terraform/terraform/context_apply_test.go

10865 lines
259 KiB
Go

package terraform
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"log"
"reflect"
"runtime"
"sort"
"strings"
"sync"
"sync/atomic"
"testing"
"time"
"github.com/davecgh/go-spew/spew"
"github.com/go-test/deep"
"github.com/google/go-cmp/cmp"
"github.com/hashicorp/terraform/addrs"
"github.com/hashicorp/terraform/configs"
"github.com/hashicorp/terraform/configs/configschema"
"github.com/hashicorp/terraform/configs/hcl2shim"
"github.com/hashicorp/terraform/plans"
"github.com/hashicorp/terraform/providers"
"github.com/hashicorp/terraform/provisioners"
"github.com/hashicorp/terraform/states"
"github.com/hashicorp/terraform/tfdiags"
"github.com/zclconf/go-cty/cty"
)
func TestContext2Apply_basic(t *testing.T) {
m := testModule(t, "apply-good")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) < 2 {
t.Fatalf("bad: %#v", mod.Resources)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_unstable(t *testing.T) {
// This tests behavior when the configuration contains an unstable value,
// such as the result of uuid() or timestamp(), where each call produces
// a different result.
//
// This is an important case to test because we need to ensure that
// we don't re-call the function during the apply phase: the value should
// be fixed during plan
m := testModule(t, "apply-unstable")
p := testProvider("test")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("unexpected error during Plan: %s", diags.Err())
}
addr := addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "test_resource",
Name: "foo",
}.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance)
schema := p.GetSchemaReturn.ResourceTypes["test_resource"] // automatically available in mock
rds := plan.Changes.ResourceInstance(addr)
rd, err := rds.Decode(schema.ImpliedType())
if err != nil {
t.Fatal(err)
}
if rd.After.GetAttr("random").IsKnown() {
t.Fatalf("Attribute 'random' has known value %#v; should be unknown in plan", rd.After.GetAttr("random"))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("unexpected error during Apply: %s", diags.Err())
}
mod := state.Module(addr.Module)
rss := state.ResourceInstance(addr)
if len(mod.Resources) != 1 {
t.Fatalf("wrong number of resources %d; want 1", len(mod.Resources))
}
rs, err := rss.Current.Decode(schema.ImpliedType())
got := rs.Value.GetAttr("random")
if !got.IsKnown() {
t.Fatalf("random is still unknown after apply")
}
if got, want := len(got.AsString()), 36; got != want {
t.Fatalf("random string has wrong length %d; want %d", got, want)
}
}
func TestContext2Apply_escape(t *testing.T) {
m := testModule(t, "apply-escape")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.bar:
ID = foo
provider = provider.aws
foo = "bar"
type = aws_instance
`)
}
func TestContext2Apply_resourceCountOneList(t *testing.T) {
m := testModule(t, "apply-resource-count-one-list")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
assertNoDiagnostics(t, diags)
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(`null_resource.foo.0:
ID = foo
provider = provider.null
Outputs:
test = [foo]`)
if got != want {
t.Fatalf("got:\n%s\n\nwant:\n%s\n", got, want)
}
}
func TestContext2Apply_resourceCountZeroList(t *testing.T) {
m := testModule(t, "apply-resource-count-zero-list")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(`Outputs:
test = []`)
if got != want {
t.Fatalf("wrong state\n\ngot:\n%s\n\nwant:\n%s\n", got, want)
}
}
func TestContext2Apply_resourceDependsOnModule(t *testing.T) {
m := testModule(t, "apply-resource-depends-on-module")
p := testProvider("aws")
p.DiffFn = testDiffFn
// verify the apply happens in the correct order
var mu sync.Mutex
var order []string
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
if id.Attributes["ami"].New == "child" {
// make the child slower than the parent
time.Sleep(50 * time.Millisecond)
mu.Lock()
order = append(order, "child")
mu.Unlock()
} else {
mu.Lock()
order = append(order, "parent")
mu.Unlock()
}
return testApplyFn(info, is, id)
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !reflect.DeepEqual(order, []string{"child", "parent"}) {
t.Fatal("resources applied out of order")
}
checkStateString(t, state, testTerraformApplyResourceDependsOnModuleStr)
}
// Test that without a config, the Dependencies in the state are enough
// to maintain proper ordering.
func TestContext2Apply_resourceDependsOnModuleStateOnly(t *testing.T) {
m := testModule(t, "apply-resource-depends-on-module-empty")
p := testProvider("aws")
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.a": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "parent",
},
Dependencies: []string{"module.child"},
Provider: "provider.aws",
},
},
},
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.child": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "child",
},
Provider: "provider.aws",
},
},
},
},
})
{
// verify the apply happens in the correct order
var mu sync.Mutex
var order []string
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
if is.ID == "parent" {
// make the dep slower than the parent
time.Sleep(50 * time.Millisecond)
mu.Lock()
order = append(order, "child")
mu.Unlock()
} else {
mu.Lock()
order = append(order, "parent")
mu.Unlock()
}
return testApplyFn(info, is, id)
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
assertNoErrors(t, diags)
if !reflect.DeepEqual(order, []string{"child", "parent"}) {
t.Fatal("resources applied out of order")
}
checkStateString(t, state, "<no state>")
}
}
func TestContext2Apply_resourceDependsOnModuleDestroy(t *testing.T) {
m := testModule(t, "apply-resource-depends-on-module")
p := testProvider("aws")
p.DiffFn = testDiffFn
var globalState *states.State
{
p.ApplyFn = testApplyFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
globalState = state
}
{
// Wait for the dependency, sleep, and verify the graph never
// called a child.
var called int32
var checked bool
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
if is.Attributes["ami"] == "parent" {
checked = true
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Verify that called is 0 (dep not called)
if atomic.LoadInt32(&called) != 0 {
return nil, fmt.Errorf("module child should not be called")
}
}
atomic.AddInt32(&called, 1)
return testApplyFn(info, is, id)
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: globalState,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !checked {
t.Fatal("should check")
}
checkStateString(t, state, `<no state>`)
}
}
func TestContext2Apply_resourceDependsOnModuleGrandchild(t *testing.T) {
m := testModule(t, "apply-resource-depends-on-module-deep")
p := testProvider("aws")
p.DiffFn = testDiffFn
{
// Wait for the dependency, sleep, and verify the graph never
// called a child.
var called int32
var checked bool
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
if id.Attributes["ami"].New == "grandchild" {
checked = true
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Verify that called is 0 (dep not called)
if atomic.LoadInt32(&called) != 0 {
return nil, fmt.Errorf("aws_instance.a should not be called")
}
}
atomic.AddInt32(&called, 1)
return testApplyFn(info, is, id)
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !checked {
t.Fatal("should check")
}
checkStateString(t, state, testTerraformApplyResourceDependsOnModuleDeepStr)
}
}
func TestContext2Apply_resourceDependsOnModuleInModule(t *testing.T) {
m := testModule(t, "apply-resource-depends-on-module-in-module")
p := testProvider("aws")
p.DiffFn = testDiffFn
{
// Wait for the dependency, sleep, and verify the graph never
// called a child.
var called int32
var checked bool
p.ApplyFn = func(info *InstanceInfo, is *InstanceState, id *InstanceDiff) (*InstanceState, error) {
if id.Attributes["ami"].New == "grandchild" {
checked = true
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Verify that called is 0 (dep not called)
if atomic.LoadInt32(&called) != 0 {
return nil, fmt.Errorf("something else was applied before grandchild; grandchild should be first")
}
}
atomic.AddInt32(&called, 1)
return testApplyFn(info, is, id)
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !checked {
t.Fatal("should check")
}
checkStateString(t, state, testTerraformApplyResourceDependsOnModuleInModuleStr)
}
}
func TestContext2Apply_mapVarBetweenModules(t *testing.T) {
m := testModule(t, "apply-map-var-through-module")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`<no state>
Outputs:
amis_from_module = {eu-west-1:ami-789012 eu-west-2:ami-989484 us-west-1:ami-123456 us-west-2:ami-456789 }
module.test:
null_resource.noop:
ID = foo
provider = provider.null
Outputs:
amis_out = {eu-west-1:ami-789012 eu-west-2:ami-989484 us-west-1:ami-123456 us-west-2:ami-456789 }`)
if actual != expected {
t.Fatalf("expected: \n%s\n\ngot: \n%s\n", expected, actual)
}
}
func TestContext2Apply_refCount(t *testing.T) {
m := testModule(t, "apply-ref-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) < 2 {
t.Fatalf("bad: %#v", mod.Resources)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyRefCountStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_providerAlias(t *testing.T) {
m := testModule(t, "apply-provider-alias")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) < 2 {
t.Fatalf("bad: %#v", mod.Resources)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProviderAliasStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
// Two providers that are configured should both be configured prior to apply
func TestContext2Apply_providerAliasConfigure(t *testing.T) {
m := testModule(t, "apply-provider-alias-configure")
p2 := testProvider("another")
p2.ApplyFn = testApplyFn
p2.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"another": testProviderFuncFixed(p2),
},
),
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
// Configure to record calls AFTER Plan above
var configCount int32
p2.ConfigureFn = func(c *ResourceConfig) error {
atomic.AddInt32(&configCount, 1)
foo, ok := c.Get("foo")
if !ok {
return fmt.Errorf("foo is not found")
}
if foo != "bar" {
return fmt.Errorf("foo: %#v", foo)
}
return nil
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if configCount != 2 {
t.Fatalf("provider config expected 2 calls, got: %d", configCount)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProviderAliasConfigStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
// GH-2870
func TestContext2Apply_providerWarning(t *testing.T) {
m := testModule(t, "apply-provider-warning")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.ValidateFn = func(c *ResourceConfig) (ws []string, es []error) {
ws = append(ws, "Just a warning")
return
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
aws_instance.foo:
ID = foo
provider = provider.aws
`)
if actual != expected {
t.Fatalf("got: \n%s\n\nexpected:\n%s", actual, expected)
}
if !p.ConfigureCalled {
t.Fatalf("provider Configure() was never called!")
}
}
func TestContext2Apply_emptyModule(t *testing.T) {
m := testModule(t, "apply-empty-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
actual = strings.Replace(actual, " ", "", -1)
expected := strings.TrimSpace(testTerraformApplyEmptyModuleStr)
if actual != expected {
t.Fatalf("bad: \n%s\nexpect:\n%s", actual, expected)
}
}
func TestContext2Apply_createBeforeDestroy(t *testing.T) {
m := testModule(t, "apply-good-create-before")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "abc",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if got, want := len(mod.Resources), 1; got != want {
t.Logf("state:\n%s", state)
t.Fatalf("wrong number of resources %d; want %d", got, want)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCreateBeforeStr)
if actual != expected {
t.Fatalf("expected:\n%s\ngot:\n%s", expected, actual)
}
}
func TestContext2Apply_createBeforeDestroyUpdate(t *testing.T) {
m := testModule(t, "apply-good-create-before-update")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "bar",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) != 1 {
t.Fatalf("bad: %s", state)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCreateBeforeUpdateStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
// This tests that when a CBD resource depends on a non-CBD resource,
// we can still properly apply changes that require new for both.
func TestContext2Apply_createBeforeDestroy_dependsNonCBD(t *testing.T) {
m := testModule(t, "apply-cbd-depends-non-cbd")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "abc",
},
},
},
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{
"require_new": "abc",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.bar:
ID = foo
provider = provider.aws
require_new = yes
type = aws_instance
value = foo
Dependencies:
aws_instance.foo
aws_instance.foo:
ID = foo
provider = provider.aws
require_new = yes
type = aws_instance
`)
}
func TestContext2Apply_createBeforeDestroy_hook(t *testing.T) {
h := new(MockHook)
m := testModule(t, "apply-good-create-before")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "abc",
},
},
Provider: "provider.aws",
},
},
},
},
})
var actual []cty.Value
var actualLock sync.Mutex
h.PostApplyFn = func(addr addrs.AbsResourceInstance, gen states.Generation, sv cty.Value, e error) (HookAction, error) {
actualLock.Lock()
defer actualLock.Unlock()
actual = append(actual, sv)
return HookActionContinue, nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
expected := []cty.Value{
cty.ObjectVal(map[string]cty.Value{
"id": cty.StringVal("foo"),
"require_new": cty.StringVal("xyz"),
"type": cty.StringVal("aws_instance"),
}),
cty.NullVal(cty.DynamicPseudoType),
}
cmpOpt := cmp.Transformer("ctyshim", hcl2shim.ConfigValueFromHCL2)
if !cmp.Equal(actual, expected, cmpOpt) {
t.Fatalf("wrong state snapshot sequence\n%s", cmp.Diff(expected, actual, cmpOpt))
}
}
// Test that we can perform an apply with CBD in a count with deposed instances.
func TestContext2Apply_createBeforeDestroy_deposedCount(t *testing.T) {
m := testModule(t, "apply-cbd-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar.0": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Tainted: true,
},
Deposed: []*InstanceState{
&InstanceState{
ID: "foo",
},
},
},
"aws_instance.bar.1": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Tainted: true,
},
Deposed: []*InstanceState{
&InstanceState{
ID: "bar",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.bar.0:
ID = foo
provider = provider.aws
foo = bar
type = aws_instance
aws_instance.bar.1:
ID = foo
provider = provider.aws
foo = bar
type = aws_instance
`)
}
// Test that when we have a deposed instance but a good primary, we still
// destroy the deposed instance.
func TestContext2Apply_createBeforeDestroy_deposedOnly(t *testing.T) {
m := testModule(t, "apply-cbd-deposed-only")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Deposed: []*InstanceState{
&InstanceState{
ID: "foo",
},
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.bar:
ID = bar
provider = provider.aws
`)
}
func TestContext2Apply_destroyComputed(t *testing.T) {
m := testModule(t, "apply-destroy-computed")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{
"output": "value",
},
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
} else {
t.Logf("plan:\n\n%s", legacyDiffComparisonString(p.Changes))
}
if _, diags := ctx.Apply(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("apply failed")
}
}
// Test that the destroy operation uses depends_on as a source of ordering.
func TestContext2Apply_destroyDependsOn(t *testing.T) {
// It is possible for this to be racy, so we loop a number of times
// just to check.
for i := 0; i < 10; i++ {
testContext2Apply_destroyDependsOn(t)
}
}
func testContext2Apply_destroyDependsOn(t *testing.T) {
m := testModule(t, "apply-destroy-depends-on")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{},
},
},
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{},
},
},
},
},
},
})
// Record the order we see Apply
var actual []string
var actualLock sync.Mutex
p.ApplyFn = func(
_ *InstanceInfo, is *InstanceState, _ *InstanceDiff) (*InstanceState, error) {
actualLock.Lock()
defer actualLock.Unlock()
actual = append(actual, is.ID)
return nil, nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
Parallelism: 1, // To check ordering
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
expected := []string{"foo", "bar"}
if !reflect.DeepEqual(actual, expected) {
t.Fatalf("wrong order\ngot: %#v\nwant: %#v", actual, expected)
}
}
// Test that destroy ordering is correct with dependencies only
// in the state.
func TestContext2Apply_destroyDependsOnStateOnly(t *testing.T) {
// It is possible for this to be racy, so we loop a number of times
// just to check.
for i := 0; i < 10; i++ {
testContext2Apply_destroyDependsOnStateOnly(t)
}
}
func testContext2Apply_destroyDependsOnStateOnly(t *testing.T) {
m := testModule(t, "empty")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{},
},
Provider: "provider.aws",
},
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{},
},
Dependencies: []string{"aws_instance.foo"},
Provider: "provider.aws",
},
},
},
},
})
// Record the order we see Apply
var actual []string
var actualLock sync.Mutex
p.ApplyFn = func(
_ *InstanceInfo, is *InstanceState, _ *InstanceDiff) (*InstanceState, error) {
actualLock.Lock()
defer actualLock.Unlock()
actual = append(actual, is.ID)
return nil, nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
Parallelism: 1, // To check ordering
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
expected := []string{"bar", "foo"}
if !reflect.DeepEqual(actual, expected) {
t.Fatalf("wrong order\ngot: %#v\nwant: %#v", actual, expected)
}
}
// Test that destroy ordering is correct with dependencies only
// in the state within a module (GH-11749)
func TestContext2Apply_destroyDependsOnStateOnlyModule(t *testing.T) {
// It is possible for this to be racy, so we loop a number of times
// just to check.
for i := 0; i < 10; i++ {
testContext2Apply_destroyDependsOnStateOnlyModule(t)
}
}
func testContext2Apply_destroyDependsOnStateOnlyModule(t *testing.T) {
m := testModule(t, "empty")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{},
},
Provider: "provider.aws",
},
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{},
},
Dependencies: []string{"aws_instance.foo"},
Provider: "provider.aws",
},
},
},
},
})
// Record the order we see Apply
var actual []string
var actualLock sync.Mutex
p.ApplyFn = func(
_ *InstanceInfo, is *InstanceState, _ *InstanceDiff) (*InstanceState, error) {
actualLock.Lock()
defer actualLock.Unlock()
actual = append(actual, is.ID)
return nil, nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
Parallelism: 1, // To check ordering
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
expected := []string{"bar", "foo"}
if !reflect.DeepEqual(actual, expected) {
t.Fatalf("wrong order\ngot: %#v\nwant: %#v", actual, expected)
}
}
func TestContext2Apply_dataBasic(t *testing.T) {
m := testModule(t, "apply-data-basic")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.ReadDataSourceResponse = providers.ReadDataSourceResponse{
State: cty.ObjectVal(map[string]cty.Value{
"id": cty.StringVal("yo"),
"foo": cty.NullVal(cty.String),
}),
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
assertNoErrors(t, diags)
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyDataBasicStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_destroyData(t *testing.T) {
m := testModule(t, "apply-destroy-data-resource")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"data.null_data_source.testing": &ResourceState{
Type: "null_data_source",
Primary: &InstanceState{
ID: "-",
Attributes: map[string]string{
"inputs.#": "1",
"inputs.test": "yes",
},
},
},
},
},
},
})
hook := &testHook{}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
Hooks: []Hook{hook},
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
newState, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if got := len(newState.Modules); got != 1 {
t.Fatalf("state has %d modules after destroy; want 1", got)
}
if got := len(newState.RootModule().Resources); got != 0 {
t.Fatalf("state has %d resources after destroy; want 0", got)
}
wantHookCalls := []*testHookCall{
{"PreDiff", "data.null_data_source.testing"},
{"PostDiff", "data.null_data_source.testing"},
{"PostStateUpdate", ""},
}
if !reflect.DeepEqual(hook.Calls, wantHookCalls) {
t.Errorf("wrong hook calls\ngot: %swant: %s", spew.Sdump(hook.Calls), spew.Sdump(wantHookCalls))
}
}
// https://github.com/hashicorp/terraform/pull/5096
func TestContext2Apply_destroySkipsCBD(t *testing.T) {
// Config contains CBD resource depending on non-CBD resource, which triggers
// a cycle if they are both replaced, but should _not_ trigger a cycle when
// just doing a `terraform destroy`.
m := testModule(t, "apply-destroy-cbd")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
func TestContext2Apply_destroyModuleVarProviderConfig(t *testing.T) {
m := testModule(t, "apply-destroy-mod-var-provider-config")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
_, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
}
// https://github.com/hashicorp/terraform/issues/2892
func TestContext2Apply_destroyCrossProviders(t *testing.T) {
m := testModule(t, "apply-destroy-cross-providers")
p_aws := testProvider("aws")
p_aws.ApplyFn = testApplyFn
p_aws.DiffFn = testDiffFn
p_aws.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"id": {
Type: cty.String,
Computed: true,
},
},
},
"aws_vpc": {
Attributes: map[string]*configschema.Attribute{
"value": {
Type: cty.String,
Optional: true,
},
},
},
},
}
providers := map[string]providers.Factory{
"aws": testProviderFuncFixed(p_aws),
}
// Bug only appears from time to time,
// so we run this test multiple times
// to check for the race-condition
// FIXME: this test flaps now, so run it more times
for i := 0; i <= 100; i++ {
ctx := getContextForApply_destroyCrossProviders(t, m, providers)
if _, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
}
if _, diags := ctx.Apply(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("apply failed")
}
}
}
func getContextForApply_destroyCrossProviders(t *testing.T, m *configs.Config, providerFactories map[string]providers.Factory) *Context {
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.shared": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "remote-2652591293",
Attributes: map[string]string{
"id": "test",
},
},
Provider: "provider.aws",
},
},
},
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_vpc.bar": &ResourceState{
Type: "aws_vpc",
Primary: &InstanceState{
ID: "vpc-aaabbb12",
Attributes: map[string]string{
"value": "test",
},
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(providerFactories),
State: state,
Destroy: true,
})
return ctx
}
func TestContext2Apply_minimal(t *testing.T) {
m := testModule(t, "apply-minimal")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyMinimalStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_badDiff(t *testing.T) {
m := testModule(t, "apply-good")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
p.DiffFn = func(*InstanceInfo, *InstanceState, *ResourceConfig) (*InstanceDiff, error) {
return &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{
"newp": &ResourceAttrDiff{
Old: "",
New: "",
NewComputed: true,
},
},
}, nil
}
if _, diags := ctx.Apply(); diags == nil {
t.Fatal("should error")
}
}
func TestContext2Apply_cancel(t *testing.T) {
stopped := false
m := testModule(t, "apply-cancel")
p := testProvider("aws")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
p.ApplyFn = func(*InstanceInfo, *InstanceState, *InstanceDiff) (*InstanceState, error) {
if !stopped {
stopped = true
go ctx.Stop()
for {
if ctx.sh.Stopped() {
break
}
time.Sleep(10 * time.Millisecond)
}
}
return &InstanceState{
ID: "foo",
Attributes: map[string]string{
"value": "2",
},
}, nil
}
p.DiffFn = func(info *InstanceInfo, s *InstanceState, rc *ResourceConfig) (*InstanceDiff, error) {
d := &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{},
}
if new, ok := rc.Get("value"); ok {
d.Attributes["value"] = &ResourceAttrDiff{
New: new.(string),
}
}
if new, ok := rc.Get("foo"); ok {
d.Attributes["foo"] = &ResourceAttrDiff{
New: new.(string),
}
}
return d, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
// Start the Apply in a goroutine
var applyDiags tfdiags.Diagnostics
stateCh := make(chan *states.State)
go func() {
state, diags := ctx.Apply()
applyDiags = diags
stateCh <- state
}()
state := <-stateCh
if applyDiags.HasErrors() {
t.Fatalf("unexpected errors: %s", applyDiags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCancelStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
if !p.StopCalled {
t.Fatal("stop should be called")
}
}
func TestContext2Apply_cancelBlock(t *testing.T) {
m := testModule(t, "apply-cancel-block")
p := testProvider("aws")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
applyCh := make(chan struct{})
p.DiffFn = func(*InstanceInfo, *InstanceState, *ResourceConfig) (*InstanceDiff, error) {
return &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{
"id": &ResourceAttrDiff{
New: "foo",
},
"num": &ResourceAttrDiff{
New: "2",
},
},
}, nil
}
p.ApplyFn = func(*InstanceInfo, *InstanceState, *InstanceDiff) (*InstanceState, error) {
close(applyCh)
for !ctx.sh.Stopped() {
// Wait for stop to be called. We call Gosched here so that
// the other goroutines can always be scheduled to set Stopped.
runtime.Gosched()
}
// Sleep
time.Sleep(100 * time.Millisecond)
return &InstanceState{
ID: "foo",
Attributes: map[string]string{
"num": "2",
},
}, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
// Start the Apply in a goroutine
var applyDiags tfdiags.Diagnostics
stateCh := make(chan *states.State)
go func() {
state, diags := ctx.Apply()
applyDiags = diags
stateCh <- state
}()
stopDone := make(chan struct{})
go func() {
defer close(stopDone)
<-applyCh
ctx.Stop()
}()
// Make sure that stop blocks
select {
case <-stopDone:
t.Fatal("stop should block")
case <-time.After(10 * time.Millisecond):
}
// Wait for stop
select {
case <-stopDone:
case <-time.After(500 * time.Millisecond):
t.Fatal("stop should be done")
}
// Wait for apply to complete
state := <-stateCh
if applyDiags.HasErrors() {
t.Fatalf("unexpected error: %s", applyDiags.Err())
}
checkStateString(t, state, `
aws_instance.foo:
ID = foo
provider = provider.aws
num = 2
`)
}
// for_each values cannot be used in the provisioner during destroy.
// There may be a way to handle this, but for now make sure we print an error
// rather than crashing with an invalid config.
func TestContext2Apply_provisionerDestroyForEach(t *testing.T) {
m := testModule(t, "apply-provisioner-each")
p := testProvider("aws")
pr := testProvisioner()
p.DiffFn = testDiffFn
p.ApplyFn = testApplyFn
s := &states.State{
Modules: map[string]*states.Module{
"": &states.Module{
Resources: map[string]*states.Resource{
"aws_instance.bar": &states.Resource{
Addr: addrs.Resource{Mode: 77, Type: "aws_instance", Name: "bar"},
EachMode: states.EachMap,
Instances: map[addrs.InstanceKey]*states.ResourceInstance{
addrs.StringKey("a"): &states.ResourceInstance{
Current: &states.ResourceInstanceObjectSrc{
AttrsJSON: []byte(`{"foo":"bar","id":"foo"}`),
},
},
addrs.StringKey("b"): &states.ResourceInstance{
Current: &states.ResourceInstanceObjectSrc{
AttrsJSON: []byte(`{"foo":"bar","id":"foo"}`),
},
},
},
ProviderConfig: addrs.AbsProviderConfig{
Module: addrs.ModuleInstance(nil),
ProviderConfig: addrs.ProviderConfig{Type: "aws", Alias: ""},
},
},
},
},
},
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: s,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
_, diags := ctx.Apply()
if diags == nil {
t.Fatal("should error")
}
if !strings.Contains(diags.Err().Error(), "each.value cannot be used in this context") {
t.Fatal("unexpected error:", diags.Err())
}
}
func TestContext2Apply_cancelProvisioner(t *testing.T) {
m := testModule(t, "apply-cancel-provisioner")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
pr.GetSchemaResponse = provisioners.GetSchemaResponse{
Provisioner: &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"foo": {
Type: cty.String,
Optional: true,
},
},
},
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
prStopped := make(chan struct{})
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
// Start the stop process
go ctx.Stop()
<-prStopped
return nil
}
pr.StopFn = func() error {
close(prStopped)
return nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
// Start the Apply in a goroutine
var applyDiags tfdiags.Diagnostics
stateCh := make(chan *states.State)
go func() {
state, diags := ctx.Apply()
applyDiags = diags
stateCh <- state
}()
// Wait for completion
state := <-stateCh
assertNoErrors(t, applyDiags)
checkStateString(t, state, `
aws_instance.foo: (tainted)
ID = foo
provider = provider.aws
num = 2
type = aws_instance
`)
if !pr.StopCalled {
t.Fatal("stop should be called")
}
}
func TestContext2Apply_compute(t *testing.T) {
m := testModule(t, "apply-compute")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"num": {
Type: cty.Number,
Optional: true,
},
"compute": {
Type: cty.String,
Optional: true,
},
"compute_value": {
Type: cty.String,
Optional: true,
},
"foo": {
Type: cty.String,
Optional: true,
},
"id": {
Type: cty.String,
Computed: true,
},
"type": {
Type: cty.String,
Computed: true,
},
"value": { // Populated from compute_value because compute = "value" in the config fixture
Type: cty.String,
Computed: true,
},
},
},
},
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
ctx.variables = InputValues{
"value": &InputValue{
Value: cty.NumberIntVal(1),
SourceType: ValueFromCaller,
},
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("unexpected errors: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyComputeStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_countDecrease(t *testing.T) {
m := testModule(t, "apply-count-dec")
p := testProvider("aws")
p.DiffFn = testDiffFn
p.ApplyFn = testApplyFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo.0": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "foo",
"type": "aws_instance",
},
},
},
"aws_instance.foo.1": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "foo",
"type": "aws_instance",
},
},
},
"aws_instance.foo.2": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "foo",
"type": "aws_instance",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
}
state, diags := ctx.Apply()
assertNoErrors(t, diags)
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCountDecStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_countDecreaseToOneX(t *testing.T) {
m := testModule(t, "apply-count-dec-one")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo.0": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "foo",
"type": "aws_instance",
},
},
},
"aws_instance.foo.1": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
"aws_instance.foo.2": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCountDecToOneStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
// https://github.com/PeoplePerHour/terraform/pull/11
//
// This tests a case where both a "resource" and "resource.0" are in
// the state file, which apparently is a reasonable backwards compatibility
// concern found in the above 3rd party repo.
func TestContext2Apply_countDecreaseToOneCorrupted(t *testing.T) {
m := testModule(t, "apply-count-dec-one")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "foo",
"type": "aws_instance",
},
},
},
"aws_instance.foo.0": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "baz",
Attributes: map[string]string{
"type": "aws_instance",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
got := strings.TrimSpace(legacyPlanComparisonString(ctx.State(), p.Changes))
want := strings.TrimSpace(testTerraformApplyCountDecToOneCorruptedPlanStr)
if got != want {
t.Fatalf("wrong plan result\ngot:\n%s\nwant:\n%s", got, want)
}
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCountDecToOneCorruptedStr)
if actual != expected {
t.Fatalf("wrong final state\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_countTainted(t *testing.T) {
m := testModule(t, "apply-count-tainted")
p := testProvider("aws")
p.DiffFn = testDiffFn
p.ApplyFn = testApplyFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo.0": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "foo",
"type": "aws_instance",
},
Tainted: true,
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
{
plan, diags := ctx.Plan()
assertNoErrors(t, diags)
got := strings.TrimSpace(legacyDiffComparisonString(plan.Changes))
want := strings.TrimSpace(`
DESTROY/CREATE: aws_instance.foo[0]
foo: "foo" => "foo"
id: "bar" => "<computed>"
type: "aws_instance" => "aws_instance"
CREATE: aws_instance.foo[1]
foo: "" => "foo"
id: "" => "<computed>"
type: "" => "aws_instance"
`)
if got != want {
t.Fatalf("wrong plan\n\ngot:\n%s\n\nwant:\n%s", got, want)
}
}
state, diags := ctx.Apply()
assertNoErrors(t, diags)
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(`
aws_instance.foo.0:
ID = foo
provider = provider.aws
foo = foo
type = aws_instance
aws_instance.foo.1:
ID = foo
provider = provider.aws
foo = foo
type = aws_instance
`)
if got != want {
t.Fatalf("wrong final state\n\ngot:\n%s\n\nwant:\n%s", got, want)
}
}
func TestContext2Apply_countVariable(t *testing.T) {
m := testModule(t, "apply-count-variable")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCountVariableStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_countVariableRef(t *testing.T) {
m := testModule(t, "apply-count-variable-ref")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyCountVariableRefStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_provisionerInterpCount(t *testing.T) {
// This test ensures that a provisioner can interpolate a resource count
// even though the provisioner expression is evaluated during the plan
// walk. https://github.com/hashicorp/terraform/issues/16840
m, snap := testModuleWithSnapshot(t, "apply-provisioner-interp-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
providerResolver := providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
provisioners := map[string]ProvisionerFactory{
"local-exec": testProvisionerFuncFixed(pr),
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providerResolver,
Provisioners: provisioners,
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("plan failed unexpectedly: %s", diags.Err())
}
state := ctx.State()
// We'll marshal and unmarshal the plan here, to ensure that we have
// a clean new context as would be created if we separately ran
// terraform plan -out=tfplan && terraform apply tfplan
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatal(err)
}
ctxOpts.ProviderResolver = providerResolver
ctxOpts.Provisioners = provisioners
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("failed to create context for plan: %s", diags.Err())
}
// Applying the plan should now succeed
_, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply failed unexpectedly: %s", diags.Err())
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner was not called")
}
}
func TestContext2Apply_foreachVariable(t *testing.T) {
m := testModule(t, "plan-for-each-unknown-value")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"foo": &InputValue{
Value: cty.StringVal("hello"),
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyForEachVariableStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_moduleBasic(t *testing.T) {
m := testModule(t, "apply-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyModuleStr)
if actual != expected {
t.Fatalf("bad, expected:\n%s\n\nactual:\n%s", expected, actual)
}
}
func TestContext2Apply_moduleDestroyOrder(t *testing.T) {
m := testModule(t, "apply-module-destroy-order")
p := testProvider("aws")
p.DiffFn = testDiffFn
// Create a custom apply function to track the order they were destroyed
var order []string
var orderLock sync.Mutex
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
if is.ID == "b" {
// Pause briefly to make any race conditions more visible, since
// missing edges here can cause undeterministic ordering.
time.Sleep(100 * time.Millisecond)
}
orderLock.Lock()
defer orderLock.Unlock()
order = append(order, is.ID)
return nil, nil
}
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"id": {Type: cty.String, Required: true},
"blah": {Type: cty.String, Optional: true},
"value": {Type: cty.String, Optional: true},
},
},
},
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.b": resourceState("aws_instance", "b"),
},
},
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.a": resourceState("aws_instance", "a"),
},
Outputs: map[string]*OutputState{
"a_output": &OutputState{
Type: "string",
Sensitive: false,
Value: "a",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
expected := []string{"b", "a"}
if !reflect.DeepEqual(order, expected) {
t.Errorf("wrong order\ngot: %#v\nwant: %#v", order, expected)
}
{
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyModuleDestroyOrderStr)
if actual != expected {
t.Errorf("wrong final state\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
}
func TestContext2Apply_moduleInheritAlias(t *testing.T) {
m := testModule(t, "apply-module-provider-inherit-alias")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.ConfigureFn = func(c *ResourceConfig) error {
if _, ok := c.Get("value"); !ok {
return nil
}
if _, ok := c.Get("root"); ok {
return fmt.Errorf("child should not get root")
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
<no state>
module.child:
aws_instance.foo:
ID = foo
provider = provider.aws.eu
`)
}
func TestContext2Apply_orphanResource(t *testing.T) {
// This is a two-step test:
// 1. Apply a configuration with resources that have count set.
// This should place the empty resource object in the state to record
// that each exists, and record any instances.
// 2. Apply an empty configuration against the same state, which should
// then clean up both the instances and the containing resource objects.
p := testProvider("test")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test_thing": {},
},
}
// Step 1: create the resources and instances
m := testModule(t, "apply-orphan-resource")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
_, diags := ctx.Plan()
assertNoErrors(t, diags)
state, diags := ctx.Apply()
assertNoErrors(t, diags)
// At this point both resources should be recorded in the state, along
// with the single instance associated with test_thing.one.
want := states.BuildState(func(s *states.SyncState) {
providerAddr := addrs.ProviderConfig{
Type: "test",
}.Absolute(addrs.RootModuleInstance)
zeroAddr := addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "test_thing",
Name: "zero",
}.Absolute(addrs.RootModuleInstance)
oneAddr := addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "test_thing",
Name: "one",
}.Absolute(addrs.RootModuleInstance)
s.SetResourceMeta(zeroAddr, states.EachList, providerAddr)
s.SetResourceMeta(oneAddr, states.EachList, providerAddr)
s.SetResourceInstanceCurrent(oneAddr.Instance(addrs.IntKey(0)), &states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{}`),
}, providerAddr)
})
if !cmp.Equal(state, want) {
t.Fatalf("wrong state after step 1\n%s", cmp.Diff(want, state))
}
// Step 2: update with an empty config, to destroy everything
m = testModule(t, "empty")
ctx = testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
_, diags = ctx.Plan()
assertNoErrors(t, diags)
state, diags = ctx.Apply()
assertNoErrors(t, diags)
// The state should now be _totally_ empty, with just an empty root module
// (since that always exists) and no resources at all.
want = states.NewState()
if !cmp.Equal(state, want) {
t.Fatalf("wrong state after step 2\ngot: %swant: %s", spew.Sdump(state), spew.Sdump(want))
}
}
func TestContext2Apply_moduleOrphanInheritAlias(t *testing.T) {
m := testModule(t, "apply-module-provider-inherit-alias-orphan")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
called := false
p.ConfigureFn = func(c *ResourceConfig) error {
called = true
if _, ok := c.Get("child"); !ok {
return nil
}
if _, ok := c.Get("root"); ok {
return fmt.Errorf("child should not get root")
}
return nil
}
// Create a state with an orphan module
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws.eu",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !called {
t.Fatal("must call configure")
}
checkStateString(t, state, "<no state>")
}
func TestContext2Apply_moduleOrphanProvider(t *testing.T) {
m := testModule(t, "apply-module-orphan-provider-inherit")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.ConfigureFn = func(c *ResourceConfig) error {
if _, ok := c.Get("value"); !ok {
return fmt.Errorf("value is not found")
}
return nil
}
// Create a state with an orphan module
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
func TestContext2Apply_moduleOrphanGrandchildProvider(t *testing.T) {
m := testModule(t, "apply-module-orphan-provider-inherit")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.ConfigureFn = func(c *ResourceConfig) error {
if _, ok := c.Get("value"); !ok {
return fmt.Errorf("value is not found")
}
return nil
}
// Create a state with an orphan module that is nested (grandchild)
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "parent", "child"},
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
func TestContext2Apply_moduleGrandchildProvider(t *testing.T) {
m := testModule(t, "apply-module-grandchild-provider-inherit")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var callLock sync.Mutex
called := false
p.ConfigureFn = func(c *ResourceConfig) error {
if _, ok := c.Get("value"); !ok {
return fmt.Errorf("value is not found")
}
callLock.Lock()
called = true
callLock.Unlock()
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
callLock.Lock()
defer callLock.Unlock()
if called != true {
t.Fatalf("err: configure never called")
}
}
// This tests an issue where all the providers in a module but not
// in the root weren't being added to the root properly. In this test
// case: aws is explicitly added to root, but "test" should be added to.
// With the bug, it wasn't.
func TestContext2Apply_moduleOnlyProvider(t *testing.T) {
m := testModule(t, "apply-module-only-provider")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pTest := testProvider("test")
pTest.ApplyFn = testApplyFn
pTest.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"test": testProviderFuncFixed(pTest),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyModuleOnlyProviderStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_moduleProviderAlias(t *testing.T) {
m := testModule(t, "apply-module-provider-alias")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyModuleProviderAliasStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_moduleProviderAliasTargets(t *testing.T) {
m := testModule(t, "apply-module-provider-alias")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.AbsResource{
Module: addrs.RootModuleInstance,
Resource: addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "nonexistent",
Name: "thing",
},
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
<no state>
`)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_moduleProviderCloseNested(t *testing.T) {
m := testModule(t, "apply-module-provider-close-nested")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child", "subchild"},
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
}),
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
// Tests that variables used as module vars that reference data that
// already exists in the state and requires no diff works properly. This
// fixes an issue faced where module variables were pruned because they were
// accessing "non-existent" resources (they existed, just not in the graph
// cause they weren't in the diff).
func TestContext2Apply_moduleVarRefExisting(t *testing.T) {
m := testModule(t, "apply-ref-existing")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{
"foo": "bar",
},
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyModuleVarRefExistingStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_moduleVarResourceCount(t *testing.T) {
m := testModule(t, "apply-module-var-resource-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(2),
SourceType: ValueFromCaller,
},
},
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
ctx = testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(5),
SourceType: ValueFromCaller,
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
// GH-819
func TestContext2Apply_moduleBool(t *testing.T) {
m := testModule(t, "apply-module-bool")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyModuleBoolStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
// Tests that a module can be targeted and everything is properly created.
// This adds to the plan test to also just verify that apply works.
func TestContext2Apply_moduleTarget(t *testing.T) {
m := testModule(t, "plan-targeted-cross-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("B", addrs.NoKey),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
<no state>
module.A:
aws_instance.foo:
ID = foo
provider = provider.aws
foo = bar
type = aws_instance
Outputs:
value = foo
module.B:
aws_instance.bar:
ID = foo
provider = provider.aws
foo = foo
type = aws_instance
`)
}
func TestContext2Apply_multiProvider(t *testing.T) {
m := testModule(t, "apply-multi-provider")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pDO := testProvider("do")
pDO.ApplyFn = testApplyFn
pDO.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"do": testProviderFuncFixed(pDO),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) < 2 {
t.Fatalf("bad: %#v", mod.Resources)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyMultiProviderStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_multiProviderDestroy(t *testing.T) {
m := testModule(t, "apply-multi-provider-destroy")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
Provider: &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"addr": {Type: cty.String, Optional: true},
},
},
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"foo": {Type: cty.String, Optional: true},
},
},
},
}
p2 := testProvider("vault")
p2.ApplyFn = testApplyFn
p2.DiffFn = testDiffFn
p2.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"vault_instance": {
Attributes: map[string]*configschema.Attribute{
"id": {Type: cty.String, Computed: true},
},
},
},
}
var state *states.State
// First, create the instances
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"vault": testProviderFuncFixed(p2),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("errors during create plan: %s", diags.Err())
}
s, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("errors during create apply: %s", diags.Err())
}
state = s
}
// Destroy them
{
// Verify that aws_instance.bar is destroyed first
var checked bool
var called int32
var lock sync.Mutex
applyFn := func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
lock.Lock()
defer lock.Unlock()
if info.Type == "aws_instance" {
checked = true
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Verify that called is 0 (dep not called)
if atomic.LoadInt32(&called) != 0 {
return nil, fmt.Errorf("nothing else should be called")
}
}
atomic.AddInt32(&called, 1)
return testApplyFn(info, is, id)
}
// Set the apply functions
p.ApplyFn = applyFn
p2.ApplyFn = applyFn
ctx := testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"vault": testProviderFuncFixed(p2),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("errors during destroy plan: %s", diags.Err())
}
s, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("errors during destroy apply: %s", diags.Err())
}
if !checked {
t.Fatal("should be checked")
}
state = s
}
checkStateString(t, state, `<no state>`)
}
// This is like the multiProviderDestroy test except it tests that
// dependent resources within a child module that inherit provider
// configuration are still destroyed first.
func TestContext2Apply_multiProviderDestroyChild(t *testing.T) {
m := testModule(t, "apply-multi-provider-destroy-child")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
Provider: &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"value": {Type: cty.String, Optional: true},
},
},
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"foo": {Type: cty.String, Optional: true},
},
},
},
}
p2 := testProvider("vault")
p2.ApplyFn = testApplyFn
p2.DiffFn = testDiffFn
p2.GetSchemaReturn = &ProviderSchema{
Provider: &configschema.Block{},
ResourceTypes: map[string]*configschema.Block{
"vault_instance": {
Attributes: map[string]*configschema.Attribute{
"id": {Type: cty.String, Computed: true},
},
},
},
}
var state *states.State
// First, create the instances
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"vault": testProviderFuncFixed(p2),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
s, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state = s
}
// Destroy them
{
// Verify that aws_instance.bar is destroyed first
var checked bool
var called int32
var lock sync.Mutex
applyFn := func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
lock.Lock()
defer lock.Unlock()
if info.Type == "aws_instance" {
checked = true
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Verify that called is 0 (dep not called)
if atomic.LoadInt32(&called) != 0 {
return nil, fmt.Errorf("nothing else should be called")
}
}
atomic.AddInt32(&called, 1)
return testApplyFn(info, is, id)
}
// Set the apply functions
p.ApplyFn = applyFn
p2.ApplyFn = applyFn
ctx := testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"vault": testProviderFuncFixed(p2),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
s, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !checked {
t.Fatal("should be checked")
}
state = s
}
checkStateString(t, state, `
<no state>
`)
}
func TestContext2Apply_multiVar(t *testing.T) {
m := testModule(t, "apply-multi-var")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
// First, apply with a count of 3
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(3),
SourceType: ValueFromCaller,
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := state.RootModule().OutputValues["output"]
expected := cty.StringVal("bar0,bar1,bar2")
if actual == nil || actual.Value != expected {
t.Fatalf("wrong value\ngot: %#v\nwant: %#v", actual.Value, expected)
}
t.Logf("Initial state: %s", state.String())
// Apply again, reduce the count to 1
{
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(1),
SourceType: ValueFromCaller,
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
t.Logf("End state: %s", state.String())
actual := state.RootModule().OutputValues["output"]
if actual == nil {
t.Fatal("missing output")
}
expected := cty.StringVal("bar0")
if actual.Value != expected {
t.Fatalf("wrong value\ngot: %#v\nwant: %#v", actual.Value, expected)
}
}
}
// This is a holistic test of multi-var (aka "splat variable") handling
// across several different Terraform subsystems. This is here because
// historically there were quirky differences in handling across different
// parts of Terraform and so here we want to assert the expected behavior and
// ensure that it remains consistent in future.
func TestContext2Apply_multiVarComprehensive(t *testing.T) {
m := testModule(t, "apply-multi-var-comprehensive")
p := testProvider("test")
configs := map[string]*ResourceConfig{}
var configsLock sync.Mutex
p.ApplyFn = testApplyFn
p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) providers.PlanResourceChangeResponse {
proposed := req.ProposedNewState
configsLock.Lock()
defer configsLock.Unlock()
key := proposed.GetAttr("key").AsString()
// This test was originally written using the legacy p.DiffFn interface,
// and so the assertions below expect an old-style ResourceConfig, which
// we'll construct via our shim for now to avoid rewriting all of the
// assertions.
configs[key] = NewResourceConfigShimmed(req.Config, p.GetSchemaReturn.ResourceTypes["test_thing"])
retVals := make(map[string]cty.Value)
for it := proposed.ElementIterator(); it.Next(); {
idxVal, val := it.Element()
idx := idxVal.AsString()
switch idx {
case "id":
retVals[idx] = cty.UnknownVal(cty.String)
case "name":
retVals[idx] = cty.StringVal(key)
default:
retVals[idx] = val
}
}
return providers.PlanResourceChangeResponse{
PlannedState: cty.ObjectVal(retVals),
}
}
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test_thing": {
Attributes: map[string]*configschema.Attribute{
"key": {Type: cty.String, Required: true},
"source_id": {Type: cty.String, Optional: true},
"source_name": {Type: cty.String, Optional: true},
"first_source_id": {Type: cty.String, Optional: true},
"first_source_name": {Type: cty.String, Optional: true},
"source_ids": {Type: cty.List(cty.String), Optional: true},
"source_names": {Type: cty.List(cty.String), Optional: true},
"source_ids_from_func": {Type: cty.List(cty.String), Optional: true},
"source_names_from_func": {Type: cty.List(cty.String), Optional: true},
"source_ids_wrapped": {Type: cty.List(cty.List(cty.String)), Optional: true},
"source_names_wrapped": {Type: cty.List(cty.List(cty.String)), Optional: true},
"id": {Type: cty.String, Computed: true},
"name": {Type: cty.String, Computed: true},
},
},
},
}
// First, apply with a count of 3
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(3),
SourceType: ValueFromCaller,
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatalf("errors during plan")
}
checkConfig := func(key string, want map[string]interface{}) {
configsLock.Lock()
defer configsLock.Unlock()
if _, ok := configs[key]; !ok {
t.Errorf("no config recorded for %s; expected a configuration", key)
return
}
got := configs[key].Config
t.Run("config for "+key, func(t *testing.T) {
want["key"] = key // to avoid doing this for every example
for _, problem := range deep.Equal(got, want) {
t.Errorf(problem)
}
})
}
checkConfig("multi_count_var.0", map[string]interface{}{
"source_id": hcl2shim.UnknownVariableValue,
"source_name": "source.0",
})
checkConfig("multi_count_var.2", map[string]interface{}{
"source_id": hcl2shim.UnknownVariableValue,
"source_name": "source.2",
})
checkConfig("multi_count_derived.0", map[string]interface{}{
"source_id": hcl2shim.UnknownVariableValue,
"source_name": "source.0",
})
checkConfig("multi_count_derived.2", map[string]interface{}{
"source_id": hcl2shim.UnknownVariableValue,
"source_name": "source.2",
})
checkConfig("whole_splat", map[string]interface{}{
"source_ids": []interface{}{
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
},
"source_names": []interface{}{
"source.0",
"source.1",
"source.2",
},
"source_ids_from_func": hcl2shim.UnknownVariableValue,
"source_names_from_func": []interface{}{
"source.0",
"source.1",
"source.2",
},
"source_ids_wrapped": []interface{}{
[]interface{}{
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
},
},
"source_names_wrapped": []interface{}{
[]interface{}{
"source.0",
"source.1",
"source.2",
},
},
"first_source_id": hcl2shim.UnknownVariableValue,
"first_source_name": "source.0",
})
checkConfig("child.whole_splat", map[string]interface{}{
"source_ids": []interface{}{
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
},
"source_names": []interface{}{
"source.0",
"source.1",
"source.2",
},
"source_ids_wrapped": []interface{}{
[]interface{}{
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
hcl2shim.UnknownVariableValue,
},
},
"source_names_wrapped": []interface{}{
[]interface{}{
"source.0",
"source.1",
"source.2",
},
},
})
t.Run("apply", func(t *testing.T) {
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("error during apply: %s", diags.Err())
}
want := map[string]interface{}{
"source_ids": []interface{}{"foo", "foo", "foo"},
"source_names": []interface{}{
"source.0",
"source.1",
"source.2",
},
}
got := map[string]interface{}{}
for k, s := range state.RootModule().OutputValues {
got[k] = hcl2shim.ConfigValueFromHCL2(s.Value)
}
if !reflect.DeepEqual(got, want) {
t.Errorf(
"wrong outputs\ngot: %s\nwant: %s",
spew.Sdump(got), spew.Sdump(want),
)
}
})
}
// Test that multi-var (splat) access is ordered by count, not by
// value.
func TestContext2Apply_multiVarOrder(t *testing.T) {
m := testModule(t, "apply-multi-var-order")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
// First, apply with a count of 3
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
t.Logf("State: %s", state.String())
actual := state.RootModule().OutputValues["should-be-11"]
expected := cty.StringVal("index-11")
if actual == nil || actual.Value != expected {
t.Fatalf("wrong value\ngot: %#v\nwant: %#v", actual.Value, expected)
}
}
// Test that multi-var (splat) access is ordered by count, not by
// value, through interpolations.
func TestContext2Apply_multiVarOrderInterp(t *testing.T) {
m := testModule(t, "apply-multi-var-order-interp")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
// First, apply with a count of 3
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
t.Logf("State: %s", state.String())
actual := state.RootModule().OutputValues["should-be-11"]
expected := cty.StringVal("baz-index-11")
if actual == nil || actual.Value != expected {
t.Fatalf("wrong value\ngot: %#v\nwant: %#v", actual.Value, expected)
}
}
// Based on GH-10440 where a graph edge wasn't properly being created
// between a modified resource and a count instance being destroyed.
func TestContext2Apply_multiVarCountDec(t *testing.T) {
var s *states.State
// First create resources. Nothing sneaky here.
{
m := testModule(t, "apply-multi-var-count-dec")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(2),
SourceType: ValueFromCaller,
},
},
})
log.Print("\n========\nStep 1 Plan\n========")
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
log.Print("\n========\nStep 1 Apply\n========")
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
t.Logf("Step 1 state:\n%s", state)
s = state
}
// Decrease the count by 1 and verify that everything happens in the
// right order.
{
m := testModule(t, "apply-multi-var-count-dec")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
// Verify that aws_instance.bar is modified first and nothing
// else happens at the same time.
var checked bool
var called int32
var lock sync.Mutex
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
lock.Lock()
defer lock.Unlock()
if id != nil && id.Attributes != nil && id.Attributes["ami"] != nil && id.Attributes["ami"].New == "special" {
checked = true
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Verify that called is 0 (dep not called)
if atomic.LoadInt32(&called) != 1 {
return nil, fmt.Errorf("nothing else should be called")
}
}
atomic.AddInt32(&called, 1)
return testApplyFn(info, is, id)
}
ctx := testContext2(t, &ContextOpts{
State: s,
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Variables: InputValues{
"num": &InputValue{
Value: cty.NumberIntVal(1),
SourceType: ValueFromCaller,
},
},
})
log.Print("\n========\nStep 2 Plan\n========")
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
t.Logf("Step 2 plan:\n%s", legacyDiffComparisonString(plan.Changes))
log.Print("\n========\nStep 2 Apply\n========")
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
if !checked {
t.Error("apply never called")
}
t.Logf("Step 2 state:\n%s", state)
s = state
}
}
// Test that we can resolve a multi-var (splat) for the first resource
// created in a non-root module, which happens when the module state doesn't
// exist yet.
// https://github.com/hashicorp/terraform/issues/14438
func TestContext2Apply_multiVarMissingState(t *testing.T) {
m := testModule(t, "apply-multi-var-missing-state")
p := testProvider("test")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test_thing": {
Attributes: map[string]*configschema.Attribute{
"a_ids": {Type: cty.String, Optional: true},
"id": {Type: cty.String, Computed: true},
},
},
},
}
// First, apply with a count of 3
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan failed: %s", diags.Err())
}
// Before the relevant bug was fixed, Tdiagsaform would panic during apply.
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply failed: %s", diags.Err())
}
// If we get here with no errors or panics then our test was successful.
}
func TestContext2Apply_nilDiff(t *testing.T) {
m := testModule(t, "apply-good")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
p.DiffFn = func(*InstanceInfo, *InstanceState, *ResourceConfig) (*InstanceDiff, error) {
return nil, nil
}
if _, diags := ctx.Apply(); diags == nil {
t.Fatal("should error")
}
}
func TestContext2Apply_outputDependsOn(t *testing.T) {
m := testModule(t, "apply-output-depends-on")
p := testProvider("aws")
p.DiffFn = testDiffFn
{
// Create a custom apply function that sleeps a bit (to allow parallel
// graph execution) and then returns an error to force a partial state
// return. We then verify the output is NOT there.
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
// Sleep to allow parallel execution
time.Sleep(50 * time.Millisecond)
// Return error to force partial state
return nil, fmt.Errorf("abcd")
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if !diags.HasErrors() || !strings.Contains(diags.Err().Error(), "abcd") {
t.Fatalf("err: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
}
{
// Create the standard apply function and verify we get the output
p.ApplyFn = testApplyFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.foo:
ID = foo
provider = provider.aws
Outputs:
value = result
`)
}
}
func TestContext2Apply_outputOrphan(t *testing.T) {
m := testModule(t, "apply-output-orphan")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Outputs: map[string]*OutputState{
"foo": &OutputState{
Type: "string",
Sensitive: false,
Value: "bar",
},
"bar": &OutputState{
Type: "string",
Sensitive: false,
Value: "baz",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyOutputOrphanStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_outputOrphanModule(t *testing.T) {
m := testModule(t, "apply-output-orphan-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Outputs: map[string]*OutputState{
"foo": &OutputState{
Type: "string",
Value: "bar",
},
"bar": &OutputState{
Type: "string",
Value: "baz",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state.DeepCopy(),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyOutputOrphanModuleStr)
if actual != expected {
t.Fatalf("expected:\n%s\n\ngot:\n%s", expected, actual)
}
// now apply with no module in the config, which should remove the
// remaining output
ctx = testContext2(t, &ContextOpts{
Config: configs.NewEmptyConfig(),
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state.DeepCopy(),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if !state.Empty() {
t.Fatalf("wrong final state %s\nwant empty state", spew.Sdump(state))
}
}
func TestContext2Apply_providerComputedVar(t *testing.T) {
m := testModule(t, "apply-provider-computed")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pTest := testProvider("test")
pTest.ApplyFn = testApplyFn
pTest.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
"test": testProviderFuncFixed(pTest),
},
),
})
p.ConfigureFn = func(c *ResourceConfig) error {
if c.IsComputed("value") {
return fmt.Errorf("value is computed")
}
v, ok := c.Get("value")
if !ok {
return fmt.Errorf("value is not found")
}
if v != "yes" {
return fmt.Errorf("value is not 'yes': %v", v)
}
return nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
func TestContext2Apply_providerConfigureDisabled(t *testing.T) {
m := testModule(t, "apply-provider-configure-disabled")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
called := false
p.ConfigureFn = func(c *ResourceConfig) error {
called = true
if _, ok := c.Get("value"); !ok {
return fmt.Errorf("value is not found")
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
if !called {
t.Fatal("configure never called")
}
}
func TestContext2Apply_provisionerModule(t *testing.T) {
m := testModule(t, "apply-provisioner-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
pr.GetSchemaResponse = provisioners.GetSchemaResponse{
Provisioner: &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"foo": {Type: cty.String, Optional: true},
},
},
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerModuleStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
func TestContext2Apply_Provisioner_compute(t *testing.T) {
m := testModule(t, "apply-provisioner-compute")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "computed_value" {
t.Fatalf("bad value for foo: %v %#v", val, c)
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
Variables: InputValues{
"value": &InputValue{
Value: cty.NumberIntVal(1),
SourceType: ValueFromCaller,
},
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
func TestContext2Apply_provisionerCreateFail(t *testing.T) {
m := testModule(t, "apply-provisioner-fail-create")
p := testProvider("aws")
pr := testProvisioner()
p.DiffFn = testDiffFn
p.ApplyFn = func(info *InstanceInfo, is *InstanceState, id *InstanceDiff) (*InstanceState, error) {
is.ID = "foo"
return is, fmt.Errorf("error")
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should error")
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(testTerraformApplyProvisionerFailCreateStr)
if got != want {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", got, want)
}
}
func TestContext2Apply_provisionerCreateFailNoId(t *testing.T) {
m := testModule(t, "apply-provisioner-fail-create")
p := testProvider("aws")
pr := testProvisioner()
p.DiffFn = testDiffFn
p.ApplyFn = func(
info *InstanceInfo,
is *InstanceState,
id *InstanceDiff) (*InstanceState, error) {
return nil, fmt.Errorf("error")
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerFailCreateNoIdStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_provisionerFail(t *testing.T) {
m := testModule(t, "apply-provisioner-fail")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(*InstanceState, *ResourceConfig) error {
return fmt.Errorf("EXPLOSION")
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerFailStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_provisionerFail_createBeforeDestroy(t *testing.T) {
m := testModule(t, "apply-provisioner-fail-create-before")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(*InstanceState, *ResourceConfig) error {
return fmt.Errorf("EXPLOSION")
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "abc",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerFailCreateBeforeDestroyStr)
if actual != expected {
t.Fatalf("expected:\n%s\n:got\n%s", expected, actual)
}
}
func TestContext2Apply_error_createBeforeDestroy(t *testing.T) {
m := testModule(t, "apply-error-create-before")
p := testProvider("aws")
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "abc",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
p.ApplyFn = func(info *InstanceInfo, is *InstanceState, id *InstanceDiff) (*InstanceState, error) {
return nil, fmt.Errorf("error")
}
p.DiffFn = testDiffFn
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyErrorCreateBeforeDestroyStr)
if actual != expected {
t.Fatalf("wrong final state\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_errorDestroy_createBeforeDestroy(t *testing.T) {
m := testModule(t, "apply-error-create-before")
p := testProvider("aws")
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "abc",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
p.ApplyFn = func(info *InstanceInfo, is *InstanceState, id *InstanceDiff) (*InstanceState, error) {
// Fail the destroy!
if id.Destroy {
return is, fmt.Errorf("error")
}
// Create should work
is = &InstanceState{
ID: "foo",
Attributes: map[string]string{
"type": "aws_instance",
"require_new": "xyz",
},
}
return is, nil
}
p.DiffFn = testDiffFn
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyErrorDestroyCreateBeforeDestroyStr)
if actual != expected {
t.Fatalf("bad: actual:\n%s\n\nexpected:\n%s", actual, expected)
}
}
func TestContext2Apply_multiDepose_createBeforeDestroy(t *testing.T) {
m := testModule(t, "apply-multi-depose-create-before-destroy")
p := testProvider("aws")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"require_new": {Type: cty.String, Optional: true},
"id": {Type: cty.String, Computed: true},
},
},
},
}
ps := map[string]providers.Factory{"aws": testProviderFuncFixed(p)}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.web": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{ID: "foo"},
},
},
},
},
})
p.DiffFn = func(info *InstanceInfo, s *InstanceState, rc *ResourceConfig) (*InstanceDiff, error) {
if rc == nil {
return &InstanceDiff{
Destroy: true,
}, nil
}
rn, _ := rc.Get("require_new")
return &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{
"id": {
New: hcl2shim.UnknownVariableValue,
NewComputed: true,
RequiresNew: true,
},
"require_new": {
Old: s.Attributes["require_new"],
New: rn.(string),
RequiresNew: true,
},
},
}, nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(ps),
State: state,
})
createdInstanceId := "bar"
// Create works
createFunc := func(is *InstanceState, id *InstanceDiff) (*InstanceState, error) {
return &InstanceState{
ID: createdInstanceId,
Attributes: map[string]string{
"require_new": id.Attributes["require_new"].New,
},
}, nil
}
// Destroy starts broken
destroyFunc := func(is *InstanceState) (*InstanceState, error) {
return is, fmt.Errorf("destroy failed")
}
p.ApplyFn = func(info *InstanceInfo, is *InstanceState, id *InstanceDiff) (*InstanceState, error) {
if id.Destroy {
return destroyFunc(is)
} else {
return createFunc(is, id)
}
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
// Destroy is broken, so even though CBD successfully replaces the instance,
// we'll have to save the Deposed instance to destroy later
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
checkStateString(t, state, `
aws_instance.web: (1 deposed)
ID = bar
provider = provider.aws
require_new = yes
Deposed ID 1 = foo
`)
createdInstanceId = "baz"
ctx = testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(ps),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
// We're replacing the primary instance once again. Destroy is _still_
// broken, so the Deposed list gets longer
state, diags = ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
// For this one we can't rely on checkStateString because its result is
// not deterministic when multiple deposed objects are present. Instead,
// we will probe the state object directly.
{
is := state.RootModule().Resources["aws_instance.web"].Instances[addrs.NoKey]
t.Logf("aws_instance.web is %s", spew.Sdump(is))
if is.Current == nil {
t.Fatalf("no current object for aws_instance web; should have one")
}
if !bytes.Contains(is.Current.AttrsJSON, []byte("baz")) {
t.Fatalf("incorrect current object attrs %s; want id=baz", is.Current.AttrsJSON)
}
if got, want := len(is.Deposed), 2; got != want {
t.Fatalf("wrong number of deposed instances %d; want %d", got, want)
}
var foos, bars int
for _, obj := range is.Deposed {
if bytes.Contains(obj.AttrsJSON, []byte("foo")) {
foos++
}
if bytes.Contains(obj.AttrsJSON, []byte("bar")) {
bars++
}
}
if got, want := foos, 1; got != want {
t.Fatalf("wrong number of deposed instances with id=foo %d; want %d", got, want)
}
if got, want := bars, 1; got != want {
t.Fatalf("wrong number of deposed instances with id=bar %d; want %d", got, want)
}
}
// Destroy partially fixed!
destroyFunc = func(is *InstanceState) (*InstanceState, error) {
if is.ID == "foo" || is.ID == "baz" {
return nil, nil
} else {
return is, fmt.Errorf("destroy partially failed")
}
}
createdInstanceId = "qux"
ctx = testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(ps),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
// Expect error because 1/2 of Deposed destroys failed
if diags == nil {
t.Fatal("should have error")
}
// foo and baz are now gone, bar sticks around
checkStateString(t, state, `
aws_instance.web: (1 deposed)
ID = qux
provider = provider.aws
require_new = yes
Deposed ID 1 = bar
`)
// Destroy working fully!
destroyFunc = func(is *InstanceState) (*InstanceState, error) {
return nil, nil
}
createdInstanceId = "quux"
ctx = testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(ps),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatal("should not have error:", diags.Err())
}
// And finally the state is clean
checkStateString(t, state, `
aws_instance.web:
ID = quux
provider = provider.aws
require_new = yes
`)
}
// Verify that a normal provisioner with on_failure "continue" set won't
// taint the resource and continues executing.
func TestContext2Apply_provisionerFailContinue(t *testing.T) {
m := testModule(t, "apply-provisioner-fail-continue")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
return fmt.Errorf("provisioner error")
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.foo:
ID = foo
provider = provider.aws
foo = bar
type = aws_instance
`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
// Verify that a normal provisioner with on_failure "continue" records
// the error with the hook.
func TestContext2Apply_provisionerFailContinueHook(t *testing.T) {
h := new(MockHook)
m := testModule(t, "apply-provisioner-fail-continue")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
return fmt.Errorf("provisioner error")
}
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
if !h.PostProvisionInstanceStepCalled {
t.Fatal("PostProvisionInstanceStep not called")
}
if h.PostProvisionInstanceStepErrorArg == nil {
t.Fatal("should have error")
}
}
func TestContext2Apply_provisionerDestroy(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "destroy" {
t.Fatalf("bad value for foo: %v %#v", val, c)
}
return nil
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
// Verify that on destroy provisioner failure, nothing happens to the instance
func TestContext2Apply_provisionerDestroyFail(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
return fmt.Errorf("provisioner error")
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should error")
}
checkStateString(t, state, `
aws_instance.foo:
ID = bar
provider = provider.aws
`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
// Verify that on destroy provisioner failure with "continue" that
// we continue to the next provisioner.
func TestContext2Apply_provisionerDestroyFailContinue(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-continue")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var l sync.Mutex
var calls []string
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok {
t.Fatalf("bad value for foo: %v %#v", val, c)
}
l.Lock()
defer l.Unlock()
calls = append(calls, val.(string))
return fmt.Errorf("provisioner error")
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
expected := []string{"one", "two"}
if !reflect.DeepEqual(calls, expected) {
t.Fatalf("wrong commands\ngot: %#v\nwant: %#v", calls, expected)
}
}
// Verify that on destroy provisioner failure with "continue" that
// we continue to the next provisioner. But if the next provisioner defines
// to fail, then we fail after running it.
func TestContext2Apply_provisionerDestroyFailContinueFail(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-fail")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var l sync.Mutex
var calls []string
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok {
t.Fatalf("bad value for foo: %v %#v", val, c)
}
l.Lock()
defer l.Unlock()
calls = append(calls, val.(string))
return fmt.Errorf("provisioner error")
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("apply succeeded; wanted error from second provisioner")
}
checkStateString(t, state, `
aws_instance.foo:
ID = bar
provider = provider.aws
`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
expected := []string{"one", "two"}
if !reflect.DeepEqual(calls, expected) {
t.Fatalf("bad: %#v", calls)
}
}
// Verify destroy provisioners are not run for tainted instances.
func TestContext2Apply_provisionerDestroyTainted(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
destroyCalled := false
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
expected := "create"
if rs.ID == "bar" {
destroyCalled = true
return nil
}
val, ok := c.Config["command"]
if !ok || val != expected {
t.Fatalf("bad value for command: %v %#v", val, c)
}
return nil
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Tainted: true,
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.foo:
ID = foo
provider = provider.aws
foo = bar
type = aws_instance
`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
if destroyCalled {
t.Fatal("destroy should not be called")
}
}
func TestContext2Apply_provisionerDestroyModule(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-module")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "value" {
t.Fatalf("bad value for foo: %v %#v", val, c)
}
return nil
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
func TestContext2Apply_provisionerDestroyRef(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-ref")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "hello" {
return fmt.Errorf("bad value for command: %v %#v", val, c)
}
return nil
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"value": "hello",
},
},
Provider: "provider.aws",
},
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
// Test that a destroy provisioner referencing an invalid key errors.
func TestContext2Apply_provisionerDestroyRefInvalid(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-ref-invalid")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
return nil
}
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Destroy: true,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
// this was an apply test, but this is now caught in Validation
if diags := ctx.Validate(); !diags.HasErrors() {
t.Fatal("expected error")
}
}
func TestContext2Apply_provisionerResourceRef(t *testing.T) {
m := testModule(t, "apply-provisioner-resource-ref")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "2" {
t.Fatalf("bad value for foo: %v %#v", val, c)
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerResourceRefStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
func TestContext2Apply_provisionerSelfRef(t *testing.T) {
m := testModule(t, "apply-provisioner-self-ref")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "bar" {
t.Fatalf("bad value for command: %v %#v", val, c)
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerSelfRefStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
func TestContext2Apply_provisionerMultiSelfRef(t *testing.T) {
var lock sync.Mutex
commands := make([]string, 0, 5)
m := testModule(t, "apply-provisioner-multi-self-ref")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
lock.Lock()
defer lock.Unlock()
val, ok := c.Config["command"]
if !ok {
t.Fatalf("bad value for command: %v %#v", val, c)
}
commands = append(commands, val.(string))
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerMultiSelfRefStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
// Verify our result
sort.Strings(commands)
expectedCommands := []string{"number 0", "number 1", "number 2"}
if !reflect.DeepEqual(commands, expectedCommands) {
t.Fatalf("bad: %#v", commands)
}
}
func TestContext2Apply_provisionerMultiSelfRefSingle(t *testing.T) {
var lock sync.Mutex
order := make([]string, 0, 5)
m := testModule(t, "apply-provisioner-multi-self-ref-single")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
lock.Lock()
defer lock.Unlock()
val, ok := c.Config["order"]
if !ok {
t.Fatalf("bad value for order: %v %#v", val, c)
}
order = append(order, val.(string))
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerMultiSelfRefSingleStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
// Verify our result
sort.Strings(order)
expectedOrder := []string{"0", "1", "2"}
if !reflect.DeepEqual(order, expectedOrder) {
t.Fatalf("bad: %#v", order)
}
}
func TestContext2Apply_provisionerExplicitSelfRef(t *testing.T) {
m := testModule(t, "apply-provisioner-explicit-self-ref")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok || val != "bar" {
t.Fatalf("bad value for command: %v %#v", val, c)
}
return nil
}
var state *states.State
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
_, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner not invoked")
}
}
{
ctx := testContext2(t, &ContextOpts{
Config: m,
Destroy: true,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
_, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
}
}
func TestContext2Apply_provisionerForEachSelfRef(t *testing.T) {
m := testModule(t, "apply-provisioner-for-each-self")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
val, ok := c.Config["command"]
if !ok {
t.Fatalf("bad value for command: %v %#v", val, c)
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
_, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
}
// Provisioner should NOT run on a diff, only create
func TestContext2Apply_Provisioner_Diff(t *testing.T) {
m := testModule(t, "apply-provisioner-diff")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
}
state, diags := ctx.Apply()
if diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("apply failed")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyProvisionerDiffStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was invoked
if !pr.ProvisionResourceCalled {
t.Fatalf("provisioner was not called on first apply")
}
pr.ProvisionResourceCalled = false
// Change the state to force a diff
mod := state.RootModule()
obj := mod.Resources["aws_instance.bar"].Instances[addrs.NoKey].Current
var attrs map[string]interface{}
err := json.Unmarshal(obj.AttrsJSON, &attrs)
if err != nil {
t.Fatal(err)
}
attrs["foo"] = "baz"
obj.AttrsJSON, err = json.Marshal(attrs)
if err != nil {
t.Fatal(err)
}
// Re-create context with state
ctx = testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
}
state2, diags := ctx.Apply()
if diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("apply failed")
}
actual = strings.TrimSpace(state2.String())
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Verify apply was NOT invoked
if pr.ProvisionResourceCalled {
t.Fatalf("provisioner was called on second apply; should not have been")
}
}
func TestContext2Apply_outputDiffVars(t *testing.T) {
m := testModule(t, "apply-good")
p := testProvider("aws")
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.baz": &ResourceState{ // This one is not in config, so should be destroyed
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
if d.Destroy {
return nil, nil
}
result := s.MergeDiff(d)
result.ID = "foo"
return result, nil
}
p.DiffFn = func(info *InstanceInfo, s *InstanceState, rc *ResourceConfig) (*InstanceDiff, error) {
d := &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{},
}
if new, ok := rc.Get("value"); ok {
d.Attributes["value"] = &ResourceAttrDiff{
New: new.(string),
}
}
if new, ok := rc.Get("foo"); ok {
d.Attributes["foo"] = &ResourceAttrDiff{
New: new.(string),
}
} else if rc.IsComputed("foo") {
d.Attributes["foo"] = &ResourceAttrDiff{
NewComputed: true,
Type: DiffAttrOutput, // This doesn't actually really do anything anymore, but this test originally set it.
}
}
if new, ok := rc.Get("num"); ok {
d.Attributes["num"] = &ResourceAttrDiff{
New: fmt.Sprintf("%#v", new),
}
}
return d, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
}
if _, diags := ctx.Apply(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("apply failed")
}
}
func TestContext2Apply_destroyX(t *testing.T) {
m := testModule(t, "apply-destroy")
h := new(HookRecordApplyOrder)
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Next, plan and apply a destroy operation
h.Active = true
ctx = testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Test that things were destroyed
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyDestroyStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Test that things were destroyed _in the right order_
expected2 := []string{"aws_instance.bar", "aws_instance.foo"}
actual2 := h.IDs
if !reflect.DeepEqual(actual2, expected2) {
t.Fatalf("expected: %#v\n\ngot:%#v", expected2, actual2)
}
}
func TestContext2Apply_destroyOrder(t *testing.T) {
m := testModule(t, "apply-destroy")
h := new(HookRecordApplyOrder)
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
t.Logf("State 1: %s", state)
// Next, plan and apply a destroy
h.Active = true
ctx = testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Test that things were destroyed
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyDestroyStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
// Test that things were destroyed _in the right order_
expected2 := []string{"aws_instance.bar", "aws_instance.foo"}
actual2 := h.IDs
if !reflect.DeepEqual(actual2, expected2) {
t.Fatalf("expected: %#v\n\ngot:%#v", expected2, actual2)
}
}
// https://github.com/hashicorp/terraform/issues/2767
func TestContext2Apply_destroyModulePrefix(t *testing.T) {
m := testModule(t, "apply-destroy-module-resource-prefix")
h := new(MockHook)
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Verify that we got the apply info correct
if v := h.PreApplyAddr.String(); v != "module.child.aws_instance.foo" {
t.Fatalf("bad: %s", v)
}
// Next, plan and apply a destroy operation and reset the hook
h = new(MockHook)
ctx = testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Test that things were destroyed
if v := h.PreApplyAddr.String(); v != "module.child.aws_instance.foo" {
t.Fatalf("bad: %s", v)
}
}
func TestContext2Apply_destroyNestedModule(t *testing.T) {
m := testModule(t, "apply-destroy-nested-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child", "subchild"},
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Test that things were destroyed
actual := strings.TrimSpace(state.String())
if actual != "<no state>" {
t.Fatalf("expected no state, got: %s", actual)
}
}
func TestContext2Apply_destroyDeeplyNestedModule(t *testing.T) {
m := testModule(t, "apply-destroy-deeply-nested-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child", "subchild", "subsubchild"},
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Test that things were destroyed
if !state.Empty() {
t.Fatalf("wrong final state %s\nwant empty state", spew.Sdump(state))
}
}
// https://github.com/hashicorp/terraform/issues/5440
func TestContext2Apply_destroyModuleWithAttrsReferencingResource(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "apply-destroy-module-with-attrs")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var state *states.State
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan diags: %s", diags.Err())
} else {
t.Logf("Step 1 plan: %s", legacyDiffComparisonString(p.Changes))
}
var diags tfdiags.Diagnostics
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply errs: %s", diags.Err())
}
t.Logf("Step 1 state: %s", state)
}
h := new(HookRecordApplyOrder)
h.Active = true
{
ctx := testContext2(t, &ContextOpts{
Destroy: true,
Config: m,
State: state,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("destroy plan err: %s", diags.Err())
}
t.Logf("Step 2 plan: %s", legacyDiffComparisonString(plan.Changes))
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("destroy apply err: %s", diags.Err())
}
t.Logf("Step 2 state: %s", state)
}
//Test that things were destroyed
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`<no state>`)
if actual != expected {
t.Fatalf("expected:\n\n%s\n\nactual:\n\n%s", expected, actual)
}
}
func TestContext2Apply_destroyWithModuleVariableAndCount(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "apply-destroy-mod-var-and-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var state *states.State
var diags tfdiags.Diagnostics
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply err: %s", diags.Err())
}
}
h := new(HookRecordApplyOrder)
h.Active = true
{
ctx := testContext2(t, &ContextOpts{
Destroy: true,
Config: m,
State: state,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("destroy plan err: %s", diags.Err())
}
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("destroy apply err: %s", diags.Err())
}
}
//Test that things were destroyed
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
<no state>
module.child:
`)
if actual != expected {
t.Fatalf("expected: \n%s\n\nbad: \n%s", expected, actual)
}
}
func TestContext2Apply_destroyTargetWithModuleVariableAndCount(t *testing.T) {
m := testModule(t, "apply-destroy-mod-var-and-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var state *states.State
var diags tfdiags.Diagnostics
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply err: %s", diags.Err())
}
}
{
ctx := testContext2(t, &ContextOpts{
Destroy: true,
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("child", addrs.NoKey),
},
})
_, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("plan err: %s", diags)
}
if len(diags) != 1 {
// Should have one warning that -target is in effect.
t.Fatalf("got %d diagnostics in plan; want 1", len(diags))
}
if got, want := diags[0].Severity(), tfdiags.Warning; got != want {
t.Errorf("wrong diagnostic severity %#v; want %#v", got, want)
}
if got, want := diags[0].Description().Summary, "Resource targeting is in effect"; got != want {
t.Errorf("wrong diagnostic summary %#v; want %#v", got, want)
}
// Destroy, targeting the module explicitly
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("destroy apply err: %s", diags)
}
if len(diags) != 1 {
t.Fatalf("got %d diagnostics; want 1", len(diags))
}
if got, want := diags[0].Severity(), tfdiags.Warning; got != want {
t.Errorf("wrong diagnostic severity %#v; want %#v", got, want)
}
if got, want := diags[0].Description().Summary, "Applied changes may be incomplete"; got != want {
t.Errorf("wrong diagnostic summary %#v; want %#v", got, want)
}
}
//Test that things were destroyed
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`<no state>`)
if actual != expected {
t.Fatalf("expected: \n%s\n\nbad: \n%s", expected, actual)
}
}
func TestContext2Apply_destroyWithModuleVariableAndCountNested(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "apply-destroy-mod-var-and-count-nested")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var state *states.State
var diags tfdiags.Diagnostics
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply err: %s", diags.Err())
}
}
h := new(HookRecordApplyOrder)
h.Active = true
{
ctx := testContext2(t, &ContextOpts{
Destroy: true,
Config: m,
State: state,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("destroy plan err: %s", diags.Err())
}
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("destroy apply err: %s", diags.Err())
}
}
//Test that things were destroyed
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
<no state>
module.child.child2:
`)
if actual != expected {
t.Fatalf("expected: \n%s\n\nbad: \n%s", expected, actual)
}
}
func TestContext2Apply_destroyOutputs(t *testing.T) {
m := testModule(t, "apply-destroy-outputs")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// Next, plan and apply a destroy operation
ctx = testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) > 0 {
t.Fatalf("expected no resources, got: %#v", mod)
}
// destroying again should produce no errors
ctx = testContext2(t, &ContextOpts{
Destroy: true,
State: state,
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatal(diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatal(diags.Err())
}
}
func TestContext2Apply_destroyOrphan(t *testing.T) {
m := testModule(t, "apply-error")
p := testProvider("aws")
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.baz": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
if d.Destroy {
return nil, nil
}
result := s.MergeDiff(d)
result.ID = "foo"
return result, nil
}
p.DiffFn = func(info *InstanceInfo, s *InstanceState, rc *ResourceConfig) (*InstanceDiff, error) {
d := &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{},
}
if new, ok := rc.Get("value"); ok {
d.Attributes["value"] = &ResourceAttrDiff{
New: new.(string),
}
}
if new, ok := rc.Get("foo"); ok {
d.Attributes["foo"] = &ResourceAttrDiff{
New: new.(string),
}
}
return d, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if _, ok := mod.Resources["aws_instance.baz"]; ok {
t.Fatalf("bad: %#v", mod.Resources)
}
}
func TestContext2Apply_destroyTaintedProvisioner(t *testing.T) {
m := testModule(t, "apply-destroy-provisioner")
p := testProvider("aws")
pr := testProvisioner()
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
called := false
pr.ApplyFn = func(rs *InstanceState, c *ResourceConfig) error {
called = true
return nil
}
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"id": "bar",
},
Tainted: true,
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: s,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if called {
t.Fatal("provisioner should not be called")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace("<no state>")
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_error(t *testing.T) {
errored := false
m := testModule(t, "apply-error")
p := testProvider("aws")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
p.ApplyFn = func(*InstanceInfo, *InstanceState, *InstanceDiff) (*InstanceState, error) {
if errored {
state := &InstanceState{
ID: "bar",
}
return state, fmt.Errorf("error")
}
errored = true
return &InstanceState{
ID: "foo",
Attributes: map[string]string{
"value": "2",
},
}, nil
}
p.DiffFn = func(info *InstanceInfo, s *InstanceState, rc *ResourceConfig) (*InstanceDiff, error) {
d := &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{},
}
if new, ok := rc.Get("value"); ok {
d.Attributes["value"] = &ResourceAttrDiff{
New: new.(string),
}
}
if new, ok := rc.Get("foo"); ok {
d.Attributes["foo"] = &ResourceAttrDiff{
New: new.(string),
}
}
return d, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyErrorStr)
if actual != expected {
t.Fatalf("expected:\n%s\n\ngot:\n%s", expected, actual)
}
}
func TestContext2Apply_errorDestroy(t *testing.T) {
m := testModule(t, "empty")
p := testProvider("test")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test_thing": {
Attributes: map[string]*configschema.Attribute{
"id": {Type: cty.String, Optional: true},
},
},
},
}
p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) providers.PlanResourceChangeResponse {
// Should actually be called for this test, because Terraform Core
// constructs the plan for a destroy operation itself.
return providers.PlanResourceChangeResponse{
PlannedState: req.ProposedNewState,
}
}
p.ApplyResourceChangeFn = func(req providers.ApplyResourceChangeRequest) providers.ApplyResourceChangeResponse {
// The apply (in this case, a destroy) always fails, so we can verify
// that the object stays in the state after a destroy fails even though
// we aren't returning a new state object here.
return providers.ApplyResourceChangeResponse{
Diagnostics: tfdiags.Diagnostics(nil).Append(fmt.Errorf("failed")),
}
}
ctx := testContext2(t, &ContextOpts{
Config: m,
State: states.BuildState(func(ss *states.SyncState) {
ss.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "test_thing",
Name: "foo",
}.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance),
&states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{"id":"baz"}`),
},
addrs.ProviderConfig{
Type: "test",
}.Absolute(addrs.RootModuleInstance),
)
}),
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
test_thing.foo:
ID = baz
provider = provider.test
`) // test_thing.foo is still here, even though provider returned no new state along with its error
if actual != expected {
t.Fatalf("expected:\n%s\n\ngot:\n%s", expected, actual)
}
}
func TestContext2Apply_errorCreateInvalidNew(t *testing.T) {
m := testModule(t, "apply-error")
p := testProvider("aws")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"value": {Type: cty.String, Optional: true},
"foo": {Type: cty.String, Optional: true},
},
},
},
}
p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) providers.PlanResourceChangeResponse {
return providers.PlanResourceChangeResponse{
PlannedState: req.ProposedNewState,
}
}
p.ApplyResourceChangeFn = func(req providers.ApplyResourceChangeRequest) providers.ApplyResourceChangeResponse {
// We're intentionally returning an inconsistent new state here
// because we want to test that Terraform ignores the inconsistency
// when accompanied by another error.
return providers.ApplyResourceChangeResponse{
NewState: cty.ObjectVal(map[string]cty.Value{
"value": cty.StringVal("wrong wrong wrong wrong"),
"foo": cty.StringVal("absolutely brimming over with wrongability"),
}),
Diagnostics: tfdiags.Diagnostics(nil).Append(fmt.Errorf("forced error")),
}
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
if got, want := len(diags), 1; got != want {
// There should be no additional diagnostics generated by Terraform's own eval logic,
// because the provider's own error supersedes them.
t.Errorf("wrong number of diagnostics %d; want %d\n%s", got, want, diags.Err())
}
if got, want := diags.Err().Error(), "forced error"; !strings.Contains(got, want) {
t.Errorf("returned error does not contain %q, but it should\n%s", want, diags.Err())
}
if got, want := len(state.RootModule().Resources), 2; got != want {
t.Errorf("%d resources in state before prune; should have %d\n%s", got, want, spew.Sdump(state))
}
state.PruneResourceHusks() // aws_instance.bar with no instances gets left behind when we bail out, but that's okay
if got, want := len(state.RootModule().Resources), 1; got != want {
t.Errorf("%d resources in state after prune; should have only one (aws_instance.foo, tainted)\n%s", got, spew.Sdump(state))
}
}
func TestContext2Apply_errorUpdateNullNew(t *testing.T) {
m := testModule(t, "apply-error")
p := testProvider("aws")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": {
Attributes: map[string]*configschema.Attribute{
"value": {Type: cty.String, Optional: true},
"foo": {Type: cty.String, Optional: true},
},
},
},
}
p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) providers.PlanResourceChangeResponse {
return providers.PlanResourceChangeResponse{
PlannedState: req.ProposedNewState,
}
}
p.ApplyResourceChangeFn = func(req providers.ApplyResourceChangeRequest) providers.ApplyResourceChangeResponse {
// We're intentionally returning no NewState here because we want to
// test that Terraform retains the prior state, rather than treating
// the returned null as "no state" (object deleted).
return providers.ApplyResourceChangeResponse{
Diagnostics: tfdiags.Diagnostics(nil).Append(fmt.Errorf("forced error")),
}
}
ctx := testContext2(t, &ContextOpts{
Config: m,
State: states.BuildState(func(ss *states.SyncState) {
ss.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "aws_instance",
Name: "foo",
}.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance),
&states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{"value":"old"}`),
},
addrs.ProviderConfig{
Type: "aws",
}.Absolute(addrs.RootModuleInstance),
)
}),
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
if got, want := len(diags), 1; got != want {
// There should be no additional diagnostics generated by Terraform's own eval logic,
// because the provider's own error supersedes them.
t.Errorf("wrong number of diagnostics %d; want %d\n%s", got, want, diags.Err())
}
if got, want := diags.Err().Error(), "forced error"; !strings.Contains(got, want) {
t.Errorf("returned error does not contain %q, but it should\n%s", want, diags.Err())
}
state.PruneResourceHusks()
if got, want := len(state.RootModule().Resources), 1; got != want {
t.Fatalf("%d resources in state; should have only one (aws_instance.foo, unmodified)\n%s", got, spew.Sdump(state))
}
is := state.ResourceInstance(addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "aws_instance",
Name: "foo",
}.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance))
if is == nil {
t.Fatalf("aws_instance.foo is not in the state after apply")
}
if got, want := is.Current.AttrsJSON, []byte(`"old"`); !bytes.Contains(got, want) {
t.Fatalf("incorrect attributes for aws_instance.foo\ngot: %s\nwant: JSON containing %s\n\n%s", got, want, spew.Sdump(is))
}
}
func TestContext2Apply_errorPartial(t *testing.T) {
errored := false
m := testModule(t, "apply-error")
p := testProvider("aws")
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
if errored {
return s, fmt.Errorf("error")
}
errored = true
return &InstanceState{
ID: "foo",
Attributes: map[string]string{
"value": "2",
},
}, nil
}
p.DiffFn = func(info *InstanceInfo, s *InstanceState, rc *ResourceConfig) (*InstanceDiff, error) {
d := &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{},
}
if new, ok := rc.Get("value"); ok {
d.Attributes["value"] = &ResourceAttrDiff{
New: new.(string),
}
}
if new, ok := rc.Get("foo"); ok {
d.Attributes["foo"] = &ResourceAttrDiff{
New: new.(string),
}
}
return d, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags == nil {
t.Fatal("should have error")
}
mod := state.RootModule()
if len(mod.Resources) != 2 {
t.Fatalf("bad: %#v", mod.Resources)
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyErrorPartialStr)
if actual != expected {
t.Fatalf("expected:\n%s\n\ngot:\n%s", expected, actual)
}
}
func TestContext2Apply_hook(t *testing.T) {
m := testModule(t, "apply-good")
h := new(MockHook)
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
if !h.PreApplyCalled {
t.Fatal("should be called")
}
if !h.PostApplyCalled {
t.Fatal("should be called")
}
if !h.PostStateUpdateCalled {
t.Fatalf("should call post state update")
}
}
func TestContext2Apply_hookOrphan(t *testing.T) {
m := testModule(t, "apply-blank")
h := new(MockHook)
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
State: state,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
if !h.PreApplyCalled {
t.Fatal("should be called")
}
if !h.PostApplyCalled {
t.Fatal("should be called")
}
if !h.PostStateUpdateCalled {
t.Fatalf("should call post state update")
}
}
func TestContext2Apply_idAttr(t *testing.T) {
m := testModule(t, "apply-idattr")
p := testProvider("aws")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
result := s.MergeDiff(d)
result.ID = "foo"
result.Attributes = map[string]string{
"id": "bar",
"num": "42",
}
return result, nil
}
p.DiffFn = func(*InstanceInfo, *InstanceState, *ResourceConfig) (*InstanceDiff, error) {
return &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{
"num": &ResourceAttrDiff{
New: "42",
},
},
}, nil
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
mod := state.RootModule()
rs, ok := mod.Resources["aws_instance.foo"]
if !ok {
t.Fatal("not in state")
}
var attrs map[string]interface{}
err := json.Unmarshal(rs.Instances[addrs.NoKey].Current.AttrsJSON, &attrs)
if err != nil {
t.Fatal(err)
}
if got, want := attrs["id"], "foo"; got != want {
t.Fatalf("wrong id\ngot: %#v\nwant: %#v", got, want)
}
}
func TestContext2Apply_outputBasic(t *testing.T) {
m := testModule(t, "apply-output")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyOutputStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_outputAdd(t *testing.T) {
m1 := testModule(t, "apply-output-add-before")
p1 := testProvider("aws")
p1.ApplyFn = testApplyFn
p1.DiffFn = testDiffFn
ctx1 := testContext2(t, &ContextOpts{
Config: m1,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p1),
},
),
})
if _, diags := ctx1.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state1, diags := ctx1.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
m2 := testModule(t, "apply-output-add-after")
p2 := testProvider("aws")
p2.ApplyFn = testApplyFn
p2.DiffFn = testDiffFn
ctx2 := testContext2(t, &ContextOpts{
Config: m2,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p2),
},
),
State: state1,
})
if _, diags := ctx2.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
state2, diags := ctx2.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state2.String())
expected := strings.TrimSpace(testTerraformApplyOutputAddStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_outputList(t *testing.T) {
m := testModule(t, "apply-output-list")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyOutputListStr)
if actual != expected {
t.Fatalf("expected: \n%s\n\nbad: \n%s", expected, actual)
}
}
func TestContext2Apply_outputMulti(t *testing.T) {
m := testModule(t, "apply-output-multi")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyOutputMultiStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_outputMultiIndex(t *testing.T) {
m := testModule(t, "apply-output-multi-index")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyOutputMultiIndexStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_taintX(t *testing.T) {
m := testModule(t, "apply-taint")
p := testProvider("aws")
// destroyCount tests against regression of
// https://github.com/hashicorp/terraform/issues/1056
var destroyCount = int32(0)
var once sync.Once
simulateProviderDelay := func() {
time.Sleep(10 * time.Millisecond)
}
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
once.Do(simulateProviderDelay)
if d.Destroy {
atomic.AddInt32(&destroyCount, 1)
}
return testApplyFn(info, s, d)
}
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "baz",
Attributes: map[string]string{
"num": "2",
"type": "aws_instance",
},
Tainted: true,
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf("plan: %s", legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyTaintStr)
if actual != expected {
t.Fatalf("bad:\n%s", actual)
}
if destroyCount != 1 {
t.Fatalf("Expected 1 destroy, got %d", destroyCount)
}
}
func TestContext2Apply_taintDep(t *testing.T) {
m := testModule(t, "apply-taint-dep")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "baz",
Attributes: map[string]string{
"num": "2",
"type": "aws_instance",
},
Tainted: true,
},
},
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "baz",
"num": "2",
"type": "aws_instance",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf("plan: %s", legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyTaintDepStr)
if actual != expected {
t.Fatalf("bad:\n%s", actual)
}
}
func TestContext2Apply_taintDepRequiresNew(t *testing.T) {
m := testModule(t, "apply-taint-dep-requires-new")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "baz",
Attributes: map[string]string{
"num": "2",
"type": "aws_instance",
},
Tainted: true,
},
},
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"foo": "baz",
"num": "2",
"type": "aws_instance",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf("plan: %s", legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyTaintDepRequireNewStr)
if actual != expected {
t.Fatalf("bad:\n%s", actual)
}
}
func TestContext2Apply_targeted(t *testing.T) {
m := testModule(t, "apply-targeted")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) != 1 {
t.Fatalf("expected 1 resource, got: %#v", mod.Resources)
}
checkStateString(t, state, `
aws_instance.foo:
ID = foo
provider = provider.aws
num = 2
type = aws_instance
`)
}
func TestContext2Apply_targetedCount(t *testing.T) {
m := testModule(t, "apply-targeted-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.foo.0:
ID = foo
provider = provider.aws
aws_instance.foo.1:
ID = foo
provider = provider.aws
aws_instance.foo.2:
ID = foo
provider = provider.aws
`)
}
func TestContext2Apply_targetedCountIndex(t *testing.T) {
m := testModule(t, "apply-targeted-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.ResourceInstance(
addrs.ManagedResourceMode, "aws_instance", "foo", addrs.IntKey(1),
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.foo.1:
ID = foo
provider = provider.aws
`)
}
func TestContext2Apply_targetedDestroy(t *testing.T) {
m := testModule(t, "apply-targeted")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "i-bcd345"),
"aws_instance.bar": resourceState("aws_instance", "i-abc123"),
},
},
},
}),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) != 1 {
t.Fatalf("expected 1 resource, got: %#v", mod.Resources)
}
checkStateString(t, state, `
aws_instance.bar:
ID = i-abc123
provider = provider.aws
`)
}
func TestContext2Apply_destroyProvisionerWithLocals(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-locals")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
pr.ApplyFn = func(_ *InstanceState, rc *ResourceConfig) error {
cmd, ok := rc.Get("command")
if !ok || cmd != "local" {
return fmt.Errorf("provisioner got %v:%s", ok, cmd)
}
return nil
}
pr.GetSchemaResponse = provisioners.GetSchemaResponse{
Provisioner: &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"command": {
Type: cty.String,
Required: true,
},
"when": {
Type: cty.String,
Optional: true,
},
},
},
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root"},
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "1234"),
},
},
},
}),
Destroy: true,
// the test works without targeting, but this also tests that the local
// node isn't inadvertently pruned because of the wrong evaluation
// order.
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatal(diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatal(diags.Err())
}
if !pr.ProvisionResourceCalled {
t.Fatal("provisioner not called")
}
}
// this also tests a local value in the config referencing a resource that
// wasn't in the state during destroy.
func TestContext2Apply_destroyProvisionerWithMultipleLocals(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-multiple-locals")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
pr.GetSchemaResponse = provisioners.GetSchemaResponse{
Provisioner: &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"id": {
Type: cty.String,
Required: true,
},
"command": {
Type: cty.String,
Required: true,
},
"when": {
Type: cty.String,
Optional: true,
},
},
},
}
pr.ApplyFn = func(is *InstanceState, rc *ResourceConfig) error {
cmd, ok := rc.Get("command")
if !ok {
return errors.New("no command in provisioner")
}
id, ok := rc.Get("id")
if !ok {
return errors.New("no id in provisioner")
}
switch id {
case "1234":
if cmd != "local" {
return fmt.Errorf("provisioner %q got:%q", is.ID, cmd)
}
case "3456":
if cmd != "1234" {
return fmt.Errorf("provisioner %q got:%q", is.ID, cmd)
}
default:
t.Fatal("unknown instance")
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root"},
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "1234"),
"aws_instance.bar": resourceState("aws_instance", "3456"),
},
},
},
}),
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatal(diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatal(diags.Err())
}
if !pr.ProvisionResourceCalled {
t.Fatal("provisioner not called")
}
}
func TestContext2Apply_destroyProvisionerWithOutput(t *testing.T) {
m := testModule(t, "apply-provisioner-destroy-outputs")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
pr := testProvisioner()
pr.ApplyFn = func(is *InstanceState, rc *ResourceConfig) error {
cmd, ok := rc.Get("command")
if !ok || cmd != "3" {
return fmt.Errorf("provisioner for %s got %v:%s", is.ID, ok, cmd)
}
return nil
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Provisioners: map[string]ProvisionerFactory{
"shell": testProvisionerFuncFixed(pr),
},
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root"},
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "1"),
},
Outputs: map[string]*OutputState{
"value": {
Type: "string",
Value: "3",
},
},
},
&ModuleState{
Path: []string{"root", "mod"},
Resources: map[string]*ResourceState{
"aws_instance.baz": resourceState("aws_instance", "3"),
},
// state needs to be properly initialized
Outputs: map[string]*OutputState{},
},
&ModuleState{
Path: []string{"root", "mod2"},
Resources: map[string]*ResourceState{
"aws_instance.bar": resourceState("aws_instance", "2"),
},
},
},
}),
Destroy: true,
// targeting the source of the value used by all resources should still
// destroy them all.
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("mod", addrs.NoKey).Resource(
addrs.ManagedResourceMode, "aws_instance", "baz",
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatal(diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatal(diags.Err())
}
if !pr.ProvisionResourceCalled {
t.Fatal("provisioner not called")
}
// confirm all outputs were removed too
for _, mod := range state.Modules {
if len(mod.OutputValues) > 0 {
t.Fatalf("output left in module state: %#v\n", mod)
}
}
}
func TestContext2Apply_targetedDestroyCountDeps(t *testing.T) {
m := testModule(t, "apply-destroy-targeted-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "i-bcd345"),
"aws_instance.bar": resourceState("aws_instance", "i-abc123"),
},
},
},
}),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `<no state>`)
}
// https://github.com/hashicorp/terraform/issues/4462
func TestContext2Apply_targetedDestroyModule(t *testing.T) {
m := testModule(t, "apply-targeted-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "i-bcd345"),
"aws_instance.bar": resourceState("aws_instance", "i-abc123"),
},
},
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.foo": resourceState("aws_instance", "i-bcd345"),
"aws_instance.bar": resourceState("aws_instance", "i-abc123"),
},
},
},
}),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("child", addrs.NoKey).Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.bar:
ID = i-abc123
provider = provider.aws
aws_instance.foo:
ID = i-bcd345
provider = provider.aws
module.child:
aws_instance.bar:
ID = i-abc123
provider = provider.aws
`)
}
func TestContext2Apply_targetedDestroyCountIndex(t *testing.T) {
m := testModule(t, "apply-targeted-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo.0": resourceState("aws_instance", "i-bcd345"),
"aws_instance.foo.1": resourceState("aws_instance", "i-bcd345"),
"aws_instance.foo.2": resourceState("aws_instance", "i-bcd345"),
"aws_instance.bar.0": resourceState("aws_instance", "i-abc123"),
"aws_instance.bar.1": resourceState("aws_instance", "i-abc123"),
"aws_instance.bar.2": resourceState("aws_instance", "i-abc123"),
},
},
},
}),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.ResourceInstance(
addrs.ManagedResourceMode, "aws_instance", "foo", addrs.IntKey(2),
),
addrs.RootModuleInstance.ResourceInstance(
addrs.ManagedResourceMode, "aws_instance", "bar", addrs.IntKey(1),
),
},
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.bar.0:
ID = i-abc123
provider = provider.aws
aws_instance.bar.2:
ID = i-abc123
provider = provider.aws
aws_instance.foo.0:
ID = i-bcd345
provider = provider.aws
aws_instance.foo.1:
ID = i-bcd345
provider = provider.aws
`)
}
func TestContext2Apply_targetedModule(t *testing.T) {
m := testModule(t, "apply-targeted-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("child", addrs.NoKey),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.Module(addrs.RootModuleInstance.Child("child", addrs.NoKey))
if mod == nil {
t.Fatalf("no child module found in the state!\n\n%#v", state)
}
if len(mod.Resources) != 2 {
t.Fatalf("expected 2 resources, got: %#v", mod.Resources)
}
checkStateString(t, state, `
<no state>
module.child:
aws_instance.bar:
ID = foo
provider = provider.aws
num = 2
type = aws_instance
aws_instance.foo:
ID = foo
provider = provider.aws
num = 2
type = aws_instance
`)
}
// GH-1858
func TestContext2Apply_targetedModuleDep(t *testing.T) {
m := testModule(t, "apply-targeted-module-dep")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf("Diff: %s", legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, `
aws_instance.foo:
ID = foo
provider = provider.aws
foo = foo
type = aws_instance
Dependencies:
module.child
module.child:
aws_instance.mod:
ID = foo
provider = provider.aws
Outputs:
output = foo
`)
}
// GH-10911 untargeted outputs should not be in the graph, and therefore
// not execute.
func TestContext2Apply_targetedModuleUnrelatedOutputs(t *testing.T) {
m := testModule(t, "apply-targeted-module-unrelated-outputs")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("child2", addrs.NoKey),
},
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
{
Path: []string{"root"},
Outputs: map[string]*OutputState{},
Resources: map[string]*ResourceState{},
},
{
Path: []string{"root", "child1"},
Outputs: map[string]*OutputState{
"instance_id": {
Type: "string",
Value: "foo-bar-baz",
},
},
Resources: map[string]*ResourceState{},
},
{
Path: []string{"root", "child2"},
Outputs: map[string]*OutputState{},
Resources: map[string]*ResourceState{},
},
},
}),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// - module.child1's instance_id output is dropped because we don't preserve
// non-root module outputs between runs (they can be recalculated from config)
// - module.child2's instance_id is updated because its dependency is updated
// - child2_id is updated because if its transitive dependency via module.child2
checkStateString(t, state, `
<no state>
Outputs:
child2_id = foo
module.child2:
aws_instance.foo:
ID = foo
provider = provider.aws
Outputs:
instance_id = foo
`)
}
func TestContext2Apply_targetedModuleResource(t *testing.T) {
m := testModule(t, "apply-targeted-module-resource")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("child", addrs.NoKey).Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.Module(addrs.RootModuleInstance.Child("child", addrs.NoKey))
if mod == nil || len(mod.Resources) != 1 {
t.Fatalf("expected 1 resource, got: %#v", mod)
}
checkStateString(t, state, `
<no state>
module.child:
aws_instance.foo:
ID = foo
provider = provider.aws
num = 2
type = aws_instance
`)
}
func TestContext2Apply_targetedResourceOrphanModule(t *testing.T) {
m := testModule(t, "apply-targeted-resource-orphan-module")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
// Create a state with an orphan module
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.bar": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "foo",
),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
if _, diags := ctx.Apply(); diags.HasErrors() {
t.Fatalf("apply errors: %s", diags.Err())
}
}
func TestContext2Apply_unknownAttribute(t *testing.T) {
m := testModule(t, "apply-unknown")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if !diags.HasErrors() {
t.Error("should error, because attribute 'unknown' is still unknown after apply")
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyUnknownAttrStr)
if actual != expected {
t.Fatalf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_unknownAttributeInterpolate(t *testing.T) {
m := testModule(t, "apply-unknown-interpolate")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags == nil {
t.Fatal("should error")
}
}
func TestContext2Apply_vars(t *testing.T) {
fixture := contextFixtureApplyVars(t)
opts := fixture.ContextOpts()
opts.Variables = InputValues{
"foo": &InputValue{
Value: cty.StringVal("us-east-1"),
SourceType: ValueFromCaller,
},
"test_list": &InputValue{
Value: cty.ListVal([]cty.Value{
cty.StringVal("Hello"),
cty.StringVal("World"),
}),
SourceType: ValueFromCaller,
},
"test_map": &InputValue{
Value: cty.MapVal(map[string]cty.Value{
"Hello": cty.StringVal("World"),
"Foo": cty.StringVal("Bar"),
"Baz": cty.StringVal("Foo"),
}),
SourceType: ValueFromCaller,
},
"amis": &InputValue{
Value: cty.MapVal(map[string]cty.Value{
"us-east-1": cty.StringVal("override"),
}),
SourceType: ValueFromCaller,
},
}
ctx := testContext2(t, opts)
diags := ctx.Validate()
if len(diags) != 0 {
t.Fatalf("bad: %s", diags.ErrWithWarnings())
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(testTerraformApplyVarsStr)
if got != want {
t.Errorf("wrong result\n\ngot:\n%s\n\nwant:\n%s", got, want)
}
}
func TestContext2Apply_varsEnv(t *testing.T) {
fixture := contextFixtureApplyVarsEnv(t)
opts := fixture.ContextOpts()
opts.Variables = InputValues{
"string": &InputValue{
Value: cty.StringVal("baz"),
SourceType: ValueFromEnvVar,
},
"list": &InputValue{
Value: cty.ListVal([]cty.Value{
cty.StringVal("Hello"),
cty.StringVal("World"),
}),
SourceType: ValueFromEnvVar,
},
"map": &InputValue{
Value: cty.MapVal(map[string]cty.Value{
"Hello": cty.StringVal("World"),
"Foo": cty.StringVal("Bar"),
"Baz": cty.StringVal("Foo"),
}),
SourceType: ValueFromEnvVar,
},
}
ctx := testContext2(t, opts)
diags := ctx.Validate()
if len(diags) != 0 {
t.Fatalf("bad: %s", diags.ErrWithWarnings())
}
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(testTerraformApplyVarsEnvStr)
if actual != expected {
t.Errorf("wrong result\n\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_createBefore_depends(t *testing.T) {
m := testModule(t, "apply-depends-create-before")
h := new(HookRecordApplyOrder)
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.web": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "ami-old",
},
},
},
"aws_instance.lb": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "baz",
Attributes: map[string]string{
"instance": "bar",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if p, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
} else {
t.Logf("plan:\n%s", legacyDiffComparisonString(p.Changes))
}
h.Active = true
state, diags := ctx.Apply()
if diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("apply failed")
}
mod := state.RootModule()
if len(mod.Resources) < 2 {
t.Logf("state after apply:\n%s", state.String())
t.Fatalf("only %d resources in root module; want at least 2", len(mod.Resources))
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(testTerraformApplyDependsCreateBeforeStr)
if got != want {
t.Fatalf("wrong final state\ngot:\n%s\n\nwant:\n%s", got, want)
}
// Test that things were managed _in the right order_
order := h.States
diffs := h.Diffs
if !order[0].IsNull() || diffs[0].Action == plans.Delete {
t.Fatalf("should create new instance first: %#v", order)
}
if order[1].GetAttr("id").AsString() != "baz" {
t.Fatalf("update must happen after create: %#v", order)
}
if order[2].GetAttr("id").AsString() != "bar" || diffs[2].Action != plans.Delete {
t.Fatalf("destroy must happen after update: %#v", order)
}
}
func TestContext2Apply_singleDestroy(t *testing.T) {
m := testModule(t, "apply-depends-create-before")
h := new(HookRecordApplyOrder)
p := testProvider("aws")
invokeCount := 0
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
invokeCount++
switch invokeCount {
case 1:
if d.Destroy {
t.Fatalf("should not destroy")
}
if s.ID != "" {
t.Fatalf("should not have ID")
}
case 2:
if d.Destroy {
t.Fatalf("should not destroy")
}
if s.ID != "baz" {
t.Fatalf("should have id")
}
case 3:
if !d.Destroy {
t.Fatalf("should destroy")
}
if s.ID == "" {
t.Fatalf("should have ID")
}
default:
t.Fatalf("bad invoke count %d", invokeCount)
}
return testApplyFn(info, s, d)
}
p.DiffFn = testDiffFn
state := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.web": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
Attributes: map[string]string{
"require_new": "ami-old",
},
},
},
"aws_instance.lb": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "baz",
Attributes: map[string]string{
"instance": "bar",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
Hooks: []Hook{h},
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
h.Active = true
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
if invokeCount != 3 {
t.Fatalf("bad: %d", invokeCount)
}
}
// GH-7824
func TestContext2Apply_issue7824(t *testing.T) {
p := testProvider("template")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"template_file": {
Attributes: map[string]*configschema.Attribute{
"template": {Type: cty.String, Optional: true},
"__template_requires_new": {Type: cty.Bool, Optional: true},
},
},
},
}
m, snap := testModuleWithSnapshot(t, "issue-7824")
// Apply cleanly step 0
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"template": testProviderFuncFixed(p),
},
),
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
// Write / Read plan to simulate running it through a Plan file
ctxOpts, err := contextOptsForPlanViaFile(snap, ctx.State(), plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"template": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
_, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
}
// This deals with the situation where a splat expression is used referring
// to another resource whose count is non-constant.
func TestContext2Apply_issue5254(t *testing.T) {
// Create a provider. We use "template" here just to match the repro
// we got from the issue itself.
p := testProvider("template")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"template_file": {
Attributes: map[string]*configschema.Attribute{
"template": {Type: cty.String, Optional: true},
"__template_requires_new": {Type: cty.Bool, Optional: true},
"id": {Type: cty.String, Computed: true},
"type": {Type: cty.String, Computed: true},
},
},
},
}
// Apply cleanly step 0
ctx := testContext2(t, &ContextOpts{
Config: testModule(t, "issue-5254/step-0"),
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"template": testProviderFuncFixed(p),
},
),
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
m, snap := testModuleWithSnapshot(t, "issue-5254/step-1")
// Application success. Now make the modification and store a plan
ctx = testContext2(t, &ContextOpts{
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"template": testProviderFuncFixed(p),
},
),
})
plan, diags = ctx.Plan()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
// Write / Read plan to simulate running it through a Plan file
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"template": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
template_file.child:
ID = foo
provider = provider.template
__template_requires_new = true
template = Hi
type = template_file
Dependencies:
template_file.parent
template_file.parent.0:
ID = foo
provider = provider.template
template = Hi
type = template_file
`)
if actual != expected {
t.Fatalf("wrong final state\ngot:\n%s\n\nwant:\n%s", actual, expected)
}
}
func TestContext2Apply_targetedWithTaintedInState(t *testing.T) {
p := testProvider("aws")
p.DiffFn = testDiffFn
p.ApplyFn = testApplyFn
m, snap := testModuleWithSnapshot(t, "apply-tainted-targets")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Resource(
addrs.ManagedResourceMode, "aws_instance", "iambeingadded",
),
},
State: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.ifailedprovisioners": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "ifailedprovisioners",
Tainted: true,
},
},
},
},
},
}),
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
// Write / Read plan to simulate running it through a Plan file
ctxOpts, err := contextOptsForPlanViaFile(snap, ctx.State(), plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(`
aws_instance.iambeingadded:
ID = foo
provider = provider.aws
aws_instance.ifailedprovisioners: (tainted)
ID = ifailedprovisioners
provider = provider.aws
`)
if actual != expected {
t.Fatalf("expected state: \n%s\ngot: \n%s", expected, actual)
}
}
// Higher level test exposing the bug this covers in
// TestResource_ignoreChangesRequired
func TestContext2Apply_ignoreChangesCreate(t *testing.T) {
m := testModule(t, "apply-ignore-changes-create")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
instanceSchema := p.GetSchemaReturn.ResourceTypes["aws_instance"]
instanceSchema.Attributes["required_field"] = &configschema.Attribute{
Type: cty.String,
Required: true,
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if p, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
mod := state.RootModule()
if len(mod.Resources) != 1 {
t.Fatalf("bad: %s", state)
}
actual := strings.TrimSpace(state.String())
// Expect no changes from original state
expected := strings.TrimSpace(`
aws_instance.foo:
ID = foo
provider = provider.aws
required_field = set
type = aws_instance
`)
if actual != expected {
t.Fatalf("expected:\n%s\ngot:\n%s", expected, actual)
}
}
func TestContext2Apply_ignoreChangesWithDep(t *testing.T) {
m := testModule(t, "apply-ignore-changes-dep")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = func(i *InstanceInfo, s *InstanceState, c *ResourceConfig) (*InstanceDiff, error) {
switch i.Type {
case "aws_instance":
newAmi, _ := c.Get("ami")
return &InstanceDiff{
Attributes: map[string]*ResourceAttrDiff{
"ami": &ResourceAttrDiff{
Old: s.Attributes["ami"],
New: newAmi.(string),
RequiresNew: true,
},
},
}, nil
case "aws_eip":
return testDiffFn(i, s, c)
default:
t.Fatalf("Unexpected type: %s", i.Type)
return nil, nil
}
}
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.foo.0": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "i-abc123",
Attributes: map[string]string{
"ami": "ami-abcd1234",
"id": "i-abc123",
},
},
},
"aws_instance.foo.1": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "i-bcd234",
Attributes: map[string]string{
"ami": "ami-abcd1234",
"id": "i-bcd234",
},
},
},
"aws_eip.foo.0": &ResourceState{
Type: "aws_eip",
Primary: &InstanceState{
ID: "eip-abc123",
Attributes: map[string]string{
"id": "eip-abc123",
"instance": "i-abc123",
},
},
},
"aws_eip.foo.1": &ResourceState{
Type: "aws_eip",
Primary: &InstanceState{
ID: "eip-bcd234",
Attributes: map[string]string{
"id": "eip-bcd234",
"instance": "i-bcd234",
},
},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
})
_, diags := ctx.Plan()
assertNoErrors(t, diags)
state, diags := ctx.Apply()
assertNoErrors(t, diags)
actual := strings.TrimSpace(state.String())
expected := strings.TrimSpace(s.String())
if actual != expected {
t.Fatalf("expected:\n%s\n\ngot:\n%s", expected, actual)
}
}
func TestContext2Apply_ignoreChangesWildcard(t *testing.T) {
m := testModule(t, "apply-ignore-changes-wildcard")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
instanceSchema := p.GetSchemaReturn.ResourceTypes["aws_instance"]
instanceSchema.Attributes["required_field"] = &configschema.Attribute{
Type: cty.String,
Required: true,
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if p, diags := ctx.Plan(); diags.HasErrors() {
logDiagnostics(t, diags)
t.Fatal("plan failed")
} else {
t.Logf(legacyDiffComparisonString(p.Changes))
}
state, diags := ctx.Apply()
assertNoErrors(t, diags)
mod := state.RootModule()
if len(mod.Resources) != 1 {
t.Fatalf("bad: %s", state)
}
actual := strings.TrimSpace(state.String())
// Expect no changes from original state
expected := strings.TrimSpace(`
aws_instance.foo:
ID = foo
provider = provider.aws
required_field = set
type = aws_instance
`)
if actual != expected {
t.Fatalf("expected:\n%s\ngot:\n%s", expected, actual)
}
}
// https://github.com/hashicorp/terraform/issues/7378
func TestContext2Apply_destroyNestedModuleWithAttrsReferencingResource(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "apply-destroy-nested-module-with-attrs")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
var state *states.State
var diags tfdiags.Diagnostics
{
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
// First plan and apply a create operation
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply err: %s", diags.Err())
}
}
{
ctx := testContext2(t, &ContextOpts{
Destroy: true,
Config: m,
State: state,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("destroy plan err: %s", diags.Err())
}
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
)
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("destroy apply err: %s", diags.Err())
}
}
if !state.Empty() {
t.Fatalf("state after apply: %s\nwant empty state", spew.Sdump(state))
}
}
// If a data source explicitly depends on another resource, it's because we need
// that resource to be applied first.
func TestContext2Apply_dataDependsOn(t *testing.T) {
p := testProvider("null")
m := testModule(t, "apply-data-depends-on")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
),
})
// the "provisioner" here writes to this variable, because the intent is to
// create a dependency which can't be viewed through the graph, and depends
// solely on the configuration providing "depends_on"
provisionerOutput := ""
p.ApplyFn = func(info *InstanceInfo, s *InstanceState, d *InstanceDiff) (*InstanceState, error) {
// the side effect of the resource being applied
provisionerOutput = "APPLIED"
return testApplyFn(info, s, d)
}
p.DiffFn = testDiffFn
p.ReadDataSourceFn = func(req providers.ReadDataSourceRequest) providers.ReadDataSourceResponse {
return providers.ReadDataSourceResponse{
State: cty.ObjectVal(map[string]cty.Value{
"id": cty.StringVal("boop"),
"foo": cty.StringVal(provisionerOutput),
}),
}
}
_, diags := ctx.Refresh()
assertNoErrors(t, diags)
_, diags = ctx.Plan()
assertNoErrors(t, diags)
state, diags := ctx.Apply()
assertNoErrors(t, diags)
root := state.Module(addrs.RootModuleInstance)
is := root.ResourceInstance(addrs.Resource{
Mode: addrs.DataResourceMode,
Type: "null_data_source",
Name: "read",
}.Instance(addrs.NoKey))
if is == nil {
t.Fatal("data resource instance is not present in state; should be")
}
var attrs map[string]interface{}
err := json.Unmarshal(is.Current.AttrsJSON, &attrs)
if err != nil {
t.Fatal(err)
}
actual := attrs["foo"]
expected := "APPLIED"
if actual != expected {
t.Fatalf("bad:\n%s", strings.TrimSpace(state.String()))
}
}
func TestContext2Apply_terraformWorkspace(t *testing.T) {
m := testModule(t, "apply-terraform-workspace")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Meta: &ContextMeta{Env: "foo"},
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
actual := state.RootModule().OutputValues["output"]
expected := cty.StringVal("foo")
if actual == nil || actual.Value != expected {
t.Fatalf("wrong value\ngot: %#v\nwant: %#v", actual.Value, expected)
}
}
// verify that multiple config references only create a single depends_on entry
func TestContext2Apply_multiRef(t *testing.T) {
m := testModule(t, "apply-multi-ref")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
deps := state.Modules[""].Resources["aws_instance.other"].Instances[addrs.NoKey].Current.Dependencies
if len(deps) != 1 || deps[0].String() != "aws_instance.create" {
t.Fatalf("expected 1 depends_on entry for aws_instance.create, got %q", deps)
}
}
func TestContext2Apply_targetedModuleRecursive(t *testing.T) {
m := testModule(t, "apply-targeted-module-recursive")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
Targets: []addrs.Targetable{
addrs.RootModuleInstance.Child("child", addrs.NoKey),
},
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
mod := state.Module(
addrs.RootModuleInstance.Child("child", addrs.NoKey).Child("subchild", addrs.NoKey),
)
if mod == nil {
t.Fatalf("no subchild module found in the state!\n\n%#v", state)
}
if len(mod.Resources) != 1 {
t.Fatalf("expected 1 resources, got: %#v", mod.Resources)
}
checkStateString(t, state, `
<no state>
module.child.subchild:
aws_instance.foo:
ID = foo
provider = provider.aws
num = 2
type = aws_instance
`)
}
func TestContext2Apply_localVal(t *testing.T) {
m := testModule(t, "apply-local-val")
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("error during plan: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("error during apply: %s", diags.Err())
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(`
<no state>
Outputs:
result_1 = hello
result_3 = hello world
module.child:
<no state>
Outputs:
result = hello
`)
if got != want {
t.Fatalf("wrong final state\ngot:\n%s\nwant:\n%s", got, want)
}
}
func TestContext2Apply_destroyWithLocals(t *testing.T) {
m := testModule(t, "apply-destroy-with-locals")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = func(info *InstanceInfo, s *InstanceState, c *ResourceConfig) (*InstanceDiff, error) {
d, err := testDiffFn(info, s, c)
return d, err
}
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Outputs: map[string]*OutputState{
"name": &OutputState{
Type: "string",
Value: "test-bar",
},
},
Resources: map[string]*ResourceState{
"aws_instance.foo": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
// FIXME: id should only exist in one place
Attributes: map[string]string{
"id": "foo",
},
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("error during apply: %s", diags.Err())
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace(`<no state>`)
if got != want {
t.Fatalf("wrong final state\ngot:\n%s\nwant:\n%s", got, want)
}
}
func TestContext2Apply_providerWithLocals(t *testing.T) {
m := testModule(t, "provider-with-locals")
p := testProvider("aws")
providerRegion := ""
// this should not be overridden during destroy
p.ConfigureFn = func(c *ResourceConfig) error {
if r, ok := c.Get("region"); ok {
providerRegion = r.(string)
}
return nil
}
p.DiffFn = testDiffFn
p.ApplyFn = testApplyFn
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
ctx = testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Destroy: true,
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
state, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
if state.HasResources() {
t.Fatal("expected no state, got:", state)
}
if providerRegion != "bar" {
t.Fatalf("expected region %q, got: %q", "bar", providerRegion)
}
}
func TestContext2Apply_destroyWithProviders(t *testing.T) {
m := testModule(t, "destroy-module-with-provider")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
},
&ModuleState{
Path: []string{"root", "child"},
},
&ModuleState{
Path: []string{"root", "mod", "removed"},
Resources: map[string]*ResourceState{
"aws_instance.child": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
// this provider doesn't exist
Provider: "provider.aws.baz",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: s,
Destroy: true,
})
// test that we can't destroy if the provider is missing
if _, diags := ctx.Plan(); diags == nil {
t.Fatal("expected plan error, provider.aws.baz doesn't exist")
}
// correct the state
s.Modules["module.mod.module.removed"].Resources["aws_instance.child"].ProviderConfig = addrs.ProviderConfig{
Type: "aws",
Alias: "bar",
}.Absolute(addrs.RootModuleInstance)
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatal(diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("error during apply: %s", diags.Err())
}
got := strings.TrimSpace(state.String())
want := strings.TrimSpace("<no state>")
if got != want {
t.Fatalf("wrong final state\ngot:\n%s\nwant:\n%s", got, want)
}
}
func TestContext2Apply_providersFromState(t *testing.T) {
m := configs.NewEmptyConfig()
p := testProvider("aws")
p.DiffFn = testDiffFn
for _, tc := range []struct {
name string
state *states.State
output string
err bool
}{
{
name: "add implicit provider",
state: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root"},
Resources: map[string]*ResourceState{
"aws_instance.a": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws",
},
},
},
},
}),
err: false,
output: "<no state>",
},
// an aliased provider must be in the config to remove a resource
{
name: "add aliased provider",
state: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root"},
Resources: map[string]*ResourceState{
"aws_instance.a": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "provider.aws.bar",
},
},
},
},
}),
err: true,
},
// a provider in a module implies some sort of config, so this isn't
// allowed even without an alias
{
name: "add unaliased module provider",
state: MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: []string{"root", "child"},
Resources: map[string]*ResourceState{
"aws_instance.a": &ResourceState{
Type: "aws_instance",
Primary: &InstanceState{
ID: "bar",
},
Provider: "module.child.provider.aws",
},
},
},
},
}),
err: true,
},
} {
t.Run(tc.name, func(t *testing.T) {
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: tc.state,
})
_, diags := ctx.Plan()
if tc.err {
if diags == nil {
t.Fatal("expected error")
} else {
return
}
}
if !tc.err && diags.HasErrors() {
t.Fatal(diags.Err())
}
state, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
checkStateString(t, state, "<no state>")
})
}
}
func TestContext2Apply_plannedInterpolatedCount(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "apply-interpolated-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
providerResolver := providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.test": {
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providerResolver,
State: s,
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("plan failed: %s", diags.Err())
}
// We'll marshal and unmarshal the plan here, to ensure that we have
// a clean new context as would be created if we separately ran
// terraform plan -out=tfplan && terraform apply tfplan
ctxOpts, err := contextOptsForPlanViaFile(snap, ctx.State(), plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providerResolver
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
// Applying the plan should now succeed
_, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply failed: %s", diags.Err())
}
}
func TestContext2Apply_plannedDestroyInterpolatedCount(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "plan-destroy-interpolated-count")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
providerResolver := providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.a.0": {
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
Provider: "provider.aws",
},
"aws_instance.a.1": {
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
Provider: "provider.aws",
},
},
Outputs: map[string]*OutputState{
"out": {
Type: "list",
Value: []string{"foo", "foo"},
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providerResolver,
State: s,
Destroy: true,
})
plan, diags := ctx.Plan()
if diags.HasErrors() {
t.Fatalf("plan failed: %s", diags.Err())
}
// We'll marshal and unmarshal the plan here, to ensure that we have
// a clean new context as would be created if we separately ran
// terraform plan -out=tfplan && terraform apply tfplan
ctxOpts, err := contextOptsForPlanViaFile(snap, ctx.State(), plan)
if err != nil {
t.Fatalf("failed to round-trip through planfile: %s", err)
}
ctxOpts.ProviderResolver = providerResolver
ctxOpts.Destroy = true
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("err: %s", diags.Err())
}
// Applying the plan should now succeed
_, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("apply failed: %s", diags.Err())
}
}
func TestContext2Apply_scaleInMultivarRef(t *testing.T) {
m := testModule(t, "apply-resource-scale-in")
p := testProvider("aws")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
providerResolver := providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
)
s := MustShimLegacyState(&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"aws_instance.one": {
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
},
Provider: "provider.aws",
},
"aws_instance.two": {
Type: "aws_instance",
Primary: &InstanceState{
ID: "foo",
Attributes: map[string]string{
"value": "foo",
},
},
Provider: "provider.aws",
},
},
},
},
})
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providerResolver,
State: s,
Variables: InputValues{
"instance_count": {
Value: cty.NumberIntVal(0),
SourceType: ValueFromCaller,
},
},
})
_, diags := ctx.Plan()
assertNoErrors(t, diags)
// Applying the plan should now succeed
_, diags = ctx.Apply()
assertNoErrors(t, diags)
}
func TestContext2Apply_inconsistentWithPlan(t *testing.T) {
m := testModule(t, "apply-inconsistent-with-plan")
p := testProvider("test")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test": {
Attributes: map[string]*configschema.Attribute{
"id": {Type: cty.String, Computed: true},
},
},
},
}
p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) providers.PlanResourceChangeResponse {
return providers.PlanResourceChangeResponse{
PlannedState: cty.ObjectVal(map[string]cty.Value{
"id": cty.StringVal("before"),
}),
}
}
p.ApplyResourceChangeFn = func(req providers.ApplyResourceChangeRequest) providers.ApplyResourceChangeResponse {
return providers.ApplyResourceChangeResponse{
NewState: cty.ObjectVal(map[string]cty.Value{
// This is intentionally incorrect: because id was fixed at "before"
// during plan, it must not change during apply.
"id": cty.StringVal("after"),
}),
}
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
_, diags := ctx.Apply()
if !diags.HasErrors() {
t.Fatalf("apply succeeded; want error")
}
if got, want := diags.Err().Error(), "Provider produced inconsistent result after apply"; !strings.Contains(got, want) {
t.Fatalf("wrong error\ngot: %s\nshould contain: %s", got, want)
}
}
// Issue 19908 was about retaining an existing object in the state when an
// update to it fails and the provider does not return a partially-updated
// value for it. Previously we were incorrectly removing it from the state
// in that case, but instead it should be retained so the update can be
// retried.
func TestContext2Apply_issue19908(t *testing.T) {
m := testModule(t, "apply-issue19908")
p := testProvider("test")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test": {
Attributes: map[string]*configschema.Attribute{
"baz": {Type: cty.String, Required: true},
},
},
},
}
p.PlanResourceChangeFn = func(req providers.PlanResourceChangeRequest) providers.PlanResourceChangeResponse {
return providers.PlanResourceChangeResponse{
PlannedState: req.ProposedNewState,
}
}
p.ApplyResourceChangeFn = func(req providers.ApplyResourceChangeRequest) providers.ApplyResourceChangeResponse {
var diags tfdiags.Diagnostics
diags = diags.Append(fmt.Errorf("update failed"))
return providers.ApplyResourceChangeResponse{
Diagnostics: diags,
}
}
ctx := testContext2(t, &ContextOpts{
Config: m,
State: states.BuildState(func(s *states.SyncState) {
s.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "test",
Name: "foo",
}.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance),
&states.ResourceInstanceObjectSrc{
AttrsJSON: []byte(`{"baz":"old"}`),
Status: states.ObjectReady,
},
addrs.ProviderConfig{
Type: "test",
}.Absolute(addrs.RootModuleInstance),
)
}),
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
if _, diags := ctx.Plan(); diags.HasErrors() {
t.Fatalf("plan errors: %s", diags.Err())
}
state, diags := ctx.Apply()
if !diags.HasErrors() {
t.Fatalf("apply succeeded; want error")
}
if got, want := diags.Err().Error(), "update failed"; !strings.Contains(got, want) {
t.Fatalf("wrong error\ngot: %s\nshould contain: %s", got, want)
}
mod := state.RootModule()
rs := mod.Resources["test.foo"]
if rs == nil {
t.Fatalf("test.foo not in state after apply, but should be")
}
is := rs.Instances[addrs.NoKey]
if is == nil {
t.Fatalf("test.foo not in state after apply, but should be")
}
obj := is.Current
if obj == nil {
t.Fatalf("test.foo has no current object in state after apply, but should do")
}
if got, want := obj.Status, states.ObjectReady; got != want {
t.Errorf("test.foo has wrong status %s after apply; want %s", got, want)
}
if got, want := obj.AttrsJSON, []byte(`"old"`); !bytes.Contains(got, want) {
t.Errorf("test.foo attributes JSON doesn't contain %s after apply\ngot: %s", want, got)
}
}
func TestContext2Apply_invalidIndexRef(t *testing.T) {
p := testProvider("test")
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"test_instance": {
Attributes: map[string]*configschema.Attribute{
"value": {Type: cty.String, Optional: true, Computed: true},
},
},
},
}
p.DiffFn = testDiffFn
m := testModule(t, "apply-invalid-index")
c := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"test": testProviderFuncFixed(p),
},
),
})
diags := c.Validate()
if diags.HasErrors() {
t.Fatalf("unexpected validation failure: %s", diags.Err())
}
wantErr := `The given key does not identify an element in this collection value`
_, diags = c.Plan()
if !diags.HasErrors() {
t.Fatalf("plan succeeded; want error")
}
gotErr := diags.Err().Error()
if !strings.Contains(gotErr, wantErr) {
t.Fatalf("missing expected error\ngot: %s\n\nwant: error containing %q", gotErr, wantErr)
}
}
func TestContext2Apply_moduleReplaceCycle(t *testing.T) {
for _, mode := range []string{"normal", "cbd"} {
var m *configs.Config
switch mode {
case "normal":
m = testModule(t, "apply-module-replace-cycle")
case "cbd":
m = testModule(t, "apply-module-replace-cycle-cbd")
}
p := testProvider("aws")
p.DiffFn = testDiffFn
p.ApplyFn = testApplyFn
instanceSchema := &configschema.Block{
Attributes: map[string]*configschema.Attribute{
"id": {Type: cty.String, Computed: true},
"require_new": {Type: cty.String, Optional: true},
},
}
p.GetSchemaReturn = &ProviderSchema{
ResourceTypes: map[string]*configschema.Block{
"aws_instance": instanceSchema,
},
}
state := states.NewState()
modA := state.EnsureModule(addrs.RootModuleInstance.Child("a", addrs.NoKey))
modA.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "aws_instance",
Name: "a",
}.Instance(addrs.NoKey),
&states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{"id":"a","require_new":"old"}`),
},
addrs.ProviderConfig{
Type: "aws",
}.Absolute(addrs.RootModuleInstance),
)
modB := state.EnsureModule(addrs.RootModuleInstance.Child("b", addrs.NoKey))
modB.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "aws_instance",
Name: "b",
}.Instance(addrs.IntKey(0)),
&states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{"id":"b","require_new":"old"}`),
},
addrs.ProviderConfig{
Type: "aws",
}.Absolute(addrs.RootModuleInstance),
)
aBefore, _ := plans.NewDynamicValue(
cty.ObjectVal(map[string]cty.Value{
"id": cty.StringVal("a"),
"require_new": cty.StringVal("old"),
}), instanceSchema.ImpliedType())
aAfter, _ := plans.NewDynamicValue(
cty.ObjectVal(map[string]cty.Value{
"id": cty.UnknownVal(cty.String),
"require_new": cty.StringVal("new"),
}), instanceSchema.ImpliedType())
bBefore, _ := plans.NewDynamicValue(
cty.ObjectVal(map[string]cty.Value{
"id": cty.StringVal("b"),
"require_new": cty.StringVal("old"),
}), instanceSchema.ImpliedType())
bAfter, _ := plans.NewDynamicValue(
cty.ObjectVal(map[string]cty.Value{
"id": cty.UnknownVal(cty.String),
"require_new": cty.UnknownVal(cty.String),
}), instanceSchema.ImpliedType())
var aAction plans.Action
switch mode {
case "normal":
aAction = plans.DeleteThenCreate
case "cbd":
aAction = plans.CreateThenDelete
}
changes := &plans.Changes{
Resources: []*plans.ResourceInstanceChangeSrc{
{
Addr: addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "aws_instance",
Name: "a",
}.Instance(addrs.NoKey).Absolute(addrs.RootModuleInstance.Child("a", addrs.NoKey)),
ProviderAddr: addrs.ProviderConfig{
Type: "aws",
}.Absolute(addrs.RootModuleInstance),
ChangeSrc: plans.ChangeSrc{
Action: aAction,
Before: aBefore,
After: aAfter,
},
},
{
Addr: addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "aws_instance",
Name: "b",
}.Instance(addrs.IntKey(0)).Absolute(addrs.RootModuleInstance.Child("b", addrs.NoKey)),
ProviderAddr: addrs.ProviderConfig{
Type: "aws",
}.Absolute(addrs.RootModuleInstance),
ChangeSrc: plans.ChangeSrc{
Action: plans.DeleteThenCreate,
Before: bBefore,
After: bAfter,
},
},
},
}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providers.ResolverFixed(
map[string]providers.Factory{
"aws": testProviderFuncFixed(p),
},
),
State: state,
Changes: changes,
})
t.Run(mode, func(t *testing.T) {
_, diags := ctx.Apply()
if diags.HasErrors() {
t.Fatal(diags.Err())
}
})
}
}
func TestContext2Apply_destroyDataCycle(t *testing.T) {
m, snap := testModuleWithSnapshot(t, "apply-destroy-data-cycle")
p := testProvider("null")
p.ApplyFn = testApplyFn
p.DiffFn = testDiffFn
state := states.NewState()
root := state.EnsureModule(addrs.RootModuleInstance)
root.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.ManagedResourceMode,
Type: "null_resource",
Name: "a",
}.Instance(addrs.IntKey(0)),
&states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{"id":"a"}`),
},
addrs.ProviderConfig{
Type: "null",
}.Absolute(addrs.RootModuleInstance),
)
root.SetResourceInstanceCurrent(
addrs.Resource{
Mode: addrs.DataResourceMode,
Type: "null_data_source",
Name: "d",
}.Instance(addrs.NoKey),
&states.ResourceInstanceObjectSrc{
Status: states.ObjectReady,
AttrsJSON: []byte(`{"id":"data"}`),
},
addrs.ProviderConfig{
Type: "null",
}.Absolute(addrs.RootModuleInstance),
)
providerResolver := providers.ResolverFixed(
map[string]providers.Factory{
"null": testProviderFuncFixed(p),
},
)
hook := &testHook{}
ctx := testContext2(t, &ContextOpts{
Config: m,
ProviderResolver: providerResolver,
State: state,
Destroy: true,
Hooks: []Hook{hook},
})
plan, diags := ctx.Plan()
diags.HasErrors()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
// We'll marshal and unmarshal the plan here, to ensure that we have
// a clean new context as would be created if we separately ran
// terraform plan -out=tfplan && terraform apply tfplan
ctxOpts, err := contextOptsForPlanViaFile(snap, state, plan)
if err != nil {
t.Fatal(err)
}
ctxOpts.ProviderResolver = providerResolver
ctx, diags = NewContext(ctxOpts)
if diags.HasErrors() {
t.Fatalf("failed to create context for plan: %s", diags.Err())
}
_, diags = ctx.Apply()
if diags.HasErrors() {
t.Fatalf("diags: %s", diags.Err())
}
}