package oclib import ( "encoding/base64" "encoding/json" "errors" "fmt" "net/http" "strings" "runtime/debug" "cloud.o-forge.io/core/oc-lib/config" "cloud.o-forge.io/core/oc-lib/dbs" "cloud.o-forge.io/core/oc-lib/dbs/mongo" "cloud.o-forge.io/core/oc-lib/logs" "cloud.o-forge.io/core/oc-lib/models" "cloud.o-forge.io/core/oc-lib/models/collaborative_area" "cloud.o-forge.io/core/oc-lib/models/collaborative_area/rules/rule" "cloud.o-forge.io/core/oc-lib/models/peer" "cloud.o-forge.io/core/oc-lib/models/resources" "cloud.o-forge.io/core/oc-lib/models/resources/resource_model" "cloud.o-forge.io/core/oc-lib/models/utils" w2 "cloud.o-forge.io/core/oc-lib/models/workflow" "cloud.o-forge.io/core/oc-lib/models/workflow_execution" "cloud.o-forge.io/core/oc-lib/models/workspace" "cloud.o-forge.io/core/oc-lib/tools" beego "github.com/beego/beego/v2/server/web" "github.com/beego/beego/v2/server/web/context" "github.com/goraz/onion" "github.com/rs/zerolog" ) type Filters = dbs.Filters type LibDataEnum int // init accessible constant to retrieve data from the database const ( INVALID LibDataEnum = iota DATA_RESOURCE = tools.DATA_RESOURCE PROCESSING_RESOURCE = tools.PROCESSING_RESOURCE STORAGE_RESOURCE = tools.STORAGE_RESOURCE COMPUTE_RESOURCE = tools.COMPUTE_RESOURCE WORKFLOW_RESOURCE = tools.WORKFLOW_RESOURCE WORKFLOW = tools.WORKFLOW WORKSPACE = tools.WORKSPACE WORKFLOW_EXECUTION = tools.WORKFLOW_EXECUTION PEER = tools.PEER COLLABORATIVE_AREA = tools.COLLABORATIVE_AREA RULE = tools.RULE BOOKING = tools.BOOKING ) // will turn into standards api hostnames func (d LibDataEnum) API() string { return tools.DefaultAPI[d] } // will turn into standards name func (d LibDataEnum) String() string { return tools.Str[d] } // will turn into enum index func (d LibDataEnum) EnumIndex() int { return int(d) } func IsQueryParamsEquals(input *context.BeegoInput, name string, val interface{}) bool { path := strings.Split(input.URI(), "?") if len(path) >= 2 { uri := strings.Split(path[1], "&") for _, val := range uri { kv := strings.Split(val, "=") if kv[0] == name && fmt.Sprintf("%v", val) == kv[1] { return true } } } return false } // model to define the shallow data structure type LibDataShallow struct { Data []utils.ShallowDBObject `bson:"data" json:"data"` Code int `bson:"code" json:"code"` Err string `bson:"error" json:"error"` } // model to define the data structure type LibData struct { Data utils.DBObject `bson:"data" json:"data"` Code int `bson:"code" json:"code"` Err string `bson:"error" json:"error"` } func InitDaemon(appName string) { config.SetAppName(appName) // set the app name to the logger to define the main log chan // create a temporary console logger for init logs.SetLogger(logs.CreateLogger("main")) // Load the right config file o := GetConfLoader() // feed the library with the loaded config SetConfig( o.GetStringDefault("MONGO_URL", "mongodb://127.0.0.1:27017"), o.GetStringDefault("MONGO_DATABASE", "DC_myDC"), o.GetStringDefault("NATS_URL", "nats://localhost:4222"), o.GetStringDefault("LOKI_URL", ""), o.GetStringDefault("LOG_LEVEL", "info"), ) // Beego init beego.BConfig.AppName = appName beego.BConfig.Listen.HTTPPort = o.GetIntDefault("port", 8080) beego.BConfig.WebConfig.DirectoryIndex = true beego.BConfig.WebConfig.StaticDir["/swagger"] = "swagger" } type IDTokenClaims struct { UserID string `json:"user_id"` PeerID string `json:"peer_id"` Groups []string `json:"groups"` } // SessionClaims struct type SessionClaims struct { AccessToken map[string]interface{} `json:"access_token"` IDToken IDTokenClaims `json:"id_token"` } // Claims struct type Claims struct { Session SessionClaims `json:"session"` } func ExtractTokenInfo(request http.Request) (string, string, []string) { reqToken := request.Header.Get("Authorization") splitToken := strings.Split(reqToken, "Bearer ") if len(splitToken) < 2 { reqToken = "" } else { reqToken = splitToken[1] } if reqToken != "" { token := strings.Split(reqToken, ".") if len(token) > 2 { bytes, err := base64.StdEncoding.DecodeString(token[2]) if err != nil { return "", "", []string{} } var c Claims err = json.Unmarshal(bytes, &c) if err != nil { return "", "", []string{} } return c.Session.IDToken.UserID, c.Session.IDToken.PeerID, c.Session.IDToken.Groups } } return "", "", []string{} } func Init(appName string) { InitDaemon(appName) api := &tools.API{} api.Discovered(beego.BeeApp.Handlers.GetAllControllerInfo()) } // // Expose subpackages // /* GetLogger returns the main logger * @return zerolog.Logger */ func GetLogger() zerolog.Logger { return logs.GetLogger() } /* SetConfig will set the config and create a logger according to app configuration and initialize mongo accessor * @param url string * @param database string * @param natsUrl string * @param lokiUrl string * @param logLevel string * @return *Config */ func SetConfig(mongoUrl string, database string, natsUrl string, lokiUrl string, logLevel string) *config.Config { cfg := config.SetConfig(mongoUrl, database, natsUrl, lokiUrl, logLevel) defer func() { if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in Init : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) fmt.Printf("Panic recovered in Init : %v - %v\n", r, string(debug.Stack())) } }() logs.CreateLogger("main") mongo.MONGOService.Init(models.GetModelsNames(), config.GetConfig()) // init the mongo service /* Here we will check if the resource model is already stored in the database If not we will store it Resource model is the model that will define the structure of the resources */ accessor := (&resource_model.ResourceModel{}).GetAccessor("", "", []string{}, nil) for _, model := range []string{tools.DATA_RESOURCE.String(), tools.PROCESSING_RESOURCE.String(), tools.STORAGE_RESOURCE.String(), tools.COMPUTE_RESOURCE.String(), tools.WORKFLOW_RESOURCE.String()} { data, code, _ := accessor.Search(nil, model) if code == 404 || len(data) == 0 { refs := map[string]string{} m := map[string]resource_model.Model{} // TODO Specify the model for each resource // for now only processing is specified here (not an elegant way) if model == tools.DATA_RESOURCE.String() || model == tools.STORAGE_RESOURCE.String() { refs["path"] = "string" } if model == tools.PROCESSING_RESOURCE.String() { m["command"] = resource_model.Model{ Type: "string", ReadOnly: false, } m["args"] = resource_model.Model{ Type: "string", ReadOnly: false, } m["env"] = resource_model.Model{ Type: "string", ReadOnly: false, } m["volumes"] = resource_model.Model{ Type: "map[string]string", ReadOnly: false, } } accessor.StoreOne(&resource_model.ResourceModel{ ResourceType: model, VarRefs: refs, Model: map[string]map[string]resource_model.Model{ "container": m, }, }) } } return cfg } /* GetConfig will get the config * @return *Config */ func GetConfig() *config.Config { return config.GetConfig() } /* GetConfLoader * Get the configuration loader for the application * Parameters: * - AppName: string : the name of the application * Returns: * - *onion.Onion : the configuration loader * The configuration loader will load the configuration from the following sources: * - the environment variables with the prefix OCAPPNAME_ * - the file /etc/oc/appname.json * - the file ./appname.json * The configuration loader will merge the configuration from the different sources * The configuration loader will give priority to the environment variables * The configuration loader will give priority to the local file over the default file */ func GetConfLoader() *onion.Onion { return config.GetConfLoader() } type Request struct { collection LibDataEnum user string peerID string groups []string caller *tools.HTTPCaller } func NewRequest(collection LibDataEnum, user string, peerID string, groups []string, caller *tools.HTTPCaller) *Request { return &Request{collection: collection, user: user, peerID: peerID, groups: groups, caller: caller} } /* * Search will search for the data in the database * @param filters *dbs.Filters * @param word string * @param collection LibDataEnum * @param c ...*tools.HTTPCaller * @return data LibDataShallow */ func (r *Request) Search(filters *dbs.Filters, word string) (data LibDataShallow) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in Search : "+fmt.Sprintf("%v", r))) data = LibDataShallow{Data: nil, Code: 500, Err: "Panic recovered in LoadAll : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() d, code, err := models.Model(r.collection.EnumIndex()).GetAccessor(r.user, r.peerID, r.groups, r.caller).Search(filters, word) if err != nil { data = LibDataShallow{Data: d, Code: code, Err: err.Error()} return } data = LibDataShallow{Data: d, Code: code} return } /* * LoadAll will load all the data from the database * @param collection LibDataEnum * @param c ...*tools.HTTPCaller * @return data LibDataShallow */ func (r *Request) LoadAll() (data LibDataShallow) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in LoadAll : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) data = LibDataShallow{Data: nil, Code: 500, Err: "Panic recovered in LoadAll : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() d, code, err := models.Model(r.collection.EnumIndex()).GetAccessor(r.user, r.peerID, r.groups, r.caller).LoadAll() if err != nil { data = LibDataShallow{Data: d, Code: code, Err: err.Error()} return } data = LibDataShallow{Data: d, Code: code} return } /* * LoadOne will load one data from the database * @param collection LibDataEnum * @param id string * @param c ...*tools.HTTPCaller * @return data LibData */ func (r *Request) LoadOne(id string) (data LibData) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in LoadOne : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) data = LibData{Data: nil, Code: 500, Err: "Panic recovered in LoadOne : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() d, code, err := models.Model(r.collection.EnumIndex()).GetAccessor(r.user, r.peerID, r.groups, r.caller).LoadOne(id) if err != nil { data = LibData{Data: d, Code: code, Err: err.Error()} return } data = LibData{Data: d, Code: code} return } /* * UpdateOne will update one data from the database * @param collection LibDataEnum * @param set map[string]interface{} * @param id string * @param c ...*tools.HTTPCaller * @return data LibData */ func (r *Request) UpdateOne(set map[string]interface{}, id string) (data LibData) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in UpdateOne : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) data = LibData{Data: nil, Code: 500, Err: "Panic recovered in UpdateOne : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() model := models.Model(r.collection.EnumIndex()) d, code, err := model.GetAccessor(r.user, r.peerID, r.groups, r.caller).UpdateOne(model.Deserialize(set, model), id) if err != nil { data = LibData{Data: d, Code: code, Err: err.Error()} return } data = LibData{Data: d, Code: code} return } /* * DeleteOne will delete one data from the database * @param collection LibDataEnum * @param id string * @param c ...*tools.HTTPCaller * @return data LibData */ func (r *Request) DeleteOne(id string) (data LibData) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in DeleteOne : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) data = LibData{Data: nil, Code: 500, Err: "Panic recovered in DeleteOne : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() d, code, err := models.Model(r.collection.EnumIndex()).GetAccessor(r.user, r.peerID, r.groups, r.caller).DeleteOne(id) if err != nil { data = LibData{Data: d, Code: code, Err: err.Error()} return } data = LibData{Data: d, Code: code} return } /* * StoreOne will store one data from the database * @param collection LibDataEnum * @param object map[string]interface{} * @param c ...*tools.HTTPCaller * @return data LibData */ func (r *Request) StoreOne(object map[string]interface{}) (data LibData) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in StoreOne : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) data = LibData{Data: nil, Code: 500, Err: "Panic recovered in StoreOne : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() model := models.Model(r.collection.EnumIndex()) d, code, err := model.GetAccessor(r.user, r.peerID, r.groups, r.caller).StoreOne(model.Deserialize(object, model)) if err != nil { data = LibData{Data: d, Code: code, Err: err.Error()} return } data = LibData{Data: d, Code: code} return } /* * CopyOne will copy one data from the database * @param collection LibDataEnum * @param object map[string]interface{} * @param c ...*tools.HTTPCaller * @return data LibData */ func (r *Request) CopyOne(object map[string]interface{}) (data LibData) { defer func() { // recover the panic if r := recover(); r != nil { tools.UncatchedError = append(tools.UncatchedError, errors.New("Panic recovered in CopyOne : "+fmt.Sprintf("%v", r)+" - "+string(debug.Stack()))) data = LibData{Data: nil, Code: 500, Err: "Panic recovered in UpdateOne : " + fmt.Sprintf("%v", r) + " - " + string(debug.Stack())} } }() model := models.Model(r.collection.EnumIndex()) d, code, err := model.GetAccessor(r.user, r.peerID, r.groups, r.caller).CopyOne(model.Deserialize(object, model)) if err != nil { data = LibData{Data: d, Code: code, Err: err.Error()} return } data = LibData{Data: d, Code: code} return } // ================ CAST ========================= // func (l *LibData) ToDataResource() *resources.DataResource { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.DATA_RESOURCE { return l.Data.(*resources.DataResource) } return nil } func (l *LibData) ToComputeResource() *resources.ComputeResource { if l.Data != nil && l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.COMPUTE_RESOURCE { return l.Data.(*resources.ComputeResource) } return nil } func (l *LibData) ToStorageResource() *resources.StorageResource { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.STORAGE_RESOURCE { return l.Data.(*resources.StorageResource) } return nil } func (l *LibData) ToProcessingResource() *resources.ProcessingResource { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.PROCESSING_RESOURCE { return l.Data.(*resources.ProcessingResource) } return nil } func (l *LibData) ToWorkflowResource() *resources.WorkflowResource { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.WORKFLOW_RESOURCE { return l.Data.(*resources.WorkflowResource) } return nil } func (l *LibData) ToPeer() *peer.Peer { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.PEER { return l.Data.(*peer.Peer) } return nil } func (l *LibData) ToWorkflow() *w2.Workflow { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.WORKFLOW { return l.Data.(*w2.Workflow) } return nil } func (l *LibData) ToWorkspace() *workspace.Workspace { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.WORKSPACE { return l.Data.(*workspace.Workspace) } return nil } func (l *LibData) ToCollaborativeArea() *collaborative_area.CollaborativeArea { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.COLLABORATIVE_AREA { return l.Data.(*collaborative_area.CollaborativeArea) } return nil } func (l *LibData) ToRule() *rule.Rule { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.COLLABORATIVE_AREA { return l.Data.(*rule.Rule) } return nil } func (l *LibData) ToWorkflowExecution() *workflow_execution.WorkflowExecution { if l.Data.GetAccessor("", "", []string{}, nil).GetType() == tools.WORKFLOW_EXECUTION { return l.Data.(*workflow_execution.WorkflowExecution) } return nil }