mirror of
https://gitlab.com/ric_harvey/MailHog.git
synced 2024-12-04 19:54:04 +00:00
504 lines
16 KiB
Go
504 lines
16 KiB
Go
package smtp
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// http://www.rfc-editor.org/rfc/rfc5321.txt
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import (
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"encoding/base64"
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"errors"
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"log"
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"regexp"
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"strings"
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"github.com/mailhog/data"
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)
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// Command is a struct representing an SMTP command (verb + arguments)
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type Command struct {
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verb string
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args string
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orig string
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}
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// ParseCommand returns a Command from the line string
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func ParseCommand(line string) *Command {
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words := strings.Split(line, " ")
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command := strings.ToUpper(words[0])
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args := strings.Join(words[1:len(words)], " ")
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return &Command{
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verb: command,
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args: args,
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orig: line,
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}
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}
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// Protocol is a state machine representing an SMTP session
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type Protocol struct {
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lastCommand *Command
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TLSPending bool
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TLSUpgraded bool
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State State
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Message *data.SMTPMessage
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Hostname string
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Ident string
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MaximumLineLength int
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MaximumRecipients int
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// LogHandler is called for each log message. If nil, log messages will
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// be output using log.Printf instead.
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LogHandler func(message string, args ...interface{})
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// MessageReceivedHandler is called for each message accepted by the
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// SMTP protocol. It must return a MessageID or error. If nil, messages
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// will be rejected with an error.
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MessageReceivedHandler func(*data.SMTPMessage) (string, error)
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// ValidateSenderHandler should return true if the sender is valid,
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// otherwise false. If nil, all senders will be accepted.
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ValidateSenderHandler func(from string) bool
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// ValidateRecipientHandler should return true if the recipient is valid,
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// otherwise false. If nil, all recipients will be accepted.
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ValidateRecipientHandler func(to string) bool
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// ValidateAuthenticationhandler should return true if the authentication
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// parameters are valid, otherwise false. If nil, all authentication
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// attempts will be accepted.
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ValidateAuthenticationHandler func(mechanism string, args ...string) (errorReply *Reply, ok bool)
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// SMTPVerbFilter is called after each command is parsed, but before
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// any code is executed. This provides an opportunity to reject unwanted verbs,
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// e.g. to require AUTH before MAIL
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SMTPVerbFilter func(verb string, args ...string) (errorReply *Reply)
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// TLSHandler is called when a STARTTLS command is received.
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//
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// It should acknowledge the TLS request and set ok to true.
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// It should also return a callback which will be invoked after the reply is
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// sent. E.g., a TCP connection can only perform the upgrade after sending the reply
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//
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// Once the upgrade is complete, invoke the done function (e.g., from the returned callback)
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//
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// If TLS upgrade isn't possible, return an errorReply and set ok to false.
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TLSHandler func(done func(ok bool)) (errorReply *Reply, callback func(), ok bool)
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// GetAuthenticationMechanismsHandler should return an array of strings
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// listing accepted authentication mechanisms
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GetAuthenticationMechanismsHandler func() []string
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// RejectBrokenRCPTSyntax controls whether the protocol accepts technically
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// invalid syntax for the RCPT command. Set to true, the RCPT syntax requires
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// no space between `TO:` and the opening `<`
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RejectBrokenRCPTSyntax bool
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// RejectBrokenMAILSyntax controls whether the protocol accepts technically
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// invalid syntax for the MAIL command. Set to true, the MAIL syntax requires
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// no space between `FROM:` and the opening `<`
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RejectBrokenMAILSyntax bool
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// RequireTLS controls whether TLS is required for a connection before other
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// commands can be issued, applied at the protocol layer.
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RequireTLS bool
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}
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// NewProtocol returns a new SMTP state machine in INVALID state
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// handler is called when a message is received and should return a message ID
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func NewProtocol() *Protocol {
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p := &Protocol{
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Hostname: "mailhog.example",
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Ident: "ESMTP MailHog",
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State: INVALID,
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MaximumLineLength: -1,
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MaximumRecipients: -1,
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}
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p.resetState()
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return p
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}
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func (proto *Protocol) resetState() {
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proto.Message = &data.SMTPMessage{}
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}
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func (proto *Protocol) logf(message string, args ...interface{}) {
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message = strings.Join([]string{"[PROTO: %s]", message}, " ")
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args = append([]interface{}{StateMap[proto.State]}, args...)
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if proto.LogHandler != nil {
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proto.LogHandler(message, args...)
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} else {
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log.Printf(message, args...)
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}
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}
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// Start begins an SMTP conversation with a 220 reply, placing the state
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// machine in ESTABLISH state.
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func (proto *Protocol) Start() *Reply {
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proto.logf("Started session, switching to ESTABLISH state")
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proto.State = ESTABLISH
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return ReplyIdent(proto.Hostname + " " + proto.Ident)
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}
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// Parse parses a line string and returns any remaining line string
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// and a reply, if a command was found. Parse does nothing until a
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// new line is found.
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// - TODO decide whether to move this to a buffer inside Protocol
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// sort of like it this way, since it gives control back to the caller
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func (proto *Protocol) Parse(line string) (string, *Reply) {
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var reply *Reply
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if !strings.Contains(line, "\r\n") {
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return line, reply
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}
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parts := strings.SplitN(line, "\r\n", 2)
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line = parts[1]
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if proto.MaximumLineLength > -1 {
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if len(parts[0]) > proto.MaximumLineLength {
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return line, ReplyLineTooLong()
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}
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}
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// TODO collapse AUTH states into separate processing
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if proto.State == DATA {
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reply = proto.ProcessData(parts[0])
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} else {
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reply = proto.ProcessCommand(parts[0])
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}
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return line, reply
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}
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// ProcessData handles content received (with newlines stripped) while
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// in the SMTP DATA state
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func (proto *Protocol) ProcessData(line string) (reply *Reply) {
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proto.Message.Data += line + "\r\n"
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if strings.HasSuffix(proto.Message.Data, "\r\n.\r\n") {
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proto.Message.Data = strings.Replace(proto.Message.Data, "\r\n..", "\r\n.", -1)
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proto.logf("Got EOF, storing message and switching to MAIL state")
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proto.Message.Data = strings.TrimSuffix(proto.Message.Data, "\r\n.\r\n")
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proto.State = MAIL
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defer proto.resetState()
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if proto.MessageReceivedHandler == nil {
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return ReplyStorageFailed("No storage backend")
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}
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id, err := proto.MessageReceivedHandler(proto.Message)
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if err != nil {
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proto.logf("Error storing message: %s", err)
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return ReplyStorageFailed("Unable to store message")
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}
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return ReplyOk("Ok: queued as " + id)
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}
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return
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}
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// ProcessCommand processes a line of text as a command
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// It expects the line string to be a properly formed SMTP verb and arguments
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func (proto *Protocol) ProcessCommand(line string) (reply *Reply) {
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line = strings.Trim(line, "\r\n")
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proto.logf("Processing line: %s", line)
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words := strings.Split(line, " ")
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command := strings.ToUpper(words[0])
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args := strings.Join(words[1:len(words)], " ")
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proto.logf("In state %d, got command '%s', args '%s'", proto.State, command, args)
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cmd := ParseCommand(strings.TrimSuffix(line, "\r\n"))
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return proto.Command(cmd)
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}
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// Command applies an SMTP verb and arguments to the state machine
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func (proto *Protocol) Command(command *Command) (reply *Reply) {
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defer func() {
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proto.lastCommand = command
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}()
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if proto.SMTPVerbFilter != nil {
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proto.logf("sending to SMTP verb filter")
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r := proto.SMTPVerbFilter(command.verb)
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if r != nil {
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proto.logf("response returned by SMTP verb filter")
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return r
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}
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}
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switch {
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case proto.TLSPending && !proto.TLSUpgraded:
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proto.logf("Got command before TLS upgrade complete")
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// FIXME what to do?
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return ReplyBye()
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case "RSET" == command.verb:
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proto.logf("Got RSET command, switching to MAIL state")
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proto.State = MAIL
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proto.Message = &data.SMTPMessage{}
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return ReplyOk()
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case "NOOP" == command.verb:
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proto.logf("Got NOOP verb, staying in %s state", StateMap[proto.State])
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return ReplyOk()
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case "QUIT" == command.verb:
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proto.logf("Got QUIT verb, staying in %s state", StateMap[proto.State])
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proto.State = DONE
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return ReplyBye()
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case ESTABLISH == proto.State:
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proto.logf("In ESTABLISH state")
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switch command.verb {
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case "HELO":
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return proto.HELO(command.args)
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case "EHLO":
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return proto.EHLO(command.args)
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case "STARTTLS":
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return proto.STARTTLS(command.args)
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default:
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proto.logf("Got unknown command for ESTABLISH state: '%s'", command.verb)
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return ReplyUnrecognisedCommand()
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}
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case "STARTTLS" == command.verb:
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proto.logf("Got STARTTLS command outside ESTABLISH state")
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return proto.STARTTLS(command.args)
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case proto.RequireTLS && !proto.TLSUpgraded:
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proto.logf("RequireTLS set and not TLS not upgraded")
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return ReplyMustIssueSTARTTLSFirst()
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case AUTHPLAIN == proto.State:
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proto.logf("Got PLAIN authentication response: '%s', switching to MAIL state", command.args)
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proto.State = MAIL
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if proto.ValidateAuthenticationHandler != nil {
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// TODO error handling
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val, _ := base64.StdEncoding.DecodeString(command.orig)
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bits := strings.Split(string(val), string(rune(0)))
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if len(bits) < 3 {
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return ReplyError(errors.New("Badly formed parameter"))
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}
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user, pass := bits[1], bits[2]
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if reply, ok := proto.ValidateAuthenticationHandler("PLAIN", user, pass); !ok {
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return reply
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}
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}
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return ReplyAuthOk()
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case AUTHLOGIN == proto.State:
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proto.logf("Got LOGIN authentication response: '%s', switching to AUTHLOGIN2 state", command.args)
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proto.State = AUTHLOGIN2
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return ReplyAuthResponse("UGFzc3dvcmQ6")
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case AUTHLOGIN2 == proto.State:
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proto.logf("Got LOGIN authentication response: '%s', switching to MAIL state", command.args)
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proto.State = MAIL
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if proto.ValidateAuthenticationHandler != nil {
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if reply, ok := proto.ValidateAuthenticationHandler("LOGIN", proto.lastCommand.orig, command.orig); !ok {
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return reply
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}
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}
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return ReplyAuthOk()
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case AUTHCRAMMD5 == proto.State:
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proto.logf("Got CRAM-MD5 authentication response: '%s', switching to MAIL state", command.args)
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proto.State = MAIL
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if proto.ValidateAuthenticationHandler != nil {
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if reply, ok := proto.ValidateAuthenticationHandler("CRAM-MD5", command.orig); !ok {
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return reply
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}
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}
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return ReplyAuthOk()
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case MAIL == proto.State:
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proto.logf("In MAIL state")
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switch command.verb {
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case "AUTH":
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proto.logf("Got AUTH command, staying in MAIL state")
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switch {
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case strings.HasPrefix(command.args, "PLAIN "):
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proto.logf("Got PLAIN authentication: %s", strings.TrimPrefix(command.args, "PLAIN "))
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if proto.ValidateAuthenticationHandler != nil {
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val, _ := base64.StdEncoding.DecodeString(strings.TrimPrefix(command.args, "PLAIN "))
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bits := strings.Split(string(val), string(rune(0)))
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if len(bits) < 3 {
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return ReplyError(errors.New("Badly formed parameter"))
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}
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user, pass := bits[1], bits[2]
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if reply, ok := proto.ValidateAuthenticationHandler("PLAIN", user, pass); !ok {
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return reply
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}
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}
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return ReplyAuthOk()
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case "LOGIN" == command.args:
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proto.logf("Got LOGIN authentication, switching to AUTH state")
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proto.State = AUTHLOGIN
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return ReplyAuthResponse("VXNlcm5hbWU6")
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case "PLAIN" == command.args:
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proto.logf("Got PLAIN authentication (no args), switching to AUTH2 state")
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proto.State = AUTHPLAIN
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return ReplyAuthResponse("")
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case "CRAM-MD5" == command.args:
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proto.logf("Got CRAM-MD5 authentication, switching to AUTH state")
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proto.State = AUTHCRAMMD5
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return ReplyAuthResponse("PDQxOTI5NDIzNDEuMTI4Mjg0NzJAc291cmNlZm91ci5hbmRyZXcuY211LmVkdT4=")
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case strings.HasPrefix(command.args, "EXTERNAL "):
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proto.logf("Got EXTERNAL authentication: %s", strings.TrimPrefix(command.args, "EXTERNAL "))
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if proto.ValidateAuthenticationHandler != nil {
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if reply, ok := proto.ValidateAuthenticationHandler("EXTERNAL", strings.TrimPrefix(command.args, "EXTERNAL ")); !ok {
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return reply
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}
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}
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return ReplyAuthOk()
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default:
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return ReplyUnsupportedAuth()
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}
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case "MAIL":
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proto.logf("Got MAIL command, switching to RCPT state")
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from, err := proto.ParseMAIL(command.args)
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if err != nil {
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return ReplyError(err)
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}
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if proto.ValidateSenderHandler != nil {
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if !proto.ValidateSenderHandler(from) {
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// TODO correct sender error response
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return ReplyError(errors.New("Invalid sender " + from))
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}
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}
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proto.Message.From = from
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proto.State = RCPT
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return ReplySenderOk(from)
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case "HELO":
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return proto.HELO(command.args)
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case "EHLO":
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return proto.EHLO(command.args)
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default:
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proto.logf("Got unknown command for MAIL state: '%s'", command)
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return ReplyUnrecognisedCommand()
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}
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case RCPT == proto.State:
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proto.logf("In RCPT state")
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switch command.verb {
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case "RCPT":
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proto.logf("Got RCPT command")
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if proto.MaximumRecipients > -1 && len(proto.Message.To) >= proto.MaximumRecipients {
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return ReplyTooManyRecipients()
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}
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to, err := proto.ParseRCPT(command.args)
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if err != nil {
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return ReplyError(err)
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}
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if proto.ValidateRecipientHandler != nil {
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if !proto.ValidateRecipientHandler(to) {
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// TODO correct send error response
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return ReplyError(errors.New("Invalid recipient " + to))
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}
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}
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proto.Message.To = append(proto.Message.To, to)
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proto.State = RCPT
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return ReplyRecipientOk(to)
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case "HELO":
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return proto.HELO(command.args)
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case "EHLO":
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return proto.EHLO(command.args)
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case "DATA":
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proto.logf("Got DATA command, switching to DATA state")
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proto.State = DATA
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return ReplyDataResponse()
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default:
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proto.logf("Got unknown command for RCPT state: '%s'", command)
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return ReplyUnrecognisedCommand()
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}
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default:
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proto.logf("Command not recognised")
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return ReplyUnrecognisedCommand()
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}
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}
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// HELO creates a reply to a HELO command
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func (proto *Protocol) HELO(args string) (reply *Reply) {
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proto.logf("Got HELO command, switching to MAIL state")
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proto.State = MAIL
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proto.Message.Helo = args
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return ReplyOk("Hello " + args)
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}
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// EHLO creates a reply to a EHLO command
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func (proto *Protocol) EHLO(args string) (reply *Reply) {
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proto.logf("Got EHLO command, switching to MAIL state")
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proto.State = MAIL
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proto.Message.Helo = args
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replyArgs := []string{"Hello " + args, "PIPELINING"}
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if proto.TLSHandler != nil && !proto.TLSPending && !proto.TLSUpgraded {
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replyArgs = append(replyArgs, "STARTTLS")
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}
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if !proto.RequireTLS || proto.TLSUpgraded {
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if proto.GetAuthenticationMechanismsHandler != nil {
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mechanisms := proto.GetAuthenticationMechanismsHandler()
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if len(mechanisms) > 0 {
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replyArgs = append(replyArgs, "AUTH "+strings.Join(mechanisms, " "))
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}
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}
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}
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return ReplyOk(replyArgs...)
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}
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// STARTTLS creates a reply to a STARTTLS command
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func (proto *Protocol) STARTTLS(args string) (reply *Reply) {
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if proto.TLSUpgraded {
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return ReplyUnrecognisedCommand()
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}
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if proto.TLSHandler == nil {
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proto.logf("tls handler not found")
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return ReplyUnrecognisedCommand()
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}
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if len(args) > 0 {
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return ReplySyntaxError("no parameters allowed")
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}
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r, callback, ok := proto.TLSHandler(func(ok bool) {
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proto.TLSUpgraded = ok
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proto.TLSPending = ok
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if ok {
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proto.resetState()
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proto.State = ESTABLISH
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}
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})
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if !ok {
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return r
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}
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proto.TLSPending = true
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return ReplyReadyToStartTLS(callback)
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}
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var parseMailBrokenRegexp = regexp.MustCompile("(?i:From):\\s*<([^>]+)>")
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var parseMailRFCRegexp = regexp.MustCompile("(?i:From):<([^>]+)>")
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// ParseMAIL returns the forward-path from a MAIL command argument
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func (proto *Protocol) ParseMAIL(mail string) (string, error) {
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var match []string
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if proto.RejectBrokenMAILSyntax {
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match = parseMailRFCRegexp.FindStringSubmatch(mail)
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} else {
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match = parseMailBrokenRegexp.FindStringSubmatch(mail)
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}
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if len(match) != 2 {
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return "", errors.New("Invalid syntax in MAIL command")
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}
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return match[1], nil
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}
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var parseRcptBrokenRegexp = regexp.MustCompile("(?i:To):\\s*<([^>]+)>")
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var parseRcptRFCRegexp = regexp.MustCompile("(?i:To):<([^>]+)>")
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// ParseRCPT returns the return-path from a RCPT command argument
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func (proto *Protocol) ParseRCPT(rcpt string) (string, error) {
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var match []string
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if proto.RejectBrokenRCPTSyntax {
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match = parseRcptRFCRegexp.FindStringSubmatch(rcpt)
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} else {
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match = parseRcptBrokenRegexp.FindStringSubmatch(rcpt)
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}
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if len(match) != 2 {
|
|
return "", errors.New("Invalid syntax in RCPT command")
|
|
}
|
|
return match[1], nil
|
|
}
|