/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.phone.common.mail.store; import android.content.Context; import android.text.TextUtils; import android.util.Base64DataException; import com.android.phone.common.mail.store.ImapStore.ImapException; import com.android.phone.common.mail.store.ImapStore.ImapMessage; import com.android.phone.common.mail.store.imap.ImapConstants; import com.android.phone.common.mail.store.imap.ImapElement; import com.android.phone.common.mail.store.imap.ImapList; import com.android.phone.common.mail.store.imap.ImapResponse; import com.android.phone.common.mail.store.imap.ImapString; import com.android.phone.common.mail.store.imap.ImapUtility; import com.android.phone.common.mail.AuthenticationFailedException; import com.android.phone.common.mail.Body; import com.android.phone.common.mail.FetchProfile; import com.android.phone.common.mail.Flag; import com.android.phone.common.mail.Message; import com.android.phone.common.mail.MessagingException; import com.android.phone.common.mail.Part; import com.android.phone.common.mail.internet.BinaryTempFileBody; import com.android.phone.common.mail.internet.MimeBodyPart; import com.android.phone.common.mail.internet.MimeHeader; import com.android.phone.common.mail.internet.MimeMultipart; import com.android.phone.common.mail.internet.MimeUtility; import com.android.phone.common.mail.utility.CountingOutputStream; import com.android.phone.common.mail.utility.EOLConvertingOutputStream; import com.android.phone.common.mail.utils.Utility; import com.android.phone.common.mail.utils.LogUtils; import com.android.internal.annotations.VisibleForTesting; import com.android.phone.common.R; import org.apache.commons.io.IOUtils; import java.io.File; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.text.SimpleDateFormat; import java.util.ArrayList; import java.util.Arrays; import java.util.Date; import java.util.HashMap; import java.util.LinkedHashSet; import java.util.List; import java.util.Locale; import java.util.TimeZone; public class ImapFolder { private static final String TAG = "ImapFolder"; private final static String[] PERMANENT_FLAGS = { Flag.DELETED, Flag.SEEN, Flag.FLAGGED, Flag.ANSWERED }; private static final int COPY_BUFFER_SIZE = 16*1024; private final ImapStore mStore; private final String mName; private int mMessageCount = -1; private ImapConnection mConnection; private String mMode; private boolean mExists; /** A set of hashes that can be used to track dirtiness */ Object mHash[]; public static final String MODE_READ_ONLY = "mode_read_only"; public static final String MODE_READ_WRITE = "mode_read_write"; public ImapFolder(ImapStore store, String name) { mStore = store; mName = name; } /** * Callback for each message retrieval. */ public interface MessageRetrievalListener { public void messageRetrieved(Message message); public void loadAttachmentProgress(int progress); } private void destroyResponses() { if (mConnection != null) { mConnection.destroyResponses(); } } public void open(String mode) throws MessagingException { try { if (isOpen()) { if (mMode == mode) { // Make sure the connection is valid. // If it's not we'll close it down and continue on to get a new one. try { mConnection.executeSimpleCommand(ImapConstants.NOOP); return; } catch (IOException ioe) { ioExceptionHandler(mConnection, ioe); } finally { destroyResponses(); } } else { // Return the connection to the pool, if exists. close(false); } } synchronized (this) { mConnection = mStore.getConnection(); } // * FLAGS (\Answered \Flagged \Deleted \Seen \Draft NonJunk // $MDNSent) // * OK [PERMANENTFLAGS (\Answered \Flagged \Deleted \Seen \Draft // NonJunk $MDNSent \*)] Flags permitted. // * 23 EXISTS // * 0 RECENT // * OK [UIDVALIDITY 1125022061] UIDs valid // * OK [UIDNEXT 57576] Predicted next UID // 2 OK [READ-WRITE] Select completed. try { doSelect(); } catch (IOException ioe) { throw ioExceptionHandler(mConnection, ioe); } finally { destroyResponses(); } } catch (AuthenticationFailedException e) { // Don't cache this connection, so we're forced to try connecting/login again mConnection = null; close(false); throw e; } catch (MessagingException e) { mExists = false; close(false); throw e; } } public boolean isOpen() { return mExists && mConnection != null; } public String getMode() { return mMode; } public void close(boolean expunge) { if (expunge) { try { expunge(); } catch (MessagingException e) { LogUtils.e(TAG, e, "Messaging Exception"); } } mMessageCount = -1; synchronized (this) { mStore.closeConnection(); mConnection = null; } } public int getMessageCount() { return mMessageCount; } String[] getSearchUids(List responses) { // S: * SEARCH 2 3 6 final ArrayList uids = new ArrayList(); for (ImapResponse response : responses) { if (!response.isDataResponse(0, ImapConstants.SEARCH)) { continue; } // Found SEARCH response data for (int i = 1; i < response.size(); i++) { ImapString s = response.getStringOrEmpty(i); if (s.isString()) { uids.add(s.getString()); } } } return uids.toArray(Utility.EMPTY_STRINGS); } @VisibleForTesting String[] searchForUids(String searchCriteria) throws MessagingException { checkOpen(); try { try { final String command = ImapConstants.UID_SEARCH + " " + searchCriteria; final String[] result = getSearchUids(mConnection.executeSimpleCommand(command)); LogUtils.d(TAG, "searchForUids '" + searchCriteria + "' results: " + result.length); return result; } catch (ImapException me) { LogUtils.d(TAG, "ImapException in search: " + searchCriteria, me); return Utility.EMPTY_STRINGS; // Not found } catch (IOException ioe) { LogUtils.d(TAG, "IOException in search: " + searchCriteria, ioe); throw ioExceptionHandler(mConnection, ioe); } } finally { destroyResponses(); } } public Message getMessage(String uid) throws MessagingException { checkOpen(); final String[] uids = searchForUids(ImapConstants.UID + " " + uid); for (int i = 0; i < uids.length; i++) { if (uids[i].equals(uid)) { return new ImapMessage(uid, this); } } return null; } @VisibleForTesting protected static boolean isAsciiString(String str) { int len = str.length(); for (int i = 0; i < len; i++) { char c = str.charAt(i); if (c >= 128) return false; } return true; } public Message[] getMessages(String[] uids) throws MessagingException { if (uids == null) { uids = searchForUids("1:* NOT DELETED"); } return getMessagesInternal(uids); } public Message[] getMessagesInternal(String[] uids) { final ArrayList messages = new ArrayList(uids.length); for (int i = 0; i < uids.length; i++) { final String uid = uids[i]; final ImapMessage message = new ImapMessage(uid, this); messages.add(message); } return messages.toArray(Message.EMPTY_ARRAY); } public void fetch(Message[] messages, FetchProfile fp, MessageRetrievalListener listener) throws MessagingException { try { fetchInternal(messages, fp, listener); } catch (RuntimeException e) { // Probably a parser error. LogUtils.w(TAG, "Exception detected: " + e.getMessage()); throw e; } } public void fetchInternal(Message[] messages, FetchProfile fp, MessageRetrievalListener listener) throws MessagingException { if (messages.length == 0) { return; } checkOpen(); HashMap messageMap = new HashMap(); for (Message m : messages) { messageMap.put(m.getUid(), m); } /* * Figure out what command we are going to run: * FLAGS - UID FETCH (FLAGS) * ENVELOPE - UID FETCH (INTERNALDATE UID RFC822.SIZE FLAGS BODY.PEEK[ * HEADER.FIELDS (date subject from content-type to cc)]) * STRUCTURE - UID FETCH (BODYSTRUCTURE) * BODY_SANE - UID FETCH (BODY.PEEK[]<0.N>) where N = max bytes returned * BODY - UID FETCH (BODY.PEEK[]) * Part - UID FETCH (BODY.PEEK[ID]) where ID = mime part ID */ final LinkedHashSet fetchFields = new LinkedHashSet(); fetchFields.add(ImapConstants.UID); if (fp.contains(FetchProfile.Item.FLAGS)) { fetchFields.add(ImapConstants.FLAGS); } if (fp.contains(FetchProfile.Item.ENVELOPE)) { fetchFields.add(ImapConstants.INTERNALDATE); fetchFields.add(ImapConstants.RFC822_SIZE); fetchFields.add(ImapConstants.FETCH_FIELD_HEADERS); } if (fp.contains(FetchProfile.Item.STRUCTURE)) { fetchFields.add(ImapConstants.BODYSTRUCTURE); } if (fp.contains(FetchProfile.Item.BODY_SANE)) { fetchFields.add(ImapConstants.FETCH_FIELD_BODY_PEEK_SANE); } if (fp.contains(FetchProfile.Item.BODY)) { fetchFields.add(ImapConstants.FETCH_FIELD_BODY_PEEK); } // TODO Why are we only fetching the first part given? final Part fetchPart = fp.getFirstPart(); if (fetchPart != null) { final String[] partIds = fetchPart.getHeader(MimeHeader.HEADER_ANDROID_ATTACHMENT_STORE_DATA); // TODO Why can a single part have more than one Id? And why should we only fetch // the first id if there are more than one? if (partIds != null) { fetchFields.add(ImapConstants.FETCH_FIELD_BODY_PEEK_BARE + "[" + partIds[0] + "]"); } } try { mConnection.sendCommand(String.format(Locale.US, ImapConstants.UID_FETCH + " %s (%s)", ImapStore.joinMessageUids(messages), Utility.combine(fetchFields.toArray(new String[fetchFields.size()]), ' ') ), false); ImapResponse response; do { response = null; try { response = mConnection.readResponse(); if (!response.isDataResponse(1, ImapConstants.FETCH)) { continue; // Ignore } final ImapList fetchList = response.getListOrEmpty(2); final String uid = fetchList.getKeyedStringOrEmpty(ImapConstants.UID) .getString(); if (TextUtils.isEmpty(uid)) continue; ImapMessage message = (ImapMessage) messageMap.get(uid); if (message == null) continue; if (fp.contains(FetchProfile.Item.FLAGS)) { final ImapList flags = fetchList.getKeyedListOrEmpty(ImapConstants.FLAGS); for (int i = 0, count = flags.size(); i < count; i++) { final ImapString flag = flags.getStringOrEmpty(i); if (flag.is(ImapConstants.FLAG_DELETED)) { message.setFlagInternal(Flag.DELETED, true); } else if (flag.is(ImapConstants.FLAG_ANSWERED)) { message.setFlagInternal(Flag.ANSWERED, true); } else if (flag.is(ImapConstants.FLAG_SEEN)) { message.setFlagInternal(Flag.SEEN, true); } else if (flag.is(ImapConstants.FLAG_FLAGGED)) { message.setFlagInternal(Flag.FLAGGED, true); } } } if (fp.contains(FetchProfile.Item.ENVELOPE)) { final Date internalDate = fetchList.getKeyedStringOrEmpty( ImapConstants.INTERNALDATE).getDateOrNull(); final int size = fetchList.getKeyedStringOrEmpty( ImapConstants.RFC822_SIZE).getNumberOrZero(); final String header = fetchList.getKeyedStringOrEmpty( ImapConstants.BODY_BRACKET_HEADER, true).getString(); message.setInternalDate(internalDate); message.setSize(size); message.parse(Utility.streamFromAsciiString(header)); } if (fp.contains(FetchProfile.Item.STRUCTURE)) { ImapList bs = fetchList.getKeyedListOrEmpty( ImapConstants.BODYSTRUCTURE); if (!bs.isEmpty()) { try { parseBodyStructure(bs, message, ImapConstants.TEXT); } catch (MessagingException e) { LogUtils.v(TAG, e, "Error handling message"); message.setBody(null); } } } if (fp.contains(FetchProfile.Item.BODY) || fp.contains(FetchProfile.Item.BODY_SANE)) { // Body is keyed by "BODY[]...". // Previously used "BODY[..." but this can be confused with "BODY[HEADER..." // TODO Should we accept "RFC822" as well?? ImapString body = fetchList.getKeyedStringOrEmpty("BODY[]", true); InputStream bodyStream = body.getAsStream(); message.parse(bodyStream); } if (fetchPart != null) { InputStream bodyStream = fetchList.getKeyedStringOrEmpty("BODY[", true).getAsStream(); String encodings[] = fetchPart.getHeader( MimeHeader.HEADER_CONTENT_TRANSFER_ENCODING); String contentTransferEncoding = null; if (encodings != null && encodings.length > 0) { contentTransferEncoding = encodings[0]; } else { // According to http://tools.ietf.org/html/rfc2045#section-6.1 // "7bit" is the default. contentTransferEncoding = "7bit"; } try { // TODO Don't create 2 temp files. // decodeBody creates BinaryTempFileBody, but we could avoid this // if we implement ImapStringBody. // (We'll need to share a temp file. Protect it with a ref-count.) fetchPart.setBody(decodeBody(mStore.getContext(), bodyStream, contentTransferEncoding, fetchPart.getSize(), listener)); } catch(Exception e) { // TODO: Figure out what kinds of exceptions might actually be thrown // from here. This blanket catch-all is because we're not sure what to // do if we don't have a contentTransferEncoding, and we don't have // time to figure out what exceptions might be thrown. LogUtils.e(TAG, "Error fetching body %s", e); } } if (listener != null) { listener.messageRetrieved(message); } } finally { destroyResponses(); } } while (!response.isTagged()); } catch (IOException ioe) { throw ioExceptionHandler(mConnection, ioe); } } /** * Removes any content transfer encoding from the stream and returns a Body. * This code is taken/condensed from MimeUtility.decodeBody */ private static Body decodeBody(Context context,InputStream in, String contentTransferEncoding, int size, MessageRetrievalListener listener) throws IOException { // Get a properly wrapped input stream in = MimeUtility.getInputStreamForContentTransferEncoding(in, contentTransferEncoding); BinaryTempFileBody tempBody = new BinaryTempFileBody(); OutputStream out = tempBody.getOutputStream(); try { byte[] buffer = new byte[COPY_BUFFER_SIZE]; int n = 0; int count = 0; while (-1 != (n = in.read(buffer))) { out.write(buffer, 0, n); count += n; if (listener != null) { if (size == 0) { // We don't know how big the file is, so just fake it. listener.loadAttachmentProgress((int)Math.ceil(100 * (1-1.0/count))); } else { listener.loadAttachmentProgress(count * 100 / size); } } } } catch (Base64DataException bde) { String warning = "\n\n" + context.getString(R.string.message_decode_error); out.write(warning.getBytes()); } finally { out.close(); } return tempBody; } public String[] getPermanentFlags() { return PERMANENT_FLAGS; } /** * Handle any untagged responses that the caller doesn't care to handle themselves. * @param responses */ private void handleUntaggedResponses(List responses) { for (ImapResponse response : responses) { handleUntaggedResponse(response); } } /** * Handle an untagged response that the caller doesn't care to handle themselves. * @param response */ private void handleUntaggedResponse(ImapResponse response) { if (response.isDataResponse(1, ImapConstants.EXISTS)) { mMessageCount = response.getStringOrEmpty(0).getNumberOrZero(); } } private static void parseBodyStructure(ImapList bs, Part part, String id) throws MessagingException { if (bs.getElementOrNone(0).isList()) { /* * This is a multipart/* */ MimeMultipart mp = new MimeMultipart(); for (int i = 0, count = bs.size(); i < count; i++) { ImapElement e = bs.getElementOrNone(i); if (e.isList()) { /* * For each part in the message we're going to add a new BodyPart and parse * into it. */ MimeBodyPart bp = new MimeBodyPart(); if (id.equals(ImapConstants.TEXT)) { parseBodyStructure(bs.getListOrEmpty(i), bp, Integer.toString(i + 1)); } else { parseBodyStructure(bs.getListOrEmpty(i), bp, id + "." + (i + 1)); } mp.addBodyPart(bp); } else { if (e.isString()) { mp.setSubType(bs.getStringOrEmpty(i).getString().toLowerCase(Locale.US)); } break; // Ignore the rest of the list. } } part.setBody(mp); } else { /* * This is a body. We need to add as much information as we can find out about * it to the Part. */ /* body type body subtype body parameter parenthesized list body id body description body encoding body size */ final ImapString type = bs.getStringOrEmpty(0); final ImapString subType = bs.getStringOrEmpty(1); final String mimeType = (type.getString() + "/" + subType.getString()).toLowerCase(Locale.US); final ImapList bodyParams = bs.getListOrEmpty(2); final ImapString cid = bs.getStringOrEmpty(3); final ImapString encoding = bs.getStringOrEmpty(5); final int size = bs.getStringOrEmpty(6).getNumberOrZero(); if (MimeUtility.mimeTypeMatches(mimeType, MimeUtility.MIME_TYPE_RFC822)) { // A body type of type MESSAGE and subtype RFC822 // contains, immediately after the basic fields, the // envelope structure, body structure, and size in // text lines of the encapsulated message. // [MESSAGE, RFC822, [NAME, filename.eml], NIL, NIL, 7BIT, 5974, NIL, // [INLINE, [FILENAME*0, Fwd: Xxx..., FILENAME*1, filename.eml]], NIL] /* * This will be caught by fetch and handled appropriately. */ throw new MessagingException("BODYSTRUCTURE " + MimeUtility.MIME_TYPE_RFC822 + " not yet supported."); } /* * Set the content type with as much information as we know right now. */ final StringBuilder contentType = new StringBuilder(mimeType); /* * If there are body params we might be able to get some more information out * of them. */ for (int i = 1, count = bodyParams.size(); i < count; i += 2) { // TODO We need to convert " into %22, but // because MimeUtility.getHeaderParameter doesn't recognize it, // we can't fix it for now. contentType.append(String.format(";\n %s=\"%s\"", bodyParams.getStringOrEmpty(i - 1).getString(), bodyParams.getStringOrEmpty(i).getString())); } part.setHeader(MimeHeader.HEADER_CONTENT_TYPE, contentType.toString()); // Extension items final ImapList bodyDisposition; if (type.is(ImapConstants.TEXT) && bs.getElementOrNone(9).isList()) { // If media-type is TEXT, 9th element might be: [body-fld-lines] := number // So, if it's not a list, use 10th element. // (Couldn't find evidence in the RFC if it's ALWAYS 10th element.) bodyDisposition = bs.getListOrEmpty(9); } else { bodyDisposition = bs.getListOrEmpty(8); } final StringBuilder contentDisposition = new StringBuilder(); if (bodyDisposition.size() > 0) { final String bodyDisposition0Str = bodyDisposition.getStringOrEmpty(0).getString().toLowerCase(Locale.US); if (!TextUtils.isEmpty(bodyDisposition0Str)) { contentDisposition.append(bodyDisposition0Str); } final ImapList bodyDispositionParams = bodyDisposition.getListOrEmpty(1); if (!bodyDispositionParams.isEmpty()) { /* * If there is body disposition information we can pull some more * information about the attachment out. */ for (int i = 1, count = bodyDispositionParams.size(); i < count; i += 2) { // TODO We need to convert " into %22. See above. contentDisposition.append(String.format(Locale.US, ";\n %s=\"%s\"", bodyDispositionParams.getStringOrEmpty(i - 1) .getString().toLowerCase(Locale.US), bodyDispositionParams.getStringOrEmpty(i).getString())); } } } if ((size > 0) && (MimeUtility.getHeaderParameter(contentDisposition.toString(), "size") == null)) { contentDisposition.append(String.format(Locale.US, ";\n size=%d", size)); } if (contentDisposition.length() > 0) { /* * Set the content disposition containing at least the size. Attachment * handling code will use this down the road. */ part.setHeader(MimeHeader.HEADER_CONTENT_DISPOSITION, contentDisposition.toString()); } /* * Set the Content-Transfer-Encoding header. Attachment code will use this * to parse the body. */ if (!encoding.isEmpty()) { part.setHeader(MimeHeader.HEADER_CONTENT_TRANSFER_ENCODING, encoding.getString()); } /* * Set the Content-ID header. */ if (!cid.isEmpty()) { part.setHeader(MimeHeader.HEADER_CONTENT_ID, cid.getString()); } if (size > 0) { if (part instanceof ImapMessage) { ((ImapMessage) part).setSize(size); } else if (part instanceof MimeBodyPart) { ((MimeBodyPart) part).setSize(size); } else { throw new MessagingException("Unknown part type " + part.toString()); } } part.setHeader(MimeHeader.HEADER_ANDROID_ATTACHMENT_STORE_DATA, id); } } public Message[] expunge() throws MessagingException { checkOpen(); try { handleUntaggedResponses(mConnection.executeSimpleCommand(ImapConstants.EXPUNGE)); } catch (IOException ioe) { throw ioExceptionHandler(mConnection, ioe); } finally { destroyResponses(); } return null; } public void setFlags(Message[] messages, String[] flags, boolean value) throws MessagingException { checkOpen(); String allFlags = ""; if (flags.length > 0) { StringBuilder flagList = new StringBuilder(); for (int i = 0, count = flags.length; i < count; i++) { String flag = flags[i]; if (flag == Flag.SEEN) { flagList.append(" " + ImapConstants.FLAG_SEEN); } else if (flag == Flag.DELETED) { flagList.append(" " + ImapConstants.FLAG_DELETED); } else if (flag == Flag.FLAGGED) { flagList.append(" " + ImapConstants.FLAG_FLAGGED); } else if (flag == Flag.ANSWERED) { flagList.append(" " + ImapConstants.FLAG_ANSWERED); } } allFlags = flagList.substring(1); } try { mConnection.executeSimpleCommand(String.format(Locale.US, ImapConstants.UID_STORE + " %s %s" + ImapConstants.FLAGS_SILENT + " (%s)", ImapStore.joinMessageUids(messages), value ? "+" : "-", allFlags)); } catch (IOException ioe) { throw ioExceptionHandler(mConnection, ioe); } finally { destroyResponses(); } } /** * Selects the folder for use. Before performing any operations on this folder, it * must be selected. */ private void doSelect() throws IOException, MessagingException { final List responses = mConnection.executeSimpleCommand( String.format(Locale.US, ImapConstants.SELECT + " \"%s\"", mName)); // Assume the folder is opened read-write; unless we are notified otherwise mMode = MODE_READ_WRITE; int messageCount = -1; for (ImapResponse response : responses) { if (response.isDataResponse(1, ImapConstants.EXISTS)) { messageCount = response.getStringOrEmpty(0).getNumberOrZero(); } else if (response.isOk()) { final ImapString responseCode = response.getResponseCodeOrEmpty(); if (responseCode.is(ImapConstants.READ_ONLY)) { mMode = MODE_READ_ONLY; } else if (responseCode.is(ImapConstants.READ_WRITE)) { mMode = MODE_READ_WRITE; } } else if (response.isTagged()) { // Not OK throw new MessagingException("Can't open mailbox: " + response.getStatusResponseTextOrEmpty()); } } if (messageCount == -1) { throw new MessagingException("Did not find message count during select"); } mMessageCount = messageCount; mExists = true; } private void checkOpen() throws MessagingException { if (!isOpen()) { throw new MessagingException("Folder " + mName + " is not open."); } } private MessagingException ioExceptionHandler(ImapConnection connection, IOException ioe) { LogUtils.d(TAG, "IO Exception detected: ", ioe); connection.close(); if (connection == mConnection) { mConnection = null; // To prevent close() from returning the connection to the pool. close(false); } return new MessagingException(MessagingException.IOERROR, "IO Error", ioe); } public Message createMessage(String uid) { return new ImapMessage(uid, this); } }