/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "msgCore.h" #include "nsIMAPHostSessionList.h" #include "nsIMAPBodyShell.h" #include "nsImapProtocol.h" #include "nsImapStringBundle.h" #include "nsMimeTypes.h" #include "nsIPrefBranch.h" #include "nsIPrefService.h" #include "nsITransport.h" #include "nsServiceManagerUtils.h" // need to talk to Rich about this... #define IMAP_EXTERNAL_CONTENT_HEADER "X-Mozilla-IMAP-Part" // imapbody.cpp // Implementation of the nsIMAPBodyShell and associated classes // These are used to parse IMAP BODYSTRUCTURE responses, and intelligently (?) // figure out what parts we need to display inline. /* Create a nsIMAPBodyShell from a full BODYSTRUCUTRE response from the parser. The body shell represents a single, top-level object, the message. The message body might be treated as either a container or a leaf (just like any arbitrary part). Steps for creating a part: 1. Pull out the paren grouping for the part 2. Create a generic part object with that buffer 3. The factory will return either a leaf or container, depending on what it really is. 4. It is responsible for parsing its children, if there are any */ ///////////// nsIMAPBodyShell //////////////////////////////////// NS_IMPL_ISUPPORTS0(nsIMAPBodyShell) nsIMAPBodyShell::nsIMAPBodyShell(nsImapProtocol *protocolConnection, nsIMAPBodypartMessage *message, uint32_t UID, const char *folderName) { m_isValid = false; m_isBeingGenerated = false; m_cached = false; m_gotAttachmentPref = false; m_generatingWholeMessage = false; m_generatingPart = NULL; m_protocolConnection = protocolConnection; m_message = message; NS_ASSERTION(m_protocolConnection, "non null connection"); if (!m_protocolConnection) return; m_prefetchQueue = new nsIMAPMessagePartIDArray(); if (!m_prefetchQueue) return; m_UID = ""; m_UID.AppendInt(UID); #ifdef DEBUG_chrisf NS_ASSERTION(folderName); #endif if (!folderName) return; m_folderName = NS_strdup(folderName); if (!m_folderName) return; SetContentModified(GetShowAttachmentsInline() ? IMAP_CONTENT_MODIFIED_VIEW_INLINE : IMAP_CONTENT_MODIFIED_VIEW_AS_LINKS); SetIsValid(m_message != nullptr); } nsIMAPBodyShell::~nsIMAPBodyShell() { delete m_message; delete m_prefetchQueue; PR_Free(m_folderName); } void nsIMAPBodyShell::SetIsValid(bool valid) { m_isValid = valid; } bool nsIMAPBodyShell::GetShowAttachmentsInline() { if (!m_gotAttachmentPref) { m_showAttachmentsInline = !m_protocolConnection || m_protocolConnection->GetShowAttachmentsInline(); m_gotAttachmentPref = true; } return m_showAttachmentsInline; } // Fills in buffer (and adopts storage) for header object void nsIMAPBodyShell::AdoptMessageHeaders(char *headers, const char *partNum) { if (!GetIsValid()) return; if (!partNum) partNum = "0"; // we are going to say that a message header object only has // part data, and no header data. nsIMAPBodypart *foundPart = m_message->FindPartWithNumber(partNum); if (foundPart) { nsIMAPBodypartMessage *messageObj = foundPart->GetnsIMAPBodypartMessage(); if (messageObj) { messageObj->AdoptMessageHeaders(headers); if (!messageObj->GetIsValid()) SetIsValid(false); } else { // We were filling in message headers for a given part number. // We looked up that part number, found an object, but it // wasn't of type message/rfc822. // Something's wrong. NS_ASSERTION(false, "object not of type message rfc822"); } } else SetIsValid(false); } // Fills in buffer (and adopts storage) for MIME headers in appropriate object. // If object can't be found, sets isValid to false. void nsIMAPBodyShell::AdoptMimeHeader(const char *partNum, char *mimeHeader) { if (!GetIsValid()) return; NS_ASSERTION(partNum, "null partnum in body shell"); nsIMAPBodypart *foundPart = m_message->FindPartWithNumber(partNum); if (foundPart) { foundPart->AdoptHeaderDataBuffer(mimeHeader); if (!foundPart->GetIsValid()) SetIsValid(false); } else { SetIsValid(false); } } void nsIMAPBodyShell::AddPrefetchToQueue(nsIMAPeFetchFields fields, const char *partNumber) { nsIMAPMessagePartID *newPart = new nsIMAPMessagePartID(fields, partNumber); if (newPart) { m_prefetchQueue->AppendElement(newPart); } else { // HandleMemoryFailure(); } } // Flushes all of the prefetches that have been queued up in the prefetch queue, // freeing them as we go void nsIMAPBodyShell::FlushPrefetchQueue() { m_protocolConnection->PipelinedFetchMessageParts(GetUID(), m_prefetchQueue); m_prefetchQueue->RemoveAndFreeAll(); } // Requires that the shell is valid when called // Performs a preflight check on all message parts to see if they are all // inline. Returns true if all parts are inline, false otherwise. bool nsIMAPBodyShell::PreflightCheckAllInline() { bool rv = m_message->PreflightCheckAllInline(this); // if (rv) // MOZ_LOG(IMAP, out, ("BODYSHELL: All parts inline. Reverting to whole message download.")); return rv; } // When partNum is NULL, Generates a whole message and intelligently // leaves out parts that are not inline. // When partNum is not NULL, Generates a MIME part that hasn't been downloaded yet // Ok, here's how we're going to do this. Essentially, this // will be the mirror image of the "normal" generation. // All parts will be left out except a single part which is // explicitly specified. All relevant headers will be included. // Libmime will extract only the part of interest, so we don't // have to worry about the other parts. This also has the // advantage that it looks like it will be more workable for // nested parts. For instance, if a user clicks on a link to // a forwarded message, then that forwarded message may be // generated along with any images that the forwarded message // contains, for instance. int32_t nsIMAPBodyShell::Generate(char *partNum) { m_isBeingGenerated = true; m_generatingPart = partNum; int32_t contentLength = 0; if (!GetIsValid() || PreflightCheckAllInline()) { // We don't have a valid shell, or all parts are going to be inline anyway. Fall back to fetching the whole message. #ifdef DEBUG_chrisf NS_ASSERTION(GetIsValid()); #endif m_generatingWholeMessage = true; uint32_t messageSize = m_protocolConnection->GetMessageSize(GetUID().get(), true); m_protocolConnection->SetContentModified(IMAP_CONTENT_NOT_MODIFIED); // So that when we cache it, we know we have the whole message if (!DeathSignalReceived()) m_protocolConnection->FallbackToFetchWholeMsg(GetUID(), messageSize); contentLength = (int32_t) messageSize; // ugh } else { // We have a valid shell. bool streamCreated = false; m_generatingWholeMessage = false; ////// PASS 1 : PREFETCH /////// // First, prefetch any additional headers/data that we need if (!GetPseudoInterrupted()) m_message->Generate(this, false, true); // This queues up everything we need to prefetch // Now, run a single pipelined prefetch (neato!) FlushPrefetchQueue(); ////// PASS 2 : COMPUTE STREAM SIZE /////// // Next, figure out the size from the parts that we're going to fill in, // plus all of the MIME headers, plus the message header itself if (!GetPseudoInterrupted()) contentLength = m_message->Generate(this, false, false); // Setup the stream if (!GetPseudoInterrupted() && !DeathSignalReceived()) { nsresult rv = m_protocolConnection->BeginMessageDownLoad(contentLength, MESSAGE_RFC822); if (NS_FAILED(rv)) { m_generatingPart = nullptr; m_protocolConnection->AbortMessageDownLoad(); return 0; } else { streamCreated = true; } } ////// PASS 3 : GENERATE /////// // Generate the message if (!GetPseudoInterrupted() && !DeathSignalReceived()) m_message->Generate(this, true, false); // Close the stream here - normal. If pseudointerrupted, the connection will abort the download stream if (!GetPseudoInterrupted() && !DeathSignalReceived()) m_protocolConnection->NormalMessageEndDownload(); else if (streamCreated) m_protocolConnection->AbortMessageDownLoad(); m_generatingPart = NULL; } m_isBeingGenerated = false; return contentLength; } bool nsIMAPBodyShell::GetPseudoInterrupted() { bool rv = m_protocolConnection->GetPseudoInterrupted(); return rv; } bool nsIMAPBodyShell::DeathSignalReceived() { bool rv = m_protocolConnection->DeathSignalReceived(); return rv; } ///////////// nsIMAPBodypart //////////////////////////////////// nsIMAPBodypart::nsIMAPBodypart(char *partNumber, nsIMAPBodypart *parentPart) { SetIsValid(true); m_parentPart = parentPart; m_partNumberString = partNumber; // storage adopted m_partData = NULL; m_headerData = NULL; m_boundaryData = NULL; // initialize from parsed BODYSTRUCTURE m_contentLength = 0; m_partLength = 0; m_contentType = NULL; m_bodyType = NULL; m_bodySubType = NULL; m_bodyID = NULL; m_bodyDescription = NULL; m_bodyEncoding = NULL; } nsIMAPBodypart::~nsIMAPBodypart() { PR_FREEIF(m_partNumberString); PR_FREEIF(m_contentType); PR_FREEIF(m_bodyType); PR_FREEIF(m_bodySubType); PR_FREEIF(m_bodyID); PR_FREEIF(m_bodyDescription); PR_FREEIF(m_bodyEncoding); PR_FREEIF(m_partData); PR_FREEIF(m_headerData); PR_FREEIF(m_boundaryData); } void nsIMAPBodypart::SetIsValid(bool valid) { m_isValid = valid; if (!m_isValid) { //MOZ_LOG(IMAP, out, ("BODYSHELL: Part is invalid. Part Number: %s Content-Type: %s", m_partNumberString, m_contentType)); } } // Adopts storage for part data buffer. If NULL, sets isValid to false. void nsIMAPBodypart::AdoptPartDataBuffer(char *buf) { m_partData = buf; if (!m_partData) { SetIsValid(false); } } // Adopts storage for header data buffer. If NULL, sets isValid to false. void nsIMAPBodypart::AdoptHeaderDataBuffer(char *buf) { m_headerData = buf; if (!m_headerData) { SetIsValid(false); } } // Finds the part with given part number // Returns a nsIMAPBodystructure of the matched part if it is this // or one of its children. Returns NULL otherwise. nsIMAPBodypart *nsIMAPBodypart::FindPartWithNumber(const char *partNum) { // either brute force, or do it the smart way - look at the number. // (the parts should be ordered, and hopefully indexed by their number) if (m_partNumberString && !PL_strcasecmp(partNum, m_partNumberString)) return this; //if (!m_partNumberString && !PL_strcasecmp(partNum, "1")) // return this; return NULL; } /* void nsIMAPBodypart::PrefetchMIMEHeader() { if (!m_headerData && !m_shell->DeathSignalReceived()) { m_shell->GetConnection()->FetchMessage(m_shell->GetUID(), kMIMEHeader, true, 0, 0, m_partNumberString); // m_headerLength will be filled in when it is adopted from the parser } if (!m_headerData) { SetIsValid(false); } } */ void nsIMAPBodypart::QueuePrefetchMIMEHeader(nsIMAPBodyShell *aShell) { aShell->AddPrefetchToQueue(kMIMEHeader, m_partNumberString); } int32_t nsIMAPBodypart::GenerateMIMEHeader(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { if (prefetch && !m_headerData) { QueuePrefetchMIMEHeader(aShell); return 0; } else if (m_headerData) { int32_t mimeHeaderLength = 0; if (!ShouldFetchInline(aShell)) { // if this part isn't inline, add the X-Mozilla-IMAP-Part header char *xPartHeader = PR_smprintf("%s: %s", IMAP_EXTERNAL_CONTENT_HEADER, m_partNumberString); if (xPartHeader) { if (stream) { aShell->GetConnection()->Log("SHELL","GENERATE-XHeader",m_partNumberString); aShell->GetConnection()->HandleMessageDownLoadLine(xPartHeader, false); } mimeHeaderLength += PL_strlen(xPartHeader); PR_Free(xPartHeader); } } mimeHeaderLength += PL_strlen(m_headerData); if (stream) { aShell->GetConnection()->Log("SHELL","GENERATE-MIMEHeader",m_partNumberString); aShell->GetConnection()->HandleMessageDownLoadLine(m_headerData, false); // all one line? Can we do that? } return mimeHeaderLength; } else { SetIsValid(false); // prefetch didn't adopt a MIME header return 0; } } int32_t nsIMAPBodypart::GeneratePart(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { if (prefetch) return 0; // don't need to prefetch anything if (m_partData) // we have prefetched the part data { if (stream) { aShell->GetConnection()->Log("SHELL","GENERATE-Part-Prefetched",m_partNumberString); aShell->GetConnection()->HandleMessageDownLoadLine(m_partData, false); } return PL_strlen(m_partData); } else // we are fetching and streaming this part's body as we go { if (stream && !aShell->DeathSignalReceived()) { char *generatingPart = aShell->GetGeneratingPart(); bool fetchingSpecificPart = (generatingPart && !PL_strcmp(generatingPart, m_partNumberString)); aShell->GetConnection()->Log("SHELL","GENERATE-Part-Inline",m_partNumberString); aShell->GetConnection()->FetchTryChunking(aShell->GetUID(), kMIMEPart, true, m_partNumberString, m_partLength, !fetchingSpecificPart); } return m_partLength; // the part length has been filled in from the BODYSTRUCTURE response } } int32_t nsIMAPBodypart::GenerateBoundary(nsIMAPBodyShell *aShell, bool stream, bool prefetch, bool lastBoundary) { if (prefetch) return 0; // don't need to prefetch anything if (m_boundaryData) { if (!lastBoundary) { if (stream) { aShell->GetConnection()->Log("SHELL","GENERATE-Boundary",m_partNumberString); aShell->GetConnection()->HandleMessageDownLoadLine(m_boundaryData, false); } return PL_strlen(m_boundaryData); } else // the last boundary { char *lastBoundaryData = PR_smprintf("%s--", m_boundaryData); if (lastBoundaryData) { if (stream) { aShell->GetConnection()->Log("SHELL","GENERATE-Boundary-Last",m_partNumberString); aShell->GetConnection()->HandleMessageDownLoadLine(lastBoundaryData, false); } int32_t rv = PL_strlen(lastBoundaryData); PR_Free(lastBoundaryData); return rv; } else { //HandleMemoryFailure(); return 0; } } } else return 0; } int32_t nsIMAPBodypart::GenerateEmptyFilling(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { if (prefetch) return 0; // don't need to prefetch anything const nsString &emptyString = aShell->GetConnection()-> GetEmptyMimePartString(); if (!emptyString.IsEmpty()) { if (stream) { nsImapProtocol *conn = aShell->GetConnection(); conn->Log("SHELL", "GENERATE-Filling", m_partNumberString); conn->HandleMessageDownLoadLine(NS_ConvertUTF16toUTF8(emptyString).get(), false); } return emptyString.Length(); } else return 0; } // Returns true if the prefs say that this content type should // explicitly be kept in when filling in the shell bool nsIMAPBodypart::ShouldExplicitlyFetchInline() { return false; } // Returns true if the prefs say that this content type should // explicitly be left out when filling in the shell bool nsIMAPBodypart::ShouldExplicitlyNotFetchInline() { return false; } ///////////// nsIMAPBodypartLeaf ///////////////////////////// nsIMAPBodypartLeaf::nsIMAPBodypartLeaf(char *partNum, nsIMAPBodypart *parentPart, char *bodyType, char *bodySubType, char *bodyID, char *bodyDescription, char *bodyEncoding, int32_t partLength, bool preferPlainText) : nsIMAPBodypart(partNum, parentPart), mPreferPlainText(preferPlainText) { m_bodyType = bodyType; m_bodySubType = bodySubType; m_bodyID = bodyID; m_bodyDescription = bodyDescription; m_bodyEncoding = bodyEncoding; m_partLength = partLength; if (m_bodyType && m_bodySubType) { m_contentType = PR_smprintf("%s/%s", m_bodyType, m_bodySubType); } SetIsValid(true); } nsIMAPBodypartType nsIMAPBodypartLeaf::GetType() { return IMAP_BODY_LEAF; } int32_t nsIMAPBodypartLeaf::Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { int32_t len = 0; if (GetIsValid()) { if (stream && !prefetch) aShell->GetConnection()->Log("SHELL","GENERATE-Leaf",m_partNumberString); // Stream out the MIME part boundary //GenerateBoundary(); NS_ASSERTION(m_parentPart, "part has no parent"); //nsIMAPBodypartMessage *parentMessage = m_parentPart ? m_parentPart->GetnsIMAPBodypartMessage() : NULL; // Stream out the MIME header of this part, if this isn't the only body part of a message //if (parentMessage ? !parentMessage->GetIsTopLevelMessage() : true) if ((m_parentPart->GetType() != IMAP_BODY_MESSAGE_RFC822) && !aShell->GetPseudoInterrupted()) len += GenerateMIMEHeader(aShell, stream, prefetch); if (!aShell->GetPseudoInterrupted()) { if (ShouldFetchInline(aShell)) { // Fetch and stream the content of this part len += GeneratePart(aShell, stream, prefetch); } else { // fill in the filling within the empty part len += GenerateEmptyFilling(aShell, stream, prefetch); } } } m_contentLength = len; return m_contentLength; } // returns true if this part should be fetched inline for generation. bool nsIMAPBodypartLeaf::ShouldFetchInline(nsIMAPBodyShell *aShell) { char *generatingPart = aShell->GetGeneratingPart(); if (generatingPart) { // If we are generating a specific part if (!PL_strcmp(generatingPart, m_partNumberString)) { // This is the part we're generating return true; } else { // If this is the only body part of a message, and that // message is the part being generated, then this leaf should // be inline as well. if ((m_parentPart->GetType() == IMAP_BODY_MESSAGE_RFC822) && (!PL_strcmp(m_parentPart->GetPartNumberString(), generatingPart))) return true; // The parent of this part is a multipart if (m_parentPart->GetType() == IMAP_BODY_MULTIPART) { // This is the first text part of a forwarded message // with a multipart body, and that message is being generated, // then generate this part. nsIMAPBodypart *grandParent = m_parentPart->GetParentPart(); // grandParent must exist, since multiparts need parents NS_ASSERTION(grandParent, "grandparent doesn't exist for multi-part alt"); if (grandParent && (grandParent->GetType() == IMAP_BODY_MESSAGE_RFC822) && (!PL_strcmp(grandParent->GetPartNumberString(), generatingPart)) && (m_partNumberString[PL_strlen(m_partNumberString)-1] == '1') && !PL_strcasecmp(m_bodyType, "text")) return true; // we're downloading it inline // This is a child of a multipart/appledouble attachment, // and that multipart/appledouble attachment is being generated if (m_parentPart && !PL_strcasecmp(m_parentPart->GetBodySubType(), "appledouble") && !PL_strcmp(m_parentPart->GetPartNumberString(), generatingPart)) return true; // we're downloading it inline } // Leave out all other leaves if this isn't the one // we're generating. // Maybe change later to check parents, etc. return false; } } else { // We are generating the whole message, possibly (hopefully) // leaving out non-inline parts if (ShouldExplicitlyFetchInline()) return true; if (ShouldExplicitlyNotFetchInline()) return false; // If the parent is a message (this is the only body part of that // message), and that message should be inline, then its body // should inherit the inline characteristics of that message if (m_parentPart->GetType() == IMAP_BODY_MESSAGE_RFC822) return m_parentPart->ShouldFetchInline(aShell); // View Attachments As Links is on. if (!(aShell->GetContentModified() == IMAP_CONTENT_MODIFIED_VIEW_INLINE)) { // The last text part is still displayed inline, // even if View Attachments As Links is on. nsIMAPBodypart *grandParentPart = m_parentPart->GetParentPart(); if ((mPreferPlainText || !PL_strcasecmp(m_parentPart->GetBodySubType(), "mixed")) && !PL_strcmp(m_partNumberString, "1") && !PL_strcasecmp(m_bodyType, "text")) return true; // we're downloading it inline if ((!PL_strcasecmp(m_parentPart->GetBodySubType(), "alternative") || (grandParentPart && !PL_strcasecmp(grandParentPart->GetBodySubType(), "alternative"))) && !PL_strcasecmp(m_bodyType, "text") && ((!PL_strcasecmp(m_bodySubType, "plain") && mPreferPlainText) || (!PL_strcasecmp(m_bodySubType, "html") && !mPreferPlainText))) return true; // This is the first text part of a top-level multipart. // For instance, a message with multipart body, where the first // part is multipart, and this is the first leaf of that first part. if (m_parentPart->GetType() == IMAP_BODY_MULTIPART && (PL_strlen(m_partNumberString) >= 2) && !PL_strcmp(m_partNumberString + PL_strlen(m_partNumberString) - 2, ".1") && // this is the first text type on this level (!PL_strcmp(m_parentPart->GetPartNumberString(), "1") || !PL_strcmp(m_parentPart->GetPartNumberString(), "2")) && !PL_strcasecmp(m_bodyType, "text")) return true; // This is the first text part of a top-level multipart of the toplevelmessage // This 'assumes' the text body is first leaf. This is not required for valid email. // The only other way is to get content-disposition = attachment and exclude those text parts. if (m_parentPart->GetType() == IMAP_BODY_MULTIPART && !PL_strcasecmp(m_bodyType, "text") && !PL_strcmp(m_parentPart->GetPartNumberString(), "0") && !PL_strcmp(m_partNumberString, "1")) return true; // we may have future problems needing tests here return false; // we can leave it on the server } #ifdef XP_MACOSX // If it is either applesingle, or a resource fork for appledouble if (!PL_strcasecmp(m_contentType, "application/applefile")) { // if it is appledouble if (m_parentPart->GetType() == IMAP_BODY_MULTIPART && !PL_strcasecmp(m_parentPart->GetBodySubType(), "appledouble")) { // This is the resource fork of a multipart/appledouble. // We inherit the inline attributes of the parent, // which was derived from its OTHER child. (The data fork.) return m_parentPart->ShouldFetchInline(aShell); } else // it is applesingle { return false; // we can leave it on the server } } #endif // XP_MACOSX // Leave out parts with type application/* if (!PL_strcasecmp(m_bodyType, "APPLICATION") && // If it is of type "application" PL_strncasecmp(m_bodySubType, "x-pkcs7", 7) // and it's not a signature (signatures are inline) ) return false; // we can leave it on the server if (!PL_strcasecmp(m_bodyType, "AUDIO")) return false; // Here's where we can add some more intelligence -- let's leave out // any other parts that we know we can't display inline. return true; // we're downloading it inline } } bool nsIMAPBodypartMultipart::IsLastTextPart(const char *partNumberString) { // iterate backwards over the parent's part list and if the part is // text, compare it to the part number string for (int i = m_partList->Length() - 1; i >= 0; i--) { nsIMAPBodypart *part = m_partList->ElementAt(i); if (!PL_strcasecmp(part->GetBodyType(), "text")) return !PL_strcasecmp(part->GetPartNumberString(), partNumberString); } return false; } bool nsIMAPBodypartLeaf::PreflightCheckAllInline(nsIMAPBodyShell *aShell) { // only need to check this part, since it has no children. return ShouldFetchInline(aShell); } ///////////// nsIMAPBodypartMessage //////////////////////// nsIMAPBodypartMessage::nsIMAPBodypartMessage(char *partNum, nsIMAPBodypart *parentPart, bool topLevelMessage, char *bodyType, char *bodySubType, char *bodyID, char *bodyDescription, char *bodyEncoding, int32_t partLength, bool preferPlainText) : nsIMAPBodypartLeaf(partNum, parentPart, bodyType, bodySubType, bodyID, bodyDescription, bodyEncoding, partLength, preferPlainText) { m_topLevelMessage = topLevelMessage; if (m_topLevelMessage) { m_partNumberString = PR_smprintf("0"); if (!m_partNumberString) { SetIsValid(false); return; } } m_body = NULL; m_headers = new nsIMAPMessageHeaders(m_partNumberString, this); // We always have a Headers object if (!m_headers || !m_headers->GetIsValid()) { SetIsValid(false); return; } SetIsValid(true); } void nsIMAPBodypartMessage::SetBody(nsIMAPBodypart *body) { if (m_body) delete m_body; m_body = body; } nsIMAPBodypartType nsIMAPBodypartMessage::GetType() { return IMAP_BODY_MESSAGE_RFC822; } nsIMAPBodypartMessage::~nsIMAPBodypartMessage() { delete m_headers; delete m_body; } int32_t nsIMAPBodypartMessage::Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { if (!GetIsValid()) return 0; m_contentLength = 0; if (stream && !prefetch) aShell->GetConnection()->Log("SHELL","GENERATE-MessageRFC822",m_partNumberString); if (!m_topLevelMessage && !aShell->GetPseudoInterrupted()) // not the top-level message - we need the MIME header as well as the message header { // but we don't need the MIME headers of a message/rfc822 part if this content // type is in (part of) the main msg header. In other words, we still need // these MIME headers if this message/rfc822 body part is enclosed in the msg // body (most likely as a body part of a multipart/mixed msg). // Don't fetch (bug 128888) Do fetch (bug 168097) // ---------------------------------- ----------------------------------- // message/rfc822 (parent part) message/rfc822 // message/rfc822 <<<--- multipart/mixed (parent part) // multipart/mixed message/rfc822 <<<--- // text/html (body text) multipart/mixed // text/plain (attachment) text/html (body text) // application/msword (attachment) text/plain (attachment) // application/msword (attachment) // "<<<---" points to the part we're examining here. if ( PL_strcasecmp(m_bodyType, "message") || PL_strcasecmp(m_bodySubType, "rfc822") || PL_strcasecmp(m_parentPart->GetBodyType(), "message") || PL_strcasecmp(m_parentPart->GetBodySubType(), "rfc822") ) m_contentLength += GenerateMIMEHeader(aShell, stream, prefetch); } if (!aShell->GetPseudoInterrupted()) m_contentLength += m_headers->Generate(aShell, stream, prefetch); if (!aShell->GetPseudoInterrupted()) m_contentLength += m_body->Generate(aShell, stream, prefetch); return m_contentLength; } bool nsIMAPBodypartMessage::ShouldFetchInline(nsIMAPBodyShell *aShell) { if (m_topLevelMessage) // the main message should always be defined as "inline" return true; char *generatingPart = aShell->GetGeneratingPart(); if (generatingPart) { // If we are generating a specific part // Always generate containers (just don't fill them in) // because it is low cost (everything is cached) // and it gives the message its full MIME structure, // to avoid any potential mishap. return true; } else { // Generating whole message if (ShouldExplicitlyFetchInline()) return true; if (ShouldExplicitlyNotFetchInline()) return false; // Message types are inline, by default. return true; } } bool nsIMAPBodypartMessage::PreflightCheckAllInline(nsIMAPBodyShell *aShell) { if (!ShouldFetchInline(aShell)) return false; return m_body->PreflightCheckAllInline(aShell); } // Fills in buffer (and adopts storage) for header object void nsIMAPBodypartMessage::AdoptMessageHeaders(char *headers) { if (!GetIsValid()) return; // we are going to say that the message headers only have // part data, and no header data. m_headers->AdoptPartDataBuffer(headers); if (!m_headers->GetIsValid()) SetIsValid(false); } // Finds the part with given part number // Returns a nsIMAPBodystructure of the matched part if it is this // or one of its children. Returns NULL otherwise. nsIMAPBodypart *nsIMAPBodypartMessage::FindPartWithNumber(const char *partNum) { // either brute force, or do it the smart way - look at the number. // (the parts should be ordered, and hopefully indexed by their number) if (!PL_strcasecmp(partNum, m_partNumberString)) return this; return m_body->FindPartWithNumber(partNum); } ///////////// nsIMAPBodypartMultipart //////////////////////// nsIMAPBodypartMultipart::nsIMAPBodypartMultipart(char *partNum, nsIMAPBodypart *parentPart) : nsIMAPBodypart(partNum, parentPart) { if (!m_parentPart || (m_parentPart->GetType() == IMAP_BODY_MESSAGE_RFC822)) { // the multipart (this) will inherit the part number of its parent PR_FREEIF(m_partNumberString); if (!m_parentPart) { m_partNumberString = PR_smprintf("0"); } else m_partNumberString = NS_strdup(m_parentPart->GetPartNumberString()); } m_partList = new nsTArray(); m_bodyType = NS_strdup("multipart"); if (m_partList && m_parentPart && m_bodyType) SetIsValid(true); else SetIsValid(false); } nsIMAPBodypartType nsIMAPBodypartMultipart::GetType() { return IMAP_BODY_MULTIPART; } nsIMAPBodypartMultipart::~nsIMAPBodypartMultipart() { for (int i = m_partList->Length() - 1; i >= 0; i--) { delete m_partList->ElementAt(i); } delete m_partList; } void nsIMAPBodypartMultipart::SetBodySubType(char *bodySubType) { PR_FREEIF(m_bodySubType); PR_FREEIF(m_contentType); m_bodySubType = bodySubType; if (m_bodyType && m_bodySubType) m_contentType = PR_smprintf("%s/%s", m_bodyType, m_bodySubType); } int32_t nsIMAPBodypartMultipart::Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { int32_t len = 0; if (GetIsValid()) { if (stream && !prefetch) aShell->GetConnection()->Log("SHELL","GENERATE-Multipart",m_partNumberString); // Stream out the MIME header of this part bool parentIsMessageType = GetParentPart() ? (GetParentPart()->GetType() == IMAP_BODY_MESSAGE_RFC822) : true; // If this is multipart/signed, then we always want to generate the MIME headers of this multipart. // Otherwise, we only want to do it if the parent is not of type "message" bool needMIMEHeader = !parentIsMessageType; // !PL_strcasecmp(m_bodySubType, "signed") ? true : !parentIsMessageType; if (needMIMEHeader && !aShell->GetPseudoInterrupted()) // not a message body's type { len += GenerateMIMEHeader(aShell, stream, prefetch); } if (ShouldFetchInline(aShell)) { for (size_t i = 0; i < m_partList->Length(); i++) { if (!aShell->GetPseudoInterrupted()) len += GenerateBoundary(aShell, stream, prefetch, false); if (!aShell->GetPseudoInterrupted()) len += m_partList->ElementAt(i)->Generate(aShell, stream, prefetch); } if (!aShell->GetPseudoInterrupted()) len += GenerateBoundary(aShell, stream, prefetch, true); } else { // fill in the filling within the empty part if (!aShell->GetPseudoInterrupted()) len += GenerateEmptyFilling(aShell, stream, prefetch); } } m_contentLength = len; return m_contentLength; } bool nsIMAPBodypartMultipart::ShouldFetchInline(nsIMAPBodyShell *aShell) { char *generatingPart = aShell->GetGeneratingPart(); if (generatingPart) { // If we are generating a specific part // Always generate containers (just don't fill them in) // because it is low cost (everything is cached) // and it gives the message its full MIME structure, // to avoid any potential mishap. return true; } else { // Generating whole message if (ShouldExplicitlyFetchInline()) return true; if (ShouldExplicitlyNotFetchInline()) return false; if (!PL_strcasecmp(m_bodySubType, "alternative")) return true; nsIMAPBodypart *grandparentPart = m_parentPart->GetParentPart(); // if we're a multipart sub-part of multipart alternative, we need to // be fetched because mime will always display us. if (!PL_strcasecmp(m_parentPart->GetBodySubType(), "alternative") && GetType() == IMAP_BODY_MULTIPART) return true; // If "Show Attachments as Links" is on, and // the parent of this multipart is not a message, // then it's not inline. if (!(aShell->GetContentModified() == IMAP_CONTENT_MODIFIED_VIEW_INLINE) && (m_parentPart->GetType() != IMAP_BODY_MESSAGE_RFC822) && (m_parentPart->GetType() == IMAP_BODY_MULTIPART ? (grandparentPart ? grandparentPart->GetType() != IMAP_BODY_MESSAGE_RFC822 : true) : true)) return false; // multiparts are always inline (even multipart/appledouble) // (their children might not be, though) return true; } } bool nsIMAPBodypartMultipart::PreflightCheckAllInline(nsIMAPBodyShell *aShell) { bool rv = ShouldFetchInline(aShell); size_t i = 0; while (rv && (i < m_partList->Length())) { rv = m_partList->ElementAt(i)->PreflightCheckAllInline(aShell); i++; } return rv; } nsIMAPBodypart *nsIMAPBodypartMultipart::FindPartWithNumber(const char *partNum) { NS_ASSERTION(partNum, "null part passed into FindPartWithNumber"); // check this if (!PL_strcmp(partNum, m_partNumberString)) return this; // check children for (int i = m_partList->Length() - 1; i >= 0; i--) { nsIMAPBodypart *foundPart = m_partList->ElementAt(i)->FindPartWithNumber(partNum); if (foundPart) return foundPart; } // not this, or any of this's children return NULL; } ///////////// nsIMAPMessageHeaders //////////////////////////////////// nsIMAPMessageHeaders::nsIMAPMessageHeaders(char *partNum, nsIMAPBodypart *parentPart) : nsIMAPBodypart(partNum, parentPart) { if (!partNum) { SetIsValid(false); return; } m_partNumberString = NS_strdup(partNum); if (!m_partNumberString) { SetIsValid(false); return; } if (!m_parentPart || !m_parentPart->GetnsIMAPBodypartMessage()) { // Message headers created without a valid Message parent NS_ASSERTION(false, "creating message headers with invalid message parent"); SetIsValid(false); } } nsIMAPBodypartType nsIMAPMessageHeaders::GetType() { return IMAP_BODY_MESSAGE_HEADER; } void nsIMAPMessageHeaders::QueuePrefetchMessageHeaders(nsIMAPBodyShell *aShell) { if (!m_parentPart->GetnsIMAPBodypartMessage()->GetIsTopLevelMessage()) // not top-level headers aShell->AddPrefetchToQueue(kRFC822HeadersOnly, m_partNumberString); else aShell->AddPrefetchToQueue(kRFC822HeadersOnly, NULL); } int32_t nsIMAPMessageHeaders::Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch) { // prefetch the header if (prefetch && !m_partData && !aShell->DeathSignalReceived()) { QueuePrefetchMessageHeaders(aShell); } if (stream && !prefetch) aShell->GetConnection()->Log("SHELL","GENERATE-MessageHeaders",m_partNumberString); // stream out the part data if (ShouldFetchInline(aShell)) { if (!aShell->GetPseudoInterrupted()) m_contentLength = GeneratePart(aShell, stream, prefetch); } else { m_contentLength = 0; // don't fill in any filling for the headers } return m_contentLength; } bool nsIMAPMessageHeaders::ShouldFetchInline(nsIMAPBodyShell *aShell) { return m_parentPart->ShouldFetchInline(aShell); } ///////////// nsIMAPBodyShellCache //////////////////////////////////// #if 0 // mscott - commenting out because it does not appear to be used static int imap_shell_cache_strcmp (const void *a, const void *b) { return PL_strcmp ((const char *) a, (const char *) b); } #endif nsIMAPBodyShellCache::nsIMAPBodyShellCache() : m_shellHash(20) { m_shellList = new nsTArray(); } /* static */ nsIMAPBodyShellCache *nsIMAPBodyShellCache::Create() { nsIMAPBodyShellCache *cache = new nsIMAPBodyShellCache(); if (!cache || !cache->m_shellList) return NULL; return cache; } nsIMAPBodyShellCache::~nsIMAPBodyShellCache() { while (EjectEntry()) ; delete m_shellList; } // We'll use an LRU scheme here. // We will add shells in numerical order, so the // least recently used one will be in slot 0. bool nsIMAPBodyShellCache::EjectEntry() { if (m_shellList->Length() < 1) return false; nsIMAPBodyShell *removedShell = m_shellList->ElementAt(0); m_shellList->RemoveElementAt(0); m_shellHash.Remove(removedShell->GetUID()); return true; } void nsIMAPBodyShellCache::Clear() { while (EjectEntry()) ; } bool nsIMAPBodyShellCache::AddShellToCache(nsIMAPBodyShell *shell) { // If it's already in the cache, then just return. // This has the side-effect of re-ordering the LRU list // to put this at the top, which is good, because it's what we want. if (FindShellForUID(shell->GetUID(), shell->GetFolderName(), shell->GetContentModified())) return true; // OK, so it's not in the cache currently. // First, for safety sake, remove any entry with the given UID, // just in case we have a collision between two messages in different // folders with the same UID. RefPtr foundShell; m_shellHash.Get(shell->GetUID(), getter_AddRefs(foundShell)); if (foundShell) { m_shellHash.Remove(foundShell->GetUID()); m_shellList->RemoveElement(foundShell); } // Add the new one to the cache m_shellList->AppendElement(shell); m_shellHash.Put(shell->GetUID(), shell); shell->SetIsCached(true); // while we're not over our size limit, eject entries bool rv = true; while (GetSize() > GetMaxSize()) rv = EjectEntry(); return rv; } nsIMAPBodyShell *nsIMAPBodyShellCache::FindShellForUID(nsCString &UID, const char *mailboxName, IMAP_ContentModifiedType modType) { RefPtr foundShell; m_shellHash.Get(UID, getter_AddRefs(foundShell)); if (!foundShell) return nullptr; // Make sure the content-modified types are compatible. // This allows us to work seamlessly while people switch between // View Attachments Inline and View Attachments As Links. // Enforce the invariant that any cached shell we use // match the current content-modified settings. if (modType != foundShell->GetContentModified()) return nullptr; // mailbox names must match also. if (PL_strcmp(mailboxName, foundShell->GetFolderName())) return nullptr; // adjust the LRU stuff. This defeats the performance gain of the hash if // it actually is found since this is linear. m_shellList->RemoveElement(foundShell); m_shellList->AppendElement(foundShell);// Adds to end return foundShell; } ///////////// nsIMAPMessagePartID //////////////////////////////////// nsIMAPMessagePartID::nsIMAPMessagePartID(nsIMAPeFetchFields fields, const char *partNumberString) : m_partNumberString(partNumberString), m_fields(fields) { } nsIMAPMessagePartIDArray::nsIMAPMessagePartIDArray() { } nsIMAPMessagePartIDArray::~nsIMAPMessagePartIDArray() { RemoveAndFreeAll(); } void nsIMAPMessagePartIDArray::RemoveAndFreeAll() { uint32_t n = Length(); for (uint32_t i = 0; i < n; i++) { nsIMAPMessagePartID *part = GetPart(i); delete part; } Clear(); }