ctrl/requests_keys.go

package steward

import (
	"bytes"
	"encoding/json"
	"fmt"
	"log"
)

// ---

type methodREQPublicKey struct {
	event Event
}

func (m methodREQPublicKey) getKind() Event {
	return m.event
}

// Handler to get the public ed25519 key from a node.
func (m methodREQPublicKey) handler(proc process, message Message, node string) ([]byte, error) {
	// Get a context with the timeout specified in message.MethodTimeout.
	ctx, _ := getContextForMethodTimeout(proc.ctx, message)

	proc.processes.wg.Add(1)
	go func() {
		defer proc.processes.wg.Done()
		outCh := make(chan []byte)

		go func() {
			// Normally we would do some logic here, where the result is passed to outCh when done,
			// so we can split up the working logic, and f.ex. sending a reply logic.
			// In this case this go func and the below select is not needed, but keeping it so the
			// structure is the same as the other handlers.
			select {
			case <-ctx.Done():
			case outCh <- proc.nodeAuth.SignPublicKey:
			}
		}()

		select {
		// case proc.toRingbufferCh <- []subjectAndMessage{sam}:
		case <-ctx.Done():
		case out := <-outCh:

			// Prepare and queue for sending a new message with the output
			// of the action executed.
			newReplyMessage(proc, message, out)
		}
	}()

	// Send back an ACK message.
	ackMsg := []byte("confirmed from: " + node + ": " + fmt.Sprint(message.ID))
	return ackMsg, nil
}

// ----

type methodREQKeysRequestUpdate struct {
	event Event
}

func (m methodREQKeysRequestUpdate) getKind() Event {
	return m.event
}

// Handler to get all the public ed25519 keys from a central server.
func (m methodREQKeysRequestUpdate) handler(proc process, message Message, node string) ([]byte, error) {
	// Get a context with the timeout specified in message.MethodTimeout.

	// TODO:
	// - Since this is implemented as a NACK message we could implement a
	//   metric thats shows the last time a node did a key request.
	// - We could also implement a metrics on the receiver showing the last
	//   time a node had done an update.

	ctx, _ := getContextForMethodTimeout(proc.ctx, message)

	proc.processes.wg.Add(1)
	go func() {
		defer proc.processes.wg.Done()
		outCh := make(chan []byte)

		go func() {
			// Normally we would do some logic here, where the result is passed to outCh when done,
			// so we can split up the working logic, and f.ex. sending a reply logic.
			// In this case this go func and the below select is not needed, but keeping it so the
			// structure is the same as the other handlers.
			select {
			case <-ctx.Done():
			// TODO: Should we receive a hash of he current keys from the node here
			// to verify if we need to update or not ?
			case outCh <- []byte{}:
			}
		}()

		select {
		case <-ctx.Done():
		// case out := <-outCh:
		case <-outCh:
			// Using a func here to set the scope of the lock, and then be able to
			// defer the unlock when leaving that scope.
			func() {
				proc.centralAuth.pki.nodesAcked.mu.Lock()
				defer proc.centralAuth.pki.nodesAcked.mu.Unlock()

				fmt.Printf(" <---- methodREQKeysRequestUpdate: received hash from NODE=%v, HASH=%v\n", message.FromNode, message.Data)

				// Check if the received hash is the same as the one currently active,
				if bytes.Equal(proc.centralAuth.pki.nodesAcked.keysAndHash.Hash[:], message.Data) {
					fmt.Printf("\n --- methodREQKeysRequestUpdate:  NODE AND CENTRAL HAVE EQUAL KEYS, NOTHING TO DO, EXITING HANDLER\n\n")
					return
				}

				fmt.Printf("\n ------------methodREQKeysRequestUpdate: NODE AND CENTRAL HAD NOT EQUAL KEYS, PREPARING TO SEND NEW VERSION OF KEYS\n\n")

				fmt.Printf(" *     methodREQKeysRequestUpdate: marshalling new keys and hash to send: map=%v, hash=%v\n\n", proc.centralAuth.pki.nodesAcked.keysAndHash.Keys, proc.centralAuth.pki.nodesAcked.keysAndHash.Hash)

				b, err := json.Marshal(proc.centralAuth.pki.nodesAcked.keysAndHash)

				if err != nil {
					er := fmt.Errorf("error: methodREQKeysRequestUpdate, failed to marshal keys map: %v", err)
					proc.errorKernel.errSend(proc, message, er)
				}
				fmt.Printf("\n ----> methodREQKeysRequestUpdate: SENDING KEYS TO NODE=%v\n", message.FromNode)
				newReplyMessage(proc, message, b)
			}()
		}
	}()

	// NB: We're not sending an ACK message for this request type.
	return nil, nil
}

// ----

type methodREQKeysDeliverUpdate struct {
	event Event
}

func (m methodREQKeysDeliverUpdate) getKind() Event {
	return m.event
}

// Handler to receive the public keys from a central server.
func (m methodREQKeysDeliverUpdate) handler(proc process, message Message, node string) ([]byte, error) {
	// Get a context with the timeout specified in message.MethodTimeout.

	// TODO:
	// - Since this is implemented as a NACK message we could implement a
	//   metric thats shows the last time keys were updated.

	ctx, _ := getContextForMethodTimeout(proc.ctx, message)

	proc.processes.wg.Add(1)
	go func() {
		defer proc.processes.wg.Done()
		outCh := make(chan []byte)

		go func() {
			// Normally we would do some logic here, where the result is passed to outCh when done,
			// so we can split up the working logic, and f.ex. sending a reply logic.
			// In this case this go func and the below select is not needed, but keeping it so the
			// structure is the same as the other handlers.
			select {
			case <-ctx.Done():
			// TODO: Should we receive a hash of he current keys from the node here ?
			case outCh <- []byte{}:
			}
		}()

		select {
		// case proc.toRingbufferCh <- []subjectAndMessage{sam}:
		case <-ctx.Done():
		case <-outCh:

			proc.nodeAuth.publicKeys.mu.Lock()

			var keysAndHash keysAndHash

			err := json.Unmarshal(message.Data, &keysAndHash)
			if err != nil {
				er := fmt.Errorf("error: REQKeysDeliverUpdate : json unmarshal failed: %v, message: %v", err, message)
				proc.errorKernel.errSend(proc, message, er)
			}

			fmt.Printf("\n <---- REQKeysDeliverUpdate: after unmarshal, nodeAuth keysAndhash contains: %+v\n\n", keysAndHash)

			// If the received map was empty we also want to delete all the locally stored keys,
			// else we copy the marshaled keysAndHash we received from central into our map.
			if len(keysAndHash.Keys) < 1 {
				proc.nodeAuth.publicKeys.keysAndHash = newKeysAndHash()
			} else {
				proc.nodeAuth.publicKeys.keysAndHash = &keysAndHash
			}

			proc.nodeAuth.publicKeys.mu.Unlock()

			if err != nil {
				er := fmt.Errorf("error: REQKeysDeliverUpdate : json unmarshal failed: %v, message: %v", err, message)
				proc.errorKernel.errSend(proc, message, er)
			}

			// We need to also persist the hash on the receiving nodes. We can then load
			// that key upon startup.

			err = proc.nodeAuth.publicKeys.saveToFile()
			if err != nil {
				er := fmt.Errorf("error: REQKeysDeliverUpdate : save to file failed: %v, message: %v", err, message)
				proc.errorKernel.errSend(proc, message, er)
			}

			// Prepare and queue for sending a new message with the output
			// of the action executed.
			// newReplyMessage(proc, message, out)
		}
	}()

	// Send back an ACK message.
	// ackMsg := []byte("confirmed from: " + node + ": " + fmt.Sprint(message.ID))
	return nil, nil
}

// ----

// TODO: We should also add a request method methodREQPublicKeysRevoke

type methodREQKeysAllow struct {
	event Event
}

func (m methodREQKeysAllow) getKind() Event {
	return m.event
}

// Handler to allow new public keys into the database on central auth.
// Nodes will send the public key in the REQHello messages. When they
// are recived on the central server they will be put into a temp key
// map, and we need to acknowledge them before they are moved into the
// main key map, and then allowed to be sent out to other nodes.
func (m methodREQKeysAllow) handler(proc process, message Message, node string) ([]byte, error) {
	// Get a context with the timeout specified in message.MethodTimeout.
	ctx, _ := getContextForMethodTimeout(proc.ctx, message)

	proc.processes.wg.Add(1)
	go func() {
		defer proc.processes.wg.Done()
		outCh := make(chan []byte)

		go func() {
			// Normally we would do some logic here, where the result is passed to outCh when done,
			// so we can split up the working logic, and f.ex. sending a reply logic.
			// In this case this go func and the below select is not needed, but keeping it so the
			// structure is the same as the other handlers.
			select {
			case <-ctx.Done():
			case outCh <- []byte{}:
			}
		}()

		select {
		case <-ctx.Done():
		case <-outCh:
			proc.centralAuth.pki.nodeNotAckedPublicKeys.mu.Lock()
			defer proc.centralAuth.pki.nodeNotAckedPublicKeys.mu.Unlock()

			// Range over all the MethodArgs, where each element represents a node to allow,
			// and move the node from the notAcked map to the allowed map.
			for _, n := range message.MethodArgs {
				key, ok := proc.centralAuth.pki.nodeNotAckedPublicKeys.KeyMap[Node(n)]
				if ok {

					func() {
						proc.centralAuth.pki.nodesAcked.mu.Lock()
						defer proc.centralAuth.pki.nodesAcked.mu.Unlock()

						// Store/update the node and public key on the allowed pubKey map.
						proc.centralAuth.pki.nodesAcked.keysAndHash.Keys[Node(n)] = key
					}()

					// Add key to persistent storage.
					proc.centralAuth.pki.dbUpdatePublicKey(string(n), key)

					// Delete the key from the NotAcked map
					delete(proc.centralAuth.pki.nodeNotAckedPublicKeys.KeyMap, Node(n))

					er := fmt.Errorf("info: REQKeysAllow : allowed new/updated public key for %v to allowed public key map", n)
					proc.errorKernel.infoSend(proc, message, er)
				}
			}

			// All new elements are now added, and we can create a new hash
			// representing the current keys in the allowed map.
			proc.centralAuth.updateHash(proc, message)

			// TODO: FAILS: The push keys updates when change fails with that the
			// subscriber gets stuck. Need to look more into this later.
			// Disabling for now since the node will update at the timed interval.
			//
			// // If new keys were allowed into the main map, we should send out one
			// // single update to all the registered nodes to inform of an update.
			// // NB: If a node is not reachable at the time the update is sent it is
			// // not a problem since the nodes will periodically check for updates.
			// //
			// // If there are errors we will return from the function, and send no
			// // updates.
			// err := func() error {
			// 	var knh []byte
			//
			// 	err := func() error {
			// 		proc.centralAuth.pki.nodesAcked.mu.Lock()
			// 		defer proc.centralAuth.pki.nodesAcked.mu.Unlock()
			//
			// 		b, err := json.Marshal(proc.centralAuth.pki.nodesAcked.keysAndHash)
			// 		if err != nil {
			// 			er := fmt.Errorf("error: methodREQKeysAllow, failed to marshal keys map: %v", err)
			// 			return er
			// 		}
			//
			// 		copy(knh, b)
			//
			// 		return nil
			// 	}()
			//
			// 	if err != nil {
			// 		return err
			// 	}
			//
			// 	// proc.centralAuth.pki.nodeNotAckedPublicKeys.mu.Lock()
			// 	// defer proc.centralAuth.pki.nodeNotAckedPublicKeys.mu.Unlock()
			//
			// 	// For all nodes that is not ack'ed we try to send an update once.
			// 	for n := range proc.centralAuth.pki.nodeNotAckedPublicKeys.KeyMap {
			// 		msg := Message{
			// 			ToNode:      n,
			// 			Method:      REQKeysDeliverUpdate,
			// 			ReplyMethod: REQNone,
			// 		}
			//
			// 		sam, err := newSubjectAndMessage(msg)
			// 		if err != nil {
			// 			// In theory the system should drop the message before it reaches here.
			// 			er := fmt.Errorf("error: newSubjectAndMessage : %v, message: %v", err, message)
			// 			proc.errorKernel.errSend(proc, message, er)
			// 		}
			//
			// 		proc.toRingbufferCh <- []subjectAndMessage{sam}
			//
			// 		fmt.Printf("\n ----> methodREQKeysAllow: SENDING KEYS TO NODE=%v\n", message.FromNode)
			// 	}
			//
			// 	// Create the data payload of the current allowed keys.
			// 	b, err := json.Marshal(proc.centralAuth.pki.nodesAcked.keysAndHash)
			//
			// 	if err != nil {
			// 		er := fmt.Errorf("error: methodREQKeysAllow, failed to marshal keys map: %v", err)
			// 		proc.errorKernel.errSend(proc, message, er)
			// 	}
			//
			// 	// For all nodes that is ack'ed we try to send an update once.
			// 	for n := range proc.centralAuth.pki.nodesAcked.keysAndHash.Keys {
			// 		msg := Message{
			// 			ToNode:      n,
			// 			Method:      REQKeysDeliverUpdate,
			// 			Data:        b,
			// 			ReplyMethod: REQNone,
			// 		}
			//
			// 		sam, err := newSubjectAndMessage(msg)
			// 		if err != nil {
			// 			// In theory the system should drop the message before it reaches here.
			// 			er := fmt.Errorf("error: newSubjectAndMessage : %v, message: %v", err, message)
			// 			proc.errorKernel.errSend(proc, message, er)
			// 		}
			//
			// 		proc.toRingbufferCh <- []subjectAndMessage{sam}
			//
			// 		log.Printf("\n ----> methodREQKeysAllow: sending keys update to node=%v\n", message.FromNode)
			// 	}
			//
			// 	return nil
			//
			// }()
			//
			// if err != nil {
			// 	proc.errorKernel.errSend(proc, message, err)
			// 	return
			// }

		}
	}()

	ackMsg := []byte("confirmed from: " + node + ": " + fmt.Sprint(message.ID))
	return ackMsg, nil
}

type methodREQKeysDelete struct {
	event Event
}

func (m methodREQKeysDelete) getKind() Event {
	return m.event
}

func (m methodREQKeysDelete) handler(proc process, message Message, node string) ([]byte, error) {
	inf := fmt.Errorf("<--- methodREQKeysDelete received from: %v, containing: %v", message.FromNode, message.MethodArgs)
	proc.errorKernel.logConsoleOnlyIfDebug(inf, proc.configuration)

	proc.processes.wg.Add(1)
	go func() {
		defer proc.processes.wg.Done()

		// Get a context with the timeout specified in message.MethodTimeout.
		ctx, cancel := getContextForMethodTimeout(proc.ctx, message)
		outCh := make(chan []byte)
		errCh := make(chan error)

		proc.processes.wg.Add(1)
		go func() {
			defer proc.processes.wg.Done()

			switch {
			case len(message.MethodArgs) < 1:
				errCh <- fmt.Errorf("error: methodREQAclGroupNodesDeleteNode: got <1 number methodArgs, want >0")
				return
			}

			// HERE:
			//  We want to be able to define more nodes keys to delete.
			//  Loop over the methodArgs, and call the keyDelete function for each node,
			//  or rewrite the deleteKey to deleteKeys and it takes a []node as input
			//  so all keys can be deleted in 1 go, and we create 1 new hash, instead
			//  of doing it for each node delete.

			proc.centralAuth.deletePublicKeys(proc, message, message.MethodArgs)
			log.Printf(" * DEBUG Deleted public keys: %v\n", message.MethodArgs)

			// All new elements are now added, and we can create a new hash
			// representing the current keys in the allowed map.
			proc.centralAuth.updateHash(proc, message)
			log.Printf(" * DEBUG updated hash for public keys\n")

			outString := fmt.Sprintf("deleted public keys for the nodes=%v\n", message.MethodArgs)
			out := []byte(outString)

			select {
			case outCh <- out:
			case <-ctx.Done():
				return
			}
		}()

		select {
		case err := <-errCh:
			proc.errorKernel.errSend(proc, message, err)

		case <-ctx.Done():
			cancel()
			er := fmt.Errorf("error: methodREQAclGroupNodesDeleteNode: method timed out: %v", message.MethodArgs)
			proc.errorKernel.errSend(proc, message, er)

		case out := <-outCh:
			// Prepare and queue for sending a new message with the output
			// of the action executed.
			newReplyMessage(proc, message, out)
		}

	}()

	ackMsg := []byte("confirmed from: " + node + ": " + fmt.Sprint(message.ID))
	return ackMsg, nil
}