/* -*- Mode: C++; tab-width: 2; 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/. */ #ifndef __MSGSEND_H__ #define __MSGSEND_H__ /* Asynchronous mailing of messages with attached URLs. - If there are any attachments, start their URLs going, and write each of them to a temp file. - While writing to their files, examine the data going by and decide what kind of encoding, if any, they need. Also remember their content types. - Once that URLs has been saved to a temp file (or, if there were no attachments) generate a final temp file, of the actual message: - Generate a string of the headers. - Open the final temp file. - Write the headers. - Examine the first part, and decide whether to encode it. - Write the first part to the file, possibly encoded. - Write the second and subsequent parts to the file, possibly encoded. (Open the first temp file and copy it to the final temp file, and so on, through an encoding filter.) - Delete the attachment temp file(s) as we finish with them. - Close the final temp file. - Open the news: url. - Send the final temp file to NNTP. If there's an error, run the callback with "failure" status. - If mail succeeded, open the mailto: url. - Send the final temp file to SMTP. If there's an error, run the callback with "failure" status. - Otherwise, run the callback with "success" status. - Free everything, delete the final temp file. The theory behind the encoding logic: ===================================== If the document is of type text/html, and the user has asked to attach it as source or postscript, it will be run through the appropriate converter (which will result in a document of type text/plain.) An attachment will be encoded if: - it is of a non-text type (in which case we will use base64); or - The "use QP" option has been selected and high-bit characters exist; or - any NULLs exist in the document; or - any line is longer than 990 bytes (see LINELENGTH_ENCODING_THRESHOLD below) and it is not of type message/rfc822. - If we are encoding, and more than 10% of the document consists of non-ASCII characters, then we always use base64 instead of QP. We eschew quoted-printable in favor of base64 for documents which are likely to always be binary (images, sound) because, on the off chance that a GIF file (for example) might contain primarily bytes in the ASCII range, using the quoted-printable representation might cause corruption due to the translation of CR or LF to CRLF. So, when we don't know that the document has "lines", we don't use quoted-printable. */ /* For maximal compatibility, it helps to emit both Content-Type: ; name="" as well as Content-Disposition: inline; filename="" The lossage here is, RFC1341 defined the "name" parameter to Content-Type, but then RFC1521 deprecated it in anticipation of RFC1806, which defines Content-Type and the "filename" parameter. But, RFC1521 is "Standards Track" while RFC1806 is still "Experimental." So, it's probably best to just implement both. */ #define EMIT_NAME_IN_CONTENT_TYPE /* Whether the contents of the BCC header should be preserved in the FCC'ed copy of a message. See comments below, in mime_do_fcc_1(). */ #define SAVE_BCC_IN_FCC_FILE /* When attaching an HTML document, one must indicate the original URL of that document, if the receiver is to have any chance of being able to retreive and display the inline images, or to click on any links in the HTML. The way we have done this in the past is by inserting a tag as the first line of all HTML documents we attach. (This is kind of bad in that we're actually modifying the document, and it really isn't our place to do that.) The sanctioned *new* way of doing this is to insert a Content-Base header field on the attachment. This is (will be) a part of the forthcoming MHTML spec. If GENERATE_CONTENT_BASE, we generate a Content-Base header. We used to have a MANGLE_HTML_ATTACHMENTS_WITH_BASE_TAG symbol that we defined, which added a BASE tag to the bodies. We stopped doing this in 4.0. */ #define GENERATE_CONTENT_BASE // // Necessary includes // #include "nsCOMPtr.h" #include "nsIMsgSend.h" #include "nsIStringBundle.h" #include "msgCore.h" #include "prprf.h" #include "nsIOutputStream.h" #include "nsMsgMessageFlags.h" #include "nsIURL.h" #include "nsMsgAttachmentHandler.h" #include "nsMsgCompFields.h" #include "nsIMsgSendListener.h" #include "nsIDOMNode.h" #include "nsIEditor.h" #include "nsIUrlListener.h" #include "nsIMsgStatusFeedback.h" #include "nsIMsgIdentity.h" #include "nsIMsgHdr.h" #include "nsIMsgIdentity.h" #include "nsWeakReference.h" #include "nsPIDOMWindow.h" #include "nsIDOMWindow.h" #include "nsIMsgComposeSecure.h" #include "nsAutoPtr.h" #include "nsMsgAttachmentData.h" #include "nsIMsgFilterService.h" #include "nsIMsgOperationListener.h" // // Some necessary defines... // #define MIME_BUFFER_SIZE 4096 // must be greater than 1000 // SMTP (RFC821) limit // Maximum number of bytes we allow in a line before we force // encoding to base64 if not already QR-encoded or of type message/rfc822. #define LINELENGTH_ENCODING_THRESHOLD 990 // // Utilities for string handling // #define PUSH_STRING(S) \ do { PL_strcpy (buffer_tail, S); buffer_tail += PL_strlen (S); } while(0) #define PUSH_STRINGN(S,N) \ do { memcpy(buffer_tail, (S), (N)); buffer_tail += (N); } while(0) #define PUSH_NEWLINE() \ do { *buffer_tail++ = '\r'; *buffer_tail++ = '\n'; *buffer_tail = '\0'; } while(0) // // Forward declarations... // class nsMsgSendPart; class nsMsgCopy; class nsIPrompt; class nsIInterfaceRequestor; namespace mozilla { namespace mailnews { class MimeEncoder; } } class nsMsgComposeAndSend : public nsIMsgSend, public nsIMsgOperationListener, public nsSupportsWeakReference { typedef mozilla::mailnews::MimeEncoder MimeEncoder; public: // // Define QueryInterface, AddRef and Release for this class // NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIMSGSEND NS_DECL_NSIMSGOPERATIONLISTENER nsMsgComposeAndSend(); // Delivery and completion callback routines... NS_IMETHOD DeliverMessage(); NS_IMETHOD DeliverFileAsMail(); NS_IMETHOD DeliverFileAsNews(); void DoDeliveryExitProcessing(nsIURI * aUrl, nsresult aExitCode, bool aCheckForMail); nsresult FormatStringWithSMTPHostNameByName(const char16_t* aMsgName, char16_t **aString); nsresult DoFcc(); nsresult StartMessageCopyOperation(nsIFile *aFileSpec, nsMsgDeliverMode mode, const nsCString& dest_uri); nsresult SendToMagicFolder(nsMsgDeliverMode flag); // Check to see if it's ok to save msgs to the configured folder. bool CanSaveMessagesToFolder(const char *folderURL); // // FCC operations... // nsresult MimeDoFCC (nsIFile *input_file, nsMsgDeliverMode mode, const char *bcc_header, const char *fcc_header, const char *news_url); // Init() will allow for either message creation without delivery or full // message creation and send operations // nsresult Init( nsIMsgIdentity *aUserIdentity, const char *aAccountKey, nsMsgCompFields *fields, nsIFile *sendFile, bool digest_p, bool dont_deliver_p, nsMsgDeliverMode mode, nsIMsgDBHdr *msgToReplace, const char *attachment1_type, const nsACString &attachment1_body, nsIArray *attachments, nsIArray *preloaded_attachments, const char *password, const nsACString &aOriginalMsgURI, MSG_ComposeType aType); // // Setup the composition fields // nsresult InitCompositionFields(nsMsgCompFields *fields, const nsACString &aOriginalMsgURI, MSG_ComposeType aType); NS_IMETHOD GetBodyFromEditor(); // // Attachment processing... // nsresult HackAttachments(nsIArray *attachments, nsIArray *preloaded_attachments); nsresult CountCompFieldAttachments(); nsresult AddCompFieldLocalAttachments(); nsresult AddCompFieldRemoteAttachments(uint32_t aStartLocation, int32_t *aMailboxCount, int32_t *aNewsCount); // Deal with multipart related data nsresult ProcessMultipartRelated(int32_t *aMailboxCount, int32_t *aNewsCount); nsresult GetEmbeddedObjectInfo(nsIDOMNode *node, nsMsgAttachmentData *attachment, bool *acceptObject); uint32_t GetMultipartRelatedCount(bool forceToBeCalculated = false); nsCOMPtr mEmbeddedObjectList; // it's initialized when calling GetMultipartRelatedCount // Body processing nsresult SnarfAndCopyBody(const nsACString &attachment1_body, const char *attachment1_type); int32_t PreProcessPart(nsMsgAttachmentHandler *ma, nsMsgSendPart *toppart); // The very top most container of the message // For part processing nsresult SetStatusMessage(const nsString &aMsgString); // Status message method // // All vars necessary for this implementation // nsMsgKey m_messageKey; // jt -- Draft/Template support; newly created key nsCOMPtr mUserIdentity; nsCString mAccountKey; RefPtr mCompFields; // All needed composition fields (header, etc...) nsCOMPtr mTempFile; // our temporary file nsCOMPtr mOutputFile; // the actual output file stream uint32_t mMessageWarningSize; // Warn if a message is over this size! bool m_dont_deliver_p; // If set, we just return the nsIFile of the file // created, instead of actually delivering message. nsMsgDeliverMode m_deliver_mode; // nsMsgDeliverNow, nsMsgQueueForLater, nsMsgSaveAsDraft, // nsMsgSaveAsTemplate and nsMsgSendUnsent nsCOMPtr mMsgToReplace; // If the mode is nsMsgSaveAsDraft, this is the message it will // replace nsString mSavedToFolderName; // Name of folder we're saving to, used when // displaying error on save. // These are needed for callbacks to the FE... nsCOMPtr mParentWindow; nsCOMPtr mSendProgress; nsCOMPtr mListener; nsCOMPtr mStatusFeedback; nsCOMPtr mRunningRequest; bool mSendMailAlso; nsCOMPtr mReturnFile; // a holder for file spec's to be returned to caller // File where we stored our HTML so that we could make the plaintext form. nsCOMPtr mHTMLFile; // Variable for storing the draft name; nsCString m_folderName; // mapping between editor dom node indexes and saved mime part numbers. nsTArray m_partNumbers; // // These variables are needed for message Copy operations! // nsCOMPtr mCopyFile; nsCOMPtr mCopyFile2; RefPtr mCopyObj; bool mNeedToPerformSecondFCC; bool mPerformingSecondFCC; // For MHTML message creation nsCOMPtr mEditor; // // The first attachment, if any (typed in by the user.) // char *m_attachment1_type; char *m_attachment1_encoding; nsAutoPtr m_attachment1_encoder; char *m_attachment1_body; uint32_t m_attachment1_body_length; char *mOriginalHTMLBody; // The plaintext form of the first attachment, if needed. RefPtr m_plaintext; // The multipart/related save object for HTML text. nsMsgSendPart *m_related_part; nsMsgSendPart *m_related_body_part; // // Subsequent attachments, if any. // uint32_t m_attachment_count; uint32_t m_attachment_pending_count; nsTArray< RefPtr > m_attachments; nsresult m_status; // in case some attachments fail but not all uint32_t mPreloadedAttachmentCount; uint32_t mRemoteAttachmentCount; int32_t mMultipartRelatedAttachmentCount; // the number of mpart related attachments, -1 means it has not been yet initialized uint32_t mCompFieldLocalAttachments; // the number of file:// attachments in the comp fields uint32_t mCompFieldRemoteAttachments; // the number of remote attachments in the comp fields // // attachment states and other info... // bool m_pre_snarfed_attachments_p; // If true, then the attachments were // loaded by in the background and therefore // we shouldn't delete the tmp files (but should // leave that to the caller.) bool m_digest_p; // Whether to be multipart/digest instead of // multipart/mixed. bool m_be_synchronous_p; // If true, we will load one URL after another, // rather than starting all URLs going at once // and letting them load in parallel. This is // more efficient if (for example) all URLs are // known to be coming from the same news server // or mailbox: loading them in parallel would // cause multiple connections to the news // server to be opened, or would cause much seek()ing. bool mGUINotificationEnabled; // Should we throw up the GUI alerts on errors? bool mAbortInProcess; // Used by Abort to avoid reentrance. nsCOMPtr m_crypto_closure; protected: nsCOMPtr mComposeBundle; nsresult GetNotificationCallbacks(nsIInterfaceRequestor** aCallbacks); virtual ~nsMsgComposeAndSend(); nsresult FilterSentMessage(); nsresult MaybePerformSecondFCC(nsresult aStatus); // generates a message id for our message, if necessary void GenerateMessageId( ); // add default custom headers to the message nsresult AddDefaultCustomHeaders(); // add Mail-Followup-To and Mail-Reply-To header nsresult AddMailFollowupToHeader(); nsresult AddMailReplyToHeader(); nsresult AddXForwardedMessageIdHeader(); nsCOMPtr mSendReport; nsCString mSmtpPassword; // store the smtp Password use during a send }; // // These C routines should only be used by the nsMsgSendPart class. // extern nsresult mime_write_message_body(nsIMsgSend *state, const char *buf, uint32_t size); extern char *mime_get_stream_write_buffer(void); extern nsresult mime_encoder_output_fn (const char *buf, int32_t size, void *closure); extern bool UseQuotedPrintable(void); #endif /* __MSGSEND_H__ */