// provisionNode allocates the IDs for one node, meant to be called from a tree
// traversal. If allocation fails, panic and expect to be recovered. The
// allocated IDs are stored in newIds so as to be collected in the recover
// routine.
func provisionNode(g canvas.Graph, this canvas.Node, newIds *[]canvas.NodeIfc) {
Info.Printf("Provisioning %s (%d)\n", this, this.ID())
for _, t := range g.From(this) {
e := g.E(this, t)
target := t.(canvas.Node)
chain := computeChainFrom(this, target)
fid, tid := e.F().Ifc(), e.T().Ifc()
var err error
if fid < 0 {
if fid, err = e.From().(canvas.Node).NewInterfaceID(); err != nil {
Error.Printf("Provisioning %s failed %s\n", e.From().(canvas.Node), err)
panic(err)
}
*newIds = append(*newIds, canvas.NodeIfc{e.From().ID(), fid})
}
if tid < 0 {
if tid, err = e.To().(canvas.Node).NewInterfaceID(); err != nil {
Error.Printf("Provisioning %s failed %s\n", e.To().(canvas.Node), err)
panic(err)
}
*newIds = append(*newIds, canvas.NodeIfc{e.To().ID(), tid})
}
if e.Update(chain, fid, tid) {
}
}
}
func (nm *NetlinkMonitor) ensureInterface(g canvas.Graph, node InterfaceNode) error {
if node.ID() < 0 {
return nil
}
Info.Printf("visit: id=%d :: fd=%d :: %s :: %d\n", node.ID(), node.FD(), node.Path(), node.Link().Attrs().Index)
nm.modules.Set(strconv.Itoa(node.ID()), strconv.Itoa(node.FD()))
switch deg := g.Degree(node); deg {
case 2:
//Debug.Printf("Adding ingress for %s\n", node.Link().Attrs().Name)
next := g.From(node)[0].(canvas.Node)
e := g.E(node, next)
if e.Serialize()[0] == 0 {
return nil
}
chain, err := NewIngressChain(e.Serialize())
if err != nil {
return err
}
defer chain.Close()
Info.Printf(" %4d: %-11s%s\n", e.F().Ifc(), next.Path(), e)
if err := ensureIngressFd(node.Link(), chain.FD()); err != nil {
return err
}
default:
return fmt.Errorf("Invalid # edges for node %s, must be 2, got %d", node.Path(), deg)
}
return nil
}
func (h *Renderer) Run(g canvas.Graph, nodes []InterfaceNode) {
visitFn := func(prev, this canvas.Node) {
Info.Printf("visit: %d :: %s\n", this.ID(), this.Path())
for _, t := range g.From(this) {
e := g.E(this, t)
adapter := this.(*canvas.AdapterNode).Adapter()
if e.IsDeleted() {
fc := adapter.Table("forward_chain")
if fc == nil {
panic(fmt.Errorf("Could not find forward_chain in adapter"))
}
// find and delete the reverse edge as well
e2 := g.E(t, this)
if !e2.IsDeleted() {
panic(fmt.Errorf("Reverse edge %d->%d is not deleted", t.ID(), this.ID()))
}
// clear previous entry (if any) in the ifc table
key := fmt.Sprintf("%d", e.F().Ifc())
if err := fc.Set(key, "{ [ 0x0 0x0 0x0 0x0 ] }"); err != nil {
panic(err)
}
g.RemoveEdge(e)
g.RemoveEdge(e2)
// do not perform any further processing on node 't'
continue
}
target := t.(canvas.Node)
if adapter.Type() == "bridge" {
if target, ok := target.(*ExtInterface); ok {
if e.Serialize()[0] == 0 {
continue
}
chain, err := NewEgressChain(e.Serialize())
if err != nil {
panic(err)
}
defer chain.Close()
Info.Printf(" %4d: %-11s%s\n", e.F().Ifc(), target.Path(), e)
if err := ensureEgressFd(target.Link(), chain.FD()); err != nil {
panic(err)
}
}
} else {
fc := adapter.Table("forward_chain")
if fc == nil {
panic(fmt.Errorf("Could not find forward_chain in adapter"))
}
key := fmt.Sprintf("%d", e.F().Ifc())
val := fmt.Sprintf("{%#x}", e.Serialize())
Info.Printf(" %4s: %-11s%s\n", key, target.Path(), val)
if err := fc.Set(key, val); err != nil {
panic(err)
}
//Debug.Printf(" %s:%d -> %s:%d\n", this.Path(), i, target.Path(), target.ID())
}
}
}
t := canvas.NewDepthFirst(visitFn, filterInterfaceNode)
// Find all of the Adapter (internal) nodes reachable from an external interface.
// Collect the ID of each node and update the modules table.
for _, node := range nodes {
if node.ID() < 0 {
continue
}
t.Walk(g, node, nil)
}
// reset interfaces with degree 0; these interfaces are now unreachable
for _, node := range nodes {
//Debug.Printf("Run cleanup: considering node %d\n", node.ID())
if node.ID() < 0 {
continue
}
degree := g.Degree(node)
//Debug.Printf("Run cleanup: node %d has degree %d\n", node.ID(), degree)
if degree != 0 {
continue
}
g.RemoveNode(node)
// release and reset ID allocated for this interface
node.ReleaseInterfaceID(node.ID())
node.SetID(-1)
}
}