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https://github.com/opentofu/opentofu.git
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05caff2ca3
This is part of a general effort to move all of Terraform's non-library package surface under internal in order to reinforce that these are for internal use within Terraform only. If you were previously importing packages under this prefix into an external codebase, you could pin to an earlier release tag as an interim solution until you've make a plan to achieve the same functionality some other way.
449 lines
12 KiB
Go
449 lines
12 KiB
Go
package dag
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import (
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"errors"
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"log"
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"sync"
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"time"
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"github.com/hashicorp/terraform/internal/tfdiags"
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)
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// Walker is used to walk every vertex of a graph in parallel.
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//
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// A vertex will only be walked when the dependencies of that vertex have
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// been walked. If two vertices can be walked at the same time, they will be.
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//
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// Update can be called to update the graph. This can be called even during
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// a walk, changing vertices/edges mid-walk. This should be done carefully.
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// If a vertex is removed but has already been executed, the result of that
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// execution (any error) is still returned by Wait. Changing or re-adding
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// a vertex that has already executed has no effect. Changing edges of
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// a vertex that has already executed has no effect.
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//
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// Non-parallelism can be enforced by introducing a lock in your callback
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// function. However, the goroutine overhead of a walk will remain.
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// Walker will create V*2 goroutines (one for each vertex, and dependency
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// waiter for each vertex). In general this should be of no concern unless
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// there are a huge number of vertices.
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//
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// The walk is depth first by default. This can be changed with the Reverse
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// option.
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//
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// A single walker is only valid for one graph walk. After the walk is complete
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// you must construct a new walker to walk again. State for the walk is never
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// deleted in case vertices or edges are changed.
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type Walker struct {
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// Callback is what is called for each vertex
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Callback WalkFunc
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// Reverse, if true, causes the source of an edge to depend on a target.
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// When false (default), the target depends on the source.
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Reverse bool
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// changeLock must be held to modify any of the fields below. Only Update
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// should modify these fields. Modifying them outside of Update can cause
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// serious problems.
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changeLock sync.Mutex
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vertices Set
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edges Set
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vertexMap map[Vertex]*walkerVertex
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// wait is done when all vertices have executed. It may become "undone"
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// if new vertices are added.
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wait sync.WaitGroup
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// diagsMap contains the diagnostics recorded so far for execution,
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// and upstreamFailed contains all the vertices whose problems were
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// caused by upstream failures, and thus whose diagnostics should be
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// excluded from the final set.
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//
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// Readers and writers of either map must hold diagsLock.
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diagsMap map[Vertex]tfdiags.Diagnostics
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upstreamFailed map[Vertex]struct{}
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diagsLock sync.Mutex
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}
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func (w *Walker) init() {
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if w.vertices == nil {
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w.vertices = make(Set)
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}
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if w.edges == nil {
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w.edges = make(Set)
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}
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}
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type walkerVertex struct {
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// These should only be set once on initialization and never written again.
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// They are not protected by a lock since they don't need to be since
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// they are write-once.
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// DoneCh is closed when this vertex has completed execution, regardless
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// of success.
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//
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// CancelCh is closed when the vertex should cancel execution. If execution
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// is already complete (DoneCh is closed), this has no effect. Otherwise,
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// execution is cancelled as quickly as possible.
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DoneCh chan struct{}
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CancelCh chan struct{}
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// Dependency information. Any changes to any of these fields requires
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// holding DepsLock.
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//
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// DepsCh is sent a single value that denotes whether the upstream deps
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// were successful (no errors). Any value sent means that the upstream
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// dependencies are complete. No other values will ever be sent again.
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//
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// DepsUpdateCh is closed when there is a new DepsCh set.
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DepsCh chan bool
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DepsUpdateCh chan struct{}
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DepsLock sync.Mutex
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// Below is not safe to read/write in parallel. This behavior is
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// enforced by changes only happening in Update. Nothing else should
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// ever modify these.
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deps map[Vertex]chan struct{}
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depsCancelCh chan struct{}
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}
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// Wait waits for the completion of the walk and returns diagnostics describing
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// any problems that arose. Update should be called to populate the walk with
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// vertices and edges prior to calling this.
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//
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// Wait will return as soon as all currently known vertices are complete.
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// If you plan on calling Update with more vertices in the future, you
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// should not call Wait until after this is done.
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func (w *Walker) Wait() tfdiags.Diagnostics {
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// Wait for completion
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w.wait.Wait()
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var diags tfdiags.Diagnostics
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w.diagsLock.Lock()
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for v, vDiags := range w.diagsMap {
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if _, upstream := w.upstreamFailed[v]; upstream {
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// Ignore diagnostics for nodes that had failed upstreams, since
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// the downstream diagnostics are likely to be redundant.
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continue
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}
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diags = diags.Append(vDiags)
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}
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w.diagsLock.Unlock()
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return diags
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}
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// Update updates the currently executing walk with the given graph.
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// This will perform a diff of the vertices and edges and update the walker.
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// Already completed vertices remain completed (including any errors during
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// their execution).
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//
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// This returns immediately once the walker is updated; it does not wait
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// for completion of the walk.
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//
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// Multiple Updates can be called in parallel. Update can be called at any
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// time during a walk.
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func (w *Walker) Update(g *AcyclicGraph) {
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w.init()
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v := make(Set)
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e := make(Set)
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if g != nil {
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v, e = g.vertices, g.edges
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}
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// Grab the change lock so no more updates happen but also so that
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// no new vertices are executed during this time since we may be
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// removing them.
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w.changeLock.Lock()
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defer w.changeLock.Unlock()
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// Initialize fields
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if w.vertexMap == nil {
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w.vertexMap = make(map[Vertex]*walkerVertex)
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}
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// Calculate all our sets
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newEdges := e.Difference(w.edges)
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oldEdges := w.edges.Difference(e)
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newVerts := v.Difference(w.vertices)
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oldVerts := w.vertices.Difference(v)
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// Add the new vertices
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for _, raw := range newVerts {
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v := raw.(Vertex)
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// Add to the waitgroup so our walk is not done until everything finishes
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w.wait.Add(1)
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// Add to our own set so we know about it already
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w.vertices.Add(raw)
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// Initialize the vertex info
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info := &walkerVertex{
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DoneCh: make(chan struct{}),
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CancelCh: make(chan struct{}),
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deps: make(map[Vertex]chan struct{}),
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}
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// Add it to the map and kick off the walk
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w.vertexMap[v] = info
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}
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// Remove the old vertices
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for _, raw := range oldVerts {
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v := raw.(Vertex)
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// Get the vertex info so we can cancel it
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info, ok := w.vertexMap[v]
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if !ok {
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// This vertex for some reason was never in our map. This
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// shouldn't be possible.
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continue
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}
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// Cancel the vertex
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close(info.CancelCh)
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// Delete it out of the map
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delete(w.vertexMap, v)
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w.vertices.Delete(raw)
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}
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// Add the new edges
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changedDeps := make(Set)
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for _, raw := range newEdges {
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edge := raw.(Edge)
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waiter, dep := w.edgeParts(edge)
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// Get the info for the waiter
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waiterInfo, ok := w.vertexMap[waiter]
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if !ok {
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// Vertex doesn't exist... shouldn't be possible but ignore.
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continue
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}
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// Get the info for the dep
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depInfo, ok := w.vertexMap[dep]
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if !ok {
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// Vertex doesn't exist... shouldn't be possible but ignore.
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continue
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}
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// Add the dependency to our waiter
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waiterInfo.deps[dep] = depInfo.DoneCh
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// Record that the deps changed for this waiter
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changedDeps.Add(waiter)
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w.edges.Add(raw)
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}
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// Process removed edges
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for _, raw := range oldEdges {
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edge := raw.(Edge)
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waiter, dep := w.edgeParts(edge)
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// Get the info for the waiter
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waiterInfo, ok := w.vertexMap[waiter]
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if !ok {
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// Vertex doesn't exist... shouldn't be possible but ignore.
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continue
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}
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// Delete the dependency from the waiter
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delete(waiterInfo.deps, dep)
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// Record that the deps changed for this waiter
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changedDeps.Add(waiter)
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w.edges.Delete(raw)
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}
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// For each vertex with changed dependencies, we need to kick off
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// a new waiter and notify the vertex of the changes.
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for _, raw := range changedDeps {
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v := raw.(Vertex)
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info, ok := w.vertexMap[v]
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if !ok {
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// Vertex doesn't exist... shouldn't be possible but ignore.
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continue
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}
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// Create a new done channel
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doneCh := make(chan bool, 1)
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// Create the channel we close for cancellation
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cancelCh := make(chan struct{})
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// Build a new deps copy
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deps := make(map[Vertex]<-chan struct{})
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for k, v := range info.deps {
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deps[k] = v
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}
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// Update the update channel
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info.DepsLock.Lock()
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if info.DepsUpdateCh != nil {
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close(info.DepsUpdateCh)
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}
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info.DepsCh = doneCh
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info.DepsUpdateCh = make(chan struct{})
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info.DepsLock.Unlock()
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// Cancel the older waiter
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if info.depsCancelCh != nil {
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close(info.depsCancelCh)
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}
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info.depsCancelCh = cancelCh
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// Start the waiter
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go w.waitDeps(v, deps, doneCh, cancelCh)
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}
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// Start all the new vertices. We do this at the end so that all
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// the edge waiters and changes are set up above.
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for _, raw := range newVerts {
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v := raw.(Vertex)
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go w.walkVertex(v, w.vertexMap[v])
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}
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}
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// edgeParts returns the waiter and the dependency, in that order.
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// The waiter is waiting on the dependency.
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func (w *Walker) edgeParts(e Edge) (Vertex, Vertex) {
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if w.Reverse {
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return e.Source(), e.Target()
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}
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return e.Target(), e.Source()
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}
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// walkVertex walks a single vertex, waiting for any dependencies before
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// executing the callback.
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func (w *Walker) walkVertex(v Vertex, info *walkerVertex) {
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// When we're done executing, lower the waitgroup count
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defer w.wait.Done()
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// When we're done, always close our done channel
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defer close(info.DoneCh)
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// Wait for our dependencies. We create a [closed] deps channel so
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// that we can immediately fall through to load our actual DepsCh.
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var depsSuccess bool
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var depsUpdateCh chan struct{}
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depsCh := make(chan bool, 1)
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depsCh <- true
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close(depsCh)
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for {
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select {
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case <-info.CancelCh:
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// Cancel
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return
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case depsSuccess = <-depsCh:
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// Deps complete! Mark as nil to trigger completion handling.
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depsCh = nil
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case <-depsUpdateCh:
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// New deps, reloop
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}
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// Check if we have updated dependencies. This can happen if the
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// dependencies were satisfied exactly prior to an Update occurring.
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// In that case, we'd like to take into account new dependencies
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// if possible.
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info.DepsLock.Lock()
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if info.DepsCh != nil {
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depsCh = info.DepsCh
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info.DepsCh = nil
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}
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if info.DepsUpdateCh != nil {
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depsUpdateCh = info.DepsUpdateCh
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}
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info.DepsLock.Unlock()
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// If we still have no deps channel set, then we're done!
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if depsCh == nil {
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break
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}
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}
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// If we passed dependencies, we just want to check once more that
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// we're not cancelled, since this can happen just as dependencies pass.
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select {
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case <-info.CancelCh:
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// Cancelled during an update while dependencies completed.
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return
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default:
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}
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// Run our callback or note that our upstream failed
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var diags tfdiags.Diagnostics
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var upstreamFailed bool
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if depsSuccess {
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diags = w.Callback(v)
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} else {
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log.Printf("[TRACE] dag/walk: upstream of %q errored, so skipping", VertexName(v))
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// This won't be displayed to the user because we'll set upstreamFailed,
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// but we need to ensure there's at least one error in here so that
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// the failures will cascade downstream.
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diags = diags.Append(errors.New("upstream dependencies failed"))
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upstreamFailed = true
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}
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// Record the result (we must do this after execution because we mustn't
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// hold diagsLock while visiting a vertex.)
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w.diagsLock.Lock()
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if w.diagsMap == nil {
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w.diagsMap = make(map[Vertex]tfdiags.Diagnostics)
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}
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w.diagsMap[v] = diags
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if w.upstreamFailed == nil {
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w.upstreamFailed = make(map[Vertex]struct{})
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}
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if upstreamFailed {
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w.upstreamFailed[v] = struct{}{}
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}
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w.diagsLock.Unlock()
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}
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func (w *Walker) waitDeps(
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v Vertex,
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deps map[Vertex]<-chan struct{},
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doneCh chan<- bool,
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cancelCh <-chan struct{}) {
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// For each dependency given to us, wait for it to complete
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for dep, depCh := range deps {
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DepSatisfied:
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for {
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select {
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case <-depCh:
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// Dependency satisfied!
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break DepSatisfied
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case <-cancelCh:
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// Wait cancelled. Note that we didn't satisfy dependencies
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// so that anything waiting on us also doesn't run.
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doneCh <- false
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return
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case <-time.After(time.Second * 5):
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log.Printf("[TRACE] dag/walk: vertex %q is waiting for %q",
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VertexName(v), VertexName(dep))
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}
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}
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}
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// Dependencies satisfied! We need to check if any errored
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w.diagsLock.Lock()
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defer w.diagsLock.Unlock()
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for dep := range deps {
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if w.diagsMap[dep].HasErrors() {
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// One of our dependencies failed, so return false
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doneCh <- false
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return
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}
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}
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// All dependencies satisfied and successful
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doneCh <- true
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}
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