Source code of Windows XP (NT5)
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1995
//
// File: regdcom.cxx
//
// Contents: Utility functions used to manipulated the DCOM registry
// settings.
//
// This code was stolen from the DCOMPERM sample code written
// by Michael Nelson.
//
// The only function that should be called outside this file is
// ChangeAppIDACL. All others are utility functions used by it.
//
//----------------------------------------------------------------------------
#include "headers.hxx"
#include "ntsecapi.h"
DWORD
GetCurrentUserSID (
PSID *Sid
)
{
TOKEN_USER *tokenUser = NULL;
HANDLE tokenHandle;
DWORD tokenSize;
DWORD sidLength;
if (OpenProcessToken (GetCurrentProcess(), TOKEN_QUERY, &tokenHandle))
{
GetTokenInformation (tokenHandle,
TokenUser,
tokenUser,
0,
&tokenSize);
tokenUser = (TOKEN_USER *) MemAlloc (tokenSize);
if (GetTokenInformation (tokenHandle,
TokenUser,
tokenUser,
tokenSize,
&tokenSize))
{
sidLength = GetLengthSid (tokenUser->User.Sid);
*Sid = (PSID) MemAlloc (sidLength);
memcpy (*Sid, tokenUser->User.Sid, sidLength);
CloseHandle (tokenHandle);
} else
{
MemFree (tokenUser);
return GetLastError();
}
} else
{
MemFree (tokenUser);
return GetLastError();
}
MemFree (tokenUser);
return ERROR_SUCCESS;
}
DWORD
GetPrincipalSID (
LPTSTR Principal,
PSID *Sid
)
{
DWORD sidSize;
TCHAR refDomain [256];
DWORD refDomainSize;
DWORD returnValue;
SID_NAME_USE snu;
sidSize = 0;
refDomainSize = 255;
LookupAccountName (NULL,
Principal,
*Sid,
&sidSize,
refDomain,
&refDomainSize,
&snu);
returnValue = GetLastError();
if (returnValue != ERROR_INSUFFICIENT_BUFFER)
return returnValue;
*Sid = (PSID) MemAlloc (sidSize);
refDomainSize = 255;
if (!LookupAccountName (NULL,
Principal,
*Sid,
&sidSize,
refDomain,
&refDomainSize,
&snu))
{
return GetLastError();
}
return ERROR_SUCCESS;
}
DWORD
CreateNewSD (
SECURITY_DESCRIPTOR **SD
)
{
PACL dacl;
DWORD sidLength;
PSID sid;
PSID groupSID;
PSID ownerSID;
DWORD returnValue;
*SD = NULL;
returnValue = GetCurrentUserSID (&sid);
if (returnValue != ERROR_SUCCESS)
return returnValue;
sidLength = GetLengthSid (sid);
*SD = (SECURITY_DESCRIPTOR *) MemAlloc (
(sizeof (ACL)+sizeof (ACCESS_ALLOWED_ACE)+sidLength) +
(2 * sidLength) +
sizeof (SECURITY_DESCRIPTOR));
groupSID = (SID *) (*SD + 1);
ownerSID = (SID *) (((BYTE *) groupSID) + sidLength);
dacl = (ACL *) (((BYTE *) ownerSID) + sidLength);
if (!InitializeSecurityDescriptor (*SD, SECURITY_DESCRIPTOR_REVISION))
{
MemFree (*SD);
MemFree (sid);
return GetLastError();
}
if (!InitializeAcl (dacl,
sizeof (ACL)+sizeof (ACCESS_ALLOWED_ACE)+sidLength,
ACL_REVISION2))
{
MemFree (*SD);
MemFree (sid);
return GetLastError();
}
if (!AddAccessAllowedAce (dacl,
ACL_REVISION2,
COM_RIGHTS_EXECUTE,
sid))
{
MemFree (*SD);
MemFree (sid);
return GetLastError();
}
if (!SetSecurityDescriptorDacl (*SD, TRUE, dacl, FALSE))
{
MemFree (*SD);
MemFree (sid);
return GetLastError();
}
memcpy (groupSID, sid, sidLength);
if (!SetSecurityDescriptorGroup (*SD, groupSID, FALSE))
{
MemFree (*SD);
MemFree (sid);
return GetLastError();
}
memcpy (ownerSID, sid, sidLength);
if (!SetSecurityDescriptorOwner (*SD, ownerSID, FALSE))
{
MemFree (*SD);
MemFree (sid);
return GetLastError();
}
MemFree(sid);
return ERROR_SUCCESS;
}
DWORD
MakeSDAbsolute (
PSECURITY_DESCRIPTOR OldSD,
PSECURITY_DESCRIPTOR *NewSD
)
{
PSECURITY_DESCRIPTOR sd = NULL;
DWORD descriptorSize;
DWORD daclSize;
DWORD saclSize;
DWORD ownerSIDSize;
DWORD groupSIDSize;
PACL dacl;
PACL sacl;
PSID ownerSID;
PSID groupSID;
BOOL present;
BOOL systemDefault;
//
// Get SACL
//
if (!GetSecurityDescriptorSacl (OldSD, &present, &sacl, &systemDefault))
return GetLastError();
if (sacl && present)
{
saclSize = sacl->AclSize;
} else saclSize = 0;
//
// Get DACL
//
if (!GetSecurityDescriptorDacl (OldSD, &present, &dacl, &systemDefault))
return GetLastError();
if (dacl && present)
{
daclSize = dacl->AclSize;
} else daclSize = 0;
//
// Get Owner
//
if (!GetSecurityDescriptorOwner (OldSD, &ownerSID, &systemDefault))
return GetLastError();
ownerSIDSize = GetLengthSid (ownerSID);
//
// Get Group
//
if (!GetSecurityDescriptorGroup (OldSD, &groupSID, &systemDefault))
return GetLastError();
groupSIDSize = GetLengthSid (groupSID);
//
// Do the conversion
//
descriptorSize = 0;
MakeAbsoluteSD (OldSD, sd, &descriptorSize, dacl, &daclSize, sacl,
&saclSize, ownerSID, &ownerSIDSize, groupSID,
&groupSIDSize);
sd = (PSECURITY_DESCRIPTOR) new BYTE [SECURITY_DESCRIPTOR_MIN_LENGTH];
if (!InitializeSecurityDescriptor (sd, SECURITY_DESCRIPTOR_REVISION))
return GetLastError();
if (!MakeAbsoluteSD (OldSD, sd, &descriptorSize, dacl, &daclSize, sacl,
&saclSize, ownerSID, &ownerSIDSize, groupSID,
&groupSIDSize))
return GetLastError();
*NewSD = sd;
return ERROR_SUCCESS;
}
DWORD
SetNamedValueSD (
HKEY RootKey,
LPTSTR KeyName,
LPTSTR ValueName,
SECURITY_DESCRIPTOR *SD
)
{
DWORD returnValue;
DWORD disposition;
HKEY registryKey;
//
// Create new key or open existing key
//
returnValue = RegCreateKeyEx (RootKey, KeyName, 0, TEXT(""), 0, KEY_ALL_ACCESS, NULL, &registryKey, &disposition);
if (returnValue != ERROR_SUCCESS)
return returnValue;
//
// Write the security descriptor
//
returnValue = RegSetValueEx (registryKey, ValueName, 0, REG_BINARY, (LPBYTE) SD, GetSecurityDescriptorLength (SD));
if (returnValue != ERROR_SUCCESS)
return returnValue;
RegCloseKey (registryKey);
return ERROR_SUCCESS;
}
DWORD
GetNamedValueSD (
HKEY RootKey,
LPTSTR KeyName,
LPTSTR ValueName,
SECURITY_DESCRIPTOR **SD,
BOOL *NewSD
)
{
DWORD returnValue;
HKEY registryKey;
DWORD valueType;
DWORD valueSize;
*NewSD = FALSE;
//
// Get the security descriptor from the named value. If it doesn't
// exist, create a fresh one.
//
returnValue = RegOpenKeyEx (RootKey, KeyName, 0, KEY_ALL_ACCESS, &registryKey);
if (returnValue != ERROR_SUCCESS)
{
if (returnValue == ERROR_FILE_NOT_FOUND)
{
*SD = NULL;
returnValue = CreateNewSD (SD);
if (returnValue != ERROR_SUCCESS)
return returnValue;
*NewSD = TRUE;
return ERROR_SUCCESS;
} else
return returnValue;
}
returnValue = RegQueryValueEx (registryKey, ValueName, NULL, &valueType, NULL, &valueSize);
if (returnValue && returnValue != ERROR_INSUFFICIENT_BUFFER)
{
*SD = NULL;
returnValue = CreateNewSD (SD);
if (returnValue != ERROR_SUCCESS)
return returnValue;
*NewSD = TRUE;
} else
{
*SD = (SECURITY_DESCRIPTOR *) MemAlloc (valueSize);
returnValue = RegQueryValueEx (registryKey, ValueName, NULL, &valueType, (LPBYTE) *SD, &valueSize);
if (returnValue)
{
MemFree (*SD);
*SD = NULL;
returnValue = CreateNewSD (SD);
if (returnValue != ERROR_SUCCESS)
return returnValue;
*NewSD = TRUE;
}
}
RegCloseKey (registryKey);
return ERROR_SUCCESS;
}
DWORD
CopyACL (
PACL OldACL,
PACL NewACL
)
{
ACL_SIZE_INFORMATION aclSizeInfo;
LPVOID ace;
ACE_HEADER *aceHeader;
ULONG i;
GetAclInformation (OldACL, (LPVOID) &aclSizeInfo, (DWORD) sizeof (aclSizeInfo), AclSizeInformation);
//
// Copy all of the ACEs to the new ACL
//
for (i = 0; i < aclSizeInfo.AceCount; i++)
{
//
// Get the ACE and header info
//
if (!GetAce (OldACL, i, &ace))
return GetLastError();
aceHeader = (ACE_HEADER *) ace;
//
// Add the ACE to the new list
//
if (!AddAce (NewACL, ACL_REVISION, 0xffffffff, ace, aceHeader->AceSize))
return GetLastError();
}
return ERROR_SUCCESS;
}
DWORD
AddAccessDeniedACEToACL (
PACL *Acl,
BOOL *pfNewAcl,
DWORD PermissionMask,
LPTSTR Principal
)
{
ACL_SIZE_INFORMATION aclSizeInfo;
int aclSize;
DWORD returnValue;
PSID principalSID;
PACL oldACL, newACL;
oldACL = *Acl;
returnValue = GetPrincipalSID (Principal, &principalSID);
if (returnValue != ERROR_SUCCESS)
return returnValue;
GetAclInformation (oldACL, (LPVOID) &aclSizeInfo, (DWORD) sizeof (ACL_SIZE_INFORMATION), AclSizeInformation);
aclSize = aclSizeInfo.AclBytesInUse +
sizeof (ACL) + sizeof (ACCESS_DENIED_ACE) +
GetLengthSid (principalSID) - sizeof (DWORD);
newACL = (PACL) new BYTE [aclSize];
if (!InitializeAcl (newACL, aclSize, ACL_REVISION))
{
MemFree (principalSID);
return GetLastError();
}
if (!AddAccessDeniedAce (newACL, ACL_REVISION2, PermissionMask, principalSID))
{
MemFree (principalSID);
return GetLastError();
}
returnValue = CopyACL (oldACL, newACL);
if (returnValue != ERROR_SUCCESS)
{
MemFree (principalSID);
return returnValue;
}
*Acl = newACL;
if (*pfNewAcl)
delete [] oldACL;
*pfNewAcl = TRUE;
MemFree (principalSID);
return ERROR_SUCCESS;
}
DWORD
AddAccessAllowedACEToACL (
PACL *Acl,
BOOL *pfNewAcl,
DWORD PermissionMask,
LPTSTR Principal
)
{
ACL_SIZE_INFORMATION aclSizeInfo;
int aclSize;
DWORD returnValue;
PSID principalSID = NULL;
PACL oldACL, newACL;
oldACL = *Acl;
returnValue = GetPrincipalSID (Principal, &principalSID);
if (returnValue != ERROR_SUCCESS)
goto Cleanup;
GetAclInformation (oldACL, (LPVOID) &aclSizeInfo, (DWORD) sizeof (ACL_SIZE_INFORMATION), AclSizeInformation);
aclSize = aclSizeInfo.AclBytesInUse +
sizeof (ACL) + sizeof (ACCESS_ALLOWED_ACE) +
GetLengthSid (principalSID) - sizeof (DWORD);
newACL = (PACL) new BYTE [aclSize];
if (!InitializeAcl (newACL, aclSize, ACL_REVISION))
goto Cleanup;
returnValue = CopyACL (oldACL, newACL);
if (returnValue != ERROR_SUCCESS)
goto Cleanup;
if (!AddAccessAllowedAce (newACL, ACL_REVISION2, PermissionMask, principalSID))
goto Cleanup;
*Acl = newACL;
if (*pfNewAcl)
delete [] oldACL;
*pfNewAcl = TRUE;
Cleanup:
MemFree (principalSID);
return returnValue;
}
DWORD
RemovePrincipalFromACL (
PACL Acl,
LPTSTR Principal
)
{
ACL_SIZE_INFORMATION aclSizeInfo;
ULONG i;
LPVOID ace;
ACCESS_ALLOWED_ACE *accessAllowedAce;
ACCESS_DENIED_ACE *accessDeniedAce;
SYSTEM_AUDIT_ACE *systemAuditAce;
PSID principalSID;
DWORD returnValue;
ACE_HEADER *aceHeader;
returnValue = GetPrincipalSID (Principal, &principalSID);
if (returnValue != ERROR_SUCCESS)
return returnValue;
GetAclInformation (Acl, (LPVOID) &aclSizeInfo, (DWORD) sizeof (ACL_SIZE_INFORMATION), AclSizeInformation);
for (i = 0; i < aclSizeInfo.AceCount; i++)
{
if (!GetAce (Acl, i, &ace))
{
MemFree (principalSID);
return GetLastError();
}
aceHeader = (ACE_HEADER *) ace;
if (aceHeader->AceType == ACCESS_ALLOWED_ACE_TYPE)
{
accessAllowedAce = (ACCESS_ALLOWED_ACE *) ace;
if (EqualSid (principalSID, (PSID) &accessAllowedAce->SidStart))
{
DeleteAce (Acl, i);
MemFree (principalSID);
return ERROR_SUCCESS;
}
} else
if (aceHeader->AceType == ACCESS_DENIED_ACE_TYPE)
{
accessDeniedAce = (ACCESS_DENIED_ACE *) ace;
if (EqualSid (principalSID, (PSID) &accessDeniedAce->SidStart))
{
DeleteAce (Acl, i);
MemFree (principalSID);
return ERROR_SUCCESS;
}
} else
if (aceHeader->AceType == SYSTEM_AUDIT_ACE_TYPE)
{
systemAuditAce = (SYSTEM_AUDIT_ACE *) ace;
if (EqualSid (principalSID, (PSID) &systemAuditAce->SidStart))
{
DeleteAce (Acl, i);
MemFree (principalSID);
return ERROR_SUCCESS;
}
}
}
MemFree (principalSID);
return ERROR_SUCCESS;
}
DWORD
AddPrincipalToNamedValueSD (
HKEY RootKey,
LPTSTR KeyName,
LPTSTR ValueName,
LPTSTR Principal,
BOOL Permit
)
{
DWORD returnValue;
SECURITY_DESCRIPTOR *sd;
SECURITY_DESCRIPTOR *sdSelfRelative = NULL;
SECURITY_DESCRIPTOR *sdAbsolute;
DWORD secDescSize;
BOOL present;
BOOL defaultDACL;
PACL dacl;
BOOL newACL = FALSE;
BOOL newSD = FALSE;
returnValue = GetNamedValueSD (RootKey, KeyName, ValueName, &sd, &newSD);
//
// Get security descriptor from registry or create a new one
//
if (returnValue != ERROR_SUCCESS)
return returnValue;
if (!GetSecurityDescriptorDacl (sd, &present, &dacl, &defaultDACL))
return GetLastError();
if (newSD)
{
AddAccessAllowedACEToACL (&dacl, &newACL, COM_RIGHTS_EXECUTE, TEXT("SYSTEM"));
AddAccessAllowedACEToACL (&dacl, &newACL, COM_RIGHTS_EXECUTE, TEXT("INTERACTIVE"));
}
//
// Add the Principal that the caller wants added
//
if (Permit)
{
returnValue = AddAccessAllowedACEToACL (&dacl, &newACL, COM_RIGHTS_EXECUTE, Principal);
}
else
returnValue = AddAccessDeniedACEToACL (&dacl, &newACL, GENERIC_ALL, Principal);
if (returnValue != ERROR_SUCCESS)
{
MemFree (sd);
return returnValue;
}
//
// Make the security descriptor absolute if it isn't new
//
if (!newSD)
MakeSDAbsolute ((PSECURITY_DESCRIPTOR) sd, (PSECURITY_DESCRIPTOR *) &sdAbsolute);
else
sdAbsolute = sd;
//
// Set the discretionary ACL on the security descriptor
//
if (!SetSecurityDescriptorDacl (sdAbsolute, TRUE, dacl, FALSE))
return GetLastError();
//
// Make the security descriptor self-relative so that we can
// store it in the registry
//
secDescSize = 0;
MakeSelfRelativeSD (sdAbsolute, sdSelfRelative, &secDescSize);
sdSelfRelative = (SECURITY_DESCRIPTOR *) MemAlloc (secDescSize);
if (!MakeSelfRelativeSD (sdAbsolute, sdSelfRelative, &secDescSize))
return GetLastError();
//
// Store the security descriptor in the registry
//
SetNamedValueSD (RootKey, KeyName, ValueName, sdSelfRelative);
MemFree (sd);
MemFree (sdSelfRelative);
if (newACL)
delete [] dacl;
if (!newSD)
MemFree (sdAbsolute);
return ERROR_SUCCESS;
}
DWORD
RemovePrincipalFromNamedValueSD (
HKEY RootKey,
LPTSTR KeyName,
LPTSTR ValueName,
LPTSTR Principal
)
{
DWORD returnValue;
SECURITY_DESCRIPTOR *sd;
SECURITY_DESCRIPTOR *sdSelfRelative = NULL;
SECURITY_DESCRIPTOR *sdAbsolute;
DWORD secDescSize;
BOOL present;
BOOL defaultDACL;
PACL dacl;
BOOL newACL = FALSE;
BOOL newSD = FALSE;
returnValue = GetNamedValueSD (RootKey, KeyName, ValueName, &sd, &newSD);
//
// Get security descriptor from registry or create a new one
//
if (returnValue != ERROR_SUCCESS)
return returnValue;
if (!GetSecurityDescriptorDacl (sd, &present, &dacl, &defaultDACL))
return GetLastError();
//
// If the security descriptor is new, add the required Principals to it
//
if (newSD)
{
AddAccessAllowedACEToACL (&dacl, &newACL, COM_RIGHTS_EXECUTE, TEXT("SYSTEM"));
AddAccessAllowedACEToACL (&dacl, &newACL, COM_RIGHTS_EXECUTE, TEXT("INTERACTIVE"));
}
//
// Remove the Principal that the caller wants removed
//
returnValue = RemovePrincipalFromACL (dacl, Principal);
if (returnValue != ERROR_SUCCESS)
{
MemFree (sd);
return returnValue;
}
//
// Make the security descriptor absolute if it isn't new
//
if (!newSD)
MakeSDAbsolute ((PSECURITY_DESCRIPTOR) sd, (PSECURITY_DESCRIPTOR *) &sdAbsolute);
else
sdAbsolute = sd;
//
// Set the discretionary ACL on the security descriptor
//
if (!SetSecurityDescriptorDacl (sdAbsolute, TRUE, dacl, FALSE))
return GetLastError();
//
// Make the security descriptor self-relative so that we can
// store it in the registry
//
secDescSize = 0;
MakeSelfRelativeSD (sdAbsolute, sdSelfRelative, &secDescSize);
sdSelfRelative = (SECURITY_DESCRIPTOR *) MemAlloc (secDescSize);
if (!MakeSelfRelativeSD (sdAbsolute, sdSelfRelative, &secDescSize))
return GetLastError();
//
// Store the security descriptor in the registry
//
SetNamedValueSD (RootKey, KeyName, ValueName, sdSelfRelative);
MemFree (sd);
MemFree (sdSelfRelative);
if (newACL)
delete [] dacl;
if (!newSD)
MemFree (sdAbsolute);
return ERROR_SUCCESS;
}
//+---------------------------------------------------------------------------
//
// Function: ChangeAppIDACL
//
// Synopsis: Given an AppID and a username ("EVERYONE",
// "REDMOND\johndoe") add or remove them from the DCOM Access
// or launch permissions for that app.
//
// Arguments: [AppID] -- GUID of application to set permissions for.
// [Principal] -- Name of user
// [fAccess] -- If TRUE, set the access permissions. If
// FALSE, set the launch permissions.
// [SetPrincipal] -- If TRUE, add the user, otherwise remove
// [Permit] -- If TRUE, give them access, otherwise deny
// them access (ignored if [SetPrincipal] is
// false.
//
// Returns: HRESULT
//
//----------------------------------------------------------------------------
HRESULT
ChangeAppIDACL (
REFGUID AppID,
LPTSTR Principal,
BOOL fAccess,
BOOL SetPrincipal,
BOOL Permit)
{
TCHAR keyName [256];
DWORD dwRet;
LPTSTR pstrValue;
OLECHAR strClsid[40];
StringFromGUID2(AppID, strClsid, 40);
wsprintf (keyName, TEXT("APPID\\%s"), strClsid);
if (fAccess)
pstrValue = TEXT("AccessPermission");
else
pstrValue = TEXT("LaunchPermission");
if (SetPrincipal)
{
RemovePrincipalFromNamedValueSD (HKEY_CLASSES_ROOT, keyName, pstrValue, Principal);
dwRet = AddPrincipalToNamedValueSD (HKEY_CLASSES_ROOT, keyName, pstrValue, Principal, Permit);
}
else
{
dwRet = RemovePrincipalFromNamedValueSD (HKEY_CLASSES_ROOT, keyName, pstrValue, Principal);
}
return HRESULT_FROM_WIN32(dwRet);
}