package terraform import ( "fmt" "log" "github.com/zclconf/go-cty/cty" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/configs" "github.com/hashicorp/terraform/plans" "github.com/hashicorp/terraform/states" ) // EvalDeleteOutput is an EvalNode implementation that deletes an output // from the state. type EvalDeleteOutput struct { Addr addrs.AbsOutputValue } // TODO: test func (n *EvalDeleteOutput) Eval(ctx EvalContext) (interface{}, error) { state := ctx.State() if state == nil { return nil, nil } state.RemoveOutputValue(n.Addr) return nil, nil } // EvalWriteOutput is an EvalNode implementation that writes the output // for the given name to the current state. type EvalWriteOutput struct { Addr addrs.OutputValue Config *configs.Output // ContinueOnErr allows interpolation to fail during Input ContinueOnErr bool } // TODO: test func (n *EvalWriteOutput) Eval(ctx EvalContext) (interface{}, error) { addr := n.Addr.Absolute(ctx.Path()) // This has to run before we have a state lock, since evaluation also // reads the state val, diags := ctx.EvaluateExpr(n.Config.Expr, cty.DynamicPseudoType, nil) // We'll handle errors below, after we have loaded the module. // Outputs don't have a separate mode for validation, so validate // depends_on expressions here too diags = diags.Append(validateDependsOn(ctx, n.Config.DependsOn)) state := ctx.State() if state == nil { return nil, nil } changes := ctx.Changes() // may be nil, if we're not working on a changeset // handling the interpolation error if diags.HasErrors() { if n.ContinueOnErr || flagWarnOutputErrors { log.Printf("[ERROR] Output interpolation %q failed: %s", n.Addr.Name, diags.Err()) // if we're continuing, make sure the output is included, and // marked as unknown. If the evaluator was able to find a type // for the value in spite of the error then we'll use it. n.setValue(addr, state, changes, cty.UnknownVal(val.Type())) return nil, EvalEarlyExitError{} } return nil, diags.Err() } n.setValue(addr, state, changes, val) return nil, nil } func (n *EvalWriteOutput) setValue(addr addrs.AbsOutputValue, state *states.SyncState, changes *plans.ChangesSync, val cty.Value) { if val.IsKnown() && !val.IsNull() { // The state itself doesn't represent unknown values, so we null them // out here and then we'll save the real unknown value in the planned // changeset below, if we have one on this graph walk. log.Printf("[TRACE] EvalWriteOutput: Saving value for %s in state", addr) stateVal := cty.UnknownAsNull(val) state.SetOutputValue(addr, stateVal, n.Config.Sensitive) } else { log.Printf("[TRACE] EvalWriteOutput: Removing %s from state (it is now null)", addr) state.RemoveOutputValue(addr) } // If we also have an active changeset then we'll replicate the value in // there. This is used in preference to the state where present, since it // *is* able to represent unknowns, while the state cannot. if changes != nil { // For the moment we are not properly tracking changes to output // values, and just marking them always as "Create" or "Destroy" // actions. A future release will rework the output lifecycle so we // can track their changes properly, in a similar way to how we work // with resource instances. var change *plans.OutputChange if !val.IsNull() { change = &plans.OutputChange{ Addr: addr, Sensitive: n.Config.Sensitive, Change: plans.Change{ Action: plans.Create, Before: cty.NullVal(cty.DynamicPseudoType), After: val, }, } } else { change = &plans.OutputChange{ Addr: addr, Sensitive: n.Config.Sensitive, Change: plans.Change{ // This is just a weird placeholder delete action since // we don't have an actual prior value to indicate. // FIXME: Generate real planned changes for output values // that include the old values. Action: plans.Delete, Before: cty.NullVal(cty.DynamicPseudoType), After: cty.NullVal(cty.DynamicPseudoType), }, } } cs, err := change.Encode() if err != nil { // Should never happen, since we just constructed this right above panic(fmt.Sprintf("planned change for %s could not be encoded: %s", addr, err)) } log.Printf("[TRACE] EvalWriteOutput: Saving %s change for %s in changeset", change.Action, addr) changes.RemoveOutputChange(addr) // remove any existing planned change, if present changes.AppendOutputChange(cs) // add the new planned change } }