package terraform import ( "fmt" "log" "github.com/hashicorp/go-multierror" "github.com/hashicorp/terraform/dag" ) // GraphNodeProvisioner is an interface that nodes that can be a provisioner // must implement. The ProvisionerName returned is the name of the provisioner // they satisfy. type GraphNodeProvisioner interface { ProvisionerName() string } // GraphNodeCloseProvisioner is an interface that nodes that can be a close // provisioner must implement. The CloseProvisionerName returned is the name // of the provisioner they satisfy. type GraphNodeCloseProvisioner interface { CloseProvisionerName() string } // GraphNodeProvisionerConsumer is an interface that nodes that require // a provisioner must implement. ProvisionedBy must return the names of the // provisioners to use. type GraphNodeProvisionerConsumer interface { ProvisionedBy() []string } // ProvisionerTransformer is a GraphTransformer that maps resources to // provisioners within the graph. This will error if there are any resources // that don't map to proper resources. type ProvisionerTransformer struct{} func (t *ProvisionerTransformer) Transform(g *Graph) error { // Go through the other nodes and match them to provisioners they need var err error m := provisionerVertexMap(g) for _, v := range g.Vertices() { if pv, ok := v.(GraphNodeProvisionerConsumer); ok { for _, p := range pv.ProvisionedBy() { if m[p] == nil { err = multierror.Append(err, fmt.Errorf( "%s: provisioner %s couldn't be found", dag.VertexName(v), p)) continue } log.Printf("[TRACE] ProvisionerTransformer: %s is provisioned by %s (%q)", dag.VertexName(v), p, dag.VertexName(m[p])) g.Connect(dag.BasicEdge(v, m[p])) } } } return err } // MissingProvisionerTransformer is a GraphTransformer that adds nodes // for missing provisioners into the graph. type MissingProvisionerTransformer struct { // Provisioners is the list of provisioners we support. Provisioners []string } func (t *MissingProvisionerTransformer) Transform(g *Graph) error { // Create a set of our supported provisioners supported := make(map[string]struct{}, len(t.Provisioners)) for _, v := range t.Provisioners { supported[v] = struct{}{} } // Get the map of provisioners we already have in our graph m := provisionerVertexMap(g) // Go through all the provisioner consumers and make sure we add // that provisioner if it is missing. for _, v := range g.Vertices() { pv, ok := v.(GraphNodeProvisionerConsumer) if !ok { continue } for _, p := range pv.ProvisionedBy() { if _, ok := m[p]; ok { // This provisioner already exists as a configure node continue } if _, ok := supported[p]; !ok { // If we don't support the provisioner type, we skip it. // Validation later will catch this as an error. continue } // Build the vertex var newV dag.Vertex = &NodeProvisioner{ NameValue: p, } // Add the missing provisioner node to the graph m[p] = g.Add(newV) log.Printf("[TRACE] MissingProviderTransformer: added implicit provisioner %s, first implied by %s", p, dag.VertexName(v)) } } return nil } // CloseProvisionerTransformer is a GraphTransformer that adds nodes to the // graph that will close open provisioner connections that aren't needed // anymore. A provisioner connection is not needed anymore once all depended // resources in the graph are evaluated. type CloseProvisionerTransformer struct{} func (t *CloseProvisionerTransformer) Transform(g *Graph) error { m := closeProvisionerVertexMap(g) for _, v := range g.Vertices() { if pv, ok := v.(GraphNodeProvisionerConsumer); ok { for _, p := range pv.ProvisionedBy() { source := m[p] if source == nil { // Create a new graphNodeCloseProvisioner and add it to the graph source = &graphNodeCloseProvisioner{ProvisionerNameValue: p} g.Add(source) // Make sure we also add the new graphNodeCloseProvisioner to the map // so we don't create and add any duplicate graphNodeCloseProvisioners. m[p] = source } g.Connect(dag.BasicEdge(source, v)) } } } return nil } func provisionerVertexMap(g *Graph) map[string]dag.Vertex { m := make(map[string]dag.Vertex) for _, v := range g.Vertices() { if pv, ok := v.(GraphNodeProvisioner); ok { m[pv.ProvisionerName()] = v } } return m } func closeProvisionerVertexMap(g *Graph) map[string]dag.Vertex { m := make(map[string]dag.Vertex) for _, v := range g.Vertices() { if pv, ok := v.(GraphNodeCloseProvisioner); ok { m[pv.CloseProvisionerName()] = v } } return m } type graphNodeCloseProvisioner struct { ProvisionerNameValue string } func (n *graphNodeCloseProvisioner) Name() string { return fmt.Sprintf("provisioner.%s (close)", n.ProvisionerNameValue) } // GraphNodeEvalable impl. func (n *graphNodeCloseProvisioner) EvalTree() EvalNode { return &EvalCloseProvisioner{Name: n.ProvisionerNameValue} } func (n *graphNodeCloseProvisioner) CloseProvisionerName() string { return n.ProvisionerNameValue }