gecko-dev/cmd/winfe/mapi/mapi32.cpp

2369 строки
59 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
//
// Simple MAPI API
// Written by: Rich Pizzarro (rhp@netscape.com)
// November 1997
//
#include <windows.h>
#include <string.h>
#include "xpapi.h"
#include "trace.h"
#include "mapiipc.h"
#include "mapiutl.h"
#include "nsstrseq.h"
#include "mapismem.h"
#include "mapimem.h"
#include "nscpmapi.h"
#ifndef MAPI_OLE // Because MSFT doesn't do this for us :-(
#include "mapi.h"
#endif
//
// Necessary variables...
//
memTrackerType memArray[MAX_POINTERS];
//
// For remembering memory...how ironic.
//
void
SetPointerArray(LPVOID ptr, BYTE type)
{
int i;
for (i=0; i<MAX_POINTERS; i++)
{
if (memArray[i].lpMem == NULL)
{
memArray[i].lpMem = ptr;
memArray[i].memType = type;
break;
}
}
}
//
// To have MAPI work in MS-Word on Win95, you must have
// this in win.ini:
//
// [Mail]
// MAPIX=1
//
// To turn logging of errors on, set:
// HKEY_LOCAL_MACHINE\Software\Netscape\Netscape Navigator\MAPI\Logging = 1
//
// The MAPILogon function begins a Simple MAPI session, loading
// the default message store and address book providers.
//
MAPI_IMPLEMENT(ULONG)
MAPILogon(
ULONG ulUIParam,
LPSTR lpszProfileName,
LPSTR lpszPassword,
FLAGS flFlags,
ULONG ulReserved,
LPLHANDLE lplhSession)
{
LRESULT result;
HWND hWndIPC;
MAPIIPCType ipcInfo;
static BOOL firstTime = TRUE;
TRACE_FN("MAPILogon");
TRACE(" lpszProfileName=%s, lpszPassword=%s\n", lpszProfileName, lpszPassword);
#ifndef WIN16
TRACE(" threadID = %ld\n", GetCurrentThreadId());
#endif
// Init before we start...
*lplhSession = 0;
TRACE("MAPILogon: SET RETURN SESSION TO NULL\n");
//
// Check if diags should be turned on or off...
//
DWORD val = 0;
if (GetConfigInfoNum(szMapiSection, "Logging", &val, HKEY_LOCAL_MACHINE))
{
SetLoggingEnabled((BOOL)val);
}
//
// Init the stuff we will need for WM_COPYDATA calls and anything else
//
if (!nsMAPI_OpenAPI())
{
TRACE("MAPILogon: Can't open API\n");
return(MAPI_E_FAILURE);
}
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(FALSE);
if (NULL == hWndIPC)
{
TRACE("MAPILogon: Can't get Window\n");
return(MAPI_E_FAILURE);
}
//
// Reset the pointer arrary for future use.
//
if (firstTime)
{
TRACE("MAPILogon: Reset Pointer\n");
memset(memArray, 0, sizeof(memTrackerType) * MAX_POINTERS);
firstTime = FALSE;
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for the login call.
//
LPSTR strings[3];
NSstringSeq strSeq;
CSharedMem *sMem;
DWORD memSize;
LONG strSize;
HANDLE hSharedMemory;
MAPILogonType logonInfo;
strings[0] = CheckNullString(lpszProfileName);
strings[1] = CheckNullString(lpszPassword);
strings[2] = NULL;
strSeq = NSStrSeqNew(strings);
strSize = NSStrSeqSize(strSeq);
memSize = sizeof(MAPILogonType) + strSize;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
TRACE("MAPILogon: SMEM Failure\n");
NSStrSeqDelete(strSeq);
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now populate a Logon structure with the passed in information
//
logonInfo.ulUIParam = ulUIParam;
logonInfo.flFlags = flFlags;
logonInfo.lhSession = 0;
logonInfo.ipcWorked = 0;
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(logonInfo), sizeof(MAPILogonType));
memcpy(sMem->m_buf + sizeof(MAPILogonType), strSeq, (size_t) strSize);
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPILogon, &ipcInfo);
// Check for IPC completion
MAPILogonType *logInfo = (MAPILogonType *) &(sMem->m_buf[0]);
if (!logInfo->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// If successfull, then we need to get the information
if (result == SUCCESS_SUCCESS)
{
*lplhSession = logInfo->lhSession;
}
//
// Now time to do some cleanup...
//
NSStrSeqDelete(strSeq);
NSCloseSharedMemory(sMem, hSharedMemory);
CleanupMAPITempFiles();
TRACE(" Returning lhSession=%lu\n", *lplhSession);
LogString("--MAPILogon complete\r\n");
return(result);
}
//
// The MAPILogoff function ends a session with the messaging system.
//
MAPI_IMPLEMENT(ULONG)
MAPILogoff(
LHANDLE lhSession,
ULONG ulUIParam,
FLAGS flFlags,
ULONG ulReserved)
{
LRESULT result;
HWND hWndIPC;
MAPIIPCType ipcInfo;
TRACE_FN("MAPILogoff");
TRACE("lhSession Session ID = %lu\n", lhSession);
LogString("--MAPILogoff\r\n");
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for the login call.
//
CSharedMem *sMem;
DWORD memSize;
HANDLE hSharedMemory;
MAPILogoffType logoffInfo;
memSize = sizeof(MAPILogoffType);
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now populate a Logon structure with the passed in information
//
logoffInfo.lhSession = lhSession;
logoffInfo.ulUIParam = ulUIParam;
logoffInfo.flFlags = flFlags;
logoffInfo.ipcWorked = 0;
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(logoffInfo), sizeof(MAPILogoffType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPILogoff, &ipcInfo);
// Check for IPC completion
MAPILogoffType *logInfo = (MAPILogoffType *) &(sMem->m_buf[0]);
if (!logInfo->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now do cleanup on the way out...
//
NSCloseSharedMemory(sMem, hSharedMemory);
//
// Close the stuff for WM_COPYDATA calls and anything else
//
nsMAPI_CloseAPI();
LogString("--MAPILogoff complete\r\n");
CleanupMAPITempFiles();
// Now just return!
return(result);
}
//
// The MAPIFreeBuffer function frees a memory buffer allocated with a call to
// the MAPIAllocateBuffer function or the MAPIAllocateMore function.
//
MAPI_IMPLEMENT(ULONG)
MAPIFreeBuffer(LPVOID pv)
{
int i;
TRACE_FN("MAPIFreeBuffer");
if (!pv)
#ifdef WIN16
return(SUCCESS_SUCCESS);
#else
return(S_OK);
#endif
for (i=0; i<MAX_POINTERS; i++)
{
if (pv == memArray[i].lpMem)
{
if (memArray[i].memType == MAPI_MESSAGE_TYPE)
{
FreeMAPIMessage((MapiMessage *)pv);
memArray[i].lpMem = NULL;
}
else if (memArray[i].memType == MAPI_RECIPIENT_TYPE)
{
FreeMAPIRecipient((MapiRecipDesc *)pv);
memArray[i].lpMem = NULL;
}
}
}
pv = NULL;
#ifdef WIN16
return(SUCCESS_SUCCESS);
#else
return(S_OK);
#endif
}
//
// The MAPISendMail function sends a message. This function differs
// from the MAPISendDocuments function in that it allows greater
// flexibility in message generation.
//
MAPI_IMPLEMENT(ULONG)
MAPISendMail(
LHANDLE lhSession,
ULONG UIParam,
lpMapiMessage lpMessage,
FLAGS flags,
ULONG ulReserved)
{
#ifdef _DEBUG
TRACE_FN("MapiSendMail");
TRACE(" lhSession=%lu\n", lhSession);
if (lpMessage)
{
TRACE(" lpMessage->lpszSubject = '%s'\n", lpMessage->lpszSubject);
TRACE(" lpMessage->nRecipCount = %lu\n lpMessage->nFileCount=%lu\n", lpMessage->nRecipCount, lpMessage->nFileCount);
lpMapiFileDesc pFiles = lpMessage->lpFiles;
for (ULONG i = 0; i < lpMessage->nFileCount; i++)
{
TRACE(" lpszPathName='%s', lpszFileName='%s'\n", pFiles[i].lpszPathName, pFiles[i].lpszFileName);
}
}
#endif
CleanupMAPITempFiles();
//
// Needed variables...
//
BOOL isTempSession = FALSE;
LONG result = SUCCESS_SUCCESS;
HWND hWndIPC;
MAPIIPCType ipcInfo;
if (!lpMessage)
{
return(MAPI_E_FAILURE);
}
//
// Sanity Check the attachments if any here...
//
if (lpMessage->nFileCount > 0)
{
DWORD rc = SanityCheckAttachmentFiles(lpMessage); // return of zero is ok
if (rc == 1)
{
return(MAPI_E_ATTACHMENT_NOT_FOUND);
}
else if (rc == 2)
{
return(MAPI_E_ATTACHMENT_OPEN_FAILURE);
}
}
//
// If lhSession is ZERO, then we have to get a temporary session and
// go from there.
//
if (lhSession == 0)
{
LHANDLE lhTempSession;
if (MAPILogon(0, NULL, NULL, 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
isTempSession = TRUE;
if (MAPILogon(0, "dummy", "dummy", 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
return(MAPI_E_LOGIN_FAILURE);
}
}
lhSession = lhTempSession;
}
//
// Now create the big chunk of memory that we will pass across which
// represents the message
//
DWORD totalSize;
MAPISendMailType *memToPass = NULL;
memToPass = (MAPISendMailType *) FlattenMAPIMessageStructure(lpMessage, &totalSize);
if (!memToPass)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
memToPass->lhSession = lhSession;
memToPass->ulUIParam = UIParam;
memToPass->flFlags = flags;
memToPass->ipcWorked = 0;
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
free(memToPass);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, UIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for send message call.
//
CSharedMem *sMem;
HANDLE hSharedMemory;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(totalSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
free(memToPass);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = totalSize;
memcpy(sMem->m_buf, memToPass, (size_t) totalSize);
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = totalSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPISendMail, &ipcInfo);
// Check for IPC completion
MAPISendMailType *ptr = (MAPISendMailType *) &(sMem->m_buf[0]);
if (!ptr->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now time to do some cleanup...
//
NSCloseSharedMemory(sMem, hSharedMemory);
free(memToPass);
LogString("--MAPISendMail complete\r\n");
//
// If we created a temp session, then we need to trash it...
//
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(result);
}
//
// The MAPISendDocuments function sends a standard message with one or more attached
// files and a cover note. The cover note is a dialog box that allows the user to
// enter a list of recipients and an optional message. MAPISendDocuments differs
// from the MAPISendMail function in that it allows less flexibility in message generation.
//
void
CleanupStringArray(LPSTR *strArray, DWORD arraySize)
{
DWORD i;
if (strArray == NULL)
return;
for (i=0; i<arraySize; i++)
{
if (strArray[i] != NULL)
{
free(strArray[i]);
strArray[i] = NULL;
}
}
free(strArray);
strArray = NULL;
}
MAPI_IMPLEMENT(ULONG) MAPISendDocuments(
ULONG ulUIParam,
LPSTR lpszDelimChar,
LPSTR lpszFilePaths,
LPSTR lpszFileNames,
ULONG ulReserved)
{
TRACE_FN("MAPISendDocuments");
TRACE("MAPI: MAPISendDocuments() FilePaths: %s\n", lpszFilePaths);
TRACE("MAPI: MAPISendDocuments() FileNames: %s\n", lpszFileNames);
TRACE("MAPI: MAPISendDocuments() Delim : [%s]\n", lpszDelimChar);
CleanupMAPITempFiles();
//
// Needed variables...
//
LONG result = SUCCESS_SUCCESS;
HWND hWndIPC;
if (!lpszFilePaths)
{
return(MAPI_E_FAILURE);
}
//
// Sanity Check the attachments here...
//
DWORD aCount = GetFileCount(lpszFilePaths, lpszDelimChar);
DWORD reallyFound = 0;
DWORD i;
BYTE szFileName[_MAX_PATH];
BYTE szNewFileName[_MAX_PATH];
BYTE szReadableName[_MAX_PATH];
LPSTR *strArray = (LPSTR *) malloc((size_t) (sizeof(LPSTR) * ((aCount * 2) + 1)));
if (!strArray)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
memset(strArray, 0, (size_t) (sizeof(LPSTR) * ((aCount * 2) + 1)));
for (i=0; i<aCount; i++)
{
if (ExtractFile(lpszFilePaths, lpszDelimChar, i, (LPSTR)szFileName)) // true=found
{
if (ValidateFile((LPSTR)szFileName) != 0)
{
CleanupStringArray(strArray, reallyFound);
return(MAPI_E_ATTACHMENT_OPEN_FAILURE);
}
//
// Now get the matching name for this file!
//
if (!ExtractFile(lpszFileNames, lpszDelimChar, i, (LPSTR)szReadableName)) // true=found
{
lstrcpy((char *)szReadableName, (char *)szFileName);
}
if (GetTempMailNameWithExtension((char *)szNewFileName, (char *)szReadableName) == 0)
{
CleanupStringArray(strArray, reallyFound);
return(MAPI_E_ATTACHMENT_OPEN_FAILURE);
}
if (!XP_CopyFile((char *)szFileName, (char *)szNewFileName, TRUE))
{
CleanupStringArray(strArray, reallyFound);
return(MAPI_E_ATTACHMENT_WRITE_FAILURE);
}
AddTempFile((LPSTR) szNewFileName);
strArray[reallyFound++] = strdup((LPSTR)szNewFileName);
strArray[reallyFound++] = strdup((LPSTR)szReadableName);
}
}
// Set last entry to null...again
strArray[reallyFound] = NULL;
// Check that we created an even matching pair, otherwise bail!
if ((reallyFound % 2) != 0)
{
CleanupStringArray(strArray, reallyFound);
return(MAPI_E_ATTACHMENT_OPEN_FAILURE);
}
MAPISendDocumentsType docType;
MAPISendDocumentsType *memToPass = NULL;
NSstringSeq strSeq;
DWORD memSize;
LONG strSize;
MAPIIPCType ipcInfo;
// Start setting up the MAPISendDocumentsType structure to pass to communicator
docType.nFileCount = reallyFound/2;
docType.ulUIParam = ulUIParam;
docType.ipcWorked = 0;
strSeq = NSStrSeqNew(strArray);
if (!strSeq)
{
CleanupStringArray(strArray, reallyFound);
return(MAPI_E_INSUFFICIENT_MEMORY);
}
// Cleanup strArray...
CleanupStringArray(strArray, reallyFound);
strSize = NSStrSeqSize(strSeq);
memSize = sizeof(MAPISendDocumentsType) + strSize;
//
// Now create the big chunk of memory that we will pass across which
// represents attached files...
//
memToPass = (MAPISendDocumentsType *)malloc((size_t) memSize);
if (!memToPass)
{
NSStrSeqDelete(strSeq);
return(MAPI_E_INSUFFICIENT_MEMORY);
}
// Null out the new memory...
memset(memToPass, 0, (size_t) memSize);
// Copy in the actual data to the real chunk of memory...
memcpy(memToPass, &docType, sizeof(MAPISendDocumentsType));
memcpy(&(memToPass->dataBuf[0]), strSeq, (size_t) strSize);
// Cleanup sequence...
NSStrSeqDelete(strSeq);
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
free(memToPass);
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for send message call.
//
CSharedMem *sMem;
HANDLE hSharedMemory;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
free(memToPass);
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, memToPass, (size_t) memSize);
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPISendDocuments, &ipcInfo);
MAPISendDocumentsType *ptr = (MAPISendDocumentsType *) &(sMem->m_buf[0]);
if (!ptr->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now time to do some cleanup...
//
NSCloseSharedMemory(sMem, hSharedMemory);
free(memToPass);
LogString("--MAPISendDocuments() complete\r\n");
return(result);
}
MAPI_IMPLEMENT(ULONG)
MAPIFindNext(
LHANDLE lhSession,
ULONG ulUIParam,
LPSTR lpszMessageType,
LPSTR lpszSeedMessageID,
FLAGS flFlags,
ULONG ulReserved,
LPSTR lpszMessageID)
{
LRESULT result;
HWND hWndIPC;
MAPIIPCType ipcInfo;
LPSTR tempSeedString = "";
TRACE_FN("MAPIFindNext");
if (lhSession == 0)
{
return(MAPI_E_INVALID_SESSION);
}
if (lpszSeedMessageID)
{
if (strlen(lpszSeedMessageID) > 511)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
}
else
{
lpszSeedMessageID = tempSeedString;
}
TRACE("MAPIFindNext lhSession Session ID = %lu\n", lhSession);
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for the login call.
//
CSharedMem *sMem;
DWORD memSize;
HANDLE hSharedMemory;
MAPIFindNextType findInfo;
memSize = sizeof(MAPIFindNextType);
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now populate a Logon structure with the passed in information
//
findInfo.lhSession = lhSession;
findInfo.ulUIParam = ulUIParam;
findInfo.flFlags = flFlags;
findInfo.ipcWorked = 0;
//
// Copy the seed value in the structure
//
strcpy((LPSTR) findInfo.lpszSeedMessageID, lpszSeedMessageID);
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(findInfo), sizeof(MAPIFindNextType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPIFindNext, &ipcInfo);
// Check for IPC completion
MAPIFindNextType *findNextInfo = (MAPIFindNextType *) &(sMem->m_buf[0]);
if (!findNextInfo->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now return the value to the caller...
//
if (result == SUCCESS_SUCCESS)
{
strcpy(lpszMessageID, (LPSTR) findNextInfo->lpszMessageID);
}
//
// Now do cleanup on the way out...
//
NSCloseSharedMemory(sMem, hSharedMemory);
LogString("--MAPIFindNext complete\r\n");
return(result);
}
MAPI_IMPLEMENT(ULONG)
MAPIReadMail(
LHANDLE lhSession,
ULONG ulUIParam,
LPSTR lpszMessageID,
FLAGS flFlags,
ULONG ulReserved,
lpMapiMessage FAR *lppMessage)
{
LRESULT result;
HWND hWndIPC;
MAPIIPCType ipcInfo;
TRACE_FN("MAPIReadMail");
//
// This one has to have a valid session handle, or we bail!
//
if (lhSession == 0)
{
return(MAPI_E_INVALID_SESSION);
}
if (strlen(lpszMessageID) > 511)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for the login call.
//
CSharedMem *sMem;
DWORD memSize;
HANDLE hSharedMemory;
MAPIReadMailType readMailInfo;
memSize = sizeof(MAPIReadMailType);
memset(&readMailInfo, 0, (size_t) memSize);
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now populate a Logon structure with the passed in information
//
readMailInfo.lhSession = lhSession;
readMailInfo.ulUIParam = ulUIParam;
readMailInfo.flFlags = flFlags;
readMailInfo.ipcWorked = 0;
//
// Copy the seed value in the structure
//
strcpy((LPSTR) readMailInfo.lpszMessageID, lpszMessageID);
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(readMailInfo), sizeof(MAPIReadMailType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPIReadMail, &ipcInfo);
// Check the IPC status...
MAPIReadMailType *rMailPtr = (MAPIReadMailType *) &(sMem->m_buf[0]);
//
// Now return the value to the caller if we bombed...
//
if ((result != SUCCESS_SUCCESS) || (!(rMailPtr->ipcWorked)))
{
NSCloseSharedMemory(sMem, hSharedMemory);
LogString("--MAPIReadMail failed\r\n");
return(result);
}
// Now get a hold of the various values for the message we need to
// return in the lpMapiMessage structure
if (rMailPtr->MSG_nRecipCount == 0)
{
NSCloseSharedMemory(sMem, hSharedMemory);
LogString("--MAPIReadMail failed - ZERO recipients\r\n");
return(MAPI_E_FAILURE);
}
//
// Get the blob loaded into memory...
//
NSstringSeq blobSequence = (NSstringSeq) LoadBlobToMemory((LPSTR) rMailPtr->lpszBlob);
// Now check on the blob
if (!blobSequence)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
return(MAPI_E_INSUFFICIENT_MEMORY);
}
lpMapiMessage msgPtr = (MapiMessage *)malloc(sizeof(MapiMessage));
if (msgPtr == NULL)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
NSStrSeqDelete(blobSequence);
LogString("--MAPIReadMail failed\r\n");
return(MAPI_E_INSUFFICIENT_MEMORY);
}
memset(msgPtr, 0, sizeof(MapiMessage));
//
// At this point, we need to populate the structure of information
// we are passing back via the *lppMessage and then start parsing through the
// String sequence for each of needed fields. After populating the entire
// structure, return this pointer and our job on this side is done!
//
LPSTR subject = NSStrSeqGet(blobSequence, 0);
LPSTR noteText = NSStrSeqGet(blobSequence, 1);
LPSTR dateReceived = NSStrSeqGet(blobSequence, 2);
LPSTR threadID = NSStrSeqGet(blobSequence, 3);
LPSTR origName = NSStrSeqGet(blobSequence, 4);
LPSTR origAddress = NSStrSeqGet(blobSequence, 5);
UINT i;
ULONG stringCount = 6; // This is to start with the rest of the string seq
// Set all of the general header information first!
msgPtr->lpszSubject = strdup(CheckNullString(subject));
msgPtr->lpszDateReceived = strdup(CheckNullString(dateReceived));
msgPtr->lpszConversationID = strdup(CheckNullString(threadID));
msgPtr->flFlags = rMailPtr->MSG_flFlags;
// Setup the originator information!
msgPtr->lpOriginator = (lpMapiRecipDesc) malloc(sizeof(MapiRecipDesc));
if (!msgPtr->lpOriginator)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
FreeMAPIMessage(msgPtr);
NSStrSeqDelete(blobSequence);
LogString("--MAPIReadMail failed\r\n");
return(MAPI_E_INSUFFICIENT_MEMORY);
}
// memset the area just allocated to null
memset(msgPtr->lpOriginator, 0, sizeof(MapiRecipDesc));
msgPtr->lpOriginator->lpszName = strdup(CheckNullString(origName));
msgPtr->lpOriginator->lpszAddress = strdup(CheckNullString(origAddress));
msgPtr->lpOriginator->ulRecipClass = rMailPtr->MSG_ORIG_ulRecipClass;
// Now deal with the recipients of this message
msgPtr->lpRecips = (lpMapiRecipDesc) malloc((size_t) (sizeof(MapiRecipDesc) *
rMailPtr->MSG_nRecipCount));
if (!msgPtr->lpRecips)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
FreeMAPIMessage(msgPtr);
NSStrSeqDelete(blobSequence);
LogString("--MAPIReadMail failed\r\n");
return(MAPI_E_INSUFFICIENT_MEMORY);
}
msgPtr->nRecipCount = rMailPtr->MSG_nRecipCount;
memset(msgPtr->lpRecips, 0, (size_t) (sizeof(MapiRecipDesc) * msgPtr->nRecipCount));
for (i=0; i<msgPtr->nRecipCount; i++)
{
// String x: LPSTR lpszName; // Recipient N name
// String x: LPSTR lpszAddress; // Recipient N address (optional)
// String x: LPSTR lpszRecipClass // recipient class - sprintf of ULONG
msgPtr->lpRecips[i].lpszName =
strdup( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
msgPtr->lpRecips[i].lpszAddress =
strdup( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
msgPtr->lpRecips[i].ulRecipClass =
(ULONG) atoi( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
}
//
// MAPI_ENVELOPE_ONLY
// Indicates MAPIReadMail should read the message header only. File attachments are
// not copied to temporary files, and neither temporary file names nor message text
// is written. Setting this flag enhances performance.
//
// MAPI_SUPPRESS_ATTACH
// Indicates MAPIReadMail should not copy file attachments but should write message
// text into the MapiMessage structure. MAPIReadMail ignores this flag if the
// calling application has set the MAPI_ENVELOPE_ONLY flag. Setting the
// MAPI_SUPPRESS_ATTACH flag enhances performance.
//
if (flFlags & MAPI_ENVELOPE_ONLY)
{
noteText = NULL;
rMailPtr->MSG_nFileCount = 0;
}
else if ( (flFlags & MAPI_BODY_AS_FILE) &&
(flFlags & MAPI_SUPPRESS_ATTACH))
{
rMailPtr->MSG_nFileCount = 1;
}
else if (flFlags & MAPI_BODY_AS_FILE)
{
++(rMailPtr->MSG_nFileCount);
}
// Now deal with the list of attachments! Since the nFileCount should be set
// correctly, this loop will automagically be correct
//
if (rMailPtr->MSG_nFileCount > 0)
{
msgPtr->lpFiles = (lpMapiFileDesc) malloc((size_t) (sizeof(MapiFileDesc) *
rMailPtr->MSG_nFileCount) );
if (!msgPtr->lpFiles)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
FreeMAPIMessage(msgPtr);
NSStrSeqDelete(blobSequence);
LogString("--MAPIReadMail failed\r\n");
return(MAPI_E_INSUFFICIENT_MEMORY);
}
memset(msgPtr->lpFiles, 0, (size_t) (sizeof(MapiFileDesc) * rMailPtr->MSG_nFileCount));
}
UCHAR fNameBody[_MAX_PATH];
// Now do body and attachment stuff only if we haven't been told
// not to do it by the user.
if (!(flFlags & MAPI_ENVELOPE_ONLY))
{
if (flFlags & MAPI_BODY_AS_FILE)
{
LPSTR tempNoteText = CheckNullString(noteText);
if (GetTempAttachmentName((LPSTR) fNameBody) != 0)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
FreeMAPIMessage(msgPtr);
NSStrSeqDelete(blobSequence);
LogString("--MAPIReadMail failed\r\n");
return(MAPI_E_ATTACHMENT_WRITE_FAILURE);
}
if (WriteMemoryBufferToDisk((LPSTR) fNameBody,
(strlen(tempNoteText) + 1), tempNoteText) != 0)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
FreeMAPIMessage(msgPtr);
NSStrSeqDelete(blobSequence);
LogString("--MAPIReadMail failed\r\n");
return(MAPI_E_ATTACHMENT_WRITE_FAILURE);
}
}
else
{
msgPtr->lpszNoteText = strdup(noteText);
}
msgPtr->nFileCount = rMailPtr->MSG_nFileCount;
for (i=0; i<msgPtr->nFileCount; i++)
{
//
// MAPI_BODY_AS_FILE
// Indicates MAPIReadMail should write the message text to a temporary file
// and add it as the first attachment in the attachment list.
if ( (i == 0) && (flFlags & MAPI_BODY_AS_FILE))
{
msgPtr->lpFiles[i].lpszPathName = strdup((LPSTR)fNameBody);
msgPtr->lpFiles[i].lpszFileName = strdup((LPSTR)fNameBody);
continue;
}
msgPtr->lpFiles[i].lpszPathName =
strdup( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
msgPtr->lpFiles[i].lpszFileName =
strdup( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
}
}
//
// RICHIE - For now, let's do a little cleanup on the message itself
// and strip the following inline tags:
//
// &nbsp; &lt;
//
msgPtr->lpszNoteText = StripHTML(msgPtr->lpszNoteText);
//
// Now that we are here, set the pointer array and move on with life...
//
*lppMessage = msgPtr;
SetPointerArray(msgPtr, MAPI_MESSAGE_TYPE);
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
if (blobSequence)
NSStrSeqDelete(blobSequence);
//
// Now, get out...
//
LogString("--MAPIReadMail complete\r\n");
return(result);
}
MAPI_IMPLEMENT(ULONG)
MAPISaveMail(
LHANDLE lhSession,
ULONG ulUIParam,
lpMapiMessage lpMessage,
FLAGS flFlags,
ULONG ulReserved,
LPSTR lpszMessageID
)
{
#ifdef _DEBUG
TRACE_FN("MapiSaveMail");
TRACE(" lhSession=%lu\n", lhSession);
if (lpMessage)
{
TRACE(" lpMessage->lpszSubject = '%s'\n lpMessage->lpszNoteText='%s'\n", lpMessage->lpszSubject, lpMessage->lpszNoteText);
TRACE(" lpMessage->nRecipCount = %lu\n lpMessage->nFileCount=%lu\n", lpMessage->nRecipCount, lpMessage->nFileCount);
lpMapiFileDesc pFiles = lpMessage->lpFiles;
for (ULONG i = 0; i < lpMessage->nFileCount; i++)
{
TRACE(" lpszPathName='%s', lpszFileName='%s'\n", pFiles[i].lpszPathName, pFiles[i].lpszFileName);
}
}
#endif
CleanupMAPITempFiles();
//
// Needed variables...
//
BOOL isTempSession = FALSE;
LONG result = SUCCESS_SUCCESS;
HWND hWndIPC;
MAPIIPCType ipcInfo;
if (!lpMessage)
{
return(MAPI_E_FAILURE);
}
//
// Sanity Check the attachments if any here...
//
if (lpMessage->nFileCount > 0)
{
DWORD rc = SanityCheckAttachmentFiles(lpMessage); // return of zero is ok
if (rc == 1)
{
return(MAPI_E_ATTACHMENT_NOT_FOUND);
}
else if (rc == 2)
{
return(MAPI_E_ATTACHMENT_OPEN_FAILURE);
}
}
//
// If lhSession is ZERO, then we have to get a temporary session and
// go from there.
//
if ( (lhSession == 0) || (flFlags & MAPI_NEW_SESSION))
{
LHANDLE lhTempSession;
if (MAPILogon(0, NULL, NULL, 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
isTempSession = TRUE;
if (MAPILogon(0, "dummy", "dummy", 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
return(MAPI_E_LOGIN_FAILURE);
}
}
lhSession = lhTempSession;
}
//
// Now create the big chunk of memory that we will pass across which
// represents the message
//
DWORD totalSize;
MAPISendMailType *memToPass = NULL;
memToPass = (MAPISendMailType *) FlattenMAPIMessageStructure(lpMessage, &totalSize);
if (!memToPass)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
memToPass->lhSession = lhSession;
memToPass->ulUIParam = ulUIParam;
memToPass->flFlags = flFlags;
memToPass->ipcWorked = 0;
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
free(memToPass);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for send message call.
//
CSharedMem *sMem;
HANDLE hSharedMemory;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(totalSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
free(memToPass);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = totalSize;
memcpy(sMem->m_buf, memToPass, (size_t) totalSize);
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = totalSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPISaveMail, &ipcInfo);
// Check for IPC completion
MAPISendMailType *ptr = (MAPISendMailType *) &(sMem->m_buf[0]);
if (!ptr->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now time to do some cleanup...
//
NSCloseSharedMemory(sMem, hSharedMemory);
free(memToPass);
LogString("--MAPISaveMail complete\r\n");
//
// If we created a temp session, then we need to trash it...
//
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(result);
}
//
// The MAPIDeleteMail function deletes a message.
//
MAPI_IMPLEMENT(ULONG)
MAPIDeleteMail(
LHANDLE lhSession,
ULONG ulUIParam,
LPSTR lpszMessageID,
FLAGS flFlags,
ULONG ulReserved)
{
LRESULT result;
HWND hWndIPC;
MAPIIPCType ipcInfo;
TRACE_FN("MAPIDeleteMail");
if (lhSession == 0)
{
return(MAPI_E_INVALID_SESSION);
}
// Make sure we have something valid on the message ID front!
if ((!lpszMessageID) || (!*lpszMessageID))
{
return(MAPI_E_INVALID_MESSAGE);
}
if (strlen(lpszMessageID) > 511)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
TRACE("MAPIDeleteMail lhSession Session ID = %lu\n", lhSession);
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for the login call.
//
CSharedMem *sMem;
DWORD memSize;
HANDLE hSharedMemory;
MAPIDeleteMailType delInfo;
memSize = sizeof(MAPIDeleteMailType);
lstrcpy((LPSTR)delInfo.lpszMessageID, lpszMessageID);
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now populate a Logon structure with the passed in information
//
delInfo.lhSession = lhSession;
delInfo.ulUIParam = ulUIParam;
delInfo.ipcWorked = 0;
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(delInfo), sizeof(MAPIDeleteMailType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPIDeleteMail, &ipcInfo);
// Check for IPC completion
MAPIDeleteMailType *ptr = (MAPIDeleteMailType *) &(sMem->m_buf[0]);
if (!ptr->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now do cleanup on the way out and return the value to the caller...
//
NSCloseSharedMemory(sMem, hSharedMemory);
LogString("--MAPIDeleteMail complete\r\n");
return(result);
}
// RICHIE - MAPI ADDRESS HERE
//
// The MAPIDetails function displays a dialog box containing the details
// of a selected address list entry
//
MAPI_IMPLEMENT(ULONG)
MAPIDetails(
LHANDLE lhSession,
ULONG ulUIParam,
lpMapiRecipDesc lpRecip,
FLAGS flFlags,
ULONG ulReserved)
{
TRACE_FN("MAPIDetails");
//
// Needed variables...
//
BOOL isTempSession = FALSE;
LONG result = SUCCESS_SUCCESS;
HWND hWndIPC;
MAPIIPCType ipcInfo;
// Make sure we have something valid on the query name front!
if (!lpRecip)
{
return(MAPI_E_AMBIGUOUS_RECIPIENT);
}
if ((lpRecip->ulEIDSize == 0) || (lpRecip->ulEIDSize > MAX_NAME_LEN))
{
return(MAPI_E_AMBIGUOUS_RECIPIENT);
}
//
// If lhSession is ZERO, then we have to get a temporary session and
// go from there.
//
if (lhSession == 0)
{
LHANDLE lhTempSession;
if (MAPILogon(0, NULL, NULL, 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
isTempSession = TRUE;
if (MAPILogon(0, "dummy", "dummy", 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
return(MAPI_E_LOGIN_FAILURE);
}
}
lhSession = lhTempSession;
}
//
// Now create the big chunk of memory that we will pass across which
// represents the message
//
MAPIDetailsType detailInfo;
memset(&detailInfo, 0, sizeof(MAPIDetailsType));
detailInfo.lhSession = lhSession;
detailInfo.ulUIParam = ulUIParam;
detailInfo.flFlags = flFlags;
detailInfo.ipcWorked = 0;
memcpy(detailInfo.lpszABookID, lpRecip->lpEntryID, (size_t) lpRecip->ulEIDSize);
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for send message call.
//
CSharedMem *sMem;
HANDLE hSharedMemory;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(sizeof(MAPIDetailsType), (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = sizeof(MAPIDetailsType);
memcpy(sMem->m_buf, &detailInfo, sizeof(MAPIDetailsType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = sizeof(MAPIDetailsType);
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPIDetails, &ipcInfo);
// Check for IPC completion
MAPIDetailsType *ptr = (MAPIDetailsType *) &(sMem->m_buf[0]);
if (!ptr->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now time to do some real cleanup...
//
NSCloseSharedMemory(sMem, hSharedMemory);
//
// If we created a temp session, then we need to trash it...
//
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
LogString("--MAPIDetails complete\r\n");
return(result);
}
//
// The MAPIResolveName function transforms a message recipient's name as entered by a
// user to an unambiguous address list entry.
//
MAPI_IMPLEMENT(ULONG)
MAPIResolveName(
LHANDLE lhSession,
ULONG ulUIParam,
LPSTR lpszName,
FLAGS flFlags,
ULONG ulReserved,
lpMapiRecipDesc FAR *lppRecip)
{
TRACE_FN("MAPIResolveName");
//
// Needed variables...
//
BOOL isTempSession = FALSE;
LONG result = SUCCESS_SUCCESS;
HWND hWndIPC;
MAPIIPCType ipcInfo;
// Make sure we have something valid on the query name front!
if ((!lpszName) || (!*lpszName))
{
return(MAPI_E_UNKNOWN_RECIPIENT);
}
if (strlen(lpszName) > 255)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// If lhSession is ZERO, then we have to get a temporary session and
// go from there.
//
if (lhSession == 0)
{
LHANDLE lhTempSession;
if (MAPILogon(0, NULL, NULL, 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
isTempSession = TRUE;
if (MAPILogon(0, "dummy", "dummy", 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
return(MAPI_E_LOGIN_FAILURE);
}
}
lhSession = lhTempSession;
}
//
// Now create the big chunk of memory that we will pass across which
// represents the message
//
MAPIResolveNameType nameInfo;
nameInfo.lhSession = lhSession;
nameInfo.ulUIParam = ulUIParam;
nameInfo.flFlags = flFlags;
nameInfo.ipcWorked = 0;
lstrcpy((LPSTR) nameInfo.lpszName, lpszName);
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for send message call.
//
CSharedMem *sMem;
HANDLE hSharedMemory;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(sizeof(MAPIResolveNameType), (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = sizeof(MAPIResolveNameType);
memcpy(sMem->m_buf, &nameInfo, sizeof(MAPIResolveNameType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = sizeof(MAPIResolveNameType);
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPIResolveName, &ipcInfo);
// Check for IPC completion
MAPIResolveNameType *ptr = (MAPIResolveNameType *) &(sMem->m_buf[0]);
if (!ptr->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// IF FOUND: create the new structure for the matched address info and set the
// memory tracking array correctly for cleanup later down the road.
//
if (result == SUCCESS_SUCCESS)
{
*lppRecip = (MapiRecipDesc FAR *)malloc(sizeof(MapiRecipDesc));
if (lppRecip == NULL)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
// Null out the new memory...
memset((*lppRecip), 0, sizeof(MapiRecipDesc));
MAPIResolveNameType *resultInfo = (MAPIResolveNameType *) &(sMem->m_buf[0]);
(*lppRecip)->ulRecipClass = 0; // This field is meaningless in this call
(*lppRecip)->lpszName = strdup((LPSTR) resultInfo->lpszABookName);
(*lppRecip)->lpszAddress = strdup((LPSTR) resultInfo->lpszABookAddress);
// We will be using a string made up of the first and last name of the
// person as a unique ID for that individual. The string will be delimited
// like this:
//
// <first_name>:=LAST=:<last_name>
//
(*lppRecip)->ulEIDSize = strlen((LPSTR) resultInfo->lpszABookID) + 1;
(*lppRecip)->lpEntryID = strdup((LPSTR) resultInfo->lpszABookID);
SetPointerArray(*lppRecip, MAPI_RECIPIENT_TYPE);
}
//
// Now time to do some real cleanup...
//
NSCloseSharedMemory(sMem, hSharedMemory);
//
// If we created a temp session, then we need to trash it...
//
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
LogString("--MAPIResolveName complete\r\n");
return(result);
}
MAPI_IMPLEMENT(ULONG)
MAPIAddress(
LHANDLE lhSession,
ULONG ulUIParam,
LPSTR lpszCaption,
ULONG nEditFields,
LPSTR lpszLabels,
ULONG nRecips,
lpMapiRecipDesc lpRecips,
FLAGS flFlags,
ULONG ulReserved,
LPULONG lpnNewRecips,
lpMapiRecipDesc FAR *lppNewRecips)
{
TRACE_FN("MAPIAddress");
TRACE("MAPIAddress: lhSession=%lu\n", lhSession);
//
// Needed variables...
//
BOOL isTempSession = FALSE;
LONG result = SUCCESS_SUCCESS;
HWND hWndIPC;
MAPIIPCType ipcInfo;
*lppNewRecips = NULL;
//
// If lhSession is ZERO, then we have to get a temporary session and
// go from there.
//
if ( (lhSession == 0) || (flFlags & MAPI_NEW_SESSION))
{
LHANDLE lhTempSession;
if (MAPILogon(0, NULL, NULL, 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
isTempSession = TRUE;
if (MAPILogon(0, "dummy", "dummy", 0, 0, &lhTempSession) != SUCCESS_SUCCESS)
{
return(MAPI_E_LOGIN_FAILURE);
}
}
lhSession = lhTempSession;
}
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, ulUIParam);
//
// Build the shared memory segment of information to pass into
// Communicator for the address call.
//
ULONG i;
CSharedMem *sMem;
DWORD memSize;
HANDLE hSharedMemory;
MAPIAddressType addrInfo;
LONG strSeqSize = 0;
NSstringSeq strSeq = NULL;
DWORD currentString = 0;
//
// First populate a address structure with the passed in information
//
memset(&addrInfo, 0, (size_t) sizeof(MAPIAddressType));
addrInfo.lhSession = lhSession;
addrInfo.ulUIParam = ulUIParam;
addrInfo.flFlags = flFlags;
addrInfo.ipcWorked = 0;
addrInfo.nNewRecips = 0; // number of recips returned...
addrInfo.lpszBlob[0] = '\0'; // file name for blob of information
addrInfo.nRecips = nRecips; // number of recips to start with...
//
// Copy the caption into the structure
//
if ((lpszCaption) && (*lpszCaption)) // check for no null
{
strcpy((LPSTR) addrInfo.lpszCaption, lpszCaption);
}
// Now build the glob of memory of addresses to start with...
if (nRecips > 0)
{
LPSTR *strArray = (LPSTR *) malloc((size_t) (sizeof(LPSTR) * ((nRecips * 3) + 1)));
if (!strArray)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
LPSTR toString = "1";
LPSTR ccString = "2";
LPSTR bccString = "3";
for (i=0; i<nRecips; i++)
{
// rhp - need message class
if (lpRecips[i].ulRecipClass == MAPI_BCC)
strArray[currentString++] = CheckNullString(bccString);
else if (lpRecips[i].ulRecipClass == MAPI_CC)
strArray[currentString++] = CheckNullString(ccString);
else
strArray[currentString++] = CheckNullString(toString);
strArray[currentString++] = CheckNullString(lpRecips[i].lpszName);
strArray[currentString++] = CheckNullString(lpRecips[i].lpszAddress);
}
strArray[currentString] = NULL;
strSeq = NSStrSeqNew(strArray);
free(strArray);
if (!strSeq)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
strSeqSize = NSStrSeqSize(strSeq);
}
memSize = sizeof(MAPIAddressType) + strSeqSize;
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(addrInfo), sizeof(MAPIAddressType));
// Now if we have recipients...copy in the sequence!
if (nRecips > 0)
{
MAPIAddressType *ptr = (MAPIAddressType *)&(sMem->m_buf[0]);
memcpy(ptr->dataBuf, strSeq, strSeqSize);
NSStrSeqDelete(strSeq);
}
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPIAddress, &ipcInfo);
// Check the IPC status...
MAPIAddressType *addrPtr = (MAPIAddressType *) &(sMem->m_buf[0]);
//
// Now return the value to the caller if we bombed...
//
if ((result != SUCCESS_SUCCESS) || (!(addrPtr->ipcWorked)))
{
NSCloseSharedMemory(sMem, hSharedMemory);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
LogString("--MAPIAddress failed\r\n");
return(result);
}
// Now deal with the addresses selected and move on...
if (addrPtr->nNewRecips == 0)
{
NSCloseSharedMemory(sMem, hSharedMemory);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
LogString("--MAPIAddress - ZERO recipients\r\n");
return(result);
}
//
// Get the blob loaded into memory...
//
NSstringSeq blobSequence = (NSstringSeq) LoadBlobToMemory((LPSTR) addrPtr->lpszBlob);
// Now check on the blob
if (!blobSequence)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
ULONG stringCount = 0; // This is to start with the rest of the string seq
lpMapiRecipDesc lpNewRecips;
// Now deal with the recipients of this message
lpNewRecips = (lpMapiRecipDesc) malloc((size_t) (sizeof(MapiRecipDesc) *
addrPtr->nNewRecips));
if (!lpNewRecips)
{
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
NSStrSeqDelete(blobSequence);
LogString("--MAPIAddress failed\r\n");
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
return(MAPI_E_INSUFFICIENT_MEMORY);
}
memset(lpNewRecips, 0, (size_t) (sizeof(MapiRecipDesc) * addrPtr->nNewRecips));
for (i=0; i<addrPtr->nNewRecips; i++)
{
// String x: LPSTR lpszName; // Recipient N name
// String x: LPSTR lpszAddress; // Recipient N address (optional)
// String x: LPSTR lpszRecipClass // recipient class - sprintf of ULONG
lpNewRecips[i].lpszName =
strdup( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
lpNewRecips[i].lpszAddress =
strdup( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
lpNewRecips[i].ulRecipClass =
(ULONG) atoi( CheckNullString(NSStrSeqGet(blobSequence, stringCount++)) );
}
//
// Now that we are here, set the pointer array and move on with life...
//
*lppNewRecips = lpNewRecips;
*lpnNewRecips = addrPtr->nNewRecips;
SetPointerArray(lpNewRecips, MAPI_RECIPIENT_TYPE);
// Cleanup the shared memory...
NSCloseSharedMemory(sMem, hSharedMemory);
if (blobSequence)
NSStrSeqDelete(blobSequence);
//
// If we created a temp session, then we need to trash it...
//
if (isTempSession)
{
MAPILogoff(lhSession, 0, 0, 0);
}
TRACE("MAPIAddress Complete");
return(result);
}
MAPI_IMPLEMENT(ULONG)
MAPIGetNetscapeVersion(void)
{
return(450);
}
MAPI_IMPLEMENT(ULONG)
MAPI_NSCP_SynchronizeClient(LHANDLE lhSession,
ULONG ulReserved)
{
LRESULT result;
HWND hWndIPC;
MAPIIPCType ipcInfo;
TRACE_FN("MAPI_NSCP_SynchronizeClient");
TRACE("lhSession Session ID = %lu\n", lhSession);
LogString("--MAPI_NSCP_SynchronizeClient\r\n");
//
// This call locates a Communicator Window, if one is not running,
// it will start up an instance of Communicator and grab that window.
//
hWndIPC = GetCommunicatorIPCWindow(TRUE);
if (NULL == hWndIPC)
{
return(MAPI_E_FAILURE);
}
//
// Build the IPC structure of information that needs to be provided
// to get information into Communicator
//
BuildMemName((LPSTR)ipcInfo.smemName, 0);
//
// Build the shared memory segment of information to pass into
// Communicator for the sync call.
//
CSharedMem *sMem;
DWORD memSize;
HANDLE hSharedMemory;
MAPI_NSCP_SynchronizeClientType syncInfo;
memSize = sizeof(MAPI_NSCP_SynchronizeClientType);
//
// Create the shared memory...
//
sMem = NSCreateSharedMemory(memSize, (LPSTR) ipcInfo.smemName, &hSharedMemory);
if (!sMem)
{
return(MAPI_E_INSUFFICIENT_MEMORY);
}
//
// Now populate a Sync structure with the passed in information
//
syncInfo.lhSession = lhSession;
syncInfo.ipcWorked = 0;
//
// Now copy the information into the memory segment.
//
sMem->m_dwSize = memSize;
memcpy(sMem->m_buf, &(syncInfo), sizeof(MAPI_NSCP_SynchronizeClientType));
//
// Now set the size of the shared memory segment for the
// WM_COPYDATA argument that will be sent across.
//
ipcInfo.smemSize = memSize;
// For Win16, we actually pass in the pointer to the structure,
// so just assign the variable here.
#ifdef WIN16
ipcInfo.lpsmem = sMem;
#else
ipcInfo.lpsmem = NULL;
#endif
//
// Ok, time to do the SendMessage() to Communicator...
//
result = SendMAPIRequest(hWndIPC, NSCP_MAPI_NSCP_SynchronizeClient, &ipcInfo);
// Check for IPC completion
MAPI_NSCP_SynchronizeClientType *sInfo = (MAPI_NSCP_SynchronizeClientType *) &(sMem->m_buf[0]);
if (!sInfo->ipcWorked)
{
result = MAPI_E_FAILURE;
}
//
// Now do cleanup on the way out...
//
NSCloseSharedMemory(sMem, hSharedMemory);
LogString("--MAPI_NSCP_SynchronizeClientType complete\r\n");
// Now just return!
return(result);
}