection) authenticated() bool { return c.StorageUrl != "" && c.AuthToken != "" } // SwiftInfo contains the JSON object returned by Swift when the /info // route is queried. The object contains, among others, the Swift version, // the enabled middlewares and their configuration type SwiftInfo map[string]interface{} // Discover Swift configuration by doing a request against /info func (c *Connection) QueryInfo() (infos SwiftInfo, err error) { infoUrl, err := url.Parse(c.StorageUrl) if err != nil { return nil, err } infoUrl.Path = path.Join(infoUrl.Path, "..", "..", "info") resp, err := http.Get(infoUrl.String()) if err == nil { err = readJson(resp, &infos) return infos, err } return nil, err } // RequestOpts contains parameters for Connection.storage. type RequestOpts struct { Container string ObjectName string Operation string Parameters url.Values Headers Headers ErrorMap errorMap NoResponse bool Body io.Reader Retries int // if set this is called on re-authentication to refresh the targetUrl OnReAuth func() (string, error) } // Call runs a remote command on the targetUrl, returns a // response, headers and possible error. // // operation is GET, HEAD etc // container is the name of a container // Any other parameters (if not None) are added to the targetUrl // // Returns a response or an error. If response is returned then // resp.Body.Close() must be called on it, unless noResponse is set in // which case the body will be closed in this function // // If "Content-Length" is set in p.Headers it will be used - this can // be used to override the default chunked transfer encoding for // uploads. // // This will Authenticate if necessary, and re-authenticate if it // receives a 401 error which means the token has expired // // This method is exported so extensions can call it. func (c *Connection) Call(targetUrl string, p RequestOpts) (resp *http.Response, headers Headers, err error) { c.authLock.Lock() c.setDefaults() c.authLock.Unlock() retries := p.Retries if retries == 0 { retries = c.Retries } var req *http.Request for { var authToken string if targetUrl, authToken, err = c.getUrlAndAuthToken(targetUrl, p.OnReAuth); err != nil { return //authentication failure } var URL *url.URL URL, err = url.Parse(targetUrl) if err != nil { return } if p.Container != "" { URL.Path += "/" + p.Container if p.ObjectName != "" { URL.Path += "/" + p.ObjectName } } if p.Parameters != nil { URL.RawQuery = p.Parameters.Encode() } timer := time.NewTimer(c.ConnectTimeout) reader := p.Body if reader != nil { reader = newWatchdogReader(reader, c.Timeout, timer) } req, err = http.NewRequest(p.Operation, URL.String(), reader) if err != nil { return } if p.Headers != nil { for k, v := range p.Headers { // Set ContentLength in req if the user passed it in in the headers if k == "Content-Length" { contentLength, err := strconv.ParseInt(v, 10, 64) if err != nil { return nil, nil, fmt.Errorf("Invalid %q header %q: %v", k, v, err) } req.ContentLength = contentLength } else { req.Header.Add(k, v) } } } req.Header.Add("User-Agent", c.UserAgent) req.Header.Add("X-Auth-Token", authToken) resp, err = c.doTimeoutRequest(timer, req) if err != nil { if (p.Operation == "HEAD" || p.Operation == "GET") && retries > 0 { retries-- continue } return nil, nil, err } // Check to see if token has expired if resp.StatusCode == 401 && retries > 0 { _ = resp.Body.Close() c.UnAuthenticate() retries-- } else { break } } if err = c.parseHeaders(resp, p.ErrorMap); err != nil { _ = resp.Body.Close() return nil, nil, err } headers = readHeaders(resp) if p.NoResponse { err = resp.Body.Close() if err != nil { return nil, nil, err } } else { // Cancel the request on timeout cancel := func() { cancelRequest(c.Transport, req) } // Wrap resp.Body to make it obey an idle timeout resp.Body = newTimeoutReader(resp.Body, c.Timeout, cancel) } return } // storage runs a remote command on a the storage url, returns a // response, headers and possible error. // // operation is GET, HEAD etc // container is the name of a container // Any other parameters (if not None) are added to the storage url // // Returns a response or an error. If response is returned then // resp.Body.Close() must be called on it, unless noResponse is set in // which case the body will be closed in this function // // This will Authenticate if necessary, and re-authenticate if it // receives a 401 error which means the token has expired func (c *Connection) storage(p RequestOpts) (resp *http.Response, headers Headers, err error) { p.OnReAuth = func() (string, error) { return c.StorageUrl, nil } c.authLock.Lock() url := c.StorageUrl c.authLock.Unlock() return c.Call(url, p) } // readLines reads the response into an array of strings. // // Closes the response when done func readLines(resp *http.Response) (lines []string, err error) { defer checkClose(resp.Body, &err) reader := bufio.NewReader(resp.Body) buffer := bytes.NewBuffer(make([]byte, 0, 128)) var part []byte var prefix bool for { if part, prefix, err = reader.ReadLine(); err != nil { break } buffer.Write(part) if !prefix { lines = append(lines, buffer.String()) buffer.Reset() } } if err == io.EOF { err = nil } return } // readJson reads the response into the json type passed in // // Closes the response when done func readJson(resp *http.Response, result interface{}) (err error) { defer checkClose(resp.Body, &err) decoder := json.NewDecoder(resp.Body) return decoder.Decode(result) } /* ------------------------------------------------------------ */ // ContainersOpts is options for Containers() and ContainerNames() type ContainersOpts struct { Limit int // For an integer value n, limits the number of results to at most n values. Prefix string // Given a string value x, return container names matching the specified prefix. Marker string // Given a string value x, return container names greater in value than the specified marker. EndMarker string // Given a string value x, return container names less in value than the specified marker. Headers Headers // Any additional HTTP headers - can be nil } // parse the ContainerOpts func (opts *ContainersOpts) parse() (url.Values, Headers) { v := url.Values{} var h Headers if opts != nil { if opts.Limit > 0 { v.Set("limit", strconv.Itoa(opts.Limit)) } if opts.Prefix != "" { v.Set("prefix", opts.Prefix) } if opts.Marker != "" { v.Set("marker", opts.Marker) } if opts.EndMarker != "" { v.Set("end_marker", opts.EndMarker) } h = opts.Headers } return v, h } // ContainerNames returns a slice of names of containers in this account. func (c *Connection) ContainerNames(opts *ContainersOpts) ([]string, error) { v, h := opts.parse() resp, _, err := c.storage(RequestOpts{ Operation: "GET", Parameters: v, ErrorMap: ContainerErrorMap, Headers: h, }) if err != nil { return nil, err } lines, err := readLines(resp) return lines, err } // Container contains information about a container type Container struct { Name string // Name of the container Count int64 // Number of objects in the container Bytes int64 // Total number of bytes used in the container } // Containers returns a slice of structures with full information as // described in Container. func (c *Connection) Containers(opts *ContainersOpts) ([]Container, error) { v, h := opts.parse() v.Set("format", "json") resp, _, err := c.storage(RequestOpts{ Operation: "GET", Parameters: v, ErrorMap: ContainerErrorMap, Headers: h, }) if err != nil { return nil, err } var containers []Container err = readJson(resp, &containers) return containers, err } // containersAllOpts makes a copy of opts if set or makes a new one and // overrides Limit and Marker func containersAllOpts(opts *ContainersOpts) *ContainersOpts { var newOpts ContainersOpts if opts != nil { newOpts = *opts } if newOpts.Limit == 0 { newOpts.Limit = allContainersLimit } newOpts.Marker = "" return &newOpts } // ContainersAll is like Containers but it returns all the Containers // // It calls Containers multiple times using the Marker parameter // // It has a default Limit parameter but you may pass in your own func (c *Connection) ContainersAll(opts *ContainersOpts) ([]Container, error) { opts = containersAllOpts(opts) containers := make([]Container, 0) for { newContainers, err := c.Containers(opts) if err != nil { return nil, err } containers = append(containers, newContainers...) if len(newContainers) < opts.Limit { break } opts.Marker = newContainers[len(newContainers)-1].Name } return containers, nil } // ContainerNamesAll is like ContainerNamess but it returns all the Containers // // It calls ContainerNames multiple times using the Marker parameter // // It has a default Limit parameter but you may pass in your own func (c *Connection) ContainerNamesAll(opts *ContainersOpts) ([]string, error) { opts = containersAllOpts(opts) containers := make([]string, 0) for { newContainers, err := c.ContainerNames(opts) if err != nil { return nil, err } containers = append(containers, newContainers...) if len(newContainers) < opts.Limit { break } opts.Marker = newContainers[len(newContainers)-1] } return containers, nil } /* ------------------------------------------------------------ */ // ObjectOpts is options for Objects() and ObjectNames() type ObjectsOpts struct { Limit int // For an integer value n, limits the number of results to at most n values. Marker string // Given a string value x, return object names greater in value than the specified marker. EndMarker string // Given a string value x, return object names less in value than the specified marker Prefix string // For a string value x, causes the results to be limited to object names beginning with the substring x. Path string // For a string value x, return the object names nested in the pseudo path Delimiter rune // For a character c, return all the object names nested in the container Headers Headers // Any additional HTTP headers - can be nil } // parse reads values out of ObjectsOpts func (opts *ObjectsOpts) parse() (url.Values, Headers) { v := url.Values{} var h Headers if opts != nil { if opts.Limit > 0 { v.Set("limit", strconv.Itoa(opts.Limit)) } if opts.Marker != "" { v.Set("marker", opts.Marker) } if opts.EndMarker != "" { v.Set("end_marker", opts.EndMarker) } if opts.Prefix != "" { v.Set("prefix", opts.Prefix) } if opts.Path != "" { v.Set("path", opts.Path) } if opts.Delimiter != 0 { v.Set("delimiter", string(opts.Delimiter)) } h = opts.Headers } return v, h } // ObjectNames returns a slice of names of objects in a given container. func (c *Connection) ObjectNames(container string, opts *ObjectsOpts) ([]string, error) { v, h := opts.parse() resp, _, err := c.storage(RequestOpts{ Container: container, Operation: "GET", Parameters: v, ErrorMap: ContainerErrorMap, Headers: h, }) if err != nil { return nil, err } return readLines(resp) } // Object contains information about an object type Object struct { Name string `json:"name"` // object name ContentType string `json:"content_type"` // eg application/directory Bytes int64 `json:"bytes"` // size in bytes ServerLastModified string `json:"last_modified"` // Last modified time, eg '2011-06-30T08:20:47.736680' as a string supplied by the server LastModified time.Time // Last modified time converted to a time.Time Hash string `json:"hash"` // MD5 hash, eg "d41d8cd98f00b204e9800998ecf8427e" PseudoDirectory bool // Set when using delimiter to show that this directory object does not really exist SubDir string `json:"subdir"` // returned only when using delimiter to mark "pseudo directories" } // Objects returns a slice of Object with information about each // object in the container. // // If Delimiter is set in the opts then PseudoDirectory may be set, // with ContentType 'application/directory'. These are not real // objects but represent directories of objects which haven't had an // object created for them. func (c *Connection) Objects(container string, opts *ObjectsOpts) ([]Object, error) { v, h := opts.parse() v.Set("format", "json") resp, _, err := c.storage(RequestOpts{ Container: container, Operation: "GET", Parameters: v, ErrorMap: ContainerErrorMap, Headers: h, }) if err != nil { return nil, err } var objects []Object err = readJson(resp, &objects) // Convert Pseudo directories and dates for i := range objects { object := &objects[i] if object.SubDir != "" { object.Name = object.SubDir object.PseudoDirectory = true object.ContentType = "application/directory" } if object.ServerLastModified != "" { // 2012-11-11T14:49:47.887250 // // Remove fractional seconds if present. This // then keeps it consistent with Object // which can only return timestamps accurate // to 1 second // // The TimeFormat will parse fractional // seconds if desired though datetime := strings.SplitN(object.ServerLastModified, ".", 2)[0] object.LastModified, err = time.Parse(TimeFormat, datetime) if err != nil { return nil, err } } } return objects, err } // objectsAllOpts makes a copy of opts if set or makes a new one and // overrides Limit and Marker func objectsAllOpts(opts *ObjectsOpts, Limit int) *ObjectsOpts { var newOpts ObjectsOpts if opts != nil { newOpts = *opts } if newOpts.Limit == 0 { newOpts.Limit = Limit } newOpts.Marker = "" return &newOpts } // A closure defined by the caller to iterate through all objects // // Call Objects or ObjectNames from here with the *ObjectOpts passed in // // Do whatever is required with the results then return them type ObjectsWalkFn func(*ObjectsOpts) (interface{}, error) // ObjectsWalk is uses to iterate through all the objects in chunks as // returned by Objects or ObjectNames using the Marker and Limit // parameters in the ObjectsOpts. // // Pass in a closure `walkFn` which calls Objects or ObjectNames with // the *ObjectsOpts passed to it and does something with the results. // // Errors will be returned from this function // // It has a default Limit parameter but you may pass in your own func (c *Connection) ObjectsWalk(container string, opts *ObjectsOpts, walkFn ObjectsWalkFn) error { opts = objectsAllOpts(opts, allObjectsChanLimit) for { objects, err := walkFn(opts) if err != nil { return err } var n int var last string switch objects := objects.(type) { case []string: n = len(objects) if n > 0 { last = objects[len(objects)-1] } case []Object: n = len(objects) if n > 0 { last = objects[len(objects)-1].Name } default: panic("Unknown type returned to ObjectsWalk") } if n < opts.Limit { break } opts.Marker = last } return nil } // ObjectsAll is like Objects but it returns an unlimited number of Objects in a slice // // It calls Objects multiple times using the Marker parameter func (c *Connection) ObjectsAll(container string, opts *ObjectsOpts) ([]Object, error) { objects := make([]Object, 0) err := c.ObjectsWalk(container, opts, func(opts *ObjectsOpts) (interface{}, error) { newObjects, err := c.Objects(container, opts) if err == nil { objects = append(objects, newObjects...) } return newObjects, err }) return objects, err } // ObjectNamesAll is like ObjectNames but it returns all the Objects // // It calls ObjectNames multiple times using the Marker parameter // // It has a default Limit parameter but you may pass in your own func (c *Connection) ObjectNamesAll(container string, opts *ObjectsOpts) ([]string, error) { objects := make([]string, 0) err := c.ObjectsWalk(container, opts, func(opts *ObjectsOpts) (interface{}, error) { newObjects, err := c.ObjectNames(container, opts) if err == nil { objects = append(objects, newObjects...) } return newObjects, err }) return objects, err } // Account contains information about this account. type Account struct { BytesUsed int64 // total number of bytes used Containers int64 // total number of containers Objects int64 // total number of objects } // getInt64FromHeader is a helper function to decode int64 from header. func getInt64FromHeader(resp *http.Response, header string) (result int64, err error) { value := resp.Header.Get(header) result, err = strconv.ParseInt(value, 10, 64) if err != nil { err = newErrorf(0, "Bad Header '%s': '%s': %s", header, value, err) } return } // Account returns info about the account in an Account struct. func (c *Connection) Account() (info Account, headers Headers, err error) { var resp *http.Response resp, headers, err = c.storage(RequestOpts{ Operation: "HEAD", ErrorMap: ContainerErrorMap, NoResponse: true, }) if err != nil { return } // Parse the headers into a dict // // {'Accept-Ranges': 'bytes', // 'Content-Length': '0', // 'Date': 'Tue, 05 Jul 2011 16:37:06 GMT', // 'X-Account-Bytes-Used': '316598182', // 'X-Account-Container-Count': '4', // 'X-Account-Object-Count': '1433'} if info.BytesUsed, err = getInt64FromHeader(resp, "X-Account-Bytes-Used"); err != nil { return } if info.Containers, err = getInt64FromHeader(resp, "X-Account-Container-Count"); err != nil { return } if info.Objects, err = getInt64FromHeader(resp, "X-Account-Object-Count"); err != nil { return } return } // AccountUpdate adds, replaces or remove account metadata. // // Add or update keys by mentioning them in the Headers. // // Remove keys by setting them to an empty string. func (c *Connection) AccountUpdate(h Headers) error { _, _, err := c.storage(RequestOpts{ Operation: "POST", ErrorMap: ContainerErrorMap, NoResponse: true, Headers: h, }) return err } // ContainerCreate creates a container. // // If you don't want to add Headers just pass in nil // // No error is returned if it already exists but the metadata if any will be updated. func (c *Connection) ContainerCreate(container string, h Headers) error { _, _, err := c.storage(RequestOpts{ Container: container, Operation: "PUT", ErrorMap: ContainerErrorMap, NoResponse: true, Headers: h, }) return err } // ContainerDelete deletes a container. // // May return ContainerDoesNotExist or ContainerNotEmpty func (c *Connection) ContainerDelete(container string) error { _, _, err := c.storage(RequestOpts{ Container: container, Operation: "DELETE", ErrorMap: ContainerErrorMap, NoResponse: true, }) return err } // Container returns info about a single container including any // metadata in the headers. func (c *Connection) Container(container string) (info Container, headers Headers, err error) { var resp *http.Response resp, headers, err = c.storage(RequestOpts{ Container: container, Operation: "HEAD", ErrorMap: ContainerErrorMap, NoResponse: true, }) if err != nil { return } // Parse the headers into the struct info.Name = container if info.Bytes, err = getInt64FromHeader(resp, "X-Container-Bytes-Used"); err != nil { return } if info.Count, err = getInt64FromHeader(resp, "X-Container-Object-Count"); err != nil { return } return } // ContainerUpdate adds, replaces or removes container metadata. // // Add or update keys by mentioning them in the Metadata. // // Remove keys by setting them to an empty string. // // Container metadata can only be read with Container() not with Containers(). func (c *Connection) ContainerUpdate(container string, h Headers) error { _, _, err := c.storage(RequestOpts{ Container: container, Operation: "POST", ErrorMap: ContainerErrorMap, NoResponse: true, Headers: h, }) return err } // ------------------------------------------------------------ // ObjectCreateFile represents a swift object open for writing type ObjectCreateFile struct { checkHash bool // whether we are checking the hash pipeReader *io.PipeReader // pipe for the caller to use pipeWriter *io.PipeWriter hash hash.Hash // hash being build up as we go along done chan struct{} // signals when the upload has finished resp *http.Response // valid when done has signalled err error // ditto headers Headers // ditto } // Write bytes to the object - see io.Writer func (file *ObjectCreateFile) Write(p []byte) (n int, err error) { n, err = file.pipeWriter.Write(p) if err == io.ErrClosedPipe { if file.err != nil { return 0, file.err } return 0, newError(500, "Write on closed file") } if err == nil && file.checkHash { _, _ = file.hash.Write(p) } return } // Close the object and checks the md5sum if it was required. // // Also returns any other errors from the server (eg container not // found) so it is very important to check the errors on this method. func (file *ObjectCreateFile) Close() error { // Close the body err := file.pipeWriter.Close() if err != nil { return err } // Wait for the HTTP operation to complete <-file.done // Check errors if file.err != nil { return file.err } if file.checkHash { receivedMd5 := strings.ToLower(file.headers["Etag"]) calculatedMd5 := fmt.Sprintf("%x", file.hash.Sum(nil)) if receivedMd5 != calculatedMd5 { return ObjectCorrupted } } return nil } // Check it satisfies the interface var _ io.WriteCloser = &ObjectCreateFile{} // objectPutHeaders create a set of headers for a PUT // // It guesses the contentType from the objectName if it isn't set // // checkHash may be changed func objectPutHeaders(objectName string, checkHash *bool, Hash string, contentType string, h Headers) Headers { if contentType == "" { contentType = mime.TypeByExtension(path.Ext(objectName)) if contentType == "" { contentType = "application/octet-stream" } } // Meta stuff extraHeaders := map[string]string{ "Content-Type": contentType, } for key, value := range h { extraHeaders[key] = value } if Hash != "" { extraHeaders["Etag"] = Hash *checkHash = false // the server will do it } return extraHeaders } // ObjectCreate creates or updates the object in the container. It // returns an io.WriteCloser you should write the contents to. You // MUST call Close() on it and you MUST check the error return from // Close(). // // If checkHash is True then it will calculate the MD5 Hash of the // file as it is being uploaded and check it against that returned // from the server. If it is wrong then it will return // ObjectCorrupted on Close() // // If you know the MD5 hash of the object ahead of time then set the // Hash parameter and it will be sent to the server (as an Etag // header) and the server will check the MD5 itself after the upload, // and this will return ObjectCorrupted on Close() if it is incorrect. // // If you don't want any error protection (not recommended) then set // checkHash to false and Hash to "". // // If contentType is set it will be used, otherwise one will be // guessed from objectName using mime.TypeByExtension func (c *Connection) ObjectCreate(container string, objectName string, checkHash bool, Hash string, contentType string, h Headers) (file *ObjectCreateFile, err error) { extraHeaders := objectPutHeaders(objectName, &checkHash, Hash, contentType, h) pipeReader, pipeWriter := io.Pipe() file = &ObjectCreateFile{ hash: md5.New(), checkHash: checkHash, pipeReader: pipeReader, pipeWriter: pipeWriter, done: make(chan struct{}), } // Run the PUT in the background piping it data go func() { file.resp, file.headers, file.err = c.storage(RequestOpts{ Container: container, ObjectName: objectName, Operation: "PUT", Headers: extraHeaders, Body: pipeReader, NoResponse: true, ErrorMap: objectErrorMap, }) // Signal finished pipeReader.Close() close(file.done) }() return } // ObjectPut creates or updates the path in the container from // contents. contents should be an open io.Reader which will have all // its contents read. // // This is a low level interface. // // If checkHash is True then it will calculate the MD5 Hash of the // file as it is being uploaded and check it against that returned // from the server. If it is wrong then it will return // ObjectCorrupted. // // If you know the MD5 hash of the object ahead of time then set the // Hash parameter and it will be sent to the server (as an Etag // header) and the server will check the MD5 itself after the upload, // and this will return ObjectCorrupted if it is incorrect. // // If you don't want any error protection (not recommended) then set // checkHash to false and Hash to "". // // If contentType is set it will be used, otherwise one will be // guessed from objectName using mime.TypeByExtension func (c *Connection) ObjectPut(container string, objectName string, contents io.Reader, checkHash bool, Hash string, contentType string, h Headers) (headers Headers, err error) { extraHeaders := objectPutHeaders(objectName, &checkHash, Hash, contentType, h) hash := md5.New() var body io.Reader = contents if checkHash { body = io.TeeReader(contents, hash) } _, headers, err = c.storage(RequestOpts{ Container: container, ObjectName: objectName, Operation: "PUT", Headers: extraHeaders, Body: body, NoResponse: true, ErrorMap: objectErrorMap, }) if err != nil { return } if checkHash { receivedMd5 := strings.ToLower(headers["Etag"]) calculatedMd5 := fmt.Sprintf("%x", hash.Sum(nil)) if receivedMd5 != calculatedMd5 { err = ObjectCorrupted return } } return } // ObjectPutBytes creates an object from a []byte in a container. // // This is a simplified interface which checks the MD5. func (c *Connection) ObjectPutBytes(container string, objectName string, contents []byte, contentType string) (err error) { buf := bytes.NewBuffer(contents) _, err = c.ObjectPut(container, objectName, buf, true, "", contentType, nil) return } // ObjectPutString creates an object from a string in a container. // // This is a simplified interface which checks the MD5 func (c *Connection) ObjectPutString(container string, objectName string, contents string, contentType string) (err error) { buf := strings.NewReader(contents) _, err = c.ObjectPut(container, objectName, buf, true, "", contentType, nil) return } // ObjectOpenFile represents a swift object open for reading type ObjectOpenFile struct { connection *Connection // stored copy of Connection used in Open container string // stored copy of container used in Open objectName string // stored copy of objectName used in Open headers Headers // stored copy of headers used in Open resp *http.Response // http connection body io.Reader // read data from this checkHash bool // true if checking MD5 hash hash.Hash // currently accumulating MD5 bytes int64 // number of bytes read on this connection eof bool // whether we have read end of file pos int64 // current position when reading lengthOk bool // whether length is valid length int64 // length of the object if read seeked bool // whether we have seeked this file or not } // Read bytes from the object - see io.Reader func (file *ObjectOpenFile) Read(p []byte) (n int, err error) { n, err = file.body.Read(p) file.bytes += int64(n) file.pos += int64(n) if err == io.EOF { file.eof = true } return } // Seek sets the offset for the next Read to offset, interpreted // according to whence: 0 means relative to the origin of the file, 1 // means relative to the current offset, and 2 means relative to the // end. Seek returns the new offset and an Error, if any. // // Seek uses HTTP Range headers which, if the file pointer is moved, // will involve reopening the HTTP connection. // // Note that you can't seek to the end of a file or beyond; HTTP Range // requests don't support the file pointer being outside the data, // unlike os.File // // Seek(0, 1) will return the current file pointer. func (file *ObjectOpenFile) Seek(offset int64, whence int) (newPos int64, err error) { switch whence { case 0: // relative to start newPos = offset case 1: // relative to current newPos = file.pos + offset case 2: // relative to end if !file.lengthOk { return file.pos, newError(0, "Length of file unknown so can't seek from end") } newPos = file.length + offset default: panic("Unknown whence in ObjectOpenFile.Seek") } // If at correct position (quite likely), do nothing if newPos == file.pos { return } // Close the file... file.seeked = true err = file.Close() if err != nil { return } // ...and re-open with a Range header if file.headers == nil { file.headers = Headers{} } if newPos > 0 { file.headers["Range"] = fmt.Sprintf("bytes=%d-", newPos) } else { delete(file.headers, "Range") } newFile, _, err := file.connection.ObjectOpen(file.container, file.objectName, false, file.headers) if err != nil { return } // Update the file file.resp = newFile.resp file.body = newFile.body file.checkHash = false file.pos = newPos return } // Length gets the objects content length either from a cached copy or // from the server. func (file *ObjectOpenFile) Length() (int64, error) { if !file.lengthOk { info, _, err := file.connection.Object(file.container, file.objectName) file.length = info.Bytes file.lengthOk = (err == nil) return file.length, err } return file.length, nil } // Close the object and checks the length and md5sum if it was // required and all the object was read func (file *ObjectOpenFile) Close() (err error) { // Close the body at the end defer checkClose(file.resp.Body, &err) // If not end of file or seeked then can't check anything if !file.eof || file.seeked { return } // Check the MD5 sum if requested if file.checkHash { receivedMd5 := strings.ToLower(file.resp.Header.Get("Etag")) calculatedMd5 := fmt.Sprintf("%x", file.hash.Sum(nil)) if receivedMd5 != calculatedMd5 { err = ObjectCorrupted return } } // Check to see we read the correct number of bytes if file.lengthOk && file.length != file.bytes { err = ObjectCorrupted return } return } // Check it satisfies the interfaces var _ io.ReadCloser = &ObjectOpenFile{} var _ io.Seeker = &ObjectOpenFile{} // ObjectOpen returns an ObjectOpenFile for reading the contents of // the object. This satisfies the io.ReadCloser and the io.Seeker // interfaces. // // You must call Close() on contents when finished // // Returns the headers of the response. // // If checkHash is true then it will calculate the md5sum of the file // as it is being received and check it against that returned from the // server. If it is wrong then it will return ObjectCorrupted. It // will also check the length returned. No checking will be done if // you don't read all the contents. // // Note that objects with X-Object-Manifest or X-Static-Large-Object // set won't ever have their md5sum's checked as the md5sum reported // on the object is actually the md5sum of the md5sums of the // parts. This isn't very helpful to detect a corrupted download as // the size of the parts aren't known without doing more operations. // If you want to ensure integrity of an object with a manifest then // you will need to download everything in the manifest separately. // // headers["Content-Type"] will give the content type if desired. func (c *Connection) ObjectOpen(container string, objectName string, checkHash bool, h Headers) (file *ObjectOpenFile, headers Headers, err error) { var resp *http.Response resp, headers, err = c.storage(RequestOpts{ Container: container, ObjectName: objectName, Operation: "GET", ErrorMap: objectErrorMap, Headers: h, }) if err != nil { return } // Can't check MD5 on an object with X-Object-Manifest or X-Static-Large-Object set if checkHash && (headers["X-Object-Manifest"] != "" || headers["X-Static-Large-Object"] != "") { // log.Printf("swift: turning off md5 checking on object with manifest %v", objectName) checkHash = false } file = &ObjectOpenFile{ connection: c, container: container, objectName: objectName, headers: h, resp: resp, checkHash: checkHash, body: resp.Body, } if checkHash { file.hash = md5.New() file.body = io.TeeReader(resp.Body, file.hash) } // Read Content-Length if resp.Header.Get("Content-Length") != "" { file.length, err = getInt64FromHeader(resp, "Content-Length") file.lengthOk = (err == nil) } return } // ObjectGet gets the object into the io.Writer contents. // // Returns the headers of the response. // // If checkHash is true then it will calculate the md5sum of the file // as it is being received and check it against that returned from the // server. If it is wrong then it will return ObjectCorrupted. // // headers["Content-Type"] will give the content type if desired. func (c *Connection) ObjectGet(container string, objectName string, contents io.Writer, checkHash bool, h Headers) (headers Headers, err error) { file, headers, err := c.ObjectOpen(container, objectName, checkHash, h) if err != nil { return } defer checkClose(file, &err) _, err = io.Copy(contents, file) return } // ObjectGetBytes returns an object as a []byte. // // This is a simplified interface which checks the MD5 func (c *Connection) ObjectGetBytes(container string, objectName string) (contents []byte, err error) { var buf bytes.Buffer _, err = c.ObjectGet(container, objectName, &buf, true, nil) contents = buf.Bytes() return } // ObjectGetString returns an object as a string. // // This is a simplified interface which checks the MD5 func (c *Connection) ObjectGetString(container string, objectName string) (contents string, err error) { var buf bytes.Buffer _, err = c.ObjectGet(container, objectName, &buf, true, nil) contents = buf.String() return } // ObjectDelete deletes the object. // // May return ObjectNotFound if the object isn't found func (c *Connection) ObjectDelete(container string, objectName string) error { _, _, err := c.storage(RequestOpts{ Container: container, ObjectName: objectName, Operation: "DELETE", ErrorMap: objectErrorMap, }) return err } // ObjectTempUrl returns a temporary URL for an object func (c *Connection) ObjectTempUrl(container string, objectName string, secretKey string, method string, expires time.Time) string { mac := hmac.New(sha1.New, []byte(secretKey)) prefix, _ := url.Parse(c.StorageUrl) body := fmt.Sprintf("%s\n%d\n%s/%s/%s", method, expires.Unix(), prefix.Path, container, objectName) mac.Write([]byte(body)) sig := hex.EncodeToString(mac.Sum(nil)) return fmt.Sprintf("%s/%s/%s?temp_url_sig=%s&temp_url_expires=%d", c.StorageUrl, container, objectName, sig, expires.Unix()) } // parseResponseStatus parses string like "200 OK" and returns Error. // // For status codes beween 200 and 299, this returns nil. func parseResponseStatus(resp string, errorMap errorMap) error { code := 0 reason := resp t := strings.SplitN(resp, " ", 2) if len(t) == 2 { ncode, err := strconv.Atoi(t[0]) if err == nil { code = ncode reason = t[1] } } if errorMap != nil { if err, ok := errorMap[code]; ok { return err } } if 200 <= code && code <= 299 { return nil } return newError(code, reason) } // BulkDeleteResult stores results of BulkDelete(). // // Individual errors may (or may not) be returned by Errors. // Errors is a map whose keys are a full path of where the object was // to be deleted, and whose values are Error objects. A full path of // object looks like "/API_VERSION/USER_ACCOUNT/CONTAINER/OBJECT_PATH". type BulkDeleteResult struct { NumberNotFound int64 // # of objects not found. NumberDeleted int64 // # of deleted objects. Errors map[string]error // Mapping between object name and an error. Headers Headers // Response HTTP headers. } // BulkDelete deletes multiple objectNames from container in one operation. // // Some servers may not accept bulk-delete requests since bulk-delete is // an optional feature of swift - these will return the Forbidden error. // // See also: // * http://docs.openstack.org/trunk/openstack-object-storage/admin/content/object-storage-bulk-delete.html // * http://docs.rackspace.com/files/api/v1/cf-devguide/content/Bulk_Delete-d1e2338.html func (c *Connection) BulkDelete(container string, objectNames []string) (result BulkDeleteResult, err error) { var buffer bytes.Buffer for _, s := range objectNames { buffer.WriteString(fmt.Sprintf("/%s/%s\n", container, url.QueryEscape(s))) } resp, headers, err := c.storage(RequestOpts{ Operation: "DELETE", Parameters: url.Values{"bulk-delete": []string{"1"}}, Headers: Headers{ "Accept": "application/json", "Content-Type": "text/plain", }, ErrorMap: ContainerErrorMap, Body: &buffer, }) if err != nil { return } var jsonResult struct { NotFound int64 `json:"Number Not Found"` Status string `json:"Response Status"` Errors [][]string Deleted int64 `json:"Number Deleted"` } err = readJson(resp, &jsonResult) if err != nil { return } err = parseResponseStatus(jsonResult.Status, objectErrorMap) result.NumberNotFound = jsonResult.NotFound result.NumberDeleted = jsonResult.Deleted result.Headers = headers el := make(map[string]error, len(jsonResult.Errors)) for _, t := range jsonResult.Errors { if len(t) != 2 { continue } el[t[0]] = parseResponseStatus(t[1], objectErrorMap) } result.Errors = el return } // BulkUploadResult stores results of BulkUpload(). // // Individual errors may (or may not) be returned by Errors. // Errors is a map whose keys are a full path of where an object was // to be created, and whose values are Error objects. A full path of // object looks like "/API_VERSION/USER_ACCOUNT/CONTAINER/OBJECT_PATH". type BulkUploadResult struct { NumberCreated int64 // # of created objects. Errors map[string]error // Mapping between object name and an error. Headers Headers // Response HTTP headers. } // BulkUpload uploads multiple files in one operation. // // uploadPath can be empty, a container name, or a pseudo-directory // within a container. If uploadPath is empty, new containers may be // automatically created. // // Files are read from dataStream. The format of the stream is specified // by the format parameter. Available formats are: // * UploadTar - Plain tar stream. // * UploadTarGzip - Gzip compressed tar stream. // * UploadTarBzip2 - Bzip2 compressed tar stream. // // Some servers may not accept bulk-upload requests since bulk-upload is // an optional feature of swift - these will return the Forbidden error. // // See also: // * http://docs.openstack.org/trunk/openstack-object-storage/admin/content/object-storage-extract-archive.html // * http://docs.rackspace.com/files/api/v1/cf-devguide/content/Extract_Archive-d1e2338.html func (c *Connection) BulkUpload(uploadPath string, dataStream io.Reader, format string, h Headers) (result BulkUploadResult, err error) { extraHeaders := Headers{"Accept": "application/json"} for key, value := range h { extraHeaders[key] = value } // The following code abuses Container parameter intentionally. // The best fix might be to rename Container to UploadPath. resp, headers, err := c.storage(RequestOpts{ Container: uploadPath, Operation: "PUT", Parameters: url.Values{"extract-archive": []string{format}}, Headers: extraHeaders, ErrorMap: ContainerErrorMap, Body: dataStream, }) if err != nil { return } // Detect old servers which don't support this feature if headers["Content-Type"] != "application/json" { err = Forbidden return } var jsonResult struct { Created int64 `json:"Number Files Created"` Status string `json:"Response Status"` Errors [][]string } err = readJson(resp, &jsonResult) if err != nil { return } err = parseResponseStatus(jsonResult.Status, objectErrorMap) result.NumberCreated = jsonResult.Created result.Headers = headers el := make(map[string]error, len(jsonResult.Errors)) for _, t := range jsonResult.Errors { if len(t) != 2 { continue } el[t[0]] = parseResponseStatus(t[1], objectErrorMap) } result.Errors = el return } // Object returns info about a single object including any metadata in the header. // // May return ObjectNotFound. // // Use headers.ObjectMetadata() to read the metadata in the Headers. func (c *Connection) Object(container string, objectName string) (info Object, headers Headers, err error) { var resp *http.Response resp, headers, err = c.storage(RequestOpts{ Container: container, ObjectName: objectName, Operation: "HEAD", ErrorMap: objectErrorMap, NoResponse: true, }) if err != nil { return } // Parse the headers into the struct // HTTP/1.1 200 OK // Date: Thu, 07 Jun 2010 20:59:39 GMT // Server: Apache // Last-Modified: Fri, 12 Jun 2010 13:40:18 GMT // ETag: 8a964ee2a5e88be344f36c22562a6486 // Content-Length: 512000 // Content-Type: text/plain; charset=UTF-8 // X-Object-Meta-Meat: Bacon // X-Object-Meta-Fruit: Bacon // X-Object-Meta-Veggie: Bacon // X-Object-Meta-Dairy: Bacon info.Name = objectName info.ContentType = resp.Header.Get("Content-Type") if resp.Header.Get("Content-Length") != "" { if info.Bytes, err = getInt64FromHeader(resp, "Content-Length"); err != nil { return } } //HACK //Currently ceph doestn't return Last-Modified header for DLO manifest without any segments //Currently it affects all versions of ceph http://tracker.ceph.com/issues/15812 if resp.Header.Get("Last-Modified") != "" { info.ServerLastModified = resp.Header.Get("Last-Modified") if info.LastModified, err = time.Parse(http.TimeFormat, info.ServerLastModified); err != nil { return } } info.Hash = resp.Header.Get("Etag") return } // ObjectUpdate adds, replaces or removes object metadata. // // Add or Update keys by mentioning them in the Metadata. Use // Metadata.ObjectHeaders and Headers.ObjectMetadata to convert your // Metadata to and from normal HTTP headers. // // This removes all metadata previously added to the object and // replaces it with that passed in so to delete keys, just don't // mention them the headers you pass in. // // Object metadata can only be read with Object() not with Objects(). // // This can also be used to set headers not already assigned such as // X-Delete-At or X-Delete-After for expiring objects. // // You cannot use this to change any of the object's other headers // such as Content-Type, ETag, etc. // // Refer to copying an object when you need to update metadata or // other headers such as Content-Type or CORS headers. // // May return ObjectNotFound. func (c *Connection) ObjectUpdate(container string, objectName string, h Headers) error { _, _, err := c.storage(RequestOpts{ Container: container, ObjectName: objectName, Operation: "POST", ErrorMap: objectErrorMap, NoResponse: true, Headers: h, }) return err } // ObjectCopy does a server side copy of an object to a new position // // All metadata is preserved. If metadata is set in the headers then // it overrides the old metadata on the copied object. // // The destination container must exist before the copy. // // You can use this to copy an object to itself - this is the only way // to update the content type of an object. func (c *Connection) ObjectCopy(srcContainer string, srcObjectName string, dstContainer string, dstObjectName string, h Headers) (headers Headers, err error) { // Meta stuff extraHeaders := map[string]string{ "Destination": dstContainer + "/" + dstObjectName, } for key, value := range h { extraHeaders[key] = value } _, headers, err = c.storage(RequestOpts{ Container: srcContainer, ObjectName: srcObjectName, Operation: "COPY", ErrorMap: objectErrorMap, NoResponse: true, Headers: extraHeaders, }) return } // ObjectMove does a server side move of an object to a new position // // This is a convenience method which calls ObjectCopy then ObjectDelete // // All metadata is preserved. // // The destination container must exist before the copy. func (c *Connection) ObjectMove(srcContainer string, srcObjectName string, dstContainer string, dstObjectName string) (err error) { _, err = c.ObjectCopy(srcContainer, srcObjectName, dstContainer, dstObjectName, nil) if err != nil { return } return c.ObjectDelete(srcContainer, srcObjectName) } // ObjectUpdateContentType updates the content type of an object // // This is a convenience method which calls ObjectCopy // // All other metadata is preserved. func (c *Connection) ObjectUpdateContentType(container string, objectName string, contentType string) (err error) { h := Headers{"Content-Type": contentType} _, err = c.ObjectCopy(container, objectName, container, objectName, h) return } // ------------------------------------------------------------ // VersionContainerCreate is a helper method for creating and enabling version controlled containers. // // It builds the current object container, the non-current object version container, and enables versioning. // // If the server doesn't support versioning then it will return // Forbidden however it will have created both the containers at that point. func (c *Connection) VersionContainerCreate(current, version string) error { if err := c.ContainerCreate(version, nil); err != nil { return err } if err := c.ContainerCreate(current, nil); err != nil { return err } if err := c.VersionEnable(current, version); err != nil { return err } return nil } // VersionEnable enables versioning on the current container with version as the tracking container. // // May return Forbidden if this isn't supported by the server func (c *Connection) VersionEnable(current, version string) error { h := Headers{"X-Versions-Location": version} if err := c.ContainerUpdate(current, h); err != nil { return err } // Check to see if the header was set properly _, headers, err := c.Container(current) if err != nil { return err } // If failed to set versions header, return Forbidden as the server doesn't support this if headers["X-Versions-Location"] != version { return Forbidden } return nil } // VersionDisable disables versioning on the current container. func (c *Connection) VersionDisable(current string) error { h := Headers{"X-Versions-Location": ""} if err := c.ContainerUpdate(current, h); err != nil { return err } return nil } // VersionObjectList returns a list of older versions of the object. // // Objects are returned in the format / func (c *Connection) VersionObjectList(version, object string) ([]string, error) { opts := &ObjectsOpts{ // <3-character zero-padded hexadecimal character length>/ Prefix: fmt.Sprintf("%03x", len(object)) + object + "/", } return c.ObjectNames(version, opts) }