gecko-dev/xpcom/components/nsComponentManager.h
1999-08-20 23:06:47 +00:00

282 lines
11 KiB
C++

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* 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.
*/
#ifndef nsComponentManager_h__
#define nsComponentManager_h__
#include "nsIComponentManager.h"
#include "nsIRegistry.h"
#include "nsHashtable.h"
#include "prtime.h"
#include "prmon.h"
class nsFactoryEntry;
class nsDll;
class nsIServiceManager;
// Registry Factory creation function defined in nsRegistry.cpp
// We hook into this function locally to create and register the registry
// Since noone outside xpcom needs to know about this and nsRegistry.cpp
// does not have a local include file, we are putting this definition
// here rather than in nsIRegistry.h
extern "C" NS_EXPORT nsresult NS_RegistryGetFactory(nsIFactory** aFactory);
////////////////////////////////////////////////////////////////////////////////
class nsComponentManagerImpl : public nsIComponentManager {
public:
NS_DECL_ISUPPORTS
// nsIComponentManager methods:
NS_IMETHOD FindFactory(const nsCID &aClass,
nsIFactory **aFactory);
// nsIComponentManager methods:
NS_IMETHOD GetClassObject(const nsCID &aClass, const nsIID &aIID,
void **aResult);
// Finds a class ID for a specific Program ID
NS_IMETHOD ProgIDToCLSID(const char *aProgID,
nsCID *aClass);
// Finds a Program ID for a specific class ID
// caller frees the result with delete[]
NS_IMETHOD CLSIDToProgID(nsCID *aClass,
char* *aClassName,
char* *aProgID);
// Creates a class instance for a specific class ID
NS_IMETHOD CreateInstance(const nsCID &aClass,
nsISupports *aDelegate,
const nsIID &aIID,
void **aResult);
// Convenience routine, creates a class instance for a specific ProgID
NS_IMETHOD CreateInstance(const char *aProgID,
nsISupports *aDelegate,
const nsIID &aIID,
void **aResult);
// Manually registry a factory for a class
NS_IMETHOD RegisterFactory(const nsCID &aClass,
const char *aClassName,
const char *aProgID,
nsIFactory *aFactory,
PRBool aReplace);
// Manually register a dynamically loaded component.
// The libraryPersistentDescriptor is what gets passed to the library
// self register function from ComponentManager. The format of this string
// is the same as nsIFileSpec::GetPersistentDescriptorString()
//
// This function will go away in favour of RegisterComponentSpec. In fact,
// it internally turns around and calls RegisterComponentSpec.
NS_IMETHOD RegisterComponent(const nsCID &aClass,
const char *aClassName,
const char *aProgID,
const char *aLibraryPersistentDescriptor,
PRBool aReplace,
PRBool aPersist);
// Register a component using its FileSpec as its identification
// This is the more prevalent use.
NS_IMETHOD RegisterComponentSpec(const nsCID &aClass,
const char *aClassName,
const char *aProgID,
nsIFileSpec *aLibrary,
PRBool aReplace,
PRBool aPersist);
// Register a component using its dllName. This could be a dll name with
// no path so that LD_LIBRARY_PATH on unix or PATH on win can load it. Or
// this could be a code fragment name on the Mac.
NS_IMETHOD RegisterComponentLib(const nsCID &aClass,
const char *aClassName,
const char *aProgID,
const char *adllName,
PRBool aReplace,
PRBool aPersist);
// Manually unregister a factory for a class
NS_IMETHOD UnregisterFactory(const nsCID &aClass,
nsIFactory *aFactory);
// Manually unregister a dynamically loaded component
NS_IMETHOD UnregisterComponent(const nsCID &aClass,
const char *aLibrary);
// Manually unregister a dynamically loaded component
NS_IMETHOD UnregisterComponentSpec(const nsCID &aClass,
nsIFileSpec *aLibrary);
// Unload dynamically loaded factories that are not in use
NS_IMETHOD FreeLibraries(void);
// Is the given CID currently registered?
NS_IMETHOD IsRegistered(const nsCID &aClass,
PRBool *aRegistered);
// Get an enumeration of all the CIDs
NS_IMETHOD EnumerateCLSIDs(nsIEnumerator** aEmumerator);
// Get an enumeration of all the ProgIDs
NS_IMETHOD EnumerateProgIDs(nsIEnumerator** aEmumerator);
//////////////////////////////////////////////////////////////////////////////
// DLL registration support
// Autoregistration will try only files with these extensions.
// All extensions are case insensitive.
// ".dll", // Windows
// ".dso", // Unix
// ".so", // Unix
// ".sl", // Unix: HP
// ".shlb", // Mac
// ".dlm", // new for all platforms
//
//
NS_IMETHOD AutoRegister(RegistrationTime when, nsIFileSpec *directory);
NS_IMETHOD AutoRegisterComponent(RegistrationTime when, nsIFileSpec *component);
// nsComponentManagerImpl methods:
nsComponentManagerImpl();
virtual ~nsComponentManagerImpl();
static nsComponentManagerImpl* gComponentManager;
nsresult Init(void);
nsresult PlatformPrePopulateRegistry();
protected:
nsresult LoadFactory(nsFactoryEntry *aEntry, nsIFactory **aFactory);
nsFactoryEntry *GetFactoryEntry(const nsCID &aClass, PRBool checkRegistry);
nsresult SyncComponentsInDir(RegistrationTime when, nsIFileSpec *dirSpec);
nsresult SelfRegisterDll(nsDll *dll);
nsresult SelfUnregisterDll(nsDll *dll);
nsresult HashProgID(const char *aprogID, const nsCID &aClass);
nsDll *CreateCachedDll(const char *persistentDescriptor, PRUint32 modDate, PRUint32 size);
nsDll *CreateCachedDll(nsIFileSpec *dllSpec);
nsDll *CreateCachedDllName(const char *dllName);
nsresult UnloadLibraries(nsIServiceManager *servmgr);
// The following functions are the only ones that operate on the persistent
// registry
nsresult PlatformInit(void);
nsresult PlatformVersionCheck();
nsresult PlatformCreateDll(const char *fullname, nsDll* *result);
nsresult PlatformMarkNoComponents(nsDll *dll);
nsresult PlatformRegister(const char *cidString, const char *className, const char *progID, nsDll *dll);
nsresult PlatformUnregister(const char *cidString, const char *aLibrary);
nsresult PlatformFind(const nsCID &aCID, nsDll* *aDll);
nsresult PlatformProgIDToCLSID(const char *aProgID, nsCID *aClass);
nsresult PlatformCLSIDToProgID(nsCID *aClass, char* *aClassName, char* *aProgID);
void PlatformGetFileInfo(nsIRegistry::Key Key, PRUint32 *lastModifiedTime, PRUint32 *fileSize);
void PlatformSetFileInfo(nsIRegistry::Key Key, PRUint32 lastModifiedTime, PRUint32 fileSize);
protected:
nsObjectHashtable* mFactories;
nsObjectHashtable* mProgIDs;
PRMonitor* mMon;
nsObjectHashtable* mDllStore;
nsIRegistry* mRegistry;
nsIRegistry::Key mXPCOMKey;
nsIRegistry::Key mClassesKey;
nsIRegistry::Key mCLSIDKey;
PRBool mPrePopulationDone;
};
#define NS_MAX_FILENAME_LEN 1024
#define NS_ERROR_IS_DIR NS_ERROR_GENERATE_FAILURE(NS_ERROR_MODULE_XPCOM, 24)
#ifdef XP_UNIX
/* The default registry on the unix system is $HOME/.mozilla/registry per
* vr_findGlobalRegName(). vr_findRegFile() will create the registry file
* if it doesn't exist. But it wont create directories.
*
* Hence we need to create the directory if it doesn't exist already.
*
* Why create it here as opposed to the app ?
* ------------------------------------------
* The app cannot create the directory in main() as most of the registry
* and initialization happens due to use of static variables.
* And we dont want to be dependent on the order in which
* these static stuff happen.
*
* Permission for the $HOME/.mozilla will be Read,Write,Execute
* for user only. Nothing to group and others.
*/
#define NS_MOZILLA_DIR_NAME ".mozilla"
#define NS_MOZILLA_DIR_PERMISSION 00700
#endif /* XP_UNIX */
#ifdef XP_BEOS
#define NS_MOZILLA_DIR_NAME "mozilla"
#define NS_MOZILLA_DIR_PERMISSION 00700
#endif /* XP_BEOS */
/**
* When using the registry we put a version number in it.
* If the version number that is in the registry doesn't match
* the following, we ignore the registry. This lets news versions
* of the software deal with old formats of registry and not
*
* alpha0.20 : First time we did versioning
* alpha0.30 : Changing autoreg to begin registration from ./components on unix
* alpha0.40 : repository -> component manager
* alpha0.50 : using nsIRegistry
* alpha0.60 : xpcom 2.0 landing
* alpha0.70 : using nsIFileSpec. PRTime -> PRUint32
*/
#define NS_XPCOM_COMPONENT_MANAGER_VERSION_STRING "alpha0.70"
////////////////////////////////////////////////////////////////////////////////
/**
* Class: nsFactoryEntry()
*
* There are two types of FactoryEntries.
*
* 1. {CID, dll} mapping.
* Factory is a consequence of the dll. These can be either session
* specific or persistent based on whether we write this
* to the registry or not.
*
* 2. {CID, factory} mapping
* These are strictly session specific and in memory only.
*/
class nsFactoryEntry {
public:
nsFactoryEntry(const nsCID &aClass, nsDll *dll);
nsFactoryEntry(const nsCID &aClass, nsIFactory *aFactory);
~nsFactoryEntry();
nsresult Init(nsHashtable* dllHashtable, const nsCID &aClass, const char *aLibrary,
PRTime lastModTime, PRUint32 fileSize);
nsCID cid;
nsIFactory *factory;
// DO NOT DELETE THIS. Many nsFactoryEntry(s) could be sharing the same Dll.
// This gets deleted from the dllStore going away.
nsDll *dll;
};
////////////////////////////////////////////////////////////////////////////////
#endif // nsComponentManager_h__