package policy import ( "context" "github.com/rclone/rclone/backend/union/upstream" "github.com/rclone/rclone/fs" ) func init() { registerPolicy("epmfs", &EpMfs{}) } // EpMfs stands for existing path, most free space // Of all the candidates on which the path exists choose the one with the most free space. type EpMfs struct { EpAll } func (p *EpMfs) mfs(upstreams []*upstream.Fs) (*upstream.Fs, error) { var maxFreeSpace int64 var mfsupstream *upstream.Fs for _, u := range upstreams { space, err := u.GetFreeSpace() if err != nil { fs.LogPrintf(fs.LogLevelNotice, nil, "Free Space is not supported for upstream %s, treating as infinite", u.Name()) } if maxFreeSpace < space { maxFreeSpace = space mfsupstream = u } } if mfsupstream == nil { return nil, fs.ErrorObjectNotFound } return mfsupstream, nil } func (p *EpMfs) mfsEntries(entries []upstream.Entry) (upstream.Entry, error) { var maxFreeSpace int64 var mfsEntry upstream.Entry for _, e := range entries { space, err := e.UpstreamFs().GetFreeSpace() if err != nil { fs.LogPrintf(fs.LogLevelNotice, nil, "Free Space is not supported for upstream %s, treating as infinite", e.UpstreamFs().Name()) } if maxFreeSpace < space { maxFreeSpace = space mfsEntry = e } } return mfsEntry, nil } // Action category policy, governing the modification of files and directories func (p *EpMfs) Action(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) { upstreams, err := p.EpAll.Action(ctx, upstreams, path) if err != nil { return nil, err } u, err := p.mfs(upstreams) return []*upstream.Fs{u}, err } // ActionEntries is ACTION category policy but receving a set of candidate entries func (p *EpMfs) ActionEntries(entries ...upstream.Entry) ([]upstream.Entry, error) { entries, err := p.EpAll.ActionEntries(entries...) if err != nil { return nil, err } e, err := p.mfsEntries(entries) return []upstream.Entry{e}, err } // Create category policy, governing the creation of files and directories func (p *EpMfs) Create(ctx context.Context, upstreams []*upstream.Fs, path string) ([]*upstream.Fs, error) { upstreams, err := p.EpAll.Create(ctx, upstreams, path) if err != nil { return nil, err } u, err := p.mfs(upstreams) return []*upstream.Fs{u}, err } // CreateEntries is CREATE category policy but receving a set of candidate entries func (p *EpMfs) CreateEntries(entries ...upstream.Entry) ([]upstream.Entry, error) { entries, err := p.EpAll.CreateEntries(entries...) if err != nil { return nil, err } e, err := p.mfsEntries(entries) return []upstream.Entry{e}, err } // Search category policy, governing the access to files and directories func (p *EpMfs) Search(ctx context.Context, upstreams []*upstream.Fs, path string) (*upstream.Fs, error) { if len(upstreams) == 0 { return nil, fs.ErrorObjectNotFound } upstreams, err := p.epall(ctx, upstreams, path) if err != nil { return nil, err } return p.mfs(upstreams) } // SearchEntries is SEARCH category policy but receving a set of candidate entries func (p *EpMfs) SearchEntries(entries ...upstream.Entry) (upstream.Entry, error) { if len(entries) == 0 { return nil, fs.ErrorObjectNotFound } return p.mfsEntries(entries) }