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https://github.com/opentofu/opentofu.git
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a3403f2766
Due to how often the state and plan types are referenced throughout Terraform, there isn't a great way to switch them out gradually. As a consequence, this huge commit gets us from the old world to a _compilable_ new world, but still has a large number of known test failures due to key functionality being stubbed out. The stubs here are for anything that interacts with providers, since we now need to do the follow-up work to similarly replace the old terraform.ResourceProvider interface with its replacement in the new "providers" package. That work, along with work to fix the remaining failing tests, will follow in subsequent commits. The aim here was to replace all references to terraform.State and its downstream types with states.State, terraform.Plan with plans.Plan, state.State with statemgr.State, and switch to the new implementations of the state and plan file formats. However, due to the number of times those types are used, this also ended up affecting numerous other parts of core such as terraform.Hook, the backend.Backend interface, and most of the CLI commands. Just as with 5861dbf3fc49b19587a31816eb06f511ab861bb4 before, I apologize in advance to the person who inevitably just found this huge commit while spelunking through the commit history.
142 lines
4.1 KiB
Go
142 lines
4.1 KiB
Go
package terraform
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import (
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"fmt"
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"log"
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"github.com/hashicorp/terraform/tfdiags"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/dag"
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)
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// Graph represents the graph that Terraform uses to represent resources
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// and their dependencies.
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type Graph struct {
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// Graph is the actual DAG. This is embedded so you can call the DAG
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// methods directly.
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dag.AcyclicGraph
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// Path is the path in the module tree that this Graph represents.
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Path addrs.ModuleInstance
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// debugName is a name for reference in the debug output. This is usually
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// to indicate what topmost builder was, and if this graph is a shadow or
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// not.
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debugName string
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}
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func (g *Graph) DirectedGraph() dag.Grapher {
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return &g.AcyclicGraph
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}
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// Walk walks the graph with the given walker for callbacks. The graph
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// will be walked with full parallelism, so the walker should expect
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// to be called in concurrently.
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func (g *Graph) Walk(walker GraphWalker) tfdiags.Diagnostics {
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return g.walk(walker)
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}
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func (g *Graph) walk(walker GraphWalker) tfdiags.Diagnostics {
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// The callbacks for enter/exiting a graph
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ctx := walker.EnterPath(g.Path)
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defer walker.ExitPath(g.Path)
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// Get the path for logs
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path := ctx.Path().String()
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debugName := "walk-graph.json"
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if g.debugName != "" {
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debugName = g.debugName + "-" + debugName
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}
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// Walk the graph.
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var walkFn dag.WalkFunc
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walkFn = func(v dag.Vertex) (diags tfdiags.Diagnostics) {
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log.Printf("[TRACE] vertex %q: starting visit (%T)", dag.VertexName(v), v)
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g.DebugVisitInfo(v, g.debugName)
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defer func() {
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log.Printf("[TRACE] vertex %q: visit complete", dag.VertexName(v))
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}()
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walker.EnterVertex(v)
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defer walker.ExitVertex(v, diags)
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// vertexCtx is the context that we use when evaluating. This
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// is normally the context of our graph but can be overridden
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// with a GraphNodeSubPath impl.
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vertexCtx := ctx
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if pn, ok := v.(GraphNodeSubPath); ok && len(pn.Path()) > 0 {
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vertexCtx = walker.EnterPath(pn.Path())
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defer walker.ExitPath(pn.Path())
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}
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// If the node is eval-able, then evaluate it.
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if ev, ok := v.(GraphNodeEvalable); ok {
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tree := ev.EvalTree()
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if tree == nil {
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panic(fmt.Sprintf("%q (%T): nil eval tree", dag.VertexName(v), v))
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}
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// Allow the walker to change our tree if needed. Eval,
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// then callback with the output.
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log.Printf("[TRACE] vertex %q: evaluating", dag.VertexName(v))
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g.DebugVertexInfo(v, fmt.Sprintf("evaluating %T(%s)", v, path))
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tree = walker.EnterEvalTree(v, tree)
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output, err := Eval(tree, vertexCtx)
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diags = diags.Append(walker.ExitEvalTree(v, output, err))
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if diags.HasErrors() {
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return
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}
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}
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// If the node is dynamically expanded, then expand it
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if ev, ok := v.(GraphNodeDynamicExpandable); ok {
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log.Printf("[TRACE] vertex %q: expanding dynamic subgraph", dag.VertexName(v))
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g.DebugVertexInfo(v, fmt.Sprintf("expanding %T(%s)", v, path))
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g, err := ev.DynamicExpand(vertexCtx)
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if err != nil {
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diags = diags.Append(err)
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return
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}
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if g != nil {
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// Walk the subgraph
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log.Printf("[TRACE] vertex %q: entering dynamic subgraph", dag.VertexName(v))
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subDiags := g.walk(walker)
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diags = diags.Append(subDiags)
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if subDiags.HasErrors() {
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log.Printf("[TRACE] vertex %q: dynamic subgraph encountered errors", dag.VertexName(v))
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return
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}
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log.Printf("[TRACE] vertex %q: dynamic subgraph completed successfully", dag.VertexName(v))
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} else {
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log.Printf("[TRACE] vertex %q: produced no dynamic subgraph", dag.VertexName(v))
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}
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}
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// If the node has a subgraph, then walk the subgraph
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if sn, ok := v.(GraphNodeSubgraph); ok {
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log.Printf("[TRACE] vertex %q: entering static subgraph", dag.VertexName(v))
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g.DebugVertexInfo(v, fmt.Sprintf("subgraph: %T(%s)", v, path))
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subDiags := sn.Subgraph().(*Graph).walk(walker)
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if subDiags.HasErrors() {
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log.Printf("[TRACE] vertex %q: static subgraph encountered errors", dag.VertexName(v))
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return
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}
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log.Printf("[TRACE] vertex %q: static subgraph completed successfully", dag.VertexName(v))
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}
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return
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}
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return g.AcyclicGraph.Walk(walkFn)
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}
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