package com.fsck.k9.mail.internet; import java.io.BufferedWriter; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.io.OutputStreamWriter; import java.text.SimpleDateFormat; import java.util.Date; import java.util.LinkedList; import java.util.Locale; import java.util.Set; import java.util.UUID; import org.apache.james.mime4j.MimeException; import org.apache.james.mime4j.dom.field.DateTimeField; import org.apache.james.mime4j.field.DefaultFieldParser; import org.apache.james.mime4j.io.EOLConvertingInputStream; import org.apache.james.mime4j.parser.ContentHandler; import org.apache.james.mime4j.parser.MimeStreamParser; import org.apache.james.mime4j.stream.BodyDescriptor; import org.apache.james.mime4j.stream.Field; import org.apache.james.mime4j.stream.MimeConfig; import org.apache.james.mime4j.util.MimeUtil; import com.fsck.k9.mail.Address; import com.fsck.k9.mail.Body; import com.fsck.k9.mail.BodyPart; import com.fsck.k9.mail.CompositeBody; import com.fsck.k9.mail.Message; import com.fsck.k9.mail.MessagingException; import com.fsck.k9.mail.Multipart; import com.fsck.k9.mail.Part; import com.fsck.k9.mail.store.UnavailableStorageException; /** * An implementation of Message that stores all of it's metadata in RFC 822 and * RFC 2045 style headers. */ public class MimeMessage extends Message { protected MimeHeader mHeader = new MimeHeader(); protected Address[] mFrom; protected Address[] mTo; protected Address[] mCc; protected Address[] mBcc; protected Address[] mReplyTo; protected String mMessageId; protected String[] mReferences; protected String[] mInReplyTo; protected Date mSentDate; protected SimpleDateFormat mDateFormat; protected Body mBody; protected int mSize; public MimeMessage() { } /** * Parse the given InputStream using Apache Mime4J to build a MimeMessage. * Nested messages will not be recursively parsed. * * @param in * @throws IOException * @throws MessagingException * * @see #MimeMessage(InputStream in, boolean recurse) */ public MimeMessage(InputStream in) throws IOException, MessagingException { parse(in); } /** * Parse the given InputStream using Apache Mime4J to build a MimeMessage. * * @param in * @param recurse A boolean indicating to recurse through all nested MimeMessage subparts. * @throws IOException * @throws MessagingException */ public MimeMessage(InputStream in, boolean recurse) throws IOException, MessagingException { parse(in, recurse); } protected void parse(InputStream in) throws IOException, MessagingException { parse(in, false); } protected void parse(InputStream in, boolean recurse) throws IOException, MessagingException { mHeader.clear(); mFrom = null; mTo = null; mCc = null; mBcc = null; mReplyTo = null; mMessageId = null; mReferences = null; mInReplyTo = null; mSentDate = null; mBody = null; MimeConfig parserConfig = new MimeConfig(); parserConfig.setMaxHeaderLen(-1); // The default is a mere 10k parserConfig.setMaxLineLen(-1); // The default is 1000 characters. Some MUAs generate // REALLY long References: headers parserConfig.setMaxHeaderCount(-1); // Disable the check for header count. MimeStreamParser parser = new MimeStreamParser(parserConfig); parser.setContentHandler(new MimeMessageBuilder()); if (recurse) { parser.setRecurse(); } try { parser.parse(new EOLConvertingInputStream(in)); } catch (MimeException me) { throw new Error(me); } } @Override public Date getSentDate() { if (mSentDate == null) { try { DateTimeField field = (DateTimeField)DefaultFieldParser.parse("Date: " + MimeUtility.unfoldAndDecode(getFirstHeader("Date"))); mSentDate = field.getDate(); } catch (Exception e) { } } return mSentDate; } /** * Sets the sent date object member as well as *adds* the 'Date' header * instead of setting it (for performance reasons). * * @see #mSentDate * @param sentDate * @throws com.fsck.k9.mail.MessagingException */ public void addSentDate(Date sentDate) throws MessagingException { if (mDateFormat == null) { mDateFormat = new SimpleDateFormat("EEE, dd MMM yyyy HH:mm:ss Z", Locale.US); } addHeader("Date", mDateFormat.format(sentDate)); setInternalSentDate(sentDate); } @Override public void setSentDate(Date sentDate) throws MessagingException { removeHeader("Date"); addSentDate(sentDate); } public void setInternalSentDate(Date sentDate) { this.mSentDate = sentDate; } @Override public String getContentType() throws MessagingException { String contentType = getFirstHeader(MimeHeader.HEADER_CONTENT_TYPE); return (contentType == null) ? "text/plain" : contentType; } public String getDisposition() throws MessagingException { return getFirstHeader(MimeHeader.HEADER_CONTENT_DISPOSITION); } public String getContentId() throws MessagingException { return null; } public String getMimeType() throws MessagingException { return MimeUtility.getHeaderParameter(getContentType(), null); } public boolean isMimeType(String mimeType) throws MessagingException { return getMimeType().equalsIgnoreCase(mimeType); } public int getSize() { return mSize; } /** * Returns a list of the given recipient type from this message. If no addresses are * found the method returns an empty array. */ @Override public Address[] getRecipients(RecipientType type) throws MessagingException { if (type == RecipientType.TO) { if (mTo == null) { mTo = Address.parse(MimeUtility.unfold(getFirstHeader("To"))); } return mTo; } else if (type == RecipientType.CC) { if (mCc == null) { mCc = Address.parse(MimeUtility.unfold(getFirstHeader("CC"))); } return mCc; } else if (type == RecipientType.BCC) { if (mBcc == null) { mBcc = Address.parse(MimeUtility.unfold(getFirstHeader("BCC"))); } return mBcc; } else { throw new MessagingException("Unrecognized recipient type."); } } @Override public void setRecipients(RecipientType type, Address[] addresses) throws MessagingException { if (type == RecipientType.TO) { if (addresses == null || addresses.length == 0) { removeHeader("To"); this.mTo = null; } else { setHeader("To", Address.toEncodedString(addresses)); this.mTo = addresses; } } else if (type == RecipientType.CC) { if (addresses == null || addresses.length == 0) { removeHeader("CC"); this.mCc = null; } else { setHeader("CC", Address.toEncodedString(addresses)); this.mCc = addresses; } } else if (type == RecipientType.BCC) { if (addresses == null || addresses.length == 0) { removeHeader("BCC"); this.mBcc = null; } else { setHeader("BCC", Address.toEncodedString(addresses)); this.mBcc = addresses; } } else { throw new MessagingException("Unrecognized recipient type."); } } /** * Returns the unfolded, decoded value of the Subject header. */ @Override public String getSubject() { return MimeUtility.unfoldAndDecode(getFirstHeader("Subject"), this); } @Override public void setSubject(String subject) throws MessagingException { setHeader("Subject", subject); } @Override public Address[] getFrom() { if (mFrom == null) { String list = MimeUtility.unfold(getFirstHeader("From")); if (list == null || list.length() == 0) { list = MimeUtility.unfold(getFirstHeader("Sender")); } mFrom = Address.parse(list); } return mFrom; } @Override public void setFrom(Address from) throws MessagingException { if (from != null) { setHeader("From", from.toEncodedString()); this.mFrom = new Address[] { from }; } else { this.mFrom = null; } } @Override public Address[] getReplyTo() { if (mReplyTo == null) { mReplyTo = Address.parse(MimeUtility.unfold(getFirstHeader("Reply-to"))); } return mReplyTo; } @Override public void setReplyTo(Address[] replyTo) throws MessagingException { if (replyTo == null || replyTo.length == 0) { removeHeader("Reply-to"); mReplyTo = null; } else { setHeader("Reply-to", Address.toEncodedString(replyTo)); mReplyTo = replyTo; } } @Override public String getMessageId() throws MessagingException { if (mMessageId == null) { mMessageId = getFirstHeader("Message-ID"); } if (mMessageId == null) { // even after checking the header setMessageId(generateMessageId()); } return mMessageId; } private String generateMessageId() { return "<" + UUID.randomUUID().toString() + "@email.android.com>"; } public void setMessageId(String messageId) throws UnavailableStorageException { setHeader("Message-ID", messageId); mMessageId = messageId; } @Override public void setInReplyTo(String inReplyTo) throws MessagingException { setHeader("In-Reply-To", inReplyTo); } @Override public String[] getReferences() throws MessagingException { if (mReferences == null) { mReferences = getHeader("References"); } return mReferences; } @Override public void setReferences(String references) throws MessagingException { /* * Make sure the References header doesn't exceed the maximum header * line length and won't get (Q-)encoded later. Otherwise some clients * will break threads apart. * * For more information see issue 1559. */ // Make sure separator is SPACE to prevent Q-encoding when TAB is encountered references = references.replaceAll("\\s+", " "); /* * NOTE: Usually the maximum header line is 998 + CRLF = 1000 characters. * But at least one implementations seems to have problems with 998 * characters, so we adjust for that fact. */ final int limit = 1000 - 2 /* CRLF */ - 12 /* "References: " */ - 1 /* Off-by-one bugs */; final int originalLength = references.length(); if (originalLength >= limit) { // Find start of first reference final int start = references.indexOf('<'); // First reference + SPACE final String firstReference = references.substring(start, references.indexOf('<', start + 1)); // Find longest tail final String tail = references.substring(references.indexOf('<', firstReference.length() + originalLength - limit)); references = firstReference + tail; } setHeader("References", references); } @Override public Body getBody() { return mBody; } @Override public void setBody(Body body) throws MessagingException { this.mBody = body; setHeader("MIME-Version", "1.0"); if (body instanceof Multipart) { Multipart multipart = ((Multipart)body); multipart.setParent(this); String type = multipart.getContentType(); setHeader(MimeHeader.HEADER_CONTENT_TYPE, type); if ("multipart/signed".equalsIgnoreCase(type)) { setEncoding(MimeUtil.ENC_7BIT); } else { setEncoding(MimeUtil.ENC_8BIT); } } else if (body instanceof TextBody) { setHeader(MimeHeader.HEADER_CONTENT_TYPE, String.format("%s;\r\n charset=utf-8", getMimeType())); setEncoding(MimeUtil.ENC_8BIT); } } protected String getFirstHeader(String name) { return mHeader.getFirstHeader(name); } @Override public void addHeader(String name, String value) throws UnavailableStorageException { mHeader.addHeader(name, value); } @Override public void setHeader(String name, String value) throws UnavailableStorageException { mHeader.setHeader(name, value); } @Override public String[] getHeader(String name) throws UnavailableStorageException { return mHeader.getHeader(name); } @Override public void removeHeader(String name) throws UnavailableStorageException { mHeader.removeHeader(name); } @Override public Set getHeaderNames() throws UnavailableStorageException { return mHeader.getHeaderNames(); } public void writeTo(OutputStream out) throws IOException, MessagingException { BufferedWriter writer = new BufferedWriter(new OutputStreamWriter(out), 1024); mHeader.writeTo(out); writer.write("\r\n"); writer.flush(); if (mBody != null) { mBody.writeTo(out); } } public InputStream getInputStream() throws MessagingException { return null; } @Override public void setEncoding(String encoding) throws MessagingException { if (mBody != null) { mBody.setEncoding(encoding); } setHeader(MimeHeader.HEADER_CONTENT_TRANSFER_ENCODING, encoding); } @Override public void setCharset(String charset) throws MessagingException { mHeader.setCharset(charset); if (mBody instanceof Multipart) { ((Multipart)mBody).setCharset(charset); } else if (mBody instanceof TextBody) { MimeUtility.setCharset(charset, this); ((TextBody)mBody).setCharset(charset); } } class MimeMessageBuilder implements ContentHandler { private final LinkedList stack = new LinkedList(); public MimeMessageBuilder() { } private void expect(Class c) { if (!c.isInstance(stack.peek())) { throw new IllegalStateException("Internal stack error: " + "Expected '" + c.getName() + "' found '" + stack.peek().getClass().getName() + "'"); } } public void startMessage() { if (stack.isEmpty()) { stack.addFirst(MimeMessage.this); } else { expect(Part.class); try { MimeMessage m = new MimeMessage(); ((Part)stack.peek()).setBody(m); stack.addFirst(m); } catch (MessagingException me) { throw new Error(me); } } } public void endMessage() { expect(MimeMessage.class); stack.removeFirst(); } public void startHeader() { expect(Part.class); } public void endHeader() { expect(Part.class); } public void startMultipart(BodyDescriptor bd) { expect(Part.class); Part e = (Part)stack.peek(); try { MimeMultipart multiPart = new MimeMultipart(e.getContentType()); e.setBody(multiPart); stack.addFirst(multiPart); } catch (MessagingException me) { throw new Error(me); } } public void body(BodyDescriptor bd, InputStream in) throws IOException { expect(Part.class); try { Body body = MimeUtility.decodeBody(in, bd.getTransferEncoding(), bd.getMimeType()); ((Part)stack.peek()).setBody(body); } catch (MessagingException me) { throw new Error(me); } } public void endMultipart() { stack.removeFirst(); } public void startBodyPart() { expect(MimeMultipart.class); try { MimeBodyPart bodyPart = new MimeBodyPart(); ((MimeMultipart)stack.peek()).addBodyPart(bodyPart); stack.addFirst(bodyPart); } catch (MessagingException me) { throw new Error(me); } } public void endBodyPart() { expect(BodyPart.class); stack.removeFirst(); } public void epilogue(InputStream is) throws IOException { expect(MimeMultipart.class); StringBuilder sb = new StringBuilder(); int b; while ((b = is.read()) != -1) { sb.append((char)b); } // ((Multipart) stack.peek()).setEpilogue(sb.toString()); } public void preamble(InputStream is) throws IOException { expect(MimeMultipart.class); StringBuilder sb = new StringBuilder(); int b; while ((b = is.read()) != -1) { sb.append((char)b); } ((MimeMultipart)stack.peek()).setPreamble(sb.toString()); } public void raw(InputStream is) throws IOException { throw new UnsupportedOperationException("Not supported"); } @Override public void field(Field parsedField) throws MimeException { expect(Part.class); try { ((Part)stack.peek()).addHeader(parsedField.getName(), parsedField.getBody().trim()); } catch (MessagingException me) { throw new Error(me); } } } /** * Copy the contents of this object into another {@code MimeMessage} object. * * @param message * The {@code MimeMessage} object to receive the contents of this instance. */ protected void copy(MimeMessage message) { super.copy(message); message.mHeader = mHeader.clone(); message.mBody = mBody; message.mMessageId = mMessageId; message.mSentDate = mSentDate; message.mDateFormat = mDateFormat; message.mSize = mSize; // These arrays are not supposed to be modified, so it's okay to reuse the references message.mFrom = mFrom; message.mTo = mTo; message.mCc = mCc; message.mBcc = mBcc; message.mReplyTo = mReplyTo; message.mReferences = mReferences; message.mInReplyTo = mInReplyTo; } @Override public MimeMessage clone() { MimeMessage message = new MimeMessage(); copy(message); return message; } public long getId() { return Long.parseLong(mUid); //or maybe .mMessageId? } public String getPreview() { return ""; } public boolean hasAttachments() { return false; } @Override public void setUsing7bitTransport() throws MessagingException { String type = getFirstHeader(MimeHeader.HEADER_CONTENT_TYPE); /* * We don't trust that a multipart/* will properly have an 8bit encoding * header if any of its subparts are 8bit, so we automatically recurse * (as long as its not multipart/signed). */ if (mBody instanceof CompositeBody && !"multipart/signed".equalsIgnoreCase(type)) { setEncoding(MimeUtil.ENC_7BIT); // recurse ((CompositeBody) mBody).setUsing7bitTransport(); } else if (!MimeUtil.ENC_8BIT .equalsIgnoreCase(getFirstHeader(MimeHeader.HEADER_CONTENT_TRANSFER_ENCODING))) { return; } else if (type != null && (type.equalsIgnoreCase("multipart/signed") || type .toLowerCase(Locale.US).startsWith("message/"))) { /* * This shouldn't happen. In any case, it would be wrong to convert * them to some other encoding for 7bit transport. * * RFC 1847 says multipart/signed must be 7bit. It also says their * bodies must be treated as opaque, so we must not change the * encoding. * * We've dealt with (CompositeBody) type message/rfc822 above. Here * we must deal with all other message/* types. RFC 2045 says * message/* can only be 7bit or 8bit. RFC 2046 says unknown * message/* types must be treated as application/octet-stream, * which means we can't recurse into them. It also says that * existing subtypes message/partial and message/external must only * be 7bit, and that future subtypes "should be" 7bit. */ throw new MessagingException( "Unable to convert 8bit body part to 7bit"); } else { setEncoding(MimeUtil.ENC_QUOTED_PRINTABLE); } } }