internal/pkg/afrouter/cluster.go - voltha-api-server - Gitiles

 /*
  * Copyright 2019-present Open Networking Foundation

  * 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 afrouter

 import (
 	"errors"
 	"fmt"
 	"github.com/google/uuid"
 	"github.com/opencord/voltha-go/common/log"
 	"google.golang.org/grpc"
 )

 var clusters = make(map[string]*cluster)

 // cluster a collection of HA backends
 type cluster struct {
 	name string
 	//backends map[string]*backend
 	backends     []*backend
 	backendIDMap map[*backend]int
 }

 //TODO: Move the backend type (active/active etc) to the cluster
 // level. All backends should really be of the same type.
 // Create a new backend cluster
 func newBackendCluster(conf *BackendClusterConfig) (*cluster, error) {
 	var err error = nil
 	var rtrn_err = false
 	var be *backend
 	log.Debugf("Creating a backend cluster with %v", conf)
 	// Validate the configuration
 	if conf.Name == "" {
 		log.Error("A backend cluster must have a name")
 		rtrn_err = true
 	}
 	//bc :=  &cluster{name:conf.Name,backends:make(map[string]*backend)}
 	bc := &cluster{name: conf.Name, backendIDMap: make(map[*backend]int)}
 	clusters[bc.name] = bc
 	idx := 0
 	for _, bec := range conf.Backends {
 		if bec.Name == "" {
 			log.Errorf("A backend must have a name in cluster %s\n", conf.Name)
 			rtrn_err = true
 		}
 		if be, err = newBackend(&bec, conf.Name); err != nil {
 			log.Errorf("Error creating backend %s", bec.Name)
 			rtrn_err = true
 		}
 		bc.backends = append(bc.backends, be)
 		bc.backendIDMap[bc.backends[idx]] = idx
 		idx++
 	}
 	if rtrn_err {
 		return nil, errors.New("Error creating backend(s)")
 	}
 	return bc, nil
 }

 func (c *cluster) getBackend(name string) *backend {
 	for _, v := range c.backends {
 		if v.name == name {
 			return v
 		}
 	}
 	return nil
 }

 func (c *cluster) allocateSerialNumber() string {
 	return uuid.New().String()
 }

 func (c *cluster) nextBackend(be *backend, seq backendSequence) (*backend, error) {
 	switch seq {
 	case BackendSequenceRoundRobin: // Round robin
 		in := be
 		// If no backend is found having a connection
 		// then return nil.
 		if be == nil {
 			log.Debug("Previous backend is nil")
 			be = c.backends[0]
 			in = be
 			if be.NumOpenConnections() != 0 {
 				return be, nil
 			}
 		}
 		for {
 			log.Debugf("Requesting a new backend starting from %s", be.name)
 			cur := c.backendIDMap[be]
 			cur++
 			if cur >= len(c.backends) {
 				cur = 0
 			}
 			log.Debugf("Next backend is %d:%s", cur, c.backends[cur].name)
 			if c.backends[cur].NumOpenConnections() > 0 {
 				return c.backends[cur], nil
 			}
 			if c.backends[cur] == in {
 				err := fmt.Errorf("No backend with open connections found")
 				log.Debug(err)
 				return nil, err
 			}
 			be = c.backends[cur]
 			log.Debugf("Backend '%s' has no open connections, trying next", c.backends[cur].name)
 		}
 	default: // Invalid, default to round robin
 		log.Errorf("Invalid backend sequence %d. Defaulting to round robin", seq)
 		return c.nextBackend(be, BackendSequenceRoundRobin)
 	}
 }

 func (c *cluster) handler(srv interface{}, serverStream grpc.ServerStream, r Router, methodInfo methodDetails,
 	mk string, mv string) error {
 	//func (c *cluster) handler(nbR * nbRequest) error {

 	// The final backend cluster needs to be determined here. With non-affinity routed backends it could
 	// just be determined here and for affinity routed backends the first message must be received
 	// before the backend is determined. In order to keep things simple, the same approach is taken for
 	// now.

 	// Get the backend to use.
 	// Allocate the requestFrame here since it holds the "context" of this communication
 	nf := &requestFrame{router: r, methodInfo: methodInfo, serialNo: c.allocateSerialNumber(), metaKey: mk, metaVal: mv}
 	log.Debugf("Nb frame allocate with method %s", nf.methodInfo.method)

 	if be, err := c.assignBackend(serverStream, nf); err != nil {
 		// At this point, no backend streams have been initiated
 		// so just return the error.
 		return err
 	} else {
 		log.Debugf("Backend '%s' selected", be.name)
 		// Allocate a responseFrame here because it might be needed for return value intercept
 		sf := &responseFrame{router: r, backend: be, method: nf.methodInfo.method, metaKey: mk, metaVal: mv}
 		log.Debugf("Sb frame allocated with router %s", r.Name())
 		return be.handler(srv, serverStream, nf, sf)
 	}
 }

 func (c *cluster) assignBackend(src grpc.ServerStream, f *requestFrame) (*backend, error) {
 	// Receive the first message from the server. This calls the assigned codec in which
 	// Unmarshal gets executed. That will use the assigned router to select a backend
 	// and add it to the frame
 	if err := src.RecvMsg(f); err != nil {
 		return nil, err
 	}
 	// Check that the backend was routable and actually has connections open.
 	// If it doesn't then return a nil backend to indicate this
 	if f.backend == nil {
 		err := fmt.Errorf("Unable to route method '%s'", f.methodInfo.method)
 		log.Error(err)
 		return nil, err
 	} else if len(f.backend.openConns) == 0 {
 		err := fmt.Errorf("No open connections on backend '%s'", f.backend.name)
 		log.Error(err)
 		return f.backend, err
 	}
 	log.Debugf("Assigned backend %s", f.backend.name)
 	return f.backend, nil
 }
	/*
	* Copyright 2019-present Open Networking Foundation

	* 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 afrouter

	import (
	"errors"
	"fmt"
	"github.com/google/uuid"
	"github.com/opencord/voltha-go/common/log"
	"google.golang.org/grpc"
	)

	var clusters = make(map[string]*cluster)

	// cluster a collection of HA backends
	type cluster struct {
	name string
	//backends map[string]*backend
	backends []*backend
	backendIDMap map[*backend]int
	}

	//TODO: Move the backend type (active/active etc) to the cluster
	// level. All backends should really be of the same type.
	// Create a new backend cluster
	func newBackendCluster(conf BackendClusterConfig) (cluster, error) {
	var err error = nil
	var rtrn_err = false
	var be *backend
	log.Debugf("Creating a backend cluster with %v", conf)
	// Validate the configuration
	if conf.Name == "" {
	log.Error("A backend cluster must have a name")
	rtrn_err = true
	}
	//bc := &cluster{name:conf.Name,backends:make(map[string]*backend)}
	bc := &cluster{name: conf.Name, backendIDMap: make(map[*backend]int)}
	clusters[bc.name] = bc
	idx := 0
	for _, bec := range conf.Backends {
	if bec.Name == "" {
	log.Errorf("A backend must have a name in cluster %s\n", conf.Name)
	rtrn_err = true
	}
	if be, err = newBackend(&bec, conf.Name); err != nil {
	log.Errorf("Error creating backend %s", bec.Name)
	rtrn_err = true
	}
	bc.backends = append(bc.backends, be)
	bc.backendIDMap[bc.backends[idx]] = idx
	idx++
	}
	if rtrn_err {
	return nil, errors.New("Error creating backend(s)")
	}
	return bc, nil
	}

	func (c cluster) getBackend(name string) backend {
	for _, v := range c.backends {
	if v.name == name {
	return v
	}
	}
	return nil
	}

	func (c *cluster) allocateSerialNumber() string {
	return uuid.New().String()
	}

	func (c cluster) nextBackend(be backend, seq backendSequence) (*backend, error) {
	switch seq {
	case BackendSequenceRoundRobin: // Round robin
	in := be
	// If no backend is found having a connection
	// then return nil.
	if be == nil {
	log.Debug("Previous backend is nil")
	be = c.backends[0]
	in = be
	if be.NumOpenConnections() != 0 {
	return be, nil
	}
	}
	for {
	log.Debugf("Requesting a new backend starting from %s", be.name)
	cur := c.backendIDMap[be]
	cur++
	if cur >= len(c.backends) {
	cur = 0
	}
	log.Debugf("Next backend is %d:%s", cur, c.backends[cur].name)
	if c.backends[cur].NumOpenConnections() > 0 {
	return c.backends[cur], nil
	}
	if c.backends[cur] == in {
	err := fmt.Errorf("No backend with open connections found")
	log.Debug(err)
	return nil, err
	}
	be = c.backends[cur]
	log.Debugf("Backend '%s' has no open connections, trying next", c.backends[cur].name)
	}
	default: // Invalid, default to round robin
	log.Errorf("Invalid backend sequence %d. Defaulting to round robin", seq)
	return c.nextBackend(be, BackendSequenceRoundRobin)
	}
	}

	func (c *cluster) handler(srv interface{}, serverStream grpc.ServerStream, r Router, methodInfo methodDetails,
	mk string, mv string) error {
	//func (c cluster) handler(nbR nbRequest) error {

	// The final backend cluster needs to be determined here. With non-affinity routed backends it could
	// just be determined here and for affinity routed backends the first message must be received
	// before the backend is determined. In order to keep things simple, the same approach is taken for
	// now.

	// Get the backend to use.
	// Allocate the requestFrame here since it holds the "context" of this communication
	nf := &requestFrame{router: r, methodInfo: methodInfo, serialNo: c.allocateSerialNumber(), metaKey: mk, metaVal: mv}
	log.Debugf("Nb frame allocate with method %s", nf.methodInfo.method)

	if be, err := c.assignBackend(serverStream, nf); err != nil {
	// At this point, no backend streams have been initiated
	// so just return the error.
	return err
	} else {
	log.Debugf("Backend '%s' selected", be.name)
	// Allocate a responseFrame here because it might be needed for return value intercept
	sf := &responseFrame{router: r, backend: be, method: nf.methodInfo.method, metaKey: mk, metaVal: mv}
	log.Debugf("Sb frame allocated with router %s", r.Name())
	return be.handler(srv, serverStream, nf, sf)
	}
	}

	func (c cluster) assignBackend(src grpc.ServerStream, f requestFrame) (*backend, error) {
	// Receive the first message from the server. This calls the assigned codec in which
	// Unmarshal gets executed. That will use the assigned router to select a backend
	// and add it to the frame
	if err := src.RecvMsg(f); err != nil {
	return nil, err
	}
	// Check that the backend was routable and actually has connections open.
	// If it doesn't then return a nil backend to indicate this
	if f.backend == nil {
	err := fmt.Errorf("Unable to route method '%s'", f.methodInfo.method)
	log.Error(err)
	return nil, err
	} else if len(f.backend.openConns) == 0 {
	err := fmt.Errorf("No open connections on backend '%s'", f.backend.name)
	log.Error(err)
	return f.backend, err
	}
	log.Debugf("Assigned backend %s", f.backend.name)
	return f.backend, nil
	}