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fd371d838d
opentofu/terraform/eval_context_builtin.go
Martin Atkins fd371d838d core: Handle count.index evaluation more explicitly 
Previously we had the evaluate methods accept directly an
addrs.InstanceKey and had our evaluator infer a suitable value for
count.index for it, but that prevents us from setting the index to be
unknown in the validation scenario where we may not be able to predict
the number of instances yet but we still want to be able to check that
the configuration block is type-safe for all possible count values.

To achieve this, we separate the concern of deciding on a value for
count.index from the concern of evaluating it, which then allows for
other implementations of this in future. For the purpose of this commit
there is no change in behavior, with the count.index value being populated
whenever the instance key is a number.

This commit does a little more groundwork for the future implementation
of the for_each feature (which'll support each.key and each.value) but
still doesn't yet implement it, leaving it just stubbed out for the
moment.
2018-10-16 18:50:29 -07:00

331 lines
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package terraform
import (
"context"
"fmt"
"log"
"sync"
"github.com/hashicorp/hcl2/hcl"
"github.com/hashicorp/terraform/config/configschema"
"github.com/hashicorp/terraform/lang"
"github.com/hashicorp/terraform/tfdiags"
"github.com/hashicorp/terraform/addrs"
"github.com/zclconf/go-cty/cty"
)
// BuiltinEvalContext is an EvalContext implementation that is used by
// Terraform by default.
type BuiltinEvalContext struct {
// StopContext is the context used to track whether we're complete
StopContext context.Context
// PathValue is the Path that this context is operating within.
PathValue addrs.ModuleInstance
// Evaluator is used for evaluating expressions within the scope of this
// eval context.
Evaluator *Evaluator
// Schemas is a repository of all of the schemas we should need to
// decode configuration blocks and expressions. This must be constructed by
// the caller to include schemas for all of the providers, resource types,
// data sources and provisioners used by the given configuration and
// state.
//
// This must not be mutated during evaluation.
Schemas *Schemas
// VariableValues contains the variable values across all modules. This
// structure is shared across the entire containing context, and so it
// may be accessed only when holding VariableValuesLock.
// The keys of the first level of VariableValues are the string
// representations of addrs.ModuleInstance values. The second-level keys
// are variable names within each module instance.
VariableValues map[string]map[string]cty.Value
VariableValuesLock *sync.Mutex
Components contextComponentFactory
Hooks []Hook
InputValue UIInput
ProviderCache map[string]ResourceProvider
ProviderInputConfig map[string]map[string]cty.Value
ProviderLock *sync.Mutex
ProvisionerCache map[string]ResourceProvisioner
ProvisionerLock *sync.Mutex
DiffValue *Diff
DiffLock *sync.RWMutex
StateValue *State
StateLock *sync.RWMutex
once sync.Once
}
// BuiltinEvalContext implements EvalContext
var _ EvalContext = (*BuiltinEvalContext)(nil)
func (ctx *BuiltinEvalContext) Stopped() <-chan struct{} {
// This can happen during tests. During tests, we just block forever.
if ctx.StopContext == nil {
return nil
}
return ctx.StopContext.Done()
}
func (ctx *BuiltinEvalContext) Hook(fn func(Hook) (HookAction, error)) error {
for _, h := range ctx.Hooks {
action, err := fn(h)
if err != nil {
return err
}
switch action {
case HookActionContinue:
continue
case HookActionHalt:
// Return an early exit error to trigger an early exit
log.Printf("[WARN] Early exit triggered by hook: %T", h)
return EvalEarlyExitError{}
}
}
return nil
}
func (ctx *BuiltinEvalContext) Input() UIInput {
return ctx.InputValue
}
func (ctx *BuiltinEvalContext) InitProvider(typeName string, addr addrs.ProviderConfig) (ResourceProvider, error) {
ctx.once.Do(ctx.init)
absAddr := addr.Absolute(ctx.Path())
// If we already initialized, it is an error
if p := ctx.Provider(absAddr); p != nil {
return nil, fmt.Errorf("%s is already initialized", addr)
}
// Warning: make sure to acquire these locks AFTER the call to Provider
// above, since it also acquires locks.
ctx.ProviderLock.Lock()
defer ctx.ProviderLock.Unlock()
key := absAddr.String()
p, err := ctx.Components.ResourceProvider(typeName, key)
if err != nil {
return nil, err
}
log.Printf("[TRACE] BuiltinEvalContext: Initialized %q provider for %s", typeName, absAddr)
ctx.ProviderCache[key] = p
return p, nil
}
func (ctx *BuiltinEvalContext) Provider(addr addrs.AbsProviderConfig) ResourceProvider {
ctx.once.Do(ctx.init)
ctx.ProviderLock.Lock()
defer ctx.ProviderLock.Unlock()
return ctx.ProviderCache[addr.String()]
}
func (ctx *BuiltinEvalContext) ProviderSchema(addr addrs.AbsProviderConfig) *ProviderSchema {
ctx.once.Do(ctx.init)
return ctx.Schemas.ProviderSchema(addr.ProviderConfig.Type)
}
func (ctx *BuiltinEvalContext) CloseProvider(addr addrs.ProviderConfig) error {
ctx.once.Do(ctx.init)
ctx.ProviderLock.Lock()
defer ctx.ProviderLock.Unlock()
key := addr.Absolute(ctx.Path()).String()
var provider interface{}
provider = ctx.ProviderCache[key]
if provider != nil {
if p, ok := provider.(ResourceProviderCloser); ok {
delete(ctx.ProviderCache, key)
return p.Close()
}
}
return nil
}
func (ctx *BuiltinEvalContext) ConfigureProvider(addr addrs.ProviderConfig, cfg cty.Value) tfdiags.Diagnostics {
var diags tfdiags.Diagnostics
absAddr := addr.Absolute(ctx.Path())
p := ctx.Provider(absAddr)
if p == nil {
diags = diags.Append(fmt.Errorf("%s not initialized", addr))
return diags
}
providerSchema := ctx.ProviderSchema(absAddr)
if providerSchema == nil {
diags = diags.Append(fmt.Errorf("schema for %s is not available", absAddr))
return diags
}
// FIXME: The provider API isn't yet updated to take a cty.Value directly.
rc := NewResourceConfigShimmed(cfg, providerSchema.Provider)
err := p.Configure(rc)
if err != nil {
diags = diags.Append(err)
}
return diags
}
func (ctx *BuiltinEvalContext) ProviderInput(pc addrs.ProviderConfig) map[string]cty.Value {
ctx.ProviderLock.Lock()
defer ctx.ProviderLock.Unlock()
if !ctx.Path().IsRoot() {
// Only root module provider configurations can have input.
return nil
}
return ctx.ProviderInputConfig[pc.String()]
}
func (ctx *BuiltinEvalContext) SetProviderInput(pc addrs.ProviderConfig, c map[string]cty.Value) {
absProvider := pc.Absolute(ctx.Path())
if !ctx.Path().IsRoot() {
// Only root module provider configurations can have input.
log.Printf("[WARN] BuiltinEvalContext: attempt to SetProviderInput for non-root module")
return
}
// Save the configuration
ctx.ProviderLock.Lock()
ctx.ProviderInputConfig[absProvider.String()] = c
ctx.ProviderLock.Unlock()
}
func (ctx *BuiltinEvalContext) InitProvisioner(n string) (ResourceProvisioner, error) {
ctx.once.Do(ctx.init)
// If we already initialized, it is an error
if p := ctx.Provisioner(n); p != nil {
return nil, fmt.Errorf("Provisioner '%s' already initialized", n)
}
// Warning: make sure to acquire these locks AFTER the call to Provisioner
// above, since it also acquires locks.
ctx.ProvisionerLock.Lock()
defer ctx.ProvisionerLock.Unlock()
key := PathObjectCacheKey(ctx.Path(), n)
p, err := ctx.Components.ResourceProvisioner(n, key)
if err != nil {
return nil, err
}
ctx.ProvisionerCache[key] = p
return p, nil
}
func (ctx *BuiltinEvalContext) Provisioner(n string) ResourceProvisioner {
ctx.once.Do(ctx.init)
ctx.ProvisionerLock.Lock()
defer ctx.ProvisionerLock.Unlock()
key := PathObjectCacheKey(ctx.Path(), n)
return ctx.ProvisionerCache[key]
}
func (ctx *BuiltinEvalContext) ProvisionerSchema(n string) *configschema.Block {
ctx.once.Do(ctx.init)
return ctx.Schemas.ProvisionerConfig(n)
}
func (ctx *BuiltinEvalContext) CloseProvisioner(n string) error {
ctx.once.Do(ctx.init)
ctx.ProvisionerLock.Lock()
defer ctx.ProvisionerLock.Unlock()
key := PathObjectCacheKey(ctx.Path(), n)
var prov interface{}
prov = ctx.ProvisionerCache[key]
if prov != nil {
if p, ok := prov.(ResourceProvisionerCloser); ok {
delete(ctx.ProvisionerCache, key)
return p.Close()
}
}
return nil
}
func (ctx *BuiltinEvalContext) EvaluateBlock(body hcl.Body, schema *configschema.Block, self addrs.Referenceable, keyData InstanceKeyEvalData) (cty.Value, hcl.Body, tfdiags.Diagnostics) {
var diags tfdiags.Diagnostics
scope := ctx.EvaluationScope(self, keyData)
body, evalDiags := scope.ExpandBlock(body, schema)
diags = diags.Append(evalDiags)
val, evalDiags := scope.EvalBlock(body, schema)
diags = diags.Append(evalDiags)
return val, body, diags
}
func (ctx *BuiltinEvalContext) EvaluateExpr(expr hcl.Expression, wantType cty.Type, self addrs.Referenceable) (cty.Value, tfdiags.Diagnostics) {
scope := ctx.EvaluationScope(self, EvalDataForNoInstanceKey)
return scope.EvalExpr(expr, wantType)
}
func (ctx *BuiltinEvalContext) EvaluationScope(self addrs.Referenceable, keyData InstanceKeyEvalData) *lang.Scope {
data := &evaluationStateData{
Evaluator: ctx.Evaluator,
ModulePath: ctx.PathValue,
InstanceKeyData: keyData,
}
return ctx.Evaluator.Scope(data, self)
}
func (ctx *BuiltinEvalContext) Path() addrs.ModuleInstance {
return ctx.PathValue
}
func (ctx *BuiltinEvalContext) SetModuleCallArguments(n addrs.ModuleCallInstance, vals map[string]cty.Value) {
ctx.VariableValuesLock.Lock()
defer ctx.VariableValuesLock.Unlock()
childPath := n.ModuleInstance(ctx.PathValue)
key := childPath.String()
args := ctx.VariableValues[key]
if args == nil {
args = make(map[string]cty.Value)
ctx.VariableValues[key] = vals
return
}
for k, v := range vals {
args[k] = v
}
}
func (ctx *BuiltinEvalContext) Diff() (*Diff, *sync.RWMutex) {
return ctx.DiffValue, ctx.DiffLock
}
func (ctx *BuiltinEvalContext) State() (*State, *sync.RWMutex) {
return ctx.StateValue, ctx.StateLock
}
func (ctx *BuiltinEvalContext) init() {
}
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