com.sun.mail.smtp.SMTPTransport Maven / Gradle / Ivy
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package com.sun.mail.smtp;
import java.io.*;
import java.net.*;
import java.util.*;
import java.util.logging.Level;
import java.lang.reflect.*;
import java.nio.charset.StandardCharsets;
import javax.net.ssl.SSLSocket;
import javax.mail.*;
import javax.mail.event.*;
import javax.mail.internet.*;
import com.sun.mail.util.PropUtil;
import com.sun.mail.util.MailLogger;
import com.sun.mail.util.ASCIIUtility;
import com.sun.mail.util.SocketFetcher;
import com.sun.mail.util.MailConnectException;
import com.sun.mail.util.SocketConnectException;
import com.sun.mail.util.BASE64EncoderStream;
import com.sun.mail.util.LineInputStream;
import com.sun.mail.util.TraceInputStream;
import com.sun.mail.util.TraceOutputStream;
import com.sun.mail.auth.Ntlm;
/**
* This class implements the Transport abstract class using SMTP for
* message submission and transport.
*
* See the com.sun.mail.smtp package
* documentation for further information on the SMTP protocol provider.
*
* This class includes many protected methods that allow a subclass to
* extend this class and add support for non-standard SMTP commands.
* The {@link #issueCommand} and {@link #sendCommand} methods can be
* used to send simple SMTP commands. Other methods such as the
* {@link #mailFrom} and {@link #data} methods can be overridden to
* insert new commands before or after the corresponding SMTP commands.
* For example, a subclass could do this to send the XACT command
* before sending the DATA command:
*
* protected OutputStream data() throws MessagingException {
* if (supportsExtension("XACCOUNTING"))
* issueCommand("XACT", 25);
* return super.data();
* }
*
*
* @author Max Spivak
* @author Bill Shannon
* @author Dean Gibson (DIGEST-MD5 authentication)
* @author Lu\u00EDs Serralheiro (NTLM authentication)
*
* @see javax.mail.event.ConnectionEvent
* @see javax.mail.event.TransportEvent
*/
public class SMTPTransport extends Transport {
private String name = "smtp"; // Name of this protocol
private int defaultPort = 25; // default SMTP port
private boolean isSSL = false; // use SSL?
private String host; // host we're connected to
// Following fields valid only during the sendMessage method.
private MimeMessage message; // Message to be sent
private Address[] addresses; // Addresses to which to send the msg
// Valid sent, valid unsent and invalid addresses
private Address[] validSentAddr, validUnsentAddr, invalidAddr;
// Did we send the message even though some addresses were invalid?
private boolean sendPartiallyFailed = false;
// If so, here's an exception we need to throw
private MessagingException exception;
// stream where message data is written
private SMTPOutputStream dataStream;
// Map of SMTP service extensions supported by server, if EHLO used.
private Hashtable extMap;
private Map authenticators
= new HashMap<>();
private String defaultAuthenticationMechanisms; // set in constructor
private boolean quitWait = false; // true if we should wait
private String saslRealm = UNKNOWN;
private String authorizationID = UNKNOWN;
private boolean enableSASL = false; // enable SASL authentication
private boolean useCanonicalHostName = false; // use canonical host name?
private String[] saslMechanisms = UNKNOWN_SA;
private String ntlmDomain = UNKNOWN; // for ntlm authentication
private boolean reportSuccess; // throw an exception even on success
private boolean useStartTLS; // use STARTTLS command
private boolean requireStartTLS; // require STARTTLS command
private boolean useRset; // use RSET instead of NOOP
private boolean noopStrict = true; // NOOP must return 250 for success
private MailLogger logger; // debug logger
private MailLogger traceLogger; // protocol trace logger
private String localHostName; // our own host name
private String lastServerResponse; // last SMTP response
private int lastReturnCode; // last SMTP return code
private boolean notificationDone; // only notify once per send
private SaslAuthenticator saslAuthenticator; // if SASL is being used
private boolean noauthdebug = true; // hide auth info in debug output
private boolean debugusername; // include username in debug output?
private boolean debugpassword; // include password in debug output?
private boolean allowutf8; // allow UTF-8 usernames and passwords?
private int chunkSize; // chunk size if CHUNKING supported
/** Headers that should not be included when sending */
private static final String[] ignoreList = { "Bcc", "Content-Length" };
private static final byte[] CRLF = { (byte)'\r', (byte)'\n' };
private static final String UNKNOWN = "UNKNOWN"; // place holder
private static final String[] UNKNOWN_SA = new String[0]; // place holder
/**
* Constructor that takes a Session object and a URLName
* that represents a specific SMTP server.
*
* @param session the Session
* @param urlname the URLName of this transport
*/
public SMTPTransport(Session session, URLName urlname) {
this(session, urlname, "smtp", false);
}
/**
* Constructor used by this class and by SMTPSSLTransport subclass.
*
* @param session the Session
* @param urlname the URLName of this transport
* @param name the protocol name of this transport
* @param isSSL use SSL to connect?
*/
protected SMTPTransport(Session session, URLName urlname,
String name, boolean isSSL) {
super(session, urlname);
Properties props = session.getProperties();
logger = new MailLogger(this.getClass(), "DEBUG SMTP",
session.getDebug(), session.getDebugOut());
traceLogger = logger.getSubLogger("protocol", null);
noauthdebug = !PropUtil.getBooleanProperty(props,
"mail.debug.auth", false);
debugusername = PropUtil.getBooleanProperty(props,
"mail.debug.auth.username", true);
debugpassword = PropUtil.getBooleanProperty(props,
"mail.debug.auth.password", false);
if (urlname != null)
name = urlname.getProtocol();
this.name = name;
if (!isSSL)
isSSL = PropUtil.getBooleanProperty(props,
"mail." + name + ".ssl.enable", false);
if (isSSL)
this.defaultPort = 465;
else
this.defaultPort = 25;
this.isSSL = isSSL;
// setting mail.smtp.quitwait to false causes us to not wait for the
// response from the QUIT command
quitWait = PropUtil.getBooleanProperty(props,
"mail." + name + ".quitwait", true);
// mail.smtp.reportsuccess causes us to throw an exception on success
reportSuccess = PropUtil.getBooleanProperty(props,
"mail." + name + ".reportsuccess", false);
// mail.smtp.starttls.enable enables use of STARTTLS command
useStartTLS = PropUtil.getBooleanProperty(props,
"mail." + name + ".starttls.enable", false);
// mail.smtp.starttls.required requires use of STARTTLS command
requireStartTLS = PropUtil.getBooleanProperty(props,
"mail." + name + ".starttls.required", false);
// mail.smtp.userset causes us to use RSET instead of NOOP
// for isConnected
useRset = PropUtil.getBooleanProperty(props,
"mail." + name + ".userset", false);
// mail.smtp.noop.strict requires 250 response to indicate success
noopStrict = PropUtil.getBooleanProperty(props,
"mail." + name + ".noop.strict", true);
// check if SASL is enabled
enableSASL = PropUtil.getBooleanProperty(props,
"mail." + name + ".sasl.enable", false);
if (enableSASL)
logger.config("enable SASL");
useCanonicalHostName = PropUtil.getBooleanProperty(props,
"mail." + name + ".sasl.usecanonicalhostname", false);
if (useCanonicalHostName)
logger.config("use canonical host name");
allowutf8 = PropUtil.getBooleanProperty(props,
"mail.mime.allowutf8", false);
if (allowutf8)
logger.config("allow UTF-8");
chunkSize = PropUtil.getIntProperty(props,
"mail." + name + ".chunksize", -1);
if (chunkSize > 0 && logger.isLoggable(Level.CONFIG))
logger.config("chunk size " + chunkSize);
// created here, because they're inner classes that reference "this"
Authenticator[] a = new Authenticator[] {
new LoginAuthenticator(),
new PlainAuthenticator(),
new DigestMD5Authenticator(),
new NtlmAuthenticator(),
new OAuth2Authenticator()
};
StringBuilder sb = new StringBuilder();
for (int i = 0; i < a.length; i++) {
authenticators.put(a[i].getMechanism(), a[i]);
sb.append(a[i].getMechanism()).append(' ');
}
defaultAuthenticationMechanisms = sb.toString();
}
/**
* Get the name of the local host, for use in the EHLO and HELO commands.
* The property mail.smtp.localhost overrides mail.smtp.localaddress,
* which overrides what InetAddress would tell us.
*
* @return the local host name
*/
public synchronized String getLocalHost() {
// get our hostname and cache it for future use
if (localHostName == null || localHostName.length() <= 0)
localHostName =
session.getProperty("mail." + name + ".localhost");
if (localHostName == null || localHostName.length() <= 0)
localHostName =
session.getProperty("mail." + name + ".localaddress");
try {
if (localHostName == null || localHostName.length() <= 0) {
InetAddress localHost = InetAddress.getLocalHost();
localHostName = localHost.getCanonicalHostName();
// if we can't get our name, use local address literal
if (localHostName == null)
// XXX - not correct for IPv6
localHostName = "[" + localHost.getHostAddress() + "]";
}
} catch (UnknownHostException uhex) {
}
// last chance, try to get our address from our socket
if (localHostName == null || localHostName.length() <= 0) {
if (serverSocket != null && serverSocket.isBound()) {
InetAddress localHost = serverSocket.getLocalAddress();
localHostName = localHost.getCanonicalHostName();
// if we can't get our name, use local address literal
if (localHostName == null)
// XXX - not correct for IPv6
localHostName = "[" + localHost.getHostAddress() + "]";
}
}
return localHostName;
}
/**
* Set the name of the local host, for use in the EHLO and HELO commands.
*
* @param localhost the local host name
* @since JavaMail 1.3.1
*/
public synchronized void setLocalHost(String localhost) {
localHostName = localhost;
}
/**
* Start the SMTP protocol on the given socket, which was already
* connected by the caller. Useful for implementing the SMTP ATRN
* command (RFC 2645) where an existing connection is used when
* the server reverses roles and becomes the client.
*
* @param socket the already connected socket
* @exception MessagingException for failures
* @since JavaMail 1.3.3
*/
public synchronized void connect(Socket socket) throws MessagingException {
serverSocket = socket;
super.connect();
}
/**
* Gets the authorization ID to be used for authentication.
*
* @return the authorization ID to use for authentication.
*
* @since JavaMail 1.4.4
*/
public synchronized String getAuthorizationId() {
if (authorizationID == UNKNOWN) {
authorizationID =
session.getProperty("mail." + name + ".sasl.authorizationid");
}
return authorizationID;
}
/**
* Sets the authorization ID to be used for authentication.
*
* @param authzid the authorization ID to use for
* authentication.
*
* @since JavaMail 1.4.4
*/
public synchronized void setAuthorizationID(String authzid) {
this.authorizationID = authzid;
}
/**
* Is SASL authentication enabled?
*
* @return true if SASL authentication is enabled
*
* @since JavaMail 1.4.4
*/
public synchronized boolean getSASLEnabled() {
return enableSASL;
}
/**
* Set whether SASL authentication is enabled.
*
* @param enableSASL should we enable SASL authentication?
*
* @since JavaMail 1.4.4
*/
public synchronized void setSASLEnabled(boolean enableSASL) {
this.enableSASL = enableSASL;
}
/**
* Gets the SASL realm to be used for DIGEST-MD5 authentication.
*
* @return the name of the realm to use for SASL authentication.
*
* @since JavaMail 1.3.1
*/
public synchronized String getSASLRealm() {
if (saslRealm == UNKNOWN) {
saslRealm = session.getProperty("mail." + name + ".sasl.realm");
if (saslRealm == null) // try old name
saslRealm = session.getProperty("mail." + name + ".saslrealm");
}
return saslRealm;
}
/**
* Sets the SASL realm to be used for DIGEST-MD5 authentication.
*
* @param saslRealm the name of the realm to use for
* SASL authentication.
*
* @since JavaMail 1.3.1
*/
public synchronized void setSASLRealm(String saslRealm) {
this.saslRealm = saslRealm;
}
/**
* Should SASL use the canonical host name?
*
* @return true if SASL should use the canonical host name
*
* @since JavaMail 1.5.2
*/
public synchronized boolean getUseCanonicalHostName() {
return useCanonicalHostName;
}
/**
* Set whether SASL should use the canonical host name.
*
* @param useCanonicalHostName should SASL use the canonical host name?
*
* @since JavaMail 1.5.2
*/
public synchronized void setUseCanonicalHostName(
boolean useCanonicalHostName) {
this.useCanonicalHostName = useCanonicalHostName;
}
/**
* Get the list of SASL mechanisms to consider if SASL authentication
* is enabled. If the list is empty or null, all available SASL mechanisms
* are considered.
*
* @return the array of SASL mechanisms to consider
*
* @since JavaMail 1.4.4
*/
public synchronized String[] getSASLMechanisms() {
if (saslMechanisms == UNKNOWN_SA) {
List v = new ArrayList<>(5);
String s = session.getProperty("mail." + name + ".sasl.mechanisms");
if (s != null && s.length() > 0) {
if (logger.isLoggable(Level.FINE))
logger.fine("SASL mechanisms allowed: " + s);
StringTokenizer st = new StringTokenizer(s, " ,");
while (st.hasMoreTokens()) {
String m = st.nextToken();
if (m.length() > 0)
v.add(m);
}
}
saslMechanisms = new String[v.size()];
v.toArray(saslMechanisms);
}
if (saslMechanisms == null)
return null;
return saslMechanisms.clone();
}
/**
* Set the list of SASL mechanisms to consider if SASL authentication
* is enabled. If the list is empty or null, all available SASL mechanisms
* are considered.
*
* @param mechanisms the array of SASL mechanisms to consider
*
* @since JavaMail 1.4.4
*/
public synchronized void setSASLMechanisms(String[] mechanisms) {
if (mechanisms != null)
mechanisms = mechanisms.clone();
this.saslMechanisms = mechanisms;
}
/**
* Gets the NTLM domain to be used for NTLM authentication.
*
* @return the name of the domain to use for NTLM authentication.
*
* @since JavaMail 1.4.3
*/
public synchronized String getNTLMDomain() {
if (ntlmDomain == UNKNOWN) {
ntlmDomain =
session.getProperty("mail." + name + ".auth.ntlm.domain");
}
return ntlmDomain;
}
/**
* Sets the NTLM domain to be used for NTLM authentication.
*
* @param ntlmDomain the name of the domain to use for
* NTLM authentication.
*
* @since JavaMail 1.4.3
*/
public synchronized void setNTLMDomain(String ntlmDomain) {
this.ntlmDomain = ntlmDomain;
}
/**
* Should we report even successful sends by throwing an exception?
* If so, a SendFailedException will always be thrown and
* an {@link com.sun.mail.smtp.SMTPAddressSucceededException
* SMTPAddressSucceededException} will be included in the exception
* chain for each successful address, along with the usual
* {@link com.sun.mail.smtp.SMTPAddressFailedException
* SMTPAddressFailedException} for each unsuccessful address.
*
* @return true if an exception will be thrown on successful sends.
*
* @since JavaMail 1.3.2
*/
public synchronized boolean getReportSuccess() {
return reportSuccess;
}
/**
* Set whether successful sends should be reported by throwing
* an exception.
*
* @param reportSuccess should we throw an exception on success?
*
* @since JavaMail 1.3.2
*/
public synchronized void setReportSuccess(boolean reportSuccess) {
this.reportSuccess = reportSuccess;
}
/**
* Should we use the STARTTLS command to secure the connection
* if the server supports it?
*
* @return true if the STARTTLS command will be used
*
* @since JavaMail 1.3.2
*/
public synchronized boolean getStartTLS() {
return useStartTLS;
}
/**
* Set whether the STARTTLS command should be used.
*
* @param useStartTLS should we use the STARTTLS command?
*
* @since JavaMail 1.3.2
*/
public synchronized void setStartTLS(boolean useStartTLS) {
this.useStartTLS = useStartTLS;
}
/**
* Should we require the STARTTLS command to secure the connection?
*
* @return true if the STARTTLS command will be required
*
* @since JavaMail 1.4.2
*/
public synchronized boolean getRequireStartTLS() {
return requireStartTLS;
}
/**
* Set whether the STARTTLS command should be required.
*
* @param requireStartTLS should we require the STARTTLS command?
*
* @since JavaMail 1.4.2
*/
public synchronized void setRequireStartTLS(boolean requireStartTLS) {
this.requireStartTLS = requireStartTLS;
}
/**
* Is this Transport using SSL to connect to the server?
*
* @return true if using SSL
* @since JavaMail 1.4.6
*/
public synchronized boolean isSSL() {
return serverSocket instanceof SSLSocket;
}
/**
* Should we use the RSET command instead of the NOOP command
* in the @{link #isConnected isConnected} method?
*
* @return true if RSET will be used
*
* @since JavaMail 1.4
*/
public synchronized boolean getUseRset() {
return useRset;
}
/**
* Set whether the RSET command should be used instead of the
* NOOP command in the @{link #isConnected isConnected} method.
*
* @param useRset should we use the RSET command?
*
* @since JavaMail 1.4
*/
public synchronized void setUseRset(boolean useRset) {
this.useRset = useRset;
}
/**
* Is the NOOP command required to return a response code
* of 250 to indicate success?
*
* @return true if NOOP must return 250
*
* @since JavaMail 1.4.3
*/
public synchronized boolean getNoopStrict() {
return noopStrict;
}
/**
* Set whether the NOOP command is required to return a response code
* of 250 to indicate success.
*
* @param noopStrict is NOOP required to return 250?
*
* @since JavaMail 1.4.3
*/
public synchronized void setNoopStrict(boolean noopStrict) {
this.noopStrict = noopStrict;
}
/**
* Return the last response we got from the server.
* A failed send is often followed by an RSET command,
* but the response from the RSET command is not saved.
* Instead, this returns the response from the command
* before the RSET command.
*
* @return last response from server
*
* @since JavaMail 1.3.2
*/
public synchronized String getLastServerResponse() {
return lastServerResponse;
}
/**
* Return the return code from the last response we got from the server.
*
* @return return code from last response from server
*
* @since JavaMail 1.4.1
*/
public synchronized int getLastReturnCode() {
return lastReturnCode;
}
/**
* Performs the actual protocol-specific connection attempt.
* Will attempt to connect to "localhost" if the host was null.
*
* Unless mail.smtp.ehlo is set to false, we'll try to identify
* ourselves using the ESMTP command EHLO.
*
* If mail.smtp.auth is set to true, we insist on having a username
* and password, and will try to authenticate ourselves if the server
* supports the AUTH extension (RFC 2554).
*
* @param host the name of the host to connect to
* @param port the port to use (-1 means use default port)
* @param user the name of the user to login as
* @param password the user's password
* @return true if connection successful, false if authentication failed
* @exception MessagingException for non-authentication failures
*/
@Override
protected synchronized boolean protocolConnect(String host, int port,
String user, String password)
throws MessagingException {
Properties props = session.getProperties();
// setting mail.smtp.auth to true enables attempts to use AUTH
boolean useAuth = PropUtil.getBooleanProperty(props,
"mail." + name + ".auth", false);
/*
* If mail.smtp.auth is set, make sure we have a valid username
* and password, even if we might not end up using it (e.g.,
* because the server doesn't support ESMTP or doesn't support
* the AUTH extension).
*/
if (useAuth && (user == null || password == null)) {
if (logger.isLoggable(Level.FINE)) {
logger.fine("need username and password for authentication");
logger.fine("protocolConnect returning false" +
", host=" + host +
", user=" + traceUser(user) +
", password=" + tracePassword(password));
}
return false;
}
// setting mail.smtp.ehlo to false disables attempts to use EHLO
boolean useEhlo = PropUtil.getBooleanProperty(props,
"mail." + name + ".ehlo", true);
if (logger.isLoggable(Level.FINE))
logger.fine("useEhlo " + useEhlo + ", useAuth " + useAuth);
/*
* If port is not specified, set it to value of mail.smtp.port
* property if it exists, otherwise default to 25.
*/
if (port == -1)
port = PropUtil.getIntProperty(props,
"mail." + name + ".port", -1);
if (port == -1)
port = defaultPort;
if (host == null || host.length() == 0)
host = "localhost";
/*
* If anything goes wrong, we need to be sure
* to close the connection.
*/
boolean connected = false;
try {
if (serverSocket != null)
openServer(); // only happens from connect(socket)
else
openServer(host, port);
boolean succeed = false;
if (useEhlo)
succeed = ehlo(getLocalHost());
if (!succeed)
helo(getLocalHost());
if (useStartTLS || requireStartTLS) {
if (serverSocket instanceof SSLSocket) {
logger.fine("STARTTLS requested but already using SSL");
} else if (supportsExtension("STARTTLS")) {
startTLS();
/*
* Have to issue another EHLO to update list of extensions
* supported, especially authentication mechanisms.
* Don't know if this could ever fail, but we ignore
* failure.
*/
ehlo(getLocalHost());
} else if (requireStartTLS) {
logger.fine("STARTTLS required but not supported");
throw new MessagingException(
"STARTTLS is required but " +
"host does not support STARTTLS");
}
}
if (allowutf8 && !supportsExtension("SMTPUTF8"))
logger.log(Level.INFO, "mail.mime.allowutf8 set " +
"but server doesn't advertise SMTPUTF8 support");
if ((useAuth || (user != null && password != null)) &&
(supportsExtension("AUTH") ||
supportsExtension("AUTH=LOGIN"))) {
if (logger.isLoggable(Level.FINE))
logger.fine("protocolConnect login" +
", host=" + host +
", user=" + traceUser(user) +
", password=" + tracePassword(password));
connected = authenticate(user, password);
return connected;
}
// we connected correctly
connected = true;
return true;
} finally {
// if we didn't connect successfully,
// make sure the connection is closed
if (!connected) {
try {
closeConnection();
} catch (MessagingException mex) {
// ignore it
}
}
}
}
/**
* Authenticate to the server.
*/
private boolean authenticate(String user, String passwd)
throws MessagingException {
// setting mail.smtp.auth.mechanisms controls which mechanisms will
// be used, and in what order they'll be considered. only the first
// match is used.
String mechs = session.getProperty("mail." + name + ".auth.mechanisms");
if (mechs == null)
mechs = defaultAuthenticationMechanisms;
String authzid = getAuthorizationId();
if (authzid == null)
authzid = user;
if (enableSASL) {
logger.fine("Authenticate with SASL");
try {
if (sasllogin(getSASLMechanisms(), getSASLRealm(), authzid,
user, passwd)) {
return true; // success
} else {
logger.fine("SASL authentication failed");
return false;
}
} catch (UnsupportedOperationException ex) {
logger.log(Level.FINE, "SASL support failed", ex);
// if the SASL support fails, fall back to non-SASL
}
}
if (logger.isLoggable(Level.FINE))
logger.fine("Attempt to authenticate using mechanisms: " + mechs);
/*
* Loop through the list of mechanisms supplied by the user
* (or defaulted) and try each in turn. If the server supports
* the mechanism and we have an authenticator for the mechanism,
* and it hasn't been disabled, use it.
*/
StringTokenizer st = new StringTokenizer(mechs);
while (st.hasMoreTokens()) {
String m = st.nextToken();
m = m.toUpperCase(Locale.ENGLISH);
Authenticator a = authenticators.get(m);
if (a == null) {
logger.log(Level.FINE, "no authenticator for mechanism {0}", m);
continue;
}
if (!supportsAuthentication(m)) {
logger.log(Level.FINE, "mechanism {0} not supported by server",
m);
continue;
}
/*
* If using the default mechanisms, check if this one is disabled.
*/
if (mechs == defaultAuthenticationMechanisms) {
String dprop = "mail." + name + ".auth." +
m.toLowerCase(Locale.ENGLISH) + ".disable";
boolean disabled = PropUtil.getBooleanProperty(
session.getProperties(),
dprop, !a.enabled());
if (disabled) {
if (logger.isLoggable(Level.FINE))
logger.fine("mechanism " + m +
" disabled by property: " + dprop);
continue;
}
}
// only the first supported and enabled mechanism is used
logger.log(Level.FINE, "Using mechanism {0}", m);
return a.authenticate(host, authzid, user, passwd);
}
// if no authentication mechanism found, fail
throw new AuthenticationFailedException(
"No authentication mechanisms supported by both server and client");
}
/**
* Abstract base class for SMTP authentication mechanism implementations.
*/
private abstract class Authenticator {
protected int resp; // the response code, used by subclasses
private final String mech; // the mechanism name, set in the constructor
private final boolean enabled; // is this mechanism enabled by default?
Authenticator(String mech) {
this(mech, true);
}
Authenticator(String mech, boolean enabled) {
this.mech = mech.toUpperCase(Locale.ENGLISH);
this.enabled = enabled;
}
String getMechanism() {
return mech;
}
boolean enabled() {
return enabled;
}
/**
* Start the authentication handshake by issuing the AUTH command.
* Delegate to the doAuth method to do the mechanism-specific
* part of the handshake.
*/
boolean authenticate(String host, String authzid,
String user, String passwd) throws MessagingException {
Throwable thrown = null;
try {
// use "initial response" capability, if supported
String ir = getInitialResponse(host, authzid, user, passwd);
if (noauthdebug && isTracing()) {
logger.fine("AUTH " + mech + " command trace suppressed");
suspendTracing();
}
if (ir != null)
resp = simpleCommand("AUTH " + mech + " " +
(ir.length() == 0 ? "=" : ir));
else
resp = simpleCommand("AUTH " + mech);
/*
* A 530 response indicates that the server wants us to
* issue a STARTTLS command first. Do that and try again.
*/
if (resp == 530) {
startTLS();
if (ir != null)
resp = simpleCommand("AUTH " + mech + " " + ir);
else
resp = simpleCommand("AUTH " + mech);
}
if (resp == 334)
doAuth(host, authzid, user, passwd);
} catch (IOException ex) { // should never happen, ignore
logger.log(Level.FINE, "AUTH " + mech + " failed", ex);
} catch (Throwable t) { // crypto can't be initialized?
logger.log(Level.FINE, "AUTH " + mech + " failed", t);
thrown = t;
} finally {
if (noauthdebug && isTracing())
logger.fine("AUTH " + mech + " " +
(resp == 235 ? "succeeded" : "failed"));
resumeTracing();
if (resp != 235) {
closeConnection();
if (thrown != null) {
if (thrown instanceof Error)
throw (Error)thrown;
if (thrown instanceof Exception)
throw new AuthenticationFailedException(
getLastServerResponse(),
(Exception)thrown);
assert false : "unknown Throwable"; // can't happen
}
throw new AuthenticationFailedException(
getLastServerResponse());
}
}
return true;
}
/**
* Provide the initial response to use in the AUTH command,
* or null if not supported. Subclasses that support the
* initial response capability will override this method.
*/
String getInitialResponse(String host, String authzid, String user,
String passwd) throws MessagingException, IOException {
return null;
}
abstract void doAuth(String host, String authzid, String user,
String passwd) throws MessagingException, IOException;
}
/**
* Perform the authentication handshake for LOGIN authentication.
*/
private class LoginAuthenticator extends Authenticator {
LoginAuthenticator() {
super("LOGIN");
}
@Override
void doAuth(String host, String authzid, String user, String passwd)
throws MessagingException, IOException {
// send username
resp = simpleCommand(BASE64EncoderStream.encode(
user.getBytes(StandardCharsets.UTF_8)));
if (resp == 334) {
// send passwd
resp = simpleCommand(BASE64EncoderStream.encode(
passwd.getBytes(StandardCharsets.UTF_8)));
}
}
}
/**
* Perform the authentication handshake for PLAIN authentication.
*/
private class PlainAuthenticator extends Authenticator {
PlainAuthenticator() {
super("PLAIN");
}
@Override
String getInitialResponse(String host, String authzid, String user,
String passwd) throws MessagingException, IOException {
// return "authziduserpasswd"
ByteArrayOutputStream bos = new ByteArrayOutputStream();
OutputStream b64os =
new BASE64EncoderStream(bos, Integer.MAX_VALUE);
if (authzid != null)
b64os.write(authzid.getBytes(StandardCharsets.UTF_8));
b64os.write(0);
b64os.write(user.getBytes(StandardCharsets.UTF_8));
b64os.write(0);
b64os.write(passwd.getBytes(StandardCharsets.UTF_8));
b64os.flush(); // complete the encoding
return ASCIIUtility.toString(bos.toByteArray());
}
@Override
void doAuth(String host, String authzid, String user, String passwd)
throws MessagingException, IOException {
// should never get here
throw new AuthenticationFailedException("PLAIN asked for more");
}
}
/**
* Perform the authentication handshake for DIGEST-MD5 authentication.
*/
private class DigestMD5Authenticator extends Authenticator {
private DigestMD5 md5support; // only create if needed
DigestMD5Authenticator() {
super("DIGEST-MD5");
}
private synchronized DigestMD5 getMD5() {
if (md5support == null)
md5support = new DigestMD5(logger);
return md5support;
}
@Override
void doAuth(String host, String authzid, String user, String passwd)
throws MessagingException, IOException {
DigestMD5 md5 = getMD5();
assert md5 != null;
byte[] b = md5.authClient(host, user, passwd, getSASLRealm(),
getLastServerResponse());
resp = simpleCommand(b);
if (resp == 334) { // client authenticated by server
if (!md5.authServer(getLastServerResponse())) {
// server NOT authenticated by client !!!
resp = -1;
} else {
// send null response
resp = simpleCommand(new byte[0]);
}
}
}
}
/**
* Perform the authentication handshake for NTLM authentication.
*/
private class NtlmAuthenticator extends Authenticator {
private Ntlm ntlm;
private int flags;
NtlmAuthenticator() {
super("NTLM");
}
@Override
String getInitialResponse(String host, String authzid, String user,
String passwd) throws MessagingException, IOException {
ntlm = new Ntlm(getNTLMDomain(), getLocalHost(),
user, passwd, logger);
flags = PropUtil.getIntProperty(
session.getProperties(),
"mail." + name + ".auth.ntlm.flags", 0);
String type1 = ntlm.generateType1Msg(flags);
return type1;
}
@Override
void doAuth(String host, String authzid, String user, String passwd)
throws MessagingException, IOException {
assert ntlm != null;
String type3 = ntlm.generateType3Msg(
getLastServerResponse().substring(4).trim());
resp = simpleCommand(type3);
}
}
/**
* Perform the authentication handshake for XOAUTH2 authentication.
*/
private class OAuth2Authenticator extends Authenticator {
OAuth2Authenticator() {
super("XOAUTH2", false); // disabled by default
}
@Override
String getInitialResponse(String host, String authzid, String user,
String passwd) throws MessagingException, IOException {
String resp = "user=" + user + "\001auth=Bearer " +
passwd + "\001\001";
byte[] b = BASE64EncoderStream.encode(
resp.getBytes(StandardCharsets.UTF_8));
return ASCIIUtility.toString(b);
}
@Override
void doAuth(String host, String authzid, String user, String passwd)
throws MessagingException, IOException {
// should never get here
throw new AuthenticationFailedException("OAUTH2 asked for more");
}
}
/**
* SASL-based login.
*
* @param allowed the allowed SASL mechanisms
* @param realm the SASL realm
* @param authzid the authorization ID
* @param u the user name for authentication
* @param p the password for authentication
* @return true for success
* @exception MessagingException for failures
*/
private boolean sasllogin(String[] allowed, String realm, String authzid,
String u, String p) throws MessagingException {
String serviceHost;
if (useCanonicalHostName)
serviceHost = serverSocket.getInetAddress().getCanonicalHostName();
else
serviceHost = host;
if (saslAuthenticator == null) {
try {
Class sac = Class.forName(
"com.sun.mail.smtp.SMTPSaslAuthenticator");
Constructor c = sac.getConstructor(new Class[] {
SMTPTransport.class,
String.class,
Properties.class,
MailLogger.class,
String.class
});
saslAuthenticator = (SaslAuthenticator)c.newInstance(
new Object[] {
this,
name,
session.getProperties(),
logger,
serviceHost
});
} catch (Exception ex) {
logger.log(Level.FINE, "Can't load SASL authenticator", ex);
// probably because we're running on a system without SASL
return false; // not authenticated, try without SASL
}
}
// were any allowed mechanisms specified?
List v;
if (allowed != null && allowed.length > 0) {
// remove anything not supported by the server
v = new ArrayList<>(allowed.length);
for (int i = 0; i < allowed.length; i++)
if (supportsAuthentication(allowed[i])) // XXX - case must match
v.add(allowed[i]);
} else {
// everything is allowed
v = new ArrayList<>();
if (extMap != null) {
String a = extMap.get("AUTH");
if (a != null) {
StringTokenizer st = new StringTokenizer(a);
while (st.hasMoreTokens())
v.add(st.nextToken());
}
}
}
String[] mechs = v.toArray(new String[v.size()]);
try {
if (noauthdebug && isTracing()) {
logger.fine("SASL AUTH command trace suppressed");
suspendTracing();
}
return saslAuthenticator.authenticate(mechs, realm, authzid, u, p);
} finally {
resumeTracing();
}
}
/**
* Send the Message to the specified list of addresses.
*
* If all the addresses succeed the SMTP check
* using the RCPT TO: command, we attempt to send the message.
* A TransportEvent of type MESSAGE_DELIVERED is fired indicating the
* successful submission of a message to the SMTP host.
*
* If some of the addresses fail the SMTP check,
* and the mail.smtp.sendpartial property is not set,
* sending is aborted. The TransportEvent of type MESSAGE_NOT_DELIVERED
* is fired containing the valid and invalid addresses. The
* SendFailedException is also thrown.
*
* If some of the addresses fail the SMTP check,
* and the mail.smtp.sendpartial property is set to true,
* the message is sent. The TransportEvent of type
* MESSAGE_PARTIALLY_DELIVERED
* is fired containing the valid and invalid addresses. The
* SMTPSendFailedException is also thrown.
*
* MessagingException is thrown if the message can't write out
* an RFC822-compliant stream using its writeTo method.
*
* @param message The MimeMessage to be sent
* @param addresses List of addresses to send this message to
* @see javax.mail.event.TransportEvent
* @exception SMTPSendFailedException if the send failed because of
* an SMTP command error
* @exception SendFailedException if the send failed because of
* invalid addresses.
* @exception MessagingException if the connection is dead
* or not in the connected state or if the message is
* not a MimeMessage.
*/
@Override
public synchronized void sendMessage(Message message, Address[] addresses)
throws MessagingException, SendFailedException {
sendMessageStart(message != null ? message.getSubject() : "");
checkConnected();
// check if the message is a valid MIME/RFC822 message and that
// it has all valid InternetAddresses; fail if not
if (!(message instanceof MimeMessage)) {
logger.fine("Can only send RFC822 msgs");
throw new MessagingException("SMTP can only send RFC822 messages");
}
for (int i = 0; i < addresses.length; i++) {
if (!(addresses[i] instanceof InternetAddress)) {
throw new MessagingException(addresses[i] +
" is not an InternetAddress");
}
}
if (addresses.length == 0)
throw new SendFailedException("No recipient addresses");
this.message = (MimeMessage)message;
this.addresses = addresses;
validUnsentAddr = addresses; // until we know better
expandGroups();
boolean use8bit = false;
if (message instanceof SMTPMessage)
use8bit = ((SMTPMessage)message).getAllow8bitMIME();
if (!use8bit)
use8bit = PropUtil.getBooleanProperty(session.getProperties(),
"mail." + name + ".allow8bitmime", false);
if (logger.isLoggable(Level.FINE))
logger.fine("use8bit " + use8bit);
if (use8bit && supportsExtension("8BITMIME")) {
if (convertTo8Bit(this.message)) {
// in case we made any changes, save those changes
// XXX - this will change the Message-ID
try {
this.message.saveChanges();
} catch (MessagingException mex) {
// ignore it
}
}
}
try {
mailFrom();
rcptTo();
if (chunkSize > 0 && supportsExtension("CHUNKING")) {
/*
* Use BDAT to send the data in chunks.
* Note that even though the BDAT command is able to send
* messages that contain binary data, we can't use it to
* do that because a) we still need to canonicalize the
* line terminators for text data, which we can't tell apart
* from the message content, and b) the message content is
* encoded before we even know that we can use BDAT.
*/
this.message.writeTo(bdat(), ignoreList);
finishBdat();
} else {
this.message.writeTo(data(), ignoreList);
finishData();
}
if (sendPartiallyFailed) {
// throw the exception,
// fire TransportEvent.MESSAGE_PARTIALLY_DELIVERED event
logger.fine("Sending partially failed " +
"because of invalid destination addresses");
notifyTransportListeners(
TransportEvent.MESSAGE_PARTIALLY_DELIVERED,
validSentAddr, validUnsentAddr, invalidAddr,
this.message);
throw new SMTPSendFailedException(".", lastReturnCode,
lastServerResponse, exception,
validSentAddr, validUnsentAddr, invalidAddr);
}
logger.fine("message successfully delivered to mail server");
notifyTransportListeners(TransportEvent.MESSAGE_DELIVERED,
validSentAddr, validUnsentAddr,
invalidAddr, this.message);
} catch (MessagingException mex) {
logger.log(Level.FINE, "MessagingException while sending", mex);
// the MessagingException might be wrapping an IOException
if (mex.getNextException() instanceof IOException) {
// if we catch an IOException, it means that we want
// to drop the connection so that the message isn't sent
logger.fine("nested IOException, closing");
try {
closeConnection();
} catch (MessagingException cex) { /* ignore it */ }
}
addressesFailed();
notifyTransportListeners(TransportEvent.MESSAGE_NOT_DELIVERED,
validSentAddr, validUnsentAddr,
invalidAddr, this.message);
throw mex;
} catch (IOException ex) {
logger.log(Level.FINE, "IOException while sending, closing", ex);
// if we catch an IOException, it means that we want
// to drop the connection so that the message isn't sent
try {
closeConnection();
} catch (MessagingException mex) { /* ignore it */ }
addressesFailed();
notifyTransportListeners(TransportEvent.MESSAGE_NOT_DELIVERED,
validSentAddr, validUnsentAddr,
invalidAddr, this.message);
throw new MessagingException("IOException while sending message",
ex);
} finally {
// no reason to keep this data around
validSentAddr = validUnsentAddr = invalidAddr = null;
this.addresses = null;
this.message = null;
this.exception = null;
sendPartiallyFailed = false;
notificationDone = false; // reset for next send
}
sendMessageEnd();
}
/**
* The send failed, fix the address arrays to report the failure correctly.
*/
private void addressesFailed() {
if (validSentAddr != null) {
if (validUnsentAddr != null) {
Address newa[] =
new Address[validSentAddr.length + validUnsentAddr.length];
System.arraycopy(validSentAddr, 0,
newa, 0, validSentAddr.length);
System.arraycopy(validUnsentAddr, 0,
newa, validSentAddr.length, validUnsentAddr.length);
validSentAddr = null;
validUnsentAddr = newa;
} else {
validUnsentAddr = validSentAddr;
validSentAddr = null;
}
}
}
/**
* Close the Transport and terminate the connection to the server.
*/
@Override
public synchronized void close() throws MessagingException {
if (!super.isConnected()) // Already closed.
return;
try {
if (serverSocket != null) {
sendCommand("QUIT");
if (quitWait) {
int resp = readServerResponse();
if (resp != 221 && resp != -1 &&
logger.isLoggable(Level.FINE))
logger.fine("QUIT failed with " + resp);
}
}
} finally {
closeConnection();
}
}
private void closeConnection() throws MessagingException {
try {
if (serverSocket != null)
serverSocket.close();
} catch (IOException ioex) { // shouldn't happen
throw new MessagingException("Server Close Failed", ioex);
} finally {
serverSocket = null;
serverOutput = null;
serverInput = null;
lineInputStream = null;
if (super.isConnected()) // only notify if already connected
super.close();
}
}
/**
* Check whether the transport is connected. Override superclass
* method, to actually ping our server connection.
*/
@Override
public synchronized boolean isConnected() {
if (!super.isConnected())
// if we haven't been connected at all, don't bother with NOOP
return false;
try {
// sendmail may respond slowly to NOOP after many requests
// so if mail.smtp.userset is set we use RSET instead of NOOP.
if (useRset)
sendCommand("RSET");
else
sendCommand("NOOP");
int resp = readServerResponse();
/*
* NOOP should return 250 on success, however, SIMS 3.2 returns
* 200, so we work around it.
*
* Hotmail didn't used to implement the NOOP command at all so
* assume any kind of response means we're still connected.
* That is, any response except 421, which means the server
* is shutting down the connection.
*
* Some versions of Exchange return 451 instead of 421 when
* timing out a connection.
*
* Argh!
*
* If mail.smtp.noop.strict is set to false, be tolerant of
* servers that return the wrong response code for success.
*/
if (resp >= 0 && (noopStrict ? resp == 250 : resp != 421)) {
return true;
} else {
try {
closeConnection();
} catch (MessagingException mex) {
// ignore it
}
return false;
}
} catch (Exception ex) {
try {
closeConnection();
} catch (MessagingException mex) {
// ignore it
}
return false;
}
}
/**
* Notify all TransportListeners. Keep track of whether notification
* has been done so as to only notify once per send.
*
* @since JavaMail 1.4.2
*/
@Override
protected void notifyTransportListeners(int type, Address[] validSent,
Address[] validUnsent,
Address[] invalid, Message msg) {
if (!notificationDone) {
super.notifyTransportListeners(type, validSent, validUnsent,
invalid, msg);
notificationDone = true;
}
}
/**
* Expand any group addresses.
*/
private void expandGroups() {
List
groups = null;
for (int i = 0; i < addresses.length; i++) {
InternetAddress a = (InternetAddress)addresses[i];
if (a.isGroup()) {
if (groups == null) {
// first group, catch up with where we are
groups = new ArrayList<>();
for (int k = 0; k < i; k++)
groups.add(addresses[k]);
}
// parse it and add each individual address
try {
InternetAddress[] ia = a.getGroup(true);
if (ia != null) {
for (int j = 0; j < ia.length; j++)
groups.add(ia[j]);
} else
groups.add(a);
} catch (ParseException pex) {
// parse failed, add the whole thing
groups.add(a);
}
} else {
// if we've started accumulating a list, add this to it
if (groups != null)
groups.add(a);
}
}
// if we have a new list, convert it back to an array
if (groups != null) {
InternetAddress[] newa = new InternetAddress[groups.size()];
groups.toArray(newa);
addresses = newa;
}
}
/**
* If the Part is a text part and has a Content-Transfer-Encoding
* of "quoted-printable" or "base64", and it obeys the rules for
* "8bit" encoding, change the encoding to "8bit". If the part is
* a multipart, recursively process all its parts.
*
* @return true if any changes were made
*
* XXX - This is really quite a hack.
*/
private boolean convertTo8Bit(MimePart part) {
boolean changed = false;
try {
if (part.isMimeType("text/*")) {
String enc = part.getEncoding();
if (enc != null && (enc.equalsIgnoreCase("quoted-printable") ||
enc.equalsIgnoreCase("base64"))) {
InputStream is = null;
try {
is = part.getInputStream();
if (is8Bit(is)) {
/*
* If the message was created using an InputStream
* then we have to extract the content as an object
* and set it back as an object so that the content
* will be re-encoded.
*
* If the message was not created using an
* InputStream, the following should have no effect.
*/
part.setContent(part.getContent(),
part.getContentType());
part.setHeader("Content-Transfer-Encoding", "8bit");
changed = true;
}
} finally {
if (is != null) {
try {
is.close();
} catch (IOException ex2) {
// ignore it
}
}
}
}
} else if (part.isMimeType("multipart/*")) {
MimeMultipart mp = (MimeMultipart)part.getContent();
int count = mp.getCount();
for (int i = 0; i < count; i++) {
if (convertTo8Bit((MimePart)mp.getBodyPart(i)))
changed = true;
}
}
} catch (IOException ioex) {
// any exception causes us to give up
} catch (MessagingException mex) {
// any exception causes us to give up
}
return changed;
}
/**
* Check whether the data in the given InputStream follows the
* rules for 8bit text. Lines have to be 998 characters or less
* and no NULs are allowed. CR and LF must occur in pairs but we
* don't check that because we assume this is text and we convert
* all CR/LF combinations into canonical CRLF later.
*/
private boolean is8Bit(InputStream is) {
int b;
int linelen = 0;
boolean need8bit = false;
try {
while ((b = is.read()) >= 0) {
b &= 0xff;
if (b == '\r' || b == '\n')
linelen = 0;
else if (b == 0)
return false;
else {
linelen++;
if (linelen > 998) // 1000 - CRLF
return false;
}
if (b > 0x7f)
need8bit = true;
}
} catch (IOException ex) {
return false;
}
if (need8bit)
logger.fine("found an 8bit part");
return need8bit;
}
@Override
protected void finalize() throws Throwable {
try {
closeConnection();
} catch (MessagingException mex) {
// ignore it
} finally {
super.finalize();
}
}
///////////////////// smtp stuff ///////////////////////
private BufferedInputStream serverInput;
private LineInputStream lineInputStream;
private OutputStream serverOutput;
private Socket serverSocket;
private TraceInputStream traceInput;
private TraceOutputStream traceOutput;
/////// smtp protocol //////
/**
* Issue the HELO command.
*
* @param domain our domain
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected void helo(String domain) throws MessagingException {
if (domain != null)
issueCommand("HELO " + domain, 250);
else
issueCommand("HELO", 250);
}
/**
* Issue the EHLO command.
* Collect the returned list of service extensions.
*
* @param domain our domain
* @return true if command succeeds
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected boolean ehlo(String domain) throws MessagingException {
String cmd;
if (domain != null)
cmd = "EHLO " + domain;
else
cmd = "EHLO";
sendCommand(cmd);
int resp = readServerResponse();
if (resp == 250) {
// extract the supported service extensions
BufferedReader rd =
new BufferedReader(new StringReader(lastServerResponse));
String line;
extMap = new Hashtable<>();
try {
boolean first = true;
while ((line = rd.readLine()) != null) {
if (first) { // skip first line which is the greeting
first = false;
continue;
}
if (line.length() < 5)
continue; // shouldn't happen
line = line.substring(4); // skip response code
int i = line.indexOf(' ');
String arg = "";
if (i > 0) {
arg = line.substring(i + 1);
line = line.substring(0, i);
}
if (logger.isLoggable(Level.FINE))
logger.fine("Found extension \"" +
line + "\", arg \"" + arg + "\"");
extMap.put(line.toUpperCase(Locale.ENGLISH), arg);
}
} catch (IOException ex) { } // can't happen
}
return resp == 250;
}
/**
* Issue the MAIL FROM: command to start sending a message.
*
* Gets the sender's address in the following order:
*
* - SMTPMessage.getEnvelopeFrom()
* - mail.smtp.from property
* - From: header in the message
* - System username using the
* InternetAddress.getLocalAddress() method
*
*
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected void mailFrom() throws MessagingException {
String from = null;
if (message instanceof SMTPMessage)
from = ((SMTPMessage)message).getEnvelopeFrom();
if (from == null || from.length() <= 0)
from = session.getProperty("mail." + name + ".from");
if (from == null || from.length() <= 0) {
Address[] fa;
Address me;
if (message != null && (fa = message.getFrom()) != null &&
fa.length > 0)
me = fa[0];
else
me = InternetAddress.getLocalAddress(session);
if (me != null)
from = ((InternetAddress)me).getAddress();
else
throw new MessagingException(
"can't determine local email address");
}
String cmd = "MAIL FROM:" + normalizeAddress(from);
if (allowutf8 && supportsExtension("SMTPUTF8"))
cmd += " SMTPUTF8";
// request delivery status notification?
if (supportsExtension("DSN")) {
String ret = null;
if (message instanceof SMTPMessage)
ret = ((SMTPMessage)message).getDSNRet();
if (ret == null)
ret = session.getProperty("mail." + name + ".dsn.ret");
// XXX - check for legal syntax?
if (ret != null)
cmd += " RET=" + ret;
}
/*
* If an RFC 2554 submitter has been specified, and the server
* supports the AUTH extension, include the AUTH= element on
* the MAIL FROM command.
*/
if (supportsExtension("AUTH")) {
String submitter = null;
if (message instanceof SMTPMessage)
submitter = ((SMTPMessage)message).getSubmitter();
if (submitter == null)
submitter = session.getProperty("mail." + name + ".submitter");
// XXX - check for legal syntax?
if (submitter != null) {
try {
String s = xtext(submitter,
allowutf8 && supportsExtension("SMTPUTF8"));
cmd += " AUTH=" + s;
} catch (IllegalArgumentException ex) {
if (logger.isLoggable(Level.FINE))
logger.log(Level.FINE, "ignoring invalid submitter: " +
submitter, ex);
}
}
}
/*
* Have any extensions to the MAIL command been specified?
*/
String ext = null;
if (message instanceof SMTPMessage)
ext = ((SMTPMessage)message).getMailExtension();
if (ext == null)
ext = session.getProperty("mail." + name + ".mailextension");
if (ext != null && ext.length() > 0)
cmd += " " + ext;
try {
issueSendCommand(cmd, 250);
} catch (SMTPSendFailedException ex) {
int retCode = ex.getReturnCode();
switch (retCode) {
case 550: case 553: case 503: case 551: case 501:
// given address is invalid
try {
ex.setNextException(new SMTPSenderFailedException(
new InternetAddress(from), cmd,
retCode, ex.getMessage()));
} catch (AddressException aex) {
// oh well...
}
break;
default:
break;
}
throw ex;
}
}
/**
* Sends each address to the SMTP host using the RCPT TO:
* command and copies the address either into
* the validSentAddr or invalidAddr arrays.
* Sets the sendFailed
* flag to true if any addresses failed.
*
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
/*
* success/failure/error possibilities from the RCPT command
* from rfc821, section 4.3
* S: 250, 251
* F: 550, 551, 552, 553, 450, 451, 452
* E: 500, 501, 503, 421
*
* and how we map the above error/failure conditions to valid/invalid
* address lists that are reported in the thrown exception:
* invalid addr: 550, 501, 503, 551, 553
* valid addr: 552 (quota), 450, 451, 452 (quota), 421 (srvr abort)
*/
protected void rcptTo() throws MessagingException {
List valid = new ArrayList<>();
List validUnsent = new ArrayList<>();
List invalid = new ArrayList<>();
int retCode = -1;
MessagingException mex = null;
boolean sendFailed = false;
MessagingException sfex = null;
validSentAddr = validUnsentAddr = invalidAddr = null;
boolean sendPartial = false;
if (message instanceof SMTPMessage)
sendPartial = ((SMTPMessage)message).getSendPartial();
if (!sendPartial)
sendPartial = PropUtil.getBooleanProperty(session.getProperties(),
"mail." + name + ".sendpartial", false);
if (sendPartial)
logger.fine("sendPartial set");
boolean dsn = false;
String notify = null;
if (supportsExtension("DSN")) {
if (message instanceof SMTPMessage)
notify = ((SMTPMessage)message).getDSNNotify();
if (notify == null)
notify = session.getProperty("mail." + name + ".dsn.notify");
// XXX - check for legal syntax?
if (notify != null)
dsn = true;
}
// try the addresses one at a time
for (int i = 0; i < addresses.length; i++) {
sfex = null;
InternetAddress ia = (InternetAddress)addresses[i];
String cmd = "RCPT TO:" + normalizeAddress(ia.getAddress());
if (dsn)
cmd += " NOTIFY=" + notify;
// send the addresses to the SMTP server
sendCommand(cmd);
// check the server's response for address validity
retCode = readServerResponse();
switch (retCode) {
case 250: case 251:
valid.add(ia);
if (!reportSuccess)
break;
// user wants exception even when successful, including
// details of the return code
// create and chain the exception
sfex = new SMTPAddressSucceededException(ia, cmd, retCode,
lastServerResponse);
if (mex == null)
mex = sfex;
else
mex.setNextException(sfex);
break;
case 550: case 553: case 503: case 551: case 501:
// given address is invalid
if (!sendPartial)
sendFailed = true;
invalid.add(ia);
// create and chain the exception
sfex = new SMTPAddressFailedException(ia, cmd, retCode,
lastServerResponse);
if (mex == null)
mex = sfex;
else
mex.setNextException(sfex);
break;
case 552: case 450: case 451: case 452:
// given address is valid
if (!sendPartial)
sendFailed = true;
validUnsent.add(ia);
// create and chain the exception
sfex = new SMTPAddressFailedException(ia, cmd, retCode,
lastServerResponse);
if (mex == null)
mex = sfex;
else
mex.setNextException(sfex);
break;
default:
// handle remaining 4xy & 5xy codes
if (retCode >= 400 && retCode <= 499) {
// assume address is valid, although we don't really know
validUnsent.add(ia);
} else if (retCode >= 500 && retCode <= 599) {
// assume address is invalid, although we don't really know
invalid.add(ia);
} else {
// completely unexpected response, just give up
if (logger.isLoggable(Level.FINE))
logger.fine("got response code " + retCode +
", with response: " + lastServerResponse);
String _lsr = lastServerResponse; // else rset will nuke it
int _lrc = lastReturnCode;
if (serverSocket != null) // hasn't already been closed
issueCommand("RSET", -1);
lastServerResponse = _lsr; // restore, for get
lastReturnCode = _lrc;
throw new SMTPAddressFailedException(ia, cmd, retCode,
_lsr);
}
if (!sendPartial)
sendFailed = true;
// create and chain the exception
sfex = new SMTPAddressFailedException(ia, cmd, retCode,
lastServerResponse);
if (mex == null)
mex = sfex;
else
mex.setNextException(sfex);
break;
}
}
// if we're willing to send to a partial list, and we found no
// valid addresses, that's complete failure
if (sendPartial && valid.size() == 0)
sendFailed = true;
// copy the lists into appropriate arrays
if (sendFailed) {
// copy invalid addrs
invalidAddr = new Address[invalid.size()];
invalid.toArray(invalidAddr);
// copy all valid addresses to validUnsent, since something failed
validUnsentAddr = new Address[valid.size() + validUnsent.size()];
int i = 0;
for (int j = 0; j < valid.size(); j++)
validUnsentAddr[i++] = (Address)valid.get(j);
for (int j = 0; j < validUnsent.size(); j++)
validUnsentAddr[i++] = (Address)validUnsent.get(j);
} else if (reportSuccess || (sendPartial &&
(invalid.size() > 0 || validUnsent.size() > 0))) {
// we'll go on to send the message, but after sending we'll
// throw an exception with this exception nested
sendPartiallyFailed = true;
exception = mex;
// copy invalid addrs
invalidAddr = new Address[invalid.size()];
invalid.toArray(invalidAddr);
// copy valid unsent addresses to validUnsent
validUnsentAddr = new Address[validUnsent.size()];
validUnsent.toArray(validUnsentAddr);
// copy valid addresses to validSent
validSentAddr = new Address[valid.size()];
valid.toArray(validSentAddr);
} else { // all addresses pass
validSentAddr = addresses;
}
// print out the debug info
if (logger.isLoggable(Level.FINE)) {
if (validSentAddr != null && validSentAddr.length > 0) {
logger.fine("Verified Addresses");
for (int l = 0; l < validSentAddr.length; l++) {
logger.fine(" " + validSentAddr[l]);
}
}
if (validUnsentAddr != null && validUnsentAddr.length > 0) {
logger.fine("Valid Unsent Addresses");
for (int j = 0; j < validUnsentAddr.length; j++) {
logger.fine(" " + validUnsentAddr[j]);
}
}
if (invalidAddr != null && invalidAddr.length > 0) {
logger.fine("Invalid Addresses");
for (int k = 0; k < invalidAddr.length; k++) {
logger.fine(" " + invalidAddr[k]);
}
}
}
// throw the exception, fire TransportEvent.MESSAGE_NOT_DELIVERED event
if (sendFailed) {
logger.fine(
"Sending failed because of invalid destination addresses");
notifyTransportListeners(TransportEvent.MESSAGE_NOT_DELIVERED,
validSentAddr, validUnsentAddr,
invalidAddr, this.message);
// reset the connection so more sends are allowed
String lsr = lastServerResponse; // save, for get
int lrc = lastReturnCode;
try {
if (serverSocket != null)
issueCommand("RSET", -1);
} catch (MessagingException ex) {
// if can't reset, best to close the connection
try {
close();
} catch (MessagingException ex2) {
// thrown by close()--ignore, will close() later anyway
logger.log(Level.FINE, "close failed", ex2);
}
} finally {
lastServerResponse = lsr; // restore
lastReturnCode = lrc;
}
throw new SendFailedException("Invalid Addresses", mex,
validSentAddr,
validUnsentAddr, invalidAddr);
}
}
/**
* Send the DATA command to the SMTP host and return
* an OutputStream to which the data is to be written.
*
* @return the stream to write to
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected OutputStream data() throws MessagingException {
assert Thread.holdsLock(this);
issueSendCommand("DATA", 354);
dataStream = new SMTPOutputStream(serverOutput);
return dataStream;
}
/**
* Terminate the sent data.
*
* @exception IOException for I/O errors
* @exception MessagingException for other failures
* @since JavaMail 1.4.1
*/
protected void finishData() throws IOException, MessagingException {
assert Thread.holdsLock(this);
dataStream.ensureAtBOL();
issueSendCommand(".", 250);
}
/**
* Return a stream that will use the SMTP BDAT command to send data.
*
* @return the stream to write to
* @exception MessagingException for failures
* @since JavaMail 1.6.0
*/
protected OutputStream bdat() throws MessagingException {
assert Thread.holdsLock(this);
dataStream = new BDATOutputStream(serverOutput, chunkSize);
return dataStream;
}
/**
* Terminate the sent data.
*
* @exception IOException for I/O errors
* @exception MessagingException for other failures
* @since JavaMail 1.6.0
*/
protected void finishBdat() throws IOException, MessagingException {
assert Thread.holdsLock(this);
dataStream.ensureAtBOL();
dataStream.close(); // doesn't close underlying socket
}
/**
* Issue the STARTTLS command and switch the socket to
* TLS mode if it succeeds.
*
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected void startTLS() throws MessagingException {
issueCommand("STARTTLS", 220);
// it worked, now switch the socket into TLS mode
try {
serverSocket = SocketFetcher.startTLS(serverSocket, host,
session.getProperties(), "mail." + name);
initStreams();
} catch (IOException ioex) {
closeConnection();
throw new MessagingException("Could not convert socket to TLS",
ioex);
}
}
/////// primitives ///////
/**
* Connect to host on port and start the SMTP protocol.
*/
private void openServer(String host, int port)
throws MessagingException {
if (logger.isLoggable(Level.FINE))
logger.fine("trying to connect to host \"" + host +
"\", port " + port + ", isSSL " + isSSL);
try {
Properties props = session.getProperties();
serverSocket = SocketFetcher.getSocket(host, port,
props, "mail." + name, isSSL);
// socket factory may've chosen a different port,
// update it for the debug messages that follow
port = serverSocket.getPort();
// save host name for startTLS
this.host = host;
initStreams();
int r = -1;
if ((r = readServerResponse()) != 220) {
serverSocket.close();
serverSocket = null;
serverOutput = null;
serverInput = null;
lineInputStream = null;
if (logger.isLoggable(Level.FINE))
logger.fine("could not connect to host \"" +
host + "\", port: " + port +
", response: " + r);
throw new MessagingException(
"Could not connect to SMTP host: " + host +
", port: " + port +
", response: " + r);
} else {
if (logger.isLoggable(Level.FINE))
logger.fine("connected to host \"" +
host + "\", port: " + port);
}
} catch (UnknownHostException uhex) {
throw new MessagingException("Unknown SMTP host: " + host, uhex);
} catch (SocketConnectException scex) {
throw new MailConnectException(scex);
} catch (IOException ioe) {
throw new MessagingException("Could not connect to SMTP host: " +
host + ", port: " + port, ioe);
}
}
/**
* Start the protocol to the server on serverSocket,
* assumed to be provided and connected by the caller.
*/
private void openServer() throws MessagingException {
int port = -1;
host = "UNKNOWN";
try {
port = serverSocket.getPort();
host = serverSocket.getInetAddress().getHostName();
if (logger.isLoggable(Level.FINE))
logger.fine("starting protocol to host \"" +
host + "\", port " + port);
initStreams();
int r = -1;
if ((r = readServerResponse()) != 220) {
serverSocket.close();
serverSocket = null;
serverOutput = null;
serverInput = null;
lineInputStream = null;
if (logger.isLoggable(Level.FINE))
logger.fine("got bad greeting from host \"" +
host + "\", port: " + port +
", response: " + r);
throw new MessagingException(
"Got bad greeting from SMTP host: " + host +
", port: " + port +
", response: " + r);
} else {
if (logger.isLoggable(Level.FINE))
logger.fine("protocol started to host \"" +
host + "\", port: " + port);
}
} catch (IOException ioe) {
throw new MessagingException(
"Could not start protocol to SMTP host: " +
host + ", port: " + port, ioe);
}
}
private void initStreams() throws IOException {
boolean quote = PropUtil.getBooleanProperty(session.getProperties(),
"mail.debug.quote", false);
traceInput =
new TraceInputStream(serverSocket.getInputStream(), traceLogger);
traceInput.setQuote(quote);
traceOutput =
new TraceOutputStream(serverSocket.getOutputStream(), traceLogger);
traceOutput.setQuote(quote);
serverOutput =
new BufferedOutputStream(traceOutput);
serverInput =
new BufferedInputStream(traceInput);
lineInputStream = new LineInputStream(serverInput);
}
/**
* Is protocol tracing enabled?
*/
private boolean isTracing() {
return traceLogger.isLoggable(Level.FINEST);
}
/**
* Temporarily turn off protocol tracing, e.g., to prevent
* tracing the authentication sequence, including the password.
*/
private void suspendTracing() {
if (traceLogger.isLoggable(Level.FINEST)) {
traceInput.setTrace(false);
traceOutput.setTrace(false);
}
}
/**
* Resume protocol tracing, if it was enabled to begin with.
*/
private void resumeTracing() {
if (traceLogger.isLoggable(Level.FINEST)) {
traceInput.setTrace(true);
traceOutput.setTrace(true);
}
}
/**
* Send the command to the server. If the expected response code
* is not received, throw a MessagingException.
*
* @param cmd the command to send
* @param expect the expected response code (-1 means don't care)
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
public synchronized void issueCommand(String cmd, int expect)
throws MessagingException {
sendCommand(cmd);
// if server responded with an unexpected return code,
// throw the exception, notifying the client of the response
int resp = readServerResponse();
if (expect != -1 && resp != expect)
throw new MessagingException(lastServerResponse);
}
/**
* Issue a command that's part of sending a message.
*/
private void issueSendCommand(String cmd, int expect)
throws MessagingException {
sendCommand(cmd);
// if server responded with an unexpected return code,
// throw the exception, notifying the client of the response
int ret;
if ((ret = readServerResponse()) != expect) {
// assume message was not sent to anyone,
// combine valid sent & unsent addresses
int vsl = validSentAddr == null ? 0 : validSentAddr.length;
int vul = validUnsentAddr == null ? 0 : validUnsentAddr.length;
Address[] valid = new Address[vsl + vul];
if (vsl > 0)
System.arraycopy(validSentAddr, 0, valid, 0, vsl);
if (vul > 0)
System.arraycopy(validUnsentAddr, 0, valid, vsl, vul);
validSentAddr = null;
validUnsentAddr = valid;
if (logger.isLoggable(Level.FINE))
logger.fine("got response code " + ret +
", with response: " + lastServerResponse);
String _lsr = lastServerResponse; // else rset will nuke it
int _lrc = lastReturnCode;
if (serverSocket != null) // hasn't already been closed
issueCommand("RSET", -1);
lastServerResponse = _lsr; // restore, for get
lastReturnCode = _lrc;
throw new SMTPSendFailedException(cmd, ret, lastServerResponse,
exception, validSentAddr, validUnsentAddr, invalidAddr);
}
}
/**
* Send the command to the server and return the response code
* from the server.
*
* @param cmd the command
* @return the response code
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
public synchronized int simpleCommand(String cmd)
throws MessagingException {
sendCommand(cmd);
return readServerResponse();
}
/**
* Send the command to the server and return the response code
* from the server.
*
* @param cmd the command
* @return the response code
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected int simpleCommand(byte[] cmd) throws MessagingException {
assert Thread.holdsLock(this);
sendCommand(cmd);
return readServerResponse();
}
/**
* Sends command cmd to the server terminating
* it with CRLF.
*
* @param cmd the command
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected void sendCommand(String cmd) throws MessagingException {
sendCommand(toBytes(cmd));
}
private void sendCommand(byte[] cmdBytes) throws MessagingException {
assert Thread.holdsLock(this);
//if (logger.isLoggable(Level.FINE))
//logger.fine("SENT: " + new String(cmdBytes, 0));
try {
serverOutput.write(cmdBytes);
serverOutput.write(CRLF);
serverOutput.flush();
} catch (IOException ex) {
throw new MessagingException("Can't send command to SMTP host", ex);
}
}
/**
* Reads server reponse returning the returnCode
* as the number. Returns -1 on failure. Sets
* lastServerResponse and lastReturnCode.
*
* @return server response code
* @exception MessagingException for failures
* @since JavaMail 1.4.1
*/
protected int readServerResponse() throws MessagingException {
assert Thread.holdsLock(this);
String serverResponse = "";
int returnCode = 0;
StringBuilder buf = new StringBuilder(100);
// read the server response line(s) and add them to the buffer
// that stores the response
try {
String line = null;
do {
line = lineInputStream.readLine();
if (line == null) {
serverResponse = buf.toString();
if (serverResponse.length() == 0)
serverResponse = "[EOF]";
lastServerResponse = serverResponse;
lastReturnCode = -1;
logger.log(Level.FINE, "EOF: {0}", serverResponse);
return -1;
}
buf.append(line);
buf.append("\n");
} while (isNotLastLine(line));
serverResponse = buf.toString();
} catch (IOException ioex) {
logger.log(Level.FINE, "exception reading response", ioex);
//ioex.printStackTrace(out);
lastServerResponse = "";
lastReturnCode = 0;
throw new MessagingException("Exception reading response", ioex);
//returnCode = -1;
}
// print debug info
//if (logger.isLoggable(Level.FINE))
//logger.fine("RCVD: " + serverResponse);
// parse out the return code
if (serverResponse.length() >= 3) {
try {
returnCode = Integer.parseInt(serverResponse.substring(0, 3));
} catch (NumberFormatException nfe) {
try {
close();
} catch (MessagingException mex) {
// thrown by close()--ignore, will close() later anyway
logger.log(Level.FINE, "close failed", mex);
}
returnCode = -1;
} catch (StringIndexOutOfBoundsException ex) {
try {
close();
} catch (MessagingException mex) {
// thrown by close()--ignore, will close() later anyway
logger.log(Level.FINE, "close failed", mex);
}
returnCode = -1;
}
} else {
returnCode = -1;
}
if (returnCode == -1)
logger.log(Level.FINE, "bad server response: {0}", serverResponse);
lastServerResponse = serverResponse;
lastReturnCode = returnCode;
return returnCode;
}
/**
* Check if we're in the connected state. Don't bother checking
* whether the server is still alive, that will be detected later.
*
* @exception IllegalStateException if not connected
*
* @since JavaMail 1.4.1
*/
protected void checkConnected() {
if (!super.isConnected())
throw new IllegalStateException("Not connected");
}
// tests if the line is an intermediate line according to SMTP
private boolean isNotLastLine(String line) {
return line != null && line.length() >= 4 && line.charAt(3) == '-';
}
// wraps an address in "<>"'s if necessary
private String normalizeAddress(String addr) {
if ((!addr.startsWith("<")) && (!addr.endsWith(">")))
return "<" + addr + ">";
else
return addr;
}
/**
* Return true if the SMTP server supports the specified service
* extension. Extensions are reported as results of the EHLO
* command when connecting to the server. See
* RFC 1869
* and other RFCs that define specific extensions.
*
* @param ext the service extension name
* @return true if the extension is supported
*
* @since JavaMail 1.3.2
*/
public boolean supportsExtension(String ext) {
return extMap != null &&
extMap.get(ext.toUpperCase(Locale.ENGLISH)) != null;
}
/**
* Return the parameter the server provided for the specified
* service extension, or null if the extension isn't supported.
*
* @param ext the service extension name
* @return the extension parameter
*
* @since JavaMail 1.3.2
*/
public String getExtensionParameter(String ext) {
return extMap == null ? null :
extMap.get(ext.toUpperCase(Locale.ENGLISH));
}
/**
* Does the server we're connected to support the specified
* authentication mechanism? Uses the extension information
* returned by the server from the EHLO command.
*
* @param auth the authentication mechanism
* @return true if the authentication mechanism is supported
*
* @since JavaMail 1.4.1
*/
protected boolean supportsAuthentication(String auth) {
assert Thread.holdsLock(this);
if (extMap == null)
return false;
String a = extMap.get("AUTH");
if (a == null)
return false;
StringTokenizer st = new StringTokenizer(a);
while (st.hasMoreTokens()) {
String tok = st.nextToken();
if (tok.equalsIgnoreCase(auth))
return true;
}
// hack for buggy servers that advertise capability incorrectly
if (auth.equalsIgnoreCase("LOGIN") && supportsExtension("AUTH=LOGIN")) {
logger.fine("use AUTH=LOGIN hack");
return true;
}
return false;
}
private static char[] hexchar = {
'0', '1', '2', '3', '4', '5', '6', '7',
'8', '9', 'A', 'B', 'C', 'D', 'E', 'F'
};
/**
* Convert a string to RFC 1891 xtext format.
*
*
* xtext = *( xchar / hexchar )
*
* xchar = any ASCII CHAR between "!" (33) and "~" (126) inclusive,
* except for "+" and "=".
*
* ; "hexchar"s are intended to encode octets that cannot appear
* ; as ASCII characters within an esmtp-value.
*
* hexchar = ASCII "+" immediately followed by two upper case
* hexadecimal digits
*
*
* @param s the string to convert
* @return the xtext format string
* @since JavaMail 1.4.1
*/
// XXX - keeping this around only for compatibility
protected static String xtext(String s) {
return xtext(s, false);
}
/**
* Like xtext(s), but allow UTF-8 strings.
*
* @param s the string to convert
* @param utf8 convert string to UTF-8 first?
* @return the xtext format string
* @since JavaMail 1.6.0
*/
protected static String xtext(String s, boolean utf8) {
StringBuilder sb = null;
byte[] bytes;
if (utf8)
bytes = s.getBytes(StandardCharsets.UTF_8);
else
bytes = ASCIIUtility.getBytes(s);
for (int i = 0; i < bytes.length; i++) {
char c = (char)(((int)bytes[i])&0xff);
if (!utf8 && c >= 128) // not ASCII
throw new IllegalArgumentException(
"Non-ASCII character in SMTP submitter: " + s);
if (c < '!' || c > '~' || c == '+' || c == '=') {
// not printable ASCII
if (sb == null) {
sb = new StringBuilder(s.length() + 4);
sb.append(s.substring(0, i));
}
sb.append('+');
sb.append(hexchar[(((int)c)& 0xf0) >> 4]);
sb.append(hexchar[((int)c)& 0x0f]);
} else {
if (sb != null)
sb.append(c);
}
}
return sb != null ? sb.toString() : s;
}
private String traceUser(String user) {
return debugusername ? user : "";
}
private String tracePassword(String password) {
return debugpassword ? password :
(password == null ? "" : "");
}
/**
* Convert the String to either ASCII or UTF-8 bytes
* depending on allowutf8.
*/
private byte[] toBytes(String s) {
if (allowutf8)
return s.getBytes(StandardCharsets.UTF_8);
else
// don't use StandardCharsets.US_ASCII because it rejects non-ASCII
return ASCIIUtility.getBytes(s);
}
/*
* Probe points for GlassFish monitoring.
*/
private void sendMessageStart(String subject) { }
private void sendMessageEnd() { }
/**
* An SMTPOutputStream that wraps a ChunkedOutputStream.
*/
private class BDATOutputStream extends SMTPOutputStream {
/**
* Create a BDATOutputStream that wraps a ChunkedOutputStream
* of the given size and built on top of the specified
* underlying output stream.
*
* @param out the underlying output stream
* @param size the chunk size
*/
public BDATOutputStream(OutputStream out, int size) {
super(new ChunkedOutputStream(out, size));
}
/**
* Close this output stream.
*
* @exception IOException for I/O errors
*/
@Override
public void close() throws IOException {
out.close();
}
}
/**
* An OutputStream that buffers data in chunks and uses the
* RFC 3030 BDAT SMTP command to send each chunk.
*/
private class ChunkedOutputStream extends OutputStream {
private final OutputStream out;
private final byte[] buf;
private int count = 0;
/**
* Create a ChunkedOutputStream built on top of the specified
* underlying output stream.
*
* @param out the underlying output stream
* @param size the chunk size
*/
public ChunkedOutputStream(OutputStream out, int size) {
this.out = out;
buf = new byte[size];
}
/**
* Writes the specified byte to this output stream.
*
* @param b the byte to write
* @exception IOException for I/O errors
*/
@Override
public void write(int b) throws IOException {
buf[count++] = (byte)b;
if (count >= buf.length)
flush();
}
/**
* Writes len bytes to this output stream starting at off.
*
* @param b bytes to write
* @param off offset in array
* @param len number of bytes to write
* @exception IOException for I/O errors
*/
@Override
public void write(byte b[], int off, int len) throws IOException {
while (len > 0) {
int size = Math.min(buf.length - count, len);
if (size == buf.length) {
// avoid the copy
bdat(b, off, size, false);
} else {
System.arraycopy(b, off, buf, count, size);
count += size;
}
off += size;
len -= size;
if (count >= buf.length)
flush();
}
}
/**
* Flush this output stream.
*
* @exception IOException for I/O errors
*/
@Override
public void flush() throws IOException {
bdat(buf, 0, count, false);
count = 0;
}
/**
* Close this output stream.
*
* @exception IOException for I/O errors
*/
@Override
public void close() throws IOException {
bdat(buf, 0, count, true);
count = 0;
}
/**
* Send the specified bytes using the BDAT command.
*/
private void bdat(byte[] b, int off, int len, boolean last)
throws IOException {
if (len > 0 || last) {
try {
if (last)
sendCommand("BDAT " + len + " LAST");
else
sendCommand("BDAT " + len);
out.write(b, off, len);
out.flush();
int ret = readServerResponse();
if (ret != 250)
throw new IOException(lastServerResponse);
} catch (MessagingException mex) {
throw new IOException("BDAT write exception", mex);
}
}
}
}
}