services/google/iam/service_account_internal.go (1,067 lines of code) (raw):
// Copyright 2025 Google LLC. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package iam
import (
"bytes"
"context"
"encoding/json"
"fmt"
"io/ioutil"
"strings"
"time"
"github.com/GoogleCloudPlatform/declarative-resource-client-library/dcl"
"github.com/GoogleCloudPlatform/declarative-resource-client-library/dcl/operations"
)
func (r *ServiceAccount) validate() error {
if !dcl.IsEmptyValueIndirect(r.ActasResources) {
if err := r.ActasResources.validate(); err != nil {
return err
}
}
return nil
}
func (r *ServiceAccountActasResources) validate() error {
return nil
}
func (r *ServiceAccountActasResourcesResources) validate() error {
return nil
}
func (r *ServiceAccount) basePath() string {
params := map[string]interface{}{}
return dcl.Nprintf("https://iam.googleapis.com/v1/", params)
}
func (r *ServiceAccount) listURL(userBasePath string) (string, error) {
nr := r.urlNormalized()
params := map[string]interface{}{
"project": dcl.ValueOrEmptyString(nr.Project),
}
return dcl.URL("projects/{{project}}/serviceAccounts", nr.basePath(), userBasePath, params), nil
}
// serviceAccountApiOperation represents a mutable operation in the underlying REST
// API such as Create, Update, or Delete.
type serviceAccountApiOperation interface {
do(context.Context, *ServiceAccount, *Client) error
}
// newUpdateServiceAccountPatchServiceAccountRequest creates a request for an
// ServiceAccount resource's PatchServiceAccount update type by filling in the update
// fields based on the intended state of the resource.
func newUpdateServiceAccountPatchServiceAccountRequest(ctx context.Context, f *ServiceAccount, c *Client) (map[string]interface{}, error) {
req := map[string]interface{}{}
res := f
_ = res
if v := f.DisplayName; !dcl.IsEmptyValueIndirect(v) {
req["displayName"] = v
}
if v := f.Description; !dcl.IsEmptyValueIndirect(v) {
req["description"] = v
}
return req, nil
}
// marshalUpdateServiceAccountPatchServiceAccountRequest converts the update into
// the final JSON request body.
func marshalUpdateServiceAccountPatchServiceAccountRequest(c *Client, m map[string]interface{}) ([]byte, error) {
dcl.MoveMapEntry(
m,
[]string{"projectId"},
[]string{},
)
dcl.MoveMapEntry(
m,
[]string{"email"},
[]string{},
)
return json.Marshal(m)
}
type updateServiceAccountPatchServiceAccountOperation struct {
// If the update operation has the REQUIRES_APPLY_OPTIONS trait, this will be populated.
// Usually it will be nil - this is to prevent us from accidentally depending on apply
// options, which should usually be unnecessary.
ApplyOptions []dcl.ApplyOption
FieldDiffs []*dcl.FieldDiff
}
// do creates a request and sends it to the appropriate URL. In most operations,
// do will transcribe a subset of the resource into a request object and send a
// PUT request to a single URL.
func (op *updateServiceAccountPatchServiceAccountOperation) do(ctx context.Context, r *ServiceAccount, c *Client) error {
_, err := c.GetServiceAccount(ctx, r)
if err != nil {
return err
}
u, err := r.updateURL(c.Config.BasePath, "PatchServiceAccount")
if err != nil {
return err
}
req, err := newUpdateServiceAccountPatchServiceAccountRequest(ctx, r, c)
if err != nil {
return err
}
c.Config.Logger.InfoWithContextf(ctx, "Created update: %#v", req)
body, err := marshalUpdateServiceAccountPatchServiceAccountRequest(c, req)
if err != nil {
return err
}
resp, err := dcl.SendRequest(ctx, c.Config, "PATCH", u, bytes.NewBuffer(body), c.Config.RetryProvider)
if err != nil {
return err
}
var o operations.StandardGCPOperation
if err := dcl.ParseResponse(resp.Response, &o); err != nil {
return err
}
err = o.Wait(context.WithValue(ctx, dcl.DoNotLogRequestsKey, true), c.Config, r.basePath(), "GET")
if err != nil {
return err
}
return nil
}
func (c *Client) listServiceAccountRaw(ctx context.Context, r *ServiceAccount, pageToken string, pageSize int32) ([]byte, error) {
u, err := r.urlNormalized().listURL(c.Config.BasePath)
if err != nil {
return nil, err
}
m := make(map[string]string)
if pageToken != "" {
m["pageToken"] = pageToken
}
if pageSize != ServiceAccountMaxPage {
m["pageSize"] = fmt.Sprintf("%v", pageSize)
}
u, err = dcl.AddQueryParams(u, m)
if err != nil {
return nil, err
}
resp, err := dcl.SendRequest(ctx, c.Config, "GET", u, &bytes.Buffer{}, c.Config.RetryProvider)
if err != nil {
return nil, err
}
defer resp.Response.Body.Close()
return ioutil.ReadAll(resp.Response.Body)
}
type listServiceAccountOperation struct {
Accounts []map[string]interface{} `json:"accounts"`
Token string `json:"nextPageToken"`
}
func (c *Client) listServiceAccount(ctx context.Context, r *ServiceAccount, pageToken string, pageSize int32) ([]*ServiceAccount, string, error) {
b, err := c.listServiceAccountRaw(ctx, r, pageToken, pageSize)
if err != nil {
return nil, "", err
}
var m listServiceAccountOperation
if err := json.Unmarshal(b, &m); err != nil {
return nil, "", err
}
var l []*ServiceAccount
for _, v := range m.Accounts {
res, err := unmarshalMapServiceAccount(v, c, r)
if err != nil {
return nil, m.Token, err
}
res.Project = r.Project
l = append(l, res)
}
return l, m.Token, nil
}
func (c *Client) deleteAllServiceAccount(ctx context.Context, f func(*ServiceAccount) bool, resources []*ServiceAccount) error {
var errors []string
for _, res := range resources {
if f(res) {
// We do not want deleteAll to fail on a deletion or else it will stop deleting other resources.
err := c.DeleteServiceAccount(ctx, res)
if err != nil {
errors = append(errors, err.Error())
}
}
}
if len(errors) > 0 {
return fmt.Errorf("%v", strings.Join(errors, "\n"))
} else {
return nil
}
}
type deleteServiceAccountOperation struct{}
func (op *deleteServiceAccountOperation) do(ctx context.Context, r *ServiceAccount, c *Client) error {
r, err := c.GetServiceAccount(ctx, r)
if err != nil {
if dcl.IsNotFound(err) {
c.Config.Logger.InfoWithContextf(ctx, "ServiceAccount not found, returning. Original error: %v", err)
return nil
}
c.Config.Logger.WarningWithContextf(ctx, "GetServiceAccount checking for existence. error: %v", err)
return err
}
u, err := r.deleteURL(c.Config.BasePath)
if err != nil {
return err
}
// Delete should never have a body
body := &bytes.Buffer{}
_, err = dcl.SendRequest(ctx, c.Config, "DELETE", u, body, c.Config.RetryProvider)
if err != nil {
return fmt.Errorf("failed to delete ServiceAccount: %w", err)
}
// We saw a race condition where for some successful delete operation, the Get calls returned resources for a short duration.
// This is the reason we are adding retry to handle that case.
retriesRemaining := 10
dcl.Do(ctx, func(ctx context.Context) (*dcl.RetryDetails, error) {
_, err := c.GetServiceAccount(ctx, r)
if dcl.IsNotFound(err) {
return nil, nil
}
if retriesRemaining > 0 {
retriesRemaining--
return &dcl.RetryDetails{}, dcl.OperationNotDone{}
}
return nil, dcl.NotDeletedError{ExistingResource: r}
}, c.Config.RetryProvider)
return nil
}
// Create operations are similar to Update operations, although they do not have
// specific request objects. The Create request object is the json encoding of
// the resource, which is modified by res.marshal to form the base request body.
type createServiceAccountOperation struct {
response map[string]interface{}
}
func (op *createServiceAccountOperation) FirstResponse() (map[string]interface{}, bool) {
return op.response, len(op.response) > 0
}
func (op *createServiceAccountOperation) do(ctx context.Context, r *ServiceAccount, c *Client) error {
c.Config.Logger.InfoWithContextf(ctx, "Attempting to create %v", r)
u, err := r.createURL(c.Config.BasePath)
if err != nil {
return err
}
req, err := r.marshal(c)
if err != nil {
return err
}
resp, err := dcl.SendRequest(ctx, c.Config, "POST", u, bytes.NewBuffer(req), c.Config.RetryProvider)
if err != nil {
return err
}
o, err := dcl.ResponseBodyAsJSON(resp)
if err != nil {
return fmt.Errorf("error decoding response body into JSON: %w", err)
}
op.response = o
// Poll for the ServiceAccount resource to be created. ServiceAccount resources are eventually consistent but do not support operations
// so we must repeatedly poll to check for their creation.
requiredSuccesses := 1
start := time.Now()
err = dcl.Do(ctx, func(ctx context.Context) (*dcl.RetryDetails, error) {
u, err := r.getURL(c.Config.BasePath)
if err != nil {
return nil, err
}
getResp, err := dcl.SendRequest(ctx, c.Config, "GET", u, &bytes.Buffer{}, nil)
if err != nil {
// If the error is a transient server error (e.g., 500) or not found (i.e., the resource has not yet been created),
// continue retrying until the transient error is resolved, the resource is created, or we time out.
if dcl.IsRetryableRequestError(c.Config, err, true, start) {
return &dcl.RetryDetails{}, dcl.OperationNotDone{Err: err}
}
return nil, err
}
getResp.Response.Body.Close()
requiredSuccesses--
if requiredSuccesses > 0 {
return &dcl.RetryDetails{}, dcl.OperationNotDone{}
}
return getResp, nil
}, c.Config.RetryProvider)
if _, err := c.GetServiceAccount(ctx, r); err != nil {
c.Config.Logger.WarningWithContextf(ctx, "get returned error: %v", err)
return err
}
return nil
}
func (c *Client) getServiceAccountRaw(ctx context.Context, r *ServiceAccount) ([]byte, error) {
u, err := r.getURL(c.Config.BasePath)
if err != nil {
return nil, err
}
resp, err := dcl.SendRequest(ctx, c.Config, "GET", u, &bytes.Buffer{}, c.Config.RetryProvider)
if err != nil {
return nil, err
}
defer resp.Response.Body.Close()
b, err := ioutil.ReadAll(resp.Response.Body)
if err != nil {
return nil, err
}
return b, nil
}
func (c *Client) serviceAccountDiffsForRawDesired(ctx context.Context, rawDesired *ServiceAccount, opts ...dcl.ApplyOption) (initial, desired *ServiceAccount, diffs []*dcl.FieldDiff, err error) {
c.Config.Logger.InfoWithContext(ctx, "Fetching initial state...")
// First, let us see if the user provided a state hint. If they did, we will start fetching based on that.
var fetchState *ServiceAccount
if sh := dcl.FetchStateHint(opts); sh != nil {
if r, ok := sh.(*ServiceAccount); !ok {
c.Config.Logger.WarningWithContextf(ctx, "Initial state hint was of the wrong type; expected ServiceAccount, got %T", sh)
} else {
fetchState = r
}
}
if fetchState == nil {
fetchState = rawDesired
}
// 1.2: Retrieval of raw initial state from API
rawInitial, err := c.GetServiceAccount(ctx, fetchState)
if rawInitial == nil {
if !dcl.IsNotFound(err) {
c.Config.Logger.WarningWithContextf(ctx, "Failed to retrieve whether a ServiceAccount resource already exists: %s", err)
return nil, nil, nil, fmt.Errorf("failed to retrieve ServiceAccount resource: %v", err)
}
c.Config.Logger.InfoWithContext(ctx, "Found that ServiceAccount resource did not exist.")
// Perform canonicalization to pick up defaults.
desired, err = canonicalizeServiceAccountDesiredState(rawDesired, rawInitial)
return nil, desired, nil, err
}
c.Config.Logger.InfoWithContextf(ctx, "Found initial state for ServiceAccount: %v", rawInitial)
c.Config.Logger.InfoWithContextf(ctx, "Initial desired state for ServiceAccount: %v", rawDesired)
// The Get call applies postReadExtract and so the result may contain fields that are not part of API version.
if err := extractServiceAccountFields(rawInitial); err != nil {
return nil, nil, nil, err
}
// 1.3: Canonicalize raw initial state into initial state.
initial, err = canonicalizeServiceAccountInitialState(rawInitial, rawDesired)
if err != nil {
return nil, nil, nil, err
}
c.Config.Logger.InfoWithContextf(ctx, "Canonicalized initial state for ServiceAccount: %v", initial)
// 1.4: Canonicalize raw desired state into desired state.
desired, err = canonicalizeServiceAccountDesiredState(rawDesired, rawInitial, opts...)
if err != nil {
return nil, nil, nil, err
}
c.Config.Logger.InfoWithContextf(ctx, "Canonicalized desired state for ServiceAccount: %v", desired)
// 2.1: Comparison of initial and desired state.
diffs, err = diffServiceAccount(c, desired, initial, opts...)
return initial, desired, diffs, err
}
func canonicalizeServiceAccountInitialState(rawInitial, rawDesired *ServiceAccount) (*ServiceAccount, error) {
// TODO(magic-modules-eng): write canonicalizer once relevant traits are added.
return rawInitial, nil
}
/*
* Canonicalizers
*
* These are responsible for converting either a user-specified config or a
* GCP API response to a standard format that can be used for difference checking.
* */
func canonicalizeServiceAccountDesiredState(rawDesired, rawInitial *ServiceAccount, opts ...dcl.ApplyOption) (*ServiceAccount, error) {
if rawInitial == nil {
// Since the initial state is empty, the desired state is all we have.
// We canonicalize the remaining nested objects with nil to pick up defaults.
rawDesired.ActasResources = canonicalizeServiceAccountActasResources(rawDesired.ActasResources, nil, opts...)
return rawDesired, nil
}
canonicalDesired := &ServiceAccount{}
if canonicalizeServiceAccountName(rawDesired.Name, rawInitial.Name) {
canonicalDesired.Name = rawInitial.Name
} else {
canonicalDesired.Name = rawDesired.Name
}
if dcl.IsZeroValue(rawDesired.Project) || (dcl.IsEmptyValueIndirect(rawDesired.Project) && dcl.IsEmptyValueIndirect(rawInitial.Project)) {
// Desired and initial values are equivalent, so set canonical desired value to initial value.
canonicalDesired.Project = rawInitial.Project
} else {
canonicalDesired.Project = rawDesired.Project
}
if dcl.StringCanonicalize(rawDesired.DisplayName, rawInitial.DisplayName) {
canonicalDesired.DisplayName = rawInitial.DisplayName
} else {
canonicalDesired.DisplayName = rawDesired.DisplayName
}
if dcl.StringCanonicalize(rawDesired.Description, rawInitial.Description) {
canonicalDesired.Description = rawInitial.Description
} else {
canonicalDesired.Description = rawDesired.Description
}
canonicalDesired.ActasResources = canonicalizeServiceAccountActasResources(rawDesired.ActasResources, rawInitial.ActasResources, opts...)
return canonicalDesired, nil
}
func canonicalizeServiceAccountNewState(c *Client, rawNew, rawDesired *ServiceAccount) (*ServiceAccount, error) {
if dcl.IsEmptyValueIndirect(rawNew.Name) && dcl.IsEmptyValueIndirect(rawDesired.Name) {
rawNew.Name = rawDesired.Name
} else {
if canonicalizeServiceAccountName(rawDesired.Name, rawNew.Name) {
rawNew.Name = rawDesired.Name
}
}
if dcl.IsEmptyValueIndirect(rawNew.Project) && dcl.IsEmptyValueIndirect(rawDesired.Project) {
rawNew.Project = rawDesired.Project
} else {
}
if dcl.IsEmptyValueIndirect(rawNew.UniqueId) && dcl.IsEmptyValueIndirect(rawDesired.UniqueId) {
rawNew.UniqueId = rawDesired.UniqueId
} else {
if dcl.StringCanonicalize(rawDesired.UniqueId, rawNew.UniqueId) {
rawNew.UniqueId = rawDesired.UniqueId
}
}
if dcl.IsEmptyValueIndirect(rawNew.Email) && dcl.IsEmptyValueIndirect(rawDesired.Email) {
rawNew.Email = rawDesired.Email
} else {
if dcl.StringCanonicalize(rawDesired.Email, rawNew.Email) {
rawNew.Email = rawDesired.Email
}
}
if dcl.IsEmptyValueIndirect(rawNew.DisplayName) && dcl.IsEmptyValueIndirect(rawDesired.DisplayName) {
rawNew.DisplayName = rawDesired.DisplayName
} else {
if dcl.StringCanonicalize(rawDesired.DisplayName, rawNew.DisplayName) {
rawNew.DisplayName = rawDesired.DisplayName
}
}
if dcl.IsEmptyValueIndirect(rawNew.Description) && dcl.IsEmptyValueIndirect(rawDesired.Description) {
rawNew.Description = rawDesired.Description
} else {
if dcl.StringCanonicalize(rawDesired.Description, rawNew.Description) {
rawNew.Description = rawDesired.Description
}
}
if dcl.IsEmptyValueIndirect(rawNew.OAuth2ClientId) && dcl.IsEmptyValueIndirect(rawDesired.OAuth2ClientId) {
rawNew.OAuth2ClientId = rawDesired.OAuth2ClientId
} else {
if dcl.StringCanonicalize(rawDesired.OAuth2ClientId, rawNew.OAuth2ClientId) {
rawNew.OAuth2ClientId = rawDesired.OAuth2ClientId
}
}
if dcl.IsEmptyValueIndirect(rawNew.ActasResources) && dcl.IsEmptyValueIndirect(rawDesired.ActasResources) {
rawNew.ActasResources = rawDesired.ActasResources
} else {
rawNew.ActasResources = canonicalizeNewServiceAccountActasResources(c, rawDesired.ActasResources, rawNew.ActasResources)
}
if dcl.IsEmptyValueIndirect(rawNew.Disabled) && dcl.IsEmptyValueIndirect(rawDesired.Disabled) {
rawNew.Disabled = rawDesired.Disabled
} else {
if dcl.BoolCanonicalize(rawDesired.Disabled, rawNew.Disabled) {
rawNew.Disabled = rawDesired.Disabled
}
}
return rawNew, nil
}
func canonicalizeServiceAccountActasResources(des, initial *ServiceAccountActasResources, opts ...dcl.ApplyOption) *ServiceAccountActasResources {
if des == nil {
return initial
}
if des.empty {
return des
}
if initial == nil {
return des
}
cDes := &ServiceAccountActasResources{}
cDes.Resources = canonicalizeServiceAccountActasResourcesResourcesSlice(des.Resources, initial.Resources, opts...)
return cDes
}
func canonicalizeServiceAccountActasResourcesSlice(des, initial []ServiceAccountActasResources, opts ...dcl.ApplyOption) []ServiceAccountActasResources {
if dcl.IsEmptyValueIndirect(des) {
return initial
}
if len(des) != len(initial) {
items := make([]ServiceAccountActasResources, 0, len(des))
for _, d := range des {
cd := canonicalizeServiceAccountActasResources(&d, nil, opts...)
if cd != nil {
items = append(items, *cd)
}
}
return items
}
items := make([]ServiceAccountActasResources, 0, len(des))
for i, d := range des {
cd := canonicalizeServiceAccountActasResources(&d, &initial[i], opts...)
if cd != nil {
items = append(items, *cd)
}
}
return items
}
func canonicalizeNewServiceAccountActasResources(c *Client, des, nw *ServiceAccountActasResources) *ServiceAccountActasResources {
if des == nil {
return nw
}
if nw == nil {
if dcl.IsEmptyValueIndirect(des) {
c.Config.Logger.Info("Found explicitly empty value for ServiceAccountActasResources while comparing non-nil desired to nil actual. Returning desired object.")
return des
}
return nil
}
nw.Resources = canonicalizeNewServiceAccountActasResourcesResourcesSlice(c, des.Resources, nw.Resources)
return nw
}
func canonicalizeNewServiceAccountActasResourcesSet(c *Client, des, nw []ServiceAccountActasResources) []ServiceAccountActasResources {
if des == nil {
return nw
}
// Find the elements in des that are also in nw and canonicalize them. Remove matched elements from nw.
var items []ServiceAccountActasResources
for _, d := range des {
matchedIndex := -1
for i, n := range nw {
if diffs, _ := compareServiceAccountActasResourcesNewStyle(&d, &n, dcl.FieldName{}); len(diffs) == 0 {
matchedIndex = i
break
}
}
if matchedIndex != -1 {
items = append(items, *canonicalizeNewServiceAccountActasResources(c, &d, &nw[matchedIndex]))
nw = append(nw[:matchedIndex], nw[matchedIndex+1:]...)
}
}
// Also include elements in nw that are not matched in des.
items = append(items, nw...)
return items
}
func canonicalizeNewServiceAccountActasResourcesSlice(c *Client, des, nw []ServiceAccountActasResources) []ServiceAccountActasResources {
if des == nil {
return nw
}
// Lengths are unequal. A diff will occur later, so we shouldn't canonicalize.
// Return the original array.
if len(des) != len(nw) {
return nw
}
var items []ServiceAccountActasResources
for i, d := range des {
n := nw[i]
items = append(items, *canonicalizeNewServiceAccountActasResources(c, &d, &n))
}
return items
}
func canonicalizeServiceAccountActasResourcesResources(des, initial *ServiceAccountActasResourcesResources, opts ...dcl.ApplyOption) *ServiceAccountActasResourcesResources {
if des == nil {
return initial
}
if des.empty {
return des
}
if initial == nil {
return des
}
cDes := &ServiceAccountActasResourcesResources{}
if dcl.StringCanonicalize(des.FullResourceName, initial.FullResourceName) || dcl.IsZeroValue(des.FullResourceName) {
cDes.FullResourceName = initial.FullResourceName
} else {
cDes.FullResourceName = des.FullResourceName
}
return cDes
}
func canonicalizeServiceAccountActasResourcesResourcesSlice(des, initial []ServiceAccountActasResourcesResources, opts ...dcl.ApplyOption) []ServiceAccountActasResourcesResources {
if des == nil {
return initial
}
if len(des) != len(initial) {
items := make([]ServiceAccountActasResourcesResources, 0, len(des))
for _, d := range des {
cd := canonicalizeServiceAccountActasResourcesResources(&d, nil, opts...)
if cd != nil {
items = append(items, *cd)
}
}
return items
}
items := make([]ServiceAccountActasResourcesResources, 0, len(des))
for i, d := range des {
cd := canonicalizeServiceAccountActasResourcesResources(&d, &initial[i], opts...)
if cd != nil {
items = append(items, *cd)
}
}
return items
}
func canonicalizeNewServiceAccountActasResourcesResources(c *Client, des, nw *ServiceAccountActasResourcesResources) *ServiceAccountActasResourcesResources {
if des == nil {
return nw
}
if nw == nil {
if dcl.IsEmptyValueIndirect(des) {
c.Config.Logger.Info("Found explicitly empty value for ServiceAccountActasResourcesResources while comparing non-nil desired to nil actual. Returning desired object.")
return des
}
return nil
}
if dcl.StringCanonicalize(des.FullResourceName, nw.FullResourceName) {
nw.FullResourceName = des.FullResourceName
}
return nw
}
func canonicalizeNewServiceAccountActasResourcesResourcesSet(c *Client, des, nw []ServiceAccountActasResourcesResources) []ServiceAccountActasResourcesResources {
if des == nil {
return nw
}
// Find the elements in des that are also in nw and canonicalize them. Remove matched elements from nw.
var items []ServiceAccountActasResourcesResources
for _, d := range des {
matchedIndex := -1
for i, n := range nw {
if diffs, _ := compareServiceAccountActasResourcesResourcesNewStyle(&d, &n, dcl.FieldName{}); len(diffs) == 0 {
matchedIndex = i
break
}
}
if matchedIndex != -1 {
items = append(items, *canonicalizeNewServiceAccountActasResourcesResources(c, &d, &nw[matchedIndex]))
nw = append(nw[:matchedIndex], nw[matchedIndex+1:]...)
}
}
// Also include elements in nw that are not matched in des.
items = append(items, nw...)
return items
}
func canonicalizeNewServiceAccountActasResourcesResourcesSlice(c *Client, des, nw []ServiceAccountActasResourcesResources) []ServiceAccountActasResourcesResources {
if des == nil {
return nw
}
// Lengths are unequal. A diff will occur later, so we shouldn't canonicalize.
// Return the original array.
if len(des) != len(nw) {
return nw
}
var items []ServiceAccountActasResourcesResources
for i, d := range des {
n := nw[i]
items = append(items, *canonicalizeNewServiceAccountActasResourcesResources(c, &d, &n))
}
return items
}
// The differ returns a list of diffs, along with a list of operations that should be taken
// to remedy them. Right now, it does not attempt to consolidate operations - if several
// fields can be fixed with a patch update, it will perform the patch several times.
// Diffs on some fields will be ignored if the `desired` state has an empty (nil)
// value. This empty value indicates that the user does not care about the state for
// the field. Empty fields on the actual object will cause diffs.
// TODO(magic-modules-eng): for efficiency in some resources, add batching.
func diffServiceAccount(c *Client, desired, actual *ServiceAccount, opts ...dcl.ApplyOption) ([]*dcl.FieldDiff, error) {
if desired == nil || actual == nil {
return nil, fmt.Errorf("nil resource passed to diff - always a programming error: %#v, %#v", desired, actual)
}
c.Config.Logger.Infof("Diff function called with desired state: %v", desired)
c.Config.Logger.Infof("Diff function called with actual state: %v", actual)
var fn dcl.FieldName
var newDiffs []*dcl.FieldDiff
// New style diffs.
if ds, err := dcl.Diff(desired.Name, actual.Name, dcl.DiffInfo{CustomDiff: canonicalizeServiceAccountName, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("Name")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.Project, actual.Project, dcl.DiffInfo{Type: "ReferenceType", OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("ProjectId")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.UniqueId, actual.UniqueId, dcl.DiffInfo{OutputOnly: true, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("UniqueId")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.Email, actual.Email, dcl.DiffInfo{OutputOnly: true, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("Email")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.DisplayName, actual.DisplayName, dcl.DiffInfo{OperationSelector: dcl.TriggersOperation("updateServiceAccountPatchServiceAccountOperation")}, fn.AddNest("DisplayName")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.Description, actual.Description, dcl.DiffInfo{OperationSelector: dcl.TriggersOperation("updateServiceAccountPatchServiceAccountOperation")}, fn.AddNest("Description")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.OAuth2ClientId, actual.OAuth2ClientId, dcl.DiffInfo{OutputOnly: true, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("Oauth2ClientId")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.ActasResources, actual.ActasResources, dcl.DiffInfo{ObjectFunction: compareServiceAccountActasResourcesNewStyle, EmptyObject: EmptyServiceAccountActasResources, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("ActasResources")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if ds, err := dcl.Diff(desired.Disabled, actual.Disabled, dcl.DiffInfo{OutputOnly: true, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("Disabled")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
newDiffs = append(newDiffs, ds...)
}
if len(newDiffs) > 0 {
c.Config.Logger.Infof("Diff function found diffs: %v", newDiffs)
}
return newDiffs, nil
}
func compareServiceAccountActasResourcesNewStyle(d, a interface{}, fn dcl.FieldName) ([]*dcl.FieldDiff, error) {
var diffs []*dcl.FieldDiff
desired, ok := d.(*ServiceAccountActasResources)
if !ok {
desiredNotPointer, ok := d.(ServiceAccountActasResources)
if !ok {
return nil, fmt.Errorf("obj %v is not a ServiceAccountActasResources or *ServiceAccountActasResources", d)
}
desired = &desiredNotPointer
}
actual, ok := a.(*ServiceAccountActasResources)
if !ok {
actualNotPointer, ok := a.(ServiceAccountActasResources)
if !ok {
return nil, fmt.Errorf("obj %v is not a ServiceAccountActasResources", a)
}
actual = &actualNotPointer
}
if ds, err := dcl.Diff(desired.Resources, actual.Resources, dcl.DiffInfo{ObjectFunction: compareServiceAccountActasResourcesResourcesNewStyle, EmptyObject: EmptyServiceAccountActasResourcesResources, OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("Resources")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
diffs = append(diffs, ds...)
}
return diffs, nil
}
func compareServiceAccountActasResourcesResourcesNewStyle(d, a interface{}, fn dcl.FieldName) ([]*dcl.FieldDiff, error) {
var diffs []*dcl.FieldDiff
desired, ok := d.(*ServiceAccountActasResourcesResources)
if !ok {
desiredNotPointer, ok := d.(ServiceAccountActasResourcesResources)
if !ok {
return nil, fmt.Errorf("obj %v is not a ServiceAccountActasResourcesResources or *ServiceAccountActasResourcesResources", d)
}
desired = &desiredNotPointer
}
actual, ok := a.(*ServiceAccountActasResourcesResources)
if !ok {
actualNotPointer, ok := a.(ServiceAccountActasResourcesResources)
if !ok {
return nil, fmt.Errorf("obj %v is not a ServiceAccountActasResourcesResources", a)
}
actual = &actualNotPointer
}
if ds, err := dcl.Diff(desired.FullResourceName, actual.FullResourceName, dcl.DiffInfo{OperationSelector: dcl.RequiresRecreate()}, fn.AddNest("FullResourceName")); len(ds) != 0 || err != nil {
if err != nil {
return nil, err
}
diffs = append(diffs, ds...)
}
return diffs, nil
}
// urlNormalized returns a copy of the resource struct with values normalized
// for URL substitutions. For instance, it converts long-form self-links to
// short-form so they can be substituted in.
func (r *ServiceAccount) urlNormalized() *ServiceAccount {
normalized := dcl.Copy(*r).(ServiceAccount)
normalized.Name = dcl.SelfLinkToName(r.Name)
normalized.Project = dcl.SelfLinkToName(r.Project)
normalized.UniqueId = dcl.SelfLinkToName(r.UniqueId)
normalized.Email = dcl.SelfLinkToName(r.Email)
normalized.DisplayName = dcl.SelfLinkToName(r.DisplayName)
normalized.Description = dcl.SelfLinkToName(r.Description)
normalized.OAuth2ClientId = dcl.SelfLinkToName(r.OAuth2ClientId)
return &normalized
}
func (r *ServiceAccount) updateURL(userBasePath, updateName string) (string, error) {
nr := r.urlNormalized()
if updateName == "PatchServiceAccount" {
fields := map[string]interface{}{
"project": dcl.ValueOrEmptyString(nr.Project),
"name": dcl.ValueOrEmptyString(nr.Name),
}
return dcl.URL("projects/{{project}}/serviceAccounts/{{name}}@{{project}}.iam.gserviceaccount.com", nr.basePath(), userBasePath, fields), nil
}
return "", fmt.Errorf("unknown update name: %s", updateName)
}
// marshal encodes the ServiceAccount resource into JSON for a Create request, and
// performs transformations from the resource schema to the API schema if
// necessary.
func (r *ServiceAccount) marshal(c *Client) ([]byte, error) {
m, err := expandServiceAccount(c, r)
if err != nil {
return nil, fmt.Errorf("error marshalling ServiceAccount: %w", err)
}
dcl.MoveMapEntry(
m,
[]string{"projectId"},
[]string{},
)
dcl.MoveMapEntry(
m,
[]string{"email"},
[]string{},
)
m = EncodeServiceAccountCreateRequest(m)
return json.Marshal(m)
}
// unmarshalServiceAccount decodes JSON responses into the ServiceAccount resource schema.
func unmarshalServiceAccount(b []byte, c *Client, res *ServiceAccount) (*ServiceAccount, error) {
var m map[string]interface{}
if err := json.Unmarshal(b, &m); err != nil {
return nil, err
}
return unmarshalMapServiceAccount(m, c, res)
}
func unmarshalMapServiceAccount(m map[string]interface{}, c *Client, res *ServiceAccount) (*ServiceAccount, error) {
flattened := flattenServiceAccount(c, m, res)
if flattened == nil {
return nil, fmt.Errorf("attempted to flatten empty json object")
}
return flattened, nil
}
// expandServiceAccount expands ServiceAccount into a JSON request object.
func expandServiceAccount(c *Client, f *ServiceAccount) (map[string]interface{}, error) {
m := make(map[string]interface{})
res := f
_ = res
if v, err := dcl.DeriveField("projects/%s/serviceAccounts/%s@%s.iam.gserviceaccounts.com", f.Name, dcl.SelfLinkToName(f.Project), dcl.SelfLinkToName(f.Name)); err != nil {
return nil, fmt.Errorf("error expanding Name into name: %w", err)
} else if !dcl.IsEmptyValueIndirect(v) {
m["name"] = v
}
if v := f.Project; dcl.ValueShouldBeSent(v) {
m["projectId"] = v
}
if v := f.DisplayName; dcl.ValueShouldBeSent(v) {
m["displayName"] = v
}
if v := f.Description; dcl.ValueShouldBeSent(v) {
m["description"] = v
}
if v, err := expandServiceAccountActasResources(c, f.ActasResources, res); err != nil {
return nil, fmt.Errorf("error expanding ActasResources into actasResources: %w", err)
} else if !dcl.IsEmptyValueIndirect(v) {
m["actasResources"] = v
}
return m, nil
}
// flattenServiceAccount flattens ServiceAccount from a JSON request object into the
// ServiceAccount type.
func flattenServiceAccount(c *Client, i interface{}, res *ServiceAccount) *ServiceAccount {
m, ok := i.(map[string]interface{})
if !ok {
return nil
}
if len(m) == 0 {
return nil
}
resultRes := &ServiceAccount{}
resultRes.Name = dcl.FlattenString(m["name"])
resultRes.Project = dcl.FlattenString(m["projectId"])
resultRes.UniqueId = dcl.FlattenString(m["uniqueId"])
resultRes.Email = dcl.FlattenString(m["email"])
resultRes.DisplayName = dcl.FlattenString(m["displayName"])
resultRes.Description = dcl.FlattenString(m["description"])
resultRes.OAuth2ClientId = dcl.FlattenString(m["oauth2ClientId"])
resultRes.ActasResources = flattenServiceAccountActasResources(c, m["actasResources"], res)
resultRes.Disabled = dcl.FlattenBool(m["disabled"])
return resultRes
}
// expandServiceAccountActasResourcesMap expands the contents of ServiceAccountActasResources into a JSON
// request object.
func expandServiceAccountActasResourcesMap(c *Client, f map[string]ServiceAccountActasResources, res *ServiceAccount) (map[string]interface{}, error) {
if f == nil {
return nil, nil
}
items := make(map[string]interface{})
for k, item := range f {
i, err := expandServiceAccountActasResources(c, &item, res)
if err != nil {
return nil, err
}
if i != nil {
items[k] = i
}
}
return items, nil
}
// expandServiceAccountActasResourcesSlice expands the contents of ServiceAccountActasResources into a JSON
// request object.
func expandServiceAccountActasResourcesSlice(c *Client, f []ServiceAccountActasResources, res *ServiceAccount) ([]map[string]interface{}, error) {
if f == nil {
return nil, nil
}
items := []map[string]interface{}{}
for _, item := range f {
i, err := expandServiceAccountActasResources(c, &item, res)
if err != nil {
return nil, err
}
items = append(items, i)
}
return items, nil
}
// flattenServiceAccountActasResourcesMap flattens the contents of ServiceAccountActasResources from a JSON
// response object.
func flattenServiceAccountActasResourcesMap(c *Client, i interface{}, res *ServiceAccount) map[string]ServiceAccountActasResources {
a, ok := i.(map[string]interface{})
if !ok {
return map[string]ServiceAccountActasResources{}
}
if len(a) == 0 {
return map[string]ServiceAccountActasResources{}
}
items := make(map[string]ServiceAccountActasResources)
for k, item := range a {
items[k] = *flattenServiceAccountActasResources(c, item.(map[string]interface{}), res)
}
return items
}
// flattenServiceAccountActasResourcesSlice flattens the contents of ServiceAccountActasResources from a JSON
// response object.
func flattenServiceAccountActasResourcesSlice(c *Client, i interface{}, res *ServiceAccount) []ServiceAccountActasResources {
a, ok := i.([]interface{})
if !ok {
return []ServiceAccountActasResources{}
}
if len(a) == 0 {
return []ServiceAccountActasResources{}
}
items := make([]ServiceAccountActasResources, 0, len(a))
for _, item := range a {
items = append(items, *flattenServiceAccountActasResources(c, item.(map[string]interface{}), res))
}
return items
}
// expandServiceAccountActasResources expands an instance of ServiceAccountActasResources into a JSON
// request object.
func expandServiceAccountActasResources(c *Client, f *ServiceAccountActasResources, res *ServiceAccount) (map[string]interface{}, error) {
if dcl.IsEmptyValueIndirect(f) {
return nil, nil
}
m := make(map[string]interface{})
if v, err := expandServiceAccountActasResourcesResourcesSlice(c, f.Resources, res); err != nil {
return nil, fmt.Errorf("error expanding Resources into resources: %w", err)
} else if v != nil {
m["resources"] = v
}
return m, nil
}
// flattenServiceAccountActasResources flattens an instance of ServiceAccountActasResources from a JSON
// response object.
func flattenServiceAccountActasResources(c *Client, i interface{}, res *ServiceAccount) *ServiceAccountActasResources {
m, ok := i.(map[string]interface{})
if !ok {
return nil
}
r := &ServiceAccountActasResources{}
if dcl.IsEmptyValueIndirect(i) {
return EmptyServiceAccountActasResources
}
r.Resources = flattenServiceAccountActasResourcesResourcesSlice(c, m["resources"], res)
return r
}
// expandServiceAccountActasResourcesResourcesMap expands the contents of ServiceAccountActasResourcesResources into a JSON
// request object.
func expandServiceAccountActasResourcesResourcesMap(c *Client, f map[string]ServiceAccountActasResourcesResources, res *ServiceAccount) (map[string]interface{}, error) {
if f == nil {
return nil, nil
}
items := make(map[string]interface{})
for k, item := range f {
i, err := expandServiceAccountActasResourcesResources(c, &item, res)
if err != nil {
return nil, err
}
if i != nil {
items[k] = i
}
}
return items, nil
}
// expandServiceAccountActasResourcesResourcesSlice expands the contents of ServiceAccountActasResourcesResources into a JSON
// request object.
func expandServiceAccountActasResourcesResourcesSlice(c *Client, f []ServiceAccountActasResourcesResources, res *ServiceAccount) ([]map[string]interface{}, error) {
if f == nil {
return nil, nil
}
items := []map[string]interface{}{}
for _, item := range f {
i, err := expandServiceAccountActasResourcesResources(c, &item, res)
if err != nil {
return nil, err
}
items = append(items, i)
}
return items, nil
}
// flattenServiceAccountActasResourcesResourcesMap flattens the contents of ServiceAccountActasResourcesResources from a JSON
// response object.
func flattenServiceAccountActasResourcesResourcesMap(c *Client, i interface{}, res *ServiceAccount) map[string]ServiceAccountActasResourcesResources {
a, ok := i.(map[string]interface{})
if !ok {
return map[string]ServiceAccountActasResourcesResources{}
}
if len(a) == 0 {
return map[string]ServiceAccountActasResourcesResources{}
}
items := make(map[string]ServiceAccountActasResourcesResources)
for k, item := range a {
items[k] = *flattenServiceAccountActasResourcesResources(c, item.(map[string]interface{}), res)
}
return items
}
// flattenServiceAccountActasResourcesResourcesSlice flattens the contents of ServiceAccountActasResourcesResources from a JSON
// response object.
func flattenServiceAccountActasResourcesResourcesSlice(c *Client, i interface{}, res *ServiceAccount) []ServiceAccountActasResourcesResources {
a, ok := i.([]interface{})
if !ok {
return []ServiceAccountActasResourcesResources{}
}
if len(a) == 0 {
return []ServiceAccountActasResourcesResources{}
}
items := make([]ServiceAccountActasResourcesResources, 0, len(a))
for _, item := range a {
items = append(items, *flattenServiceAccountActasResourcesResources(c, item.(map[string]interface{}), res))
}
return items
}
// expandServiceAccountActasResourcesResources expands an instance of ServiceAccountActasResourcesResources into a JSON
// request object.
func expandServiceAccountActasResourcesResources(c *Client, f *ServiceAccountActasResourcesResources, res *ServiceAccount) (map[string]interface{}, error) {
if f == nil {
return nil, nil
}
m := make(map[string]interface{})
if v := f.FullResourceName; !dcl.IsEmptyValueIndirect(v) {
m["fullResourceName"] = v
}
return m, nil
}
// flattenServiceAccountActasResourcesResources flattens an instance of ServiceAccountActasResourcesResources from a JSON
// response object.
func flattenServiceAccountActasResourcesResources(c *Client, i interface{}, res *ServiceAccount) *ServiceAccountActasResourcesResources {
m, ok := i.(map[string]interface{})
if !ok {
return nil
}
r := &ServiceAccountActasResourcesResources{}
if dcl.IsEmptyValueIndirect(i) {
return EmptyServiceAccountActasResourcesResources
}
r.FullResourceName = dcl.FlattenString(m["fullResourceName"])
return r
}
// This function returns a matcher that checks whether a serialized resource matches this resource
// in its parameters (as defined by the fields in a Get, which definitionally define resource
// identity). This is useful in extracting the element from a List call.
func (r *ServiceAccount) matcher(c *Client) func([]byte) bool {
return func(b []byte) bool {
cr, err := unmarshalServiceAccount(b, c, r)
if err != nil {
c.Config.Logger.Warning("failed to unmarshal provided resource in matcher.")
return false
}
nr := r.urlNormalized()
ncr := cr.urlNormalized()
c.Config.Logger.Infof("looking for %v\nin %v", nr, ncr)
if nr.Project == nil && ncr.Project == nil {
c.Config.Logger.Info("Both Project fields null - considering equal.")
} else if nr.Project == nil || ncr.Project == nil {
c.Config.Logger.Info("Only one Project field is null - considering unequal.")
return false
} else if *nr.Project != *ncr.Project {
return false
}
if nr.Name == nil && ncr.Name == nil {
c.Config.Logger.Info("Both Name fields null - considering equal.")
} else if nr.Name == nil || ncr.Name == nil {
c.Config.Logger.Info("Only one Name field is null - considering unequal.")
return false
} else if *nr.Name != *ncr.Name {
return false
}
return true
}
}
type serviceAccountDiff struct {
// The diff should include one or the other of RequiresRecreate or UpdateOp.
RequiresRecreate bool
UpdateOp serviceAccountApiOperation
FieldName string // used for error logging
}
func convertFieldDiffsToServiceAccountDiffs(config *dcl.Config, fds []*dcl.FieldDiff, opts []dcl.ApplyOption) ([]serviceAccountDiff, error) {
opNamesToFieldDiffs := make(map[string][]*dcl.FieldDiff)
// Map each operation name to the field diffs associated with it.
for _, fd := range fds {
for _, ro := range fd.ResultingOperation {
if fieldDiffs, ok := opNamesToFieldDiffs[ro]; ok {
fieldDiffs = append(fieldDiffs, fd)
opNamesToFieldDiffs[ro] = fieldDiffs
} else {
config.Logger.Infof("%s required due to diff: %v", ro, fd)
opNamesToFieldDiffs[ro] = []*dcl.FieldDiff{fd}
}
}
}
var diffs []serviceAccountDiff
// For each operation name, create a serviceAccountDiff which contains the operation.
for opName, fieldDiffs := range opNamesToFieldDiffs {
// Use the first field diff's field name for logging required recreate error.
diff := serviceAccountDiff{FieldName: fieldDiffs[0].FieldName}
if opName == "Recreate" {
diff.RequiresRecreate = true
} else {
apiOp, err := convertOpNameToServiceAccountApiOperation(opName, fieldDiffs, opts...)
if err != nil {
return diffs, err
}
diff.UpdateOp = apiOp
}
diffs = append(diffs, diff)
}
return diffs, nil
}
func convertOpNameToServiceAccountApiOperation(opName string, fieldDiffs []*dcl.FieldDiff, opts ...dcl.ApplyOption) (serviceAccountApiOperation, error) {
switch opName {
case "updateServiceAccountPatchServiceAccountOperation":
return &updateServiceAccountPatchServiceAccountOperation{FieldDiffs: fieldDiffs}, nil
default:
return nil, fmt.Errorf("no such operation with name: %v", opName)
}
}
func extractServiceAccountFields(r *ServiceAccount) error {
vActasResources := r.ActasResources
if vActasResources == nil {
// note: explicitly not the empty object.
vActasResources = &ServiceAccountActasResources{}
}
if err := extractServiceAccountActasResourcesFields(r, vActasResources); err != nil {
return err
}
if !dcl.IsEmptyValueIndirect(vActasResources) {
r.ActasResources = vActasResources
}
return nil
}
func extractServiceAccountActasResourcesFields(r *ServiceAccount, o *ServiceAccountActasResources) error {
return nil
}
func extractServiceAccountActasResourcesResourcesFields(r *ServiceAccount, o *ServiceAccountActasResourcesResources) error {
return nil
}
func postReadExtractServiceAccountFields(r *ServiceAccount) error {
vActasResources := r.ActasResources
if vActasResources == nil {
// note: explicitly not the empty object.
vActasResources = &ServiceAccountActasResources{}
}
if err := postReadExtractServiceAccountActasResourcesFields(r, vActasResources); err != nil {
return err
}
if !dcl.IsEmptyValueIndirect(vActasResources) {
r.ActasResources = vActasResources
}
return nil
}
func postReadExtractServiceAccountActasResourcesFields(r *ServiceAccount, o *ServiceAccountActasResources) error {
return nil
}
func postReadExtractServiceAccountActasResourcesResourcesFields(r *ServiceAccount, o *ServiceAccountActasResourcesResources) error {
return nil
}