/*++ Copyright (c) 1998 Microsoft Corporation Module Name: geninst.c Abstract: This modules contains routines to implement GenInstall of an inf section. This is based on the code from the setupapi. Currently, it only supports a subset of GenInstall functionality i.e AddReg and DelReg and BitReg. Author: Santosh Jodh (santoshj) 08-Aug-1998 Environment: Kernel mode. Revision History: --*/ #include "cmp.h" #include "stdlib.h" #include "parseini.h" #include "geninst.h" typedef BOOLEAN (* PFN_INFRULE)( IN PVOID InfHandle, IN PCHAR Section, IN PVOID RefData ); typedef BOOLEAN (* PFN_REGLINE)( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ); BOOLEAN CmpProcessReg( IN PVOID InfHandle, IN PCHAR Section, IN PVOID RefData ); NTSTATUS CmpProcessAddRegLine( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ); NTSTATUS CmpProcessDelRegLine( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ); NTSTATUS CmpProcessBitRegLine( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ); NTSTATUS CmpGetAddRegInfData( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex, IN ULONG ValueIndex, IN ULONG ValueType, OUT PVOID *Data, OUT PULONG DataSize ); NTSTATUS CmpOpenRegKey( IN OUT PHANDLE Key, IN OUT PULONG Disposition, IN PCHAR Root, IN PCHAR SubKey, IN ULONG DesiredAccess, IN BOOLEAN Create ); NTSTATUS CmpAppendStringToMultiSz( IN HANDLE Key, IN PCHAR ValueName, IN OUT PVOID *Data, IN OUT PULONG DataSize ); // // Copied from setupapi.h // // Flags for AddReg section lines in INF. The corresponding value // is in the AddReg line format given below: // // ,,,,... // // The low word contains basic flags concerning the general data type // and AddReg action. The high word contains values that more specifically // identify the data type of the registry value. The high word is ignored // by the 16-bit Windows 95 SETUPX APIs. // #define FLG_ADDREG_BINVALUETYPE ( 0x00000001 ) #define FLG_ADDREG_NOCLOBBER ( 0x00000002 ) #define FLG_ADDREG_DELVAL ( 0x00000004 ) #define FLG_ADDREG_APPEND ( 0x00000008 ) // Currently supported only // for REG_MULTI_SZ values. #define FLG_ADDREG_KEYONLY ( 0x00000010 ) // Just create the key, ignore value #define FLG_ADDREG_OVERWRITEONLY ( 0x00000020 ) // Set only if value already exists #define FLG_ADDREG_TYPE_MASK ( 0xFFFF0000 | FLG_ADDREG_BINVALUETYPE ) #define FLG_ADDREG_TYPE_SZ ( 0x00000000 ) #define FLG_ADDREG_TYPE_MULTI_SZ ( 0x00010000 ) #define FLG_ADDREG_TYPE_EXPAND_SZ ( 0x00020000 ) #define FLG_ADDREG_TYPE_BINARY ( 0x00000000 | FLG_ADDREG_BINVALUETYPE ) #define FLG_ADDREG_TYPE_DWORD ( 0x00010000 | FLG_ADDREG_BINVALUETYPE ) #define FLG_ADDREG_TYPE_NONE ( 0x00020000 | FLG_ADDREG_BINVALUETYPE ) #define FLG_BITREG_CLEAR ( 0x00000000 ) #define FLG_BITREG_SET ( 0x00000001 ) #define FLG_BITREG_TYPE_BINARY ( 0x00000000 ) #define FLG_BITREG_TYPE_DWORD ( 0x00000002 ) // // We currently only support AddReg and DelReg sections. // #define NUM_OF_INF_RULES 3 // // GenInstall methods we support. // #ifdef ALLOC_DATA_PRAGMA #pragma const_seg("INITCONST") #endif struct { PCHAR Name; PFN_INFRULE Action; PVOID RefData; } const gInfRuleTable[NUM_OF_INF_RULES] = { {"AddReg", CmpProcessReg, CmpProcessAddRegLine}, {"DelReg", CmpProcessReg, CmpProcessDelRegLine}, {"BitReg", CmpProcessReg, CmpProcessBitRegLine} }; static const UNICODE_STRING NullString = {0, 1, L""}; #ifdef ALLOC_PRAGMA #pragma alloc_text(INIT,CmpAppendStringToMultiSz) #pragma alloc_text(INIT,CmpOpenRegKey) #pragma alloc_text(INIT,CmpGetAddRegInfData) #pragma alloc_text(INIT,CmpProcessReg) #pragma alloc_text(INIT,CmpProcessAddRegLine) #pragma alloc_text(INIT,CmpProcessDelRegLine) #pragma alloc_text(INIT,CmpProcessBitRegLine) #pragma alloc_text(INIT,CmpGenInstall) #endif BOOLEAN CmpGenInstall( IN PVOID InfHandle, IN PCHAR Section ) /*++ Routine Description: This routine does a GenInstall of the section in the inf. Input Parameters: InfHandle - Handle to the inf to be read. Section - Name of the section to be read. Return Value: TRUE iff the entire section was processed successfully. --*/ { ULONG ruleNumber; ULONG i; PCHAR ruleName; PCHAR regSection; BOOLEAN result = FALSE; if (CmpSearchInfSection(InfHandle, Section)) { // // Go through all the rules in the section and try to process // each of them. // for ( ruleNumber = 0; ruleName = CmpGetKeyName(InfHandle, Section, ruleNumber); ruleNumber++) { // // Search for the proceesing function in our table. // for ( i = 0; i < NUM_OF_INF_RULES && _stricmp(ruleName, gInfRuleTable[i].Name); i++); if ( i >= NUM_OF_INF_RULES || (regSection = CmpGetSectionLineIndex( InfHandle, Section, ruleNumber, 0)) == NULL || !CmpSearchInfSection(InfHandle, Section)) { result = FALSE; break; } if (!(*gInfRuleTable[i].Action)(InfHandle, regSection, gInfRuleTable[i].RefData)) { result = FALSE; } } // // All inf rules processed. // if (ruleNumber) { result = TRUE; } } return (result); } BOOLEAN CmpProcessReg( IN PVOID InfHandle, IN PCHAR Section, IN PVOID RefData ) /*++ Routine Description: This routine processes a AddReg section in the inf. Input Parameters: InfHandle - Handle to the inf to be read. Section - Name of the section to be read. Return Value: TRUE iff the entire section was processed successfully. --*/ { ULONG lineIndex; NTSTATUS status = STATUS_SUCCESS; NTSTATUS temp; // // Process all the lines in the xxxReg Section. // for ( lineIndex = 0; CmpSearchInfLine(InfHandle, Section, lineIndex); lineIndex++) { temp = (*(PFN_REGLINE)RefData)(InfHandle, Section, lineIndex); if (!NT_SUCCESS(temp)) { status = temp; } } if (NT_SUCCESS(status)) { return (TRUE); } return (FALSE); } NTSTATUS CmpProcessAddRegLine( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ) /*++ Routine Description: This routine processes a AddReg line in the inf. Input Parameters: InfHandle - Handle to the inf to be read. Section - Name of the section to be read. LineIndex - Index of the line to be read. Return Value: Standard NT status value. --*/ { NTSTATUS status = STATUS_UNSUCCESSFUL; PCHAR rootKeyName; PCHAR subKeyName; PCHAR valueName; ULONG flags; ULONG valueType; PCHAR buffer; HANDLE key; ULONG disposition; BOOLEAN dontSet; PVOID data = 0; ULONG dataSize = 0; ANSI_STRING ansiString; UNICODE_STRING unicodeString; OBJECT_ATTRIBUTES objectAttributes; // // Get the root-key name. // rootKeyName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 0); if (rootKeyName) { // // Get the optional sub-key name. // subKeyName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 1); // // Value name is optional. Can be NULL or "". // valueName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 2); // // If we don't have a value name, the type is REG_SZ to force // the right behavior in RegSetValueEx. Otherwise get the data type. // valueType = REG_SZ; // // Read in the flags. // if (!CmpGetIntField( InfHandle, Section, LineIndex, 3, &flags)) { flags = 0; } // // Convert the flags to the registry type. // switch(flags & FLG_ADDREG_TYPE_MASK) { case FLG_ADDREG_TYPE_SZ: valueType = REG_SZ; break; case FLG_ADDREG_TYPE_MULTI_SZ: valueType = REG_MULTI_SZ; break; case FLG_ADDREG_TYPE_EXPAND_SZ: valueType = REG_EXPAND_SZ; break; case FLG_ADDREG_TYPE_BINARY: valueType = REG_BINARY; break; case FLG_ADDREG_TYPE_DWORD: valueType = REG_DWORD; break; case FLG_ADDREG_TYPE_NONE: valueType = REG_NONE; break; default : // // If the FLG_ADDREG_BINVALUETYPE is set, then the highword // can contain just about any random reg data type ordinal value. // if(flags & FLG_ADDREG_BINVALUETYPE) { // // Disallow the following reg data types: // // REG_NONE, REG_SZ, REG_EXPAND_SZ, REG_MULTI_SZ // valueType = HIGHWORD(flags); if(valueType < REG_BINARY || valueType == REG_MULTI_SZ) { return (STATUS_INVALID_PARAMETER); } } else { return (STATUS_INVALID_PARAMETER); } break; } // // Presently, the append behavior flag is only supported for // REG_MULTI_SZ values. // if((flags & FLG_ADDREG_APPEND) && valueType != REG_MULTI_SZ) { return (STATUS_INVALID_PARAMETER); } // // W9x compatibility. // if( (!valueName || *valueName == '\0') && valueType == REG_EXPAND_SZ) { valueType = REG_SZ; } // // Open the specified key if possible. // status = CmpOpenRegKey( &key, &disposition, rootKeyName, subKeyName, KEY_QUERY_VALUE | KEY_SET_VALUE, (BOOLEAN)!(flags & FLG_ADDREG_OVERWRITEONLY)); if (NT_SUCCESS(status)) { // // Respect the key only flag. // if (!(flags & FLG_ADDREG_KEYONLY)) { status = CmpGetAddRegInfData( InfHandle, Section, LineIndex, 4, valueType, &data, &dataSize); if (NT_SUCCESS(status)) { // // This variable gets set to TRUE if we dont actually want to set // the value. // dontSet = FALSE; if (flags & FLG_ADDREG_APPEND) { status = CmpAppendStringToMultiSz( key, valueName, &data, &dataSize); } if (NT_SUCCESS(status)) { // // W9x compatibility. // if (disposition == REG_OPENED_EXISTING_KEY) { if ( (flags & FLG_ADDREG_NOCLOBBER) && (valueName == NULL || *valueName == '\0')) { status = NtQueryValueKey( key, (PUNICODE_STRING)&NullString, KeyValueBasicInformation, NULL, 0, &disposition); if (NT_SUCCESS(status) || status == STATUS_BUFFER_TOO_SMALL) { flags &= ~FLG_ADDREG_NOCLOBBER; } status = STATUS_SUCCESS; } if (flags & FLG_ADDREG_DELVAL) { // // setupx compatibility. // dontSet = TRUE; if (valueName) { // // Delete the specified value. // RtlInitAnsiString(&ansiString, valueName); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, TRUE); if (NT_SUCCESS(status)) { status = NtDeleteValueKey(key, &unicodeString); RtlFreeUnicodeString(&unicodeString); } } } } else { flags &= ~FLG_ADDREG_NOCLOBBER; } if (!dontSet) { // // If no clobber flag is set, make sure that the value does not // already exist. // RtlInitAnsiString(&ansiString, valueName); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, TRUE); if (NT_SUCCESS(status)) { NTSTATUS existStatus; if (flags & FLG_ADDREG_NOCLOBBER) { existStatus = NtQueryValueKey( key, &unicodeString, KeyValueBasicInformation, NULL, 0, &disposition); if (NT_SUCCESS(existStatus) || existStatus == STATUS_BUFFER_TOO_SMALL) { dontSet = TRUE; } } else { if (flags & FLG_ADDREG_OVERWRITEONLY) { existStatus = NtQueryValueKey( key, &unicodeString, KeyValueBasicInformation, NULL, 0, &disposition); if (!NT_SUCCESS(existStatus) && existStatus != STATUS_BUFFER_TOO_SMALL) { dontSet = TRUE; } } } if (!dontSet) { status = NtSetValueKey( key, &unicodeString, 0, valueType, data, dataSize); } RtlFreeUnicodeString(&unicodeString); } } } } } NtClose(key); } else if (flags & FLG_ADDREG_OVERWRITEONLY) { status = STATUS_SUCCESS; } } return (status); } NTSTATUS CmpProcessDelRegLine( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ) /*++ Routine Description: This routine processes a DelReg line in the inf. Input Parameters: InfHandle - Handle to the inf to be read. Section - Name of the section to be read. LineIndex - Index of the line to be read. Return Value: Standard NT status value. --*/ { NTSTATUS status = STATUS_UNSUCCESSFUL; PCHAR rootKeyName; PCHAR subKeyName; PCHAR valueName; HANDLE key; ULONG disposition; ANSI_STRING ansiString; UNICODE_STRING unicodeString; // // Read the required fields. // rootKeyName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 0); subKeyName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 1); if (rootKeyName && subKeyName) { // // Read the optional field. // valueName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 2); // // Open the specified registry key. // status = CmpOpenRegKey( &key, &disposition, rootKeyName, subKeyName, KEY_ALL_ACCESS, FALSE); // // Proceed if we successfully opened the registry key. // if (NT_SUCCESS(status)) { // // If the key was successfully opened, do the DelReg. // if (valueName) { // // Delete the specified value. // RtlInitAnsiString(&ansiString, valueName); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, TRUE); if (NT_SUCCESS(status)) { status = NtDeleteValueKey(key, &unicodeString); RtlFreeUnicodeString(&unicodeString); } } else { // // No value specified. The subkey needs to be deleted. // status = NtDeleteKey(key); } // // Close the key handle. // NtClose(key); } } return (status); } NTSTATUS CmpProcessBitRegLine( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex ) /*++ Routine Description: This routine processes a BitReg line in the inf. Input Parameters: InfHandle - Handle to the inf to be read. Section - Name of the section to be read. LineIndex - Index of the line to be read. Return Value: Standard NT status value. --*/ { NTSTATUS status = STATUS_UNSUCCESSFUL; PCHAR rootKeyName; PCHAR subKeyName; PCHAR valueName; ULONG flags; ULONG mask; ULONG field; HANDLE key; ULONG disposition; ANSI_STRING ansiString; UNICODE_STRING unicodeString; PCHAR buffer; ULONG size; PKEY_VALUE_FULL_INFORMATION valueInfo; // // Get the root-key name. // rootKeyName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 0); if (rootKeyName) { // // Get the optional sub-key name. // subKeyName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 1); // // Value name is optional. Can be NULL or "". // valueName = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, 2); if (valueName && *valueName) { // // Read in the flags. // if (!CmpGetIntField( InfHandle, Section, LineIndex, 3, &flags)) { flags = 0; } if (!CmpGetIntField( InfHandle, Section, LineIndex, 4, &mask)) { mask = 0; } if (!(flags & FLG_BITREG_TYPE_DWORD)) { if (!CmpGetIntField( InfHandle, Section, LineIndex, 5, &field)) { return (status); } } // // Open the specified registry key. // status = CmpOpenRegKey( &key, &disposition, rootKeyName, subKeyName, KEY_ALL_ACCESS, FALSE); if (NT_SUCCESS(status)) { // // Read the existing data. // RtlInitAnsiString(&ansiString, valueName); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, TRUE); if (NT_SUCCESS(status)) { size = 0; status = NtQueryValueKey( key, &unicodeString, KeyValueFullInformation, NULL, 0, &size); if (size) { status = STATUS_NO_MEMORY; buffer = ExAllocatePoolWithTag(PagedPool, size, CM_GENINST_TAG); if (buffer) { status = NtQueryValueKey( key, &unicodeString, KeyValueFullInformation, buffer, size, &size); if (NT_SUCCESS(status)) { valueInfo = (PKEY_VALUE_FULL_INFORMATION)buffer; if (flags & FLG_BITREG_TYPE_DWORD) { if (valueInfo->Type == REG_DWORD && valueInfo->DataLength == sizeof(ULONG)) { if (flags & FLG_BITREG_SET) { *(PULONG)(buffer + valueInfo->DataOffset) |= mask; } else { *(PULONG)(buffer + valueInfo->DataOffset) &= ~mask; } } } else { if (valueInfo->Type == REG_BINARY && field < valueInfo->DataLength) { if (flags & FLG_BITREG_SET) { *(PUCHAR)(buffer + valueInfo->DataOffset + field) |= mask; } else { *(PUCHAR)(buffer + valueInfo->DataOffset + field) &= ~mask; } } } status = NtSetValueKey( key, &unicodeString, 0, valueInfo->Type, buffer + valueInfo->DataOffset, valueInfo->DataLength); } else { #ifndef _CM_LDR_ DbgPrintEx(DPFLTR_CONFIG_ID,DPFLTR_ERROR_LEVEL,"Value cannot be read for BitReg in %s line %d\n", Section, LineIndex); #endif //_CM_LDR_ ASSERT(NT_SUCCESS(status)); } ExFreePool(buffer); } else { ASSERT(buffer); status = STATUS_NO_MEMORY; } } RtlFreeUnicodeString(&unicodeString); } // // Close the key handle. // NtClose(key); } } } return (status); } NTSTATUS CmpGetAddRegInfData( IN PVOID InfHandle, IN PCHAR Section, IN ULONG LineIndex, IN ULONG ValueIndex, IN ULONG ValueType, OUT PVOID *Data, OUT PULONG DataSize ) /*++ Routine Description: This routine reads AddReg data from the inf. Input Parameters: InfHandle - Handle to the inf to be read. Section - Name of the section to be read. LineIndex - Index of the line to be read. ValueIndex - Index of the value to be read. ValueType - Data type to be read. Data - Receives pointer to the buffer in which data has been read. DataSize - Receives the size of the data buffer. Return Value: Standard NT status value. --*/ { NTSTATUS status = STATUS_UNSUCCESSFUL; PCHAR str; ULONG count; ULONG i; ANSI_STRING ansiString; UNICODE_STRING unicodeString; // // Validate the required fields. // ASSERT(Data); ASSERT(DataSize); switch (ValueType) { case REG_DWORD: *DataSize = sizeof(ULONG); *Data = ExAllocatePoolWithTag(PagedPool, *DataSize, CM_GENINST_TAG); if (*Data) { // // DWORD data is specified as four bytes in W9x. // if (CmpGetSectionLineIndexValueCount( InfHandle, Section, LineIndex) == 8) { if (!CmpGetBinaryField( InfHandle, Section, LineIndex, ValueIndex, *Data, *DataSize, NULL)) { *((PULONG)*Data) = 0; } status = STATUS_SUCCESS; } else { // // Get the DWORD value. // if (!CmpGetIntField( InfHandle, Section, LineIndex, 4, *Data)) { *((PULONG)*Data) = 0; } status = STATUS_SUCCESS; } } else { ASSERT(*Data); status = STATUS_NO_MEMORY; } break; case REG_SZ: case REG_EXPAND_SZ: // // Null terminated string. Gets converted to unicode before being // added into the registry. // str = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, ValueIndex); if (str) { RtlInitAnsiString(&ansiString, str); *DataSize = (ansiString.Length << 1) + sizeof(UNICODE_NULL); unicodeString.MaximumLength = (USHORT)*DataSize; unicodeString.Buffer = ExAllocatePoolWithTag(PagedPool, *DataSize, CM_GENINST_TAG); *Data = NULL; if (unicodeString.Buffer) { status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, FALSE); if (NT_SUCCESS(status)) { *Data = unicodeString.Buffer; status = STATUS_SUCCESS; } } else { ASSERT(unicodeString.Buffer); status = STATUS_NO_MEMORY; } } else { ASSERT(str); status = STATUS_NO_MEMORY; } break; case REG_MULTI_SZ: *DataSize = 0; *Data = NULL; // // Loop to determine the total memory that needs to be allocated. // count = CmpGetSectionLineIndexValueCount( InfHandle, Section, LineIndex); if (count > ValueIndex) { count -= ValueIndex; for (i = 0; i < count; i++) { str = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, ValueIndex + i); if (str == NULL) { break; } *DataSize += ((strlen(str) * sizeof(WCHAR)) + sizeof(UNICODE_NULL)); } if (i == count) { // // Account for the terminating NULL. // *DataSize += sizeof(UNICODE_NULL); *Data = ExAllocatePoolWithTag(PagedPool, *DataSize, CM_GENINST_TAG); if (*Data) { for ( i = 0, unicodeString.Buffer = *Data; i < count; i++, (PCHAR)unicodeString.Buffer += unicodeString.MaximumLength) { str = CmpGetSectionLineIndex( InfHandle, Section, LineIndex, ValueIndex + i); if (str == NULL) { break; } RtlInitAnsiString(&ansiString, str); unicodeString.MaximumLength = (ansiString.Length * sizeof(WCHAR)) + sizeof(UNICODE_NULL); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, FALSE); if (!NT_SUCCESS(status)) { break; } } // // Terminate the multi-sz string. // if (i == count) { unicodeString.Buffer[0] = UNICODE_NULL; status = STATUS_SUCCESS; } } else { ASSERT(*Data); status = STATUS_NO_MEMORY; } } } break; case REG_BINARY: default: // // Free form binary data. // if (CmpGetBinaryField( InfHandle, Section, LineIndex, ValueIndex, NULL, 0, DataSize) && *DataSize) { *Data = ExAllocatePoolWithTag(PagedPool, *DataSize, CM_GENINST_TAG); if (*Data) { if (CmpGetBinaryField( InfHandle, Section, LineIndex, 4, *Data, *DataSize, NULL)) { status = STATUS_SUCCESS; } } else { ASSERT(*Data); status = STATUS_NO_MEMORY; } } else { status = STATUS_UNSUCCESSFUL; } break; } return (status); } NTSTATUS CmpOpenRegKey( IN OUT PHANDLE Key, IN OUT PULONG Disposition, IN PCHAR Root, IN PCHAR SubKey, IN ULONG DesiredAccess, IN BOOLEAN Create ) /*++ Routine Description: This routine opens\creates a handle to the registry key. Input Parameters: Key - Receives the handle to the key. Disposition - Receives the disposition of the key. Root - Abbreviated name of the root key. SubKey - Name of the subkey under the root. DesiredAccess - Desired access flags for the key. Create - TRUE if the key needs to be created instead of opened. Return Value: Standard NT status value. --*/ { NTSTATUS status = STATUS_OBJECT_NAME_INVALID; ULONG size; PCHAR str; ANSI_STRING ansiString; UNICODE_STRING unicodeString; OBJECT_ATTRIBUTES objectAttributes; str = NULL; size = strlen(SubKey) + 1; // // Check if we understand the specified root name. // if (_stricmp(Root, "HKLM") == 0) { size += (sizeof("\\Registry\\Machine\\") - 1); // Already added one above for NULL str = ExAllocatePoolWithTag(PagedPool, size, CM_GENINST_TAG); if (str) { strcpy(str, "\\Registry\\Machine\\"); strcat(str, SubKey); } else { ASSERT(str); status = STATUS_NO_MEMORY; } } else { ASSERT(_stricmp(Root, "HKLM") == 0); } // // Proceed if we have a valid key name. // if (str) { RtlInitAnsiString(&ansiString, str); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, TRUE); if (NT_SUCCESS(status)) { InitializeObjectAttributes( &objectAttributes, &unicodeString, OBJ_CASE_INSENSITIVE, NULL, NULL); if (Create) { // // Create a new key or open an existing one. // status = NtCreateKey( Key, DesiredAccess, &objectAttributes, 0, NULL, REG_OPTION_NON_VOLATILE, Disposition ? Disposition : &size); } else { // // Open existing key. // if (Disposition) { *Disposition = REG_OPENED_EXISTING_KEY; } status = NtOpenKey( Key, DesiredAccess, &objectAttributes); } RtlFreeUnicodeString(&unicodeString); } else { ASSERT(NT_SUCCESS(status)); } ExFreePool(str); } return (status); } NTSTATUS CmpAppendStringToMultiSz( IN HANDLE Key, IN PCHAR ValueName, IN OUT PVOID *Data, IN OUT PULONG DataSize ) /*++ Routine Description: This routine opens\creates a handle to the registry key. Input Parameters: Key - Receives the handle to the key. ValueName - Name of the value to be appended to. Data - Buffer containing the multi-sz to be appended. DataSize - Size of the data. Return Value: Standard NT status value. --*/ { NTSTATUS status; ULONG size; ANSI_STRING ansiString; UNICODE_STRING unicodeString; PKEY_VALUE_FULL_INFORMATION valueInfo; PVOID buffer; PVOID str; ASSERT(DataSize && *DataSize); ASSERT(*Data); RtlInitAnsiString(&ansiString, ValueName); status = RtlAnsiStringToUnicodeString(&unicodeString, &ansiString, TRUE); if (NT_SUCCESS(status)) { size = 0; status = NtQueryValueKey( Key, &unicodeString, KeyValueFullInformation, NULL, 0, &size); if (size) { buffer = ExAllocatePoolWithTag(PagedPool, size, CM_GENINST_TAG); if (buffer) { status = NtQueryValueKey( Key, &unicodeString, KeyValueFullInformation, buffer, size, &size); if (NT_SUCCESS(status)) { valueInfo = (PKEY_VALUE_FULL_INFORMATION)buffer; str = ExAllocatePoolWithTag( PagedPool, valueInfo->DataLength + *DataSize - sizeof(UNICODE_NULL), CM_GENINST_TAG); if (str) { memcpy( str, (PCHAR)buffer + valueInfo->DataOffset, valueInfo->DataLength); memcpy( (PCHAR)str + valueInfo->DataLength - sizeof(UNICODE_NULL), *Data, *DataSize); ExFreePool(*Data); *Data = str; *DataSize += valueInfo->DataLength - sizeof(UNICODE_NULL); } else { #ifndef _CM_LDR_ DbgPrintEx(DPFLTR_CONFIG_ID,DPFLTR_ERROR_LEVEL,"CmpAppendStringToMultiSz: Failed to allocate memory!\n"); #endif //_CM_LDR_ ASSERT(str); status = STATUS_NO_MEMORY; } } ExFreePool(buffer); } else { #ifndef _CM_LDR_ DbgPrintEx(DPFLTR_CONFIG_ID,DPFLTR_ERROR_LEVEL,"CmpAppendStringToMultiSz: Failed to allocate memory!\n"); #endif //_CM_LDR_ ASSERT(buffer); status = STATUS_NO_MEMORY; } } RtlFreeUnicodeString(&unicodeString); } return (status); }