// The structure of how to add new method types to the system. // ----------------------------------------------------------- // All methods need 3 things: // - A type definition // - The type needs a getKind method // - The type needs a handler method // Overall structure example shown below. // // --- // type methodCommandCLICommandRequest struct { // commandOrEvent CommandOrEvent // } // // func (m methodCommandCLICommandRequest) getKind() CommandOrEvent { // return m.commandOrEvent // } // // func (m methodCommandCLICommandRequest) handler(s *server, message Message, node string) ([]byte, error) { // ... // ... // ackMsg := []byte(fmt.Sprintf("confirmed from node: %v: messageID: %v\n---\n%s---", node, message.ID, out)) // return ackMsg, nil // } // // --- // You also need to make a constant for the Method, and add // that constant as the key in the map, where the value is // the actual type you want to map it to with a handler method. // You also specify if it is a Command or Event, and if it is // ACK or NACK. // Check out the existing code below for more examples. package steward import ( "context" "fmt" "path/filepath" "time" ) // Method is used to specify the actual function/method that // is represented in a typed manner. type Method string // ------------------------------------------------------------ // The constants that will be used throughout the system for // when specifying what kind of Method to send or work with. const ( // Initial parent method used to start other processes. REQInitial Method = "REQInitial" // Get a list of all the running processes. REQOpProcessList Method = "REQOpProcessList" // Start up a process. REQOpProcessStart Method = "REQOpProcessStart" // Stop up a process. REQOpProcessStop Method = "REQOpProcessStop" // Execute a CLI command in for example bash or cmd. // This is an event type, where a message will be sent to a // node with the command to execute and an ACK will be replied // if it was delivered succesfully. The output of the command // ran will be delivered back to the node where it was initiated // as a new message. // The data field is a slice of strings where the first string // value should be the command, and the following the arguments. REQCliCommand Method = "REQCliCommand" // REQCliCommandCont same as normal Cli command, but can be used // when running a command that will take longer time and you want // to send the output of the command continually back as it is // generated, and not wait until the command is finished. REQCliCommandCont Method = "REQCliCommandCont" // Send text to be logged to the console. // The data field is a slice of strings where the first string // value should be the command, and the following the arguments. REQToConsole Method = "REQToConsole" // REQTuiToConsole REQTuiToConsole Method = "REQTuiToConsole" // Send text logging to some host by appending the output to a // file, if the file do not exist we create it. // A file with the full subject+hostName will be created on // the receiving end. // The data field is a slice of strings where the values of the // slice will be written to the log file. REQToFileAppend Method = "REQToFileAppend" // Send text to some host by overwriting the existing content of // the fileoutput to a file. If the file do not exist we create it. // A file with the full subject+hostName will be created on // the receiving end. // The data field is a slice of strings where the values of the // slice will be written to the file. REQToFile Method = "REQToFile" // REQToFileNACK same as REQToFile but NACK. REQToFileNACK Method = "REQToFileNACK" // Read the source file to be copied to some node. REQCopyFileFrom Method = "REQCopyFileFrom" // Write the destination copied to some node. REQCopyFileTo Method = "REQCopyFileTo" // Send Hello I'm here message. REQHello Method = "REQHello" // Error log methods to centralError node. REQErrorLog Method = "REQErrorLog" // Echo request will ask the subscriber for a // reply generated as a new message, and sent back to where // the initial request was made. REQPing Method = "REQPing" // Will generate a reply for a ECHORequest REQPong Method = "REQPong" // Http Get REQHttpGet Method = "REQHttpGet" // Http Get Scheduled // The second element of the MethodArgs slice holds the timer defined in seconds. REQHttpGetScheduled Method = "REQHttpGetScheduled" // Tail file REQTailFile Method = "REQTailFile" // Write to steward socket REQRelay Method = "REQRelay" // The method handler for the first step in a relay chain. REQRelayInitial Method = "REQRelayInitial" // REQNone is used when there should be no reply. REQNone Method = "REQNone" // REQPublicKey will get the public ed25519 key from a node. REQPublicKey Method = "REQPublicKey" // REQPublicKeysGet will get all the public keys from central. REQPublicKeysGet Method = "REQPublicKeysGet" // REQPublicKeysToNode will put all the public received from central. REQPublicKeysToNode Method = "REQPublicKeysToNode" // REQAuthPublicKeysAllow REQPublicKeysAllow Method = "REQPublicKeysAllow" // REQAclAddCommand REQAclAddCommand = "REQAclAddCommand" // REQAclDeleteCommand REQAclDeleteCommand = "REQAclDeleteCommand" // REQAclDeleteSource REQAclDeleteSource = "REQAclDeleteSource" // REQGroupNodesAddNode REQAclGroupNodesAddNode = "REQAclGroupNodesAddNode" // REQAclGroupNodesDeleteNode REQAclGroupNodesDeleteNode = "REQAclGroupNodesDeleteNode" // REQAclGroupNodesDeleteGroup REQAclGroupNodesDeleteGroup = "REQAclGroupNodesDeleteGroup" // REQAclGroupCommandsAddCommand REQAclGroupCommandsAddCommand = "REQAclGroupCommandsAddCommand" // REQAclGroupCommandsDeleteCommand REQAclGroupCommandsDeleteCommand = "REQAclGroupCommandsDeleteCommand" // REQAclGroupCommandsDeleteGroup REQAclGroupCommandsDeleteGroup = "REQAclGroupCommandsDeleteGroup" // REQAclExport REQAclExport = "REQAclExport" ) // The mapping of all the method constants specified, what type // it references, and the kind if it is an Event or Command, and // if it is ACK or NACK. // Allowed values for the Event field are: // - EventACK // - EventNack // // The primary use of this table is that messages are not able to // pass the actual type of the request since it is sent as a string, // so we use the below table to find the actual type based on that // string type. func (m Method) GetMethodsAvailable() MethodsAvailable { ma := MethodsAvailable{ Methodhandlers: map[Method]methodHandler{ REQInitial: methodREQInitial{ event: EventACK, }, REQOpProcessList: methodREQOpProcessList{ event: EventACK, }, REQOpProcessStart: methodREQOpProcessStart{ event: EventACK, }, REQOpProcessStop: methodREQOpProcessStop{ event: EventACK, }, REQCliCommand: methodREQCliCommand{ event: EventACK, }, REQCliCommandCont: methodREQCliCommandCont{ event: EventACK, }, REQToConsole: methodREQToConsole{ event: EventACK, }, REQTuiToConsole: methodREQTuiToConsole{ event: EventACK, }, REQToFileAppend: methodREQToFileAppend{ event: EventACK, }, REQToFile: methodREQToFile{ event: EventACK, }, REQToFileNACK: methodREQToFile{ event: EventNACK, }, REQCopyFileFrom: methodREQCopyFileFrom{ event: EventACK, }, REQCopyFileTo: methodREQCopyFileTo{ event: EventACK, }, REQHello: methodREQHello{ event: EventNACK, }, REQErrorLog: methodREQErrorLog{ event: EventACK, }, REQPing: methodREQPing{ event: EventACK, }, REQPong: methodREQPong{ event: EventACK, }, REQHttpGet: methodREQHttpGet{ event: EventACK, }, REQHttpGetScheduled: methodREQHttpGetScheduled{ event: EventACK, }, REQTailFile: methodREQTailFile{ event: EventACK, }, REQRelay: methodREQRelay{ event: EventACK, }, REQRelayInitial: methodREQRelayInitial{ event: EventACK, }, REQPublicKey: methodREQPublicKey{ event: EventACK, }, REQPublicKeysGet: methodREQPublicKeysGet{ event: EventNACK, }, REQPublicKeysToNode: methodREQPublicKeysToNode{ event: EventNACK, }, REQPublicKeysAllow: methodREQPublicKeysAllow{ event: EventACK, }, REQAclAddCommand: methodREQAclAddCommand{ event: EventACK, }, REQAclDeleteCommand: methodREQAclDeleteCommand{ event: EventACK, }, REQAclDeleteSource: methodREQAclDeleteSource{ event: EventACK, }, REQAclGroupNodesAddNode: methodREQAclGroupNodesAddNode{ event: EventACK, }, REQAclGroupNodesDeleteNode: methodREQAclGroupNodesDeleteNode{ event: EventACK, }, REQAclGroupNodesDeleteGroup: methodREQAclGroupNodesDeleteGroup{ event: EventACK, }, REQAclGroupCommandsAddCommand: methodREQAclGroupCommandsAddCommand{ event: EventACK, }, REQAclGroupCommandsDeleteCommand: methodREQAclGroupCommandsDeleteCommand{ event: EventACK, }, REQAclGroupCommandsDeleteGroup: methodREQAclGroupCommandsDeleteGroup{ event: EventACK, }, REQAclExport: methodREQAclExport{ event: EventACK, }, }, } return ma } // Reply methods. The slice generated here is primarily used within // the Stew client for knowing what of the req types are generally // used as reply methods. func (m Method) GetReplyMethods() []Method { rm := []Method{REQToConsole, REQTuiToConsole, REQCliCommand, REQCliCommandCont, REQToFile, REQToFileAppend, REQNone} return rm } // getHandler will check the methodsAvailable map, and return the // method handler for the method given // as input argument. func (m Method) getHandler(method Method) methodHandler { ma := m.GetMethodsAvailable() mh := ma.Methodhandlers[method] return mh } // getContextForMethodTimeout, will return a context with cancel function // with the timeout set to the method timeout in the message. // If the value of timeout is set to -1, we don't want it to stop, so we // return a context with a timeout set to 200 years. func getContextForMethodTimeout(ctx context.Context, message Message) (context.Context, context.CancelFunc) { // If methodTimeout == -1, which means we don't want a timeout, set the // time out to 200 years. if message.MethodTimeout == -1 { return context.WithTimeout(ctx, time.Hour*time.Duration(8760*200)) } return context.WithTimeout(ctx, time.Second*time.Duration(message.MethodTimeout)) } // ---- // Initial parent method used to start other processes. type methodREQInitial struct { event Event } func (m methodREQInitial) getKind() Event { return m.event } func (m methodREQInitial) handler(proc process, message Message, node string) ([]byte, error) { // proc.procFuncCh <- message ackMsg := []byte("confirmed from: " + node + ": " + fmt.Sprint(message.ID)) return ackMsg, nil } // ---- // MethodsAvailable holds a map of all the different method types and the // associated handler to that method type. type MethodsAvailable struct { Methodhandlers map[Method]methodHandler } // Check if exists will check if the Method is defined. If true the bool // value will be set to true, and the methodHandler function for that type // will be returned. func (ma MethodsAvailable) CheckIfExists(m Method) (methodHandler, bool) { mFunc, ok := ma.Methodhandlers[m] if ok { return mFunc, true } else { return nil, false } } // newReplyMessage will create and send a reply message back to where // the original provided message came from. The primary use of this // function is to report back to a node who sent a message with the // result of the request method of the original message. // // The method to use for the reply message when reporting back should // be specified within a message in the replyMethod field. We will // pick up that value here, and use it as the method for the new // request message. If no replyMethod is set we default to the // REQToFileAppend method type. // // There will also be a copy of the original message put in the // previousMessage field. For the copy of the original message the data // field will be set to nil before the whole message is put in the // previousMessage field so we don't copy around the original data in // the reply response when it is not needed anymore. func newReplyMessage(proc process, message Message, outData []byte) { // If REQNone is specified, we don't want to send a reply message // so we silently just return without sending anything. if message.ReplyMethod == "REQNone" { return } // If no replyMethod is set we default to writing to writing to // a log file. if message.ReplyMethod == "" { message.ReplyMethod = REQToFileAppend } // Make a copy of the message as it is right now to use // in the previous message field, but set the data field // to nil so we don't copy around the original data when // we don't need to for the reply message. thisMsg := message thisMsg.Data = nil // Create a new message for the reply, and put it on the // ringbuffer to be published. // TODO: Check that we still got all the fields present that are needed here. newMsg := Message{ ToNode: message.FromNode, FromNode: message.ToNode, Data: outData, Method: message.ReplyMethod, MethodArgs: message.ReplyMethodArgs, MethodTimeout: message.ReplyMethodTimeout, IsReply: true, ACKTimeout: message.ReplyACKTimeout, Retries: message.ReplyRetries, Directory: message.Directory, FileName: message.FileName, // Put in a copy of the initial request message, so we can use it's properties if // needed to for example create the file structure naming on the subscriber. PreviousMessage: &thisMsg, } sam, err := newSubjectAndMessage(newMsg) 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} } // selectFileNaming will figure out the correct naming of the file // structure to use for the reply data. // It will return the filename, and the tree structure for the folders // to create. func selectFileNaming(message Message, proc process) (string, string) { var fileName string var folderTree string switch { case message.PreviousMessage == nil: // If this was a direct request there are no previous message to take // information from, so we use the one that are in the current mesage. fileName = message.FileName folderTree = filepath.Join(proc.configuration.SubscribersDataFolder, message.Directory, string(message.ToNode)) case message.PreviousMessage.ToNode != "": fileName = message.PreviousMessage.FileName folderTree = filepath.Join(proc.configuration.SubscribersDataFolder, message.PreviousMessage.Directory, string(message.PreviousMessage.ToNode)) case message.PreviousMessage.ToNode == "": fileName = message.PreviousMessage.FileName folderTree = filepath.Join(proc.configuration.SubscribersDataFolder, message.PreviousMessage.Directory, string(message.FromNode)) } return fileName, folderTree } // ------------------------------------------------------------ // Subscriber method handlers // ------------------------------------------------------------ // The methodHandler interface. type methodHandler interface { handler(proc process, message Message, node string) ([]byte, error) getKind() Event }