restemplate/indy/Protocols/IdIMAP4.pas

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{
$Project$
$Workfile$
$Revision$
$DateUTC$
$Id$
This file is part of the Indy (Internet Direct) project, and is offered
under the dual-licensing agreement described on the Indy website.
(http://www.indyproject.org/)
Copyright:
(c) 1993-2005, Chad Z. Hower and the Indy Pit Crew. All rights reserved.
}
{
$Log$
}
{
Rev 1.66 3/24/2005 3:03:28 AM DSiders
Modified TIdIMAP4.ParseStatusResult to correct an endless loop parsing an odd
number of status messages/values in the server response.
Rev 1.65 3/23/2005 3:03:40 PM DSiders
Modified TIdIMAP4.Destroy to free resources for Capabilities and MUtf7
properties.
Rev 1.64 3/4/2005 3:08:42 PM JPMugaas
Removed compiler warning with stream. You sometimes need to use IdStreamVCL.
Rev 1.63 3/3/2005 12:54:04 PM JPMugaas
Replaced TStringList with TIdStringList.
Rev 1.62 3/3/2005 12:09:04 PM JPMugaas
TStrings were replaced with TIdStrings.
Rev 1.60 20/02/2005 20:41:06 CCostelloe
Cleanup and reorganisations
Rev 1.59 11/29/2004 2:46:10 AM JPMugaas
I hope that this fixes a compile error.
Rev 1.58 11/27/04 3:11:56 AM RLebeau
Fixed bug in ownership of SASLMechanisms property.
Updated to use TextIsSame() instead of Uppercase() comparisons.
Rev 1.57 11/8/2004 8:39:00 AM DSiders
Removed comment in TIdIMAP4.SearchMailBox implementation that caused DOM
problem when locating the symbol id.
Rev 1.56 10/26/2004 10:19:58 PM JPMugaas
Updated refs.
Rev 1.55 2004.10.26 2:19:56 PM czhower
Resolved alias conflict.
Rev 1.54 6/11/2004 9:36:34 AM DSiders
Added "Do not Localize" comments.
Rev 1.53 6/4/04 12:48:12 PM RLebeau
ContentTransferEncoding bug fix
Rev 1.52 01/06/2004 19:03:46 CCostelloe
.NET bug fix
Rev 1.51 01/06/2004 01:16:18 CCostelloe
Various improvements
Rev 1.50 20/05/2004 22:04:14 CCostelloe
IdStreamVCL changes
Rev 1.49 20/05/2004 08:43:12 CCostelloe
IdStream change
Rev 1.48 16/05/2004 20:40:46 CCostelloe
New TIdText/TIdAttachment processing
Rev 1.47 24/04/2004 23:54:42 CCostelloe
IMAP-style UTF-7 encoding/decoding of mailbox names added
Rev 1.46 13/04/2004 22:24:28 CCostelloe
Bug fix (FCapabilities not created if not DOTNET)
Rev 1.45 3/18/2004 2:32:40 AM JPMugaas
Should compile under D8 properly.
Rev 1.44 3/8/2004 10:10:32 AM JPMugaas
IMAP4 should now have SASLMechanisms again. Those work in DotNET now.
SSL abstraction is now supported even in DotNET so that should not be
IFDEF'ed out.
Rev 1.43 07/03/2004 17:55:16 CCostelloe
Updates to cover changes in other units
Rev 1.42 2/4/2004 2:36:58 AM JPMugaas
Moved more units down to the implementation clause in the units to make them
easier to compile.
Rev 1.41 2/3/2004 4:12:50 PM JPMugaas
Fixed up units so they should compile.
Rev 1.40 2004.02.03 5:43:48 PM czhower
Name changes
Rev 1.39 2004.02.03 2:12:10 PM czhower
$I path change
Rev 1.38 1/27/2004 4:01:12 PM SPerry
StringStream ->IdStringStream
Rev 1.37 1/25/2004 3:11:12 PM JPMugaas
SASL Interface reworked to make it easier for developers to use.
SSL and SASL reenabled components.
Rev 1.36 23/01/2004 01:48:28 CCostelloe
Added BinHex4.0 encoding support for parts
Rev 1.35 1/21/2004 3:10:40 PM JPMugaas
InitComponent
Rev 1.34 31/12/2003 09:40:32 CCostelloe
ChangeReplyClass removed, replaced AnsiSameText with TextIsSame, stream code
not tested.
Rev 1.33 28/12/2003 23:48:18 CCostelloe
More TEMPORARY fixes to get it to compile under D7 and D8 .NET
Rev 1.32 22/12/2003 01:20:20 CCostelloe
.NET fixes. This is a TEMPORARY combined Indy9/10/.NET master file.
Rev 1.31 14/12/2003 21:03:16 CCostelloe
First version for .NET
Rev 1.30 10/17/2003 12:11:06 AM DSiders
Added localization comments.
Added resource strings for exception messages.
Rev 1.29 2003.10.12 3:53:10 PM czhower
compile todos
Rev 1.28 10/12/2003 1:49:50 PM BGooijen
Changed comment of last checkin
Rev 1.27 10/12/2003 1:43:34 PM BGooijen
Changed IdCompilerDefines.inc to Core\IdCompilerDefines.inc
Rev 1.26 20/09/2003 15:38:38 CCostelloe
More patches added for different IMAP servers
Rev 1.25 12/08/2003 01:17:38 CCostelloe
Retrieve and AppendMsg updated to suit changes made to attachment encoding
changes in other units
Rev 1.24 21/07/2003 01:22:24 CCostelloe
Added CopyMsg and UIDCopyMsgs. (UID)Receive(Peek) rewritten. AppendMsg
still buggy with attachments. Public variable FGreetingBanner added. Added
"if Connected then " to Destroy. Attachment filenames now decoded if
necessary. Added support for multisection parts. Resolved issue of some
servers leaving out the trailing "NIL NIL NIL" at the end of some body
structures. UIDRetrieveAllHeaders removed
Rev 1.23 18/06/2003 21:53:36 CCostelloe
Rewrote GetResponse from scratch. Restored Capabilities for login. Compiles
and runs properly (may be a couple of minor bugs not yet discovered).
Rev 1.22 6/16/2003 11:48:18 PM JPMugaas
Capabilities has to be restored for SASL and SSL support.
Rev 1.21 17/06/2003 01:33:46 CCostelloe
Updated to support new LoginSASL. Compiles OK, may not yet run OK.
Rev 1.20 12/06/2003 10:17:54 CCostelloe
Partial update for Indy 10's new Reply structure. Compiles but does not run
correctly. Checked in to show problem with Get/SetNumericCode in IdReplyIMAP.
Rev 1.19 04/06/2003 02:33:44 CCostelloe
Compiles under Indy 10 with the revised Indy 10 structure, but does not yet
work properly due to some of the changes. Will be fixed by me in a later
check-in.
Rev 1.18 14/05/2003 01:55:50 CCostelloe
This version (with the extra IMAP functionality recently added) now compiles
on Indy 10 and works in a real application.
Rev 1.17 5/12/2003 02:19:56 AM JPMugaas
Now should work properly again. I also removed all warnings and errors in
Indy 10.
Rev 1.16 5/11/2003 07:35:44 PM JPMugaas
Rev 1.15 5/11/2003 07:11:06 PM JPMugaas
Fixed to eliminate some warnings and compile errors in Indy 10.
Rev 1.14 11/05/2003 23:53:52 CCostelloe
Bug fix due to Windows 98 / 2000 discrepancies
Rev 1.13 11/05/2003 23:08:36 CCostelloe
Lots more bug fixes, plus IMAP code moved up from IdRFCReply
Rev 1.12 5/10/2003 07:31:22 PM JPMugaas
Updated with some bug fixes and some cleanups.
Rev 1.11 5/9/2003 10:51:26 AM JPMugaas
Bug fixes. Now works as it should. Verified.
Rev 1.9 5/9/2003 03:49:44 AM JPMugaas
IMAP4 now supports SASL. Merged some code from Ciaran which handles the +
SASL continue reply in IMAP4 and makes a few improvements. Verified to work
on two servers.
Rev 1.8 5/8/2003 05:41:48 PM JPMugaas
Added constant for SASL continuation.
Rev 1.7 5/8/2003 03:17:50 PM JPMugaas
Flattened ou the SASL authentication API, made a custom descendant of SASL
enabled TIdMessageClient classes.
Rev 1.6 5/8/2003 11:27:52 AM JPMugaas
Moved feature negoation properties down to the ExplicitTLSClient level as
feature negotiation goes hand in hand with explicit TLS support.
Rev 1.5 5/8/2003 02:17:44 AM JPMugaas
Fixed an AV in IdPOP3 with SASL list on forms. Made exceptions for SASL
mechanisms missing more consistant, made IdPOP3 support feature feature
negotiation, and consolidated some duplicate code.
Rev 1.4 5/7/2003 10:20:32 PM JPMugaas
Rev 1.3 5/7/2003 04:35:30 AM JPMugaas
IMAP4 should now compile. Started on prelimary SSL support (not finished
yet).
Rev 1.2 15/04/2003 00:57:08 CCostelloe
Rev 1.1 2/24/2003 09:03:06 PM JPMugaas
Rev 1.0 11/13/2002 07:54:50 AM JPMugaas
2001-FEB-27 IC: First version most of the IMAP features are implemented and
the core IdPOP3 features are implemented to allow a seamless
switch.
The unit is currently oriented to a session connection and not
to constant connection, because of that server events that are
raised from another user actions are not supported.
2001-APR-18 IC: Added support for the session's connection state with a
special exception for commands preformed in wrong connection
states. Exceptions were also added for response errors.
2001-MAY-05 IC:
2001-Mar-13 DS: Fixed Bug # 494813 in CheckMsgSeen where LastCmdResult.Text
was not using the Ln index variable to access server
responses.
2002-Apr-12 DS: fixed bug # 506026 in TIdIMAP4.ListSubscribedMailBoxes. Call
ParseLSubResut instead of ParseListResult.
2003-Mar-31 CC: Added GetUID and UIDSearchMailBox, sorted out some bugs (details
shown in comments in those functions which start with "CC:").
2003-Apr-15 CC2:Sorted out some more bugs (details shown in comments in those
functions which start with "CC2:"). Set FMailBoxSeparator
in ParseListResult and ParseLSubResult.
Some IMAP servers generally return "OK completed" even if they
returned no data, such as passing a non-existent message
number to them: they possibly should return NO or BAD; the
functions here have been changed to return FALSE unless they
get good data back, even if the server answers OK. Similar
change made for other functions.
There are a few exceptions, e.g. ListMailBoxes may only return
"OK completed" if the user has no mailboxes, these are noted.
Also, RetrieveStructure(), UIDRetrieveStructure, RetrievePart,
UIDRetrievePart, RetrievePartPeek and UIDRetrievePartPeek
added to allow user to find the structure of a message and
just retrieve the part or parts he needs.
2003-Apr-30 CC3:Added functionality to retrieve the text of a message (only)
via RetrieveText / UIDRetrieveText / RetrieveTextPeek /
UIDRetrieveTextPeek.
Return codes now generally reflect if the function succeeded
instead of returning True even though function fails.
2003-May-15 CC4:Added functionality to retrieve individual parts of a message
to a file, including the decoding of those parts.
2003-May-29 CC5:Response of some servers to UID version of commands varies,
code changed to deal with those (UID position varies).
Some servers return NO such as when you request an envelope
for a message number that does not exist: functions return
False instead of throwing an exception, as was done for other
servers. The general logic is that if a valid result is
returned from the IMAP server, return True; if there is no
result (but the command is validly structured), return FALSE;
if the command is badly structured or if it gives a response
that this code does not expect, throw an exception (typically
when we get a BAD response instead of OK or NO).
Added IsNumberValid, IsUIDValid to prevent rubbishy parameters
being passed through to IMAP functions.
Sender field now filled in correctly in ParseEnvelope
functions.
All fields in ParseEnvelopeAddress are cleared out first,
avoids an unwitting error where some entries, such as CC list,
will append entries to existing entries.
Full test script now used that tests every TIdIMAP command,
more bugs eradicated.
First version to pass testing against both CommuniGate and
Cyrus IMAP servers.
Not tested against Microsoft Exchange, don't have an Exchange
account to test it against.
2003-Jun-10 CC6:Added (UID)RetrieveEnvelopeRaw, in case the user wants to do
their own envelope parsing.
Code in RetrievePart altered to make it more consistent.
Altered to incorporate Indy 10's use of IdReplyIMAP4 (not
complete at this stage).
ReceiveBody added to IdIMAP4, due to the response of some
servers, which gets (UID)Receive(Peek) functions to work on
more servers.
2003-Jun-20 CC7:ReceiveBody altered to work with Indy 10. Made changes due to
LoginSASL moving from TIdMessageSASLClient to TIdSASLList.
Public variable FGreetingBanner added to help user identify
the IMAP server he is connected to (may help him decide the
best strategy). Made AppendMsg work a bit better (now uses
platform-independent EOL and supports ExtraHeaders field).
Added 2nd version of AppendMsg. Added "if Connected then "
to Destroy. Attachment filenames now decoded if necessary.
Added support for multisection parts.
2003-Jul-16 CC8:Added RemoveAnyAdditionalResponses. Resolved issue of some
servers leaving out the trailing "NIL NIL NIL" at the end of
some body structures. (UID)Retrieve(Peek) functions
integrated via InternalRetrieve, new method of implementing
these functions (all variations of Retrieve) added for Indy
10 based on getting message by the byte-count and then feeding
it into the standard message parser.
UIDRetrieveAllHeaders removed: it was never implemented anyway
but it makes no sense to retrieve a non-contiguous list which
would have gaps due to missing UIDs.
In the Indy 10 version, AppendMsg functions were altered to
support the sending of attachments (attachments had never
been supported in AppendMsg prior to this).
Added CopyMsg and UIDCopyMsgs to complete the command set.
2003-Jul-30 CC9:Removed wDoublePoint so that the code is compliant with
the guidelines. Allowed for servers that don't implement
search commands in Indy 9 (OK in 10). InternalRetrieve
altered to (hopefully) deal with optional "FLAGS (\Seen)"
in response.
2003-Aug-22 CCA:Yet another IMAP oddity - a server returns NIL for the
mailbox separator, ParseListResult modified. Added "Length
(LLine) > 0)" test to stop GPF on empty line in ReceiveBody.
2003-Sep-26 CCB:Changed SendCmd altered to try to remove anything that may
be unprocessed from a previous (probably failed) command.
This uses the property FMilliSecsToWaitToClearBuffer, which
defaults to 10ms.
Added EIdDisconnectedProbablyIdledOut, trapped in
GetInternalResponse.
Unsolicited responses now filtered out (they are now transferred
from FLastCmdResult.Text to a new field, FLastCmdResult.Extra,
leaving just the responses we want to our command in
FLastCmdResult.Text).
2003-Oct-21 CCC:Original GetLineResponse merged with GetResponse to reduce
complexity and to add filtering unsolicited responses when
we are looking for single-line responses (which GetLineResponse
did), removed/coded-out much of these functions to make the
code much simpler.
Removed RemoveAnyAdditionalResponses, no longer needed.
Parsing of body structure reworked to support ParentPart concept
allowing parsing of indefinitely-nested MIME parts. Note that
a`MIME "alternative" message with a plain-text and a html part
will have part[0] marked "alternative" with size 0 and ImapPartNumber
of 1, a part[1] of type text/plain with a ParentPart of 0 and an
ImapPartNumber of 1.1, and finally a part[2] of type text/html
again with a ParentPart of 0 and an ImapPartNumber of 1.2.
Imap part number changed from an integer to string, allowing
retrieval of IMAP sub-parts, e.g. part '3.2' is the 2nd subpart
of part 3.
2003-Nov-20 CCD:Added UIDRetrievePartHeader & RetrievePartHeader. Started to
use an abstracted parsing method for the command response in
UIDRetrieveFlags. Added function FindHowServerCreatesFolders.
2003-Dec-04 CCE:Copied DotNet connection changes from IdSMTP to tempoarily bypass
the SASL authentications until they are ported.
2004-Jan-23 CCF:Finished .NET port, added BinHex4.0 encoding.
2004-Apr-16 CCG:Added UTF-7 decoding/encoding code kindly written and submitted by
Roman Puls for encoding/decoding mailbox names. IMAP does not use
standard UTF-7 code (what's new?!) so these routines are localised
to this unit.
}
unit IdIMAP4;
{
IMAP 4 (Internet Message Access Protocol - Version 4 Rev 1)
By Idan Cohen i_cohen@yahoo.com
}
interface
{ Todo -oIC :
Change the mailbox list commands so that they receive TMailBoxTree
structures and so they can store in them the mailbox name and it's attributes. }
{ Todo -oIC :
Add support for \* special flag in messages, and check for \Recent
flag in STORE command because it cant be stored (will get no reply!!!) }
{ Todo -oIC :
5.1.2. Mailbox Namespace Naming Convention
By convention, the first hierarchical element of any mailbox name
which begins with "#" identifies the "namespace" of the remainder of
the name. This makes it possible to disambiguate between different
types of mailbox stores, each of which have their own namespaces.
For example, implementations which offer access to USENET
newsgroups MAY use the "#news" namespace to partition the USENET
newsgroup namespace from that of other mailboxes. Thus, the
comp.mail.misc newsgroup would have an mailbox name of
"#news.comp.mail.misc", and the name "comp.mail.misc" could refer
to a different object (e.g. a user's private mailbox). }
{ TO BE CONSIDERED -CC :
Double-quotes in mailbox names can cause major but subtle failures. Maybe
add the automatic stripping of double-quotes if passed in mailbox names,
to avoid ending up with ""INBOX""
}
{CC3: WARNING - if the following gives a "File not found" error on compilation,
you need to add the path "C:\Program Files\Borland\Delphi7\Source\Indy" in
Project -> Options -> Directories/Conditionals -> Search Path}
{$I IdCompilerDefines.inc}
uses
Classes,
{$IFNDEF VCL_6_OR_ABOVE}IdCTypes,{$ENDIF}
IdMessage,
IdAssignedNumbers,
IdMailBox,
IdException,
IdGlobal,
IdMessageParts,
IdMessageClient,
IdReply,
IdComponent,
IdMessageCoder,
IdHeaderList,
IdCoderHeader,
IdCoderMIME,
IdCoderQuotedPrintable,
IdCoderBinHex4,
IdSASLCollection,
IdMessageCollection,
IdBaseComponent;
{ MUTF7 }
type
EmUTF7Error = class(EIdSilentException);
EmUTF7Encode = class(EmUTF7Error);
EmUTF7Decode = class(EmUTF7Error);
type
// TODO: make an IIdTextEncoding implementation for Modified UTF-7
TIdMUTF7 = class(TObject)
public
function Encode(const aString : TIdUnicodeString): String;
function Decode(const aString : String): TIdUnicodeString;
function Valid(const aMUTF7String : String): Boolean;
function Append(const aMUTF7String: String; const aStr: TIdUnicodeString): String;
end;
{ TIdIMAP4 }
const
wsOk = 1;
wsNo = 2;
wsBad = 3;
wsPreAuth = 4;
wsBye = 5;
wsContinue = 6;
type
TIdIMAP4FolderTreatment = ( //Result codes from FindHowServerCreatesFolders
ftAllowsTopLevelCreation, //Folders can be created at the same level as Inbox (the top level)
ftFoldersMustBeUnderInbox, //Folders must be created under INBOX, such as INBOX.Sent
ftDoesNotAllowFolderCreation, //Wont allow you create folders at top level or under Inbox (may be read-only connection)
ftCannotTestBecauseHasNoInbox, //Wont allow top-level creation but cannot test creation under Inbox because it does not exist
ftCannotRetrieveAnyFolders //No folders present for that user, cannot be determined
);
type
TIdIMAP4AuthenticationType = (
iatUserPass,
iatSASL
);
const
DEF_IMAP4_AUTH = iatUserPass;
IDF_DEFAULT_MS_TO_WAIT_TO_CLEAR_BUFFER = 10;
{CC3: TIdImapMessagePart and TIdImapMessageParts added for retrieving
individual parts of a message via IMAP, because IMAP uses some additional
terms.
Note that (rarely) an IMAP can have two sub-"parts" in the one part -
they are sent in the one part by the server, typically a plain-text and
html version with a boundary at the start, in between, and at the end.
TIdIMAP fills in the boundary in that case, and the FSubpart holds the
info on the second part. I call these multisection parts.}
type
TIdImapMessagePart = class(TCollectionItem)
protected
FBodyType: string;
FBodySubType: string;
FFileName: string;
FDescription: string;
FEncoding: TIdMessageEncoding;
FCharSet: string;
FContentTransferEncoding: string;
FSize: integer;
FUnparsedEntry: string; {Text returned from server: useful for debugging or workarounds}
FBoundary: string; {Only used for multisection parts}
FParentPart: Integer;
FImapPartNumber: string;
public
constructor Create(Collection: TCollection); override;
property BodyType : String read FBodyType write FBodyType;
property BodySubType : String read FBodySubType write FBodySubType;
property FileName : String read FFileName write FFileName;
property Description : String read FDescription write FDescription;
property Encoding: TIdMessageEncoding read FEncoding write FEncoding;
property CharSet: string read FCharSet write FCharSet;
property ContentTransferEncoding : String read FContentTransferEncoding write FContentTransferEncoding;
property Size : integer read FSize write FSize;
property UnparsedEntry : string read FUnparsedEntry write FUnparsedEntry;
property Boundary : string read FBoundary write FBoundary;
property ParentPart: integer read FParentPart write FParentPart;
property ImapPartNumber: string read FImapPartNumber write FImapPartNumber;
end;
{CC3: Added for validating message number}
EIdNumberInvalid = class(EIdException);
{CCB: Added for server disconnecting you if idle too long...}
EIdDisconnectedProbablyIdledOut = class(EIdException);
TIdImapMessageParts = class(TOwnedCollection)
protected
function GetItem(Index: Integer): TIdImapMessagePart;
procedure SetItem(Index: Integer; const Value: TIdImapMessagePart);
public
constructor Create(AOwner: TPersistent); reintroduce;
function Add: TIdImapMessagePart; reintroduce;
property Items[Index: Integer]: TIdImapMessagePart read GetItem write SetItem; default;
end;
{CCD: Added to parse out responses, because the order in which the responses appear
varies between servers. A typical line that gets parsed into this is:
* 9 FETCH (UID 1234 FLAGS (\Seen \Deleted))
}
TIdIMAPLineStruct = class(TObject)
protected
HasStar: Boolean; //Line starts with a '*'
MessageNumber: string; //Line has a message number (after the *)
Command: string; //IMAP servers send back the command they are responding to, e.g. FETCH
UID: string; //Sometimes the UID is echoed back
Flags: TIdMessageFlagsSet; //Sometimes the FLAGS are echoed back
Complete: Boolean; //If false, line has no closing bracket (response continues on following line(s))
ByteCount: integer; //The value in a trailing byte count like {123}, -1 means not present
IMAPFunction: string; //E.g. FLAGS
IMAPValue: string; //E.g. '(\Seen \Deleted)'
end;
TIdIMAP4Commands = (
cmdCAPABILITY,
cmdNOOP,
cmdLOGOUT,
cmdAUTHENTICATE,
cmdLOGIN,
cmdSELECT,
cmdEXAMINE,
cmdCREATE,
cmdDELETE,
cmdRENAME,
cmdSUBSCRIBE,
cmdUNSUBSCRIBE,
cmdLIST,
cmdLSUB,
cmdSTATUS,
cmdAPPEND,
cmdCHECK,
cmdCLOSE,
cmdEXPUNGE,
cmdSEARCH,
cmdFETCH,
cmdSTORE,
cmdCOPY,
cmdUID,
cmdXCmd
);
{CC3: Add csUnexpectedlyDisconnected for when we receive "Connection reset by peer"}
TIdIMAP4ConnectionState = (
csAny,
csNonAuthenticated,
csAuthenticated,
csSelected,
csUnexpectedlyDisconnected
);
{****************************************************************************
Universal commands CAPABILITY, NOOP, and LOGOUT
Authenticated state commands SELECT, EXAMINE, CREATE, DELETE, RENAME,
SUBSCRIBE, UNSUBSCRIBE, LIST, LSUB, STATUS, and APPEND
Selected state commands CHECK, CLOSE, EXPUNGE, SEARCH, FETCH, STORE, COPY, and UID
*****************************************************************************}
TIdIMAP4SearchKey = (
skAll, //All messages in the mailbox; the default initial key for ANDing.
skAnswered, //Messages with the \Answered flag set.
skBcc, //Messages that contain the specified string in the envelope structure's BCC field.
skBefore, //Messages whose internal date is earlier than the specified date.
skBody, //Messages that contain the specified string in the body of the message.
skCc, //Messages that contain the specified string in the envelope structure's CC field.
skDeleted, //Messages with the \Deleted flag set.
skDraft, //Messages with the \Draft flag set.
skFlagged, //Messages with the \Flagged flag set.
skFrom, //Messages that contain the specified string in the envelope structure's FROM field.
skHeader, //Messages that have a header with the specified field-name (as defined in [RFC-822])
//and that contains the specified string in the [RFC-822] field-body.
skKeyword, //Messages with the specified keyword set.
skLarger, //Messages with an [RFC-822] size larger than the specified number of octets.
skNew, //Messages that have the \Recent flag set but not the \Seen flag.
//This is functionally equivalent to "(RECENT UNSEEN)".
skNot, //Messages that do not match the specified search key.
skOld, //Messages that do not have the \Recent flag set. This is functionally
//equivalent to "NOT RECENT" (as opposed to "NOT NEW").
skOn, //Messages whose internal date is within the specified date.
skOr, //Messages that match either search key.
skRecent, //Messages that have the \Recent flag set.
skSeen, //Messages that have the \Seen flag set.
skSentBefore,//Messages whose [RFC-822] Date: header is earlier than the specified date.
skSentOn, //Messages whose [RFC-822] Date: header is within the specified date.
skSentSince, //Messages whose [RFC-822] Date: header is within or later than the specified date.
skSince, //Messages whose internal date is within or later than the specified date.
skSmaller, //Messages with an [RFC-822] size smaller than the specified number of octets.
skSubject, //Messages that contain the specified string in the envelope structure's SUBJECT field.
skText, //Messages that contain the specified string in the header or body of the message.
skTo, //Messages that contain the specified string in the envelope structure's TO field.
skUID, //Messages with unique identifiers corresponding to the specified unique identifier set.
skUnanswered,//Messages that do not have the \Answered flag set.
skUndeleted, //Messages that do not have the \Deleted flag set.
skUndraft, //Messages that do not have the \Draft flag set.
skUnflagged, //Messages that do not have the \Flagged flag set.
skUnKeyWord, //Messages that do not have the specified keyword set.
skUnseen,
skGmailRaw, //Gmail-specific extension toaccess full Gmail search syntax
skGmailMsgID, //Gmail-specific unique message identifier
skGmailThreadID, //Gmail-specific thread identifier
skGmailLabels //Gmail-specific labels
);
TIdIMAP4SearchKeyArray = array of TIdIMAP4SearchKey;
TIdIMAP4SearchRec = record
Date: TDateTime;
Size: Integer;
Text: String;
SearchKey : TIdIMAP4SearchKey;
FieldName: String;
end;
TIdIMAP4SearchRecArray = array of TIdIMAP4SearchRec;
TIdIMAP4StatusDataItem = (
mdMessages,
mdRecent,
mdUIDNext,
mdUIDValidity,
mdUnseen
);
TIdIMAP4StoreDataItem = (
sdReplace,
sdReplaceSilent,
sdAdd,
sdAddSilent,
sdRemove,
sdRemoveSilent
);
TIdRetrieveOnSelect = (
rsDisabled,
rsHeaders,
rsMessages
);
TIdAlertEvent = procedure(ASender: TObject; const AAlertMsg: String) of object;
TIdIMAP4 = class(TIdMessageClient)
protected
FCmdCounter : Integer;
FConnectionState : TIdIMAP4ConnectionState;
FMailBox : TIdMailBox;
FMailBoxSeparator: Char;
FOnAlert: TIdAlertEvent;
FRetrieveOnSelect: TIdRetrieveOnSelect;
FMilliSecsToWaitToClearBuffer: integer;
FMUTF7: TIdMUTF7;
FOnWorkForPart: TWorkEvent;
FOnWorkBeginForPart: TWorkBeginEvent;
FOnWorkEndForPart: TWorkEndEvent;
FGreetingBanner : String; {CC7: Added because it may help identify the server}
FHasCapa : Boolean;
FSASLMechanisms : TIdSASLEntries;
FAuthType : TIdIMAP4AuthenticationType;
FCapabilities: TStrings;
FLineStruct: TIdIMAPLineStruct;
function GetReplyClass:TIdReplyClass; override;
function GetSupportsTLS: Boolean; override;
function CheckConnectionState(AAllowedState: TIdIMAP4ConnectionState): TIdIMAP4ConnectionState; overload;
function CheckConnectionState(const AAllowedStates: array of TIdIMAP4ConnectionState): TIdIMAP4ConnectionState; overload;
function CheckReplyForCapabilities: Boolean;
procedure BeginWorkForPart(ASender: TObject; AWorkMode: TWorkMode; AWorkCountMax: Int64);
procedure DoWorkForPart(ASender: TObject; AWorkMode: TWorkMode; AWorkCount: Int64);
procedure EndWorkForPart(ASender: TObject; AWorkMode: TWorkMode);
//The following call FMUTF7 but do exception-handling on invalid strings...
function DoMUTFEncode(const aString : String): String;
function DoMUTFDecode(const aString : String): String;
function GetCmdCounter: String;
function GetConnectionStateName: String;
function GetNewCmdCounter: String;
property LastCmdCounter: String read GetCmdCounter;
property NewCmdCounter: String read GetNewCmdCounter;
{ General Functions }
function ArrayToNumberStr (const AMsgNumList: array of Integer): String;
function MessageFlagSetToStr (const AFlags: TIdMessageFlagsSet): String;
procedure StripCRLFs(var AText: string); overload; virtual; //Allow users to optimise
procedure StripCRLFs(ASourceStream, ADestStream: TStream); overload;
{ Parser Functions }
procedure ParseImapPart(ABodyStructure: string;
AImapParts: TIdImapMessageParts; AThisImapPart: TIdImapMessagePart;
AParentImapPart: TIdImapMessagePart; APartNumber: integer);
procedure ParseMessagePart(ABodyStructure: string; AMessageParts: TIdMessageParts;
AThisMessagePart: TIdMessagePart; AParentMessagePart: TIdMessagePart;
APartNumber: integer);
procedure ParseBodyStructureResult(ABodyStructure: string; ATheParts: TIdMessageParts; AImapParts: TIdImapMessageParts);
procedure ParseBodyStructurePart(APartString: string; AThePart: TIdMessagePart; AImapPart: TIdImapMessagePart);
procedure ParseTheLine(ALine: string; APartsList: TStrings);
procedure ParseIntoParts(APartString: string; AParams: TStrings);
procedure ParseIntoBrackettedQuotedAndUnquotedParts(APartString: string; AParams: TStrings; AKeepBrackets: Boolean);
procedure BreakApartParamsInQuotes(const AParam: string; AParsedList: TStrings);
function GetNextWord(AParam: string): string;
function GetNextQuotedParam(AParam: string; ARemoveQuotes: Boolean): string;
procedure ParseExpungeResult (AMB: TIdMailBox; ACmdResultDetails: TStrings);
procedure ParseListResult (AMBList: TStrings; ACmdResultDetails: TStrings);
procedure ParseLSubResult(AMBList: TStrings; ACmdResultDetails: TStrings);
procedure InternalParseListResult(ACmd: string; AMBList: TStrings; ACmdResultDetails: TStrings);
procedure ParseMailBoxAttributeString(AAttributesList: String; var AAttributes: TIdMailBoxAttributesSet);
procedure ParseMessageFlagString (AFlagsList: String; var AFlags: TIdMessageFlagsSet);
procedure ParseSelectResult (AMB: TIdMailBox; ACmdResultDetails: TStrings);
procedure ParseStatusResult (AMB: TIdMailBox; ACmdResultDetails: TStrings);
procedure ParseSearchResult (AMB: TIdMailBox; ACmdResultDetails: TStrings);
procedure ParseEnvelopeResult (AMsg: TIdMessage; ACmdResultStr: String);
function ParseLastCmdResult(ALine: string; AExpectedCommand: string; AExpectedIMAPFunction: array of string): Boolean;
procedure ParseLastCmdResultButAppendInfo(ALine: string);
function InternalRetrieve(const AMsgNum: Integer; AUseUID: Boolean; AUsePeek: Boolean; AMsg: TIdMessage): Boolean;
function InternalRetrievePart(const AMsgNum: Integer; const APartNum: string;
AUseUID: Boolean; AUsePeek: Boolean;
ADestStream: TStream;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; {NOTE: var args cannot have default params}
ADestFileNameAndPath: string = ''; {Do not Localize}
AContentTransferEncoding: string = 'text'): Boolean; {Do not Localize}
//Retrieves the specified number of headers of the selected mailbox to the specified TIdMessageCollection.
function InternalRetrieveHeaders(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
//Retrieves the specified number of messages of the selected mailbox to the specified TIdMessageCollection.
function InternalRetrieveMsgs(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
function InternalSearchMailBox(const ASearchInfo: array of TIdIMAP4SearchRec; AUseUID: Boolean; const ACharSet: string): Boolean;
function ParseBodyStructureSectionAsEquates(AParam: string): string;
function ParseBodyStructureSectionAsEquates2(AParam: string): string;
function InternalRetrieveText(const AMsgNum: Integer; var AText: string;
AUseUID: Boolean; AUsePeek: Boolean; AUseFirstPartInsteadOfText: Boolean): Boolean;
function IsCapabilityListed(ACapability: string): Boolean;
function InternalRetrieveEnvelope(const AMsgNum: Integer; AMsg: TIdMessage; ADestList: TStrings): Boolean;
function UIDInternalRetrieveEnvelope(const AMsgUID: String; AMsg: TIdMessage; ADestList: TStrings): Boolean;
function InternalRetrievePartHeader(const AMsgNum: Integer; const APartNum: string; const AUseUID: Boolean;
AHeaders: TIdHeaderList): Boolean;
function ReceiveHeader(AMsg: TIdMessage; const AAltTerm: string = ''): string; override;
{CC3: Need to validate message numbers (relative and UIDs) and part numbers, because otherwise
the routines wait for a response that never arrives and so functions never return.
Also used for validating part numbers.}
function IsNumberValid(const ANumber: Integer): Boolean;
function IsUIDValid(const AUID: string): Boolean;
function IsImapPartNumberValid(const AUID: string): Boolean;
function IsItDigitsAndOptionallyPeriod(const AStr: string; AAllowPeriod: Boolean): Boolean;
{CC6: Override IdMessageClient's ReceiveBody due to the responses from some servers...}
procedure ReceiveBody(AMsg: TIdMessage; const ADelim: string = '.'); override; {Do not Localize}
procedure InitComponent; override;
procedure SetMailBox(const Value: TIdMailBox);
procedure SetSASLMechanisms(AValue: TIdSASLEntries);
public
{ TIdIMAP4 Commands }
destructor Destroy; override;
//Requests a listing of capabilities that the server supports...
function Capability: Boolean; overload;
function Capability(ASlCapability: TStrings): Boolean; overload;
function FindHowServerCreatesFolders: TIdIMAP4FolderTreatment;
procedure DoAlert(const AMsg: String);
property ConnectionState: TIdIMAP4ConnectionState read FConnectionState;
property MailBox: TIdMailBox read FMailBox write SetMailBox;
{CC7: Two versions of AppendMsg are provided. The first is the normal one you
would use. The second allows you to specify an alternative header list which
will be used in place of AMsg.Headers.
An email client may need the second type if it sends an email via IdSMTP and wants
to copy it to a "Sent" IMAP folder. In Indy 10,
IdSMTP puts the generated headers in the LastGeneratedHeaders field, so you
can use the second version of AppendMsg, passing it AMsg.LastGeneratedHeaders as
the AAlternativeHeaders field. Note that IdSMTP puts both the Headers and
the ExtraHeaders fields in LastGeneratedHeaders.}
function AppendMsg(const AMBName: String; AMsg: TIdMessage; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean; overload;
function AppendMsg(const AMBName: String; AMsg: TIdMessage; AAlternativeHeaders: TIdHeaderList;
const AFlags: TIdMessageFlagsSet = []; const AInternalDateTimeGMT: TDateTime = 0.0): Boolean; overload;
//The following are used for raw (unparsed) messages in a file or stream...
function AppendMsgNoEncodeFromFile(const AMBName: String; ASourceFile: string; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean;
function AppendMsgNoEncodeFromStream(const AMBName: String; AStream: TStream; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean;
//Requests a checkpoint of the currently selected mailbox. Does NOTHING on most servers.
function CheckMailBox: Boolean;
//Checks if the message was read or not.
function CheckMsgSeen(const AMsgNum: Integer): Boolean;
//Method for logging in manually if you didn't login at connect
procedure Login; virtual;
//Connects and logins to the IMAP4 account.
function Connect(const AAutoLogin: boolean = true): Boolean; reintroduce; virtual;
//Closes the current selected mailbox in the account.
function CloseMailBox: Boolean;
//Creates a new mailbox with the specified name in the account.
function CreateMailBox(const AMBName: String): Boolean;
//Deletes the specified mailbox from the account.
function DeleteMailBox(const AMBName: String): Boolean;
//Marks messages for deletion, it will be deleted when the mailbox is purged.
function DeleteMsgs(const AMsgNumList: array of Integer): Boolean;
//Logouts and disconnects from the IMAP account.
procedure Disconnect(ANotifyPeer: Boolean); override;
procedure DisconnectNotifyPeer; override;
//Examines the specified mailbox and inserts the results to the TIdMailBox provided.
function ExamineMailBox(const AMBName: String; AMB: TIdMailBox): Boolean;
//Expunges (deletes the marked files) the current selected mailbox in the account.
function ExpungeMailBox: Boolean;
//Sends a NOOP (No Operation) to keep the account connection with the server alive.
procedure KeepAlive;
//Returns a list of all the child mailboxes (one level down) to the mailbox supplied.
//This should be used when you fear that there are too many mailboxes and the listing of
//all of them could be time consuming, so this should be used to retrieve specific mailboxes.
function ListInferiorMailBoxes(AMailBoxList, AInferiorMailBoxList: TStrings): Boolean;
//Returns a list of all the mailboxes in the user account.
function ListMailBoxes(AMailBoxList: TStrings): Boolean;
//Returns a list of all the subscribed mailboxes in the user account.
function ListSubscribedMailBoxes (AMailBoxList: TStrings): Boolean;
//Renames the specified mailbox in the account.
function RenameMailBox(const AOldMBName, ANewMBName: String): Boolean;
//Searches the current selected mailbox for messages matching the SearchRec and
//returns the results to the mailbox SearchResults array.
function SearchMailBox(const ASearchInfo: array of TIdIMAP4SearchRec; const ACharSet: string = ''): Boolean;
//Selects the current a mailbox in the account.
function SelectMailBox(const AMBName: String): Boolean;
//Retrieves the status of the indicated mailbox.
{CC2: It is pointless calling StatusMailBox with AStatusDataItems set to []
because you are asking the IMAP server to update none of the status flags.
Instead, if called with no AStatusDataItems specified, we use the standard flags
returned by SelectMailBox, which allows the user to easily check if the mailbox
has changed.}
function StatusMailBox(const AMBName: String; AMB: TIdMailBox): Boolean; overload;
function StatusMailBox(const AMBName: String; AMB: TIdMailBox;
const AStatusDataItems: array of TIdIMAP4StatusDataItem): Boolean; overload;
//Changes (adds or removes) message flags.
function StoreFlags(const AMsgNumList: array of Integer; const AStoreMethod: TIdIMAP4StoreDataItem;
const AFlags: TIdMessageFlagsSet): Boolean;
//Adds the specified mailbox name to the server's set of "active" or "subscribed"
//mailboxes as returned by the LSUB command.
function SubscribeMailBox(const AMBName: String): Boolean;
{CC8: Added CopyMsg, should have always been there...}
function CopyMsg(const AMsgNum: Integer; const AMBName: String): Boolean;
//Copies a message from the current selected mailbox to the specified mailbox. {Do not Localize}
function CopyMsgs(const AMsgNumList: array of Integer; const AMBName: String): Boolean;
//Retrieves a whole message while marking it read.
function Retrieve(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
//Retrieves a whole message "raw" and saves it to file, while marking it read.
function RetrieveNoDecodeToFile(const AMsgNum: Integer; ADestFile: string): Boolean;
function RetrieveNoDecodeToFilePeek(const AMsgNum: Integer; ADestFile: string): Boolean;
function RetrieveNoDecodeToStream(const AMsgNum: Integer; AStream: TStream): Boolean;
function RetrieveNoDecodeToStreamPeek(const AMsgNum: Integer; AStream: TStream): Boolean;
//Retrieves all envelope of the selected mailbox to the specified TIdMessageCollection.
function RetrieveAllEnvelopes(AMsgList: TIdMessageCollection): Boolean;
//Retrieves all headers of the selected mailbox to the specified TIdMessageCollection.
function RetrieveAllHeaders(AMsgList: TIdMessageCollection): Boolean;
//Retrieves the first NN headers of the selected mailbox to the specified TIdMessageCollection.
function RetrieveFirstHeaders(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
//Retrieves all messages of the selected mailbox to the specified TIdMessageCollection.
function RetrieveAllMsgs(AMsgList: TIdMessageCollection): Boolean;
//Retrieves the first NN messages of the selected mailbox to the specified TIdMessageCollection.
function RetrieveFirstMsgs(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
//Retrieves the message envelope, parses it, and discards the envelope.
function RetrieveEnvelope(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
//Retrieves the message envelope into a TStringList but does NOT parse it.
function RetrieveEnvelopeRaw(const AMsgNum: Integer; ADestList: TStrings): Boolean;
//Returnes the message flag values.
function RetrieveFlags(const AMsgNum: Integer; var AFlags: TIdMessageFlagsSet): Boolean;
{CC2: Following added for retrieving individual parts of a message...}
function InternalRetrieveStructure(const AMsgNum: Integer; AMsg: TIdMessage; AParts: TIdImapMessageParts): Boolean;
//Retrieve only the message structure (this tells you what parts are in the message).
function RetrieveStructure(const AMsgNum: Integer; AMsg: TIdMessage): Boolean; overload;
function RetrieveStructure(const AMsgNum: Integer; AParts: TIdImapMessageParts): Boolean; overload;
{CC2: Following added for retrieving individual parts of a message...}
{Retrieve a specific individual part of a message to a stream (part/sub-part like '2' or '2.3')...}
function RetrievePart(const AMsgNum: Integer; const APartNum: string;
ADestStream: TStream; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'...}
function RetrievePart(const AMsgNum: Integer; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)...}
function RetrievePart(const AMsgNum: Integer; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message to a stream (part/sub-part like '2' or '2.3')
without marking the message as "read"...}
function RetrievePartPeek(const AMsgNum: Integer; const APartNum: string;
ADestStream: TStream; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'
without marking the message as "read"...}
function RetrievePartPeek(const AMsgNum: Integer; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)
without marking the message as "read"...}
function RetrievePartPeek(const AMsgNum: Integer; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{CC2: Following added for retrieving individual parts of a message...}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)...}
function RetrievePartToFile(const AMsgNum: Integer; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'...}
function RetrievePartToFile(const AMsgNum: Integer; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{CC2: Following added for retrieving individual parts of a message...}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)
without marking the message as "read"...}
function RetrievePartToFilePeek(const AMsgNum: Integer; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'
without marking the message as "read"...}
function RetrievePartToFilePeek(const AMsgNum: Integer; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{CC3: Following added for retrieving the text-only part of a message...}
function RetrieveText(const AMsgNum: Integer; var AText: string): Boolean;
{CC4: An alternative for retrieving the text-only part of a message which
may give a better response from some IMAP implementations...}
function RetrieveText2(const AMsgNum: Integer; var AText: string): Boolean;
{CC3: Following added for retrieving the text-only part of a message
without marking the message as "read"...}
function RetrieveTextPeek(const AMsgNum: Integer; var AText: string): Boolean;
function RetrieveTextPeek2(const AMsgNum: Integer; var AText: string): Boolean;
//Retrieves only the message header.
function RetrieveHeader (const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
//CCD: Retrieve the header for a particular part...
function RetrievePartHeader(const AMsgNum: Integer; const APartNum: string; AHeaders: TIdHeaderList): Boolean;
//Retrives the current selected mailbox size.
function RetrieveMailBoxSize: Integer;
//Returnes the message size.
function RetrieveMsgSize(const AMsgNum: Integer): Integer;
//Retrieves a whole message while keeping its Seen flag unchanged
//(preserving the previous value).
function RetrievePeek(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
//Get the UID corresponding to a relative message number.
function GetUID(const AMsgNum: Integer; var AUID: string): Boolean;
//Copies a message from the current selected mailbox to the specified mailbox.
function UIDCopyMsg(const AMsgUID: String; const AMBName: String): Boolean;
{CC8: Added UID version of CopyMsgs...}
function UIDCopyMsgs(const AMsgUIDList: TStrings; const AMBName: String): Boolean;
//Checks if the message was read or not.
function UIDCheckMsgSeen(const AMsgUID: String): Boolean;
//Marks a message for deletion, it will be deleted when the mailbox will be purged.
function UIDDeleteMsg(const AMsgUID: String): Boolean;
function UIDDeleteMsgs(const AMsgUIDList: array of String): Boolean;
//Retrieves all envelope and UID of the selected mailbox to the specified TIdMessageCollection.
function UIDRetrieveAllEnvelopes(AMsgList: TIdMessageCollection): Boolean;
//Retrieves a whole message while marking it read.
function UIDRetrieve(const AMsgUID: String; AMsg: TIdMessage): Boolean;
//Retrieves a whole message "raw" and saves it to file, while marking it read.
function UIDRetrieveNoDecodeToFile(const AMsgUID: String; ADestFile: string): Boolean;
function UIDRetrieveNoDecodeToFilePeek(const AMsgUID: String; ADestFile: string): Boolean;
function UIDRetrieveNoDecodeToStream(const AMsgUID: String; AStream: TStream): Boolean;
function UIDRetrieveNoDecodeToStreamPeek(const AMsgUID: String; AStream: TStream): Boolean;
//Retrieves the message envelope, parses it, and discards the envelope.
function UIDRetrieveEnvelope(const AMsgUID: String; AMsg: TIdMessage): Boolean;
//Retrieves the message envelope into a TStringList but does NOT parse it.
function UIDRetrieveEnvelopeRaw(const AMsgUID: String; ADestList: TStrings): Boolean;
//Returnes the message flag values.
function UIDRetrieveFlags(const AMsgUID: String; var AFlags: TIdMessageFlagsSet): Boolean;
{CC2: Following added for retrieving individual parts of a message...}
function UIDInternalRetrieveStructure(const AMsgUID: String; AMsg: TIdMessage; AParts: TIdImapMessageParts): Boolean;
//Retrieve only the message structure (this tells you what parts are in the message).
function UIDRetrieveStructure(const AMsgUID: String; AMsg: TIdMessage): Boolean; overload;
function UIDRetrieveStructure(const AMsgUID: String; AParts: TIdImapMessageParts): Boolean; overload;
{Retrieve a specific individual part of a message to a stream (part/sub-part like '2' or '2.3')...}
function UIDRetrievePart(const AMsgUID: String; const APartNum: string;
var ADestStream: TStream; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'...}
function UIDRetrievePart(const AMsgUID: String; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)...}
function UIDRetrievePart(const AMsgUID: String; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message to a stream (part/sub-part like '2' or '2.3')
without marking the message as "read"...}
function UIDRetrievePartPeek(const AMsgUID: String; const APartNum: string;
var ADestStream: TStream; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'...}
function UIDRetrievePartPeek(const AMsgUID: String; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)...}
function UIDRetrievePartPeek(const AMsgUID: String; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string = 'text'): Boolean; overload; {Do not Localize}
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)...}
function UIDRetrievePartToFile(const AMsgUID: String; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'...}
function UIDRetrievePartToFile(const AMsgUID: String; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{Retrieve a specific individual part of a message where part is an integer (for backward compatibility)...}
function UIDRetrievePartToFilePeek(const AMsgUID: String; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{Retrieve a specific individual part of a message where part is an integer or sub-part like '2.3'...}
function UIDRetrievePartToFilePeek(const AMsgUID: String; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean; overload;
{Following added for retrieving the text-only part of a message...}
function UIDRetrieveText(const AMsgUID: String; var AText: string): Boolean;
function UIDRetrieveText2(const AMsgUID: String; var AText: string): Boolean;
{Following added for retrieving the text-only part of a message without marking the message as read...}
function UIDRetrieveTextPeek(const AMsgUID: String; var AText: string): Boolean;
function UIDRetrieveTextPeek2(const AMsgUID: String; var AText: string): Boolean;
//Retrieves only the message header.
function UIDRetrieveHeader(const AMsgUID: String; AMsg: TIdMessage): Boolean;
//Retrieve the header for a particular part...
function UIDRetrievePartHeader(const AMsgUID: String; const APartNum: string; AHeaders: TIdHeaderList): Boolean;
//Retrives the current selected mailbox size.
function UIDRetrieveMailBoxSize: Integer;
//Returnes the message size.
function UIDRetrieveMsgSize(const AMsgUID: String): Integer;
//Retrieves a whole message while keeping its Seen flag untucked
//(preserving the previous value).
function UIDRetrievePeek(const AMsgUID: String; AMsg: TIdMessage): Boolean;
//Searches the current selected mailbox for messages matching the SearchRec and
//returnes the results as UIDs to the mailbox SearchResults array.
function UIDSearchMailBox(const ASearchInfo: array of TIdIMAP4SearchRec; const ACharSet: String = ''): Boolean;
//Changes (adds or removes) message flags.
function UIDStoreFlags(const AMsgUID: String; const AStoreMethod: TIdIMAP4StoreDataItem;
const AFlags: TIdMessageFlagsSet): Boolean; overload;
function UIDStoreFlags(const AMsgUIDList: array of String; const AStoreMethod: TIdIMAP4StoreDataItem;
const AFlags: TIdMessageFlagsSet): Boolean; overload;
//Removes the specified mailbox name from the server's set of "active" or "subscribed"
//mailboxes as returned by the LSUB command.
function UnsubscribeMailBox(const AMBName: String): Boolean;
{ IdTCPConnection Commands }
function GetInternalResponse(const ATag: String; AExpectedResponses: array of String; ASingleLineMode: Boolean;
ASingleLineMayBeSplit: Boolean = True): string; reintroduce; overload;
function GetResponse: string; reintroduce; overload;
function SendCmd(const AOut: string; AExpectedResponses: array of String;
ASingleLineMode: Boolean = False; ASingleLineMayBeSplit: Boolean = True): string; reintroduce; overload;
function SendCmd(const ATag, AOut: string; AExpectedResponses: array of String;
ASingleLineMode: Boolean = False; ASingleLineMayBeSplit: Boolean = True): string; overload;
function ReadLnWait: string; {$IFDEF HAS_DEPRECATED}deprecated{$IFDEF HAS_DEPRECATED_MSG} 'Use IOHandler.ReadLnWait()'{$ENDIF};{$ENDIF}
procedure WriteLn(const AOut: string = ''); {$IFDEF HAS_DEPRECATED}deprecated{$IFDEF HAS_DEPRECATED_MSG} 'Use IOHandler.WriteLn()'{$ENDIF};{$ENDIF}
{ IdTCPConnection Commands }
published
property OnAlert: TIdAlertEvent read FOnAlert write FOnAlert;
property Password;
property RetrieveOnSelect: TIdRetrieveOnSelect read FRetrieveOnSelect write FRetrieveOnSelect default rsDisabled;
property Port default IdPORT_IMAP4;
property Username;
property MailBoxSeparator: Char read FMailBoxSeparator write FMailBoxSeparator default '/'; {Do not Localize}
{GreetingBanner added because it may help identify the server...}
property GreetingBanner : string read FGreetingBanner;
property Host;
property UseTLS;
property SASLMechanisms : TIdSASLEntries read FSASLMechanisms write SetSASLMechanisms;
property AuthType : TIdIMAP4AuthenticationType read FAuthType write FAuthType default DEF_IMAP4_AUTH;
property MilliSecsToWaitToClearBuffer: integer read FMilliSecsToWaitToClearBuffer write FMilliSecsToWaitToClearBuffer;
{The following is the OnWork property for use when retrieving PARTS of a message.
It is also used for AppendMsg and Retrieve. This is in addition to the normal
OnWork property, which is exposed by TIdIMAP4, but which is only activated during
IMAP sending & receiving of commands (subject to the general OnWork caveats, i.e.
it is only called during certain methods, note OnWork[Begin][End] are all only
called in the methods AllData(), PerformCapture() and Read/WriteStream() ).
When a PART of a message is processed, use this for progress notification of
retrieval of IMAP parts, such as retrieving attachments. OnWorkBegin and
OnWorkEnd are not exposed, because they won't be activated during the processing
of a part.}
property OnWorkForPart: TWorkEvent read FOnWorkForPart write FOnWorkForPart;
property OnWorkBeginForPart: TWorkBeginEvent read FOnWorkBeginForPart write FOnWorkBeginForPart;
property OnWorkEndForPart: TWorkEndEvent read FOnWorkEndForPart write FOnWorkEndForPart;
end;
implementation
uses
//facilitate inlining on
{$IFDEF KYLIXCOMPAT}
Libc,
{$IFDEF MACOSX}
Posix.Unistd,
{$ENDIF}
{$ENDIF}
//facilitate inlining only.
{$IFDEF WINDOWS}
{$IFDEF USE_INLINE}
Windows,
{$ELSE}
//facilitate inlining only.
{$IFDEF VCL_2009_OR_ABOVE}
Windows,
{$ENDIF}
{$ENDIF}
{$ENDIF}
{$IFDEF DOTNET}
{$IFDEF USE_INLINE}
System.IO,
{$ENDIF}
{$ENDIF}
{$IFDEF DOTNET}
IdStreamNET,
{$ELSE}
IdStreamVCL,
{$ENDIF}
{$IFDEF HAS_UNIT_Generics_Collections}
System.Generics.Collections,
{$ENDIF}
IdCoder,
IdEMailAddress,
IdResourceStrings,
IdExplicitTLSClientServerBase,
IdGlobalProtocols,
IdExceptionCore,
IdStack,
IdStackConsts,
IdStream,
IdTCPStream,
IdText,
IdAttachment,
IdResourceStringsProtocols,
IdBuffer,
IdAttachmentMemory,
IdReplyIMAP4,
IdTCPConnection,
IdSSL,
IdSASL,
IdMessageHelper,
SysUtils;
// TODO: move this to IdCompilerDefines.inc
{$IFDEF DCC}
{$IFDEF VCL_2005_OR_ABOVE}
{$DEFINE HAS_CLASS_HELPER}
{$ENDIF}
{$ENDIF}
{$IFDEF FPC}
{$DEFINE HAS_CLASS_HELPER} // TODO: when were class helpers introduced?
{$ENDIF}
type
TIdIMAP4FetchDataItem = (
fdAll, //Macro equivalent to: (FLAGS INTERNALDATE RFC822.SIZE ENVELOPE)
fdBody, //Non-extensible form of BODYSTRUCTURE.
fdBodyExtensible,
fdBodyPeek,
fdBodyStructure, //The [MIME-IMB] body structure of the message. This
//is computed by the server by parsing the [MIME-IMB]
//header fields in the [RFC-822] header and [MIME-IMB] headers.
fdEnvelope, //The envelope structure of the message. This is
//computed by the server by parsing the [RFC-822]
//header into the component parts, defaulting various
//fields as necessary.
fdFast, //Macro equivalent to: (FLAGS INTERNALDATE RFC822.SIZE)
fdFlags, //The flags that are set for this message.
fdFull, //Macro equivalent to: (FLAGS INTERNALDATE RFC822.SIZE ENVELOPE BODY)
fdInternalDate, //The internal date of the message.
fdRFC822, //Functionally equivalent to BODY[], differing in the
//syntax of the resulting untagged FETCH data (RFC822
//is returned).
fdRFC822Header, //Functionally equivalent to BODY.PEEK[HEADER],
//differing in the syntax of the resulting untagged
//FETCH data (RFC822.HEADER is returned).
fdRFC822Size, //The [RFC-822] size of the message.
fdRFC822Text, //Functionally equivalent to BODY[TEXT], differing in
//the syntax of the resulting untagged FETCH data
//(RFC822.TEXT is returned).
fdHeader, //CC: Added to get the header of a part
fdUID, //The unique identifier for the message.
fdGmailMsgID, //Gmail-specific unique identifier for the message.
fdGmailThreadID, //Gmail-specific thread identifier for the message.
fdGmailLabels //Gmail-specific labels for the message.
);
const
IMAP4Commands : array [TIdIMAP4Commands] of String = (
{ Client Commands - Any State}
'CAPABILITY', {Do not Localize}
'NOOP', {Do not Localize}
'LOGOUT', {Do not Localize}
{ Client Commands - Non Authenticated State}
'AUTHENTICATE', {Do not Localize}
'LOGIN', {Do not Localize}
{ Client Commands - Authenticated State}
'SELECT', {Do not Localize}
'EXAMINE', {Do not Localize}
'CREATE', {Do not Localize}
'DELETE', {Do not Localize}
'RENAME', {Do not Localize}
'SUBSCRIBE', {Do not Localize}
'UNSUBSCRIBE', {Do not Localize}
'LIST', {Do not Localize}
'LSUB', {Do not Localize}
'STATUS', {Do not Localize}
'APPEND', {Do not Localize}
{ Client Commands - Selected State}
'CHECK', {Do not Localize}
'CLOSE', {Do not Localize}
'EXPUNGE', {Do not Localize}
'SEARCH', {Do not Localize}
'FETCH', {Do not Localize}
'STORE', {Do not Localize}
'COPY', {Do not Localize}
'UID', {Do not Localize}
{ Client Commands - Experimental/ Expansion}
'X' {Do not Localize}
);
IMAP4FetchDataItem : array [TIdIMAP4FetchDataItem] of String = (
'ALL', {Do not Localize} //Macro equivalent to: (FLAGS INTERNALDATE RFC822.SIZE ENVELOPE)
'BODY', {Do not Localize} //Non-extensible form of BODYSTRUCTURE.
'BODY[%s]<%s>', {Do not Localize}
'BODY.PEEK[]', {Do not Localize}
'BODYSTRUCTURE', {Do not Localize} //The [MIME-IMB] body structure of the message. This
//is computed by the server by parsing the [MIME-IMB]
//header fields in the [RFC-822] header and [MIME-IMB] headers.
'ENVELOPE', {Do not Localize} //The envelope structure of the message. This is
//computed by the server by parsing the [RFC-822]
//header into the component parts, defaulting various
//fields as necessary.
'FAST', {Do not Localize} //Macro equivalent to: (FLAGS INTERNALDATE RFC822.SIZE)
'FLAGS', {Do not Localize} //The flags that are set for this message.
'FULL', {Do not Localize} //Macro equivalent to: (FLAGS INTERNALDATE RFC822.SIZE ENVELOPE BODY)
'INTERNALDATE', {Do not Localize} //The internal date of the message.
'RFC822', {Do not Localize} //Functionally equivalent to BODY[], differing in the
//syntax of the resulting untagged FETCH data (RFC822
//is returned).
'RFC822.HEADER', {Do not Localize} //Functionally equivalent to BODY.PEEK[HEADER],
//differing in the syntax of the resulting untagged
//FETCH data (RFC822.HEADER is returned).
'RFC822.SIZE', {Do not Localize} //The [RFC-822] size of the message.
'RFC822.TEXT', {Do not Localize} //Functionally equivalent to BODY[TEXT], differing in
//the syntax of the resulting untagged FETCH data
//(RFC822.TEXT is returned).
'HEADER', {Do not Localize} //CC: Added to get the header of a part
'UID', {Do not Localize} //The unique identifier for the message.
'X-GM-MSGID', {Do not Localize} //Gmail-specific unique identifier for the message.
'X-GM-THRID', {Do not Localize} //Gmail-specific thread identifier for the message.
'X-GM-LABELS' {Do not Localize} //Gmail-specific labels for the message.
);
IMAP4SearchKeys : array [TIdIMAP4SearchKey] of String = (
'ALL', {Do not Localize} //All messages in the mailbox; the default initial key for ANDing.
'ANSWERED', {Do not Localize} //Messages with the \Answered flag set.
'BCC', {Do not Localize} //Messages that contain the specified string in the envelope structure's BCC field.
'BEFORE', {Do not Localize} //Messages whose internal date is earlier than the specified date.
'BODY', {Do not Localize} //Messages that contain the specified string in the body of the message.
'CC', {Do not Localize} //Messages that contain the specified string in the envelope structure's CC field.
'DELETED', {Do not Localize} //Messages with the \Deleted flag set.
'DRAFT', {Do not Localize} //Messages with the \Draft flag set.
'FLAGGED', {Do not Localize} //Messages with the \Flagged flag set.
'FROM', {Do not Localize} //Messages that contain the specified string in the envelope structure's FROM field.
'HEADER', {Do not Localize} //Messages that have a header with the specified field-name (as defined in [RFC-822])
//and that contains the specified string in the [RFC-822] field-body.
'KEYWORD', {Do not Localize} //Messages with the specified keyword set.
'LARGER', {Do not Localize} //Messages with an [RFC-822] size larger than the specified number of octets.
'NEW', {Do not Localize} //Messages that have the \Recent flag set but not the \Seen flag.
//This is functionally equivalent to "(RECENT UNSEEN)".
'NOT', {Do not Localize} //Messages that do not match the specified search key.
'OLD', {Do not Localize} //Messages that do not have the \Recent flag set. This is functionally
//equivalent to "NOT RECENT" (as opposed to "NOT NEW").
'ON', {Do not Localize} //Messages whose internal date is within the specified date.
'OR', {Do not Localize} //Messages that match either search key.
'RECENT', {Do not Localize} //Messages that have the \Recent flag set.
'SEEN', {Do not Localize} //Messages that have the \Seen flag set.
'SENTBEFORE',{Do not Localize} //Messages whose [RFC-822] Date: header is earlier than the specified date.
'SENTON', {Do not Localize} //Messages whose [RFC-822] Date: header is within the specified date.
'SENTSINCE', {Do not Localize} //Messages whose [RFC-822] Date: header is within or later than the specified date.
'SINCE', {Do not Localize} //Messages whose internal date is within or later than the specified date.
'SMALLER', {Do not Localize} //Messages with an [RFC-822] size smaller than the specified number of octets.
'SUBJECT', {Do not Localize} //Messages that contain the specified string in the envelope structure's SUBJECT field.
'TEXT', {Do not Localize} //Messages that contain the specified string in the header or body of the message.
'TO', {Do not Localize} //Messages that contain the specified string in the envelope structure's TO field.
'UID', {Do not Localize} //Messages with unique identifiers corresponding to the specified unique identifier set.
'UNANSWERED',{Do not Localize} //Messages that do not have the \Answered flag set.
'UNDELETED', {Do not Localize} //Messages that do not have the \Deleted flag set.
'UNDRAFT', {Do not Localize} //Messages that do not have the \Draft flag set.
'UNFLAGGED', {Do not Localize} //Messages that do not have the \Flagged flag set.
'UNKEYWORD', {Do not Localize} //Messages that do not have the specified keyword set.
'UNSEEN', {Do not Localize}
'X-GM-RAW', {Do not Localize} //Gmail extension to SEARCH command to allow full access to Gmail search syntax
'X-GM-MSGID',{Do not Localize} //Gmail extension to SEARCH command to allow access to Gmail message identifier
'X-GM-THRID',{Do not Localize} //Gmail extension to SEARCH command to allow access to Gmail thread identifier
'X-GM-LABELS'{Do not Localize} //Gmail extension to SEARCH command to allow access to Gmail labels
);
IMAP4StoreDataItem : array [TIdIMAP4StoreDataItem] of String = (
'FLAGS', {Do not Localize}
'FLAGS.SILENT', {Do not Localize}
'+FLAGS', {Do not Localize}
'+FLAGS.SILENT', {Do not Localize}
'-FLAGS', {Do not Localize}
'-FLAGS.SILENT' {Do not Localize}
);
IMAP4StatusDataItem : array [TIdIMAP4StatusDataItem] of String = (
'MESSAGES', {Do not Localize}
'RECENT', {Do not Localize}
'UIDNEXT', {Do not Localize}
'UIDVALIDITY', {Do not Localize}
'UNSEEN' {Do not Localize}
);
function IMAPQuotedStr(const S: String): String;
begin
Result := '"' + StringsReplace(S, ['\', '"'], ['\\', '\"']) + '"'; {Do not Localize}
end;
{ TIdSASLEntriesIMAP4 }
// RLebeau 2/8/2013 - TIdSASLEntries.LoginSASL() uses TIdTCPConnection.SendCmd()
// but TIdIMAP4 does not override the necessary virtuals to make that SendCmd()
// work correctly with IMAP. TIdIMAP reintroduces its own SendCmd() implementation,
// which TIdSASLEntries does not call. Until that can be changed, we will have
// to send the IMAP 'AUTHENTICATE' command manually! Doing it this way so as
// not to introduce an interface change that breaks backwards compatibility...
function CheckStrFail(const AStr : String; const AOk, ACont: array of string) : Boolean;
begin
Result := (PosInStrArray(AStr, AOk) = -1) and (PosInStrArray(AStr, ACont) = -1);
end;
function PerformSASLLogin_IMAP(ASASL: TIdSASL; AEncoder: TIdEncoder;
ADecoder: TIdDecoder; AClient : TIdIMAP4): Boolean;
const
AOkReplies: array[0..0] of string = (IMAP_OK);
AContinueReplies: array[0..0] of string = (IMAP_CONT);
var
S: String;
AuthStarted: Boolean;
begin
Result := False;
AuthStarted := False;
if AClient.IsCapabilityListed('SASL-IR') then begin {Do not localize}
if ASASL.TryStartAuthenticate(AClient.Host, IdGSKSSN_imap, S) then begin
AClient.SendCmd(AClient.NewCmdCounter, 'AUTHENTICATE ' + String(ASASL.ServiceName) + ' ' + AEncoder.Encode(S), [], True); {Do not Localize}
if CheckStrFail(AClient.LastCmdResult.Code, AOkReplies, AContinueReplies) then begin
ASASL.FinishAuthenticate;
Exit; // this mechanism is not supported
end;
AuthStarted := True;
end;
end;
if not AuthStarted then begin
AClient.SendCmd(AClient.NewCmdCounter, 'AUTHENTICATE ' + String(ASASL.ServiceName), [], True); {Do not Localize}
if CheckStrFail(AClient.LastCmdResult.Code, AOkReplies, AContinueReplies) then begin
Exit; // this mechanism is not supported
end;
end;
if (PosInStrArray(AClient.LastCmdResult.Code, AOkReplies) > -1) then begin
if AuthStarted then begin
ASASL.FinishAuthenticate;
end;
Result := True;
Exit; // we've authenticated successfully :)
end;
// must be a continue reply...
if not AuthStarted then begin
S := ADecoder.DecodeString(TrimRight(TIdReplyIMAP4(AClient.LastCmdResult).Extra.Text));
S := ASASL.StartAuthenticate(S, AClient.Host, IdGSKSSN_imap);
AClient.IOHandler.WriteLn(AEncoder.Encode(S));
AClient.GetInternalResponse(AClient.LastCmdCounter, [], True);
if CheckStrFail(AClient.LastCmdResult.Code, AOkReplies, AContinueReplies) then
begin
ASASL.FinishAuthenticate;
Exit;
end;
end;
while PosInStrArray(AClient.LastCmdResult.Code, AContinueReplies) > -1 do begin
S := ADecoder.DecodeString(TrimRight(TIdReplyIMAP4(AClient.LastCmdResult).Extra.Text));
S := ASASL.ContinueAuthenticate(S, AClient.Host, IdGSKSSN_imap);
AClient.IOHandler.WriteLn(AEncoder.Encode(S));
AClient.GetInternalResponse(AClient.LastCmdCounter, [], True);
if CheckStrFail(AClient.LastCmdResult.Code, AOkReplies, AContinueReplies) then
begin
ASASL.FinishAuthenticate;
Exit;
end;
end;
Result := (PosInStrArray(AClient.LastCmdResult.Code, AOkReplies) > -1);
ASASL.FinishAuthenticate;
end;
type
{$IFDEF HAS_GENERICS_TList}
TIdSASLList = TList<TIdSASL>;
{$ELSE}
// TODO: flesh out to match TList<TIdSASL> for non-Generics compilers
TIdSASLList = TList;
{$ENDIF}
TIdSASLEntriesIMAP4 = class(TIdSASLEntries)
public
procedure LoginSASL_IMAP(AClient: TIdIMAP4);
end;
procedure TIdSASLEntriesIMAP4.LoginSASL_IMAP(AClient: TIdIMAP4);
var
i : Integer;
LE : TIdEncoderMIME;
LD : TIdDecoderMIME;
LSupportedSASL : TStrings;
LSASLList: TIdSASLList;
LSASL : TIdSASL;
LError : TIdReply;
function SetupErrorReply: TIdReply;
begin
Result := TIdReplyClass(AClient.LastCmdResult.ClassType).Create(nil);
Result.Assign(AClient.LastCmdResult);
end;
begin
// make sure the collection is not empty
CheckIfEmpty;
//create a list of mechanisms that both parties support
LSASLList := TIdSASLList.Create;
try
LSupportedSASL := TStringList.Create;
try
ParseCapaReplyToList(AClient.FCapabilities, LSupportedSASL, 'AUTH'); {Do not Localize}
for i := Count-1 downto 0 do begin
LSASL := Items[i].SASL;
if LSASL <> nil then begin
if not LSASL.IsAuthProtocolAvailable(LSupportedSASL) then begin
Continue;
end;
if LSASLList.IndexOf(LSASL) = -1 then begin
LSASLList.Add(LSASL);
end;
end;
end;
finally
FreeAndNil(LSupportedSASL);
end;
if LSASLList.Count = 0 then begin
raise EIdSASLNotSupported.Create(RSSASLNotSupported);
end;
//now do it
LE := nil;
try
LD := nil;
try
LError := nil;
try
for i := 0 to LSASLList.Count-1 do begin
LSASL := {$IFDEF HAS_GENERICS_TList}LSASLList.Items[i]{$ELSE}TIdSASL(LSASLList.Items[i]){$ENDIF};
if not LSASL.IsReadyToStart then begin
Continue;
end;
if not Assigned(LE) then begin
LE := TIdEncoderMIME.Create(nil);
end;
if not Assigned(LD) then begin
LD := TIdDecoderMIME.Create(nil);
end;
if PerformSASLLogin_IMAP(LSASL, LE, LD, AClient) then begin
Exit;
end;
if not Assigned(LError) then begin
LError := SetupErrorReply;
end;
end;
if Assigned(LError) then begin
LError.RaiseReplyError;
end else begin
raise EIdSASLNotReady.Create(RSSASLNotReady);
end;
finally
FreeAndNil(LError);
end;
finally
FreeAndNil(LD);
end;
finally
FreeAndNil(LE);
end;
finally
FreeAndNil(LSASLList);
end;
end;
{ TIdIMAP4WorkHelper }
type
TIdIMAP4WorkHelper = class(TIdComponent)
protected
fIMAP4: TIdIMAP4;
fOldTarget: TIdComponent;
public
constructor Create(AIMAP4: TIdIMAP4); reintroduce;
destructor Destroy; override;
end;
constructor TIdIMAP4WorkHelper.Create(AIMAP4: TIdIMAP4);
begin
inherited Create(nil);
fIMAP4 := AIMAP4;
fOldTarget := fIMAP4.WorkTarget;
fIMAP4.WorkTarget := Self;
Self.OnWorkBegin := fIMAP4.BeginWorkForPart;
Self.OnWork := fIMAP4.DoWorkForPart;
Self.OnWorkEnd := fIMAP4.EndWorkForPart;
end;
destructor TIdIMAP4WorkHelper.Destroy;
begin
fIMAP4.WorkTarget := fOldTarget;
inherited Destroy;
end;
{ TIdEMUTF7 }
const
b64Chars : String =
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+,'; {Do not Localize}
b64Index : array [0..127] of Integer = (
-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, // 16
-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, // 32
-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,62,63,-1,-1,-1, // 48
52,53,54,55,56,57,58,59,60,61,-1,-1,-1,-1,-1,-1, // 64
-1,00,01,02,03,04,05,06,07,08,09,10,11,12,13,14, // 80
15,16,17,18,19,20,21,22,23,24,25,-1,-1,-1,-1,-1, // 96
-1,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40, // 112
41,42,43,44,45,46,47,48,49,50,51,-1,-1,-1,-1,-1 // 128
);
b64Table : array[0..127] of Integer = (
$FF,$FF,$FF,$FF, $FF,$FF,$FF,$FF, $FF,$FF,$FF,$FF, $FF,$FF,$FF,$FF, // 16
$FF,$FF,$FF,$FF, $FF,$FF,$FF,$FF, $FF,$FF,$FF,$FF, $FF,$FF,$FF,$FF, // 32
$20,$21,$22,$23, $24,$25,$FF,$27, $28,$29,$2A,$2B, $2C,$2D,$2E,$2F, // 48
$30,$31,$32,$33, $34,$35,$36,$37, $38,$39,$3A,$3B, $3C,$3D,$3E,$3F, // 64
$40,$41,$42,$43, $44,$45,$46,$47, $48,$49,$4A,$4B, $4C,$4D,$4E,$4F, // 80
$50,$51,$52,$53, $54,$55,$56,$57, $58,$59,$5A,$5B, $5C,$5D,$5E,$5F, // 96
$60,$61,$62,$63, $64,$65,$66,$67, $68,$69,$6A,$6B, $6C,$6D,$6E,$6F, // 112
$70,$71,$72,$73, $74,$75,$76,$77, $78,$79,$7A,$7B, $7C,$7D,$7E,$FF);// 128
// TODO: re-write this to derive from IdCoder3To4.pas or IdCoderMIME.pas classes...
function TIdMUTF7.Encode(const aString: TIdUnicodeString): String;
{ -- MUTF7Encode -------------------------------------------------------------
PRE: nothing
POST: returns a string encoded as described in IETF RFC 3501, section 5.1.3
based upon RFC 2152
2004-03-02 roman puls: speed improvements of around 2000 percent due to
replacement of pchar/while loops to delphi-style string/for
loops. Minor changes for '&' handling. Delphi 8 compatible.
2004-02-29 roman puls: initial version ---}
var
c : Word;
bitBuf : UInt32;
bitShift : Integer;
x : Integer;
escaped : Boolean;
CharToAppend: Char;
{$IFDEF STRING_IS_IMMUTABLE}
LSB: TIdStringBuilder;
{$ENDIF}
begin
Result := '';
escaped := False;
bitShift := 0;
bitBuf := 0;
{$IFDEF STRING_IS_IMMUTABLE}
LSB := TIdStringBuilder.Create;
{$ENDIF}
for x := 1 to Length(aString) do begin
c := Word(aString[x]);
// c must be < 128 _and_ in table b64table
if (c <= $7f) and (b64Table[c] <> $FF) or (aString[x] = '&') then begin // we can directly encode that char
if escaped then begin
if (bitShift > 0) then begin // flush bitbuffer if needed
CharToAppend := b64Chars[(bitBuf shl (6 - bitShift) and $3F) + 1];
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(CharToAppend);
{$ELSE}
Result := Result + CharToAppend;
{$ENDIF}
end;
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(Char('-')); // leave escape sequence
{$ELSE}
Result := Result + '-'; // leave escape sequence
{$ENDIF}
escaped := False;
end;
if (aString[x] = '&') then begin // escape special char "&"
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append('&-');
{$ELSE}
Result := Result + '&-';
{$ENDIF}
end else begin
CharToAppend := Char(c);
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(CharToAppend); // store direct translated char
{$ELSE}
Result := Result + CharToAppend; // store direct translated char
{$ENDIF}
end;
end else begin
if not escaped then begin
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(Char('&'));
{$ELSE}
Result := Result + '&';
{$ENDIF}
bitShift := 0;
bitBuf := 0;
escaped := True;
end;
bitbuf := (bitBuf shl 16) or c; // shift and store new bye
Inc(bitShift, 16);
while (bitShift >= 6) do begin // flush buffer as far as we can
Dec(bitShift, 6);
CharToAppend := b64Chars[((bitBuf shr bitShift) and $3F) + 1];
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(CharToAppend);
{$ELSE}
Result := Result + CharToAppend;
{$ENDIF}
end;
end;
end;
// we love duplicate work but must test for flush buffers for the price
// of speed (loop)
if escaped then begin
if (bitShift > 0) then begin
CharToAppend := b64Chars[(bitBuf shl (6 - bitShift) and $3F) + 1];
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(CharToAppend);
{$ELSE}
Result := Result + CharToAppend;
{$ENDIF}
end;
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(Char('-'));
{$ELSE}
Result := Result + '-';
{$ENDIF}
end;
{$IFDEF STRING_IS_IMMUTABLE}
Result := LSB.ToString;
{$ENDIF}
end;
function TIdMUTF7.Decode(const aString: String): TIdUnicodeString;
{ -- mUTF7Decode -------------------------------------------------------------
PRE: aString encoding must conform to IETF RFC 3501, section 5.1.3
POST: SUCCESS: an 8bit string
FAILURE: an exception of type EMUTF7Decode
2004-03-02 roman puls: speed improvements of around 400 percent due to
replacement of pchar/while loops to delphi-style string/for
loops. Delphi 8 compatible.
2004-02-29 roman puls: initial version ---}
const
bitMasks: array[0..4] of UInt32 = ($00000000, $00000001, $00000003, $00000007, $0000000F);
var
ch : Byte;
last : Char;
bitBuf : UInt32;
escaped : Boolean;
x, bitShift: Integer;
CharToAppend: WideChar;
{$IFDEF STRING_IS_IMMUTABLE}
LSB: TIdStringBuilder;
{$ENDIF}
begin
Result := '';
escaped := False;
bitShift := 0;
last := #0;
bitBuf := 0;
{$IFDEF STRING_IS_IMMUTABLE}
LSB := TIdStringBuilder.Create;
{$ENDIF}
for x := 1 to Length(aString) do begin
ch := Byte(aString[x]);
if not escaped then begin
if (aString[x] = '&') then begin // escape sequence found
escaped := True;
bitBuf := 0;
bitShift := 0;
last := '&';
end
else if (ch < $80) and (b64Table[ch] <> $FF) then begin
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(WideChar(ch));
{$ELSE}
Result := Result + WideChar(ch);
{$ENDIF}
end else begin
raise EMUTF7Decode.CreateFmt('Illegal char #%d in UTF7 sequence.', [ch]); {do not localize}
end;
end else begin // we're escaped
{ break out of escape mode }
if (aString[x] = '-') then begin
// extra check for pending bits
if (last = '&') then begin // special sequence '&-' ?
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(Char('&'));
{$ELSE}
Result := Result + '&';
{$ENDIF}
end else begin
if (bitShift >= 16) then begin
Dec(bitShift, 16);
CharToAppend := WideChar((bitBuf shr bitShift) and $FFFF);
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(CharToAppend);
{$ELSE}
Result := Result + CharToAppend;
{$ENDIF}
end;
if (bitShift > 4) or ((bitBuf and bitMasks[bitShift]) <> 0) then begin // check for bitboundaries
raise EMUTF7Decode.Create('Illegal bit sequence in MUTF7 string'); {do not localize}
end;
end;
escaped := False;
end else begin // still escaped
// check range for ch: must be < 128 and in b64table
if (ch >= $80) or (b64Index[ch] = -1) then begin
raise EMUTF7Decode.CreateFmt('Illegal char #%d in UTF7 sequence.', [ch]); {do not localize}
end;
ch := b64Index[ch];
bitBuf := (bitBuf shl 6) or (ch and $3F);
Inc(bitShift, 6);
if (bitShift >= 16) then begin
Dec(bitShift, 16);
CharToAppend := WideChar((bitBuf shr bitShift) and $FFFF);
{$IFDEF STRING_IS_IMMUTABLE}
LSB.Append(CharToAppend);
{$ELSE}
Result := Result + CharToAppend;
{$ENDIF}
end;
end;
last := #0;
end;
end;
if escaped then begin
raise EmUTF7Decode.Create('Missing unescape in UTF7 sequence.'); {do not localize}
end;
{$IFDEF STRING_IS_IMMUTABLE}
Result := LSB.ToString;
{$ENDIF}
end;
function TIdMUTF7.Valid(const aMUTF7String : String): Boolean;
{ -- mUTF7valid -------------------------------------------------------------
PRE: NIL
POST: returns true if string is correctly encoded (as described in mUTF7Encode)
returns false otherwise
}
begin
try
Result := (aMUTF7String = {mUTF7}Encode({mUTF7}Decode(aMUTF7String)));
except
on e: EmUTF7Error do begin
Result := False;
end;
// do not handle others
end;
end;
function TIdMUTF7.Append(const aMUTF7String: String; const aStr : TIdUnicodeString): String;
{ -- mUTF7Append -------------------------------------------------------------
PRE: aMUTF7String is complying to mUTF7Encode's description
POST: SUCCESS: a concatenation of both input strings in mUTF
FAILURE: an exception of EMUTF7Decode or EMUTF7Encode will be raised
}
begin
Result := {mUTF7}Encode({mUTF7}Decode(aMUTF7String) + aStr);
end;
{ TIdImapMessageParts }
constructor TIdImapMessagePart.Create(Collection: TCollection);
begin
{Make sure these are initialised properly...}
inherited Create(Collection);
FParentPart := -1;
FBoundary := ''; {Do not Localize}
end;
constructor TIdImapMessageParts.Create(AOwner: TPersistent);
begin
inherited Create(AOwner, TIdImapMessagePart);
end;
function TIdImapMessageParts.GetItem(Index: Integer): TIdImapMessagePart;
begin
Result := TIdImapMessagePart(inherited GetItem(Index));
end;
function TIdImapMessageParts.Add: TIdImapMessagePart;
begin
Result := TIdImapMessagePart(inherited Add);
end;
procedure TIdImapMessageParts.SetItem(Index: Integer; const Value: TIdImapMessagePart);
begin
inherited SetItem(Index, Value);
end;
{ TIdIMAP4 }
procedure TIdIMAP4.BeginWorkForPart(ASender: TObject; AWorkMode: TWorkMode; AWorkCountMax: Int64);
begin
if Assigned(FOnWorkBeginForPart) then begin
FOnWorkBeginForPart(Self, AWorkMode, AWorkCountMax);
end;
end;
procedure TIdIMAP4.DoWorkForPart(ASender: TObject; AWorkMode: TWorkMode; AWorkCount: Int64);
begin
if Assigned(FOnWorkForPart) then begin
FOnWorkForPart(Self, AWorkMode, AWorkCount);
end;
end;
procedure TIdIMAP4.EndWorkForPart(ASender: TObject; AWorkMode: TWorkMode);
begin
if Assigned(FOnWorkEndForPart) then begin
FOnWorkEndForPart(Self, AWorkMode);
end;
end;
//The following call FMUTF7 but do exception-handling on invalid strings...
function TIdIMAP4.DoMUTFEncode(const aString : String): String;
begin
// TODO: if the server advertises the "UTF8=ACCEPT" capability, use
// a UTF-8 quoted string instead of IMAP's Modified UTF-7...
try
Result := FMUTF7.Encode(
{$IFDEF STRING_IS_UNICODE}
aString
{$ELSE}
TIdUnicodeString(aString) // explicit convert to Unicode
{$ENDIF}
);
except
Result := aString;
end;
end;
function TIdIMAP4.DoMUTFDecode(const aString : String): String;
begin
try
{$IFDEF STRING_IS_UNICODE}
Result := FMUTF7.Decode(aString);
{$ELSE}
Result := String(FMUTF7.Decode(aString)); // explicit convert to Ansi
{$ENDIF}
except
Result := aString;
end;
end;
function TIdIMAP4.GetReplyClass:TIdReplyClass;
begin
Result := TIdReplyIMAP4;
end;
function TIdIMAP4.GetSupportsTLS: Boolean;
begin
Result := IsCapabilityListed('STARTTLS'); //do not localize
end;
function TIdIMAP4.CheckConnectionState(AAllowedState: TIdIMAP4ConnectionState): TIdIMAP4ConnectionState;
begin
Result := CheckConnectionState([AAllowedState]);
end;
function TIdIMAP4.CheckConnectionState(const AAllowedStates: array of TIdIMAP4ConnectionState): TIdIMAP4ConnectionState;
var
i: integer;
begin
if High(AAllowedStates) > -1 then begin
for i := Low(AAllowedStates) to High(AAllowedStates) do begin
if FConnectionState = AAllowedStates[i] then begin
Result := FConnectionState;
Exit;
end;
end;
end;
raise EIdConnectionStateError.CreateFmt(RSIMAP4ConnectionStateError, [GetConnectionStateName]);
end;
function TIdIMAP4.CheckReplyForCapabilities: Boolean;
var
I: Integer;
LExtra: TStrings;
begin
FCapabilities.Clear;
FHasCapa := False;
LExtra := TIdReplyIMAP4(FLastCmdResult).Extra;
for I := 0 to LExtra.Count-1 do begin
if TextStartsWith(LExtra.Strings[I], 'CAPABILITY ') then begin {Do not Localize}
BreakApart(LExtra.Strings[I], ' ', FCapabilities); {Do not Localize}
// RLebeau: do not delete the first item anymore! It specifies the IMAP
// version/revision, which is needed to support certain extensions, like
// 'IMAP4rev1'...
{FCapabilities.Delete(0);}
FHasCapa := True;
Break;
end;
end;
Result := FHasCapa;
end;
function TIdIMAP4.FindHowServerCreatesFolders: TIdIMAP4FolderTreatment;
var
LUsersFolders: TStringList;
LN: integer;
LInbox: string;
LTestFolder: string;
begin
LUsersFolders := TStringList.Create;
try
{$IFDEF HAS_TStringList_CaseSensitive}
LUsersFolders.CaseSensitive := False;
{$ENDIF}
//Get folder names...
if (not ListMailBoxes(LUsersFolders)) or (LUsersFolders.Count = 0) then begin
Result := ftCannotRetrieveAnyFolders;
Exit;
end;
//Do we have an Inbox?
LN := IndyIndexOf(LUsersFolders, 'INBOX'); {Do not Localize}
if LN = -1 then begin
Result := ftCannotTestBecauseHasNoInbox;
Exit;
end;
LInbox := LUsersFolders.Strings[LN];
//Make sure our test folder does not already exist at the top level...
LTestFolder := 'CiaransTestFolder'; {Do not Localize}
while IndyIndexOf(LUsersFolders, LTestFolder) <> -1 do begin
LTestFolder := LTestFolder + '9'; {Do not Localize}
end;
//Try to create LTestFolder at the top level...
if CreateMailbox(LTestFolder) then begin
//We were able to create it at the top level - delete it and exit..
DeleteMailbox(LTestFolder);
Result := ftAllowsTopLevelCreation;
Exit;
end;
//See if our test folder does not exist under INBOX...
LTestFolder := LInbox + FMailBoxSeparator + 'CiaransTestFolder'; {Do not Localize}
while IndyIndexOf(LUsersFolders, LTestFolder) <> -1 do begin
LTestFolder := LTestFolder + '9'; {Do not Localize}
end;
//Try to create LTestFolder under Inbox...
if CreateMailbox(LTestFolder) then begin
//We were able to create it under the top level - delete it and exit..
DeleteMailbox(LTestFolder);
Result := ftFoldersMustBeUnderInbox;
Exit;
end;
//It does not allow us create folders under any level (read-only?)...
Result := ftDoesNotAllowFolderCreation;
finally
FreeAndNil(LUsersFolders);
end;
end;
function TIdIMAP4.IsNumberValid(const ANumber: Integer): Boolean;
{CC3: Need to validate message numbers (relative and UIDs), because otherwise
the routines wait for a response that never arrives and so functions never return.}
begin
if ANumber < 1 then begin
raise EIdNumberInvalid.Create(RSIMAP4NumberInvalid);
end;
Result := True;
end;
function TIdIMAP4.IsUIDValid(const AUID: string): Boolean;
{CC3: Need to validate message numbers (relative and UIDs), because otherwise
the routines wait for a response that never arrives and so functions never return.}
begin
//Must be digits only (no - or .)
IsItDigitsAndOptionallyPeriod(AUID, False);
Result := IsNumberValid(IndyStrToInt(AUID));
end;
function TIdIMAP4.IsImapPartNumberValid(const AUID: string): Boolean;
{CC3: IMAP part numbers are 3 or 4.5 etc, i.e. digits or period allowed}
begin
Result := IsItDigitsAndOptionallyPeriod(AUID, True);
end;
function TIdIMAP4.IsItDigitsAndOptionallyPeriod(const AStr: string; AAllowPeriod: Boolean): Boolean;
var
LN: integer;
begin
if Length(AStr) = 0 then begin
raise EIdNumberInvalid.Create(RSIMAP4NumberInvalid);
end;
for LN := 1 to Length(AStr) do begin
if not IsNumeric(AStr[LN]) then begin
if (not AAllowPeriod) or (AStr[LN] <> '.') then begin {Do not Localize}
raise EIdNumberInvalid.Create(RSIMAP4NumberInvalid);
end;
end;
end;
Result := True;
end;
function TIdIMAP4.GetUID(const AMsgNum: Integer; var AUID: string): Boolean;
{This gets the message UID from the message relative number.}
begin
Result := False;
AUID := ''; {Do not Localize}
IsNumberValid(AMsgNum);
CheckConnectionState(csSelected);
{Some servers return NO if the requested message number is not present
(e.g. Cyrus), others return OK but no data (CommuniGate).}
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' (' + IMAP4FetchDataItem[fdUID] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
//Might as well leave 3rd param as [] because ParseLastCmdResult always grabs the UID...
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], []) then begin
AUID := FLineStruct.UID;
Result := True;
end;
end;
end;
end;
{$I IdDeprecatedImplBugOff.inc}
procedure TIdIMAP4.WriteLn(const AOut: string = '');
{$I IdDeprecatedImplBugOn.inc}
begin
IOHandler.WriteLn(AOut);
end;
{$I IdDeprecatedImplBugOff.inc}
function TIdIMAP4.ReadLnWait: string;
{$I IdDeprecatedImplBugOn.inc}
begin
Result := IOHandler.ReadLnWait; {This can have hit an exception of Connection Reset By Peer (timeout)}
end;
{ IdTCPConnection Commands... }
function TIdIMAP4.GetInternalResponse(const ATag: String; AExpectedResponses: array of String;
ASingleLineMode: Boolean; ASingleLineMayBeSplit: Boolean {= True}): string;
{ASingleLineMode is True if the caller just wants the FIRST line of the response,
e.g., he may be looking only for "* FETCH (blah blah)", because he needs to parse
that line to figure out how the rest will follow. This arises with a number of the
FETCH commands where the caller needs to get the byte-count from the first line
before he can retrieve the rest of the response.
Note "FETCH" would have to be in AExpectedResponses.
When False, the caller wants everything up to and including the reply terminator
(e.g. "C45 OK Completed").
In ASingleLineMode, we ignore any lines that dont have one of AExpectedResponses
at the start, otherwise we add all lines to .Text and later strip out any lines that
dont have one of AExpectedResponses at the start.
ASingleLineMayBeSplit (which should only be used with ASingleLineMode = True) deals
with the case where the server cannot or does not fit a single-line
response onto one line. This arises when FETCHing the BODYSTRUCTURE, which can
be very long. The server (Courier, anyway) signals it by adding a byte-count to
the end of the first line, that would not normally be present.}
//For example, for normal short responses, the server would send:
// * FETCH (BODYSTRUCTURE (Part1 Part2))
//but if it splits it, it sends:
// * FETCH (BODYSTRUCTURE (Part1 {7}
// Part2))
//The number in the curly brackets {7} is the byte count following the line break.
{WARNING: If you use ASingleLineMayBeSplit on a line that is EXPECTED to end
with a byte-count, the code will break, so don't use it unless absolutely
necessary.}
var
LLine: String;
LResponse: TStringList;
LWord: string;
LPos: integer;
LStrippedLineLength: Integer;
LGotALineWithAnExpectedResponse: Boolean;
LStrippedLine: string;
LSplitLine: string;
begin
LGotALineWithAnExpectedResponse := False;
LResponse := TStringList.Create;
try
repeat
LLine := IOHandler.ReadLnWait;
{CCB: Trap case of server telling you that you have been disconnected, usually because
you were inactive for too long (get "* BYE idle time too long"). }
if TextStartsWith(LLine, '* BYE') then begin {Do not Localize}
{If BYE is in AExpectedResponses, this means we are expecting to
disconnect, i.e. it is a LOGOUT.}
if PosInStrArray('BYE', AExpectedResponses) = -1 then begin {Do not Localize}
{We were not expecting a BYE response.
For the moment, throw an exception. Could modify this by adding a
ReconnectOnDisconnect property to automatically reconnect?}
FConnectionState := csUnexpectedlyDisconnected;
raise EIdDisconnectedProbablyIdledOut.Create(RSIMAP4DisconnectedProbablyIdledOut);
end;
end;
if ASingleLineMode then begin
//See if it may continue on the next line...
if ASingleLineMayBeSplit then begin
//If the line is split, it will have a byte-count field at the end...
if TextEndsWith(LLine, '}') then begin
//It is split.
LStrippedLine := LLine;
LLine := '';
repeat
//First, remove the byte count...
LPos := Length(LStrippedLine)-1;
while LPos >= 1 do begin
if LStrippedLine[LPos] = '{' then begin
Break;
end;
Dec(LPos);
end;
LWord := Copy(LStrippedLine, LPos+1, (Length(LStrippedLine)-LPos)-1);
if TextIsSame(LWord, 'NIL') then begin
LStrippedLineLength := 0;
end else begin
LStrippedLineLength := StrToInt(LWord);
end;
LStrippedLine := Copy(LStrippedLine, 1, LPos-1);
//The rest of the reply is on the following line...
LSplitLine := IOHandler.ReadString(LStrippedLineLength);
// At this point LSplitLine should be parsed and the following characters should be escaped... " CR LF.
LLine := LLine + LStrippedLine + LSplitLine;
LStrippedLine := IOHandler.ReadLn; //Cannot thrash LLine, need it later
until not TextEndsWith(LStrippedLine, '}');
LLine := LLine + LStrippedLine;
end;
end;
LStrippedLine := LLine;
if TextStartsWith(LLine, '* ') then begin {Do not Localize}
LStrippedLine := Copy(LLine, 3, MaxInt);
end;
LGotALineWithAnExpectedResponse := TIdReplyIMAP4(FLastCmdResult).DoesLineHaveExpectedResponse(LStrippedLine, AExpectedResponses);
if LGotALineWithAnExpectedResponse then begin
FLastCmdResult.Text.Clear;
TIdReplyIMAP4(FLastCmdResult).Extra.Clear;
FLastCmdResult.Text.Add(LStrippedLine);
end;
end else
begin
//If the line is split, it will have a byte-count field at the end...
if TextEndsWith(LLine, '}') then begin
LStrippedLine := LLine;
LLine := '';
repeat
//It is split.
//First, remove the byte count...
LPos := Length(LStrippedLine)-1;
while LPos >= 1 do begin
if LStrippedLine[LPos] = '{' then begin
Break;
end;
Dec(LPos);
end;
LWord := Copy(LStrippedLine, LPos+1, (Length(LStrippedLine)-LPos)-1);
if TextIsSame(LWord, 'NIL') then begin
LStrippedLineLength := 0;
end else begin
LStrippedLineLength := StrToInt(LWord);
end;
LStrippedLine := Copy(LStrippedLine, 1, LPos-1);
//The rest of the reply is on the following line...
LSplitLine := IOHandler.ReadString(LStrippedLineLength);
// At this point LSplitLine should be parsed and the following characters should be escaped... " CR LF.
LLine := LLine + LStrippedLine + LSplitLine;
LStrippedLine := IOHandler.ReadLn; //Cannot thrash LLine, need it later
until not TextEndsWith(LStrippedLine, '}');
LLine := LLine + LStrippedLine;
end;
end;
LResponse.Add(LLine);
//Need to get the 1st word on the line in case it is +, PREAUTH, etc...
LPos := Pos(' ', LLine); {Do not Localize}
if LPos <> 0 then begin
{There are at least two words on this line...}
LWord := Trim(Copy(LLine, 1, LPos-1));
end else begin
{No space, so this line is a single word. A bit weird, but it
could be just an OK...}
LWord := LLine; {A bit pedantic, but emphasises we have a word, not a line}
end;
until
TextStartsWith(LLine, ATag)
or (PosInStrArray(LWord, VALID_TAGGEDREPLIES) <> -1)
or LGotALineWithAnExpectedResponse;
if LGotALineWithAnExpectedResponse then begin
//This only arises if ASingleLineMode is True...
FLastCmdResult.Code := IMAP_OK;
end else begin
FLastCmdResult.FormattedReply := LResponse;
TIdReplyIMAP4(FLastCmdResult).RemoveUnsolicitedResponses(AExpectedResponses);
end;
Result := FLastCmdResult.Code;
finally
FreeAndNil(LResponse);
end;
end;
function TIdIMAP4.SendCmd(const AOut: string; AExpectedResponses: array of String;
ASingleLineMode: Boolean = False; ASingleLineMayBeSplit: Boolean = True): string;
begin
Result := SendCmd(NewCmdCounter, AOut, AExpectedResponses, ASingleLineMode, ASingleLineMayBeSplit);
end;
function TIdIMAP4.SendCmd(const ATag, AOut: string; AExpectedResponses: array of String;
ASingleLineMode: Boolean = False; ASingleLineMayBeSplit: Boolean = True): string;
var
LCmd: String;
begin
{CC3: Catch "Connection reset by peer"...}
try
if (AOut <> #0) then begin
//Remove anything that may be unprocessed from a previous (probably failed) command...
repeat
IOHandler.InputBuffer.Clear;
until not IOHandler.CheckForDataOnSource(MilliSecsToWaitToClearBuffer);
LCmd := ATag + ' ' + AOut;
CheckConnected;
PrepareCmd(LCmd);
IOHandler.WriteLn(LCmd);
end;
Result := GetInternalResponse(ATag, AExpectedResponses, ASingleLineMode, ASingleLineMayBeSplit);
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
{ ...IdTCPConnection Commands }
procedure TIdIMAP4.DoAlert(const AMsg: String);
begin
if Assigned(OnAlert) then begin
OnAlert(Self, AMsg);
end;
end;
procedure TIdIMAP4.SetMailBox(const Value: TIdMailBox);
begin
FMailBox.Assign(Value);
end;
procedure TIdIMAP4.SetSASLMechanisms(AValue: TIdSASLEntries);
begin
FSASLMechanisms.Assign(AValue);
end;
procedure TIdIMAP4.Login;
var
LIO: TIdSSLIOHandlerSocketBase;
begin
try
if (IOHandler is TIdSSLIOHandlerSocketBase) and (UseTLS in ExplicitTLSVals) then begin
LIO := TIdSSLIOHandlerSocketBase(IOHandler);
//we check passthrough because we can either be using TLS currently with
//implicit TLS support or because STARTLS was issued previously.
if LIO.PassThrough then begin
if SupportsTLS then begin
if SendCmd(NewCmdCounter, 'STARTTLS', []) = IMAP_OK then begin {Do not Localize}
TLSHandshake;
//obtain capabilities again - RFC2595
Capability;
end else begin
ProcessTLSNegCmdFailed;
end;
end else begin
ProcessTLSNotAvail;
end;
end;
end;
FConnectionState := csNonAuthenticated;
FCmdCounter := 0;
if FAuthType = iatUserPass then begin
if Length(Password) <> 0 then begin {Do not Localize}
SendCmd(NewCmdCounter, IMAP4Commands[cmdLogin] + ' ' + Username + ' ' + IMAPQuotedStr(Password), [IMAP_OK]); {Do not Localize}
end else begin
SendCmd(NewCmdCounter, IMAP4Commands[cmdLogin] + ' ' + Username, [IMAP_OK]); {Do not Localize}
end;
if LastCmdResult.Code <> IMAP_OK then begin
RaiseExceptionForLastCmdResult;
end;
end else
begin
if not FHasCapa then begin
Capability;
end;
// FSASLMechanisms.LoginSASL('AUTHENTICATE', FHost, IdGSKSSN_imap, [IMAP_OK], [IMAP_CONT], Self, FCapabilities, 'AUTH', IsCapabilityListed('SASL-IR')); {Do not Localize}
TIdSASLEntriesIMAP4(FSASLMechanisms).LoginSASL_IMAP(Self);
end;
FConnectionState := csAuthenticated;
// RLebeau: check if the response includes new Capabilities, if not then query for them...
if not CheckReplyForCapabilities then begin
Capability;
end;
except
Disconnect;
raise;
end;
end;
function TIdIMAP4.Connect(const AAutoLogin: Boolean = True): Boolean;
begin
{CC2: Need to set FConnectionState to csNonAuthenticated here. If not, then
an unsuccessful connect after a previous successful connect (such as when a
client program changes users) can leave it as csAuthenticated.}
FConnectionState := csNonAuthenticated;
try
{CC2: Don't call Connect if already connected, this could be just a change of user}
if not Connected then begin
inherited Connect;
GetResponse;
// if PosInStrArray(LastCmdResult.Code, [IMAP_OK, IMAP_PREAUTH]) = -1 then begin
{Should have got OK or PREAUTH in the greeting. Happened with some server,
may need further investigation and coding...}
// end;
{CC7: Save FGreetingBanner so the user can use it to determine what type of
server he is connected to...}
if LastCmdResult.Text.Count > 0 then begin
FGreetingBanner := LastCmdResult.Text[0];
end else begin
FGreetingBanner := '';
end;
if LastCmdResult.Code = IMAP_PREAUTH then begin
FConnectionState := csAuthenticated;
FCmdCounter := 0;
// RLebeau: check if the greeting includes initial Capabilities, if not then query for them...
if not CheckReplyForCapabilities then begin
Capability;
end;
end else begin
// RLebeau: check if the greeting includes initial Capabilities...
CheckReplyForCapabilities;
end;
end;
if AAutoLogin then begin
Login;
end;
except
Disconnect(False);
raise;
end;
Result := True;
end;
procedure TIdIMAP4.InitComponent;
begin
inherited InitComponent;
FMailBox := TIdMailBox.Create(Self);
//FSASLMechanisms := TIdSASLEntries.Create(Self);
FSASLMechanisms := TIdSASLEntriesIMAP4.Create(Self);
Port := IdPORT_IMAP4;
FLineStruct := TIdIMAPLineStruct.Create;
FCapabilities := TStringList.Create;
{$IFDEF HAS_TStringList_CaseSensitive}
TStringList(FCapabilities).CaseSensitive := False;
{$ENDIF}
FMUTF7 := TIdMUTF7.Create;
//Todo: Not sure which number is appropriate. Should be tested further.
FImplicitTLSProtPort := IdPORT_IMAP4S;
FRegularProtPort := IdPORT_IMAP4;
FMilliSecsToWaitToClearBuffer := IDF_DEFAULT_MS_TO_WAIT_TO_CLEAR_BUFFER;
FCmdCounter := 0;
FConnectionState := csNonAuthenticated;
FRetrieveOnSelect := rsDisabled;
{CC2: FMailBoxSeparator is now detected when a mailbox is selected, following
line is probably redundant, but leave it here as a default just in case.}
FMailBoxSeparator := '/'; {Do not Localize}
end;
procedure TIdIMAP4.Disconnect(ANotifyPeer: Boolean);
begin
try
inherited Disconnect(ANotifyPeer);
finally
FConnectionState := csNonAuthenticated;
FCapabilities.Clear;
end;
end;
procedure TIdIMAP4.DisconnectNotifyPeer;
begin
inherited DisconnectNotifyPeer;
//IMPORTANT: Logout must pass 'BYE' as the first
//element of the AExpectedResponses array (the 3rd param in SendCmd
//below), because this flags to GetInternalResponse that this is the
//logout, and it must EXPECT the BYE response
SendCmd(NewCmdCounter, IMAP4Commands[cmdLogout], ['BYE']); {Do not Localize}
end;
procedure TIdIMAP4.KeepAlive;
begin
//Avialable in any state.
SendCmd(NewCmdCounter, IMAP4Commands[cmdNoop], []);
end;
function TIdIMAP4.IsCapabilityListed(ACapability: string):Boolean;
begin
if not FHasCapa then begin
Capability;
end;
Result := IndyIndexOf(TStringList(FCapabilities), ACapability) <> -1;
end;
function TIdIMAP4.Capability: Boolean;
begin
FHasCapa := Capability(FCapabilities);
Result := FHasCapa;
end;
function TIdIMAP4.Capability(ASlCapability: TStrings): Boolean;
begin
//Available in any state.
Result := False;
ASlCapability.Clear;
SendCmd(NewCmdCounter, IMAP4Commands[CmdCapability], [IMAP4Commands[CmdCapability]]);
if LastCmdResult.Code = IMAP_OK then begin
if LastCmdResult.Text.Count > 0 then begin
BreakApart(LastCmdResult.Text[0], ' ', ASlCapability); {Do not Localize}
end;
// RLebeau: do not delete the first item anymore! It specifies the IMAP
// version/revision, which is needed to support certain extensions, like
// 'IMAP4rev1'...
{
if ASlCapability.Count > 0 then begin
ASlCapability.Delete(0);
end;
}
Result := True;
end;
end;
function TIdIMAP4.GetCmdCounter: String;
begin
Result := 'C' + IntToStr(FCmdCounter); {Do not Localize}
end;
function TIdIMAP4.GetNewCmdCounter: String;
begin
Inc(FCmdCounter);
Result := 'C' + IntToStr(FCmdCounter); {Do not Localize}
end;
destructor TIdIMAP4.Destroy;
begin
{Disconnect before we die}
{ Note we have to pass false to an overloaded method or an exception is
raised in the destructor. That can cause weirdness in the IDE. }
if Connected then begin
Disconnect(False);
end;
FreeAndNil(FMailBox);
FreeAndNil(FSASLMechanisms);
FreeAndNil(FLineStruct);
FreeAndNil(FCapabilities);
FreeAndNil(FMUTF7);
inherited Destroy;
end;
function TIdIMAP4.SelectMailBox(const AMBName: String): Boolean;
begin
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdSelect] + ' "' + DoMUTFEncode(AMBName) + '"', {Do not Localize}
['FLAGS', 'OK', 'EXISTS', 'RECENT', '[READ-WRITE]', '[ALERT]']); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
//Put the parse in the IMAP Class and send the MB;
ParseSelectResult(FMailBox, LastCmdResult.Text);
FMailBox.Name := AMBName;
FConnectionState := csSelected;
case RetrieveOnSelect of
rsHeaders: RetrieveAllHeaders(FMailBox.MessageList);
rsMessages: RetrieveAllMsgs(FMailBox.MessageList);
end;
Result := True;
end;
end;
function TIdIMAP4.ExamineMailBox(const AMBName: String; AMB: TIdMailBox): Boolean;
begin
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
//TO DO: Check that Examine's expected responses really are STATUS, FLAGS and OK...
SendCmd(NewCmdCounter,
IMAP4Commands[cmdExamine] + ' "' + DoMUTFEncode(AMBName) + '"', {Do not Localize}
['STATUS', 'FLAGS', 'OK', 'EXISTS', 'RECENT', '[READ-WRITE]', '[ALERT]']); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
ParseSelectResult(AMB, LastCmdResult.Text);
AMB.Name := AMBName;
FConnectionState := csSelected;
Result := True;
end;
end;
function TIdIMAP4.CloseMailBox: Boolean;
begin
Result := False;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, IMAP4Commands[cmdClose], []);
if LastCmdResult.Code = IMAP_OK then begin
MailBox.Clear;
FConnectionState := csAuthenticated;
Result := True;
end;
end;
function TIdIMAP4.CreateMailBox(const AMBName: String): Boolean;
begin
{CC5: Recode to return False if NO returned rather than throwing an exception...}
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
{CC5: The NO response is typically due to Permission Denied}
SendCmd(NewCmdCounter, IMAP4Commands[cmdCreate] + ' "' + DoMUTFEncode(AMBName) + '"', []); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.DeleteMailBox(const AMBName: String): Boolean;
begin
{CC5: Recode to return False if NO returned rather than throwing an exception...}
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
{CC5: The NO response is typically due to Permission Denied}
SendCmd(NewCmdCounter, IMAP4Commands[cmdDelete] + ' "' + DoMUTFEncode(AMBName) + '"', []); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.RenameMailBox(const AOldMBName, ANewMBName: String): Boolean;
begin
{CC5: Recode to return False if NO returned rather than throwing an exception...}
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
{CC5: The NO response is typically due to Permission Denied}
SendCmd(NewCmdCounter,
IMAP4Commands[cmdRename] + ' "' + DoMUTFEncode(AOldMBName) + '" "' + DoMUTFEncode(ANewMBName) + '"', {Do not Localize}
[]);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.StatusMailBox(const AMBName: String; AMB: TIdMailBox): Boolean;
{CC2: It is pointless calling StatusMailBox with AStatusDataItems set to []
because you are asking the IMAP server to update none of the status flags.
Instead, if called with no AStatusDataItems specified, use the standard flags
returned by SelectMailBox, which allows the user to easily check if the mailbox
has changed. Overload the functions, since AStatusDataItems cannot be set
to nil.}
var
AStatusDataItems: array[1..5] of TIdIMAP4StatusDataItem;
begin
AStatusDataItems[1] := mdMessages;
AStatusDataItems[2] := mdRecent;
AStatusDataItems[3] := mdUIDNext;
AStatusDataItems[4] := mdUIDValidity;
AStatusDataItems[5] := mdUnseen;
Result := StatusMailBox(AMBName, AMB, AStatusDataItems);
end;
function TIdIMAP4.StatusMailBox(const AMBName: String; AMB: TIdMailBox; const AStatusDataItems: array of TIdIMAP4StatusDataItem): Boolean;
var
LDataItems : string;
Ln : Integer;
begin
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
for Ln := Low(AStatusDataItems) to High(AStatusDataItems) do begin
case AStatusDataItems[Ln] of
mdMessages: LDataItems := LDataItems + IMAP4StatusDataItem[mdMessages] + ' '; {Do not Localize}
mdRecent: LDataItems := LDataItems + IMAP4StatusDataItem[mdRecent] + ' '; {Do not Localize}
mdUIDNext: LDataItems := LDataItems + IMAP4StatusDataItem[mdUIDNext] + ' '; {Do not Localize}
mdUIDValidity: LDataItems := LDataItems + IMAP4StatusDataItem[mdUIDValidity] + ' '; {Do not Localize}
mdUnseen: LDataItems := LDataItems + IMAP4StatusDataItem[mdUnseen] + ' '; {Do not Localize}
end;
end;
SendCmd(NewCmdCounter,
IMAP4Commands[cmdStatus] + ' "' + DoMUTFEncode(AMBName) + '" (' + Trim(LDataItems) + ')', {Do not Localize}
[IMAP4Commands[cmdStatus]]);
if LastCmdResult.Code = IMAP_OK then begin
ParseStatusResult(AMB, LastCmdResult.Text);
Result := True;
end;
end;
function TIdIMAP4.CheckMailBox: Boolean;
begin
Result := False;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, IMAP4Commands[cmdCheck], []);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.ExpungeMailBox: Boolean;
begin
Result := False;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, IMAP4Commands[cmdExpunge], []);
if LastCmdResult.Code = IMAP_OK then begin
ParseExpungeResult(FMailBox, LastCmdResult.Text);
Result := True;
end;
end;
//This function is needed because when using the regular DateToStr with dd/MMM/yyyy
//(which is the IMAP needed convension) may give the month as the local language
//three letter month instead of the English month needed.
function DateToIMAPDateStr (const ADate: TDateTime): String;
var
LDay, LMonth, LYear : Word;
begin
{Do not use the global settings from the system unit here because:
1) It might not be thread safe
2) Changing the settings could create problems for a user who's local date conventions
are diffrent than dd-mm-yyyy. Some people prefer mm-dd-yyy. Don't mess with a user's display settings.
3) Using the display settings for dates may not always work as expected if a user
changes their settings at a time between whn you do it but before the date is formatted.
}
DecodeDate(ADate, LYear, LMonth, LDay);
Result := IndyFormat('%.2d-%s-%.4d', [LDay, UpperCase(monthnames[LMonth]), LYear]); {Do not Localize}
end;
function TIdIMAP4.InternalSearchMailBox(const ASearchInfo: array of TIdIMAP4SearchRec;
AUseUID: Boolean; const ACharSet: string): Boolean;
var
LCmd: String;
Ln : Integer;
LTextBuf: TIdBytes;
LCharSet: string;
LEncoding: IIdTextEncoding;
LLiteral: string;
LUseNonSyncLiteral: Boolean;
LUseUTF8QuotedString: Boolean;
function RequiresEncoding(const S: String): Boolean;
var
I: Integer;
begin
Result := False;
for I := 1 to Length(S) do begin
if Ord(S[I]) > $7F then begin
Result := True;
Exit;
end;
end;
end;
function IsCharsetNeeded: Boolean;
var
I : Integer;
begin
Result := False;
for I := Low(ASearchInfo) to High(ASearchInfo) do begin
case ASearchInfo[I].SearchKey of
skBcc,
skBody,
skCc,
skFrom,
skHeader,
skSubject,
skText,
skTo,
skGmailRaw,
skGmailMsgID,
skGmailThreadID,
skGmailLabels:
if RequiresEncoding(ASearchInfo[I].Text) then begin
Result := True;
Exit;
end;
end;
end;
end;
begin
Result := False;
LTextBuf := nil; // keep the compiler happy
CheckConnectionState(csSelected);
LCmd := NewCmdCounter + ' '; {Do not Localize}
if AUseUID then begin
LCmd := LCmd + IMAP4Commands[cmdUID] + ' '; {Do not Localize}
end;
LCmd := LCmd + IMAP4Commands[cmdSearch];
if IsCharsetNeeded then begin
LUseNonSyncLiteral := IsCapabilityListed('LITERAL+'); {Do not localize}
LUseUTF8QuotedString := IsCapabilityListed('UTF8=ACCEPT') or {Do not localize}
IsCapabilityListed('UTF8=ONLY') or {Do not localize}
IsCapabilityListed('UTF8=ALL'); {Do not localize}
if LUseUTF8QuotedString then begin
LCharSet := 'UTF-8'; {Do not Localize}
end else begin
LCharSet := Trim(ACharSet);
if LCharSet = '' then begin
LCharSet := 'UTF-8'; {Do not Localize}
end;
end;
LCmd := LCmd + ' CHARSET ' + LCharSet; {Do not localize}
LEncoding := CharsetToEncoding(LCharSet);
end else begin
LUseNonSyncLiteral := False;
LUseUTF8QuotedString := False;
end;
{CC3: Catch "Connection reset by peer"...}
try
//Remove anything that may be unprocessed from a previous (probably failed) command...
repeat
IOHandler.InputBuffer.Clear;
until not IOHandler.CheckForDataOnSource(MilliSecsToWaitToClearBuffer);
CheckConnected;
//IMAP.PrepareCmd(LCmd);
// now encode the search values. Most values are ASCII and do not need
// special encoding. For text values that do need to be encoded, IMAP
// string literals have to be used in order to support 8-bit octets in
// charset encoded payloads...
for Ln := Low(ASearchInfo) to High(ASearchInfo) do begin
case ASearchInfo[Ln].SearchKey of
skAll,
skAnswered,
skDeleted,
skDraft,
skFlagged,
skNew,
skNot,
skOld,
skOr,
skRecent,
skSeen,
skUnanswered,
skUndeleted,
skUndraft,
skUnflagged,
skUnKeyWord,
skUnseen:
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey]; {Do not Localize}
skHeader:
begin
// TODO: support RFC 5738 to allow for UTF-8 encoded quoted strings
if not RequiresEncoding(ASearchInfo[Ln].Text) then begin
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + ASearchInfo[Ln].FieldName + ' ' + IMAPQuotedStr(ASearchInfo[Ln].Text); {Do not Localize}
end else
begin
if LUseUTF8QuotedString then begin
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + ASearchInfo[Ln].FieldName + ' *'; {Do not Localize}
IOHandler.Write(LCmd);
IOHandler.Write(IMAPQuotedStr(ASearchInfo[Ln].Text), LEncoding{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_OSDefault{$ENDIF});
end else
begin
LTextBuf := ToBytes(ASearchInfo[Ln].Text, LEncoding{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_OSDefault{$ENDIF});
if LUseNonSyncLiteral then begin
LLiteral := '{' + IntToStr(Length(LTextBuf)) + '+}'; {Do not Localize}
end else begin
LLiteral := '{' + IntToStr(Length(LTextBuf)) + '}'; {Do not Localize}
end;
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + ASearchInfo[Ln].FieldName + ' ' + LLiteral; {Do not Localize}
IOHandler.WriteLn(LCmd);
if not LUseNonSyncLiteral then begin
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdSearch], IMAP4Commands[cmdUID]], False) <> IMAP_CONT then begin
RaiseExceptionForLastCmdResult;
end;
end;
IOHandler.Write(LTextBuf);
end;
LTextBuf := nil;
LCmd := '';
end;
end;
skKeyword,
skUID:
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + ASearchInfo[Ln].Text; {Do not Localize}
skBcc,
skBody,
skCc,
skFrom,
skSubject,
skText,
skTo,
skGmailRaw,
skGmailMsgID,
skGmailThreadID,
skGmailLabels:
begin
// TODO: support RFC 5738 to allow for UTF-8 encoded quoted strings
if not RequiresEncoding(ASearchInfo[Ln].Text) then begin
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + IMAPQuotedStr(ASearchInfo[Ln].Text); {Do not Localize}
end else
begin
if LUseUTF8QuotedString then begin
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' *'; {Do not Localize}
IOHandler.Write(LCmd);
IOHandler.Write(IMAPQuotedStr(ASearchInfo[Ln].Text), LEncoding{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_OSDefault{$ENDIF});
end else
begin
LTextBuf := ToBytes(ASearchInfo[Ln].Text, LEncoding{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_OSDefault{$ENDIF});
if LUseNonSyncLiteral then begin
LLiteral := '{' + IntToStr(Length(LTextBuf)) + '+}'; {Do not Localize}
end else begin
LLiteral := '{' + IntToStr(Length(LTextBuf)) + '}'; {Do not Localize}
end;
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + LLiteral; {Do not Localize}
IOHandler.WriteLn(LCmd);
if not LUseNonSyncLiteral then begin
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdSearch], IMAP4Commands[cmdUID]], False) <> IMAP_CONT then begin
RaiseExceptionForLastCmdResult;
end;
end;
IOHandler.Write(LTextBuf);
end;
LTextBuf := nil;
LCmd := '';
end;
end;
skBefore,
skOn,
skSentBefore,
skSentOn,
skSentSince,
skSince:
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + DateToIMAPDateStr(ASearchInfo[Ln].Date); {Do not Localize}
skLarger,
skSmaller:
LCmd := LCmd + ' ' + IMAP4SearchKeys[ASearchInfo[Ln].SearchKey] + ' ' + IntToStr(ASearchInfo[Ln].Size); {Do not Localize}
end;
end;
if LCmd <> '' then begin
IOHandler.Write(LCmd);
end;
// After we send the last of the data, we need to send an EXTRA CRLF to terminates the SEARCH command...
IOHandler.WriteLn;
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdSearch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
ParseSearchResult(FMailBox, LastCmdResult.Text);
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
function TIdIMAP4.SearchMailBox(const ASearchInfo: array of TIdIMAP4SearchRec;
const ACharSet: string = ''): Boolean;
begin
Result := InternalSearchMailBox(ASearchInfo, False, ACharSet);
end;
function TIdIMAP4.UIDSearchMailBox(const ASearchInfo: array of TIdIMAP4SearchRec;
const ACharSet: string = '') : Boolean;
begin
Result := InternalSearchMailBox(ASearchInfo, True, ACharSet);
end;
function TIdIMAP4.SubscribeMailBox(const AMBName: String): Boolean;
begin
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdSubscribe] + ' "' + DoMUTFEncode(AMBName) + '"', {Do not Localize}
[]);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.UnsubscribeMailBox(const AMBName: String): Boolean;
begin
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUnsubscribe] + ' "' + DoMUTFEncode(AMBName) + '"', {Do not Localize}
[]);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.ListMailBoxes(AMailBoxList: TStrings): Boolean;
begin
Result := False;
{CC2: This is one of the few cases where the server can return only "OK completed"
meaning that the user has no mailboxes.}
CheckConnectionState([csAuthenticated, csSelected]);
SendCmd(NewCmdCounter, IMAP4Commands[cmdList] + ' "" *', [IMAP4Commands[cmdList]]); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
ParseListResult(AMailBoxList, LastCmdResult.Text);
Result := True;
end;
end;
function TIdIMAP4.ListInferiorMailBoxes(AMailBoxList, AInferiorMailBoxList: TStrings): Boolean;
var
Ln : Integer;
LAuxMailBoxList : TStringList;
begin
Result := False;
{CC2: This is one of the few cases where the server can return only "OK completed"
meaning that the user has no inferior mailboxes.}
CheckConnectionState([csAuthenticated, csSelected]);
if AMailBoxList = nil then begin
SendCmd(NewCmdCounter, IMAP4Commands[cmdList] + ' "" %', [IMAP4Commands[cmdList]]); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
ParseListResult(AInferiorMailBoxList, LastCmdResult.Text);
//The INBOX mailbox is added because I think it always has to exist
//in an IMAP4 account (default) but it does not list it in this command.
Result := True;
end;
end else begin
LAuxMailBoxList := TStringList.Create;
try
AInferiorMailBoxList.Clear;
for Ln := 0 to AMailBoxList.Count - 1 do begin
SendCmd(NewCmdCounter,
IMAP4Commands[cmdList] + ' "" "' + DoMUTFEncode(AMailBoxList[Ln]) + FMailBoxSeparator + '%"', {Do not Localize}
[IMAP4Commands[cmdList]]);
if LastCmdResult.Code = IMAP_OK then begin
ParseListResult(LAuxMailBoxList, LastCmdResult.Text);
AInferiorMailBoxList.AddStrings(LAuxMailBoxList);
Result := True;
end else begin
Break;
end;
end;
finally
FreeAndNil(LAuxMailBoxList);
end;
end;
end;
function TIdIMAP4.ListSubscribedMailBoxes(AMailBoxList: TStrings): Boolean;
begin
{CC2: This is one of the few cases where the server can return only "OK completed"
meaning that the user has no subscribed mailboxes.}
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
SendCmd(NewCmdCounter, IMAP4Commands[cmdLSub] + ' "" *', [IMAP4Commands[cmdList], IMAP4Commands[cmdLSub]]); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
// ds - fixed bug # 506026
ParseLSubResult(AMailBoxList, LastCmdResult.Text);
Result := True;
end;
end;
function TIdIMAP4.StoreFlags(const AMsgNumList: array of Integer;
const AStoreMethod: TIdIMAP4StoreDataItem; const AFlags: TIdMessageFlagsSet): Boolean;
var
LDataItem,
LMsgSet,
LFlags: String;
begin
Result := False;
if Length(AMsgNumList) > 0 then begin
LMsgSet := ArrayToNumberStr(AMsgNumList);
case AStoreMethod of
sdReplace: LDataItem := IMAP4StoreDataItem[sdReplaceSilent];
sdAdd: LDataItem := IMAP4StoreDataItem[sdAddSilent];
sdRemove: LDataItem := IMAP4StoreDataItem[sdRemoveSilent];
else
LDataItem := IMAP4StoreDataItem[AStoreMethod];
end;
LFlags := MessageFlagSetToStr(AFlags);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdStore] + ' ' + LMsgSet + ' ' + LDataItem + ' (' + LFlags + ')', {Do not Localize}
[]);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
end;
function TIdIMAP4.UIDStoreFlags(const AMsgUID: String;
const AStoreMethod: TIdIMAP4StoreDataItem; const AFlags: TIdMessageFlagsSet): Boolean;
var
LDataItem,
LFlags : String;
begin
Result := False;
IsUIDValid(AMsgUID);
case AStoreMethod of
sdReplace: LDataItem := IMAP4StoreDataItem[sdReplaceSilent];
sdAdd: LDataItem := IMAP4StoreDataItem[sdAddSilent];
sdRemove: LDataItem := IMAP4StoreDataItem[sdRemoveSilent];
else
LDataItem := IMAP4StoreDataItem[AStoreMethod];
end;
LFlags := MessageFlagSetToStr(AFlags);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdStore] + ' ' + AMsgUID + ' ' + LDataItem + ' (' + LFlags + ')', {Do not Localize}
[]);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.UIDStoreFlags(const AMsgUIDList: array of String;
const AStoreMethod: TIdIMAP4StoreDataItem; const AFlags: TIdMessageFlagsSet): Boolean;
var
LDataItem,
LMsgSet,
LFlags : String;
LN: integer;
begin
Result := False;
LMsgSet := '';
for LN := 0 to Length(AMsgUIDList) -1 do begin
IsUIDValid(AMsgUIDList[LN]);
if LN > 0 then begin
LMsgSet := LMsgSet + ','; {Do not Localize}
end;
LMsgSet := LMsgSet+AMsgUIDList[LN];
end;
case AStoreMethod of
sdReplace: LDataItem := IMAP4StoreDataItem[sdReplaceSilent];
sdAdd: LDataItem := IMAP4StoreDataItem[sdAddSilent];
sdRemove: LDataItem := IMAP4StoreDataItem[sdRemoveSilent];
else
LDataItem := IMAP4StoreDataItem[AStoreMethod];
end;
LFlags := MessageFlagSetToStr(AFlags);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdStore] + ' ' + LMsgSet + ' ' + LDataItem + ' (' + LFlags + ')', {Do not Localize}
[]);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.CopyMsgs(const AMsgNumList: array of Integer; const AMBName: String): Boolean;
var
LMsgSet : String;
begin
Result := False;
if Length(AMsgNumList) > 0 then begin
LMsgSet := ArrayToNumberStr ( AMsgNumList );
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, IMAP4Commands[cmdCopy] + ' ' + LMsgSet + ' "' + DoMUTFEncode(AMBName) + '"', []); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
end;
function TIdIMAP4.UIDCopyMsgs(const AMsgUIDList: TStrings; const AMBName: String): Boolean;
var
LCmd : String;
LN: integer;
begin
Result := False;
if AMsgUIDList.Count > 0 then begin
LCmd := IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdCopy] + ' '; {Do not Localize}
for LN := 0 to AMsgUIDList.Count-1 do begin
IsUIDValid(AMsgUIDList.Strings[LN]);
if LN = 0 then begin
LCmd := LCmd + AMsgUIDList.Strings[LN];
end else begin
LCmd := LCmd + ',' + AMsgUIDList.Strings[LN]; {Do not Localize}
end;
end;
LCmd := LCmd + ' "' + DoMUTFEncode(AMBName) + '"'; {Do not Localize}
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, LCmd, []);
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
end;
function TIdIMAP4.CopyMsg(const AMsgNum: Integer; const AMBName: String): Boolean;
//Copies a message from the current selected mailbox to the specified mailbox.
begin
Result := False;
IsNumberValid(AMsgNum);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, IMAP4Commands[cmdCopy] + ' ' + IntToStr(AMsgNum) + ' "' + DoMUTFEncode(AMBName) + '"', []); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.UIDCopyMsg(const AMsgUID: String; const AMBName: String): Boolean;
//Copies a message from the current selected mailbox to the specified mailbox.
begin
Result := False;
IsUIDValid(AMsgUID);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter, IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdCopy] + ' ' + AMsgUID + ' "' + DoMUTFEncode(AMBName) + '"', []); {Do not Localize}
if LastCmdResult.Code = IMAP_OK then begin
Result := True;
end;
end;
function TIdIMAP4.AppendMsg(const AMBName: String; AMsg: TIdMessage; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean;
begin
Result := AppendMsg(AMBName, AMsg, nil, AFlags, AInternalDateTimeGMT);
end;
function TIdIMAP4.AppendMsg(const AMBName: String; AMsg: TIdMessage; AAlternativeHeaders: TIdHeaderList; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean;
var
LFlags,
LMsgLiteral, LDateTime: String;
LUseNonSyncLiteral: Boolean;
Ln: Integer;
LCmd: string;
LLength: TIdStreamSize;
LHeadersToSend, LCopiedHeaders: TIdHeaderList;
LHeadersAsString: string;
LHeadersAsBytes: TIdBytes;
LMimeBoundary: string;
LStream: TStream;
LHelper: TIdIMAP4WorkHelper;
begin
Result := False;
LHeadersasBytes := nil; // keep the compiler happy
CheckConnectionState([csAuthenticated, csSelected]);
if Length(AMBName) <> 0 then begin
LFlags := MessageFlagSetToStr(AFlags);
if LFlags <> '' then begin {Do not Localize}
LFlags := '(' + LFlags + ')'; {Do not Localize}
end;
if AInternalDateTimeGMT <> 0.0 then begin
// even though flags are optional, some servers, such as GMail, will
// fail to parse the command correctly if no flags are specified in
// front of the internal date...
if LFlags = '' then begin
LFlags := '()'; // TODO: should 'NIL' be used instead? {Do not Localize}
end;
LDateTime := '"' + DateTimeGMTToImapStr(AInternalDateTimeGMT) + '"'; {do not localize}
end;
{CC8: In Indy 10, we want to support attachments (previous versions did
not). The problem is that we have to know the size of the message
in advance of sending it for the IMAP APPEND command.
The problem is that there is no way of calculating the size of a
message without generating the encoded message. Therefore, write the
message out to a temporary stream, and then get the size of the data,
which with a bit of adjustment, will give us the size of the message
we will send.
The "adjustment" is necessary because SaveToStream generates it's own
headers, which will be different to both the ones in AMsg and
AAlternativeHeaders, in the Date header, if nothing else.}
LStream := TMemoryStream.Create;
try
{RLebeau 04/02/2014: if the user passed in AMsg.LastGeneratedHeaders
or AMsg.Headers as AAlternativeHeaders, then assume the user wants to
use the headers that existed prior to AMsg being saved below, which
may create new header values...}
LCopiedHeaders := nil;
try
if (AAlternativeHeaders <> nil) and
((AAlternativeHeaders = AMsg.LastGeneratedHeaders) or (AAlternativeHeaders = AMsg.Headers)) then
begin
LCopiedHeaders := TIdHeaderList.Create(QuoteRFC822);
LCopiedHeaders.Assign(AAlternativeHeaders);
end;
{RLebeau 12/09/2012: this is a workaround to a design limitation in
TIdMessage.SaveToStream(). It always outputs the stream data in an
escaped format using SMTP dot transparency, but that is not used in
IMAP! Until this design is corrected, we have to use a workaround
for now. This logic is copied from TIdMessage.SaveToSteam() and
slightly tweaked...}
//AMsg.SaveToStream(LStream);
{$IFDEF HAS_CLASS_HELPER}
AMsg.SaveToStream(LStream, False, False);
{$ELSE}
TIdMessageHelper_SaveToStream(AMsg, LStream, False, False);
{$ENDIF}
LStream.Position := 0;
{We are better off making up the headers as a string first rather than predicting
its length. Slightly wasteful of memory, but it will not take up much.}
LHeadersAsString := '';
{Make sure the headers we end up using have the correct MIME boundary actually
used in the message being saved...}
if AMsg.NoEncode then begin
LMimeBoundary := AMsg.Headers.Params['Content-Type', 'boundary']; {do not localize}
end else begin
LMimeBoundary := AMsg.LastGeneratedHeaders.Params['Content-Type', 'boundary']; {do not localize}
end;
if (LCopiedHeaders = nil) and (AAlternativeHeaders <> nil) then begin
if AAlternativeHeaders.Params['Content-Type', 'boundary'] <> LMimeBoundary then {do not localize}
begin
LCopiedHeaders := TIdHeaderList.Create(QuoteRFC822);
LCopiedHeaders.Assign(AAlternativeHeaders);
end;
end;
if LCopiedHeaders <> nil then begin
{Use the copied headers that the user has passed to us, adjusting the MIME boundary...}
LCopiedHeaders.Params['Content-Type', 'boundary'] := LMimeBoundary; {do not localize}
LHeadersToSend := LCopiedHeaders;
end
else if AAlternativeHeaders <> nil then begin
{Use the headers that the user has passed to us...}
LHeadersToSend := AAlternativeHeaders;
end
else if AMsg.NoEncode then begin
{Use the headers that are in the message AMsg...}
LHeadersToSend := AMsg.Headers;
end else begin
{Use the headers that SaveToStream() generated...}
LHeadersToSend := AMsg.LastGeneratedHeaders;
end;
// not using LHeadersToSend.Text because it uses platform-specific line breaks
for Ln := 0 to Pred(LHeadersToSend.Count) do begin
LHeadersAsString := LHeadersAsString + LHeadersToSend[Ln] + EOL;
end;
finally
LCopiedHeaders.Free;
end;
LHeadersAsBytes := ToBytes(LHeadersAsString + EOL);
LHeadersAsString := '';
{Get the size of the headers we are sending...}
repeat until Length(ReadLnFromStream(LStream)) = 0;
{We have to subtract the size of the headers in the file and
add back the size of the headers we are to use
to get the size of the message we are going to send...}
LLength := Length(LHeadersAsBytes) + (LStream.Size - LStream.Position);
LUseNonSyncLiteral := IsCapabilityListed('LITERAL+'); {Do not Localize}
if LUseNonSyncLiteral then begin
LMsgLiteral := '{' + IntToStr ( LLength ) + '+}'; {Do not Localize}
end else begin
LMsgLiteral := '{' + IntToStr ( LLength ) + '}'; {Do not Localize}
end;
{CC: The original code sent the APPEND command first, then followed it with the
message. Maybe this worked with some server, but most send a
response like "+ Send the additional command..." between the two,
which was not expected by the client and caused an exception.}
//CC: Added double quotes around mailbox name, else mailbox names with spaces will cause server parsing error
LCmd := IMAP4Commands[cmdAppend] + ' "' + DoMUTFEncode(AMBName) + '" '; {Do not Localize}
if Length(LFlags) <> 0 then begin
LCmd := LCmd + LFlags + ' '; {Do not Localize}
end;
if Length(LDateTime) <> 0 then begin
LCmd := LCmd + LDateTime + ' '; {Do not Localize}
end;
LCmd := LCmd + LMsgLiteral; {Do not Localize}
{CC3: Catch "Connection reset by peer"...}
try
if LUseNonSyncLiteral then begin
{Send the APPEND command and the message immediately, no + response needed...}
IOHandler.WriteLn(NewCmdCounter + ' ' + LCmd);
end else begin
{Try sending the APPEND command, get the + response, then send the message...}
SendCmd(NewCmdCounter, LCmd, []);
if LastCmdResult.Code <> IMAP_CONT then begin
Exit;
end;
end;
LHelper := TIdIMAP4WorkHelper.Create(Self);
try
IOHandler.Write(LHeadersAsBytes);
{RLebeau: passing -1 to TIdIOHandler.Write(TStream) will send the
rest of the stream starting at its current Position...}
IOHandler.Write(LStream, -1, False);
finally
FreeAndNil(LHelper);
end;
{WARNING: After we send the message (which should be exactly
LLength bytes long), we need to send an EXTRA CRLF which is in
addition to the count in LLength, because this CRLF terminates the
APPEND command...}
IOHandler.WriteLn;
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdAppend]], False) = IMAP_OK then begin
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
finally
LStream.Free;
end;
end;
end;
function TIdIMAP4.AppendMsgNoEncodeFromFile(const AMBName: String; ASourceFile: string; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean;
var
LSourceStream: TIdReadFileExclusiveStream;
begin
LSourceStream := TIdReadFileExclusiveStream.Create(ASourceFile);
try
Result := AppendMsgNoEncodeFromStream(AMBName, LSourceStream, AFlags, AInternalDateTimeGMT);
finally
FreeAndNil(LSourceStream);
end;
end;
function TIdIMAP4.AppendMsgNoEncodeFromStream(const AMBName: String; AStream: TStream; const AFlags: TIdMessageFlagsSet = [];
const AInternalDateTimeGMT: TDateTime = 0.0): Boolean;
const
cTerminator: array[0..4] of Byte = (13, 10, Ord('.'), 13, 10);
var
LFlags, LDateTime, LMsgLiteral: String;
LUseNonSyncLiteral: Boolean;
I: Integer;
LFound: Boolean;
LCmd: string;
LLength: TIdStreamSize;
LTempStream: TMemoryStream;
LHelper: TIdIMAP4WorkHelper;
LBuf: TIdBytes;
begin
Result := False;
CheckConnectionState([csAuthenticated, csSelected]);
if Length(AMBName) <> 0 then begin
LFlags := MessageFlagSetToStr(AFlags);
if LFlags <> '' then begin {Do not Localize}
LFlags := '(' + LFlags + ')'; {Do not Localize}
end;
if AInternalDateTimeGMT <> 0.0 then begin
// even though flags are optional, some servers, such as GMail, will
// fail to parse the command correctly if no flags are specified in
// front of the internal date...
if LFlags = '' then begin
LFlags := '()'; // TODO: should 'NIL' be used instead? {Do not Localize}
end;
LDateTime := '"' + DateTimeGMTToImapStr(AInternalDateTimeGMT) + '"'; {Do not Localize}
end;
LLength := AStream.Size - AStream.Position;
LTempStream := TMemoryStream.Create;
try
//Hunt for CRLF.CRLF, if present then we need to remove it...
// RLebeau: why? The lines of the message data are not required to be
// dot-prefixed like in SMTP, so why should TIdIMAP care about any
// termination sequences in the file? We are telling the server exactly
// how large the message actually is. What if the message data actually
// contains a valid line with just a dot on it? This code would end up
// truncating the message that is stored on the server...
SetLength(LBuf, 5);
if LLength > 0 then begin
LTempStream.CopyFrom(AStream, LLength);
LTempStream.Position := 0;
end;
repeat
if TIdStreamHelper.ReadBytes(LTempStream, LBuf, 5) < 5 then begin
Break;
end;
LFound := True;
for I := 0 to 4 do begin
if LBuf[I] <> cTerminator[I] then begin
LFound := False;
Break;
end;
end;
if LFound then begin
LLength := LTempStream.Position-5;
Break;
end;
TIdStreamHelper.Seek(LTempStream, -4, soCurrent);
until False;
LUseNonSyncLiteral := IsCapabilityListed('LITERAL+'); {Do not Localize}
if LUseNonSyncLiteral then begin
LMsgLiteral := '{' + IntToStr(LLength) + '+}'; {Do not Localize}
end else begin
LMsgLiteral := '{' + IntToStr(LLength) + '}'; {Do not Localize}
end;
{CC: The original code sent the APPEND command first, then followed it with the
message. Maybe this worked with some server, but most send a
response like "+ Send the additional command..." between the two,
which was not expected by the client and caused an exception.}
//CC: Added double quotes around mailbox name, else mailbox names with spaces will cause server parsing error
LCmd := IMAP4Commands[cmdAppend] + ' "' + DoMUTFEncode(AMBName) + '" '; {Do not Localize}
if Length(LFlags) <> 0 then begin
LCmd := LCmd + LFlags + ' '; {Do not Localize}
end;
if Length(LDateTime) <> 0 then begin
LCmd := LCmd + LDateTime + ' '; {Do not Localize}
end;
LCmd := LCmd + LMsgLiteral; {Do not Localize}
{CC3: Catch "Connection reset by peer"...}
try
if LUseNonSyncLiteral then begin
{Send the APPEND command and the message immediately, no + response needed...}
IOHandler.WriteLn(NewCmdCounter + ' ' + LCmd);
end else begin
{Try sending the APPEND command, get the + response, then send the message...}
SendCmd(NewCmdCounter, LCmd, []);
if LastCmdResult.Code <> IMAP_CONT then begin
Exit;
end;
end;
LTempStream.Position := 0;
LHelper := TIdIMAP4WorkHelper.Create(Self);
try
IOHandler.Write(LTempStream, LLength);
finally
FreeAndNil(LHelper);
end;
{WARNING: After we send the message (which should be exactly
LLength bytes long), we need to send an EXTRA CRLF which is in
addition to the count in LLength, because this CRLF terminates the
APPEND command...}
IOHandler.WriteLn;
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdAppend]], False) = IMAP_OK then begin
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
finally
FreeAndNil(LTempStream);
end;
end;
end;
function TIdIMAP4.RetrieveEnvelope(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
begin
Result := InternalRetrieveEnvelope(AMsgNum, AMsg, nil);
end;
function TIdIMAP4.RetrieveEnvelopeRaw(const AMsgNum: Integer; ADestList: TStrings): Boolean;
begin
Result := InternalRetrieveEnvelope(AMsgNum, nil, ADestList);
end;
function TIdIMAP4.InternalRetrieveEnvelope(const AMsgNum: Integer; AMsg: TIdMessage; ADestList: TStrings): Boolean;
begin
{CC2: Return False if message number is invalid...}
IsNumberValid(AMsgNum);
Result := False;
CheckConnectionState(csSelected);
{Some servers return NO if the requested message number is not present
(e.g. Cyrus), others return OK but no data (CommuniGate).}
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' (' + IMAP4FetchDataItem[fdEnvelope] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdEnvelope]]) then begin
if ADestList <> nil then begin
ADestList.Clear;
ADestList.Add(FLineStruct.IMAPValue);
end;
if AMsg <> nil then begin
ParseEnvelopeResult(AMsg, FLineStruct.IMAPValue);
end;
Result := True;
end;
end;
end;
end;
function TIdIMAP4.UIDRetrieveEnvelope(const AMsgUID: String; AMsg: TIdMessage): Boolean;
begin
Result := UIDInternalRetrieveEnvelope(AMsgUID, AMsg, nil);
end;
function TIdIMAP4.UIDRetrieveEnvelopeRaw(const AMsgUID: String; ADestList: TStrings): Boolean;
begin
Result := UIDInternalRetrieveEnvelope(AMsgUID, nil, ADestList);
end;
function TIdIMAP4.UIDInternalRetrieveEnvelope(const AMsgUID: String; AMsg: TIdMessage; ADestList: TStrings): Boolean;
begin
IsUIDValid(AMsgUID);
{CC2: Return False if message number is invalid...}
Result := False;
CheckConnectionState(csSelected);
{Some servers return NO if the requested message number is not present
(e.g. Cyrus), others return OK but no data (CommuniGate).}
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' ' + AMsgUID + ' (' + IMAP4FetchDataItem[fdEnvelope] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]]);
if LastCmdResult.Code = IMAP_OK then begin
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdEnvelope]]) then begin
if ADestList <> nil then begin
ADestList.Clear;
ADestList.Add(FLineStruct.IMAPValue);
end;
if AMsg <> nil then begin
ParseEnvelopeResult(AMsg, FLineStruct.IMAPValue);
end;
Result := True;
end;
end;
end;
end;
function TIdIMAP4.RetrieveAllEnvelopes(AMsgList: TIdMessageCollection): Boolean;
{NOTE: If AMsgList is empty or does not have enough records, records will be added.
If you pass a non-empty AMsgList, it is assumed the records are in relative record
number sequence: if not, pass in an empty AMsgList and copy the results to your
own AMsgList.}
var
Ln: Integer;
LMsg: TIdMessage;
begin
Result := False;
{CC2: This is one of the few cases where the server can return only "OK completed"
meaning that the user has no envelopes.}
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' 1:* (' + IMAP4FetchDataItem[fdEnvelope] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
for Ln := 0 to LastCmdResult.Text.Count-1 do begin
if ParseLastCmdResult(LastCmdResult.Text[Ln], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdEnvelope]]) then begin
if LN >= AMsgList.Count then begin
LMsg := AMsgList.Add.Msg;
end else begin
LMsg := AMsgList.Messages[LN];
end;
ParseEnvelopeResult(LMsg, FLineStruct.IMAPValue);
end;
end;
Result := True;
end;
end;
function TIdIMAP4.UIDRetrieveAllEnvelopes(AMsgList: TIdMessageCollection): Boolean;
{NOTE: If AMsgList is empty or does not have enough records, records will be added.
If you pass a non-empty AMsgList, it is assumed the records are in relative record
number sequence: if not, pass in an empty AMsgList and copy the results to your
own AMsgList.}
var
Ln: Integer;
LMsg: TIdMessage;
begin
Result := False;
{CC2: This is one of the few cases where the server can return only "OK completed"
meaning that the user has no envelopes.}
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' 1:* (' + IMAP4FetchDataItem[fdEnvelope] + ' ' + IMAP4FetchDataItem[fdFlags] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
for Ln := 0 to LastCmdResult.Text.Count-1 do begin
if ParseLastCmdResult(LastCmdResult.Text[Ln], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdEnvelope]]) then begin
if LN >= AMsgList.Count then begin
LMsg := AMsgList.Add.Msg;
end else begin
LMsg := AMsgList.Messages[LN];
end;
ParseEnvelopeResult(LMsg, FLineStruct.IMAPValue);
LMsg.UID := FLineStruct.UID;
LMsg.Flags := FLineStruct.Flags;
end;
end;
Result := True;
end;
end;
function TIdIMAP4.RetrieveText(const AMsgNum: Integer; var AText: string): Boolean;
//Retrieve a specific individual part of a message
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieveText(AMsgNum, AText, False, False, False);
end;
function TIdIMAP4.RetrieveText2(const AMsgNum: Integer; var AText: string): Boolean;
//Retrieve a specific individual part of a message
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieveText(AMsgNum, AText, False, False, True);
end;
function TIdIMAP4.RetrieveTextPeek(const AMsgNum: Integer; var AText: string): Boolean;
{CC3: Added: Retrieve the text part of the message...}
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieveText(AMsgNum, AText, False, True, False);
end;
function TIdIMAP4.RetrieveTextPeek2(const AMsgNum: Integer; var AText: string): Boolean;
{CC3: Added: Retrieve the text part of the message...}
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieveText(AMsgNum, AText, False, True, True);
end;
function TIdIMAP4.UIDRetrieveText(const AMsgUID: String; var AText: string): Boolean;
{CC3: Added: Retrieve the text part of the message...}
begin
IsUIDValid(AMsgUID);
Result := InternalRetrieveText(IndyStrToInt(AMsgUID), AText, True, False, False);
end;
function TIdIMAP4.UIDRetrieveText2(const AMsgUID: String; var AText: string): Boolean;
{CC3: Added: Retrieve the text part of the message...}
begin
IsUIDValid(AMsgUID);
Result := InternalRetrieveText(IndyStrToInt(AMsgUID), AText, True, False, True);
end;
function TIdIMAP4.UIDRetrieveTextPeek(const AMsgUID: String; var AText: string): Boolean;
{CC3: Added: Retrieve the text part of the message...}
begin
IsUIDValid(AMsgUID);
Result := InternalRetrieveText(IndyStrToInt(AMsgUID), AText, True, True, False);
end;
function TIdIMAP4.UIDRetrieveTextPeek2(const AMsgUID: String; var AText: string): Boolean;
{CC3: Added: Retrieve the text part of the message...}
begin
IsUIDValid(AMsgUID);
Result := InternalRetrieveText(IndyStrToInt(AMsgUID), AText, True, True, True);
end;
function TIdIMAP4.InternalRetrieveText(const AMsgNum: Integer; var AText: string;
AUseUID: Boolean; AUsePeek: Boolean; AUseFirstPartInsteadOfText: Boolean): Boolean;
{CC3: Added: Retrieve the text part of the message...}
var
LCmd: string;
LParts: TIdImapMessageParts;
LThePart: TIdImapMessagePart;
LCharSet: String;
LContentTransferEncoding: string;
LTextPart: integer;
LHelper: TIdIMAP4WorkHelper;
procedure DoDecode(ADecoderClass: TIdDecoderClass = nil; AStripCRLFs: Boolean = False);
var
LDecoder: TIdDecoder;
LStream: TStream;
LStrippedStream: TStringStream;
LUnstrippedStream: TStringStream;
LEncoding: IIdTextEncoding;
begin
LStream := TMemoryStream.Create;
try
if ADecoderClass <> nil then begin
LDecoder := ADecoderClass.Create(Self);
try
LDecoder.DecodeBegin(LStream);
try
LUnstrippedStream := TStringStream.Create('');
try
IOHandler.ReadStream(LUnstrippedStream, FLineStruct.ByteCount); //ReadStream uses OnWork, most other methods dont
{This is more complicated than quoted-printable because we
have to strip CRLFs that have been inserted by the MTA to
avoid overly long lines...}
if AStripCRLFs then begin
LStrippedStream := TStringStream.Create('');
try
StripCRLFs(LUnstrippedStream, LStrippedStream);
LDecoder.Decode(LStrippedStream.DataString);
finally
FreeAndNil(LStrippedStream);
end;
end else begin
LDecoder.Decode(LUnstrippedStream.DataString);
end;
finally
FreeAndNil(LUnstrippedStream);
end;
finally
LDecoder.DecodeEnd;
end;
finally
FreeAndNil(LDecoder);
end;
end else begin
IOHandler.ReadStream(LStream, FLineStruct.ByteCount); //ReadStream uses OnWork, most other methods dont
end;
LStream.Position := 0;
if LCharSet <> '' then begin
LEncoding := CharsetToEncoding(LCharSet);
AText := ReadStringFromStream(LStream, -1, LEncoding{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_OSDefault{$ENDIF});
end else begin
AText := ReadStringFromStream(LStream, -1, IndyTextEncoding_8Bit{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_8Bit{$ENDIF});
end;
finally
FreeAndNil(LStream);
end;
end;
begin
Result := False;
AText := ''; {Do not Localize}
CheckConnectionState(csSelected);
LTextPart := 0; {The text part is usually part 1 but could be part 2}
if AUseFirstPartInsteadOfText then begin
{In this case, we need the body structure to find out what
encoding has been applied to part 1...}
LParts := TIdImapMessageParts.Create(nil);
try
if AUseUID then begin
if not UIDRetrieveStructure(IntToStr(AMsgNum), LParts) then begin
Exit;
end;
end else begin
if not RetrieveStructure(AMsgNum, LParts) then begin
Exit;
end;
end;
{Get the info we want out of LParts...}
{Some emails have their first parts empty, so search for the first non-empty part.}
repeat
LThePart := LParts.Items[LTextPart];
if (LThePart.FSize <> 0) then begin
Break;
end;
Inc(LTextPart);
until LTextPart >= LParts.Count - 1;
LCharSet := LThePart.CharSet;
LContentTransferEncoding := LThePart.ContentTransferEncoding;
finally
FreeAndNil(LParts);
end;
end else begin
// TODO: detect LCharSet and LContentTransferEncoding...
end;
LCmd := '';
if AUseUID then begin
LCmd := LCmd + IMAP4Commands[cmdUID] + ' '; {Do not Localize}
end;
LCmd := LCmd + IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' ('; {Do not Localize}
if AUsePeek then begin
LCmd := LCmd + IMAP4FetchDataItem[fdBody]+'.PEEK'; {Do not Localize}
end else begin
LCmd := LCmd + IMAP4FetchDataItem[fdBody];
end;
if not AUseFirstPartInsteadOfText then begin
LCmd := LCmd + '[TEXT])'; {Do not Localize}
end else begin
LCmd := LCmd + '[' + IntToStr(LTextPart+1) + '])'; {Do not Localize}
end;
SendCmd(NewCmdCounter, LCmd, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
try
{For an invalid request (non-existent part or message), NIL is returned as the size...}
if (LastCmdResult.Text.Count < 1)
or (not ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch],
[IMAP4FetchDataItem[fdBody]+'['+'TEXT'+']' , IMAP4FetchDataItem[fdBody]+'['+IntToStr(LTextPart+1)+']'])) {do not localize}
or (PosInStrArray(FLineStruct.IMAPValue, ['NIL', '""'], False) <> -1) {do not localize}
or (FLineStruct.ByteCount < 1) then
begin
GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False);
Result := False;
Exit;
end;
LHelper := TIdIMAP4WorkHelper.Create(Self);
try
if TextIsSame(LContentTransferEncoding, 'base64') then begin {Do not Localize}
DoDecode(TIdDecoderMIME, True);
end else if TextIsSame(LContentTransferEncoding, 'quoted-printable') then begin {Do not Localize}
DoDecode(TIdDecoderQuotedPrintable);
end else if TextIsSame(LContentTransferEncoding, 'binhex40') then begin {Do not Localize}
DoDecode(TIdDecoderBinHex4);
end else begin
{Assume no encoding (8bit) or something we cannot decode...}
DoDecode();
end;
finally
FreeAndNil(LHelper);
end;
IOHandler.ReadLnWait; {Remove last line, ')' or 'UID 1)'}
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
function TIdIMAP4.RetrieveStructure(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieveStructure(AMsgNum, AMsg, nil);
end;
function TIdIMAP4.RetrieveStructure(const AMsgNum: Integer; AParts: TIdImapMessageParts): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieveStructure(AMsgNum, nil, AParts);
end;
function TIdIMAP4.InternalRetrieveStructure(const AMsgNum: Integer; AMsg: TIdMessage; AParts: TIdImapMessageParts): Boolean;
var
LTheParts: TIdMessageParts;
begin
Result := False;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' (' + IMAP4FetchDataItem[fdBodyStructure] + ')',
[IMAP4Commands[cmdFetch]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdBodyStructure]]) then begin
if AMsg <> nil then begin
LTheParts := AMsg.MessageParts;
end else begin
LTheParts := nil;
end;
ParseBodyStructureResult(FLineStruct.IMAPValue, LTheParts, AParts);
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch]], False) = IMAP_OK then begin
Result := True;
end;
end;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
// retrieve a specific individual part of a message
function TIdIMAP4.RetrievePart(const AMsgNum: Integer; const APartNum: string;
ADestStream: TStream; AContentTransferEncoding: string): Boolean;
var
LDummy1: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
LDummy2: Integer;
begin
IsNumberValid(AMsgNum);
if ADestStream = nil then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(AMsgNum, APartNum, False, False, ADestStream, LDummy1, LDummy2, '', AContentTransferEncoding); {Do not Localize}
end;
function TIdIMAP4.RetrievePart(const AMsgNum: Integer; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := RetrievePart(AMsgNum, IntToStr(APartNum), ABuffer, ABufferLength, AContentTransferEncoding);
end;
// Retrieve a specific individual part of a message
function TIdIMAP4.RetrievePart(const AMsgNum: Integer; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrievePart(AMsgNum, APartNum, False, False, nil, ABuffer, ABufferLength, '', AContentTransferEncoding); {Do not Localize}
end;
// retrieve a specific individual part of a message
function TIdIMAP4.RetrievePartPeek(const AMsgNum: Integer; const APartNum: string;
ADestStream: TStream; AContentTransferEncoding: string): Boolean;
var
LDummy1: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
LDummy2: Integer;
begin
IsNumberValid(AMsgNum);
if ADestStream = nil then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(AMsgNum, APartNum, False, True, ADestStream, LDummy1, LDummy2, '', AContentTransferEncoding); {Do not Localize}
end;
function TIdIMAP4.RetrievePartPeek(const AMsgNum: Integer; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := RetrievePartPeek(AMsgNum, IntToStr(APartNum), ABuffer, ABufferLength, AContentTransferEncoding);
end;
//Retrieve a specific individual part of a message
function TIdIMAP4.RetrievePartPeek(const AMsgNum: Integer; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrievePart(AMsgNum, APartNum, False, True, nil, ABuffer, ABufferLength, '', AContentTransferEncoding); {Do not Localize}
end;
// Retrieve a specific individual part of a message
function TIdIMAP4.UIDRetrievePart(const AMsgUID: String; const APartNum: string;
var ADestStream: TStream; AContentTransferEncoding: string): Boolean;
var
LDummy1: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
LDummy2: Integer;
begin
IsUIDValid(AMsgUID);
if ADestStream = nil then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(IndyStrToInt(AMsgUID), APartNum, True, False, ADestStream, LDummy1, LDummy2, '', AContentTransferEncoding); {Do not Localize}
end;
function TIdIMAP4.UIDRetrievePart(const AMsgUID: String; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := UIDRetrievePart(AMsgUID, IntToStr(APartNum), ABuffer, ABufferLength, AContentTransferEncoding);
end;
// Retrieve a specific individual part of a message
function TIdIMAP4.UIDRetrievePart(const AMsgUID: String; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsUIDValid(AMsgUID);
Result := InternalRetrievePart(IndyStrToInt(AMsgUID), APartNum, True, False, nil, ABuffer, ABufferLength, '', AContentTransferEncoding); {Do not Localize}
end;
// retrieve a specific individual part of a message
function TIdIMAP4.UIDRetrievePartPeek(const AMsgUID: String; const APartNum: string;
var ADestStream: TStream; AContentTransferEncoding: string): Boolean;
var
LDummy1: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
LDummy2: Integer;
begin
IsUIDValid(AMsgUID);
if ADestStream = nil then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(IndyStrToInt(AMsgUID), APartNum, True, True, ADestStream, LDummy1, LDummy2, '', AContentTransferEncoding); {Do not Localize}
end;
function TIdIMAP4.UIDRetrievePartPeek(const AMsgUID: String; const APartNum: Integer;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := UIDRetrievePartPeek(AMsgUID, IntToStr(APartNum), ABuffer, ABufferLength, AContentTransferEncoding);
end;
function TIdIMAP4.UIDRetrievePartPeek(const AMsgUID: String; const APartNum: string;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; AContentTransferEncoding: string): Boolean;
//Retrieve a specific individual part of a message
begin
IsUIDValid(AMsgUID);
Result := InternalRetrievePart(IndyStrToInt(AMsgUID), APartNum, True, True, nil, ABuffer, ABufferLength, '', AContentTransferEncoding); {Do not Localize}
end;
function TIdIMAP4.RetrievePartToFile(const AMsgNum: Integer; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := RetrievePartToFile(AMsgNum, IntToStr(APartNum), ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
// retrieve a specific individual part of a message
function TIdIMAP4.RetrievePartToFile(const AMsgNum: Integer; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
var
LDummy: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
begin
IsNumberValid(AMsgNum);
if Length(ADestFileNameAndPath) = 0 then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(AMsgNum, APartNum, False, False, nil,
LDummy, ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
function TIdIMAP4.RetrievePartToFilePeek(const AMsgNum: Integer; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := RetrievePartToFilePeek(AMsgNum, IntToStr(APartNum), ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
// retrieve a specific individual part of a message
function TIdIMAP4.RetrievePartToFilePeek(const AMsgNum: Integer; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
var
LDummy: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
begin
IsNumberValid(AMsgNum);
if Length(ADestFileNameAndPath) = 0 then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(AMsgNum, APartNum, False, True, nil,
LDummy, ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
function TIdIMAP4.UIDRetrievePartToFile(const AMsgUID: String; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := UIDRetrievePartToFile(AMsgUID, IntToStr(APartNum), ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
// retrieve a specific individual part of a message
function TIdIMAP4.UIDRetrievePartToFile(const AMsgUID: String; const APartNum: string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
var
LDummy: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
begin
IsUIDValid(AMsgUID);
if Length(ADestFileNameAndPath) = 0 then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(IndyStrToInt(AMsgUID), APartNum, True, False, nil,
LDummy, ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
function TIdIMAP4.UIDRetrievePartToFilePeek(const AMsgUID: String; const APartNum: Integer;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
begin
IsNumberValid(APartNum);
Result := UIDRetrievePartToFilePeek(AMsgUID, IntToStr(APartNum), ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
// retrieve a specific individual part of a message
function TIdIMAP4.UIDRetrievePartToFilePeek(const AMsgUID: String; const APartNum: {Integer} string;
ALength: Integer; ADestFileNameAndPath: string; AContentTransferEncoding: string): Boolean;
var
LDummy: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
begin
IsUIDValid(AMsgUID);
if Length(ADestFileNameAndPath) = 0 then begin
Result := False;
Exit;
end;
Result := InternalRetrievePart(IndyStrToInt(AMsgUID), APartNum, True, True,
nil, LDummy, ALength, ADestFileNameAndPath, AContentTransferEncoding);
end;
// retrieve a specific individual part of a message
// TODO: remove the ABufferLength output parameter under DOTNET, it is redundant...
function TIdIMAP4.InternalRetrievePart(const AMsgNum: Integer; const APartNum: {Integer} string;
AUseUID: Boolean; AUsePeek: Boolean; ADestStream: TStream;
var ABuffer: {$IFDEF DOTNET}TIdBytes{$ELSE}PByte{$ENDIF};
var ABufferLength: Integer; {NOTE: var args cannot have default params}
ADestFileNameAndPath: string;
AContentTransferEncoding: string): Boolean;
var
LCmd: string;
bCreatedStream: Boolean;
LDestStream: TStream;
// LPartSizeParam: string;
LHelper: TIdIMAP4WorkHelper;
procedure DoDecode(ADecoderClass: TIdDecoderClass = nil; AStripCRLFs: Boolean = False);
var
LDecoder: TIdDecoder;
LStream: TStream;
LStrippedStream: TStringStream;
LUnstrippedStream: TStringStream;
begin
if LDestStream = nil then begin
LStream := TMemoryStream.Create;
end else begin
LStream := LDestStream;
end;
try
if ADecoderClass <> nil then begin
LDecoder := ADecoderClass.Create(Self);
try
LDecoder.DecodeBegin(LStream);
try
LUnstrippedStream := TStringStream.Create('');
try
IOHandler.ReadStream(LUnstrippedStream, ABufferLength); //ReadStream uses OnWork, most other methods dont
{This is more complicated than quoted-printable because we
have to strip CRLFs that have been inserted by the MTA to
avoid overly long lines...}
if AStripCRLFs then begin
LStrippedStream := TStringStream.Create('');
try
StripCRLFs(LUnstrippedStream, LStrippedStream);
LDecoder.Decode(LStrippedStream.DataString);
finally
FreeAndNil(LStrippedStream);
end;
end else begin
LDecoder.Decode(LUnstrippedStream.DataString);
end;
finally
FreeAndNil(LUnstrippedStream);
end;
finally
LDecoder.DecodeEnd;
end;
finally
FreeAndNil(LDecoder);
end;
end else begin
IOHandler.ReadStream(LStream, ABufferLength); //ReadStream uses OnWork, most other methods dont
end;
if LDestStream = nil then begin
ABufferLength := LStream.Size;
{$IFDEF DOTNET}
//ABuffer is a TIdBytes.
SetLength(ABuffer, ABufferLength);
if ABufferLength > 0 then begin
LStream.Position := 0;
ReadTIdBytesFromStream(LStream, ABuffer, ABufferLength);
end;
{$ELSE}
//ABuffer is a PByte.
GetMem(ABuffer, ABufferLength);
if ABufferLength > 0 then begin
LStream.Position := 0;
LStream.ReadBuffer(ABuffer^, ABufferLength);
end;
{$ENDIF}
end;
finally
if LDestStream = nil then begin
FreeAndNil(LStream);
end;
end;
end;
begin
{CCC: Make sure part number is valid since it is now passed as a string...}
IsImapPartNumberValid(APartNum);
Result := False;
ABuffer := nil;
ABufferLength := 0;
CheckConnectionState(csSelected);
LCmd := '';
if AUseUID then begin
LCmd := LCmd + IMAP4Commands[cmdUID] + ' '; {Do not Localize}
end;
LCmd := LCmd + IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' ('; {Do not Localize}
if AUsePeek then begin
LCmd := LCmd + IMAP4FetchDataItem[fdBody]+'.PEEK'; {Do not Localize}
end else begin
LCmd := LCmd + IMAP4FetchDataItem[fdBody];
end;
LCmd := LCmd + '[' + APartNum + '])'; {Do not Localize}
SendCmd(NewCmdCounter, LCmd, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
//LPartSizeParam := ''; {Do not Localize}
if ( (LastCmdResult.Text.Count < 1) or
(not ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], []))
or (PosInStrArray(FLineStruct.IMAPValue, ['NIL', '""'], False) <> -1) {do not localize}
or (FLineStruct.ByteCount < 1) ) then
begin
GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False);
Result := False;
Exit;
end;
{CC4: Some messages have an empty first part. These respond as:
17 FETCH (BODY[1] "" UID 20)
instead of the more normal:
17 FETCH (BODY[1] {11} {This bracket is not part of the response!
...
UID 20)
}
ABufferLength := FLineStruct.ByteCount;
bCreatedStream := False;
if ADestStream = nil then
begin
if Length(ADestFileNameAndPath) = 0 then begin
{User wants to write it to a memory block...}
LDestStream := nil;
end else begin
{User wants to write it to a file...}
LDestStream := TIdFileCreateStream.Create(ADestFileNameAndPath);
bCreatedStream := True;
end;
end else
begin
{User wants to write it to a stream ...}
LDestStream := ADestStream;
end;
try
LHelper := TIdIMAP4WorkHelper.Create(Self);
try
if TextIsSame(AContentTransferEncoding, 'base64') then begin {Do not Localize}
DoDecode(TIdDecoderMIME, True);
end else if TextIsSame(AContentTransferEncoding, 'quoted-printable') then begin {Do not Localize}
DoDecode(TIdDecoderQuotedPrintable);
end else if TextIsSame(AContentTransferEncoding, 'binhex40') then begin {Do not Localize}
DoDecode(TIdDecoderBinHex4);
end else begin
{Assume no encoding (8bit) or something we cannot decode...}
DoDecode;
end;
finally
FreeAndNil(LHelper);
end;
finally
if bCreatedStream then begin
FreeAndNil(LDestStream);
end;
end;
IOHandler.ReadLnWait; {Remove last line, ')' or 'UID 1)'}
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
function TIdIMAP4.UIDRetrieveStructure(const AMsgUID: String; AMsg: TIdMessage): Boolean;
begin
IsUIDValid(AMsgUID);
Result := UIDInternalRetrieveStructure(AMsgUID, AMsg, nil);
end;
function TIdIMAP4.UIDRetrieveStructure(const AMsgUID: String; AParts: TIdImapMessageParts): Boolean;
begin
IsUIDValid(AMsgUID);
Result := UIDInternalRetrieveStructure(AMsgUID, nil, AParts);
end;
function TIdIMAP4.UIDInternalRetrieveStructure(const AMsgUID: String; AMsg: TIdMessage; AParts: TIdImapMessageParts): Boolean;
var
//LSlRetrieve : TStringList;
//LStr: string;
LTheParts: TIdMessageParts;
begin
Result := False;
CheckConnectionState(csSelected);
//Note: The normal single-line response may be split for huge bodystructures,
//allow for this by setting ASingleLineMayBeSplit to True...
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' ' + AMsgUID + ' (' + IMAP4FetchDataItem[fdBodyStructure] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]],
True, True);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdBodyStructure]]) then begin
if AMsg <> nil then begin
LTheParts := AMsg.MessageParts;
end else begin
LTheParts := nil;
end;
ParseBodyStructureResult(FLineStruct.IMAPValue, LTheParts, AParts);
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
Result := True;
end;
end;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
function TIdIMAP4.RetrieveHeader(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
var
LStr: string;
begin
Result := False;
IsNumberValid(AMsgNum);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' (' + IMAP4FetchDataItem[fdRFC822Header] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdRFC822Header]])
and (FLineStruct.ByteCount > 0) then
begin
BeginWork(wmRead, FLineStruct.ByteCount); //allow ReadString to use OnWork
try
LStr := IOHandler.ReadString(FLineStruct.ByteCount);
finally
EndWork(wmRead);
end;
{CC2: Clear out body so don't get multiple copies of bodies}
AMsg.Clear;
AMsg.Headers.Text := LStr;
AMsg.ProcessHeaders;
LStr := IOHandler.ReadLnWait; {Remove trailing line after the message, probably a ')' }
ParseLastCmdResultButAppendInfo(LStr); //There may be a UID or FLAGS in this
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch]], False) = IMAP_OK then begin
Result := True;
end;
end;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
function TIdIMAP4.UIDRetrieveHeader(const AMsgUID: String; AMsg: TIdMessage): Boolean;
var
LStr: string;
begin
Result := False;
IsUIDValid(AMsgUID);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' ' + AMsgUID + ' (' + IMAP4FetchDataItem[fdRFC822Header] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdRFC822Header]])
and (FLineStruct.ByteCount > 0) then
begin
BeginWork(wmRead, FLineStruct.ByteCount); //allow ReadString to use OnWork
try
LStr := IOHandler.ReadString(FLineStruct.ByteCount);
finally
EndWork(wmRead);
end;
{CC2: Clear out body so don't get multiple copies of bodies}
AMsg.Clear;
AMsg.Headers.Text := LStr;
AMsg.ProcessHeaders;
LStr := IOHandler.ReadLnWait; {Remove trailing line after the message, probably a ')' }
ParseLastCmdResultButAppendInfo(LStr); //There may be a UID or FLAGS in this
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
Result := True;
end;
end;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
function TIdIMAP4.RetrievePartHeader(const AMsgNum: Integer; const APartNum: string; AHeaders: TIdHeaderList): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrievePartHeader(AMsgNum, APartNum, False, AHeaders);
end;
function TIdIMAP4.UIDRetrievePartHeader(const AMsgUID: String; const APartNum: string; AHeaders: TIdHeaderList): Boolean;
begin
IsUIDValid(AMsgUID);
Result := InternalRetrievePartHeader(IndyStrToInt(AMsgUID), APartNum, True, AHeaders);
end;
function TIdIMAP4.InternalRetrievePartHeader(const AMsgNum: Integer; const APartNum: string;
const AUseUID: Boolean; AHeaders: TIdHeaderList): Boolean;
var
LCmd: string;
begin
Result := False;
CheckConnectionState(csSelected);
LCmd := '';
if AUseUID then begin
LCmd := LCmd + IMAP4Commands[cmdUID] + ' '; {Do not Localize}
end;
LCmd := LCmd + IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' (' + IMAP4FetchDataItem[fdBody] + '[' + APartNum + '.' + IMAP4FetchDataItem[fdHeader] + '])'; {Do not Localize}
SendCmd(NewCmdCounter, LCmd, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
if LastCmdResult.Text.Count > 0 then begin
if ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [])
and (PosInStrArray(FLineStruct.IMAPValue, ['NIL', '""'], False) = -1)
and (FLineStruct.ByteCount > 0) then
begin
{CC4: Some messages have an empty first part. These respond as:
17 FETCH (BODY[1] "" UID 20)
instead of the more normal:
17 FETCH (BODY[1] {11} {This bracket is not part of the response!
...
UID 20)
}
BeginWork(wmRead, FLineStruct.ByteCount); //allow ReadString to use OnWork
try
AHeaders.Text := IOHandler.ReadString(FLineStruct.ByteCount);
finally
EndWork(wmRead);
end;
end;
end;
IOHandler.ReadLnWait;
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
//This code was just pulled up from IdMessageClient so that logging could be added.
function TIdIMAP4.ReceiveHeader(AMsg: TIdMessage; const AAltTerm: string = ''): string;
begin
repeat
Result := IOHandler.ReadLn;
// Exchange Bug: Exchange sometimes returns . when getting a message instead of
// '' then a . - That is there is no seperation between the header and the message for an
// empty message.
if ((Length(AAltTerm) = 0) and (Result = '.')) or (Result = AAltTerm) then begin
Break;
end else if Length(Result) <> 0 then begin
AMsg.Headers.Append(Result);
end;
until False;
AMsg.ProcessHeaders;
end;
function TIdIMAP4.Retrieve(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieve(AMsgNum, False, False, AMsg);
end;
//Retrieves a whole message "raw" and saves it to file, while marking it read.
function TIdIMAP4.RetrieveNoDecodeToFile(const AMsgNum: Integer; ADestFile: string): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsNumberValid(AMsgNum);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(AMsgNum, False, False, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToFile(ADestFile);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
//Retrieves a whole message "raw" and saves it to file
function TIdIMAP4.RetrieveNoDecodeToFilePeek(const AMsgNum: Integer; ADestFile: string): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsNumberValid(AMsgNum);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(AMsgNum, False, True, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToFile(ADestFile);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
//Retrieves a whole message "raw" and saves it to file, while marking it read.
function TIdIMAP4.RetrieveNoDecodeToStream(const AMsgNum: Integer; AStream: TStream): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsNumberValid(AMsgNum);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(AMsgNum, False, False, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToStream(AStream);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
//Retrieves a whole message "raw" and saves it to file
function TIdIMAP4.RetrieveNoDecodeToStreamPeek(const AMsgNum: Integer; AStream: TStream): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsNumberValid(AMsgNum);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(AMsgNum, False, True, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToStream(AStream);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
function TIdIMAP4.RetrievePeek(const AMsgNum: Integer; AMsg: TIdMessage): Boolean;
begin
IsNumberValid(AMsgNum);
Result := InternalRetrieve(AMsgNum, False, True, AMsg);
end;
function TIdIMAP4.UIDRetrieve(const AMsgUID: String; AMsg: TIdMessage): Boolean;
begin
IsUIDValid(AMsgUID);
Result := InternalRetrieve(IndyStrToInt(AMsgUID), True, False, AMsg);
end;
//Retrieves a whole message "raw" and saves it to file, while marking it read.
function TIdIMAP4.UIDRetrieveNoDecodeToFile(const AMsgUID: String; ADestFile: string): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsUIDValid(AMsgUID);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(IndyStrToInt(AMsgUID), True, False, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToFile(ADestFile);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
//Retrieves a whole message "raw" and saves it to file.
function TIdIMAP4.UIDRetrieveNoDecodeToFilePeek(const AMsgUID: String; ADestFile: string): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsUIDValid(AMsgUID);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(IndyStrToInt(AMsgUID), True, True, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToFile(ADestFile);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
//Retrieves a whole message "raw" and saves it to file, while marking it read.
function TIdIMAP4.UIDRetrieveNoDecodeToStream(const AMsgUID: String; AStream: TStream): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsUIDValid(AMsgUID);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(IndyStrToInt(AMsgUID), True, False, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToStream(AStream);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
//Retrieves a whole message "raw" and saves it to file.
function TIdIMAP4.UIDRetrieveNoDecodeToStreamPeek(const AMsgUID: String; AStream: TStream): Boolean;
var
LMsg: TIdMessage;
begin
Result := False;
IsUIDValid(AMsgUID);
LMsg := TIdMessage.Create(nil);
try
LMsg.NoDecode := True;
LMsg.NoEncode := True;
if InternalRetrieve(IndyStrToInt(AMsgUID), True, True, LMsg) then begin
{RLebeau 12/09/2012: NOT currently using the same workaround here that
is being used in AppendMsg() to avoid SMTP dot transparent output from
TIdMessage.SaveToStream(). The reason for this is because I don't
know how this method is being used and I don't want to break anything
that may be depending on that transparent output being generated...}
LMsg.SaveToStream(AStream);
Result := True;
end;
finally
FreeAndNil(LMsg);
end;
end;
function TIdIMAP4.UIDRetrievePeek(const AMsgUID: String; AMsg: TIdMessage): Boolean;
begin
IsUIDValid(AMsgUID);
Result := InternalRetrieve(IndyStrToInt(AMsgUID), True, True, AMsg);
end;
function TIdIMAP4.InternalRetrieve(const AMsgNum: Integer; AUseUID: Boolean; AUsePeek: Boolean; AMsg: TIdMessage): Boolean;
var
LStr: String;
LCmd: string;
LDestStream: TStream;
LHelper: TIdIMAP4WorkHelper;
begin
Result := False;
CheckConnectionState(csSelected);
LCmd := '';
if AUseUID then begin
LCmd := LCmd + IMAP4Commands[cmdUID] + ' '; {Do not Localize}
end;
LCmd := LCmd + IMAP4Commands[cmdFetch] + ' ' + IntToStr ( AMsgNum ) + ' ('; {Do not Localize}
if AUsePeek then begin
LCmd := LCmd + IMAP4FetchDataItem[fdBodyPeek]; {Do not Localize}
end else begin
LCmd := LCmd + IMAP4FetchDataItem[fdRFC822]; {Do not Localize}
end;
LCmd := LCmd + ')'; {Do not Localize}
SendCmd(NewCmdCounter, LCmd, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], True, False);
if LastCmdResult.Code = IMAP_OK then begin
{CC3: Catch "Connection reset by peer"...}
try
//Leave 3rd param as [] because ParseLastCmdResult can get a number of odd
//replies ( variants on Body[] )...
if (LastCmdResult.Text.Count < 1) or
(not ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [])) then
begin
Exit;
end;
{CC8: Retrieve via byte count instead of looking for terminator,
which was impossible to get working with all the different IMAP
servers because some left the terminator (LExpectedResponse) at
the end of a message line, so you could not decide if it was
part of the message or the terminator.}
AMsg.Clear;
if FLineStruct.ByteCount > 0 then begin
{Use a temporary memory block to suck the message into...}
// TODO: use TIdTCPStream instead and let TIdIOHandlerStreamMsg below read
// from this IOHandler directly so we don't have to waste memory reading
// potentially large messages...
LDestStream := TMemoryStream.Create;
try
LHelper := TIdIMAP4WorkHelper.Create(Self);
try
IOHandler.ReadStream(LDestStream, FLineStruct.ByteCount); //ReadStream uses OnWork, most other methods dont
finally
FreeAndNil(LHelper);
end;
{Feed stream into the standard message parser...}
LDestStream.Position := 0;
{RLebeau 12/09/2012: this is a workaround to a design limitation in
TIdMessage.LoadFromStream(). It assumes the stream data is always
in an escaped format using SMTP dot transparency, but that is not
the case in IMAP! Until this design is corrected, we have to use a
workaround for now. This logic is copied from TIdMessage.LoadFromStream()
and slightly tweaked...}
//AMsg.LoadFromStream(LDestStream);
{$IFDEF HAS_CLASS_HELPER}
AMsg.LoadFromStream(LDestStream, False, False);
{$ELSE}
TIdMessageHelper_LoadFromStream(AMsg, LDestStream, False, False);
{$ENDIF}
finally
FreeAndNil(LDestStream);
end;
end;
LStr := IOHandler.ReadLnWait; {Remove trailing line after the message, probably a ')' }
ParseLastCmdResultButAppendInfo(LStr); //There may be a UID or FLAGS in this
if GetInternalResponse(LastCmdCounter, [IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]], False) = IMAP_OK then begin
AMsg.UID := FLineStruct.UID;
AMsg.Flags := FLineStruct.Flags;
Result := True;
end;
except
on E: EIdSocketError do begin
if ((E.LastError = Id_WSAECONNABORTED) or (E.LastError = Id_WSAECONNRESET)) then begin
FConnectionState := csUnexpectedlyDisconnected;
end;
raise;
end;
end;
end;
end;
function TIdIMAP4.RetrieveAllHeaders(AMsgList: TIdMessageCollection): Boolean;
begin
Result := InternalRetrieveHeaders(AMsgList, -1);
end;
function TIdIMAP4.RetrieveFirstHeaders(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
begin
Result := InternalRetrieveHeaders(AMsgList, ACount);
end;
function TIdIMAP4.InternalRetrieveHeaders(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
var
LMsgItem : TIdMessageItem;
Ln : Integer;
begin
{CC2: This may get a response of "OK completed" if there are no messages}
CheckConnectionState(csSelected);
Result := False;
if AMsgList <> nil then begin
if (ACount < 0) or (ACount > FMailBox.TotalMsgs) then begin
ACount := FMailBox.TotalMsgs;
end;
// TODO: can this be accomplished using a single FETCH, similar to RetrieveAllEnvelopes()?
for Ln := 1 to ACount do begin
LMsgItem := AMsgList.Add;
if not RetrieveHeader(Ln, LMsgItem.Msg) then begin
Exit;
end;
end;
Result := True;
end;
end;
function TIdIMAP4.RetrieveAllMsgs(AMsgList: TIdMessageCollection): Boolean;
begin
Result := InternalRetrieveMsgs(AMsgList, -1);
end;
function TIdIMAP4.RetrieveFirstMsgs(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
begin
Result := InternalRetrieveMsgs(AMsgList, ACount);
end;
function TIdIMAP4.InternalRetrieveMsgs(AMsgList: TIdMessageCollection; ACount: Integer): Boolean;
var
LMsgItem : TIdMessageItem;
Ln : Integer;
begin
{CC2: This may get a response of "OK completed" if there are no messages}
CheckConnectionState(csSelected);
Result := False;
if AMsgList <> nil then begin
if (ACount < 0) or (ACount > FMailBox.TotalMsgs) then begin
ACount := FMailBox.TotalMsgs;
end;
// TODO: can this be accomplished using a single FETCH, similar to RetrieveAllEnvelopes()?
for Ln := 1 to ACount do begin
LMsgItem := AMsgList.Add;
if not Retrieve(Ln, LMsgItem.Msg) then begin
Exit;
end;
end;
Result := True;
end;
end;
function TIdIMAP4.DeleteMsgs(const AMsgNumList: array of Integer): Boolean;
begin
Result := StoreFlags(AMsgNumList, sdAdd, [mfDeleted]);
end;
function TIdIMAP4.UIDDeleteMsg(const AMsgUID: String): Boolean;
begin
IsUIDValid(AMsgUID);
Result := UIDStoreFlags(AMsgUID, sdAdd, [mfDeleted]);
end;
function TIdIMAP4.UIDDeleteMsgs(const AMsgUIDList: array of String): Boolean;
begin
Result := UIDStoreFlags(AMsgUIDList, sdAdd, [mfDeleted]);
end;
function TIdIMAP4.RetrieveMailBoxSize: Integer;
var
Ln : Integer;
begin
CheckConnectionState(csSelected);
Result := -1;
{CC2: This should not be checking FMailBox.TotalMsgs because the server may
have added messages to the mailbox unknown to us, and we are going to ask the
server anyway (if it's empty, we will return 0 anyway}
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' 1:*' + ' (' + IMAP4FetchDataItem[fdRFC822Size] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
Result := 0;
for Ln := 0 to FMailBox.TotalMsgs - 1 do begin
if ParseLastCmdResult(LastCmdResult.Text[Ln], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdRFC822Size]]) then begin
Result := Result + IndyStrToInt( FLineStruct.IMAPValue );
end else begin
{CC2: Return -1, not 0, if we cannot parse the result...}
Result := -1;
Exit;
end;
end;
end;
end;
function TIdIMAP4.UIDRetrieveMailBoxSize: Integer;
var
Ln : Integer;
begin
CheckConnectionState(csSelected);
Result := -1;
{CC2: This should not be checking FMailBox.TotalMsgs because the server may
have added messages to the mailbox unknown to us, and we are going to ask the
server anyway (if it's empty, we will return 0 anyway}
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' 1:*' + ' (' + IMAP4FetchDataItem[fdRFC822Size] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]]);
if LastCmdResult.Code = IMAP_OK then begin
Result := 0;
for Ln := 0 to FMailBox.TotalMsgs - 1 do begin
if ParseLastCmdResult(LastCmdResult.Text[Ln], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdRFC822Size]]) then begin
Result := Result + IndyStrToInt(FLineStruct.IMAPValue);
end else begin
{CC2: Return -1, not 0, if we cannot parse the result...}
Result := -1;
Break;
end;
end;
end;
end;
function TIdIMAP4.RetrieveMsgSize(const AMsgNum: Integer): Integer;
begin
Result := -1;
IsNumberValid(AMsgNum);
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr ( AMsgNum ) + ' (' + IMAP4FetchDataItem[fdRFC822Size] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
if (LastCmdResult.Text.Count > 0) and
ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdRFC822Size]]) then begin
Result := IndyStrToInt(FLineStruct.IMAPValue);
end;
end;
end;
function TIdIMAP4.UIDRetrieveMsgSize(const AMsgUID: String): Integer;
begin
IsUIDValid(AMsgUID);
Result := -1;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' ' + AMsgUID + ' (' + IMAP4FetchDataItem[fdRFC822Size] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]]);
if LastCmdResult.Code = IMAP_OK then begin
if (LastCmdResult.Text.Count > 0) and
ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdRFC822Size]]) then begin
Result := IndyStrToInt(FLineStruct.IMAPValue);
end;
end;
end;
function TIdIMAP4.CheckMsgSeen(const AMsgNum: Integer): Boolean;
var
LFlags: TIdMessageFlagsSet;
begin
IsNumberValid(AMsgNum);
Result := False;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr(AMsgNum) + ' (' + IMAP4FetchDataItem[fdFlags] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
if (LastCmdResult.Text.Count > 0) and
ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdFlags]]) then begin
LFlags := FLineStruct.Flags;
if mfSeen in LFlags then begin
Result := True;
end;
end;
end;
end;
function TIdIMAP4.UIDCheckMsgSeen(const AMsgUID: String): Boolean;
var
LFlags: TIdMessageFlagsSet;
begin
IsUIDValid(AMsgUID);
{Default to unseen, so if get no flags back (i.e. no \Seen flag)
we return False (i.e. we return it is unseen)
Some servers return nothing at all if no flags set (the better ones return an empty set).}
Result := False;
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' ' + AMsgUID + ' (' + IMAP4FetchDataItem[fdFlags] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]]);
if LastCmdResult.Code = IMAP_OK then begin
if (LastCmdResult.Text.Count > 0) and
ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdFlags]]) then begin
LFlags := FLineStruct.Flags;
if mfSeen in LFlags then begin
Result := True;
end;
end;
end;
end;
function TIdIMAP4.RetrieveFlags(const AMsgNum: Integer; var AFlags: {Pointer}TIdMessageFlagsSet): Boolean;
begin
IsNumberValid(AMsgNum);
Result := False;
{CC: Empty set to avoid returning resuts from a previous call if call fails}
AFlags := [];
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdFetch] + ' ' + IntToStr (AMsgNum) + ' (' + IMAP4FetchDataItem[fdFlags] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch]]);
if LastCmdResult.Code = IMAP_OK then begin
if (LastCmdResult.Text.Count > 0) and
ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdFlags]]) then begin
AFlags := FLineStruct.Flags;
Result := True;
end;
end;
end;
function TIdIMAP4.UIDRetrieveFlags(const AMsgUID: String; var AFlags: TIdMessageFlagsSet): Boolean;
begin
IsUIDValid(AMsgUID);
Result := False;
{BUG FIX: Empty set to avoid returning resuts from a previous call if call fails}
AFlags := [];
CheckConnectionState(csSelected);
SendCmd(NewCmdCounter,
IMAP4Commands[cmdUID] + ' ' + IMAP4Commands[cmdFetch] + ' ' + AMsgUID + ' (' + IMAP4FetchDataItem[fdFlags] + ')', {Do not Localize}
[IMAP4Commands[cmdFetch], IMAP4Commands[cmdUID]]);
if LastCmdResult.Code = IMAP_OK then begin
if (LastCmdResult.Text.Count > 0) and
ParseLastCmdResult(LastCmdResult.Text[0], IMAP4Commands[cmdFetch], [IMAP4FetchDataItem[fdFlags]]) then begin
AFlags := FLineStruct.Flags;
Result := True;
end;
end;
end;
function TIdIMAP4.GetConnectionStateName: String;
begin
case FConnectionState of
csAny : Result := RSIMAP4ConnectionStateAny;
csNonAuthenticated : Result := RSIMAP4ConnectionStateNonAuthenticated;
csAuthenticated : Result := RSIMAP4ConnectionStateAuthenticated;
csSelected : Result := RSIMAP4ConnectionStateSelected;
csUnexpectedlyDisconnected : Result := RSIMAP4ConnectionStateUnexpectedlyDisconnected;
end;
end;
{ TIdIMAP4 Commands }
{ Parser Functions... }
{This recursively parses down. It gets either a line like:
"text" "plain" ("charset" "ISO-8859-1") NIL NIL "7bit" 40 1 NIL NIL NIL
which it parses into AThisImapPart, and we are done (at the end of the
recursive calls), or a line like:
("text" "plain"...NIL)("text" "html"...NIL) "alternative" ("boundary" "----bdry") NIL NIL
when we need to add "alternative" and the boundary to this part, but recurse
down for the 1st two parts. }
procedure TIdIMAP4.ParseImapPart(ABodyStructure: string;
AImapParts: TIdImapMessageParts; AThisImapPart: TIdImapMessagePart; AParentImapPart: TIdImapMessagePart; //ImapPart version
APartNumber: integer);
var
LNextImapPart: TIdImapMessagePart;
LSubParts: TStringList;
LPartNumber: integer;
begin
ABodyStructure := Trim(ABodyStructure);
AThisImapPart.FUnparsedEntry := ABodyStructure;
if ABodyStructure[1] <> '(' then begin {Do not Localize}
//We are at the bottom. Parse the low-level '"text" "plain"...' into this part.
ParseBodyStructurePart(ABodyStructure, nil, AThisImapPart);
if AParentImapPart = nil then begin
//This is the top-level part, and it is "text" "plain" etc, so it is not MIME...
AThisImapPart.Encoding := mePlainText;
AThisImapPart.ImapPartNumber := '1'; {Do not Localize}
AThisImapPart.ParentPart := -1;
end else begin
AThisImapPart.Encoding := meMIME;
AThisImapPart.ImapPartNumber := AParentImapPart.ImapPartNumber+'.'+IntToStr(APartNumber); {Do not Localize}
//If we are the first level down in MIME, the parent part was '', so trim...
if AThisImapPart.ImapPartNumber[1] = '.' then begin {Do not Localize}
AThisImapPart.ImapPartNumber := Copy(AThisImapPart.ImapPartNumber, 2, MaxInt);
end;
AThisImapPart.ParentPart := AParentImapPart.Index;
end;
end else begin
AThisImapPart.Encoding := meMIME;
if AParentImapPart = nil then begin
AThisImapPart.ImapPartNumber := '';
AThisImapPart.ParentPart := -1;
end else begin
AThisImapPart.ImapPartNumber := AParentImapPart.ImapPartNumber+'.'+IntToStr(APartNumber); {Do not Localize}
//If we are the first level down in MIME, the parent part was '', so trim...
if AThisImapPart.ImapPartNumber[1] = '.' then begin {Do not Localize}
AThisImapPart.ImapPartNumber := Copy(AThisImapPart.ImapPartNumber, 2, MaxInt);
end;
AThisImapPart.ParentPart := AParentImapPart.Index;
end;
LSubParts := TStringList.Create;
try
ParseIntoBrackettedQuotedAndUnquotedParts(ABodyStructure, LSubParts, True);
LPartNumber := 1;
while (LSubParts.Count > 0) and (LSubParts[0] <> '') and (LSubParts[0][1] = '(') do begin {Do not Localize}
LNextImapPart := AImapParts.Add;
ParseImapPart(Copy(LSubParts[0], 2, Length(LSubParts[0])-2), AImapParts, LNextImapPart, AThisImapPart, LPartNumber);
LSubParts.Delete(0);
Inc(LPartNumber);
end;
if LSubParts.Count > 0 then begin
//LSubParts now (only) holds the params for this part...
AThisImapPart.FBodyType := LowerCase(GetNextQuotedParam(LSubParts[0], True)); //mixed, alternative
end else begin
AThisImapPart.FBodyType := '';
end;
finally
FreeAndNil(LSubParts);
end;
end;
end;
{ WARNING: Not used by writer, may have bugs.
Version of ParseImapPart except using TIdMessageParts.
Added for compatibility with TIdMessage.MessageParts,
but does not have enough functionality for many IMAP functions. }
procedure TIdIMAP4.ParseMessagePart(ABodyStructure: string;
AMessageParts: TIdMessageParts; AThisMessagePart: TIdMessagePart; AParentMessagePart: TIdMessagePart; //MessageParts version
APartNumber: integer);
var
LNextMessagePart: TIdMessagePart;
LSubParts: TStringList;
LPartNumber: integer;
begin
ABodyStructure := Trim(ABodyStructure);
if ABodyStructure[1] <> '(' then begin {Do not Localize}
//We are at the bottom. Parse this into this part.
ParseBodyStructurePart(ABodyStructure, AThisMessagePart, nil);
if AParentMessagePart = nil then begin
//This is the top-level part, and it is "text" "plain" etc, so it is not MIME...
AThisMessagePart.ParentPart := -1;
end else begin
AThisMessagePart.ParentPart := AParentMessagePart.Index;
end;
end else begin
LSubParts := TStringList.Create;
try
ParseIntoBrackettedQuotedAndUnquotedParts(ABodyStructure, LSubParts, True);
LPartNumber := 1;
while (LSubParts.Count > 0) and (LSubParts[0] <> '') and (LSubParts[0][1] = '(') do begin {Do not Localize}
LNextMessagePart := TIdAttachmentMemory.Create(AMessageParts);
ParseMessagePart(Copy(LSubParts[0], 2, Length(LSubParts[0])-2), AMessageParts, LNextMessagePart, AThisMessagePart, LPartNumber);
LSubParts.Delete(0);
Inc(LPartNumber);
end;
//LSubParts now (only) holds the params for this part...
if AParentMessagePart = nil then begin
AThisMessagePart.ParentPart := -1;
end else begin
AThisMessagePart.ParentPart := AParentMessagePart.Index;
end;
finally
FreeAndNil(LSubParts);
end;
end;
end;
{CC2: Function added to support individual part retreival}
{
If it's a single-part message, it won't be enclosed in brackets - it will be:
"body type": "TEXT", "application", "image", "MESSAGE" (followed by subtype RFC822 for envelopes, ignore)
"body subtype": "PLAIN", "octet-stream", "tiff", "html"
"body parameter parenthesized list": bracketted list of pairs ("CHARSET" "US-ASCII" "NAME" "cc.tif" "format" "flowed"), ("charset" "ISO-8859-1")
"body id": NIL, 986767766767887@fg.com
"body description": NIL, "Compiler diff"
"body encoding": "7bit" "8bit" "binary" (NO encoding used with these), "quoted-printable" "base64" "ietf-token" "x-token"
"body size" 2279
"body lines" 48 (only present for some types, only those with "body type=text" and "body subtype=plain" that I found, if not present it WONT be a NIL, it just won't be there! However, it won't be needed)
<don't know> NIL
<don't know> ("inline" ("filename" "classbd.h")), ("attachment" ("filename" "DEGDAY.WB3"))
<don't know> NIL
Example:
* 4 FETCH (BODYSTRUCTURE ("text" "plain" ("charset" "ISO-8859-1") NIL NIL "7bit" 40 1 NIL NIL NIL))
---------------------------------------------------------------------------
For most multi-part messages, each part will be bracketted:
( (part 1 stuff) (part 2 stuff) "mixed" (boundary) NIL NIL )
Example:
* 1 FETCH (BODYSTRUCTURE (("text" "plain" ("charset" "us-ascii" "format" "flowed")
NIL NIL "7bit" 52 3 NIL NIL NIL)("text" "plain" ("name" "tnkin.txt") NIL NIL
"7bit" 28421 203 NIL ("inline" ("filename" "tnkin.txt")) NIL) "mixed"
("boundary" "------------070105030104060407030601") NIL NIL))
---------------------------------------------------------------------------
Some multiparts are bracketted again. This is the "alternative" encoding,
part 1 has two parts, a plain-text part and a html part:
( ( (part 1a stuff) (part 1b stuff) "alternative" (boundary) NIL NIL ) (part 2 stuff) "mixed" (boundary) NIL NIL )
1 2 2 1
Example:
* 50 FETCH (BODYSTRUCTURE ((("text" "plain" ("charset" "ISO-8859-1") NIL NIL
"quoted-printable" 415 12 NIL NIL NIL)("text" "html" ("charset" "ISO-8859-1")
NIL NIL "quoted-printable" 1034 25 NIL NIL NIL) "alternative" ("boundary"
"----=_NextPart_001_0027_01C33A37.33CFE220") NIL NIL)("application" "x-zip-compressed"
("name" "IdIMAP4.zip") NIL NIL "base64" 20572 NIL ("attachment" ("filename"
"IdIMAP4.zip")) NIL) "mixed" ("boundary" "----=_NextPart_000_0026_01C33A37.33CFE220")
NIL NIL) UID 62)
}
procedure TIdIMAP4.ParseBodyStructureResult(ABodyStructure: string; ATheParts: TIdMessageParts; AImapParts: TIdImapMessageParts);
begin
{CC7: New code uses a different parsing method that allows for multisection parts.}
if AImapParts <> nil then begin //Just sort out the ImapParts version for now
ParseImapPart(ABodyStructure, AImapParts, AImapParts.Add, nil, -1);
end;
if ATheParts <> nil then begin
ParseMessagePart(ABodyStructure, ATheParts, TIdAttachmentMemory.Create(ATheParts), nil, -1);
end;
end;
procedure TIdIMAP4.ParseTheLine(ALine: string; APartsList: TStrings);
var
LTempList: TStringList;
LN: integer;
LStr, LWord: string;
begin
{Parse it and see what we get...}
LTempList := TStringList.Create;
try
ParseIntoParts(ALine, LTempList);
{Copy any parts from LTempList into the list of parts LPartsList...}
for LN := 0 to LTempList.Count-1 do begin
LStr := LTempList.Strings[LN];
LWord := LowerCase(GetNextWord(LStr));
if CharEquals(LStr, 1, '(') or (PosInStrArray(LWord, ['"text"', '"image"', '"application"'], False) <> -1) then begin {Do not Localize}
APartsList.Add(LStr);
end;
end;
finally
FreeAndNil(LTempList);
end;
end;
procedure TIdIMAP4.ParseBodyStructurePart(APartString: string; AThePart: TIdMessagePart;
AImapPart: TIdImapMessagePart);
{CC3: Function added to support individual part retreival}
var
LParams: TStringList;
// LContentDispositionStuff: string;
LCharSet: String;
LFilename: string;
LDescription: string;
LTemp: string;
LSize: integer;
LPos: Integer;
begin
{Individual parameters may be strings like "text", NIL, a number, or bracketted pairs like
("CHARSET" "US-ASCII" "NAME" "cc.tif" "format" "flowed")...}
{There are three common line formats, with differing numbers of parameters:
(a) "TEXT" "HTML" ("CHARSET" "iso-8859-1") NIL NIL "QUOTED-PRINTABLE" 2879 69 NIL NIL NIL
(a) "TEXT" "HTML" ("CHARSET" "iso-8859-1") NIL NIL "QUOTED-PRINTABLE" 2879 69 NIL NIL
(c) "TEXT" "HTML" ("CHARSET" "iso-8859-1") NIL NIL "QUOTED-PRINTABLE" 2879 69
Note the last one only has 7 parameters, need to watch we don't index past the 7th!}
LParams := TStringList.Create;
try
ParseIntoParts(APartString, LParams);
{Build up strings into same format as used by message decoders...}
{Content Disposition: If present, may be at index 8 or 9...}
{CC8: Altered to allow for case where it may not be present at all (get "List
index out of bounds" error if try to access non-existent LParams[9])...}
// LContentDispositionStuff := ''; {Do not Localize}
// if LParams.Count > 9 then begin {Have an LParams[9]}
// if TextIsSame(LParams[9], 'NIL') then begin {Do not Localize}
{It's NIL at 9, must be at 8...}
// if TextIsSame(LParams[8], 'NIL') then begin {Do not Localize}
// LContentDispositionStuff := LParams[8];
// end;
// end else begin
{It's not NIL, must be valid...}
// LContentDispositionStuff := LParams[9];
// end;
// end else if LParams.Count > 8 then begin {Have an LParams[8]}
// if TextIsSame(LParams[8], 'NIL') then begin {Do not Localize}
// LContentDispositionStuff := LParams[8];
// end;
// end;
{Find and clean up the filename, if present...}
LFilename := ''; {Do not Localize}
LPos := IndyPos('"NAME"', UpperCase(APartString)); {Do not Localize}
if LPos > 0 then begin
LTemp := Copy(APartString, LPos+7, MaxInt);
LFilename := GetNextQuotedParam(LTemp, False);
end else
begin
LPos := IndyPos('"FILENAME"', UpperCase(APartString)); {Do not Localize}
if LPos > 0 then begin
LTemp := Copy(APartString, LPos+11, MaxInt);
LFilename := GetNextQuotedParam(LTemp, False);
end;
end;
{If the filename starts and ends with double-quotes, remove them...}
if Length(LFilename) > 1 then begin
if TextStartsWith(LFilename, '"') and TextEndsWith(LFilename, '"') then begin {Do not Localize}
LFilename := Copy(LFilename, 2, Length(LFilename)-2);
end;
end;
{CC7: The filename may be encoded, so decode it...}
if Length(LFilename) > 1 then begin
LFilename := DecodeHeader(LFilename);
end;
LCharSet := '';
if IndyPos('"CHARSET"', UpperCase(LParams[2])) > 0 then begin {Do not Localize}
LTemp := Copy(LParams[2], IndyPos('"CHARSET" ', UpperCase(LParams[2]))+10, MaxInt); {Do not Localize}
LCharSet := GetNextQuotedParam(LTemp, True);
end;
LSize := 0;
if (not TextIsSame(LParams[6], 'NIL')) and (Length(LParams[6]) <> 0) then begin
LSize := IndyStrToInt(LParams[6]); {Do not Localize}
end;
LDescription := ''; {Do not Localize}
if (LParams.Count > 9) and (not TextIsSame(LParams[9], 'NIL')) then begin {Do not Localize}
LDescription := GetNextQuotedParam(LParams[9], False);
end else if (LParams.Count > 8) and (not TextIsSame(LParams[8], 'NIL')) then begin {Do not Localize}
LDescription := GetNextQuotedParam(LParams[8], False);
end;
if AThePart <> nil then begin
{Put into the same format as TIdMessage MessageParts...}
AThePart.ContentType := LParams[0]+'/'+LParams[1]+ParseBodyStructureSectionAsEquates(LParams[2]); {Do not Localize}
AThePart.ContentTransfer := LParams[5];
//Watch out for BinHex4.0, the encoding is inferred from the Content-Type...
if IsHeaderMediaType(AThePart.ContentType, 'application/mac-binhex40') then begin {do not localize}
AThePart.ContentTransfer := 'binhex40'; {do not localize}
end;
AThePart.DisplayName := LFilename;
end;
if AImapPart <> nil then begin
AImapPart.FBodyType := LParams[0];
AImapPart.FBodySubType := LParams[1];
AImapPart.FFileName := LFilename;
AImapPart.FDescription := LDescription;
AImapPart.FCharSet := LCharSet;
AImapPart.FContentTransferEncoding := LParams[5];
AImapPart.FSize := LSize;
//Watch out for BinHex4.0, the encoding is inferred from the Content-Type...
if ( (TextIsSame(AImapPart.FBodyType, 'application')) {do not localize}
and (TextIsSame(AImapPart.FBodySubType, 'mac-binhex40')) ) then begin {do not localize}
AImapPart.FContentTransferEncoding := 'binhex40'; {do not localize}
end;
end;
finally
FreeAndNil(LParams);
end;
end;
function ResolveQuotedSpecials(const AParam: string): string;
begin
// Handle quoted_specials, RFC1730
// \ with other chars than " or \ after, looks illegal in RFC1730, but leave them untouched
// TODO: use StringsReplace() instead
//Result := StringsReplace(AParam, ['\"', '\\'], ['"', '\']);
Result := ReplaceAll(AParam, '\"', '"');
Result := ReplaceAll(Result, '\\', '\');
end;
procedure TIdIMAP4.ParseIntoParts(APartString: string; AParams: TStrings);
var
LInPart: Integer;
LStartPos: Integer;
//don't rename this LParam. That's the same asa windows identifier
LParamater: string;
LBracketLevel: Integer;
Ln: Integer;
LInQuotesInsideBrackets: Boolean;
LInQuotedSpecial: Boolean;
begin
LStartPos := 0; {Stop compiler whining}
LBracketLevel := 0; {Stop compiler whining}
LInQuotesInsideBrackets := False; {Stop compiler whining}
LInQuotedSpecial := False; {Stop compiler whining}
LInPart := 0; {0 is not in a part, 1 is in a quote-delimited part, 2 is in a bracketted parameter-pair list}
for Ln := 1 to Length(APartString) do begin
if (LInPart = 1) or ((LInPart = 2) and LInQuotesInsideBrackets) then begin
if LInQuotedSpecial then begin
LInQuotedSpecial := False;
end
else if APartString[Ln] = '\' then begin {Do not Localize}
LInQuotedSpecial := True;
end
else if APartString[Ln] = '"' then begin {Do not Localize}
if LInPart = 1 then begin
LParamater := Copy(APartString, LStartPos+1, Ln-LStartPos-1);
AParams.Add(ResolveQuotedSpecials(LParamater));
LInPart := 0;
end else begin
LInQuotesInsideBrackets := False;
end;
end;
end else if LInPart = 2 then begin
//We have to watch out that we don't close this entry on a closing bracket within
//quotes, like ("Blah" "Blah)Blah"), so monitor if we are in quotes within brackets.
if APartString[Ln] = '"' then begin {Do not Localize}
LInQuotesInsideBrackets := True;
LInQuotedSpecial := False;
end
else if APartString[Ln] = '(' then begin {Do not Localize}
Inc(LBracketLevel);
end
else if APartString[Ln] = ')' then begin {Do not Localize}
Dec(LBracketLevel);
if LBracketLevel = 0 then begin
LParamater := Copy(APartString, LStartPos+1, Ln-LStartPos-1);
AParams.Add(LParamater);
LInPart := 0;
end;
end;
end else if LInPart = 3 then begin
if APartString[Ln] = 'L' then begin {Do not Localize}
LParamater := Copy(APartString, LStartPos, Ln-LStartPos+1);
AParams.Add(LParamater);
LInPart := 0;
end;
end else if LInPart = 4 then begin
if not IsNumeric(APartString[Ln]) then begin
LParamater := Copy(APartString, LStartPos, Ln-LStartPos);
AParams.Add(LParamater);
LInPart := 0;
end;
end else if APartString[Ln] = '"' then begin {Do not Localize}
{Start of a quoted param like "text"}
LStartPos := Ln;
LInPart := 1;
LInQuotedSpecial := False;
end else if APartString[Ln] = '(' then begin {Do not Localize}
{Start of a set of paired parameter/value strings within brackets,
such as ("charset" "us-ascii"). Note these can be nested (bracket pairs
within bracket pairs) }
LStartPos := Ln;
LInPart := 2;
LBracketLevel := 1;
LInQuotesInsideBrackets := False;
end else if TextIsSame(APartString[Ln], 'N') then begin {Do not Localize}
{Start of a NIL entry}
LStartPos := Ln;
LInPart := 3;
end else if IsNumeric(APartString[Ln]) then begin
{Start of a numeric entry like 12345}
LStartPos := Ln;
LInPart := 4;
end;
end;
{We could be in a numeric entry when we hit the end of the line...}
if LInPart = 4 then begin
LParamater := Copy(APartString, LStartPos, MaxInt);
AParams.Add(LParamater);
end;
end;
procedure TIdIMAP4.ParseIntoBrackettedQuotedAndUnquotedParts(APartString: string; AParams: TStrings; AKeepBrackets: Boolean);
var
LInPart: Integer;
LStartPos: Integer;
//don't rename this back to LParam, that's a Windows identifier.
LParamater: string;
LBracketLevel: Integer;
Ln: Integer;
LInQuotesInsideBrackets: Boolean;
LInQuotedSpecial: Boolean;
begin
{Break:
* LIST (\UnMarked \AnotherFlag) "/" "Mailbox name"
into:
*
LIST
(\UnMarked \AnotherFlag)
"/"
"Mailbox name"
If AKeepBrackets is false, return '\UnMarked \AnotherFlag' instead of '(\UnMarked \AnotherFlag)'
}
AParams.Clear;
LStartPos := 0; {Stop compiler whining}
LBracketLevel := 0; {Stop compiler whining}
LInQuotesInsideBrackets := False; {Stop compiler whining}
LInQuotedSpecial := False; {Stop compiler whining}
LInPart := 0; {0 is not in a part, 1 is in a quote-delimited part, 2 is in a bracketted part, 3 is a word}
APartString := Trim(APartString);
for Ln := 1 to Length(APartString) do begin
if (LInPart = 1) or ((LInPart = 2) and LInQuotesInsideBrackets) then begin
if LInQuotedSpecial then begin
LInQuotedSpecial := False;
end
else if APartString[Ln] = '\' then begin {Do not Localize}
LInQuotedSpecial := True;
end
else if APartString[Ln] = '"' then begin {Do not Localize}
if LInPart = 1 then begin
LParamater := Copy(APartString, LStartPos+1, Ln-LStartPos-1);
AParams.Add(ResolveQuotedSpecials(LParamater));
LInPart := 0;
end else begin
LInQuotesInsideBrackets := False;
end;
end;
end else if LInPart = 2 then begin
//We have to watch out that we don't close this entry on a closing bracket within
//quotes, like ("Blah" "Blah)Blah"), so monitor if we are in quotes within brackets.
if APartString[Ln] = '"' then begin {Do not Localize}
LInQuotesInsideBrackets := True;
LInQuotedSpecial := False;
end
else if APartString[Ln] = '(' then begin {Do not Localize}
Inc(LBracketLevel);
end
else if APartString[Ln] = ')' then begin {Do not Localize}
Dec(LBracketLevel);
if LBracketLevel = 0 then begin
if AKeepBrackets then begin
LParamater := Copy(APartString, LStartPos, Ln-LStartPos+1);
end else begin
LParamater := Copy(APartString, LStartPos+1, Ln-LStartPos-1);
end;
AParams.Add(LParamater);
LInPart := 0;
end;
end;
end else if LInPart = 3 then begin
if APartString[Ln] = ' ' then begin {Do not Localize}
LParamater := Copy(APartString, LStartPos, Ln-LStartPos);
AParams.Add(LParamater);
LInPart := 0;
end;
end else if APartString[Ln] = '"' then begin {Do not Localize}
{Start of a quoted param like "text"}
LStartPos := Ln;
LInPart := 1;
LInQuotedSpecial := False;
end else if APartString[Ln] = '(' then begin {Do not Localize}
{Start of a set of paired parameter/value strings within brackets,
such as ("charset" "us-ascii"). Note these can be nested (bracket pairs
within bracket pairs) }
LStartPos := Ln;
LInPart := 2;
LBracketLevel := 1;
LInQuotesInsideBrackets := False;
end else if APartString[Ln] <> ' ' then begin {Do not Localize}
{Start of an entry like 12345}
LStartPos := Ln;
LInPart := 3;
end;
end;
{We could be in an entry when we hit the end of the line...}
if LInPart = 3 then begin
LParamater := Copy(APartString, LStartPos, MaxInt);
AParams.Add(LParamater);
end else if LInPart = 2 then begin
if AKeepBrackets then begin
LParamater := Copy(APartString, LStartPos, MaxInt);
end else begin
LParamater := Copy(APartString, LStartPos+1, MaxInt);
end;
if (not AKeepBrackets) and TextEndsWith(LParamater, ')') then begin {Do not Localize}
LParamater := Copy(LParamater, 1, Length(LParamater)-1);
end;
AParams.Add(LParamater);
end else if LInPart = 1 then begin
LParamater := Copy(APartString, LStartPos+1, MaxInt);
if TextEndsWith(LParamater, '"') then begin {Do not Localize}
LParamater := Copy(LParamater, 1, Length(LParamater)-1);
end;
AParams.Add(ResolveQuotedSpecials(LParamater));
end;
end;
function TIdIMAP4.ParseBodyStructureSectionAsEquates(AParam: string): string;
{Convert:
"Name1" "Value1" "Name2" "Value2"
to:
; Name1="Value1"; Name2="Value2"
}
var
LParse: TStringList;
LN: integer;
begin
Result := ''; {Do not Localize}
if (Length(AParam) = 0) or TextIsSame(AParam, 'NIL') then begin {Do not Localize}
Exit;
end;
LParse := TStringList.Create;
try
BreakApartParamsInQuotes(AParam, LParse);
if LParse.Count < 2 then begin
Exit;
end;
if ((LParse.Count mod 2) <> 0) then begin
Exit;
end;
for LN := 0 to ((LParse.Count div 2)-1) do begin
Result := Result + '; ' + Copy(LParse[LN*2], 2, Length(LParse[LN*2])-2) + '=' + LParse[(LN*2)+1]; {Do not Localize}
end;
finally
FreeAndNil(LParse);
end;
end;
function TIdIMAP4.ParseBodyStructureSectionAsEquates2(AParam: string): string;
{Convert:
"Name1" ("Name2" "Value2")
to:
Name1; Name2="Value2"
}
var
LParse: TStringList;
LParams: string;
begin
Result := ''; {Do not Localize}
if (Length(AParam) = 0) or TextIsSame(AParam, 'NIL') then begin {Do not Localize}
Exit;
end;
LParse := TStringList.Create;
try
BreakApart(AParam, ' ', LParse); {Do not Localize}
if LParse.Count < 3 then begin
Exit;
end;
LParams := Copy(AParam, Pos('(', AParam)+1, MaxInt); {Do not Localize}
LParams := Copy(LParams, 1, Length(LParams)-1);
LParams := ParseBodyStructureSectionAsEquates(LParams);
if Length(LParams) = 0 then begin {Do not Localize}
Result := Copy(LParse[0], 2, Length(LParse[0])-2) + LParams;
end;
finally
FreeAndNil(LParse);
end;
end;
function TIdIMAP4.GetNextWord(AParam: string): string;
var
LPos: integer;
begin
Result := ''; {Do not Localize}
AParam := Trim(AParam);
LPos := Pos(' ', AParam); {Do not Localize}
if LPos = 0 then begin
Exit;
end;
Result := Copy(AParam, 1, LPos-1);
end;
function TIdIMAP4.GetNextQuotedParam(AParam: string; ARemoveQuotes: Boolean): string;
{If AParam is:
"file name.ext" NIL NIL
then this returns:
"file name.ext"
Note it returns the quotes, UNLESS ARemoveQuotes is True.
Also note that if AParam does NOT start with a quote, it returns the next word.
}
var
LN: integer;
LPos: integer;
begin
Result := '';
{CCB: Modified code so it did not access past the end of the string if
AParam was not actually in quotes (e.g. the MIME boundary parameter
is only optionally in quotes).}
LN := 1;
{Skip any preceding spaces...}
//TODO: use TrimLeft(AParam) instead
while (LN <= Length(AParam)) and (AParam[LN] = ' ') do begin {Do not Localize}
LN := LN + 1;
end;
if LN > Length(AParam) then begin
Exit;
end;
if AParam[LN] <> '"' then begin {Do not Localize}
{Not actually enclosed in quotes. Must be a single word.}
// TODO: use Fetch(AParam) instead
AParam := Copy(AParam, LN, MaxInt);
LPos := Pos(' ', AParam); {Do not Localize}
if LPos > 0 then begin
{Strip off this word...}
Result := Copy(AParam, 1, LPos-1);
end else begin
{This is the last word on the line, return it all...}
Result := AParam;
end;
end else begin
{It starts with a quote...}
// TODO: use Fetch(AParam, '"') instead
// TODO: do we need to handle escaped characters?
AParam := Copy(AParam, LN, MaxInt);
LN := 2;
while (LN <= Length(AParam)) and (AParam[LN] <> '"') do begin {Do not Localize}
LN := LN + 1;
end;
Result := Copy(AParam, 1, LN);
if ARemoveQuotes then begin
Result := Copy(Result, 2, Length(Result)-2);
end;
end;
end;
procedure TIdIMAP4.BreakApartParamsInQuotes(const AParam: string; AParsedList: TStrings);
var
Ln : Integer;
LStartPos: Integer;
begin
LStartPos := -1;
AParsedList.Clear;
for Ln := 1 to Length(AParam) do begin
if AParam[LN] = '"' then begin {Do not Localize}
if LStartPos > -1 then begin
{The end of a quoted parameter...}
AParsedList.Add(Copy(AParam, LStartPos, LN-LStartPos+1));
LStartPos := -1;
end else begin
{The start of a quoted parameter...}
LStartPos := Ln;
end;
end;
end;
end;
procedure TIdIMAP4.ParseExpungeResult(AMB: TIdMailBox; ACmdResultDetails: TStrings);
var
Ln : Integer;
LSlExpunge : TStringList;
begin
SetLength(AMB.DeletedMsgs, 0);
LSlExpunge := TStringList.Create;
try
if ACmdResultDetails.Count > 1 then begin
for Ln := 0 to ACmdResultDetails.Count - 1 do begin
BreakApart(ACmdResultDetails[Ln], ' ', LSlExpunge); {Do not Localize}
if TextIsSame(LSlExpunge[1], IMAP4Commands[cmdExpunge]) then begin
SetLength(AMB.DeletedMsgs, (Length(AMB.DeletedMsgs) + 1));
AMB.DeletedMsgs[Length(AMB.DeletedMsgs) - 1] := IndyStrToInt(LSlExpunge[0]);
end;
LSlExpunge.Clear;
end;
end;
finally
FreeAndNil(LSlExpunge);
end;
end;
procedure TIdIMAP4.ParseMessageFlagString(AFlagsList: String; var AFlags: TIdMessageFlagsSet);
{CC5: Note this only supports the system flags defined in RFC 2060.}
var
LSlFlags : TStringList;
Ln, I : Integer;
begin
AFlags := [];
LSlFlags := TStringList.Create;
try
BreakApart(AFlagsList, ' ', LSlFlags); {Do not Localize}
for Ln := 0 to LSlFlags.Count-1 do begin
I := PosInStrArray(
LSlFlags[Ln],
[MessageFlags[mfAnswered], MessageFlags[mfFlagged], MessageFlags[mfDeleted], MessageFlags[mfDraft], MessageFlags[mfSeen], MessageFlags[mfRecent]],
False);
case I of
0..5: Include(AFlags, TIdMessageFlags(I));
end;
end;
finally
FreeAndNil(LSlFlags);
end;
end;
procedure TIdIMAP4.ParseMailBoxAttributeString(AAttributesList: String; var AAttributes: TIdMailBoxAttributesSet);
var
LSlAttributes : TStringList;
Ln : Integer;
I: Integer;
begin
AAttributes := [];
LSlAttributes := TStringList.Create;
try
BreakApart(AAttributesList, ' ', LSlAttributes); {Do not Localize}
for Ln := 0 to LSlAttributes.Count - 1 do begin
I := PosInStrArray(
LSlAttributes[Ln],
[MailBoxAttributes[maNoinferiors], MailBoxAttributes[maNoselect], MailBoxAttributes[maMarked], MailBoxAttributes[maUnmarked]],
False);
case I of
0..3: Include(AAttributes, TIdMailBoxAttributes(I));
end;
end;
finally
FreeAndNil(LSlAttributes);
end;
end;
procedure TIdIMAP4.ParseSearchResult(AMB: TIdMailBox; ACmdResultDetails: TStrings);
var Ln: Integer;
LSlSearch: TStringList;
begin
LSlSearch := TStringList.Create;
try
SetLength(AMB.SearchResult, 0);
if ACmdResultDetails.Count > 0 then begin
if Pos(IMAP4Commands[cmdSearch], ACmdResultDetails[0]) > 0 then begin
BreakApart(ACmdResultDetails[0], ' ', LSlSearch); {Do not Localize}
for Ln := 1 to LSlSearch.Count - 1 do begin
// TODO: for a UID search, store LSlSearch[Ln] as-is without converting it to an Integer...
SetLength(AMB.SearchResult, (Length(AMB.SearchResult) + 1));
AMB.SearchResult[Length(AMB.SearchResult) - 1] := IndyStrToInt(LSlSearch[Ln]);
end;
end;
end;
finally
FreeAndNil(LSlSearch);
end;
end;
procedure TIdIMAP4.ParseStatusResult(AMB: TIdMailBox; ACmdResultDetails: TStrings);
var
Ln: Integer;
LRespStr : String;
LStatStr: String;
LStatPos: Integer;
LSlStatus : TStringList;
begin
LSlStatus := TStringList.Create;
try
if ACmdResultDetails.Count > 0 then
begin
// TODO: convert server response to uppercase?
LRespStr := Trim(ACmdResultDetails[0]);
LStatPos := Pos(IMAP4Commands[cmdStatus], LRespStr);
if (LStatPos > 0) then
begin
LStatStr := Trim(Copy(LRespStr,
LStatPos+Length(IMAP4Commands[cmdStatus]), Length(LRespStr)));
AMB.Name := Trim(Fetch(LStatStr, '(', True)); {do not localize}
if TextEndsWith(LStatStr, ')') then begin {do not localize}
IdDelete(LStatStr, Length(LStatStr), 1);
end;
BreakApart(LStatStr, ' ', LSlStatus); {do not localize}
// find status data items by name, values are on following line
Ln := LSlStatus.IndexOf(IMAP4StatusDataItem[mdMessages]);
if Ln <> -1 then begin
AMB.TotalMsgs := IndyStrToInt(LSlStatus[Ln + 1]);
end;
Ln := LSlStatus.IndexOf(IMAP4StatusDataItem[mdRecent]);
if Ln <> -1 then begin
AMB.RecentMsgs := IndyStrToInt(LSlStatus[Ln + 1]);
end;
Ln := LSlStatus.IndexOf(IMAP4StatusDataItem[mdUnseen]);
if Ln <> -1 then begin
AMB.UnseenMsgs := IndyStrToInt(LSlStatus[Ln + 1]);
end;
Ln := LSlStatus.IndexOf(IMAP4StatusDataItem[mdUIDNext]);
if Ln <> -1 then begin
AMB.UIDNext := LSlStatus[Ln + 1];
end;
Ln := LSlStatus.IndexOf(IMAP4StatusDataItem[mdUIDValidity]);
if Ln <> -1 then begin
AMB.UIDValidity := LSlStatus[Ln + 1];
end;
end;
end;
finally
FreeAndNil(LSlStatus);
end;
end;
procedure TIdIMAP4.ParseSelectResult(AMB : TIdMailBox; ACmdResultDetails: TStrings);
var
Ln : Integer;
LStr : String;
LFlags: TIdMessageFlagsSet;
LLine: String;
LPos: Integer;
begin
AMB.Clear;
for Ln := 0 to ACmdResultDetails.Count - 1 do begin
LLine := ACmdResultDetails[Ln];
LPos := Pos(' EXISTS', LLine); {Do not Localize}
if LPos > 0 then begin
AMB.TotalMsgs := IndyStrToInt(Copy(LLine, 1, LPos - 1));
Continue;
end;
LPos := Pos(' RECENT', LLine); {Do not Localize}
if LPos > 0 then begin
AMB.RecentMsgs := IndyStrToInt(Copy(LLine, 1, LPos - 1)); {Do not Localize}
Continue;
end;
LPos := Pos('[UIDVALIDITY ', LLine); {Do not Localize}
if LPos > 0 then begin
Inc(LPos, 13);
AMB.UIDValidity := Trim(Copy(LLine, LPos, (Integer(PosIdx(']', LLine, LPos)) - LPos))); {Do not Localize}
Continue;
end;
LPos := Pos('[UIDNEXT ', LLine); {Do not Localize}
if LPos > 0 then begin
Inc(LPos, 9);
AMB.UIDNext := Trim(Copy(LLine, LPos, (Integer(PosIdx(']', LLine, LPos)) - LPos))); {Do not Localize}
Continue;
end;
LPos := Pos('[PERMANENTFLAGS ', LLine); {Do not Localize}
if LPos > 0 then begin {Do not Localize}
LPos := PosIdx('(', LLine, LPos + 16) + 1; {Do not Localize}
ParseMessageFlagString(Copy(LLine, LPos, Integer(PosIdx(')', LLine, LPos)) - LPos), LFlags); {Do not Localize}
AMB.ChangeableFlags := LFlags;
Continue;
end;
LPos := Pos('FLAGS ', LLine); {Do not Localize}
if LPos > 0 then begin
LPos := PosIdx('(', LLine, LPos + 6) + 1; {Do not Localize}
ParseMessageFlagString(Copy(LLine, LPos, (Integer(PosIdx(')', LLine, LPos)) - LPos)), LFlags); {Do not Localize}
AMB.Flags := LFlags;
Continue;
end;
LPos := Pos('[UNSEEN ', LLine); {Do not Localize}
if LPos> 0 then begin
Inc(LPos, 8);
AMB.FirstUnseenMsg := IndyStrToInt(Copy(LLine, LPos, (Integer(PosIdx(']', LLine, LPos)) - LPos))); {Do not Localize}
Continue;
end;
LPos := Pos('[READ-', LLine); {Do not Localize}
if LPos > 0 then begin
Inc(LPos, 6);
LStr := Trim(Copy(LLine, LPos, Integer(PosIdx(']', LLine, LPos)) - LPos)); {Do not Localize}
{CCB: AMB.State ambiguous unless coded response received - default to msReadOnly...}
if TextIsSame(LStr, 'WRITE') then begin {Do not Localize}
AMB.State := msReadWrite;
end else {if TextIsSame(LStr, 'ONLY') then} begin {Do not Localize}
AMB.State := msReadOnly;
end;
Continue;
end;
LPos := Pos('[ALERT]', LLine); {Do not Localize}
if LPos > 0 then begin
LStr := Trim(Copy(LLine, LPos + 7, MaxInt));
if Length(LStr) <> 0 then begin
DoAlert(LStr);
end;
Continue;
end;
end;
end;
procedure TIdIMAP4.ParseListResult(AMBList: TStrings; ACmdResultDetails: TStrings);
begin
InternalParseListResult(IMAP4Commands[cmdList], AMBList, ACmdResultDetails);
end;
procedure TIdIMAP4.InternalParseListResult(ACmd: string; AMBList: TStrings; ACmdResultDetails: TStrings);
var Ln : Integer;
LSlRetrieve : TStringList;
LStr : String;
LWord: string;
begin
AMBList.Clear;
LSlRetrieve := TStringList.Create;
try
for Ln := 0 to ACmdResultDetails.Count - 1 do begin
LStr := ACmdResultDetails[Ln];
//Todo: Get mail box attributes here
{CC2: Could put mailbox attributes in AMBList's Objects property?}
{The line is of the form:
* LIST (\UnMarked \AnotherFlag) "/" "Mailbox name"
}
{CCA: code modified because some servers return NIL as the mailbox
separator, i.e.:
* LIST (\UnMarked \AnotherFlag) NIL "Mailbox name"
}
ParseIntoBrackettedQuotedAndUnquotedParts(LStr, LSlRetrieve, False);
if LSlRetrieve.Count > 3 then begin
//Make sure 1st word is LIST (may be an unsolicited response)...
if TextIsSame(LSlRetrieve[0], {IMAP4Commands[cmdList]} ACmd) then begin
{Get the mailbox separator...}
LWord := Trim(LSlRetrieve[LSlRetrieve.Count-2]);
if TextIsSame(LWord, 'NIL') or (LWord = '') then begin {Do not Localize}
FMailBoxSeparator := #0;
end else begin
FMailBoxSeparator := LWord[1];
end;
{Now get the mailbox name...}
LWord := Trim(LSlRetrieve[LSlRetrieve.Count-1]);
AMBList.Add(DoMUTFDecode(LWord));
end;
end;
end;
finally
FreeAndNil(LSlRetrieve);
end;
end;
procedure TIdIMAP4.ParseLSubResult(AMBList: TStrings; ACmdResultDetails: TStrings);
begin
InternalParseListResult(IMAP4Commands[cmdLSub], AMBList, ACmdResultDetails);
end;
procedure TIdIMAP4.ParseEnvelopeResult(AMsg: TIdMessage; ACmdResultStr: String);
procedure DecodeEnvelopeAddress(const AAddressStr: String; AEmailAddressItem: TIdEmailAddressItem); overload;
var
LStr, LTemp: String;
I: Integer;
{$IFNDEF DOTNET}
LPChar: PChar;
{$ENDIF}
begin
if TextStartsWith(AAddressStr, '(') and TextEndsWith(AAddressStr, ')') and {Do not Localize}
Assigned(AEmailAddressItem) then begin
LStr := Copy(AAddressStr, 2, Length (AAddressStr) - 2);
//Gets the name part
if TextStartsWith(LStr, 'NIL ') then begin {Do not Localize}
LStr := Copy(LStr, 5, MaxInt); {Do not Localize}
end
else if TextStartsWith(LStr, '{') then begin {Do not Localize}
LStr := Copy(LStr, Pos('}', LStr) + 1, MaxInt); {Do not Localize}
I := Pos('" ', LStr);
AEmailAddressItem.Name := Copy(LStr, 1, I-1); {Do not Localize}
LStr := Copy(LStr, I+2, MaxInt); {Do not Localize}
end else begin
I := Pos('" ', LStr);
LTemp := Copy(LStr, 1, I);
{$IFDEF DOTNET}
AEmailAddressItem.Name := Copy(LTemp, 2, Length(LTemp)-2); {ExtractQuotedStr ( LTemp, '"' ); {Do not Localize}
{$ELSE}
LPChar := PChar(LTemp);
AEmailAddressItem.Name := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
LStr := Copy(LStr, I+2, MaxInt); {Do not Localize}
end;
//Gets the source root part
if TextStartsWith(LStr, 'NIL ') then begin {Do not Localize}
LStr := Copy(LStr, 5, MaxInt); {Do not Localize}
end else begin
I := Pos('" ', LStr);
LTemp := Copy(LStr, 1, I);
{$IFDEF DOTNET}
AEmailAddressItem.Name := Copy(LTemp, 2, Length(LTemp)-2); {AnsiExtractQuotedStr ( LTemp, '"' ); {Do not Localize}
{$ELSE}
LPChar := PChar(LTemp);
AEmailAddressItem.Name := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
LStr := Copy(LStr, I+2, MaxInt); {Do not Localize}
end;
//Gets the mailbox name part
if TextStartsWith(LStr, 'NIL ') then begin {Do not Localize}
LStr := Copy(LStr, 5, MaxInt); {Do not Localize}
end else begin
I := Pos('" ', LStr);
LTemp := Copy(LStr, 1, I); {Do not Localize}
{$IFDEF DOTNET}
AEmailAddressItem.Address := Copy(LTemp, 2, Length(LTemp)-2); {AnsiExtractQuotedStr ( LTemp, '"' ); {Do not Localize}
{$ELSE}
LPChar := PChar(LTemp);
AEmailAddressItem.Address := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
LStr := Copy(LStr, I+2, MaxInt); {Do not Localize}
end;
//Gets the host name part
if not TextIsSame(LStr, 'NIL') then begin {Do not Localize}
LTemp := Copy(LStr, 1, MaxInt);
{$IFDEF DOTNET}
AEmailAddressItem.Address := AEmailAddressItem.Address + '@' + {Do not Localize}
Copy(LTemp, 2, Length(LTemp)-2); {AnsiExtractQuotedStr ( LTemp, '"' ); {Do not Localize}
{$ELSE}
LPChar := PChar(LTemp);
AEmailAddressItem.Address := AEmailAddressItem.Address + '@' + {Do not Localize}
AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
end;
end;
end;
procedure DecodeEnvelopeAddress(const AAddressStr: String; AEmailAddressList: TIdEmailAddressList); overload;
var
LStr: String;
I: Integer;
begin
if TextStartsWith(AAddressStr, '(') and TextEndsWith(AAddressStr, ')') and {Do not Localize}
Assigned(AEmailAddressList) then begin
LStr := Copy(AAddressStr, 2, Length (AAddressStr) - 2);
repeat
I := Pos(')', LStr);
if I = 0 then begin
Break;
end;
DecodeEnvelopeAddress(Copy(LStr, 1, I), AEmailAddressList.Add); {Do not Localize}
LStr := Trim(Copy(LStr, I+1, MaxInt)); {Do not Localize}
until False;
end;
end;
var
LStr, LTemp: String;
I: Integer;
{$IFNDEF DOTNET}
LPChar: PChar;
{$ENDIF}
begin
//The fields of the envelope structure are in the
//following order: date, subject, from, sender,
//reply-to, to, cc, bcc, in-reply-to, and message-id.
//The date, subject, in-reply-to, and message-id
//fields are strings. The from, sender, reply-to,
//to, cc, and bcc fields are parenthesized lists of
//address structures.
//An address structure is a parenthesized list that
//describes an electronic mail address. The fields
//of an address structure are in the following order:
//personal name, [SMTP] at-domain-list (source
//route), mailbox name, and host name.
//* 4 FETCH (ENVELOPE ("Sun, 15 Jul 2001 02:56:45 -0700 (PDT)" "Your Borland Commu
//nity Account Activation Code" (("Borland Community" NIL "mailbot" "borland.com")
//) NIL NIL (("" NIL "name" "company.com")) NIL NIL NIL "<200107150956.CAA1
//8152@borland.com>"))
{CC5: Cleared out any existing fields to avoid mangling new entries with old/stale ones.}
//Extract envelope date field
AMsg.Date := 0;
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos('" ', ACmdResultStr); {Do not Localize}
LTemp := Copy(ACmdResultStr, 1, I);
{$IFDEF DOTNET}
LStr := Copy(LTemp, 2, Length(LTemp)-2);
{$ELSE}
LPChar := PChar(LTemp);
LStr := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
AMsg.Date := GMTToLocalDateTime(LStr);
ACmdResultStr := Copy(ACmdResultStr, I+2, MaxInt);
end;
//Extract envelope subject field
AMsg.Subject := ''; {Do not Localize}
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
if TextStartsWith(ACmdResultStr, '{') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, Pos('}', ACmdResultStr) + 1, MaxInt); {Do not Localize}
I := Pos(' ', ACmdResultStr); {Do not Localize}
LStr := Copy(ACmdResultStr, 1, I-1);
AMsg.Subject := LStr;
ACmdResultStr := Copy(ACmdResultStr, I+1, MaxInt); {Do not Localize}
end else begin
I := Pos('" ', ACmdResultStr); {Do not Localize}
LTemp := Copy(ACmdResultStr, 1, I);
{$IFDEF DOTNET}
LStr := Copy(LTemp, 2, Length(LTemp)-2);
{$ELSE}
LPChar := PChar(LTemp);
LStr := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
AMsg.Subject := LStr;
ACmdResultStr := Copy(ACmdResultStr, I+2, MaxInt); {Do not Localize}
end;
end;
//Extract envelope from field
AMsg.FromList.Clear;
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos(')) ', ACmdResultStr); {Do not Localize}
LStr := Copy(ACmdResultStr, 1, I+1);
DecodeEnvelopeAddress(LStr, AMsg.FromList);
ACmdResultStr := Copy(ACmdResultStr, I+3, MaxInt);
end;
//Extract envelope sender field
AMsg.Sender.Name := ''; {Do not Localize}
AMsg.Sender.Address := ''; {Do not Localize}
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
{CC5: Fix parsing of sender...}
I := Pos(')) ', ACmdResultStr);
LStr := Copy(ACmdResultStr, 2, I-1);
DecodeEnvelopeAddress(LStr, AMsg.Sender);
ACmdResultStr := Copy(ACmdResultStr, I+3, MaxInt);
end;
//Extract envelope reply-to field
AMsg.ReplyTo.Clear;
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos(')) ', ACmdResultStr); {Do not Localize}
LStr := Copy(ACmdResultStr, 1, I+1);
DecodeEnvelopeAddress(LStr, AMsg.ReplyTo);
ACmdResultStr := Copy(ACmdResultStr, I+3, MaxInt);
end;
//Extract envelope to field
AMsg.Recipients.Clear;
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos(')) ', ACmdResultStr); {Do not Localize}
LStr := Copy(ACmdResultStr, 1, I+1);
DecodeEnvelopeAddress(LStr, AMsg.Recipients);
ACmdResultStr := Copy(ACmdResultStr, I+3, MaxInt);
end;
//Extract envelope cc field
AMsg.CCList.Clear;
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos(')) ', ACmdResultStr); {Do not Localize}
LStr := Copy(ACmdResultStr, 1, I+1);
DecodeEnvelopeAddress(LStr, AMsg.CCList);
ACmdResultStr := Copy(ACmdResultStr, I+3, MaxInt);
end;
//Extract envelope bcc field
AMsg.BccList.Clear;
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos(')) ', ACmdResultStr); {Do not Localize}
LStr := Copy(ACmdResultStr, 1, I+1);
DecodeEnvelopeAddress(LStr, AMsg.BccList);
ACmdResultStr := Copy(ACmdResultStr, I+3, MaxInt);
end;
//Extract envelope in-reply-to field
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
I := Pos('" ', ACmdResultStr); {Do not Localize}
LTemp := Copy(ACmdResultStr, 1, I);
{$IFDEF DOTNET}
LStr := Copy(LTemp, 2, Length(LTemp)-2);
{$ELSE}
LPChar := PChar(LTemp);
LStr := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
AMsg.InReplyTo := LStr;
ACmdResultStr := Copy(ACmdResultStr, I+2, MaxInt);
end;
//Extract envelope message-id field
AMsg.MsgId := ''; {Do not Localize}
if TextStartsWith(ACmdResultStr, 'NIL ') then begin {Do not Localize}
ACmdResultStr := Copy(ACmdResultStr, 5, MaxInt);
end else begin
{$IFDEF DOTNET}
LStr := Copy(ACmdResultStr, 2, Length(ACmdResultStr)-2);
{$ELSE}
LPChar := PChar(ACmdResultStr);
LStr := AnsiExtractQuotedStr(LPChar, '"'); {Do not Localize}
{$ENDIF}
AMsg.MsgId := Trim(LStr);
end;
end;
function TIdIMAP4.ParseLastCmdResult(ALine: string; AExpectedCommand: string; AExpectedIMAPFunction: array of string): Boolean;
var
LPos: integer;
LWord: string;
LWords: TStringList;
LN: Integer;
LWordInExpectedIMAPFunction: Boolean;
begin
Result := False;
LWordInExpectedIMAPFunction := False;
FLineStruct.HasStar := False;
FLineStruct.MessageNumber := '';
FLineStruct.Command := '';
FLineStruct.UID := '';
FLineStruct.Complete := True;
FLineStruct.IMAPFunction := '';
FLineStruct.IMAPValue := '';
FLineStruct.ByteCount := -1;
ALine := Trim(ALine); //Can get garbage like a spurious CR at start
//Look for (optional) * at start...
LPos := Pos(' ', ALine); {Do not Localize}
if LPos < 1 then begin
Exit; //Nothing on this line
end;
LWord := Copy(ALine, 1, LPos-1);
if LWord = '*' then begin {Do not Localize}
FLineStruct.HasStar := True;
ALine := Copy(ALine, LPos+1, MaxInt);
LPos := Pos(' ', ALine); {Do not Localize}
if LPos < 1 then begin
Exit; //Line ONLY had a *
end;
LWord := Copy(ALine, 1, LPos-1);
end;
//Look for (optional) message number next...
if IsNumeric(LWord) then begin
FLineStruct.MessageNumber := LWord;
ALine := Copy(ALine, LPos+1, MaxInt);
LPos := Pos(' ', ALine); {Do not Localize}
if LPos < 1 then begin
Exit; //Line ONLY had a * 67
end;
LWord := Copy(ALine, 1, LPos-1);
end;
//We should have a valid IMAP command word now, like FETCH, LIST or SEARCH...
if PosInStrArray(LWord, IMAP4Commands) = -1 then begin
Exit; //Should have been a command, give up.
end;
FLineStruct.Command := LWord;
if ((AExpectedCommand = '') or (FLineStruct.Command = AExpectedCommand)) then begin
Result := True;
end;
ALine := Copy(ALine, Length(LWord)+2, MaxInt);
if ALine[1] <> '(' then begin {Do not Localize}
//This is a line like '* SEARCH 34 56', the '34 56' is the value (result)...
FLineStruct.IMAPValue := ALine;
Exit;
end;
//This is a line like '* 9 FETCH (UID 47 RFC822.SIZE 3456)', i.e. with a bracketted response.
//See is it complete (has a closing bracket) or does it continue on other lines...
ALine := Copy(ALine, 2, MaxInt);
if TextEndsWith(ALine, ')') then begin {Do not Localize}
ALine := Copy(ALine, 1, Length(ALine) - 1); //Strip trailing bracket
FLineStruct.Complete := True;
end else begin
FLineStruct.Complete := False;
end;
//These words left may occur in different order. Find & delete those we know.
LWords := TStringList.Create;
try
ParseIntoBrackettedQuotedAndUnquotedParts(ALine, LWords, False);
if LWords.Count > 0 then begin
//See does it have a trailing byte count...
LWord := LWords[LWords.Count-1];
if TextStartsWith(LWord, '{') and TextEndsWith(LWord, '}') then begin
//It ends in a byte count...
LWord := Copy(LWord, 2, Length(LWord)-2);
if TextIsSame(LWord, 'NIL') then begin {do not localize}
FLineStruct.ByteCount := 0;
end else begin
FLineStruct.ByteCount := IndyStrToInt(LWord);
end;
LWords.Delete(LWords.Count-1);
end;
end;
if not FLineStruct.Complete then begin
//The command in this case should be the last word...
if LWords.Count > 0 then begin
FLineStruct.IMAPFunction := LWords[LWords.Count-1];
LWords.Delete(LWords.Count-1);
end;
end;
//See is the UID present...
LPos := LWords.IndexOf(IMAP4FetchDataItem[fdUID]); {Do not Localize}
if LPos <> -1 then begin
//The UID is the word after 'UID'...
if LPos < LWords.Count-1 then begin
FLineStruct.UID := LWords[LPos+1];
LWords.Delete(LPos+1);
LWords.Delete(LPos);
end;
if PosInStrArray(IMAP4FetchDataItem[fdUID], AExpectedIMAPFunction) > -1 then begin
LWordInExpectedIMAPFunction := True;
end;
end;
//See are the FLAGS present...
LPos := LWords.IndexOf(IMAP4FetchDataItem[fdFlags]); {Do not Localize}
if LPos <> -1 then begin
//The FLAGS are in the "word" (really a string) after 'FLAGS'...
if LPos < LWords.Count-1 then begin
ParseMessageFlagString(LWords[LPos+1], FLineStruct.Flags);
LWords.Delete(LPos+1);
LWords.Delete(LPos);
end;
if PosInStrArray(IMAP4FetchDataItem[fdFlags], AExpectedIMAPFunction) > -1 then begin
LWordInExpectedIMAPFunction := True;
end;
end;
if Length(AExpectedIMAPFunction) > 0 then begin
//See is what we want present.
for LN := 0 to Length(AExpectedIMAPFunction)-1 do begin
//First check if we got it already in IMAPFunction...
if TextIsSame(FLineStruct.IMAPFunction, AExpectedIMAPFunction[LN]) then begin
LWordInExpectedIMAPFunction := True;
Break;
end;
//Now check if it is in any remaining words...
LPos := LWords.IndexOf(AExpectedIMAPFunction[LN]); {Do not Localize}
if LPos <> -1 then begin
FLineStruct.IMAPFunction := LWords[LPos];
LWordInExpectedIMAPFunction := True;
if LPos < LWords.Count-1 then begin
//There is a parameter after our function...
FLineStruct.IMAPValue := LWords[LPos+1];
end;
Break;
end;
end;
end else begin
//See is there function/value items left. There may not be, such as
//'* 9 FETCH (UID 45)' in response to a GetUID request.
if FLineStruct.Complete then begin
if LWords.Count > 1 then begin
FLineStruct.IMAPFunction := LWords[LWords.Count-2];
FLineStruct.IMAPValue := LWords[LWords.Count-1];
end;
end;
end;
Result := False;
if (AExpectedCommand = '') or (FLineStruct.Command = AExpectedCommand) then begin
//The AExpectedCommand is correct, now need to check the AExpectedIMAPFunction...
if (Length(AExpectedIMAPFunction) = 0) or LWordInExpectedIMAPFunction then begin
Result := True;
end;
end;
finally
FreeAndNil(LWords);
end;
end;
{This ADDS any parseable info from ALine to FLineStruct (set up from a previous ParseLastCmdResult call)}
procedure TIdIMAP4.ParseLastCmdResultButAppendInfo(ALine: string);
var
LPos: integer;
LWords: TStringList;
begin
ALine := Trim(ALine); //Can get garbage like a spurious CR at start
{We may have an initial or ending bracket, like ") UID 5" or "UID 5)"}
if TextStartsWith(ALine, ')') then begin {Do not Localize}
ALine := Trim(Copy(ALine, 2, MaxInt));
end;
if TextEndsWith(ALine, ')') then begin {Do not Localize}
ALine := Trim(Copy(ALine, 1, Length(ALine)-1));
end;
//These words left may occur in different order. Find & delete those we know.
LWords := TStringList.Create;
try
ParseIntoBrackettedQuotedAndUnquotedParts(ALine, LWords, False);
//See is the UID present...
LPos := LWords.IndexOf('UID'); {Do not Localize}
if LPos <> -1 then begin
//The UID is the word after 'UID'...
FLineStruct.UID := LWords[LPos+1];
LWords.Delete(LPos+1);
LWords.Delete(LPos);
end;
//See are the FLAGS present...
LPos := LWords.IndexOf('FLAGS'); {Do not Localize}
if LPos <> -1 then begin
//The FLAGS are in the "word" (really a string) after 'FLAGS'...
ParseMessageFlagString(LWords[LPos+1], FLineStruct.Flags);
LWords.Delete(LPos+1);
LWords.Delete(LPos);
end;
finally
FreeAndNil(LWords);
end;
end;
{ ...Parser Functions }
function TIdIMAP4.ArrayToNumberStr(const AMsgNumList: array of Integer): String;
var
Ln : Integer;
begin
for Ln := 0 to Length(AMsgNumList) - 1 do begin
Result := Result + IntToStr(AMsgNumList[Ln]) + ','; {Do not Localize}
end;
SetLength(Result, (Length(Result) - 1 ));
end;
function TIdIMAP4.MessageFlagSetToStr(const AFlags: TIdMessageFlagsSet): String;
begin
Result := '';
if AFlags = [] then begin
Exit;
end;
if mfAnswered in AFlags then begin
Result := Result + MessageFlags[mfAnswered] + ' '; {Do not Localize}
end;
if mfFlagged in AFlags then begin
Result := Result + MessageFlags[mfFlagged] + ' '; {Do not Localize}
end;
if mfDeleted in AFlags then begin
Result := Result + MessageFlags[mfDeleted] + ' '; {Do not Localize}
end;
if mfDraft in AFlags then begin
Result := Result + MessageFlags[mfDraft] + ' '; {Do not Localize}
end;
if mfSeen in AFlags then begin
Result := Result + MessageFlags[mfSeen] + ' '; {Do not Localize}
end;
Result := Trim(Result);
end;
procedure TIdIMAP4.StripCRLFs(ASourceStream, ADestStream: TStream);
var
LByte: TIdBytes;
LNumSourceBytes: TIdStreamSize;
LBytesRead: Int64;
begin
SetLength(LByte, 1);
ASourceStream.Position := 0;
ADestStream.Size := 0;
LNumSourceBytes := ASourceStream.Size;
LBytesRead := 0;
while LBytesRead < LNumSourceBytes do begin
TIdStreamHelper.ReadBytes(ASourceStream, LByte, 1);
if not ByteIsInEOL(LByte, 0) then begin
TIdStreamHelper.Write(ADestStream, LByte, 1);
end;
Inc(LBytesRead);
end;
end;
procedure TIdIMAP4.StripCRLFs(var AText: string);
var
LPos: integer;
LLen: integer;
LTemp: string;
LDestPos: integer;
begin
//Optimised with the help of Guus Creuwels.
LPos := 1;
LLen := Length(AText);
SetLength(LTemp, LLen);
LDestPos := 1;
while LPos <= LLen do begin
if AText[LPos] = #13 then begin
//Don't GPF if this is the last char in the string...
if LPos < LLen then begin
if AText[LPos+1] = #10 then begin
Inc(LPos, 2);
end else begin
LTemp[LDestPos] := AText[LPos];
Inc(LPos);
Inc(LDestPos);
end;
end else begin
LTemp[LDestPos] := AText[LPos];
Inc(LPos);
Inc(LDestPos);
end;
end else begin
LTemp[LDestPos] := AText[LPos];
Inc(LPos);
Inc(LDestPos);
end;
end;
SetLength(LTemp, LDestPos - 1);
AText := LTemp;
end;
procedure TIdIMAP4.ReceiveBody(AMsg: TIdMessage; const ADelim: string = '.'); {Do not Localize}
var
LMsgEnd: Boolean;
LActiveDecoder: TIdMessageDecoder;
LLine: string;
LCheckForOptionalImapFlags: Boolean;
LDelim: string;
{CC7: The following define SContentType is from IdMessageClient. It is defined here also
(with only local scope) because the one in IdMessageClient is defined locally
there also, so we cannot get at it.}
const
SContentType = 'Content-Type'; {do not localize}
// TODO - move this procedure into TIdIOHandler as a new Capture method?
procedure CaptureAndDecodeCharset;
var
LMStream: TMemoryStream;
begin
LMStream := TMemoryStream.Create;
try
IOHandler.Capture(LMStream, LDelim, True, IndyTextEncoding_8Bit{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_8Bit{$ENDIF});
LMStream.Position := 0;
// TODO: when String is AnsiString, TIdMessageClient uses AMsg.ChaarSet as
// the destination encoding, should this be doing the same? Otherwise, we
// could just use AMsg.Body.LoadFromStream() instead...
ReadStringsAsCharSet(LMStream, AMsg.Body, AMsg.CharSet{$IFDEF STRING_IS_ANSI}, IndyTextEncoding_8Bit{$ENDIF});
finally
LMStream.Free;
end;
end;
function IsContentTypeHtml(const AContentType: String) : Boolean;
begin
Result := IsHeaderMediaTypes(AContentType, ['text/html', 'text/html-sandboxed','application/xhtml+xml']); {do not localize}
end;
procedure ProcessTextPart(var VDecoder: TIdMessageDecoder);
var
LDestStream: TMemoryStream;
Li: integer;
LTxt: TIdText;
LNewDecoder: TIdMessageDecoder;
{$IFDEF STRING_IS_ANSI}
LAnsiEncoding: IIdTextEncoding;
{$ENDIF}
LContentType, LCharSet: string;
begin
LDestStream := TMemoryStream.Create;
try
LNewDecoder := VDecoder.ReadBody(LDestStream, LMsgEnd);
try
LDestStream.Position := 0;
LTxt := TIdText.Create(AMsg.MessageParts);
try
// if the Content-Type is HTML and does not specify a charset, parse
// the HTML looking for a <meta> tag that specifies a charset...
// TODO: if the media type is not a 'text/...' based XML type, ignore
// the charset from the headers, if present, and parse the XML itself...
LContentType := VDecoder.Headers.Values[SContentType];
{
if IsContentTypeAppXml(LContentType) then begin
LCharSet := DetectXmlCharset(LDestStream);
LDestStream.Position := 0;
end else
begin
}
LCharSet := LTxt.GetCharSet(LContentType);
if (LCharSet = '') and IsContentTypeHtml(LContentType) then begin
ParseMetaHTTPEquiv(LDestStream, nil, LCharSet);
LDestStream.Position := 0;
end;
//end;
LTxt.ContentType := LContentType;
LTxt.CharSet := LCharSet;
LTxt.ContentID := VDecoder.Headers.Values['Content-ID']; {Do not Localize}
LTxt.ContentLocation := VDecoder.Headers.Values['Content-Location']; {Do not Localize}
LTxt.ContentDescription := VDecoder.Headers.Values['Content-Description']; {Do not Localize}
LTxt.ContentDisposition := VDecoder.Headers.Values['Content-Disposition']; {Do not Localize}
LTxt.ContentTransfer := VDecoder.Headers.Values['Content-Transfer-Encoding']; {Do not Localize}
for Li := 0 to VDecoder.Headers.Count-1 do begin
if LTxt.Headers.IndexOfName(VDecoder.Headers.Names[Li]) < 0 then begin
LTxt.ExtraHeaders.AddValue(
VDecoder.Headers.Names[Li],
IndyValueFromIndex(VDecoder.Headers, Li)
);
end;
end;
{$IFDEF STRING_IS_ANSI}
LAnsiEncoding := CharsetToEncoding(LCharSet);
{$ENDIF}
ReadStringsAsCharset(LDestStream, LTxt.Body, LCharSet{$IFDEF STRING_IS_ANSI}, LAnsiEncoding{$ENDIF});
except
//this should also remove the Item from the TCollection.
//Note that Delete does not exist in the TCollection.
LTxt.Free;
raise;
end;
except
LNewDecoder.Free;
raise;
end;
VDecoder.Free;
VDecoder := LNewDecoder;
finally
FreeAndNil(LDestStream);
end;
end;
procedure ProcessAttachment(var VDecoder: TIdMessageDecoder);
var
LDestStream: TStream;
Li: integer;
LAttachment: TIdAttachment;
LNewDecoder: TIdMessageDecoder;
begin
AMsg.DoCreateAttachment(VDecoder.Headers, LAttachment);
Assert(Assigned(LAttachment), 'Attachment must not be unassigned here!'); {Do not Localize}
try
LNewDecoder := nil;
try
LDestStream := LAttachment.PrepareTempStream;
try
LNewDecoder := VDecoder.ReadBody(LDestStream, LMsgEnd);
finally
LAttachment.FinishTempStream;
end;
LAttachment.ContentType := VDecoder.Headers.Values[SContentType];
LAttachment.ContentTransfer := VDecoder.Headers.Values['Content-Transfer-Encoding']; {Do not Localize}
LAttachment.ContentDisposition := VDecoder.Headers.Values['Content-Disposition']; {Do not Localize}
LAttachment.ContentID := VDecoder.Headers.Values['Content-ID']; {Do not Localize}
LAttachment.ContentLocation := VDecoder.Headers.Values['Content-Location']; {Do not Localize}
LAttachment.ContentDescription := VDecoder.Headers.Values['Content-Description']; {Do not Localize}
LAttachment.Filename := VDecoder.Filename;
for Li := 0 to VDecoder.Headers.Count-1 do begin
if LAttachment.Headers.IndexOfName(VDecoder.Headers.Names[Li]) < 0 then begin
LAttachment.ExtraHeaders.AddValue(
VDecoder.Headers.Names[Li],
IndyValueFromIndex(VDecoder.Headers, Li)
);
end;
end;
except
LNewDecoder.Free;
raise;
end;
except
//this should also remove the Item from the TCollection.
//Note that Delete does not exist in the TCollection.
LAttachment.Free;
raise;
end;
VDecoder.Free;
VDecoder := LNewDecoder;
end;
Begin
{CC3: If IMAP calls this ReceiveBody, it prepends IMAP to delim, e.g. 'IMAP)',
to flag that this routine should expect IMAP FLAGS entries.}
LCheckForOptionalImapFlags := False; {CC3: IMAP hack inserted lines start here...}
LDelim := ADelim;
if TextStartsWith(ADelim, 'IMAP') then begin {do not localize}
LCheckForOptionalImapFlags := True;
LDelim := Copy(ADelim, 5, MaxInt);
end; {CC3: ...IMAP hack inserted lines end here}
LMsgEnd := False;
if AMsg.NoDecode then begin
CaptureAndDecodeCharSet;
end else begin
BeginWork(wmRead);
try
LActiveDecoder := nil;
try
repeat
LLine := IOHandler.ReadLn;
{CC3: Check for optional flags before delimiter in the case of IMAP...}
if LLine = LDelim then begin {CC3: IMAP hack ADelim -> LDelim}
Break;
end; {CC3: IMAP hack inserted lines start here...}
if LCheckForOptionalImapFlags and TextStartsWith(LLine, ' FLAGS (\') {do not localize}
and TextEndsWith(LLine, LDelim) then begin
Break;
end;
if LActiveDecoder = nil then begin
LActiveDecoder := TIdMessageDecoderList.CheckForStart(AMsg, LLine);
end;
if LActiveDecoder = nil then begin
{CC9: Per RFC821, the sender is required to add a prefixed '.' to any
line in an email that starts with '.' and the receiver is
required to strip it off. This ensures that the end-of-message
line '.' cannot appear in the message body.}
if TextStartsWith(LLine, '..') then begin {Do not Localize}
Delete(LLine,1,1);
end;
AMsg.Body.Add(LLine);
end else begin
while LActiveDecoder <> nil do begin
LActiveDecoder.SourceStream := TIdTCPStream.Create(Self);
LActiveDecoder.ReadHeader;
case LActiveDecoder.PartType of
mcptText: ProcessTextPart(LActiveDecoder);
mcptAttachment: ProcessAttachment(LActiveDecoder);
mcptIgnore: FreeAndNil(LActiveDecoder);
mcptEOF: begin FreeAndNil(LActiveDecoder); LMsgEnd := True; end;
end;
end;
end;
until LMsgEnd;
finally
FreeAndNil(LActiveDecoder);
end;
finally
EndWork(wmRead);
end;
end;
end;
{########### Following only used by CONNECT? ###############}
function TIdIMAP4.GetResponse: string;
{CC: The purpose of this is to keep reading & accumulating lines until we hit
a line that has a valid response (that terminates the reading). We call
"FLastCmdResult.FormattedReply := LResponse;" to parse out the response we
received.
The response sequences we need to deal with are:
1) Many commands just give a simple result to the command issued:
C41 OK Completed
2) Some commands give you data first, then the result:
* LIST (\UnMarked) "/" INBOX
* LIST (\UnMarked) "/" Junk
* LIST (\UnMarked) "/" Junk/Subbox1
C42 OK Completed
3) Some responses have a result but * instead of a command number (like C42):
* OK CommuniGate Pro IMAP Server 3.5.7 ready
4) Some have neither a * nor command number, but start with a result:
+ Send the additional command text
or:
BAD Bad parameter
Because you may get data first, which you need to skip, you need to
accept all the above possibilities.
We MUST stop when we find a valid response code, like OK.
}
var
LLine: String;
LResponse: TStringList;
LWord: string;
LPos: integer;
LBuf: string;
begin
Result := ''; {Do not Localize}
LResponse := TStringList.Create;
try
repeat
LLine := IOHandler.ReadLnWait;
if LLine <> '' then begin {Do not Localize}
{It is not an empty line, add it to our list of stuff received (it is
not our job to interpret it)}
LResponse.Add(LLine);
{See if the last LLine contained a response code like OK or BAD.}
LPos := Pos(' ', LLine); {Do not Localize}
if LPos <> 0 then begin
{There are at least two words on this line...}
LWord := Trim(Copy(LLine, 1, LPos-1));
LBuf := Trim(Copy(LLine, LPos+1, MaxInt)); {The rest of the line, without the 1st word}
end else begin
{No space, so this line is a single word. A bit weird, but it
could be just an OK...}
LWord := LLine; {A bit pedantic, but emphasises we have a word, not a line}
LBuf := ''; {Do not Localize}
end;
LPos := PosInStrArray(LWord, VALID_TAGGEDREPLIES); {Do not Localize}
if LPos > -1 then begin
{We got a valid response code as the first word...}
Result := LWord;
FLastCmdResult.FormattedReply := LResponse;
Exit;
end;
if Length(LBuf) = 0 then begin {Do not Localize}
Continue; {We hit a line with just one word which is not a valid IMAP response}
end;
{In all other cases, any valid response should be the second word...}
LPos := Pos(' ', LBuf); {Do not Localize}
if LPos <> 0 then begin
{There are at least three words on this line...}
LWord := Trim(Copy(LBuf, 1, LPos-1));
LBuf := Trim(Copy(LBuf, LPos+1, MaxInt)); {The rest of the line, without the 1st word}
end else begin
{No space, so this line is two single words.}
LWord := LLine; {A bit pedantic, but emphasises we have a word, not a line}
LBuf := ''; {Do not Localize}
end;
LPos := PosInStrArray(LWord, VALID_TAGGEDREPLIES); {Do not Localize}
if LPos > -1 then begin
{We got a valid response code as the second word...}
Result := LWord;
FLastCmdResult.FormattedReply := LResponse;
Exit;
end;
end;
until False;
finally
FreeAndNil(LResponse);
end;
end;
end.