pjs/xpcom/components/nsRegistry.cpp

1986 строки
68 KiB
C++
Исходник Обычный вид История

1999-02-11 02:27:09 +03:00
/* -*- 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 1.1 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.mozilla.org/NPL/
1999-02-11 02:27:09 +03:00
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
1999-02-11 02:27:09 +03:00
*
* The Original Code is mozilla.org code.
*
* The Initial Developer of the Original Code is Netscape
1999-02-11 02:27:09 +03:00
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All
* Rights Reserved.
*
* Contributor(s):
1999-02-11 02:27:09 +03:00
*/
#include "nsIRegistry.h"
#include "nsIEnumerator.h"
2000-01-25 00:28:28 +03:00
#include "nsDirectoryService.h"
#include "nsDirectoryServiceDefs.h"
1999-02-11 02:27:09 +03:00
#include "NSReg.h"
#include "prmem.h"
1999-04-01 10:45:50 +04:00
#include "prlock.h"
#include "prlog.h"
#include "prprf.h"
#include "nsCRT.h"
#include "nsMemory.h"
1999-02-11 02:27:09 +03:00
2000-01-25 00:28:28 +03:00
#include "nsCOMPtr.h"
#include "nsILocalFile.h"
#include "nsIServiceManager.h"
#include "nsTextFormatter.h"
#include "nsComponentManager.h"
/* extra locking for the paranoid */
/* #define EXTRA_THREADSAFE */
#ifndef EXTRA_THREADSAFE
#define PR_Lock(x) (void)0
#define PR_Unlock(x) (void)0
#endif
// Logging of debug output
#define FORCE_PR_LOG /* Allow logging in the release build */
extern PRLogModuleInfo *nsComponentManagerLog;
PRUnichar widestrFormat[] = { PRUnichar('%'),PRUnichar('s'),PRUnichar(0)};
1999-02-11 02:27:09 +03:00
/*-------------------------------- nsRegistry ----------------------------------
| This class implements the nsIRegistry interface using the functions |
| provided by libreg (as declared in mozilla/modules/libreg/include/NSReg.h). |
| |
| Since that interface is designed to match the libreg function, this class |
| is implemented with each member function being a simple wrapper for the |
| corresponding libreg function. |
| |
| #define EXTRA_THREADSAFE if you are worried about libreg thread safety. |
| It should not be necessary, but I'll leave in the code for the paranoid. |
1999-02-11 02:27:09 +03:00
------------------------------------------------------------------------------*/
1999-02-11 02:27:09 +03:00
struct nsRegistry : public nsIRegistry {
// This class implements the nsISupports interface functions.
NS_DECL_ISUPPORTS
// This class implements the nsIRegistry interface functions.
NS_DECL_NSIREGISTRY
1999-02-11 02:27:09 +03:00
// ctor/dtor
nsRegistry();
virtual ~nsRegistry();
1999-02-11 02:27:09 +03:00
protected:
HREG mReg; // Registry handle.
#ifdef EXTRA_THREADSAFE
PRLock *mregLock; // libreg isn't threadsafe. Use locks to synchronize.
#endif
char *mCurRegFile; // these are to prevent open from opening the registry again
nsWellKnownRegistry mCurRegID;
NS_IMETHOD Close();
1999-02-11 02:27:09 +03:00
}; // nsRegistry
#include "nsIFactory.h"
/*----------------------------- nsRegistryFactory ------------------------------
| Class factory for nsRegistry objects. |
------------------------------------------------------------------------------*/
struct nsRegistryFactory : public nsIFactory {
// This class implements the nsISupports interface functions.
NS_DECL_ISUPPORTS
// nsIFactory methods
NS_IMETHOD CreateInstance(nsISupports *,const nsIID &,void **);
NS_IMETHOD LockFactory(PRBool aLock);
// ctor
nsRegistryFactory();
};
/*--------------------------- nsRegSubtreeEnumerator ---------------------------
| This class implements the nsIEnumerator interface and is used to implement |
| the nsRegistry EnumerateSubtrees and EnumerateAllSubtrees functions. |
------------------------------------------------------------------------------*/
struct nsRegSubtreeEnumerator : public nsIRegistryEnumerator {
1999-02-11 02:27:09 +03:00
// This class implements the nsISupports interface functions.
NS_DECL_ISUPPORTS
// This class implements the nsIEnumerator interface functions.
NS_DECL_NSIENUMERATOR
1999-02-11 02:27:09 +03:00
// And our magic behind-the-back fast-path thing.
NS_DECL_NSIREGISTRYENUMERATOR
1999-02-11 02:27:09 +03:00
// ctor/dtor
nsRegSubtreeEnumerator( HREG hReg, RKEY rKey, PRBool all );
virtual ~nsRegSubtreeEnumerator();
1999-02-11 02:27:09 +03:00
protected:
NS_IMETHOD advance(); // Implementation file; does appropriate NR_RegEnum call.
HREG mReg; // Handle to registry we're affiliated with.
RKEY mKey; // Base key being enumerated.
char mName[MAXREGPATHLEN]; // The name of the current key which is in mNext
1999-02-11 02:27:09 +03:00
REGENUM mEnum; // Corresponding libreg "enumerator".
REGENUM mNext; // Lookahead value.
PRUint32 mStyle; // Style (indicates all or some);
1999-02-11 02:27:09 +03:00
PRBool mDone; // Done flag.
#ifdef EXTRA_THREADSAFE
PRLock *mregLock;
#endif
1999-02-11 02:27:09 +03:00
}; // nsRegSubtreeEnumerator
/*--------------------------- nsRegValueEnumerator -----------------------------
| This class is a variation on nsRegSubtreeEnumerator that allocates |
| nsRegistryValue objects rather than nsRegistryNode objects. It also |
| overrides certain functions to make sure the "value" oriented libreg |
| functions used rather than the subtree oriented ones. |
------------------------------------------------------------------------------*/
struct nsRegValueEnumerator : public nsRegSubtreeEnumerator {
// Override CurrentItem to allocate nsRegistryValue objects.
1999-02-25 22:20:39 +03:00
NS_IMETHOD CurrentItem( nsISupports **result );
1999-02-11 02:27:09 +03:00
// Override advance() to use proper NR_RegEnumEntries.
NS_IMETHOD advance();
// ctor/dtor
nsRegValueEnumerator( HREG hReg, RKEY rKey );
}; // nsRegValueEnumerator
/*------------------------------ nsRegistryNode --------------------------------
| This class implements the nsIRegistryNode interface. Instances are |
| allocated by nsRegSubtreeEnumerator::CurrentItem. |
------------------------------------------------------------------------------*/
struct nsRegistryNode : public nsIRegistryNode {
// This class implements the nsISupports interface functions.
NS_DECL_ISUPPORTS
// This class implements the nsIRegistryNode interface functions.
NS_DECL_NSIREGISTRYNODE
1999-02-11 02:27:09 +03:00
// ctor
nsRegistryNode( HREG hReg, char *name, RKEY childKey );
virtual ~nsRegistryNode();
1999-02-11 02:27:09 +03:00
protected:
HREG mReg; // Handle to registry this node is part of.
char mName[MAXREGPATHLEN]; // Buffer to hold name.
RKEY mChildKey; // Key corresponding to mName
#ifdef EXTRA_THREADSAFE
PRLock *mregLock;
#endif
1999-02-11 02:27:09 +03:00
}; // nsRegistryNode
/*------------------------------ nsRegistryValue -------------------------------
| This class implements the nsIRegistryValue interface. Instances are |
| allocated by nsRegValueEnumerator::CurrentItem. |
------------------------------------------------------------------------------*/
struct nsRegistryValue : public nsIRegistryValue {
// This class implements the nsISupports interface functions.
NS_DECL_ISUPPORTS
// This class implements the nsIRegistryValue interface functions.
NS_DECL_NSIREGISTRYVALUE
1999-02-11 02:27:09 +03:00
// ctor
nsRegistryValue( HREG hReg, RKEY key, REGENUM slot );
virtual ~nsRegistryValue();
1999-02-11 02:27:09 +03:00
protected:
nsresult getInfo(); // Get registry info.
HREG mReg; // Handle to registry this node is part of.
RKEY mKey; // Key this node is under.
REGENUM mEnum; // Copy of corresponding content of parent enumerator.
REGINFO mInfo; // Value info.
char mName[MAXREGNAMELEN]; // Buffer to hold name.
REGERR mErr; // XXX This causes this class to be NON THREAD SAFE
#ifdef EXTRA_THREADSAFE
PRLock *mregLock;
#endif
1999-02-11 02:27:09 +03:00
}; // nsRegistryValue
/*----------------------------- regerr2nsresult --------------------------------
| This utility function maps a REGERR value to a corresponding nsresult |
| error code. |
------------------------------------------------------------------------------*/
static nsresult regerr2nsresult( REGERR err ) {
nsresult rv = NS_ERROR_UNEXPECTED;
switch( err ) {
case REGERR_OK:
rv = NS_OK;
break;
case REGERR_FAIL:
rv = NS_ERROR_FAILURE;
break;
case REGERR_NOMORE:
rv = NS_ERROR_REG_NO_MORE;
break;
case REGERR_NOFIND:
rv = NS_ERROR_REG_NOT_FOUND;
break;
case REGERR_PARAM:
case REGERR_BADTYPE:
case REGERR_BADNAME:
rv = NS_ERROR_INVALID_ARG;
break;
case REGERR_NOFILE:
rv = NS_ERROR_REG_NOFILE;
break;
case REGERR_MEMORY:
rv = NS_ERROR_OUT_OF_MEMORY;
break;
case REGERR_BUFTOOSMALL:
rv = NS_ERROR_REG_BUFFER_TOO_SMALL;
break;
case REGERR_NAMETOOLONG:
rv = NS_ERROR_REG_NAME_TOO_LONG;
break;
case REGERR_NOPATH:
rv = NS_ERROR_REG_NO_PATH;
break;
case REGERR_READONLY:
rv = NS_ERROR_REG_READ_ONLY;
break;
case REGERR_BADUTF8:
rv = NS_ERROR_REG_BAD_UTF8;
break;
}
return rv;
}
/*----------------------------- reginfo2DataType -------------------------------
| This utility function converts the type field in the REGINFO structure to |
| the corresponding nsIRegistry::DataType value. |
------------------------------------------------------------------------------*/
static void reginfo2DataType( const REGINFO &in, PRUint32 &out ) {
1999-02-11 02:27:09 +03:00
// Transfer information, based on entry type.
switch( in.entryType ) {
case REGTYPE_ENTRY_STRING_UTF:
out = nsIRegistry::String;
//out.length = in.entryLength;
break;
case REGTYPE_ENTRY_INT32_ARRAY:
out = nsIRegistry::Int32;
// Convert length in bytes to array dimension.
//out.length = in.entryLength / sizeof(PRInt32);
1999-02-11 02:27:09 +03:00
break;
case REGTYPE_ENTRY_BYTES:
out = nsIRegistry::Bytes;
//out.length = in.entryLength;
break;
case REGTYPE_ENTRY_FILE:
out = nsIRegistry::File;
//out.length = in.entryLength;
break;
}
}
/*----------------------------- reginfo2DataType -------------------------------
| This utility function converts the length field in the REGINFO structure to |
| the proper units (if type==Int32 array, we divide by sizeof(PRInt32)). |
1999-02-11 02:27:09 +03:00
------------------------------------------------------------------------------*/
static void reginfo2Length( const REGINFO &in, PRUint32 &out ) {
1999-02-11 02:27:09 +03:00
// Transfer information, based on entry type.
switch( in.entryType ) {
case REGTYPE_ENTRY_STRING_UTF:
out = in.entryLength;
break;
case REGTYPE_ENTRY_INT32_ARRAY:
// Convert length in bytes to array dimension.
out = in.entryLength / sizeof(PRInt32);
1999-02-11 02:27:09 +03:00
break;
case REGTYPE_ENTRY_BYTES:
out = in.entryLength;
break;
case REGTYPE_ENTRY_FILE:
out = in.entryLength;
break;
}
}
/*------------------------ nsISupports Implementation --------------------------
| This code generates the implementation of the nsISupports member functions |
| for each class implemented in this file. |
------------------------------------------------------------------------------*/
NS_IMPL_ISUPPORTS1( nsRegistry, nsIRegistry )
NS_IMPL_ISUPPORTS2( nsRegSubtreeEnumerator, nsIEnumerator,
nsIRegistryEnumerator)
NS_IMPL_ISUPPORTS1( nsRegistryNode, nsIRegistryNode )
NS_IMPL_ISUPPORTS1( nsRegistryValue, nsIRegistryValue )
1999-02-11 02:27:09 +03:00
/*-------------------------- nsRegistry::nsRegistry ----------------------------
| Vanilla nsRegistry constructor. |
1999-02-11 02:27:09 +03:00
------------------------------------------------------------------------------*/
nsRegistry::nsRegistry()
2000-01-25 00:28:28 +03:00
: mReg(0), mCurRegFile(nsnull), mCurRegID(0) {
1999-02-11 02:27:09 +03:00
NS_INIT_REFCNT();
#ifdef EXTRA_THREADSAFE
1999-04-01 10:45:50 +04:00
mregLock = PR_NewLock();
#endif
1999-02-11 02:27:09 +03:00
return;
}
/*------------------------- nsRegistry::~nsRegistry ----------------------------
| The dtor closes the registry file(if open). |
------------------------------------------------------------------------------*/
nsRegistry::~nsRegistry() {
if( mReg ) {
Close();
}
if (mCurRegFile)
nsCRT::free(mCurRegFile);
#ifdef EXTRA_THREADSAFE
1999-04-01 10:45:50 +04:00
if (mregLock) {
PR_DestroyLock(mregLock);
}
#endif
1999-02-11 02:27:09 +03:00
return;
}
/*----------------------------- nsRegistry::Open -------------------------------
| If the argument is null, delegate to OpenDefault, else open the registry |
| file. We first check to see if a registry file is already open and close |
| it if so. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::Open( const char *regFile ) {
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Check for default.
if( !regFile ) {
return OpenWellKnownRegistry(nsIRegistry::ApplicationRegistry);
1999-02-11 02:27:09 +03:00
}
#ifdef DEBUG_dp
printf("nsRegistry: Opening registry %s\n", regFile);
#endif /* DEBUG_dp */
if (mCurRegID != nsIRegistry::None && mCurRegID != nsIRegistry::ApplicationCustomRegistry)
{
// Cant open another registry without closing explictly.
return NS_ERROR_INVALID_ARG;
}
// Do we have an open registry ?
if (mCurRegID != nsIRegistry::None)
{
if (mCurRegFile && !nsCRT::strcmp(regFile, mCurRegFile))
{
// The right one is already open
return NS_OK;
}
else
{
// Opening a new registry without closing an already open one.
// This is an error.
return NS_ERROR_FAILURE;
}
}
1999-02-11 02:27:09 +03:00
// Open specified registry.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegOpen((char*)regFile, &mReg );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
mCurRegID = nsIRegistry::ApplicationCustomRegistry;
// No error checking for no mem. Trust me.
mCurRegFile = nsCRT::strdup(regFile);
1999-02-11 02:27:09 +03:00
// Convert the result.
return regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
/*----------------------------- nsRegistry::OpenWellKnownRegistry --------------
| Takes a registry id and maps that to a file name for opening. We first check |
| to see if a registry file is already open and close it if so. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::OpenWellKnownRegistry( nsWellKnownRegistry regid )
{
REGERR err = REGERR_OK;
#ifdef XP_UNIX
// Create ~/.mozilla as that is the default place for the registry file
/* 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.
*/
char *home = getenv("HOME");
if (home != NULL)
{
char dotMozillaDir[1024];
PR_snprintf(dotMozillaDir, sizeof(dotMozillaDir),
"%s/" NS_MOZILLA_DIR_NAME, home);
if (PR_Access(dotMozillaDir, PR_ACCESS_EXISTS) != PR_SUCCESS)
{
PR_MkDir(dotMozillaDir, NS_MOZILLA_DIR_PERMISSION);
PR_LOG(nsComponentManagerLog, PR_LOG_ALWAYS,
("nsComponentManager: Creating Directory %s", dotMozillaDir));
}
}
#endif /* XP_UNIX */
#ifdef XP_BEOS
BPath p;
const char *settings = "/boot/home/config/settings";
if(find_directory(B_USER_SETTINGS_DIRECTORY, &p) == B_OK)
settings = p.Path();
char settingsMozillaDir[1024];
PR_snprintf(settingsMozillaDir, sizeof(settingsMozillaDir),
"%s/" NS_MOZILLA_DIR_NAME, settings);
if (PR_Access(settingsMozillaDir, PR_ACCESS_EXISTS) != PR_SUCCESS) {
PR_MkDir(settingsMozillaDir, NS_MOZILLA_DIR_PERMISSION);
printf("nsComponentManager: Creating Directory %s\n", settingsMozillaDir);
PR_LOG(nsComponentManagerLog, PR_LOG_ALWAYS,
("nsComponentManager: Creating Directory %s", settingsMozillaDir));
}
#endif
if (mCurRegID != nsIRegistry::None && mCurRegID != regid)
{
// Cant open another registry without closing explictly.
return NS_ERROR_INVALID_ARG;
}
if (mCurRegID == regid)
{
// Already opened.
return NS_OK;
}
2000-01-25 00:28:28 +03:00
nsresult rv;
nsCOMPtr<nsIFile> registryLocation;
PRBool foundReg = PR_FALSE;
char *regFile = nsnull;
switch ( (nsWellKnownRegistry) regid ) {
case ApplicationComponentRegistry:
2000-01-25 00:28:28 +03:00
{
// can't use NS_GetSpecialDirectory here. Called before service manager is initialized.
2000-01-25 00:28:28 +03:00
nsCOMPtr<nsIProperties> directoryService;
rv = nsDirectoryService::Create(nsnull,
NS_GET_IID(nsIProperties),
getter_AddRefs(directoryService));
if (NS_FAILED(rv)) return rv;
directoryService->Get(NS_XPCOM_COMPONENT_REGISTRY_FILE, NS_GET_IID(nsIFile),
getter_AddRefs(registryLocation));
if (registryLocation)
{
2000-01-25 00:28:28 +03:00
foundReg = PR_TRUE;
registryLocation->GetPath(&regFile); // dougt fix...
// dveditz needs to fix his registry so that I can pass an
// nsIFile interface and not hack
if (!regFile)
return NS_ERROR_OUT_OF_MEMORY;
}
}
break;
case ApplicationRegistry:
{
// can't use NS_GetSpecialDirectory here. Called before service manager is initialized.
nsCOMPtr<nsIProperties> directoryService;
rv = nsDirectoryService::Create(nsnull,
NS_GET_IID(nsIProperties),
getter_AddRefs(directoryService));
if (NS_FAILED(rv)) return rv;
directoryService->Get(NS_XPCOM_APPLICATION_REGISTRY_FILE, NS_GET_IID(nsIFile),
getter_AddRefs(registryLocation));
if (registryLocation)
{
foundReg = PR_TRUE;
registryLocation->GetPath(&regFile); // dougt fix...
// dveditz needs to fix his registry so that I can pass an
// nsIFile interface and not hack
if (!regFile)
return NS_ERROR_OUT_OF_MEMORY;
}
2000-01-25 00:28:28 +03:00
}
break;
default:
break;
}
if (foundReg == PR_FALSE) {
return NS_ERROR_REG_BADTYPE;
}
#ifdef DEBUG_dp
printf("nsRegistry: Opening std registry %s\n", regFile);
#endif /* DEBUG_dp */
2000-01-25 00:28:28 +03:00
PR_Lock(mregLock);
err = NR_RegOpen((char*)regFile, &mReg );
PR_Unlock(mregLock);
if (regFile)
nsMemory::Free(regFile);
// Store the registry that was opened for optimizing future opens.
mCurRegID = regid;
// Convert the result.
return regerr2nsresult( err );
}
#if 0
1999-02-11 02:27:09 +03:00
/*-------------------------- nsRegistry::OpenDefault ---------------------------
| Open the "default" registry; in the case of this libreg-based implementation |
| that is done by passing a null file name pointer to NR_RegOpen. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::OpenDefault() {
return OpenWellKnownRegistry(nsIRegistry::ApplicationRegistry);
1999-02-11 02:27:09 +03:00
}
#endif
1999-02-11 02:27:09 +03:00
/*----------------------------- nsRegistry::Close ------------------------------
| Tests the mReg handle and if non-null, closes the registry via NR_RegClose. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::Close() {
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
if( mReg ) {
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegClose( mReg );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
mReg = 0;
if (mCurRegFile)
nsCRT::free(mCurRegFile);
2000-01-25 00:28:28 +03:00
mCurRegFile = nsnull;
mCurRegID = 0;
1999-02-11 02:27:09 +03:00
}
return regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
/*----------------------------- nsRegistry::Flush ------------------------------
| Flushes the registry via NR_RegFlush. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::Flush() {
REGERR err = REGERR_FAIL;
if( mReg ) {
PR_Lock(mregLock);
err = NR_RegFlush( mReg );
PR_Unlock(mregLock);
}
return regerr2nsresult( err );
}
/*----------------------------- nsRegistry::IsOpen -----------------------------
| Tests the mReg handle and returns whether the registry is open or not. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::IsOpen( PRBool *result ) {
*result = ( mReg != 0 );
return NS_OK;
}
/*--------------------------- nsRegistry::AddKey -------------------------------
| Add a key into the registry or find an existing one. This is generally used |
| instead of GetKey unless it's an error for the key not to exist already i
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::AddKey( nsRegistryKey baseKey, const PRUnichar *keyname, nsRegistryKey *_retval)
{
if ( !keyname )
return NS_ERROR_NULL_POINTER;
nsString name( nsSubsumeStr( NS_CONST_CAST(PRUnichar*,keyname), PR_FALSE ) );
char* utf8name = name.ToNewUTF8String();
if ( !utf8name )
return NS_ERROR_OUT_OF_MEMORY;
nsresult rv = AddSubtree( baseKey, utf8name, _retval );
Recycle( utf8name );
return rv;
}
/*--------------------------- nsRegistry::GetKey -------------------------------
| returns the nsRegistryKey associated with a given node in the registry |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetKey(nsRegistryKey baseKey, const PRUnichar *keyname, nsRegistryKey *_retval)
{
if ( !keyname || !_retval )
return NS_ERROR_NULL_POINTER;
nsString name( nsSubsumeStr( NS_CONST_CAST(PRUnichar*,keyname), PR_FALSE ) );
char* utf8name = name.ToNewUTF8String();
if ( !utf8name )
return NS_ERROR_OUT_OF_MEMORY;
nsresult rv = GetSubtree( baseKey, utf8name, _retval );
Recycle( utf8name );
return rv;
}
/*--------------------------- nsRegistry::RemoveKey ----------------------------
| Delete a key from the registry |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::RemoveKey(nsRegistryKey baseKey, const PRUnichar *keyname)
{
if ( !keyname )
return NS_ERROR_NULL_POINTER;
nsString name( nsSubsumeStr( NS_CONST_CAST(PRUnichar*,keyname), PR_FALSE ) );
char* utf8name = name.ToNewUTF8String();
if ( !utf8name )
return NS_ERROR_OUT_OF_MEMORY;
nsresult rv = RemoveSubtree( baseKey, utf8name );
Recycle( utf8name );
return rv;
}
NS_IMETHODIMP nsRegistry::GetString(nsRegistryKey baseKey, const PRUnichar *valname, PRUnichar **_retval)
{
nsresult rv = NS_OK;
// Make sure caller gave us place for result.
if ( !valname || !_retval )
return NS_ERROR_NULL_POINTER;
// initialize the return value
*_retval = nsnull;
char *tmpstr = nsnull;
nsString name( nsSubsumeStr( NS_CONST_CAST(PRUnichar*,valname), PR_FALSE ) );
char* utf8name = name.ToNewUTF8String();
if ( !utf8name )
return NS_ERROR_OUT_OF_MEMORY;
rv = GetStringUTF8( baseKey, utf8name, &tmpstr );
if (NS_SUCCEEDED(rv))
{
*_retval = nsTextFormatter::smprintf( widestrFormat, tmpstr );
nsCRT::free(tmpstr);
if ( *_retval == nsnull )
rv = NS_ERROR_OUT_OF_MEMORY;
}
Recycle( utf8name );
return rv;
}
NS_IMETHODIMP nsRegistry::SetString(nsRegistryKey baseKey, const PRUnichar *valname, const PRUnichar *value)
{
if ( !valname || ! value )
return NS_ERROR_NULL_POINTER;
nsresult rv = NS_OK;
nsString name( nsSubsumeStr( NS_CONST_CAST(PRUnichar*,valname), PR_FALSE ) );
nsString val( nsSubsumeStr( NS_CONST_CAST(PRUnichar*,value), PR_FALSE ) );
char* utf8name = name.ToNewUTF8String();
char* utf8val = val.ToNewUTF8String();
if ( utf8name && utf8val )
rv = SetStringUTF8( baseKey, utf8name, utf8val );
else
rv = NS_ERROR_OUT_OF_MEMORY;
if ( utf8name ) Recycle(utf8name);
if ( utf8val ) Recycle(utf8val);
return rv;
}
1999-02-11 02:27:09 +03:00
/*--------------------------- nsRegistry::GetString ----------------------------
| First, look for the entry using GetValueInfo. If found, and it's a string, |
| allocate space for it and fetch the value. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetStringUTF8( nsRegistryKey baseKey, const char *path, char **result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Make sure caller gave us place for result.
if ( !result )
return NS_ERROR_NULL_POINTER;
char regStr[MAXREGPATHLEN];
// initialize the return value
*result = 0;
// Attempt to get string into our fixed buffer
PR_Lock(mregLock);
err = NR_RegGetEntryString( mReg,(RKEY)baseKey,(char*)path, regStr, sizeof regStr );
PR_Unlock(mregLock);
if ( err == REGERR_OK )
{
*result = nsCRT::strdup(regStr);
if (!*result)
rv = NS_ERROR_OUT_OF_MEMORY;
}
else if ( err == REGERR_BUFTOOSMALL )
{
// find the real size and malloc it
PRUint32 length;
rv = GetValueLength( baseKey, path, &length );
1999-02-11 02:27:09 +03:00
// See if that worked.
if( rv == NS_OK )
{
*result =(char*)nsMemory::Alloc( length + 1 );
if( *result )
{
// Get string from registry into result buffer.
PR_Lock(mregLock);
err = NR_RegGetEntryString( mReg,(RKEY)baseKey,(char*)path, *result, length+1 );
PR_Unlock(mregLock);
// Convert status.
rv = regerr2nsresult( err );
if ( rv != NS_OK )
{
// Didn't get result, free buffer
nsCRT::free( *result );
*result = 0;
1999-02-11 02:27:09 +03:00
}
}
else
{
rv = NS_ERROR_OUT_OF_MEMORY;
1999-02-11 02:27:09 +03:00
}
}
}
else
{
// Convert status.
rv = regerr2nsresult( err );
NS_ASSERTION(NS_FAILED(rv), "returning success code on failure");
}
return rv;
1999-02-11 02:27:09 +03:00
}
/*--------------------------- nsRegistry::SetString ----------------------------
| Simply sets the registry contents using NR_RegSetEntryString. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::SetStringUTF8( nsRegistryKey baseKey, const char *path, const char *value ) {
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Set the contents.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegSetEntryString( mReg,(RKEY)baseKey,(char*)path,(char*)value );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
return regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
/*---------------------------- nsRegistry::GetBytesUTF8 ------------------------------
| This function is just shorthand for fetching a char array. We |
| implement it "manually" using NR_RegGetEntry |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetBytesUTF8( nsRegistryKey baseKey, const char *path, PRUint32* length, PRUint8** result) {
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
if ( !result )
return NS_ERROR_NULL_POINTER;
char regStr[MAXREGPATHLEN];
// initialize the return value
*length = 0;
*result = 0;
// Get info about the requested entry.
PRUint32 type;
rv = GetValueType( baseKey, path, &type );
// See if that worked.
if( rv == NS_OK )
{
// Make sure the entry is an PRInt8 array.
if( type == Bytes )
{
// Attempt to get string into our fixed buffer
PR_Lock(mregLock);
uint32 length2 = sizeof regStr;
err = NR_RegGetEntry( mReg,(RKEY)baseKey,NS_CONST_CAST(char*,path), regStr, &length2);
PR_Unlock(mregLock);
if ( err == REGERR_OK )
{
*length = length2;
*result = (PRUint8*)(nsCRT::strdup(regStr));
if (!*result)
{
rv = NS_ERROR_OUT_OF_MEMORY;
*length = 0;
}
else
{
*length = length2;
}
}
else if ( err == REGERR_BUFTOOSMALL )
{
// find the real size and malloc it
rv = GetValueLength( baseKey, path, length );
// See if that worked.
if( rv == NS_OK )
{
*result = NS_REINTERPRET_CAST(PRUint8*,nsMemory::Alloc( *length ));
if( *result )
{
// Get bytes from registry into result field.
PR_Lock(mregLock);
length2 = *length;
err = NR_RegGetEntry( mReg,(RKEY)baseKey,NS_CONST_CAST(char*,path), *result, &length2);
*length = length2;
PR_Unlock(mregLock);
// Convert status.
rv = regerr2nsresult( err );
if ( rv != NS_OK )
{
// Didn't get result, free buffer
nsCRT::free( NS_REINTERPRET_CAST(char*, *result) );
*result = 0;
*length = 0;
}
}
else
{
rv = NS_ERROR_OUT_OF_MEMORY;
}
}
}
}
else
{
// They asked for the wrong type of value.
rv = NS_ERROR_REG_BADTYPE;
}
}
return rv;
}
1999-02-11 02:27:09 +03:00
/*---------------------------- nsRegistry::GetInt ------------------------------
| This function is just shorthand for fetching a 1-element PRInt32 array. We |
| implement it "manually" using NR_RegGetEntry |
1999-02-11 02:27:09 +03:00
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetInt( nsRegistryKey baseKey, const char *path, PRInt32 *result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Make sure caller gave us place for result.
if( result ) {
// Get info about the requested entry.
PRUint32 type;
1999-02-11 02:27:09 +03:00
rv = GetValueType( baseKey, path, &type );
// See if that worked.
if( rv == NS_OK ) {
// Make sure the entry is an PRInt32 array.
1999-02-11 02:27:09 +03:00
if( type == Int32 ) {
uint32 len = sizeof *result;
// Get int from registry into result field.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegGetEntry( mReg,(RKEY)baseKey,(char*)path, result, &len );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert status.
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
} else {
// They asked for the wrong type of value.
rv = NS_ERROR_REG_BADTYPE;
}
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
2000-01-25 00:28:28 +03:00
/*---------------------------- nsRegistry::GetLongLong--------------------------
| This function is just shorthand for fetching a 1-element PRInt64 array. We |
| implement it "manually" using NR_RegGetEntry |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetLongLong( nsRegistryKey baseKey, const char *path, PRInt64 *result ) {
REGERR err = REGERR_OK;
PR_Lock(mregLock);
uint32 length = sizeof(PRInt64);
err = NR_RegGetEntry( mReg,(RKEY)baseKey,(char*)path,(void*)result,&length);
PR_Unlock(mregLock);
// Convert status.
return regerr2nsresult( err );
}
/*---------------------------- nsRegistry::SetBytesUTF8 ------------------------------
| Write out the value as a char array, using NR_RegSetEntry. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::SetBytesUTF8( nsRegistryKey baseKey, const char *path, PRUint32 length, PRUint8* value) {
REGERR err = REGERR_OK;
// Set the contents.
PR_Lock(mregLock);
err = NR_RegSetEntry( mReg,
(RKEY)baseKey,
(char*)path,
REGTYPE_ENTRY_BYTES,
(char*)value,
length);
PR_Unlock(mregLock);
// Convert result.
return regerr2nsresult( err );
}
1999-02-11 02:27:09 +03:00
/*---------------------------- nsRegistry::SetInt ------------------------------
| Write out the value as a one-element PRInt32 array, using NR_RegSetEntry. |
1999-02-11 02:27:09 +03:00
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::SetInt( nsRegistryKey baseKey, const char *path, PRInt32 value ) {
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Set the contents.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegSetEntry( mReg,
1999-02-11 02:27:09 +03:00
(RKEY)baseKey,
(char*)path,
REGTYPE_ENTRY_INT32_ARRAY,
&value,
sizeof value );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
return regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
2000-01-25 00:28:28 +03:00
/*---------------------------- nsRegistry::SetLongLong---------------------------
| Write out the value as a one-element PRInt64 array, using NR_RegSetEntry. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::SetLongLong( nsRegistryKey baseKey, const char *path, PRInt64* value ) {
REGERR err = REGERR_OK;
// Set the contents.
PR_Lock(mregLock);
err = NR_RegSetEntry( mReg,
(RKEY)baseKey,
(char*)path,
REGTYPE_ENTRY_BYTES,
(void*)value,
sizeof(PRInt64) );
PR_Unlock(mregLock);
// Convert result.
return regerr2nsresult( err );
}
1999-02-11 02:27:09 +03:00
/*-------------------------- nsRegistry::AddSubtree ----------------------------
| Add a new registry subkey with the specified name, using NR_RegAddKey. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::AddSubtree( nsRegistryKey baseKey, const char *path, nsRegistryKey *result ) {
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Add the subkey.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegAddKey( mReg,(RKEY)baseKey,(char*)path,(RKEY*)result );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
return regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
/*-------------------------- nsRegistry::AddSubtreeRaw--------------------------
| Add a new registry subkey with the specified name, using NR_RegAddKeyRaw |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::AddSubtreeRaw( nsRegistryKey baseKey, const char *path, nsRegistryKey *result ) {
REGERR err = REGERR_OK;
// Add the subkey.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegAddKeyRaw( mReg,(RKEY)baseKey,(char*)path,(RKEY*)result );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
// Convert result.
return regerr2nsresult( err );
}
1999-02-11 02:27:09 +03:00
/*------------------------- nsRegistry::RemoveSubtree --------------------------
| Deletes the subtree at a given location using NR_RegDeleteKey. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::RemoveSubtree( nsRegistryKey baseKey, const char *path ) {
2000-02-16 10:45:20 +03:00
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
2000-02-16 10:45:20 +03:00
// libreg doesn't delete keys if there are subkeys under the key
// Hence we have to recurse through to delete the subtree
2000-02-16 10:45:20 +03:00
RKEY key;
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
2000-02-16 10:45:20 +03:00
err = NR_RegGetKey(mReg, baseKey, (char *)path, &key);
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
2000-02-16 10:45:20 +03:00
if (err != REGERR_OK)
{
rv = regerr2nsresult( err );
2000-02-16 10:45:20 +03:00
return rv;
}
2000-02-16 10:45:20 +03:00
// Now recurse through and delete all keys under hierarchy
2000-02-16 10:45:20 +03:00
char subkeyname[MAXREGPATHLEN+1];
REGENUM state = 0;
subkeyname[0] = '\0';
while (NR_RegEnumSubkeys(mReg, key, &state, subkeyname, sizeof(subkeyname),
REGENUM_NORMAL) == REGERR_OK)
{
#ifdef DEBUG_dp
printf("...recursing into %s\n", subkeyname);
2000-02-16 10:45:20 +03:00
#endif /* DEBUG_dp */
// Even though this is not a "Raw" API the subkeys may still, in fact,
// *be* raw. Since we're recursively deleting this will work either way.
// If we were guaranteed none would be raw then a depth-first enumeration
// would be much more efficient.
err = RemoveSubtreeRaw(key, subkeyname);
if (err != REGERR_OK) break;
}
// If success in deleting all subkeys, delete this key too
if (err == REGERR_OK)
{
#ifdef DEBUG_dp
printf("...deleting %s\n", path);
2000-02-16 10:45:20 +03:00
#endif /* DEBUG_dp */
PR_Lock(mregLock);
err = NR_RegDeleteKey(mReg, baseKey, (char *)path);
PR_Unlock(mregLock);
}
// Convert result.
rv = regerr2nsresult( err );
2000-02-16 10:45:20 +03:00
return rv;
1999-02-11 02:27:09 +03:00
}
/*------------------------- nsRegistry::RemoveSubtreeRaw -----------------------
| Deletes the subtree at a given location using NR_RegDeleteKeyRaw |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::RemoveSubtreeRaw( nsRegistryKey baseKey, const char *keyname ) {
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
// libreg doesn't delete keys if there are subkeys under the key
// Hence we have to recurse through to delete the subtree
RKEY key;
char subkeyname[MAXREGPATHLEN+1];
int n = sizeof(subkeyname);
REGENUM state = 0;
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegGetKeyRaw(mReg, baseKey, (char *)keyname, &key);
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
if (err != REGERR_OK)
{
rv = regerr2nsresult( err );
return rv;
}
// Now recurse through and delete all keys under hierarchy
subkeyname[0] = '\0';
while (NR_RegEnumSubkeys(mReg, key, &state, subkeyname, n, REGENUM_NORMAL) == REGERR_OK)
{
#ifdef DEBUG_dp
printf("...recursing into %s\n", subkeyname);
#endif /* DEBUG_dp */
err = RemoveSubtreeRaw(key, subkeyname);
if (err != REGERR_OK) break;
}
// If success in deleting all subkeys, delete this key too
if (err == REGERR_OK)
{
#ifdef DEBUG_dp
printf("...deleting %s\n", keyname);
#endif /* DEBUG_dp */
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegDeleteKeyRaw(mReg, baseKey, (char *)keyname);
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
}
// Convert result.
rv = regerr2nsresult( err );
return rv;
}
1999-02-11 02:27:09 +03:00
/*-------------------------- nsRegistry::GetSubtree ----------------------------
| Returns a nsRegistryKey(RKEY) for a given key/path. The key is |
1999-02-11 02:27:09 +03:00
| obtained using NR_RegGetKey. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetSubtree( nsRegistryKey baseKey, const char *path, nsRegistryKey *result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Make sure we have a place for the result.
if( result ) {
// Get key.
PR_Lock(mregLock);
err = NR_RegGetKey( mReg,(RKEY)baseKey,(char*)path,(RKEY*)result );
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*-------------------------- nsRegistry::GetSubtreeRaw--------------------------
| Returns a nsRegistryKey(RKEY) for a given key/path. The key is |
| obtained using NR_RegGetKeyRaw. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetSubtreeRaw( nsRegistryKey baseKey, const char *path, nsRegistryKey *result ) {
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
// Make sure we have a place for the result.
if( result ) {
// Get key.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegGetKeyRaw( mReg,(RKEY)baseKey,(char*)path,(RKEY*)result );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
// Convert result.
rv = regerr2nsresult( err );
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
1999-02-11 02:27:09 +03:00
/*----------------------- nsRegistry::EnumerateSubtrees ------------------------
| Allocate a nsRegSubtreeEnumerator object and return it to the caller. |
| We construct the enumerator using the registry handle from this registry |
| object, the user-specified registry key, and indicate that we don't want |
| to recurse down subtrees. No libreg functions are invoked at this point |
|(that will happen when the enumerator member functions are called). |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::EnumerateSubtrees( nsRegistryKey baseKey, nsIEnumerator **result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure we have a place to put the result.
if( result ) {
*result = new nsRegSubtreeEnumerator( mReg,(RKEY)baseKey, PR_FALSE );
// Check for success.
if( *result ) {
// Bump refcnt on behalf of caller.
NS_ADDREF(*result);
1999-02-11 02:27:09 +03:00
} else {
// Unable to allocate space for the enumerator object.
rv = NS_ERROR_OUT_OF_MEMORY;
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*--------------------- nsRegistry::EnumerateAllSubtrees -----------------------
| Same as EnumerateSubtrees but we pass PR_TRUE to request that the |
| enumerator object descend subtrees when it is used. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::EnumerateAllSubtrees( nsRegistryKey baseKey, nsIEnumerator **result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure we have a place to put the result.
if( result ) {
*result = new nsRegSubtreeEnumerator( mReg,(RKEY)baseKey, PR_TRUE );
// Check for success.
if( *result ) {
// Bump refcnt on behalf of caller.
NS_ADDREF(*result);
1999-02-11 02:27:09 +03:00
} else {
// Unable to allocate space for the enumerator object.
rv = NS_ERROR_OUT_OF_MEMORY;
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*------------------------- nsRegistry::GetValueType ---------------------------
| Gets the type from the registry using the NR_GetEntryInfo libreg API. |
| The result is transferred to the PRUint32 value passed in (with conversion |
1999-02-11 02:27:09 +03:00
| to the appropriate nsIRegistry::DataType value). |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetValueType( nsRegistryKey baseKey, const char *path, PRUint32 *result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Make sure we have a place to put the result.
if( result ) {
// Get registry info into local structure.
REGINFO info = { sizeof info, 0, 0 };
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegGetEntryInfo( mReg,(RKEY)baseKey,(char*)path, &info );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
if( err == REGERR_OK ) {
1999-02-11 02:27:09 +03:00
// Copy info to user's result value.
reginfo2DataType( info, *result );
} else {
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*------------------------ nsRegistry::GetValueLength --------------------------
| Gets the registry value info via NR_RegGetEntryInfo. The length is |
| converted to the proper "units" via reginfo2Length. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetValueLength( nsRegistryKey baseKey, const char *path, PRUint32 *result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Make sure we have a place to put the result.
if( result ) {
// Get registry info into local structure.
REGINFO info = { sizeof info, 0, 0 };
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegGetEntryInfo( mReg,(RKEY)baseKey,(char*)path, &info );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
if( err == REGERR_OK ) {
1999-02-11 02:27:09 +03:00
// Copy info to user's result value.
reginfo2Length( info, *result );
} else {
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*-------------------------- nsRegistry::DeleteValue ---------------------------
| Remove the registry value with the specified name |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::DeleteValue( nsRegistryKey baseKey, const char *path)
{
REGERR err = REGERR_OK;
// Delete the value
PR_Lock(mregLock);
err = NR_RegDeleteEntry( mReg,(RKEY)baseKey,(char*)path );
PR_Unlock(mregLock);
// Convert result.
return regerr2nsresult( err );
}
1999-02-11 02:27:09 +03:00
/*------------------------ nsRegistry::EnumerateValues -------------------------
| Allocates and returns an instance of nsRegValueEnumerator constructed in |
| a similar fashion as the nsRegSubtreeEnumerator is allocated/returned by |
| EnumerateSubtrees. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::EnumerateValues( nsRegistryKey baseKey, nsIEnumerator **result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure we have a place to put the result.
if( result ) {
*result = new nsRegValueEnumerator( mReg,(RKEY)baseKey );
// Check for success.
if( *result ) {
// Bump refcnt on behalf of caller.
NS_ADDREF(*result);
1999-02-11 02:27:09 +03:00
} else {
// Unable to allocate space for the enumerator object.
rv = NS_ERROR_OUT_OF_MEMORY;
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*---------------------- nsRegistry::GetCurrentUserName ------------------------
| Simple wrapper for NR_RegGetUsername. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::GetCurrentUserName( char **result ) {
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Make sure we have a place to put the result.
if( result ) {
// Get the user name.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegGetUsername( result );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert the result.
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*---------------------- nsRegistry::SetCurrentUserName ------------------------
| Simple wrapper for NR_RegSetUsername. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::SetCurrentUserName( const char *name ) {
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Set the user name.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegSetUsername( name );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
return rv;
}
/*----------------------------- nsRegistry::Pack -------------------------------
| Simple wrapper for NR_RegPack. We don't set up any callback. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::Pack() {
nsresult rv = NS_OK;
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
// Pack the registry.
1999-04-01 10:45:50 +04:00
PR_Lock(mregLock);
err = NR_RegPack( mReg, 0, 0 );
1999-04-01 10:45:50 +04:00
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
return rv;
}
/*----------------------------- nsRegistry::EscapeKey -------------------------------
| Escape a binary key so that the registry works OK, since it expects UTF8
| with no slashes or control characters. This is probably better than raw.
| If no escaping is required, then the method is successful and a null is
| returned, indicating that the caller should use the original string.
------------------------------------------------------------------------------*/
static const char sEscapeKeyHex[] = "0123456789abcdef0123456789ABCDEF";
NS_IMETHODIMP nsRegistry::EscapeKey(PRUint8* key, PRUint32 termination, PRUint32* length, PRUint8** escaped)
{
nsresult rv = NS_OK;
char* value = (char*)key;
char* b = value;
char* e = b + *length;
int escapees = 0;
while (b < e) // Count characters outside legal range or slash
{
int c = *b++;
if (c <= ' '
|| c > '~'
|| c == '/'
|| c == '%')
{
escapees++;
}
}
if (escapees == 0) // If no escapees, then no results
{
*length = 0;
*escaped = nsnull;
return NS_OK;
}
// New length includes two extra chars for escapees.
*length += escapees * 2;
*escaped = (PRUint8*)nsMemory::Alloc(*length + termination);
if (*escaped == nsnull)
{
*length = 0;
*escaped = nsnull;
return NS_ERROR_OUT_OF_MEMORY;
}
char* n = (char*)*escaped;
b = value;
while (escapees && b < e)
{
char c = *b++;
if (c < ' '
|| c > '~'
|| c == '/'
|| c == '%')
{
*(n++) = '%';
*(n++) = sEscapeKeyHex[ 0xF & (c >> 4) ];
*(n++) = sEscapeKeyHex[ 0xF & c ];
escapees--;
}
else
{
*(n++) = c;
}
}
e += termination;
if (b < e)
{
strncpy(n, b, e - b);
}
return rv;
}
/*----------------------------- nsRegistry::UnescapeKey -------------------------------
| Unscape a binary key so that the registry works OK, since it expects UTF8
| with no slashes or control characters. This is probably better than raw.
| If no escaping is required, then the method is successful and a null is
| returned, indicating that the caller should use the original string.
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistry::UnescapeKey(PRUint8* escaped, PRUint32 termination, PRUint32* length, PRUint8** key)
{
nsresult rv = NS_OK;
char* value = (char*)escaped;
char* b = value;
char* e = b + *length;
int escapees = 0;
while (b < e) // Count characters outside legal range or slash
{
if (*b++ == '%')
{
escapees++;
}
}
if (escapees == 0) // If no escapees, then no results
{
*length = 0;
*key = nsnull;
return NS_OK;
}
// New length includes two extra chars for escapees.
*length -= escapees * 2;
*key = (PRUint8*)nsMemory::Alloc(*length + termination);
if (*key == nsnull)
{
*length = 0;
*key = nsnull;
return NS_ERROR_OUT_OF_MEMORY;
}
char* n = (char*)*key;
b = value;
while (escapees && b < e)
{
char c = *(b++);
if (c == '%')
{
if (e - b >= 2)
{
const char* c1 = strchr(sEscapeKeyHex, *(b++));
const char* c2 = strchr(sEscapeKeyHex, *(b++));
if (c1 != nsnull
&& c2 != nsnull)
{
*(n++) = ((c2 - sEscapeKeyHex) & 0xF)
| (((c1 - sEscapeKeyHex) & 0xF) << 4);
}
else
{
escapees = -1;
}
}
else
{
escapees = -1;
}
escapees--;
}
else
{
*(n++) = c;
}
}
if (escapees < 0)
{
nsMemory::Free(*key);
*length = 0;
*key = nsnull;
return NS_ERROR_INVALID_ARG;
}
e += termination;
if (b < e)
{
strncpy(n, b, e - b);
}
return rv;
}
1999-02-11 02:27:09 +03:00
/*-------------- nsRegSubtreeEnumerator::nsRegSubtreeEnumerator ----------------
| The ctor simply stashes all the information that will be needed to enumerate |
| the subkeys. |
------------------------------------------------------------------------------*/
nsRegSubtreeEnumerator::nsRegSubtreeEnumerator( HREG hReg, RKEY rKey, PRBool all )
: mReg( hReg ), mKey( rKey ), mEnum( 0 ), mNext( 0 ),
mStyle( all ? REGENUM_DESCEND : REGENUM_CHILDREN ), mDone( PR_FALSE ) {
1999-02-11 02:27:09 +03:00
NS_INIT_REFCNT();
mName[0] = '\0';
#ifdef EXTRA_THREADSAFE
// Create a registry lock
mregLock = PR_NewLock();
#endif
1999-02-11 02:27:09 +03:00
return;
}
nsRegSubtreeEnumerator::~nsRegSubtreeEnumerator()
{
#ifdef EXTRA_THREADSAFE
if (mregLock) {
PR_DestroyLock(mregLock);
}
#endif
}
1999-02-11 02:27:09 +03:00
/*----------------------- nsRegSubtreeEnumerator::First ------------------------
| Set mEnum to 0; this will cause the next NR_RegEnum call to go to |
| the beginning. We then do a Next() call in order to do a "lookahead" to |
| properly detect an empty list (i.e., set the mDone flag). |
------------------------------------------------------------------------------*/
NS_IMETHODIMP
nsRegSubtreeEnumerator::First() {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Reset "done" flag.
mDone = PR_FALSE;
// Clear Name
mName[0] = '\0';
1999-02-11 02:27:09 +03:00
// Go to beginning.
mEnum = mNext = 0;
// Lookahead so mDone flag gets set for empty list.
rv = Next();
return rv;
}
/*----------------------- nsRegSubtreeEnumerator::Next -------------------------
| First, we check if we've already advanced to the end by checking the mDone |
| flag. |
| |
| We advance mEnum to the next enumeration value which is in the mNext |
| lookahead buffer. We must then call advance to lookahead and properly set |
| the isDone flag. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP
nsRegSubtreeEnumerator::Next() {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Check for at end.
if ( !mDone ) {
// Advance to next spot.
mEnum = mNext;
// Lookahead so mDone is properly set (and to update mNext).
rv = advance();
} else {
// Set result accordingly.
rv = regerr2nsresult( REGERR_NOMORE );
}
return rv;
}
/*---------------------- nsRegSubtreeEnumerator::advance -----------------------
| Advance mNext to next subkey using NR_RegEnumSubkeys. We set mDone if |
| there are no more subkeys. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegSubtreeEnumerator::advance() {
REGERR err = REGERR_OK;
PR_Lock(mregLock);
err = NR_RegEnumSubkeys( mReg, mKey, &mNext, mName, sizeof mName, mStyle );
1999-02-11 02:27:09 +03:00
// See if we ran off end.
if( err == REGERR_NOMORE ) {
1999-02-11 02:27:09 +03:00
// Remember we've run off end.
mDone = PR_TRUE;
}
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
nsresult rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
return rv;
};
/*-------------------- nsRegSubtreeEnumerator::CurrentItem ---------------------
| Allocates and returns a new instance of class nsRegistryNode. The node |
| object will hold the curent mEnum value so it can obtain its name from |
| the registry when asked. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP
nsRegSubtreeEnumerator::CurrentItem( nsISupports **result) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure there is a place to put the result.
if( result ) {
*result = new nsRegistryNode( mReg, mName, (RKEY) mNext );
1999-02-11 02:27:09 +03:00
if( *result ) {
NS_ADDREF(*result);
1999-02-11 02:27:09 +03:00
} else {
rv = NS_ERROR_OUT_OF_MEMORY;
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*--------------nsRegSubtreeEnumerator::CurrentItemInPlaceUTF8-----------------
| An ugly name for an ugly function. Hands back a shared pointer to the |
| name (encoded as UTF-8), and the subkey identifier. |
-----------------------------------------------------------------------------*/
NS_IMETHODIMP
nsRegSubtreeEnumerator::CurrentItemInPlaceUTF8( nsRegistryKey *childKey ,
const char **name )
{
*childKey = mNext;
/* [shared] */
*name = mName;
return NS_OK;
}
1999-02-11 02:27:09 +03:00
/*---------------------- nsRegSubtreeEnumerator::IsDone ------------------------
| Simply return mDone. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP
nsRegSubtreeEnumerator::IsDone() {
nsresult rv = mDone ? NS_OK : NS_ENUMERATOR_FALSE;
1999-02-11 02:27:09 +03:00
return rv;
}
/*---------------- nsRegValueEnumerator::nsRegValueEnumerator ------------------
| Delegates everything to the base class constructor. |
------------------------------------------------------------------------------*/
nsRegValueEnumerator::nsRegValueEnumerator( HREG hReg, RKEY rKey )
: nsRegSubtreeEnumerator( hReg, rKey, PR_FALSE ) {
return;
}
/*--------------------- nsRegValueEnumerator::CurrentItem ----------------------
| As the nsRegSubtreeEnumerator counterpart, but allocates an object of |
| class nsRegistryValue. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP
nsRegValueEnumerator::CurrentItem( nsISupports **result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure there is a place to put the result.
if( result ) {
*result = new nsRegistryValue( mReg, mKey, mEnum );
if( *result ) {
NS_ADDREF(*result);
1999-02-11 02:27:09 +03:00
} else {
rv = NS_ERROR_OUT_OF_MEMORY;
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*----------------------- nsRegValueEnumerator::advance ------------------------
| Advance mNext to next subkey using NR_RegEnumEntries. We set mDone if |
| there are no more entries. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegValueEnumerator::advance() {
REGERR err = REGERR_OK;
1999-02-11 02:27:09 +03:00
char name[MAXREGNAMELEN];
PRUint32 len = sizeof name;
1999-02-11 02:27:09 +03:00
REGINFO info = { sizeof info, 0, 0 };
PR_Lock(mregLock);
err = NR_RegEnumEntries( mReg, mKey, &mNext, name, len, &info );
1999-02-11 02:27:09 +03:00
// See if we ran off end.
if( err == REGERR_NOMORE ) {
1999-02-11 02:27:09 +03:00
// Remember we've run off end.
mDone = PR_TRUE;
}
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
// Convert result.
nsresult rv = regerr2nsresult( err );
1999-02-11 02:27:09 +03:00
return rv;
};
/*---------------------- nsRegistryNode::nsRegistryNode ------------------------
| Store the arguments in the corresponding data members and initialize |
| the other data members. We defer the libreg calls till we're asked for |
| our name. We use mErr==-1 to indicate we haven't fetched the name yet. |
------------------------------------------------------------------------------*/
nsRegistryNode::nsRegistryNode( HREG hReg, char *name, RKEY childKey )
: mReg( hReg ), mChildKey( childKey ) {
1999-02-11 02:27:09 +03:00
NS_INIT_REFCNT();
2000-01-25 00:28:28 +03:00
PR_ASSERT(name != nsnull);
strcpy(mName, name);
#ifdef EXTRA_THREADSAFE
mregLock = PR_NewLock();
#endif
1999-02-11 02:27:09 +03:00
return;
}
nsRegistryNode::~nsRegistryNode()
{
#ifdef EXTRA_THREADSAFE
if (mregLock) {
PR_DestroyLock(mregLock);
}
#endif
}
1999-02-11 02:27:09 +03:00
/*-------------------------- nsRegistryNode::GetName ---------------------------
| If we haven't fetched it yet, get the name of the corresponding subkey now, |
| using NR_RegEnumSubkeys. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryNode::GetName( PRUnichar **result ) {
if (result == nsnull) return NS_ERROR_NULL_POINTER;
// Make sure there is a place to put the result.
*result = nsTextFormatter::smprintf( widestrFormat, mName );
if ( !*result ) return NS_ERROR_OUT_OF_MEMORY;
return NS_OK;
}
/*-------------------------- nsRegistryNode::GetNameUTF8 -----------------------
| If we haven't fetched it yet, get the name of the corresponding subkey now, |
| using NR_RegEnumSubkeys. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryNode::GetNameUTF8( char **result ) {
2000-01-25 00:28:28 +03:00
if (result == nsnull) return NS_ERROR_NULL_POINTER;
1999-02-11 02:27:09 +03:00
// Make sure there is a place to put the result.
*result = nsCRT::strdup( mName );
if ( !*result ) return NS_ERROR_OUT_OF_MEMORY;
return NS_OK;
1999-02-11 02:27:09 +03:00
}
/*-------------------------- nsRegistryNode::GetKey ----------------------------
| Get the subkey corresponding to this node |
| using NR_RegEnumSubkeys. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryNode::GetKey( nsRegistryKey *r_key ) {
nsresult rv = NS_OK;
2000-01-25 00:28:28 +03:00
if (r_key == nsnull) return NS_ERROR_NULL_POINTER;
*r_key = mChildKey;
return rv;
}
1999-02-11 02:27:09 +03:00
/*--------------------- nsRegistryValue::nsRegistryValue -----------------------
| Implemented the same way as the nsRegistryNode ctor. |
------------------------------------------------------------------------------*/
nsRegistryValue::nsRegistryValue( HREG hReg, RKEY key, REGENUM slot )
: mReg( hReg ), mKey( key ), mEnum( slot ), mErr( -1 ) {
1999-02-11 02:27:09 +03:00
NS_INIT_REFCNT();
#ifdef EXTRA_THREADSAFE
mregLock = PR_NewLock();
#endif
mInfo.size = sizeof(REGINFO);
1999-02-11 02:27:09 +03:00
}
nsRegistryValue::~nsRegistryValue()
{
#ifdef EXTRA_THREADSAFE
if (mregLock) {
PR_DestroyLock(mregLock);
}
#endif
}
1999-02-11 02:27:09 +03:00
/*------------------------- nsRegistryValue::GetName ---------------------------
| See nsRegistryNode::GetName; we use NR_RegEnumEntries in this case. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryValue::GetName( PRUnichar **result ) {
nsresult rv = NS_OK;
// Make sure we have a place to put the result.
if( result ) {
// Ensure we've got the info we need.
rv = getInfo();
if( rv == NS_OK || rv == NS_ERROR_REG_NO_MORE ) {
// worked, return actual result.
*result = nsTextFormatter::smprintf( widestrFormat, mName );
if ( *result ) {
rv = NS_OK;
} else {
rv = NS_ERROR_OUT_OF_MEMORY;
}
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*------------------------- nsRegistryValue::GetNameUTF8 -----------------------
| See nsRegistryNode::GetName; we use NR_RegEnumEntries in this case. |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryValue::GetNameUTF8( char **result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure we have a place to put the result.
if( result ) {
// Ensure we've got the info we need.
rv = getInfo();
if( rv == NS_OK || rv == NS_ERROR_REG_NO_MORE ) {
// worked, return actual result.
*result = nsCRT::strdup( mName );
1999-02-11 02:27:09 +03:00
if ( *result ) {
rv = NS_OK;
} else {
rv = NS_ERROR_OUT_OF_MEMORY;
}
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*----------------------- nsRegistryValue::GetType ------------------------
1999-02-11 02:27:09 +03:00
| We test if we've got the info already. If not, we git it by calling |
| getInfo. We calculate the result by converting the REGINFO type field to |
| a nsIRegistry::DataType value (using reginfo2DataType). |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryValue::GetType( PRUint32 *result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure we have room for th result.
if( result ) {
// Make sure we've got the info we need.
rv = getInfo();
// Check if it worked.
if( rv == NS_OK ) {
// Convert result from REGINFO to nsIRegistry::ValueInfo.
reginfo2DataType( mInfo, *result );
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*---------------------- nsRegistryValue::GetLength -----------------------
1999-02-11 02:27:09 +03:00
| We test if we've got the info already. If not, we git it by calling |
| getInfo. We calculate the result by converting the REGINFO type field to |
| a nsIRegistry::DataType value (using reginfo2Length). |
------------------------------------------------------------------------------*/
NS_IMETHODIMP nsRegistryValue::GetLength( PRUint32 *result ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
// Make sure we have room for th result.
if( result ) {
// Make sure we've got the info we need.
rv = getInfo();
// Check if it worked.
if( rv == NS_OK ) {
// Convert result from REGINFO to length.
reginfo2Length( mInfo, *result );
}
} else {
rv = NS_ERROR_NULL_POINTER;
}
return rv;
}
/*------------------------- nsRegistryValue::getInfo ---------------------------
| Call NR_RegEnumEntries to set the mInfo/mName data members. |
------------------------------------------------------------------------------*/
nsresult nsRegistryValue::getInfo() {
nsresult rv = NS_OK;
// Test whether we haven't tried to get it yet.
if( mErr == -1 ) {
1999-02-11 02:27:09 +03:00
REGENUM temp = mEnum;
// Get name and info.
PR_Lock(mregLock);
mErr = NR_RegEnumEntries( mReg, mKey, &temp, mName, sizeof mName, &mInfo );
1999-02-11 02:27:09 +03:00
// Convert result.
rv = regerr2nsresult( mErr );
PR_Unlock(mregLock);
1999-02-11 02:27:09 +03:00
}
return rv;
}
nsRegistryFactory::nsRegistryFactory() {
NS_INIT_REFCNT();
}
NS_IMPL_ISUPPORTS1(nsRegistryFactory, nsIFactory)
1999-02-11 02:27:09 +03:00
NS_IMETHODIMP
nsRegistryFactory::CreateInstance(nsISupports *aOuter,
const nsIID &aIID,
void **aResult) {
nsresult rv = NS_OK;
nsRegistry* newRegistry;
2000-01-25 00:28:28 +03:00
if(aResult == nsnull) {
1999-02-11 02:27:09 +03:00
return NS_ERROR_NULL_POINTER;
} else {
2000-01-25 00:28:28 +03:00
*aResult = nsnull;
1999-02-11 02:27:09 +03:00
}
if(0 != aOuter) {
return NS_ERROR_NO_AGGREGATION;
}
NS_NEWXPCOM(newRegistry, nsRegistry);
2000-01-25 00:28:28 +03:00
if(newRegistry == nsnull) {
1999-02-11 02:27:09 +03:00
return NS_ERROR_OUT_OF_MEMORY;
}
NS_ADDREF(newRegistry);
rv = newRegistry->QueryInterface(aIID, aResult);
NS_RELEASE(newRegistry);
return rv;
}
nsresult
nsRegistryFactory::LockFactory(PRBool aLock)
{
// Not implemented in simplest case.
return NS_OK;
}
// This is a temporary hack; needs work to support dynamic binding
// via nsComponentManager and support for multiple factories per DLL.
1999-02-11 02:27:09 +03:00
extern "C" NS_EXPORT nsresult
NS_RegistryGetFactory(nsIFactory** aFactory ) {
1999-02-11 02:27:09 +03:00
nsresult rv = NS_OK;
if( aFactory == 0 ) {
return NS_ERROR_NULL_POINTER;
} else {
*aFactory = 0;
}
nsIFactory* inst = new nsRegistryFactory();
if(0 == inst) {
rv = NS_ERROR_OUT_OF_MEMORY;
} else {
NS_ADDREF(inst);
*aFactory = inst;
}
return rv;
}