package onedrive import ( "context" "encoding/json" "errors" "fmt" "net/http" "strings" "time" "github.com/rclone/rclone/backend/onedrive/api" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/fserrors" "github.com/rclone/rclone/lib/dircache" "github.com/rclone/rclone/lib/errcount" "golang.org/x/exp/slices" // replace with slices after go1.21 is the minimum version ) const ( dirMimeType = "inode/directory" timeFormatIn = time.RFC3339 timeFormatOut = "2006-01-02T15:04:05.999Z" // mS for OneDrive Personal, otherwise only S ) // system metadata keys which this backend owns var systemMetadataInfo = map[string]fs.MetadataHelp{ "content-type": { Help: "The MIME type of the file.", Type: "string", Example: "text/plain", ReadOnly: true, }, "mtime": { Help: "Time of last modification with S accuracy (mS for OneDrive Personal).", Type: "RFC 3339", Example: "2006-01-02T15:04:05Z", }, "btime": { Help: "Time of file birth (creation) with S accuracy (mS for OneDrive Personal).", Type: "RFC 3339", Example: "2006-01-02T15:04:05Z", }, "utime": { Help: "Time of upload with S accuracy (mS for OneDrive Personal).", Type: "RFC 3339", Example: "2006-01-02T15:04:05Z", ReadOnly: true, }, "created-by-display-name": { Help: "Display name of the user that created the item.", Type: "string", Example: "John Doe", ReadOnly: true, }, "created-by-id": { Help: "ID of the user that created the item.", Type: "string", Example: "48d31887-5fad-4d73-a9f5-3c356e68a038", ReadOnly: true, }, "description": { Help: "A short description of the file. Max 1024 characters. Only supported for OneDrive Personal.", Type: "string", Example: "Contract for signing", }, "id": { Help: "The unique identifier of the item within OneDrive.", Type: "string", Example: "01BYE5RZ6QN3ZWBTUFOFD3GSPGOHDJD36K", ReadOnly: true, }, "last-modified-by-display-name": { Help: "Display name of the user that last modified the item.", Type: "string", Example: "John Doe", ReadOnly: true, }, "last-modified-by-id": { Help: "ID of the user that last modified the item.", Type: "string", Example: "48d31887-5fad-4d73-a9f5-3c356e68a038", ReadOnly: true, }, "malware-detected": { Help: "Whether OneDrive has detected that the item contains malware.", Type: "boolean", Example: "true", ReadOnly: true, }, "package-type": { Help: "If present, indicates that this item is a package instead of a folder or file. Packages are treated like files in some contexts and folders in others.", Type: "string", Example: "oneNote", ReadOnly: true, }, "shared-owner-id": { Help: "ID of the owner of the shared item (if shared).", Type: "string", Example: "48d31887-5fad-4d73-a9f5-3c356e68a038", ReadOnly: true, }, "shared-by-id": { Help: "ID of the user that shared the item (if shared).", Type: "string", Example: "48d31887-5fad-4d73-a9f5-3c356e68a038", ReadOnly: true, }, "shared-scope": { Help: "If shared, indicates the scope of how the item is shared: anonymous, organization, or users.", Type: "string", Example: "users", ReadOnly: true, }, "shared-time": { Help: "Time when the item was shared, with S accuracy (mS for OneDrive Personal).", Type: "RFC 3339", Example: "2006-01-02T15:04:05Z", ReadOnly: true, }, "permissions": { Help: "Permissions in a JSON dump of OneDrive format. Enable with --onedrive-metadata-permissions. Properties: id, grantedTo, grantedToIdentities, invitation, inheritedFrom, link, roles, shareId", Type: "JSON", Example: "{}", }, } // rwChoices type for fs.Bits type rwChoices struct{} func (rwChoices) Choices() []fs.BitsChoicesInfo { return []fs.BitsChoicesInfo{ {Bit: uint64(rwOff), Name: "off"}, {Bit: uint64(rwRead), Name: "read"}, {Bit: uint64(rwWrite), Name: "write"}, } } // rwChoice type alias type rwChoice = fs.Bits[rwChoices] const ( rwRead rwChoice = 1 << iota rwWrite rwOff rwChoice = 0 ) // Examples for the options var rwExamples = fs.OptionExamples{{ Value: rwOff.String(), Help: "Do not read or write the value", }, { Value: rwRead.String(), Help: "Read the value only", }, { Value: rwWrite.String(), Help: "Write the value only", }, { Value: (rwRead | rwWrite).String(), Help: "Read and Write the value.", }} // Metadata describes metadata properties shared by both Objects and Directories type Metadata struct { fs *Fs // what this object/dir is part of remote string // remote, for convenience when obj/dir not in scope mimeType string // Content-Type of object from server (may not be as uploaded) description string // Provides a user-visible description of the item. Read-write. Only on OneDrive Personal mtime time.Time // Time of last modification with S accuracy. btime time.Time // Time of file birth (creation) with S accuracy. utime time.Time // Time of upload with S accuracy. createdBy api.IdentitySet // user that created the item lastModifiedBy api.IdentitySet // user that last modified the item malwareDetected bool // Whether OneDrive has detected that the item contains malware. packageType string // If present, indicates that this item is a package instead of a folder or file. shared *api.SharedType // information about the shared state of the item, if shared normalizedID string // the normalized ID of the object or dir permissions []*api.PermissionsType // The current set of permissions for the item. Note that to save API calls, this is not guaranteed to be cached on the object. Use m.Get() to refresh. queuedPermissions []*api.PermissionsType // The set of permissions queued to be updated. permsAddOnly bool // Whether to disable "update" and "remove" (for example, during server-side copy when the dst will have new IDs) } // Get retrieves the cached metadata and converts it to fs.Metadata. // This is most typically used when OneDrive is the source (as opposed to the dest). // If m.fs.opt.MetadataPermissions includes "read" then this will also include permissions, which requires an API call. // Get does not use an API call otherwise. func (m *Metadata) Get(ctx context.Context) (metadata fs.Metadata, err error) { metadata = make(fs.Metadata, 17) metadata["content-type"] = m.mimeType metadata["mtime"] = m.mtime.Format(timeFormatOut) metadata["btime"] = m.btime.Format(timeFormatOut) metadata["utime"] = m.utime.Format(timeFormatOut) metadata["created-by-display-name"] = m.createdBy.User.DisplayName metadata["created-by-id"] = m.createdBy.User.ID if m.description != "" { metadata["description"] = m.description } metadata["id"] = m.normalizedID metadata["last-modified-by-display-name"] = m.lastModifiedBy.User.DisplayName metadata["last-modified-by-id"] = m.lastModifiedBy.User.ID metadata["malware-detected"] = fmt.Sprint(m.malwareDetected) if m.packageType != "" { metadata["package-type"] = m.packageType } if m.shared != nil { metadata["shared-owner-id"] = m.shared.Owner.User.ID metadata["shared-by-id"] = m.shared.SharedBy.User.ID metadata["shared-scope"] = m.shared.Scope metadata["shared-time"] = time.Time(m.shared.SharedDateTime).Format(timeFormatOut) } if m.fs.opt.MetadataPermissions.IsSet(rwRead) { p, _, err := m.fs.getPermissions(ctx, m.normalizedID) if err != nil { return nil, fmt.Errorf("failed to get permissions: %w", err) } m.permissions = p if len(p) > 0 { fs.PrettyPrint(m.permissions, "perms", fs.LogLevelDebug) buf, err := json.Marshal(m.permissions) if err != nil { return nil, fmt.Errorf("failed to marshal permissions: %w", err) } metadata["permissions"] = string(buf) } } return metadata, nil } // Set takes fs.Metadata and parses/converts it to cached Metadata. // This is most typically used when OneDrive is the destination (as opposed to the source). // It does not actually update the remote (use Write for that.) // It sets only the writeable metadata properties (i.e. read-only properties are skipped.) // Permissions are included if m.fs.opt.MetadataPermissions includes "write". // It returns errors if writeable properties can't be parsed. // It does not return errors for unsupported properties that may be passed in. // It returns the number of writeable properties set (if it is 0, we can skip the Write API call.) func (m *Metadata) Set(ctx context.Context, metadata fs.Metadata) (numSet int, err error) { numSet = 0 for k, v := range metadata { k, v := k, v switch k { case "mtime": t, err := time.Parse(timeFormatIn, v) if err != nil { return numSet, fmt.Errorf("failed to parse metadata %q = %q: %w", k, v, err) } m.mtime = t numSet++ case "btime": t, err := time.Parse(timeFormatIn, v) if err != nil { return numSet, fmt.Errorf("failed to parse metadata %q = %q: %w", k, v, err) } m.btime = t numSet++ case "description": if m.fs.driveType != driveTypePersonal { fs.Debugf(m.remote, "metadata description is only supported for OneDrive Personal -- skipping: %s", v) continue } m.description = v numSet++ case "permissions": if !m.fs.opt.MetadataPermissions.IsSet(rwWrite) { continue } var perms []*api.PermissionsType err := json.Unmarshal([]byte(v), &perms) if err != nil { return numSet, fmt.Errorf("failed to unmarshal permissions: %w", err) } m.queuedPermissions = perms numSet++ default: fs.Debugf(m.remote, "skipping unsupported metadata item: %s: %s", k, v) } } if numSet == 0 { fs.Infof(m.remote, "no writeable metadata found: %v", metadata) } return numSet, nil } // toAPIMetadata converts object/dir Metadata to api.Metadata for API calls. // If btime is missing but mtime is present, mtime is also used as the btime, as otherwise it would get overwritten. func (m *Metadata) toAPIMetadata() api.Metadata { update := api.Metadata{ FileSystemInfo: &api.FileSystemInfoFacet{}, } if m.description != "" && m.fs.driveType == driveTypePersonal { update.Description = m.description } if !m.mtime.IsZero() { update.FileSystemInfo.LastModifiedDateTime = api.Timestamp(m.mtime) } if !m.btime.IsZero() { update.FileSystemInfo.CreatedDateTime = api.Timestamp(m.btime) } if m.btime.IsZero() && !m.mtime.IsZero() { // use mtime as btime if missing m.btime = m.mtime update.FileSystemInfo.CreatedDateTime = api.Timestamp(m.btime) } return update } // Write takes the cached Metadata and sets it on the remote, using API calls. // If m.fs.opt.MetadataPermissions includes "write" and updatePermissions == true, permissions are also set. // Calling Write without any writeable metadata will result in an error. func (m *Metadata) Write(ctx context.Context, updatePermissions bool) (*api.Item, error) { update := m.toAPIMetadata() if update.IsEmpty() { return nil, fmt.Errorf("%v: no writeable metadata found: %v", m.remote, m) } opts := m.fs.newOptsCallWithPath(ctx, m.remote, "PATCH", "") var info *api.Item err := m.fs.pacer.Call(func() (bool, error) { resp, err := m.fs.srv.CallJSON(ctx, &opts, &update, &info) return shouldRetry(ctx, resp, err) }) if err != nil { fs.Debugf(m.remote, "errored metadata: %v", m) return nil, fmt.Errorf("%v: error updating metadata: %v", m.remote, err) } if m.fs.opt.MetadataPermissions.IsSet(rwWrite) && updatePermissions { m.normalizedID = info.GetID() err = m.WritePermissions(ctx) if err != nil { fs.Errorf(m.remote, "error writing permissions: %v", err) return info, err } } // update the struct since we have fresh info m.fs.setSystemMetadata(info, m, m.remote, m.mimeType) return info, err } // RefreshPermissions fetches the current permissions from the remote and caches them as Metadata func (m *Metadata) RefreshPermissions(ctx context.Context) (err error) { if m.normalizedID == "" { return errors.New("internal error: normalizedID is missing") } p, _, err := m.fs.getPermissions(ctx, m.normalizedID) if err != nil { return fmt.Errorf("failed to refresh permissions: %w", err) } m.permissions = p return nil } // WritePermissions sets the permissions (and no other metadata) on the remote. // m.permissions (the existing perms) and m.queuedPermissions (the new perms to be set) must be set correctly before calling this. // m.permissions == nil will not error, as it is valid to add permissions when there were previously none. // If successful, m.permissions will be set with the new current permissions and m.queuedPermissions will be nil. func (m *Metadata) WritePermissions(ctx context.Context) (err error) { if !m.fs.opt.MetadataPermissions.IsSet(rwWrite) { return errors.New("can't write permissions without --onedrive-metadata-permissions write") } if m.normalizedID == "" { return errors.New("internal error: normalizedID is missing") } // compare current to queued and sort into add/update/remove queues add, update, remove := m.sortPermissions() fs.Debugf(m.remote, "metadata permissions: to add: %d to update: %d to remove: %d", len(add), len(update), len(remove)) _, err = m.processPermissions(ctx, add, update, remove) if err != nil { return fmt.Errorf("failed to process permissions: %w", err) } err = m.RefreshPermissions(ctx) fs.Debugf(m.remote, "updated permissions (now has %d permissions)", len(m.permissions)) if err != nil { return fmt.Errorf("failed to get permissions: %w", err) } m.queuedPermissions = nil return nil } // sortPermissions sorts the permissions (to be written) into add, update, and remove queues func (m *Metadata) sortPermissions() (add, update, remove []*api.PermissionsType) { new, old := m.queuedPermissions, m.permissions if len(old) == 0 || m.permsAddOnly { return new, nil, nil // they must all be "add" } for _, n := range new { if n == nil { continue } if n.ID != "" { // sanity check: ensure there's a matching "old" id with a non-matching role if !slices.ContainsFunc(old, func(o *api.PermissionsType) bool { return o.ID == n.ID && slices.Compare(o.Roles, n.Roles) != 0 && len(o.Roles) > 0 && len(n.Roles) > 0 && !slices.Contains(o.Roles, api.OwnerRole) }) { fs.Debugf(m.remote, "skipping update for invalid roles: %v (perm ID: %v)", n.Roles, n.ID) continue } if m.fs.driveType != driveTypePersonal && n.Link != nil && n.Link.WebURL != "" { // special case to work around API limitation -- can't update a sharing link perm so need to remove + add instead // https://learn.microsoft.com/en-us/answers/questions/986279/why-is-update-permission-graph-api-for-files-not-w // https://github.com/microsoftgraph/msgraph-sdk-dotnet/issues/1135 fs.Debugf(m.remote, "sortPermissions: can't update due to API limitation, will remove + add instead: %v", n.Roles) remove = append(remove, n) add = append(add, n) continue } fs.Debugf(m.remote, "sortPermissions: will update role to %v", n.Roles) update = append(update, n) } else { fs.Debugf(m.remote, "sortPermissions: will add permission: %v %v", n, n.Roles) add = append(add, n) } } for _, o := range old { if slices.Contains(o.Roles, api.OwnerRole) { fs.Debugf(m.remote, "skipping remove permission -- can't remove 'owner' role") continue } newHasOld := slices.ContainsFunc(new, func(n *api.PermissionsType) bool { if n == nil || n.ID == "" { return false // can't remove perms without an ID } return n.ID == o.ID }) if !newHasOld && o.ID != "" && !slices.Contains(add, o) && !slices.Contains(update, o) { fs.Debugf(m.remote, "sortPermissions: will remove permission: %v %v (perm ID: %v)", o, o.Roles, o.ID) remove = append(remove, o) } } return add, update, remove } // processPermissions executes the add, update, and remove queues for writing permissions func (m *Metadata) processPermissions(ctx context.Context, add, update, remove []*api.PermissionsType) (newPermissions []*api.PermissionsType, err error) { errs := errcount.New() for _, p := range remove { // remove (need to do these first because of remove + add workaround) _, err := m.removePermission(ctx, p) if err != nil { fs.Errorf(m.remote, "Failed to remove permission: %v", err) errs.Add(err) } } for _, p := range add { // add newPs, _, err := m.addPermission(ctx, p) if err != nil { fs.Errorf(m.remote, "Failed to add permission: %v", err) errs.Add(err) continue } newPermissions = append(newPermissions, newPs...) } for _, p := range update { // update newP, _, err := m.updatePermission(ctx, p) if err != nil { fs.Errorf(m.remote, "Failed to update permission: %v", err) errs.Add(err) continue } newPermissions = append(newPermissions, newP) } err = errs.Err("failed to set permissions") if err != nil { err = fserrors.NoRetryError(err) } return newPermissions, err } // fillRecipients looks for recipients to add from the permission passed in. // It looks for an email address in identity.User.Email, ID, and DisplayName, otherwise it uses the identity.User.ID as r.ObjectID. // It considers both "GrantedTo" and "GrantedToIdentities". func fillRecipients(p *api.PermissionsType, driveType string) (recipients []api.DriveRecipient) { if p == nil { return recipients } ids := make(map[string]struct{}, len(p.GetGrantedToIdentities(driveType))+1) isUnique := func(s string) bool { _, ok := ids[s] return !ok && s != "" } addRecipient := func(identity *api.IdentitySet) { r := api.DriveRecipient{} id := "" if strings.ContainsRune(identity.User.Email, '@') { id = identity.User.Email r.Email = id } else if strings.ContainsRune(identity.User.ID, '@') { id = identity.User.ID r.Email = id } else if strings.ContainsRune(identity.User.DisplayName, '@') { id = identity.User.DisplayName r.Email = id } else { id = identity.User.ID r.ObjectID = id } if !isUnique(id) { return } ids[id] = struct{}{} recipients = append(recipients, r) } forIdentitySet := func(iSet *api.IdentitySet) { if iSet == nil { return } iS := *iSet forIdentity := func(i api.Identity) { if i != (api.Identity{}) { iS.User = i addRecipient(&iS) } } forIdentity(iS.User) forIdentity(iS.SiteUser) forIdentity(iS.Group) forIdentity(iS.SiteGroup) forIdentity(iS.Application) forIdentity(iS.Device) } for _, identitySet := range p.GetGrantedToIdentities(driveType) { forIdentitySet(identitySet) } forIdentitySet(p.GetGrantedTo(driveType)) return recipients } // addPermission adds new permissions to an object or dir. // if p.Link.Scope == "anonymous" then it will also create a Public Link. func (m *Metadata) addPermission(ctx context.Context, p *api.PermissionsType) (newPs []*api.PermissionsType, resp *http.Response, err error) { opts := m.fs.newOptsCall(m.normalizedID, "POST", "/invite") req := &api.AddPermissionsRequest{ Recipients: fillRecipients(p, m.fs.driveType), RequireSignIn: m.fs.driveType != driveTypePersonal, // personal and business have conflicting requirements Roles: p.Roles, } if m.fs.driveType != driveTypePersonal { req.RetainInheritedPermissions = false // not supported for personal } if p.Link != nil && p.Link.Scope == api.AnonymousScope { link, err := m.fs.PublicLink(ctx, m.remote, fs.DurationOff, false) if err != nil { return nil, nil, err } p.Link.WebURL = link newPs = append(newPs, p) if len(req.Recipients) == 0 { return newPs, nil, nil } } if len(req.Recipients) == 0 { fs.Debugf(m.remote, "skipping add permission -- at least one valid recipient is required") return nil, nil, nil } if len(req.Roles) == 0 { return nil, nil, errors.New("at least one role is required to add a permission (choices: read, write, owner, member)") } if slices.Contains(req.Roles, api.OwnerRole) { fs.Debugf(m.remote, "skipping add permission -- can't invite a user with 'owner' role") return nil, nil, nil } newP := &api.PermissionsResponse{} err = m.fs.pacer.Call(func() (bool, error) { resp, err = m.fs.srv.CallJSON(ctx, &opts, &req, &newP) return shouldRetry(ctx, resp, err) }) return newP.Value, resp, err } // updatePermission updates an existing permission on an object or dir. // This requires the permission ID and a role to update (which will error if it is the same as the existing role.) // Role is the only property that can be updated. func (m *Metadata) updatePermission(ctx context.Context, p *api.PermissionsType) (newP *api.PermissionsType, resp *http.Response, err error) { opts := m.fs.newOptsCall(m.normalizedID, "PATCH", "/permissions/"+p.ID) req := api.UpdatePermissionsRequest{Roles: p.Roles} // roles is the only property that can be updated if len(req.Roles) == 0 { return nil, nil, errors.New("at least one role is required to update a permission (choices: read, write, owner, member)") } newP = &api.PermissionsType{} err = m.fs.pacer.Call(func() (bool, error) { resp, err = m.fs.srv.CallJSON(ctx, &opts, &req, &newP) return shouldRetry(ctx, resp, err) }) return newP, resp, err } // removePermission removes an existing permission on an object or dir. // This requires the permission ID. func (m *Metadata) removePermission(ctx context.Context, p *api.PermissionsType) (resp *http.Response, err error) { opts := m.fs.newOptsCall(m.normalizedID, "DELETE", "/permissions/"+p.ID) opts.NoResponse = true err = m.fs.pacer.Call(func() (bool, error) { resp, err = m.fs.srv.CallJSON(ctx, &opts, nil, nil) return shouldRetry(ctx, resp, err) }) return resp, err } // getPermissions gets the current permissions for an object or dir, from the API. func (f *Fs) getPermissions(ctx context.Context, normalizedID string) (p []*api.PermissionsType, resp *http.Response, err error) { opts := f.newOptsCall(normalizedID, "GET", "/permissions") permResp := &api.PermissionsResponse{} err = f.pacer.Call(func() (bool, error) { resp, err = f.srv.CallJSON(ctx, &opts, nil, &permResp) return shouldRetry(ctx, resp, err) }) return permResp.Value, resp, err } func (f *Fs) newMetadata(remote string) *Metadata { return &Metadata{fs: f, remote: remote} } // returns true if metadata includes a "permissions" key and f.opt.MetadataPermissions includes "write". func (f *Fs) needsUpdatePermissions(metadata fs.Metadata) bool { _, ok := metadata["permissions"] return ok && f.opt.MetadataPermissions.IsSet(rwWrite) } // returns a non-zero btime if we have one // otherwise falls back to mtime func (o *Object) tryGetBtime(modTime time.Time) time.Time { if o.meta != nil && !o.meta.btime.IsZero() { return o.meta.btime } return modTime } // adds metadata (except permissions) if --metadata is in use func (o *Object) fetchMetadataForCreate(ctx context.Context, src fs.ObjectInfo, options []fs.OpenOption, modTime time.Time) (createRequest api.CreateUploadRequest, metadata fs.Metadata, err error) { createRequest = api.CreateUploadRequest{ // we set mtime no matter what Item: api.Metadata{ FileSystemInfo: &api.FileSystemInfoFacet{ CreatedDateTime: api.Timestamp(o.tryGetBtime(modTime)), LastModifiedDateTime: api.Timestamp(modTime), }, }, } meta, err := fs.GetMetadataOptions(ctx, o.fs, src, options) if err != nil { return createRequest, nil, fmt.Errorf("failed to read metadata from source object: %w", err) } if meta == nil { return createRequest, nil, nil // no metadata or --metadata not in use, so just return mtime } if o.meta == nil { o.meta = o.fs.newMetadata(o.Remote()) } o.meta.mtime = modTime numSet, err := o.meta.Set(ctx, meta) if err != nil { return createRequest, meta, err } if numSet == 0 { return createRequest, meta, nil } createRequest.Item = o.meta.toAPIMetadata() return createRequest, meta, nil } // Fetch metadata and update updateInfo if --metadata is in use // modtime will still be set when there is no metadata to set func (f *Fs) fetchAndUpdateMetadata(ctx context.Context, src fs.ObjectInfo, options []fs.OpenOption, updateInfo *Object) (info *api.Item, err error) { meta, err := fs.GetMetadataOptions(ctx, f, src, options) if err != nil { return nil, fmt.Errorf("failed to read metadata from source object: %w", err) } if meta == nil { return updateInfo.setModTime(ctx, src.ModTime(ctx)) // no metadata or --metadata not in use, so just set modtime } if updateInfo.meta == nil { updateInfo.meta = f.newMetadata(updateInfo.Remote()) } newInfo, err := updateInfo.updateMetadata(ctx, meta) if newInfo == nil { return info, err } return newInfo, err } // updateMetadata calls Get, Set, and Write func (o *Object) updateMetadata(ctx context.Context, meta fs.Metadata) (info *api.Item, err error) { _, err = o.meta.Get(ctx) // refresh permissions if err != nil { return nil, err } numSet, err := o.meta.Set(ctx, meta) if err != nil { return nil, err } if numSet == 0 { return nil, nil } info, err = o.meta.Write(ctx, o.fs.needsUpdatePermissions(meta)) if err != nil { return info, err } err = o.setMetaData(info) if err != nil { return info, err } // Remove versions if required if o.fs.opt.NoVersions { err := o.deleteVersions(ctx) if err != nil { return info, fmt.Errorf("%v: Failed to remove versions: %v", o, err) } } return info, nil } // MkdirMetadata makes the directory passed in as dir. // // It shouldn't return an error if it already exists. // // If the metadata is not nil it is set. // // It returns the directory that was created. func (f *Fs) MkdirMetadata(ctx context.Context, dir string, metadata fs.Metadata) (fs.Directory, error) { var info *api.Item var meta *Metadata dirID, err := f.dirCache.FindDir(ctx, dir, false) if err == fs.ErrorDirNotFound { // Directory does not exist so create it var leaf, parentID string leaf, parentID, err = f.dirCache.FindPath(ctx, dir, true) if err != nil { return nil, err } info, meta, err = f.createDir(ctx, parentID, dir, leaf, metadata) if err != nil { return nil, err } if f.driveType != driveTypePersonal { // for some reason, OneDrive Business needs this extra step to set modtime, while Personal does not. Seems like a bug... fs.Debugf(dir, "setting time %v", meta.mtime) info, err = meta.Write(ctx, false) } } else if err == nil { // Directory exists and needs updating info, meta, err = f.updateDir(ctx, dirID, dir, metadata) } if err != nil { return nil, err } // Convert the info into a directory entry parent, _ := dircache.SplitPath(dir) entry, err := f.itemToDirEntry(ctx, parent, info) if err != nil { return nil, err } directory, ok := entry.(*Directory) if !ok { return nil, fmt.Errorf("internal error: expecting %T to be a *Directory", entry) } directory.meta = meta f.setSystemMetadata(info, directory.meta, entry.Remote(), dirMimeType) dirEntry, ok := entry.(fs.Directory) if !ok { return nil, fmt.Errorf("internal error: expecting %T to be an fs.Directory", entry) } return dirEntry, nil } // createDir makes a directory with pathID as parent and name leaf with optional metadata func (f *Fs) createDir(ctx context.Context, pathID, dirWithLeaf, leaf string, metadata fs.Metadata) (info *api.Item, meta *Metadata, err error) { // fs.Debugf(f, "CreateDir(%q, %q)\n", dirID, leaf) var resp *http.Response opts := f.newOptsCall(pathID, "POST", "/children") mkdir := api.CreateItemWithMetadataRequest{ CreateItemRequest: api.CreateItemRequest{ Name: f.opt.Enc.FromStandardName(leaf), ConflictBehavior: "fail", }, } m := f.newMetadata(dirWithLeaf) m.mimeType = dirMimeType numSet := 0 if len(metadata) > 0 { numSet, err = m.Set(ctx, metadata) if err != nil { return nil, m, err } if numSet > 0 { mkdir.Metadata = m.toAPIMetadata() } } err = f.pacer.Call(func() (bool, error) { resp, err = f.srv.CallJSON(ctx, &opts, &mkdir, &info) return shouldRetry(ctx, resp, err) }) if err != nil { return nil, m, err } if f.needsUpdatePermissions(metadata) && numSet > 0 { // permissions must be done as a separate step m.normalizedID = info.GetID() err = m.RefreshPermissions(ctx) if err != nil { return info, m, err } err = m.WritePermissions(ctx) if err != nil { fs.Errorf(m.remote, "error writing permissions: %v", err) return info, m, err } } return info, m, nil } // updateDir updates an existing a directory with the metadata passed in func (f *Fs) updateDir(ctx context.Context, dirID, remote string, metadata fs.Metadata) (info *api.Item, meta *Metadata, err error) { d := f.newDir(dirID, remote) _, err = d.meta.Set(ctx, metadata) if err != nil { return nil, nil, err } info, err = d.meta.Write(ctx, f.needsUpdatePermissions(metadata)) return info, d.meta, err } func (f *Fs) newDir(dirID, remote string) (d *Directory) { d = &Directory{ fs: f, remote: remote, size: -1, items: -1, id: dirID, meta: f.newMetadata(remote), } d.meta.normalizedID = dirID return d } // Metadata returns metadata for a DirEntry // // It should return nil if there is no Metadata func (o *Object) Metadata(ctx context.Context) (metadata fs.Metadata, err error) { err = o.readMetaData(ctx) if err != nil { fs.Logf(o, "Failed to read metadata: %v", err) return nil, err } return o.meta.Get(ctx) } // DirSetModTime sets the directory modtime for dir func (f *Fs) DirSetModTime(ctx context.Context, dir string, modTime time.Time) error { dirID, err := f.dirCache.FindDir(ctx, dir, false) if err != nil { return err } d := f.newDir(dirID, dir) return d.SetModTime(ctx, modTime) } // SetModTime sets the metadata on the DirEntry to set the modification date // // If there is any other metadata it does not overwrite it. func (d *Directory) SetModTime(ctx context.Context, t time.Time) error { btime := t if d.meta != nil && !d.meta.btime.IsZero() { btime = d.meta.btime // if we already have a non-zero btime, preserve it } d.meta = d.fs.newMetadata(d.remote) // set only the mtime and btime d.meta.mtime = t d.meta.btime = btime _, err := d.meta.Write(ctx, false) return err } // Metadata returns metadata for a DirEntry // // It should return nil if there is no Metadata func (d *Directory) Metadata(ctx context.Context) (metadata fs.Metadata, err error) { return d.meta.Get(ctx) } // SetMetadata sets metadata for a Directory // // It should return fs.ErrorNotImplemented if it can't set metadata func (d *Directory) SetMetadata(ctx context.Context, metadata fs.Metadata) error { _, meta, err := d.fs.updateDir(ctx, d.id, d.remote, metadata) d.meta = meta return err } // Fs returns read only access to the Fs that this object is part of func (d *Directory) Fs() fs.Info { return d.fs } // String returns the name func (d *Directory) String() string { return d.remote } // Remote returns the remote path func (d *Directory) Remote() string { return d.remote } // ModTime returns the modification date of the file // // If one isn't available it returns the configured --default-dir-time func (d *Directory) ModTime(ctx context.Context) time.Time { if !d.meta.mtime.IsZero() { return d.meta.mtime } ci := fs.GetConfig(ctx) return time.Time(ci.DefaultTime) } // Size returns the size of the file func (d *Directory) Size() int64 { return d.size } // Items returns the count of items in this directory or this // directory and subdirectories if known, -1 for unknown func (d *Directory) Items() int64 { return d.items } // ID gets the optional ID func (d *Directory) ID() string { return d.id } // MimeType returns the content type of the Object if // known, or "" if not func (d *Directory) MimeType(ctx context.Context) string { return dirMimeType }