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chore: import upstream snapshot with attribution
2026-07-13 13:32:45 +08:00

198 lines
7.5 KiB
Go

// Copyright 2025 Google LLC
//
// 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 alloydbcreateinstance
import (
"context"
"fmt"
"net/http"
yaml "github.com/goccy/go-yaml"
"github.com/googleapis/mcp-toolbox/internal/sources"
"github.com/googleapis/mcp-toolbox/internal/tools"
"github.com/googleapis/mcp-toolbox/internal/util"
"github.com/googleapis/mcp-toolbox/internal/util/parameters"
)
const resourceType string = "alloydb-create-instance"
func init() {
if !tools.Register(resourceType, newConfig) {
panic(fmt.Sprintf("tool type %q already registered", resourceType))
}
}
func newConfig(ctx context.Context, name string, decoder *yaml.Decoder) (tools.ToolConfig, error) {
actual := Config{ConfigBase: tools.ConfigBase{Name: name}}
if err := decoder.DecodeContext(ctx, &actual); err != nil {
return nil, err
}
return actual, nil
}
type compatibleSource interface {
GetDefaultProject() string
UseClientAuthorization() bool
CreateInstance(context.Context, string, string, string, string, string, string, int, string) (any, error)
}
// Configuration for the create-instance tool.
type Config struct {
tools.ConfigBase `yaml:",inline"`
Type string `yaml:"type" validate:"required"`
Source string `yaml:"source" validate:"required"`
Annotations *tools.ToolAnnotations `yaml:"annotations,omitempty"`
}
// validate interface
var _ tools.ToolConfig = Config{}
// ToolConfigType returns the type of the tool.
func (cfg Config) ToolConfigType() string {
return resourceType
}
// Initialize initializes the tool from the configuration.
func (cfg Config) Initialize(context.Context) (tools.Tool, error) {
if cfg.Description == "" {
cfg.Description = "Creates a new AlloyDB instance (PRIMARY or READ_POOL) within a cluster. This is a long-running operation. This will return operation id to be used by get operations tool. Take all parameters from user in one go."
}
params := buildParams("")
return Tool{
BaseTool: tools.NewBaseTool(
cfg,
tools.GetAnnotationsOrDefault(cfg.Annotations, tools.NewDestructiveAnnotations),
tools.Manifest{Description: cfg.Description, Parameters: params.Manifest(), AuthRequired: cfg.AuthRequired},
params,
),
}, nil
}
// Tool represents the create-instance tool.
type Tool struct {
tools.BaseTool[Config]
}
func (t Tool) ToConfig() tools.ToolConfig {
return t.Cfg
}
// Invoke executes the tool's logic.
func (t Tool) Invoke(ctx context.Context, resourceMgr tools.SourceProvider, params parameters.ParamValues, accessToken tools.AccessToken) (any, util.ToolboxError) {
source, err := tools.GetCompatibleSource[compatibleSource](resourceMgr, t.Cfg.Source, t.Cfg.Name, t.Cfg.Type)
if err != nil {
return nil, util.NewClientServerError("source used is not compatible with the tool", http.StatusInternalServerError, err)
}
paramsMap := params.AsMap()
project, ok := paramsMap["project"].(string)
if !ok || project == "" {
return nil, util.NewAgentError("invalid or missing 'project' parameter; expected a non-empty string", nil)
}
location, ok := paramsMap["location"].(string)
if !ok || location == "" {
return nil, util.NewAgentError("invalid or missing 'location' parameter; expected a non-empty string", nil)
}
cluster, ok := paramsMap["cluster"].(string)
if !ok || cluster == "" {
return nil, util.NewAgentError("invalid or missing 'cluster' parameter; expected a non-empty string", nil)
}
instanceID, ok := paramsMap["instance"].(string)
if !ok || instanceID == "" {
return nil, util.NewAgentError("invalid or missing 'instance' parameter; expected a non-empty string", nil)
}
instanceType, ok := paramsMap["instanceType"].(string)
if !ok || (instanceType != "READ_POOL" && instanceType != "PRIMARY") {
return nil, util.NewAgentError("invalid 'instanceType' parameter; expected 'PRIMARY' or 'READ_POOL'", nil)
}
displayName, _ := paramsMap["displayName"].(string)
var nodeCount int
if instanceType == "READ_POOL" {
nodeCount, ok = paramsMap["nodeCount"].(int)
if !ok {
return nil, util.NewAgentError("invalid 'nodeCount' parameter; expected an integer for READ_POOL", nil)
}
}
resp, err := source.CreateInstance(ctx, project, location, cluster, instanceID, instanceType, displayName, nodeCount, string(accessToken))
if err != nil {
return nil, util.ProcessGcpError(err)
}
return resp, nil
}
// Authorized checks if the tool is authorized.
func (t Tool) Authorized(verifiedAuthServices []string) bool {
return true
}
func (t Tool) RequiresClientAuthorization(resourceMgr tools.SourceProvider) (bool, error) {
source, err := tools.GetCompatibleSource[compatibleSource](resourceMgr, t.Cfg.Source, t.Cfg.Name, t.Cfg.Type)
if err != nil {
return false, err
}
return source.UseClientAuthorization(), nil
}
// buildParams builds the tool's parameters. A non-empty project means the source has a
// configured default project, which is baked into the project param; otherwise the plain form is used.
func buildParams(project string) parameters.Parameters {
projectParam := parameters.NewStringParameter("project", "The GCP project ID.")
if project != "" {
projectParam = parameters.NewStringParameter("project", "The GCP project ID. This is pre-configured; do not ask for it unless the user explicitly provides a different one.", parameters.WithStringDefault(project))
}
return parameters.Parameters{
projectParam,
parameters.NewStringParameter("location", "The location of the cluster (e.g., 'us-central1')."),
parameters.NewStringParameter("cluster", "The ID of the cluster to create the instance in."),
parameters.NewStringParameter("instance", "A unique ID for the new AlloyDB instance."),
parameters.NewStringParameter("instanceType", "The type of instance to create. Valid values are: PRIMARY and READ_POOL. Default is PRIMARY", parameters.WithStringDefault("PRIMARY")),
parameters.NewStringParameter("displayName", "An optional, user-friendly name for the instance.", parameters.WithStringRequired(false)),
parameters.NewIntParameter("nodeCount", "The number of nodes in the read pool. Required only if instanceType is READ_POOL. Default is 1.", parameters.WithIntDefault(1)),
}
}
// resolveParams builds the tool's parameters using the source's configured default GCP project.
func (t Tool) resolveParams(srcs map[string]sources.Source) (parameters.Parameters, error) {
s, err := tools.GetCompatibleSourceFromMap[compatibleSource](srcs, t.Cfg.Source, t.Cfg.Name, t.Cfg.Type)
if err != nil {
return nil, err
}
return buildParams(s.GetDefaultProject()), nil
}
// GetParameters returns the tool's parameters, resolved against the source.
func (t Tool) GetParameters(srcs map[string]sources.Source) (parameters.Parameters, error) {
return t.resolveParams(srcs)
}
// Manifest returns the tool's manifest, resolved against the source.
func (t Tool) Manifest(srcs map[string]sources.Source) (tools.Manifest, error) {
allParameters, err := t.resolveParams(srcs)
if err != nil {
return tools.Manifest{}, err
}
return tools.Manifest{Description: t.Cfg.Description, Parameters: allParameters.Manifest(), AuthRequired: t.Cfg.AuthRequired}, nil
}