package vsphere import ( "context" "log" "reflect" "strings" "github.com/vmware/govmomi/property" "github.com/vmware/govmomi/view" "github.com/vmware/govmomi/vim25/mo" "github.com/vmware/govmomi/vim25/types" ) var childTypes map[string][]string var addFields map[string][]string // Finder allows callers to find resources in vCenter given a query string. type Finder struct { client *Client } // ResourceFilter is a convenience class holding a finder and a set of paths. It is useful when you need a // self contained object capable of returning a certain set of resources. type ResourceFilter struct { finder *Finder resType string paths []string } type nameAndRef struct { name string ref types.ManagedObjectReference } // FindAll returns the union of resources found given the supplied resource type and paths. func (f *Finder) FindAll(ctx context.Context, resType string, paths []string, dst interface{}) error { for _, p := range paths { if err := f.Find(ctx, resType, p, dst); err != nil { return err } } return nil } // Find returns the resources matching the specified path. func (f *Finder) Find(ctx context.Context, resType, path string, dst interface{}) error { p := strings.Split(path, "/") flt := make([]property.Filter, len(p)-1) for i := 1; i < len(p); i++ { flt[i-1] = property.Filter{"name": p[i]} } objs := make(map[string]types.ObjectContent) err := f.descend(ctx, f.client.Client.ServiceContent.RootFolder, resType, flt, 0, objs) if err != nil { return err } objectContentToTypedArray(objs, dst) log.Printf("D! [inputs.vsphere] Find(%s, %s) returned %d objects", resType, path, len(objs)) return nil } func (f *Finder) descend(ctx context.Context, root types.ManagedObjectReference, resType string, tokens []property.Filter, pos int, objs map[string]types.ObjectContent) error { isLeaf := pos == len(tokens)-1 // No more tokens to match? if pos >= len(tokens) { return nil } // Determine child types ct, ok := childTypes[root.Reference().Type] if !ok { // We don't know how to handle children of this type. Stop descending. return nil } m := view.NewManager(f.client.Client.Client) v, err := m.CreateContainerView(ctx, root, ct, false) if err != nil { return err } defer v.Destroy(ctx) var content []types.ObjectContent fields := []string{"name"} if isLeaf { // Special case: The last token is a recursive wildcard, so we can grab everything // recursively in a single call. if tokens[pos]["name"] == "**" { v2, err := m.CreateContainerView(ctx, root, []string{resType}, true) defer v2.Destroy(ctx) if af, ok := addFields[resType]; ok { fields = append(fields, af...) } err = v2.Retrieve(ctx, []string{resType}, fields, &content) if err != nil { return err } for _, c := range content { objs[c.Obj.String()] = c } return nil } if af, ok := addFields[resType]; ok { fields = append(fields, af...) } err = v.Retrieve(ctx, []string{resType}, fields, &content) if err != nil { return err } } else { err = v.Retrieve(ctx, ct, fields, &content) if err != nil { return err } } for _, c := range content { if !tokens[pos].MatchPropertyList(c.PropSet[:1]) { continue } // Already been here through another path? Skip! if _, ok := objs[root.Reference().String()]; ok { continue } if c.Obj.Type == resType && isLeaf { // We found what we're looking for. Consider it a leaf and stop descending objs[c.Obj.String()] = c continue } // Deal with recursive wildcards (**) inc := 1 // Normally we advance one token. if tokens[pos]["name"] == "**" { if isLeaf { inc = 0 // Can't advance past last token, so keep descending the tree } else { // Lookahead to next token. If it matches this child, we are out of // the recursive wildcard handling and we can advance TWO tokens ahead, since // the token that ended the recursive wildcard mode is now consumed. if tokens[pos+1].MatchPropertyList(c.PropSet) { if pos < len(tokens)-2 { inc = 2 } else { // We found match and it's at a leaf! Grab it! objs[c.Obj.String()] = c continue } } else { // We didn't break out of recursicve wildcard mode yet, so stay on this token. inc = 0 } } } err := f.descend(ctx, c.Obj, resType, tokens, pos+inc, objs) if err != nil { return err } } return nil } func nameFromObjectContent(o types.ObjectContent) string { for _, p := range o.PropSet { if p.Name == "name" { return p.Val.(string) } } return "" } func objectContentToTypedArray(objs map[string]types.ObjectContent, dst interface{}) error { rt := reflect.TypeOf(dst) if rt == nil || rt.Kind() != reflect.Ptr { panic("need pointer") } rv := reflect.ValueOf(dst).Elem() if !rv.CanSet() { panic("cannot set dst") } for _, p := range objs { v, err := mo.ObjectContentToType(p) if err != nil { return err } vt := reflect.TypeOf(v) if !rv.Type().AssignableTo(vt) { // For example: dst is []ManagedEntity, res is []HostSystem if field, ok := vt.FieldByName(rt.Elem().Elem().Name()); ok && field.Anonymous { rv.Set(reflect.Append(rv, reflect.ValueOf(v).FieldByIndex(field.Index))) continue } } rv.Set(reflect.Append(rv, reflect.ValueOf(v))) } return nil } // FindAll finds all resources matching the paths that were specified upon creation of // the ResourceFilter. func (r *ResourceFilter) FindAll(ctx context.Context, dst interface{}) error { return r.finder.FindAll(ctx, r.resType, r.paths, dst) } func init() { childTypes = map[string][]string{ "HostSystem": {"VirtualMachine"}, "ComputeResource": {"HostSystem", "ResourcePool"}, "ClusterComputeResource": {"HostSystem", "ResourcePool"}, "Datacenter": {"Folder"}, "Folder": { "Folder", "Datacenter", "VirtualMachine", "ComputeResource", "ClusterComputeResource", "Datastore", }, } addFields = map[string][]string{ "HostSystem": {"parent"}, "VirtualMachine": {"runtime.host", "config.guestId", "config.uuid", "runtime.powerState"}, "Datastore": {"parent", "info"}, "ClusterComputeResource": {"parent"}, "Datacenter": {"parent"}, } }