Beispiel #1
1
func StringValue(v interface{}, db string) string {
	var ret string
	switch v.(type) {
	case string:
		t, e := time.Parse(time.RFC3339, toolkit.ToString(v))
		if e != nil {
			ret = toolkit.Sprintf("%s", "'"+v.(string)+"'")
		} else {
			if strings.Contains(db, "oci8") {
				// toolkit.Println(t.Format("2006-01-02 15:04:05"))
				ret = "to_date('" + t.Format("02-01-2006 15:04:05") + "','DD-MM-YYYY hh24:mi:ss')"
			} else {
				ret = "'" + t.Format("2006-01-02 15:04:05") + "'"
			}
		}
	case time.Time:
		t := v.(time.Time).UTC()
		if strings.Contains(db, "oci8") {
			ret = "to_date('" + t.Format("2006-01-02 15:04:05") + "','yyyy-mm-dd hh24:mi:ss')"
		} else {
			ret = "'" + t.Format("2006-01-02 15:04:05") + "'"
		}
	case int, int32, int64, uint, uint32, uint64:
		ret = toolkit.Sprintf("%d", v.(int))
	case nil:
		ret = ""
	default:
		ret = toolkit.Sprintf("%v", v)
	}
	return ret
}
Beispiel #2
1
func TestInsert(t *testing.T) {
	t.Skip()
	var e error
	skipIfConnectionIsNil(t)

	es := []string{}
	qinsert := ctx.NewQuery().From(tableName).Insert()
	for i := 1; i <= 3; i++ {
		qty := toolkit.RandInt(10)
		price := toolkit.RandInt(10) * 50
		amount := qty * price
		u := &Orders{
			toolkit.Sprintf("ord0%d", i+10),
			toolkit.Sprintf("item%d", i),
			qty,
			price,
			amount,
			toolkit.Sprintf("available"),
		}
		e = qinsert.Exec(toolkit.M{}.Set("data", u))
		if e != nil {
			es = append(es, toolkit.Sprintf("Insert fail %d: %s \n", i, e.Error()))
		}
	}

	if len(es) > 0 {
		t.Fatal(es)
	}

	operation = "Test Insert"
	sintaks = `
		ctx.NewQuery().From(tableName).Insert().
		Exec(toolkit.M{}.Set("data", u))`
	TestSelect(t)
}
Beispiel #3
1
func genGo(fi os.FileInfo, source, out string) error {
	log.Info("Processing " + fi.Name())
	fn := filepath.Join(source, fi.Name())
	var (
		bs []byte
		e  error
	)
	if bs, e = ioutil.ReadFile(fn); e != nil {
		return errors.New("Open error " + e.Error())
	}

	pkg := new(PackageModel)
	e = toolkit.UnjsonFromString(string(bs), pkg)
	if e != nil {
		return errors.New("Unmarshal JSON: " + e.Error())
	}
	for _, sm := range pkg.Structs {
		e = sm.Write(pkg, out)
		if e != nil {
			return errors.New(toolkit.Sprintf("Write model %s: %s", sm.Name, e.Error()))
		}
		log.Info(toolkit.Sprintf("Writing %s.%s", pkg.Name, sm.Name))
	}

	log.Info("Processing " + fi.Name() + " done")
	return nil
}
Beispiel #4
1
func TestCRUD(t *testing.T) {
	skipIfConnectionIsNil(t)
	e := ctx.NewQuery().Delete().From(tableName).SetConfig("multiexec", true).Exec(nil)
	if e != nil {
		t.Fatalf("Delete fail: %s", e.Error())
	}

	es := []string{}
	qinsert := ctx.NewQuery().From(tableName).SetConfig("multiexec", true).Insert()
	for i := 1; i <= 50; i++ {
		u := &testUser{
			toolkit.Sprintf("user%d", i),
			toolkit.Sprintf("User %d", i),
			toolkit.RandInt(30) + 20, true}
		e = qinsert.Exec(toolkit.M{}.Set("data", u))
		if e != nil {
			es = append(es, toolkit.Sprintf("Insert fail %d: %s \n", i, e.Error()))
		}
	}

	if len(es) > 0 {
		t.Fatal(es)
	}

	e = ctx.NewQuery().Update().From(tableName).Where(dbox.Lte("_id", "user2")).Exec(toolkit.M{}.Set("data", toolkit.M{}.Set("Enable", false)))
	if e != nil {
		t.Fatalf("Update fail: %s", e.Error())
	}
}
Beispiel #5
1
func (p *Page) DefineCommand(server *Server, sourceZipPath string, destZipPath string, appID string) (string, string, string, error) {
	var ext string
	if strings.Contains(server.CmdExtract, "7z") || strings.Contains(server.CmdExtract, "zip") {
		ext = ".zip"
	} else if strings.Contains(server.CmdExtract, "tar") {
		ext = ".tar"
	} else if strings.Contains(server.CmdExtract, "gz") {
		ext = ".gz"
	}
	sourceZipFile := toolkit.Sprintf("%s%s", sourceZipPath, ext)
	destZipFile := toolkit.Sprintf("%s%s", destZipPath, ext)
	var unzipCmd string
	// cmd /C 7z e -o %s -y %s
	if server.ServerType == "windows" {
		unzipCmd = toolkit.Sprintf("cmd /C %s", server.CmdExtract)
		unzipCmd = strings.Replace(unzipCmd, `%1`, destZipPath, -1)
		unzipCmd = strings.Replace(unzipCmd, `%2`, destZipFile, -1)
	} else {
		unzipCmd = strings.Replace(server.CmdExtract, `%1`, destZipFile, -1)
		unzipCmd = strings.Replace(unzipCmd, `%2`, destZipPath, -1)
	}

	return unzipCmd, sourceZipFile, destZipFile, nil

}
Beispiel #6
1
func doParseSize(size float64, unit string) string {
	if unit == "" {
		unit = "B"
	}
	ret := ""
	if size > 1024 {
		size = size / 1024
		if unit == "B" {
			unit = "K"
		} else if unit == "K" {
			unit = "M"
		} else if unit == "M" {
			unit = "G"
		} else if unit == "G" {
			unit = "T"
		} else {
			unit = "P"
		}

		if unit != "P" {
			ret = doParseSize(size, unit)
		} else {
			ret = toolkit.Sprintf("%2.2f%s", size, unit)
		}
	} else {

		ret = toolkit.Sprintf("%2.2f%s", size, unit)
	}
	return ret
}
Beispiel #7
0
func MatchV(v interface{}, f *Filter) bool {
	match := false
	/*
		rv0 := reflect.ValueOf(v)
		if rv0.Kind() == reflect.Ptr {
			rv0 = reflect.Indirect(rv0)
		}
		rv1 := reflect.ValueOf(f.Value)
		if rv1.Kind()==reflect.Ptr{
			rv1=reflect.Indirect(rv1)
		}
	*/
	//toolkit.Println("MatchV: ", f.Op, v, f.Value)
	if toolkit.HasMember([]string{FilterOpEqual, FilterOpNoEqual, FilterOpGt, FilterOpGte, FilterOpLt, FilterOpLte}, f.Op) {
		return toolkit.Compare(v, f.Value, f.Op)
	} else if f.Op == FilterOpIn {
		var values []interface{}
		toolkit.FromBytes(toolkit.ToBytes(f.Value, ""), "", &values)
		return toolkit.HasMember(values, v)
	} else if f.Op == FilterOpNin {
		var values []interface{}
		toolkit.FromBytes(toolkit.ToBytes(f.Value, ""), "", &values)
		return !toolkit.HasMember(values, v)
	} else if f.Op == FilterOpContains {
		var values []interface{}
		var b bool
		toolkit.FromBytes(toolkit.ToBytes(f.Value, ""), "", &values)

		for _, val := range values {
			// value := toolkit.Sprintf(".*%s.*", val.(string))
			// b, _ = regexp.Match(value, []byte(v.(string)))
			r := regexp.MustCompile(`(?i)` + val.(string))
			b = r.Match([]byte(v.(string)))
			if b {
				return true
			}
		}
	} else if f.Op == FilterOpStartWith || f.Op == FilterOpEndWith {
		value := ""
		if f.Op == FilterOpStartWith {
			value = toolkit.Sprintf("^%s.*$", f.Value)
		} else {
			value = toolkit.Sprintf("^.*%s$", f.Value)
		}
		cond, _ := regexp.Match(value, []byte(v.(string)))
		return cond
	}
	return match
}
Beispiel #8
0
func TestSaveQuery(t *testing.T) {
	var e error
	for i := 1; i <= 5; i++ {
		ds := new(colonycore.DataSource)
		ds.ID = toolkit.Sprintf("ds%d", i)
		ds.ConnectionID = "conn1"
		ds.QueryInfo = toolkit.M{}
		ds.MetaData = nil
		e = colonycore.Save(ds)
		if e != nil {
			t.Fatalf("Save datasource fail. " + e.Error())
		}
	}

	var dss []colonycore.DataSource
	c, e := colonycore.Find(new(colonycore.DataSource), nil)
	if e != nil {
		t.Fatalf("Load ds fail: " + e.Error())
	}

	e = c.Fetch(&dss, 0, true)
	if e != nil {
		t.Fatalf("Ftech ds fail: " + e.Error())
	}
	if len(dss) != 5 {
		t.Fatal("Fetch ds fail. Got %d records only", len(dss))
	}
	toolkit.Println("Data:", toolkit.JsonString(dss))
}
Beispiel #9
0
func TestSaveApp(t *testing.T) {
	wd, _ := os.Getwd()
	colonycore.ConfigPath = filepath.Join(wd, "../config")
	for i := 1; i <= 5; i++ {
		appn := new(colonycore.Application)
		appn.ID = toolkit.Sprintf("appn%d", i)
		appn.Enable = true
		e = colonycore.Save(appn)
		if e != nil {
			t.Fatalf("Save %s fail: %s", appn.ID, e.Error())
		}
	}

	appn := new(colonycore.Application)
	e := colonycore.Get(appn, "appn5")
	if e != nil {
		t.Fatal(e)
	}

	appn.ID = "appn3"
	e = colonycore.Delete(appn)
	if e != nil {
		t.Fatal(e)
	}
}
Beispiel #10
0
func TestStorageWrite(t *testing.T) {
	skipIfClientNil(t)
	es := []string{}

	toolkit.Printf("Writing Data:\n")
	for i := 0; i < 200; i++ {
		dataku := toolkit.RandInt(1000)
		totalInt += dataku
		//toolkit.Printf("%d ", dataku)

		in := toolkit.M{}.Set("key", fmt.Sprintf("public.dataku.%d", i)).Set("data", toolkit.ToBytes(dataku, ""))
		writeResult := client.Call("set", in)
		if writeResult.Status != toolkit.Status_OK {
			es = append(es, toolkit.Sprintf("Fail to write data %d : %d => %s", i, dataku, writeResult.Message))
		}
	}

	if len(es) > 0 {
		errorTxt := ""
		if len(es) <= 10 {
			errorTxt = strings.Join(es, "\n")
		} else {
			errorTxt = strings.Join(es[:10], "\n") + "\n... And others ..."
		}
		t.Errorf("Write data fail.\n%s", errorTxt)
	}
}
Beispiel #11
0
func (s *SliceBase) Set(i int, d interface{}) error {
	e := toolkit.SliceSetItem(s.data, i, d)
	if e != nil {
		return errors.New(toolkit.Sprintf("SliceBase.Set: [%d] %s", i, e.Error()))
	}
	return nil
}
Beispiel #12
0
func (c *Coordinator) getAvailableNode(data []byte) (nodeIndex int, e error) {
	var currentMax float64
	found := false
	dataLength := float64(len(data))
	nodes := c.Nodes(RoleStorage)
	for k, n := range nodes {
		resultAvail := n.Call("storagestatus", nil)
		if resultAvail.Status == toolkit.Status_OK {
			//m := toolkit.M{}
			sm := struct {
				Memory   *StorageMedia
				Physical *StorageMedia
			}{}
			resultAvail.GetFromBytes(&sm)
			nodeAvailableSize := sm.Memory.Available()
			if nodeAvailableSize > dataLength && nodeAvailableSize > currentMax {
				found = true
				currentMax = nodeAvailableSize
				nodeIndex = k
			}
		}
	}

	if !found {
		e = errors.New(toolkit.Sprintf("No node available to hosts %s bytes of data", ParseSize(dataLength)))
	}
	return
}
Beispiel #13
0
/*
Write Write bytes of data into sebar storage.
- Data need to be defined as []byte on in["data"]
- To use memory or disk should be defined on in["storage"] as: MEM, DSK (sebar.StorageTypeMemory, sebar.StorageTypeMemory)
- If no in["storage"] or the value is not eq to either disk or memory, it will be defaulted to memory
*/
func (s *Storage) Write(in toolkit.M) *toolkit.Result {
	r := toolkit.NewResult()
	key := in.Get("key").(string)
	storage := StorageTypeEnum(in.GetString("storage"))
	if storage != StorageTypeMemory && storage != StorageTypeDisk {
		storage = StorageTypeMemory
	}
	dataToWrite := in.Get("data").([]byte)
	dataLen := len(dataToWrite)

	// Validation
	nodeCoordinator := s.NodeByID(s.Coordinator)
	if nodeCoordinator == nil {
		return r.SetErrorTxt(s.Address + " no Coordinator has been setup")
	}

	// Since all is ok commit the change
	var ms *StorageMedia
	if storage == StorageTypeMemory {
		ms = s.MemoryStorage
	} else {
		ms = s.DiskStorage
	}
	ms.write(key, dataToWrite, nodeCoordinator)
	s.Log.Info(toolkit.Sprintf("Writing %s (%s) to node %s", key, ParseSize(float64(dataLen)), s.Address))
	return r
}
Beispiel #14
0
func TestSave(t *testing.T) {
	InitCall()
	for i := 1; i <= 1000; i++ {
		e := office.NewEmployee()
		e.ID = "emp" + strconv.Itoa(i)
		e.Title = toolkit.Sprintf("Test Title %d", i)
		e.Address = toolkit.Sprintf("Address %d", i)
		e.LastLogin = time.Now()
		if math.Mod(float64(i), 2) == 0 {
			e.Enable = true
		} else {
			e.Enable = false
		}
		//log.Printf("DB %+v", office.DB())
		//log.Printf("e %+v", toolkit.JsonString(e))
		office.DB().Save(e)
	}
}
Beispiel #15
0
func TestInsert(t *testing.T) {
	// t.Skip("Skip : Comment this line to do test")
	skipIfConnectionIsNil(t)

	es := []string{}
	qinsert := ctx.NewQuery().From("Data_CUD").SetConfig("multiexec", true).Save()

	for i := 1; i <= 5; i++ {
		u := toolkit.M{}.Set("Id", toolkit.Sprintf("ID-1%d", i)).
			Set("Email", toolkit.Sprintf("user-1%d", i)).
			Set("FirstName", toolkit.Sprintf("User no.%d", i)).
			Set("LastName", toolkit.Sprintf("Test no.%d", i))

		e := qinsert.Exec(toolkit.M{}.Set("data", u))
		if e != nil {
			es = append(es, toolkit.Sprintf("Insert fail %d: %s \n", i, e.Error()))
		}
	}

	if len(es) > 0 {
		t.Fatal(es)
	}
}
Beispiel #16
0
func main() {
	flag.Parse()
	source := makePath(*flagSource)
	outPath := makePath(*flagOut)

	log.Info(toolkit.Sprintf(
		"Generating *.go files\nSource: %s\nOutput Path: %s",
		source, outPath))

	fileInfos, e := getOrms(source)
	check(e, true, "")

	for _, fi := range fileInfos {
		e := genGo(fi, source, outPath)
		check(e, true, "Gen-Go")
	}
}
Beispiel #17
0
func (l *LoginController) Logout(r *knot.WebContext) interface{} {
	r.Config.OutputType = knot.OutputJson
	sessionId := toolkit.ToString(r.Session("sessionid", ""))
	if toolkit.ToString(sessionId) == "" {
		return helper.CreateResult(true, nil, "Active sessionid not found")
	}

	err := acl.Logout(sessionId)
	if err != nil && (err.Error() == "Session id not found" || err.Error() == "Session id is expired") {
		return helper.CreateResult(true, nil, "Active sessionid not found")
	} else if err != nil {
		return helper.CreateResult(true, nil, toolkit.Sprintf("Error found : %v", err.Error()))
	}

	r.SetSession("sessionid", "")

	return helper.CreateResult(true, nil, "Logout success")
}
Beispiel #18
0
func (a *AclController) Logout(r *knot.WebContext) interface{} {
	r.Config.OutputType = knot.OutputJson

	payload := toolkit.M{}
	err := r.GetPayload(&payload)
	sessionid := ""
	switch {
	case err != nil:
		return helper.CreateResult(false, nil, err.Error())
	case !payload.Has("username") && !payload.Has("sessionid"):
		return helper.CreateResult(false, nil, "username or session not found")
	case payload.Has("sessionid"):
		sessionid = toolkit.ToString(payload["sessionid"])
	case payload.Has("username"):
		tUser := new(acl.User)
		err = acl.FindUserByLoginID(tUser, toolkit.ToString(payload["username"]))
		if err != nil {
			return helper.CreateResult(false, nil, "fail to get userid")
		}

		tSession := new(acl.Session)
		err = acl.FindActiveSessionByUser(tSession, tUser.ID)
		if err != nil {
			return helper.CreateResult(false, nil, "fail to get sessionid")
		}
		sessionid = tSession.ID
	}

	if sessionid == "" {
		return helper.CreateResult(true, nil, "Active sessionid not found")
	}

	err = acl.Logout(sessionid)
	if err != nil && (err.Error() == "Session id not found" || err.Error() == "Session id is expired") {
		return helper.CreateResult(true, nil, "Active sessionid not found")
	} else if err != nil {
		return helper.CreateResult(true, nil, toolkit.Sprintf("Error found : %v", err.Error()))
	}

	return helper.CreateResult(true, nil, "Logout success")
}
Beispiel #19
0
func (p *Page) CopyFileToServer(server *Server, sourcePath string, destPath string, appID string, log *toolkit.LogEngine) error {
	var serverPathSeparator string
	if strings.Contains(destPath, "/") {
		serverPathSeparator = `/`
	} else {
		serverPathSeparator = "\\\\"
	}
	destZipPath := strings.Join([]string{destPath, appID}, serverPathSeparator)
	unzipCmd, sourceZipFile, destZipFile, err := p.DefineCommand(server, sourcePath, destZipPath, appID)

	log.AddLog(toolkit.Sprintf("Connect to server %v", server), "INFO")
	sshSetting, sshClient, err := p.connectSSH(server)
	defer sshClient.Close()

	log.AddLog(unzipCmd, "INFO") /*compress file on local colony manager*/
	if strings.Contains(sourceZipFile, ".zip") {
		err = toolkit.ZipCompress(sourcePath, sourceZipFile)
	} else if strings.Contains(sourceZipFile, ".tar") {
		err = toolkit.TarCompress(sourcePath, sourceZipFile)
	}
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	rmCmdZip := toolkit.Sprintf("rm -rf %s", destZipFile)
	log.AddLog(rmCmdZip, "INFO")
	_, err = sshSetting.GetOutputCommandSsh(rmCmdZip) /*delete zip file on server before copy file*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	log.AddLog(toolkit.Sprintf("scp from %s to %s", sourceZipFile, destPath), "INFO")
	err = sshSetting.SshCopyByPath(sourceZipFile, destPath) /*copy zip file from colony manager to server*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	rmCmdZipOutput := toolkit.Sprintf("rm -rf %s", destZipPath)
	log.AddLog(rmCmdZipOutput, "INFO")
	_, err = sshSetting.GetOutputCommandSsh(rmCmdZipOutput) /*delete folder before extract zip file on server*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	mkdirDestCmd := toolkit.Sprintf("%s %s%s%s", server.CmdMkDir, destZipPath, serverPathSeparator, appID)
	log.AddLog(mkdirDestCmd, "INFO")
	_, err = sshSetting.GetOutputCommandSsh(mkdirDestCmd) /*make new dest folder on server for folder extraction*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	chmodDestCmd := toolkit.Sprintf("chmod -R 755 %s%s%s", destZipPath, serverPathSeparator, appID)
	log.AddLog(chmodDestCmd, "INFO")
	_, err = sshSetting.GetOutputCommandSsh(chmodDestCmd) /*set chmod on new folder extraction*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	log.AddLog(unzipCmd, "INFO")
	_, err = sshSetting.GetOutputCommandSsh(unzipCmd) /*extract zip file to server*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	log.AddLog(toolkit.Sprintf("remove %s", sourceZipFile), "INFO")
	err = os.Remove(sourceZipFile) /*remove zip file from local colony manager*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}

	log.AddLog(rmCmdZip, "INFO")
	_, err = sshSetting.GetOutputCommandSsh(rmCmdZip) /*delete zip file on server after folder extraction*/
	if err != nil {
		log.AddLog(err.Error(), "ERROR")
		return err
	}
	return nil
}
Beispiel #20
0
func (q *Query) Exec(in toolkit.M) error {
	setting, e := q.prepare(in)
	commandType := setting["commandtype"].(string)
	//toolkit.Printf("Command type: %s\n", commandType)
	if e != nil {
		return err.Error(packageName, modQuery, "Exec: "+commandType, e.Error())
	}

	if setting.GetString("commandtype") == dbox.QueryPartSelect {
		return err.Error(packageName, modQuery, "Exec: "+commandType, "Exec is not working with select command, please use .Cursor instead")
	}

	q.Lock()
	defer q.Unlock()

	var dataM toolkit.M
	var dataMs []toolkit.M

	hasData := in.Has("data")
	dataIsSlice := false
	data := in.Get("data")
	if toolkit.IsSlice(data) {
		dataIsSlice = true
		e = toolkit.Unjson(toolkit.Jsonify(data), dataMs)
		if e != nil {
			return err.Error(packageName, modQuery, "Exec: "+commandType, "Data encoding error: "+e.Error())
		}
	} else {
		dataM, e = toolkit.ToM(data)
		dataMs = append(dataMs, dataM)
		if e != nil {
			return err.Error(packageName, modQuery, "Exec: "+commandType, "Data encoding error: "+e.Error())
		}
	}

	hasWhere := setting.Has("where")
	where := setting.Get("where", []*dbox.Filter{}).([]*dbox.Filter)
	if hasWhere && len(where) == 0 {
		inWhere := in.Get("where")
		if inWhere == nil {
			hasWhere = false
			where = nil
		} else {
			if !toolkit.IsSlice(inWhere) {
				where = append(where, inWhere.(*dbox.Filter))
			} else {
				where = inWhere.([]*dbox.Filter)
			}
		}
	}

	if hasData && hasWhere == false && toolkit.HasMember([]interface{}{dbox.QueryPartInsert, dbox.QueryPartDelete,
		dbox.QueryPartUpdate, dbox.QueryPartSave}, commandType) {
		hasWhere = true
		//toolkit.Println("check where")
		if toolkit.IsSlice(data) {
			ids := []interface{}{}
			idField := ""
			if idField == "" {
				return err.Error(packageName, modQuery, "Exec: "+commandType, "Data send is a slice, but its element has no ID")
			}
			dataCount := toolkit.SliceLen(data)
			for i := 0; i < dataCount; i++ {
				dataI := toolkit.SliceItem(data, i)
				if i == 0 {
					idField = toolkit.IdField(dataI)
				}
				ids = append(ids, toolkit.Id(dataI))
			}
			where = []*dbox.Filter{dbox.In(idField, ids)}
		} else {
			idfield := "_id"
			id := toolkit.Id(data)
			if !toolkit.IsNilOrEmpty(id) {
				where = []*dbox.Filter{dbox.Eq(idfield, id)}
			} else {
				where = nil
				hasWhere = false
			}
		}
	}
	/*
		toolkit.Printf("CommandType: %s HasData: %v HasWhere: %v Where: %s\n",
			commandType, hasData, hasWhere, toolkit.JsonString(where))
	*/
	e = q.openFile(commandType)
	//toolkit.Printf(commandType+" Open File, found record: %d\nData:%s\n", len(q.data), toolkit.JsonString(q.data))
	if e != nil {
		return err.Error(packageName, modQuery, "Exec: "+commandType, e.Error())
	}

	var indexes []interface{}
	if hasWhere && commandType != dbox.QueryPartInsert {
		whereIndex := dbox.Find(q.data, where)
		indexes = toolkit.ToInterfaceArray(&whereIndex)
		//toolkit.Printf("Where Index: %s Index:%s\n", toolkit.JsonString(whereIndex), toolkit.JsonString(indexes))
	}
	if commandType == dbox.QueryPartInsert {
		if !hasData {
			return err.Error(packageName, modQuery, "Exec: "+commandType, "Data is empty")
		}
		if !dataIsSlice {
			dataMs = []toolkit.M{dataM}
		}

		//-- validate
		for _, datam := range dataMs {
			idField, idValue := toolkit.IdInfo(datam)
			toolkit.Serde(dbox.Find(q.data, []*dbox.Filter{dbox.Eq(idField, idValue)}), &indexes, "")
			if len(indexes) > 0 {
				return err.Error(packageName, modQuery, "Exec: "+commandType, toolkit.Sprintf("Data %v already exist", idValue))
			}
		}

		//-- insert the data
		q.data = append(q.data, dataMs...)
	} else if commandType == dbox.QueryPartUpdate {

		//-- valida
		if !hasData {
			return err.Error(packageName, modQuery, "Exec: "+commandType, "Data is empty")
		}

		var dataUpdate toolkit.M
		var updateDataIndex int

		// if it is a slice then we need to update each data passed on its slice
		isDataSlice := toolkit.IsSlice(data)
		if isDataSlice == false {
			isDataSlice = false
			e = toolkit.Serde(data, &dataUpdate, "")
			if e != nil {
				return err.Error(packageName, modQuery, "Exec: "+commandType, "Serde data fail"+e.Error())
			}
		}

		var idField string
		//toolkit.Printf("Indexes: %s\n", toolkit.JsonString(indexes))

		for i, v := range q.data {
			// update only data that match given inde
			if toolkit.HasMember(indexes, i) || !hasWhere {
				if idField == "" {
					idField = toolkit.IdField(v)
					if idField == "" {
						return err.Error(packageName, modQuery, "Exec: "+commandType, "No ID")
					}
				}

				// If dataslice is sent, iterate f
				if isDataSlice {
					e = toolkit.Serde(toolkit.SliceItem(data, updateDataIndex), &dataUpdate, "")
					if e != nil {
						return err.Error(packageName, modQuery, "Exec: "+commandType, "Serde data fail "+e.Error())
					}
					updateDataIndex++
				}
				dataOrigin := q.data[i]
				toolkit.CopyM(&dataUpdate, &dataOrigin, false, []string{"_id"})
				toolkit.Serde(dataOrigin, &v, "")
				q.data[i] = v
			}
		}
	} else if commandType == dbox.QueryPartDelete {
		if hasWhere && len(where) > 0 {
			indexes := dbox.Find(q.data, where)
			if len(indexes) > 0 {
				newdata := []toolkit.M{}
				for index, v := range q.data {
					partOfIndex := toolkit.HasMember(indexes, index)
					if partOfIndex == false {
						newdata = append(newdata, v)
					}
					//toolkit.Println("i:", indexes, ", index:", index, ", p.ofIndex: ", partOfIndex, ", data: ", toolkit.JsonString(newdata))
				}
				q.data = newdata
			}
		} else {
			q.data = []toolkit.M{}
		}
		//toolkit.Printf("Data now: %s\n", toolkit.JsonString(q.data))
	} else if commandType == dbox.QueryPartSave {
		if !hasData {
			return err.Error(packageName, modQuery, "Exec: "+commandType, "Data is empty")
		}

		var dataMs []toolkit.M
		var dataM toolkit.M
		if !toolkit.IsSlice(data) {
			e = toolkit.Serde(&data, &dataM, "json")
			if e != nil {
				return err.Error(packageName, modQuery, "Exec: "+commandType+" Serde data fail", e.Error())
			}
			dataMs = append(dataMs, dataM)
		} else {
			e = toolkit.Serde(&data, &dataMs, "json")
			if e != nil {
				return err.Error(packageName, modQuery, "Exec: "+commandType+" Serde data fail", e.Error())
			}
		}
		//toolkit.Printf("Saving: %s\n", toolkit.JsonString(dataMs))

		for _, v := range dataMs {
			idField, idValue := toolkit.IdInfo(v)
			indexes := dbox.Find(q.data, []*dbox.Filter{dbox.Eq(idField, idValue)})
			if len(indexes) == 0 {
				q.data = append(q.data, v)
			} else {
				dataOrigin := q.data[indexes[0]]
				//toolkit.Printf("Copy data %s to %s\n", toolkit.JsonString(v), toolkit.JsonString(dataOrigin))
				toolkit.CopyM(&v, &dataOrigin, false, []string{idField})
				q.data[indexes[0]] = dataOrigin
			}
		}
	}
	e = q.writeFile()
	if e != nil {
		return err.Error(packageName, modQuery, "Exec: "+commandType+" Write fail", e.Error())
	}
	return nil
}
Beispiel #21
0
func (sm *StructModel) Write(pkg *PackageModel, path string) error {
	if pkg.Name == "" || sm.Name == "" {
		return toolkit.Errorf("Both package name and struct name should be defined")
	}
	//return toolkit.Errorf("Fail to write %s.%s : method Write is not yet implemented", pkg.Name, sm.Name)

	//-- write base
	e := pkg.WriteBase(path)
	if e != nil {
		return e
	}

	filename := filepath.Join(path, strings.ToLower(sm.Name)+".go")
	//currentCode := ""
	f, e := os.Open(filename)
	if e == nil {
		//bcurrent, _ := ioutil.ReadAll(f)
		//currentCode = string(bcurrent)
		os.Remove(filename)
	}

	f, e = os.Create(filename)
	if e != nil {
		return toolkit.Errorf("Failed to write %s.%s: %s", pkg.Name, sm.Name, e.Error())
	}
	defer f.Close()

	txts := []string{}
	//--- package
	txts = append(txts, "package "+pkg.Name)

	//--- imports
	txts = append(txts,
		toolkit.Sprintf("import (%s)",
			libs(mandatoryLibs, pkg.ObjectLibs, sm.Libs)))

	//--- struct definition
	txts = append(txts, "type "+sm.Name+" struct {\n"+
		"orm.ModelBase `bson:\"-\" json:\"-\"`")
	for _, f := range sm.Fields {
		if f.Type == "" {
			f.Type = "string"
		}
		fieldStr := toolkit.Sprintf("%s %s %s", f.Name, f.Type, f.Tag)
		txts = append(txts, fieldStr)
	}
	txts = append(txts, "}")

	//--- tablename
	pluralNames := strings.ToLower(sm.Name)
	if strings.HasSuffix(pluralNames, "s") {
		pluralNames = pluralNames + "es"
	} else {
		pluralNames = pluralNames + "s"
	}
	tablename := toolkit.Sprintf("func (o *%s) TableName()string{"+
		"return \"%s\"\n"+
		"}", sm.Name, pluralNames)
	txts = append(txts, tablename)

	//--- new
	fieldBuilders := ""
	for _, field := range sm.Fields {
		notEmpty := !toolkit.IsNilOrEmpty(field.Default)
		if notEmpty {
			def := toolkit.Sprintf("%v", field.Default)
			if field.Type == "string" {
				def = "\"" + def + "\""
			}
			fieldBuilders +=
				toolkit.Sprintf("o.%s=%s", field.Name, def) +
					"\n"
		}
	}
	newfn := "func New{0}() *{0}{\n" +
		"o:=new({0})\n" +
		fieldBuilders +
		"return o" +
		"}"
	newfn = toolkit.Formatf(newfn, sm.Name)
	txts = append(txts, newfn)

	//--- find
	tpl := `func {0}Find(filter *dbox.Filter, fields, orders string, limit, skip int) dbox.ICursor {
            config := makeFindConfig(fields, orders, skip, limit)
            if filter != nil {
                config.Set("where", filter)
            }
		    c, _ := DB().Find(new({0}), config)
            return c
        }`
	txts = append(txts, toolkit.Formatf(tpl, sm.Name))

	//--- get
	tpl = `func {0}Get(filter *dbox.Filter, orders string, skip int) (emp *{0}, err error) {
        config := makeFindConfig("", orders, skip, 1)
        if filter != nil {
            config.Set("where", filter)
        }
        c, ecursor := DB().Find(new({0}), config)
        if ecursor != nil {
            return nil, ecursor
        }
        defer c.Close()

        emp = new({0})
        err = c.Fetch(emp, 1, false)
        return emp, err
    }`
	txts = append(txts, toolkit.Formatf(tpl, sm.Name))

	//-- method & get
	for _, method := range sm.Methods {
		txts = append(txts, sm.buildMethod(
			pkg,
			method.Type,
			method.Field))
	}

	b := bufio.NewWriter(f)
	for _, txt := range txts {
		b.WriteString(txt + "\n")
	}

	e = b.Flush()
	if e != nil {
		return toolkit.Errorf("Failed to write %s.%s: %s", pkg.Name, sm.Name, e.Error())
	}

	toolkit.RunCommand("/bin/sh", "-c", "gofmt -w "+filename)
	return nil
}
Beispiel #22
0
func StringValue(v interface{}, db string) string {
	var ret string
	switch v.(type) {
	case string:
		t, e := time.Parse(time.RFC3339, toolkit.ToString(v))
		if e != nil {
			ret = toolkit.Sprintf("%s", "'"+strings.Replace(v.(string), "'", "''", -1)+"'")
		} else {
			nullDateTime := time.Time{}
			if t.Equal(nullDateTime) {
				ret = "NULL"
			} else if strings.Contains(db, "oci8") {
				ret = "to_date('" + t.Format("02-01-2006 15:04:05") + "','DD-MM-YYYY hh24:mi:ss')"
			} else {
				ret = "'" + t.Format("2006-01-02 15:04:05") + "'"
			}
		}
		break
	case time.Time:
		t := v.(time.Time).UTC()
		if strings.Contains(db, "oci8") {
			ret = "to_date('" + t.Format("2006-01-02 15:04:05") + "','yyyy-mm-dd hh24:mi:ss')"
		} else {
			ret = "'" + t.Format("2006-01-02 15:04:05") + "'"
		}
		break
	case int, int32, int64, uint, uint32, uint64:
		ret = toolkit.Sprintf("%d", v.(int))
		break
	case nil:
		ret = ""
		break
	case bool:
		// Please check for other database
		switch strings.ToLower(db) {
		case "mssql":
			if v.(bool) {
				ret = toolkit.Sprintf("%v", 1)
			} else {
				ret = toolkit.Sprintf("%v", 0)
			}
			break
		default:
			ret = toolkit.Sprintf("%v", v)
		}
		break
	case []string:
		for x, i := range v.([]string) {
			if x == 0 {
				ret += "'" + i + "'"
			} else {
				ret += ",'" + i + "'"
			}
		}
		break
	default:
		ret = toolkit.Sprintf("%v", v)
		break
	}
	return ret
}
Beispiel #23
0
func RandomIDWithPrefix(prefix string) string {
	timestamp := time.Now().UnixNano() / int64(time.Millisecond)
	return toolkit.Sprintf("%s%d", prefix, timestamp)
}
Beispiel #24
0
func (d *DataSourceController) ConnectToDataSourceDB(payload toolkit.M) (int, []toolkit.M, *colonycore.DataBrowser, error) {
	var hasLookup bool
	toolkit.Println("payload : ", payload)
	if payload.Has("haslookup") {
		hasLookup = payload.Get("haslookup").(bool)
	}
	_id := toolkit.ToString(payload.Get("browserid", ""))
	sort := payload.Get("sort")
	search := payload.Get("search")
	_ = search
	take := toolkit.ToInt(payload.Get("take", ""), toolkit.RoundingAuto)
	skip := toolkit.ToInt(payload.Get("skip", ""), toolkit.RoundingAuto)

	TblName := toolkit.M{}
	payload.Unset("browserid")
	//sorter = ""
	if sort != nil {
		tmsort, _ := toolkit.ToM(sort.([]interface{})[0])
		fmt.Printf("====== sort %#v\n", tmsort["dir"])
		if tmsort["dir"] == "asc" {
			sorter = tmsort["field"].(string)
		} else if tmsort["dir"] == "desc" {
			sorter = "-" + tmsort["field"].(string)
		} else if tmsort["dir"] == nil {
			sorter = " "
		}
	} else {
		sorter = " "
	}

	dataDS := new(colonycore.DataBrowser)
	err := colonycore.Get(dataDS, _id)
	if err != nil {
		return 0, nil, nil, err
	}

	dataConn := new(colonycore.Connection)
	err = colonycore.Get(dataConn, dataDS.ConnectionID)
	if err != nil {
		return 0, nil, nil, err
	}

	if err := d.checkIfDriverIsSupported(dataConn.Driver); err != nil {
		return 0, nil, nil, err
	}

	connection, err := helper.ConnectUsingDataConn(dataConn).Connect()
	if err != nil {
		return 0, nil, nil, err
	}

	if dataDS.QueryType == "" {
		TblName.Set("from", dataDS.TableNames)
		payload.Set("from", dataDS.TableNames)
	} else if dataDS.QueryType == "Dbox" {
		getTableName := toolkit.M{}
		toolkit.UnjsonFromString(dataDS.QueryText, &getTableName)
		payload.Set("from", getTableName.Get("from").(string))

		if qSelect := getTableName.Get("select", "").(string); qSelect != "" {
			payload.Set("select", getTableName.Get("select").(string))
		}
	} else if dataDS.QueryType == "SQL" {
		var QueryString string
		if dataConn.Driver == "mysql" || dataConn.Driver == "hive" {
			QueryString = " LIMIT " + toolkit.ToString(take) + " OFFSET " + toolkit.ToString(skip)
		} else if dataConn.Driver == "mssql" {
			QueryString = " OFFSET " + toolkit.ToString(skip) + " ROWS FETCH NEXT " +
				toolkit.ToString(take) + " ROWS ONLY "

		} else if dataConn.Driver == "postgres" {
			QueryString = " LIMIT " + toolkit.ToString(take) +
				" OFFSET " + toolkit.ToString(skip)
		}
		stringQuery := toolkit.Sprintf("%s %s", dataDS.QueryText, QueryString)
		payload.Set("freetext", stringQuery)
		// toolkit.Println(stringQuery)
	}

	qcount, _ := d.parseQuery(connection.NewQuery(), TblName)
	query, _ := d.parseQuery(connection.NewQuery() /*.Skip(skip).Take(take) .Order(sorter)*/, payload)

	var selectfield string
	for _, metadata := range dataDS.MetaData {
		tField := metadata.Field
		if payload.Has(tField) {
			selectfield = toolkit.ToString(tField)
			if toolkit.IsSlice(payload[tField]) {
				query = query.Where(dbox.In(tField, payload[tField].([]interface{})...))
				qcount = qcount.Where(dbox.In(tField, payload[tField].([]interface{})...))
			} else if !toolkit.IsNilOrEmpty(payload[tField]) {
				var hasPattern bool
				for _, val := range querypattern {
					if strings.Contains(toolkit.ToString(payload[tField]), val) {
						hasPattern = true
					}
				}
				if hasPattern {
					query = query.Where(dbox.ParseFilter(toolkit.ToString(tField), toolkit.ToString(payload[tField]),
						toolkit.ToString(metadata.DataType), ""))
					qcount = qcount.Where(dbox.ParseFilter(toolkit.ToString(tField), toolkit.ToString(payload[tField]),
						toolkit.ToString(metadata.DataType), ""))
				} else {
					switch toolkit.ToString(metadata.DataType) {
					case "int":
						query = query.Where(dbox.Eq(tField, toolkit.ToInt(payload[tField], toolkit.RoundingAuto)))
						qcount = qcount.Where(dbox.Eq(tField, toolkit.ToInt(payload[tField], toolkit.RoundingAuto)))
					case "float32":
						query = query.Where(dbox.Eq(tField, toolkit.ToFloat32(payload[tField], 2, toolkit.RoundingAuto)))
						qcount = qcount.Where(dbox.Eq(tField, toolkit.ToFloat32(payload[tField], 2, toolkit.RoundingAuto)))
					case "float64":
						query = query.Where(dbox.Eq(tField, toolkit.ToFloat64(payload[tField], 2, toolkit.RoundingAuto)))
						qcount = qcount.Where(dbox.Eq(tField, toolkit.ToFloat64(payload[tField], 2, toolkit.RoundingAuto)))
					default:
						query = query.Where(dbox.Contains(tField, toolkit.ToString(payload[tField])))
						qcount = qcount.Where(dbox.Contains(tField, toolkit.ToString(payload[tField])))
					}
				}
			}
		}
	}

	if hasLookup && selectfield != "" {
		if toolkit.HasMember(ds_flatfile, dataConn.Driver) {
			query = query.Select(selectfield)
			qcount = qcount.Select(selectfield)
		} else {
			query = query.Select(selectfield).Group(selectfield)
			qcount = qcount.Select(selectfield).Group(selectfield)
		}

	}

	ccount, err := qcount.Cursor(nil)
	if err != nil {
		return 0, nil, nil, err
	}
	defer ccount.Close()

	dcount := ccount.Count()

	cursor, err := query.Cursor(nil)
	if err != nil {
		return 0, nil, nil, err
	}
	defer cursor.Close()

	data := []toolkit.M{}
	cursor.Fetch(&data, 0, false)

	if err != nil {
		return 0, nil, nil, err
	}

	if hasLookup && selectfield != "" && !toolkit.HasMember(ds_rdbms, dataConn.Driver) &&
		!toolkit.HasMember(ds_flatfile, dataConn.Driver) {
		dataMongo := []toolkit.M{}
		for _, val := range data {
			mVal, _ := toolkit.ToM(val.Get("_id"))
			dataMongo = append(dataMongo, mVal)
		}
		data = dataMongo
	} else if hasLookup && selectfield != "" && toolkit.HasMember(ds_flatfile, dataConn.Driver) {
		/*distinct value for flat file*/
		dataFlat := []toolkit.M{}
		var existingVal = []string{""}
		for _, val := range data {
			valString := toolkit.ToString(val.Get(selectfield))
			if !toolkit.HasMember(existingVal, valString) {
				dataFlat = append(dataFlat, val)
				existingVal = append(existingVal, valString)
			}
		}
		data = dataFlat
	}

	return dcount, data, dataDS, nil
}
Beispiel #25
0
func (c *AccountController) ForgotPassword(k *knot.WebContext) interface{} {
	k.Config.OutputType = knot.OutputJson

	var e error
	result := ""
	d := struct {
		UserEmail string
	}{}

	e = k.GetPayload(&d)

	csr, e := c.Ctx.Find(new(UserModel), tk.M{}.Set("where", dbox.Eq("Email", d.UserEmail)))
	defer csr.Close()
	Users := []*UserModel{}
	e = csr.Fetch(&Users, 0, false)
	if e != nil {
		return ResultInfo(result, e)
	}

	if len(Users) > 0 {
		user := Users[0]
		var letterRunes = []rune("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ")

		b := make([]rune, 5)
		for i := range b {
			b[i] = letterRunes[rand.Intn(len(letterRunes))]
		}
		newPassword := string(b)
		user.PasswordHash = GetMD5Hash(newPassword)
		e = c.Ctx.Delete(user)
		if e != nil {
			return ResultInfo(result, e)
		}
		e = c.Ctx.Save(user)
		if e != nil {
			return ResultInfo(result, e)
		}
		conf := gomail.NewDialer("smtp.office365.com", 587, "*****@*****.**", "B920Support")
		s, e := conf.Dial()
		if e != nil {

			return ResultInfo(result, e)
		}

		mailsubj := tk.Sprintf("%v", "[NOREPLY] Forgot Password SEC Apps")
		mailmsg := tk.Sprintf("Dear %v \n\n This is your new password : %v \n\nThis mail has been sent from forgot password feature and if you did not initiate this change, please contact your System Administrator", user.FullName, newPassword)

		m := gomail.NewMessage()

		m.SetHeader("From", "*****@*****.**")
		m.SetHeader("To", "*****@*****.**")
		m.SetHeader("Subject", mailsubj)
		m.SetBody("text/html", mailmsg)

		e = gomail.Send(s, m)
		m.Reset()
		if e != nil {
			return ResultInfo(result, e)
		}
		result = "OK"
	} else {
		result = "NOK"
	}

	return ResultInfo(result, e)
}
Beispiel #26
0
func (d *DataBrowserController) hasAggr(ctx dbox.IConnection, data *colonycore.DataBrowser, conn *colonycore.Connection) (*colonycore.DataBrowser, error) {
	var fieldArr, aggrArr []string
	var indexAggr []map[int]string
	var query dbox.IQuery
	fieldAggr := toolkit.M{}

	for i, v := range data.MetaData {
		if v.Aggregate != "" {
			result := toolkit.M{}
			toolkit.UnjsonFromString(v.Aggregate, &result)
			cursor := []toolkit.M{}

			if data.QueryType == "" {
				aggregate, e := d.dboxAggr(data.TableNames, v.Field, ctx, query, result, fieldAggr, cursor, conn)
				if e != nil {
					return nil, e
				}
				v.Aggregate = toolkit.JsonString(aggregate)
			} else if data.QueryType == "SQL" {
				names := map[int]string{}
				fieldArr = append(fieldArr, v.Field)

				if _, sumOK := result["SUM"]; sumOK {
					aggrArr = append(aggrArr, "SUM("+v.Field+")")
					if len(result) > 1 {
						indexAggr = append(indexAggr, map[int]string{i: "sum"})
					} else {
						names[i] = "sum"
					}
				}
				if _, avgOK := result["AVG"]; avgOK {
					aggrArr = append(aggrArr, "AVG("+v.Field+")")
					if len(result) > 1 {
						indexAggr = append(indexAggr, map[int]string{i: "avg"})
					} else {
						names[i] = "avg"
					}
				}
				if _, maxOK := result["MAX"]; maxOK {
					aggrArr = append(aggrArr, "MAX("+v.Field+")")
					if len(result) > 1 {
						indexAggr = append(indexAggr, map[int]string{i: "max"})
					} else {
						names[i] = "max"
					}
				}
				if _, minOK := result["MIN"]; minOK {
					aggrArr = append(aggrArr, "MIN("+v.Field+")")
					if len(result) > 1 {
						indexAggr = append(indexAggr, map[int]string{i: "min"})
					} else {
						names[i] = "min"
					}
				}
				if _, minOK := result["COUNT"]; minOK {
					aggrArr = append(aggrArr, "COUNT("+v.Field+")")
					if len(result) > 1 {
						indexAggr = append(indexAggr, map[int]string{i: "count"})
					} else {
						names[i] = "count"
					}
				}

				if len(result) > 1 {
					fieldAggr.Set(v.Field, indexAggr)
				} else {
					fieldAggr.Set(v.Field, names)
				}
			} else if data.QueryType == "Dbox" {
				getQuery := toolkit.M{}
				toolkit.UnjsonFromString(data.QueryText, &getQuery)

				aggregate, e := d.dboxAggr(getQuery.Get("from").(string), v.Field, ctx, query, result, fieldAggr, cursor, conn)
				if e != nil {
					return nil, e
				}
				v.Aggregate = toolkit.JsonString(aggregate)
			}
		}
	}

	if data.QueryType == "SQL" {
		// fieldString := strings.Join(fieldArr, ", ")
		aggrString := strings.Join(aggrArr, ", ")
		var queryText string
		r := regexp.MustCompile(`(([Ff][Rr][Oo][Mm])) (?P<from>([a-zA-Z][_a-zA-Z]+[_a-zA-Z0-1].*))`)
		temparray := r.FindStringSubmatch(data.QueryText)
		sqlpart := toolkit.M{}

		for i, val := range r.SubexpNames() {
			if val != "" {
				sqlpart.Set(val, temparray[i])
			}
		}

		if fromOK := sqlpart.Get("from", "").(string); fromOK != "" {
			queryText = toolkit.Sprintf("select %s FROM %s", aggrString, sqlpart.Get("from", "").(string))
			// toolkit.Printf("queryString:%v\n", queryString)
		}

		query = ctx.NewQuery().Command("freequery", toolkit.M{}.
			Set("syntax", queryText))

		csr, e := query.Cursor(nil)
		if e != nil {
			return nil, e
		}
		defer csr.Close()

		cursor := []toolkit.M{}
		e = csr.Fetch(&cursor, 0, false)
		if e != nil {
			return nil, e
		}

		for f, m := range fieldAggr {
			aggrData := toolkit.M{}
			for _, aggs := range cursor {
				for k, agg := range aggs {
					if toolkit.SliceLen(m) > 0 {
						for _, vals := range m.([]map[int]string) {
							for key, val := range vals {
								if strings.Contains(k, f) && strings.Contains(k, data.MetaData[key].Field) && strings.Contains(k, val) {
									aggrData.Set(val, agg)
									data.MetaData[key].Aggregate = toolkit.JsonString(aggrData)
								}
							}
						}
					} else {
						for key, val := range m.(map[int]string) {
							if strings.Contains(k, f) && strings.Contains(k, data.MetaData[key].Field) && strings.Contains(k, val) {
								aggrData.Set(val, agg)
								data.MetaData[key].Aggregate = toolkit.JsonString(aggrData)
								// toolkit.Printf("k:%v f:%v key:%v val:%v agg:%v\n", k, f, key, val, data.MetaData[key].Aggregate)
							}
						}
					}
				}
			}

		}
	}

	return data, nil
}
Beispiel #27
-33
func (sm *StructModel) buildMethod(
	pkg *PackageModel, methodType string, fields string) string {
	fieldIds := strings.Split(fields, ",")
	fieldNameConcat := ""
	filter := ""
	filtersEq := []string{}
	parmNames := []string{}
	for _, fieldId := range fieldIds {
		fieldId = strings.Trim(fieldId, " ")
		field := sm.Field(fieldId)
		if field != nil {
			fieldNameConcat += field.Name
			parmNames = append(parmNames,
				toolkit.Sprintf("p%s %s", field.Name, field.Type))
			fieldNameFn := strings.ToLower(field.Name)
			if fieldNameFn == "id" {
				fieldNameFn = "_id"
			}
			filtersEq = append(filtersEq,
				toolkit.Formatf(`dbox.Eq("{0}",{1})`,
					fieldNameFn,
					"p"+field.Name))
		}
	}
	if len(filtersEq) == 1 {
		filter = filtersEq[0]
	} else if len(filtersEq) > 1 {
		filter = "dbox.And(" + strings.Join(filtersEq, ",") + ")"
	}

	var tpl string
	if methodType == MethodFind {
		tpl = `
            func {0}FindBy{1}({2},fields string,limit,skip int) dbox.ICursor{
			return {0}Find({3},orders,"",limit,skip)
			}`
	} else {
		tpl = `
            func {0}GetBy{1}({2},orders string)(*{0},error){
			    return {0}Get({3},orders,0)
			}
            `
	}
	return toolkit.Formatf(tpl,
		sm.Name,                      //--0
		fieldNameConcat,              //--1
		strings.Join(parmNames, ","), //--2
		filter)
}