mailnews/imap/src/nsIMAPBodyShell.h
author Kent James <kent@caspia.com>
Fri, 21 Mar 2014 12:44:48 +0100
changeset 16095 e49d1ca3ab589f3e3f4432e20751fc3c0036e314
parent 15167 b7d4685da9761eeccc23ef1f547080a235dd3678
permissions -rw-r--r--
Fix bug 938455 - Items in Calendars not implementing calISchedulingSupport cannot be modified. r/a=philipp

/* -*- 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/. */

/* 
nsIMAPBodyShell and associated classes
*/ 

#ifndef IMAPBODY_H
#define IMAPBODY_H

#include "nsImapCore.h"
#include "nsStringGlue.h"
#include "nsRefPtrHashtable.h"
#include "nsVoidArray.h"

class nsImapProtocol;

typedef enum _nsIMAPBodypartType {
	IMAP_BODY_MESSAGE_RFC822,
	IMAP_BODY_MESSAGE_HEADER,
	IMAP_BODY_LEAF,
	IMAP_BODY_MULTIPART
} nsIMAPBodypartType;

class nsIMAPBodyShell;
class nsIMAPBodypartMessage;

class nsIMAPBodypart
{
public:
	// Construction
	virtual bool GetIsValid() { return m_isValid; }
	virtual void	SetIsValid(bool valid);
	virtual nsIMAPBodypartType	GetType() = 0;

	// Generation
    // Generates an HTML representation of this part.  Returns content length generated, -1 if failed.
    virtual int32_t Generate(nsIMAPBodyShell *aShell, bool /*stream*/, bool /* prefetch */) { return -1; }
    virtual void AdoptPartDataBuffer(char *buf);    // Adopts storage for part data buffer.  If NULL, sets isValid to false.
    virtual void AdoptHeaderDataBuffer(char *buf);  // Adopts storage for header data buffer.  If NULL, sets isValid to false.
    virtual bool ShouldFetchInline(nsIMAPBodyShell *aShell) { return true; }  // returns true if this part should be fetched inline for generation.
    virtual bool PreflightCheckAllInline(nsIMAPBodyShell *aShell) { return true; }

	virtual bool ShouldExplicitlyFetchInline();
	virtual bool ShouldExplicitlyNotFetchInline();
        virtual bool IsLastTextPart(const char *partNumberString) {return true;}

protected:
    // If stream is false, simply returns the content length that will be generated
    // the body of the part itself
    virtual int32_t GeneratePart(nsIMAPBodyShell *aShell, bool stream, bool prefetch);
    // the MIME headers of the part
    virtual int32_t GenerateMIMEHeader(nsIMAPBodyShell *aShell, bool stream, bool prefetch); 
    // Generates the MIME boundary wrapper for this part.
    virtual int32_t GenerateBoundary(nsIMAPBodyShell *aShell, bool stream, bool prefetch, bool lastBoundary);
    // lastBoundary indicates whether or not this should be the boundary for the
    // final MIME part of the multipart message.
    // Generates (possibly empty) filling for a part that won't be filled in inline.
    virtual int32_t GenerateEmptyFilling(nsIMAPBodyShell *aShell, bool stream, bool prefetch);

	// Part Numbers / Hierarchy
public:
	virtual char	*GetPartNumberString() { return m_partNumberString; }
	virtual nsIMAPBodypart	*FindPartWithNumber(const char *partNum);	// Returns the part object with the given number
	virtual nsIMAPBodypart	*GetParentPart() { return m_parentPart; }	// Returns the parent of this part.
																		// We will define a part of type message/rfc822 to be the
																		// parent of its body and header.
																		// A multipart is a parent of its child parts.
																		// All other leafs do not have children.

	// Other / Helpers
public:
	virtual ~nsIMAPBodypart();
	virtual nsIMAPBodypartMessage	*GetnsIMAPBodypartMessage() { return NULL; }

	const char	*GetBodyType() { return m_bodyType; }
	const char	*GetBodySubType() { return m_bodySubType; }
    void SetBoundaryData(char *boundaryData) { m_boundaryData = boundaryData; }

protected:
    virtual void QueuePrefetchMIMEHeader(nsIMAPBodyShell *aShell);
	//virtual void	PrefetchMIMEHeader();			// Initiates a prefetch for the MIME header of this part.
    nsIMAPBodypart(char *partNumber, nsIMAPBodypart *parentPart);

protected:
	bool	m_isValid;				// If this part is valid.
	char	*m_partNumberString;	// string representation of this part's full-hierarchy number.  Define 0 to be the top-level message
	char	*m_partData;			// data for this part.  NULL if not filled in yet.
	char	*m_headerData;			// data for this part's MIME header.  NULL if not filled in yet.
	char	*m_boundaryData;		// MIME boundary for this part
	int32_t	m_partLength;
	int32_t	m_contentLength;		// Total content length which will be Generate()'d.  -1 if not filled in yet.
	nsIMAPBodypart	*m_parentPart;	// Parent of this part

	// Fields	- Filled in from parsed BODYSTRUCTURE response (as well as others)
	char	*m_contentType;			// constructed from m_bodyType and m_bodySubType
	char	*m_bodyType;
	char	*m_bodySubType;
	char	*m_bodyID;
	char	*m_bodyDescription;
	char	*m_bodyEncoding;
	// we ignore extension data for now
};



// Message headers
// A special type of nsIMAPBodypart
// These may be headers for the top-level message,
// or any body part of type message/rfc822.
class nsIMAPMessageHeaders : public nsIMAPBodypart
{
public:
    nsIMAPMessageHeaders(char *partNum, nsIMAPBodypart *parentPart);
	virtual nsIMAPBodypartType	GetType();
    // Generates an HTML representation of this part.  Returns content length generated, -1 if failed.
    virtual int32_t Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch);
    virtual bool ShouldFetchInline(nsIMAPBodyShell *aShell);
    virtual void QueuePrefetchMessageHeaders(nsIMAPBodyShell *aShell);
};


class nsIMAPBodypartMultipart : public nsIMAPBodypart
{
public:
    nsIMAPBodypartMultipart(char *partNum, nsIMAPBodypart *parentPart);
	virtual nsIMAPBodypartType	GetType();
	virtual ~nsIMAPBodypartMultipart();
    virtual bool ShouldFetchInline(nsIMAPBodyShell *aShell);
    virtual bool PreflightCheckAllInline(nsIMAPBodyShell *aShell);
    // Generates an HTML representation of this part.  Returns content length generated, -1 if failed.
    virtual int32_t Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch);
	virtual nsIMAPBodypart	*FindPartWithNumber(const char *partNum);	// Returns the part object with the given number
        virtual bool IsLastTextPart(const char *partNumberString);
    void AppendPart(nsIMAPBodypart *part)  { m_partList->AppendElement(part); }
    void SetBodySubType(char *bodySubType);

protected:
	nsVoidArray			*m_partList;			// An ordered list of top-level body parts for this shell
};


// The name "leaf" is somewhat misleading, since a part of type message/rfc822 is technically
// a leaf, even though it can contain other parts within it.
class nsIMAPBodypartLeaf : public nsIMAPBodypart
{
public:
  nsIMAPBodypartLeaf(char *partNum, nsIMAPBodypart *parentPart, char *bodyType,
                     char *bodySubType, char *bodyID, char *bodyDescription,
                     char *bodyEncoding, int32_t partLength,
                     bool preferPlainText);
	virtual nsIMAPBodypartType	GetType();
    // Generates an HTML representation of this part.  Returns content length generated, -1 if failed.
    virtual int32_t Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch);
    // returns true if this part should be fetched inline for generation.
    virtual bool ShouldFetchInline(nsIMAPBodyShell *aShell);
    virtual bool PreflightCheckAllInline(nsIMAPBodyShell *aShell);
private:
  bool mPreferPlainText;
};


class nsIMAPBodypartMessage : public nsIMAPBodypartLeaf
{
public:
  nsIMAPBodypartMessage(char *partNum, nsIMAPBodypart *parentPart,
                        bool topLevelMessage, char *bodyType,
                        char *bodySubType, char *bodyID,
                        char *bodyDescription, char *bodyEncoding,
                        int32_t partLength, bool preferPlainText);
    void SetBody(nsIMAPBodypart *body);
	virtual nsIMAPBodypartType	GetType();
	virtual ~nsIMAPBodypartMessage();
    virtual int32_t Generate(nsIMAPBodyShell *aShell, bool stream, bool prefetch);
    virtual bool ShouldFetchInline(nsIMAPBodyShell *aShell);
    virtual bool PreflightCheckAllInline(nsIMAPBodyShell *aShell);
	virtual nsIMAPBodypart	*FindPartWithNumber(const char *partNum);	// Returns the part object with the given number
	void	AdoptMessageHeaders(char *headers);			// Fills in buffer (and adopts storage) for header object
														// partNum specifies the message part number to which the
														// headers correspond.  NULL indicates the top-level message
	virtual nsIMAPBodypartMessage	*GetnsIMAPBodypartMessage() { return this; }
	virtual	bool		GetIsTopLevelMessage() { return m_topLevelMessage; }

protected:
	nsIMAPMessageHeaders		*m_headers;				// Every body shell should have headers
	nsIMAPBodypart			*m_body;	
	bool					m_topLevelMessage;		// Whether or not this is the top-level message

};


class nsIMAPMessagePartIDArray;

// We will refer to a Body "Shell" as a hierarchical object representation of a parsed BODYSTRUCTURE
// response.  A shell contains representations of Shell "Parts."  A Body Shell can undergo essentially
// two operations: Construction and Generation.
// Shell Construction occurs from a parsed a BODYSTRUCTURE response, split into empty parts.
// Shell Generation generates a "MIME Shell" of the message and streams it to libmime for
// display.  The MIME Shell has selected (inline) parts filled in, and leaves all others
// for on-demand retrieval through explicit part fetches.

class nsIMAPBodyShell : public nsISupports
{
public:
  NS_DECL_ISUPPORTS
  nsIMAPBodyShell(nsImapProtocol *protocolConnection,
                  nsIMAPBodypartMessage *message, uint32_t UID,
                  const char *folderName);
  virtual ~nsIMAPBodyShell();
  // To be used after a shell is uncached
  void SetConnection(nsImapProtocol *con) { m_protocolConnection = con; }
  virtual bool GetIsValid() { return m_isValid; }
  virtual void SetIsValid(bool valid);

  // Prefetch
  // Adds a message body part to the queue to be prefetched
  // in a single, pipelined command
  void AddPrefetchToQueue(nsIMAPeFetchFields, const char *partNum);
  // Runs a single pipelined command which fetches all of the
  // elements in the prefetch queue
  void FlushPrefetchQueue();
  // Fills in buffer (and adopts storage) for header object
  // partNum specifies the message part number to which the
  // headers correspond.  NULL indicates the top-level message
  void AdoptMessageHeaders(char *headers, const char *partNum);
  // Fills in buffer (and adopts storage) for MIME headers in appropriate object.
  // If object can't be found, sets isValid to false.
  void AdoptMimeHeader(const char *partNum, char *mimeHeader);

  // Generation
  // Streams out an HTML representation of this IMAP message, going along and
  // fetching parts it thinks it needs, and leaving empty shells for the parts
  // it doesn't.
  // Returns number of bytes generated, or -1 if invalid.
  // If partNum is not NULL, then this works to generates a MIME part that hasn't been downloaded yet
  // and leaves out all other parts.  By default, to generate a normal message, partNum should be NULL.
  virtual int32_t Generate(char *partNum);

  // Returns TRUE if the user has the pref "Show Attachments Inline" set.
  // Returns FALSE if the setting is "Show Attachments as Links"
  virtual bool GetShowAttachmentsInline();
  // Returns true if all parts are inline, false otherwise. Does not generate anything.
  bool PreflightCheckAllInline();

  // Helpers
  nsImapProtocol *GetConnection() { return m_protocolConnection; }
  bool GetPseudoInterrupted();
  bool DeathSignalReceived();
  nsCString &GetUID() { return m_UID; }
  const char *GetFolderName() { return m_folderName; }
  char *GetGeneratingPart() { return m_generatingPart; }
  // Returns true if this is in the process of being generated,
  // so we don't re-enter
  bool IsBeingGenerated() { return m_isBeingGenerated; }
  bool IsShellCached() { return m_cached; }
  void SetIsCached(bool isCached) { m_cached = isCached; }
  bool GetGeneratingWholeMessage() { return m_generatingWholeMessage; }
  IMAP_ContentModifiedType	GetContentModified() { return m_contentModified; }
  void SetContentModified(IMAP_ContentModifiedType modType) { m_contentModified = modType; }
protected:

  nsIMAPBodypartMessage *m_message;

  nsIMAPMessagePartIDArray        *m_prefetchQueue; // array of pipelined part prefetches.  Ok, so it's not really a queue.

  bool                            m_isValid;
  nsImapProtocol                  *m_protocolConnection;  // Connection, for filling in parts
  nsCString                       m_UID;                  // UID of this message
  char                            *m_folderName;          // folder that contains this message
  char                            *m_generatingPart;      // If a specific part is being generated, this is it.  Otherwise, NULL.
  bool                            m_isBeingGenerated;     // true if this body shell is in the process of being generated
  bool                            m_gotAttachmentPref;    // Whether or not m_showAttachmentsInline has been initialized 
  bool                            m_showAttachmentsInline; // Whether or not we should display attachment inline
  bool                            m_cached;                 // Whether or not this shell is cached
  bool                            m_generatingWholeMessage; // whether or not we are generating the whole (non-MPOD) message
                                                          // Set to false if we are generating by parts
  // under what conditions the content has been modified.
  // Either IMAP_CONTENT_MODIFIED_VIEW_INLINE or IMAP_CONTENT_MODIFIED_VIEW_AS_LINKS
  IMAP_ContentModifiedType        m_contentModified; 
};



// This class caches shells, so we don't have to always go and re-fetch them.
// This does not cache any of the filled-in inline parts;  those are cached individually
// in the libnet memory cache.  (ugh, how will we do that?)
// Since we'll only be retrieving shells for messages over a given size, and since the
// shells themselves won't be very large, this cache will not grow very big (relatively)
// and should handle most common usage scenarios.

// A body cache is associated with a given host, spanning folders.
// It should pay attention to UIDVALIDITY.

class nsIMAPBodyShellCache
{
public:
  static nsIMAPBodyShellCache *Create();
  virtual ~nsIMAPBodyShellCache();

  // Adds shell to cache, possibly ejecting
  // another entry based on scheme in EjectEntry().
  bool AddShellToCache(nsIMAPBodyShell *shell);
  // Looks up a shell in the cache given the message's UID.
  nsIMAPBodyShell *FindShellForUID(nsCString &UID, const char *mailboxName,
                                   IMAP_ContentModifiedType modType);
  void Clear();

protected:
  nsIMAPBodyShellCache();
  // Chooses an entry to eject;  deletes that entry;  and ejects it from the
  // cache, clearing up a new space.  Returns true if it found an entry
  // to eject, false otherwise.
  bool EjectEntry();
  uint32_t GetSize() { return m_shellList->Count(); }
  uint32_t GetMaxSize() { return 20; }
  nsVoidArray *m_shellList; // For maintenance
  // For quick lookup based on UID
  nsRefPtrHashtable <nsCStringHashKey, nsIMAPBodyShell> m_shellHash;
};

// MessagePartID and MessagePartIDArray are used for pipelining prefetches.

class nsIMAPMessagePartID
{
public:
	nsIMAPMessagePartID(nsIMAPeFetchFields fields, const char *partNumberString);
	nsIMAPeFetchFields		GetFields() { return m_fields; }
	const char		*GetPartNumberString() { return m_partNumberString; }


protected:
	const char *m_partNumberString;
	nsIMAPeFetchFields m_fields;
};


class nsIMAPMessagePartIDArray : public nsVoidArray {
public:
	nsIMAPMessagePartIDArray();
	~nsIMAPMessagePartIDArray();

	void				RemoveAndFreeAll();
	int					GetNumParts() {return Count();}
	nsIMAPMessagePartID	*GetPart(int i) 
	{
		NS_ASSERTION(i >= 0 && i < Count(), "invalid message part #");
		return (nsIMAPMessagePartID *) ElementAt(i);
	}
};


#endif // IMAPBODY_H