/*++ Copyright (c) 1991 Microsoft Corporation Module Name: registry.c Abstract: (This file has been copied from the temporary hack that BryanWi and ScottBi did in kernel mode. I saw no need to have it be in kernel mode and it had many bugs caused as a result of being in kernel mode, so I made it caller mode. Jim Kelly). This module represents a quick and dirty Nt level registry. Each key in the Registry is implemented as a file directory within a directory tree whose root is the directory "\Registry" on the system disk. A key's data is stored within a file called "Data.Reg" in the key's directory, and a key's attributes is stored as the file "Attr.Reg" within the directory. Author: Bryan M. Willman (bryanwi) 30-Apr-1991 Scott Birrell (ScottBi) 6-Jun-1991 Environment: callable from Kernel or user mode. Revision History: --*/ #include "ntrtlp.h" #if defined(ALLOC_PRAGMA) && defined(NTOS_KERNEL_RUNTIME) #pragma alloc_text(PAGE,RtlpNtOpenKey) #pragma alloc_text(PAGE,RtlpNtCreateKey) #pragma alloc_text(PAGE,RtlpNtQueryValueKey) #pragma alloc_text(PAGE,RtlpNtSetValueKey) #pragma alloc_text(PAGE,RtlpNtMakeTemporaryKey) #pragma alloc_text(PAGE,RtlpNtEnumerateSubKey) #endif #define REG_INVALID_ATTRIBUTES (OBJ_EXCLUSIVE | OBJ_PERMANENT) // // Temporary Registry User APIs. // // NOTE: These are temporary implementations. Although there is no code // within that requires these API to be implemented as system services, the // eventual replacements for these routines will use the Object Manager and // hence require to be system services. // NTSTATUS RtlpNtOpenKey( OUT PHANDLE KeyHandle, IN ACCESS_MASK DesiredAccess, IN POBJECT_ATTRIBUTES ObjectAttributes, IN ULONG Options ) /*++ Routine Description: This function opens a key in the Registry. The key must already exist. Arguments: KeyHandle - Receives a value called a Handle which is used to access the specified key in the Registration Database. DesiredAccess - Specifies the Accesses desired REG_KEY_READ - Generic Read access to key REG_KEY_QUERY_VALUE - Query Key's value REG_KEY_WRITE - Generic Write access to key REG_KEY_SET_VALUE - Set Key's value ObjectAttributes - Specifies the attributes of the key being opened. Note that a key name must be specified. If a Root Directory is specified, the name is relative to the root. The name of the object must be within the name space allocated to the Registry, that is, all names beginning "\Registry". RootHandle, if present, must be a handle to "\", or "\Registry", or a key under "\Registry". Options - REG_OPTION_READ_FUZZY - Allow Read access on handle even if it is open for Read/Write access. Return Value: NTSTATUS - Result code from call. The following are returned STATUS_SUCCESS - The open was successful. STATUS_INVALID_PARAMETER - A parameter other that object name was invalid. STATUS_OBJECT_NAME_INVALID - The key name has invalid syntax STATUS_OBJECT_NAME_NOT_FOUND - No key of the given name exists STATUS_ACCESS_DENIED - Caller does not have the requested access to the specified key. --*/ { RTL_PAGED_CODE(); if (ARGUMENT_PRESENT(ObjectAttributes)) { ObjectAttributes->Attributes &= ~(REG_INVALID_ATTRIBUTES); } return( NtOpenKey( KeyHandle, DesiredAccess, ObjectAttributes ) ); DBG_UNREFERENCED_PARAMETER( Options ); } NTSTATUS RtlpNtCreateKey( OUT PHANDLE KeyHandle, IN ACCESS_MASK DesiredAccess, IN POBJECT_ATTRIBUTES ObjectAttributes, IN ULONG Options, IN PUNICODE_STRING Provider, OUT OPTIONAL PULONG Disposition ) /*++ Routine Description: This function creates or opens the specified key in the Registry. If the key does not exist, it is created. If the key already exists, it is opened. Arguments: KeyHandle - Receives a value called a Handle which is used to access the specified key in the Registration Database. DesiredAccess - Specifies the Accesses desired REG_KEY_READ - Generic Read access to key REG_KEY_QUERY_VALUE - Query Key's value REG_KEY_WRITE - Generic Write access to key REG_KEY_SET_VALUE - Set Key's value ObjectAttributes - Specifies the attributes of the key being opened. Note that a key name must be specified. If a Root Directory is specified, the name is relative to the root. The name of the object must be within the name space allocated to the Registry, that is, all names beginning "\Registry". RootHandle, if present, must be a handle to "\", or "\Registry", or a key under "\Registry". Options - REG_OPTION_READ_FUZZY - Allow Read access on handle even if it is open for READ_WRITE access. REG_OPTION_VOLATILE - Object is not to be stored across boots. Provider - This parameter is reserved for future use and must currently be set to NULL. It will be used in the future to specify the name of the provider to be used for operations on this node and its descendant nodes. Disposition - This optional parameter is a pointer to a variable that will receive a value indicating whether a new Registry key was created or an existing one opened. REG_CREATED_NEW_KEY - A new Registry Key was created REG_OPENED_EXISTING_KEY - An existing Registry Key was opened Return Value: NTSTATUS - Result code from call. The following are returned STATUS_SUCCESS - The open was successful. STATUS_INVALID_PARAMETER - A parameter other that object name was --*/ { RTL_PAGED_CODE(); if (ARGUMENT_PRESENT(ObjectAttributes)) { ObjectAttributes->Attributes &= ~(REG_INVALID_ATTRIBUTES); } return(NtCreateKey( KeyHandle, DesiredAccess, ObjectAttributes, 0, //TitleIndex NULL, //Class OPTIONAL, REG_OPTION_NON_VOLATILE, //CreateOptions, Disposition ) ); DBG_UNREFERENCED_PARAMETER( Options ); DBG_UNREFERENCED_PARAMETER( Provider ); } NTSTATUS RtlpNtQueryValueKey( IN HANDLE KeyHandle, OUT OPTIONAL PULONG KeyValueType, OUT OPTIONAL PVOID KeyValue, IN OUT OPTIONAL PULONG KeyValueLength, OUT OPTIONAL PLARGE_INTEGER LastWriteTime ) /*++ Routine Description: This function queries the value of a key. Arguments: KeyHandle - Handle of a key opened for GENERIC_READ access via NtOpenKey. KeyValueType - Optional pointer to variable that will receive the client-defined type of the key value (if any). If no value has been set for the key, 0 is returned. KeyValue - Optional pointer to buffer in which part or all of the key's value (as set on the most recent call to NtSetValueKey) will be returned. If the key's value is too large to fit into the supplied buffer, as much of the value as will fit into the buffer will be returned and the warning STATUS_BUFFER_OVERFLOW is returned. If no value has ever been set, nothing is returned. If NULL is specified for this parameter, no Key Value is returned. KeyValueLength - On input, this optional parameter points to a variable that contains the length in bytes of the KeyValue buffer (if any). If no KeyValue buffer is specified, the variable content on entry is ignored. On return, the referenced variable (if any) receives the FULL length in bytes of the key value. If the key's value is too large to fit into the supplied buffer, as much of the value as will fit into the buffer will be returned and the warning STATUS_BUFFER_OVERFLOW is returned. The returned length is intended for use by calling code in allocating a buffer of sufficient size to hold the key's value. After receiving STATUS_BUFFER_OVERFLOW from NtQueryValueKey, calling code may make a subsequent call to NtQueryValueKey with a buffer of size equal to the length returned by the prior call. If no value has been set for the key, 0 is returned. LastWriteTime - Optional parameter to variable which receives a time stamp specifying the last time that the key was written. Return Value: NTSTATUS - Result code STATUS_SUCCESS - Call was successful STATUS_INVALID_PARAMETER - Invalid parameter STATUS_ACCESS_DENIED - Caller does not have GENERIC_READ access to the specified key STATUS_BUFFER_OVERFLOW - This is a warning that the key's value is too large for the buffer specified by the KeyValue and KeyValueLength parameters. Use the length returned to determine the size of buffer to allocate for a subsequent call of NtQueryValueKey. --*/ { NTSTATUS Status; PKEY_VALUE_FULL_INFORMATION KeyValueInformation = NULL; ULONG LocalBufferLength, ResultLength, InputKeyValueLength; UNICODE_STRING NullName; RTL_PAGED_CODE(); InputKeyValueLength = 0; if (ARGUMENT_PRESENT(KeyValueLength)) { InputKeyValueLength = (*KeyValueLength); } NullName.Length = 0; LocalBufferLength = InputKeyValueLength + FIELD_OFFSET( KEY_VALUE_FULL_INFORMATION, Name ); KeyValueInformation = RtlAllocateHeap( RtlProcessHeap(), 0, LocalBufferLength ); if (KeyValueInformation == NULL) { return(STATUS_INSUFFICIENT_RESOURCES); } Status = NtQueryValueKey( KeyHandle, &NullName, //ValueName, KeyValueFullInformation, //KeyValueInformationClass (PVOID)KeyValueInformation, LocalBufferLength, &ResultLength ); // // // // // Temporary hack to allow query of header information without // // having to retrieve the entire key value. // // // // if (Status == STATUS_BUFFER_OVERFLOW) { // // // // // until BryanWi changes things so that the header information // // is always returned, allocate a buffer large enough to get // // all this stuff and query the value again. // // // // NTSTATUS TmpStatus; // PKEY_VALUE_FULL_INFORMATION TmpValue; // // TmpValue = RtlAllocateHeap( RtlProcessHeap(), 0, ResultLength); // ASSERT(TmpValue != NULL); // // TmpStatus = NtQueryValueKey( KeyHandle, // &NullName, //ValueName, // KeyValueFullInformation, //KeyValueInformationClass // (PVOID)TmpValue, // ResultLength, // &ResultLength // ); // ASSERT(NT_SUCCESS(TmpStatus)); // // // KeyValueInformation->DataLength = TmpValue->DataLength; // KeyValueInformation->Type = TmpValue->Type; // // // RtlFreeHeap( RtlProcessHeap(), 0, TmpValue ); // // } // // Temporary hack to allow query of "" attribute when it hasn't // yet been set. // if (Status == STATUS_OBJECT_NAME_NOT_FOUND) { Status = STATUS_SUCCESS; KeyValueInformation->DataLength = 0; KeyValueInformation->Type = 0; } // // Return out parameter information // if (NT_SUCCESS(Status) || Status == STATUS_BUFFER_OVERFLOW) { if (ARGUMENT_PRESENT(KeyValueLength)) { (*KeyValueLength) = KeyValueInformation->DataLength; } if (ARGUMENT_PRESENT(KeyValueType)) { (*KeyValueType) = KeyValueInformation->Type; } } if (NT_SUCCESS(Status)) { if (ARGUMENT_PRESENT(KeyValue)) { RtlMoveMemory( KeyValue, (VOID *)(((PUCHAR)KeyValueInformation) + KeyValueInformation->DataOffset), KeyValueInformation->DataLength ); } } if (KeyValueInformation != NULL) { RtlFreeHeap( RtlProcessHeap(), 0, KeyValueInformation ); } return(Status); DBG_UNREFERENCED_PARAMETER( LastWriteTime ); } NTSTATUS RtlpNtSetValueKey( IN HANDLE KeyHandle, IN ULONG KeyValueType, IN OPTIONAL PVOID KeyValue, IN ULONG KeyValueLength ) /*++ Routine Description: This function sets the type and value of a key. Arguments: KeyHandle - Specifies a handle of the key whose type and value are to be set. The key must have been opened with GENERIC_WRITE access. KeyValueType - This is a value that the client of the registry defines to distinguish different client-defined types of data value stored with the key. When setting the value of a key that has previously had a Type and Value stored, the Type may be changed. KeyValue - Optional pointer to the data to be optionally stored as the value of the key. If NULL is specified for this parameter, only the value type will be written. KeyValueLength - Specifies the length in bytes of the data to be stored as the key's value. A zero value indicates that no data is being stored: if zero is specified, the Value parameter will be ignored. Return Value: NTSTATUS - Result code. The following values are returned STATUS_SUCCESS - The call was successful STATUS_INVALID_PARAMETER - Invalid Parameter(s) --*/ { UNICODE_STRING NullName; NullName.Length = 0; RTL_PAGED_CODE(); return( NtSetValueKey( KeyHandle, &NullName, // ValueName 0, // TitleIndex KeyValueType, KeyValue, KeyValueLength ) ); } NTSTATUS RtlpNtMakeTemporaryKey( IN HANDLE KeyHandle ) /*++ Routine Description: This function makes a Registry key temporary. The key will be deleted when the last handle to it is closed. Arguments: KeyHandle - Specifies the handle of the Key. This is also the handle of the key's directory. Return Value: NTSTATUS - Standard Nt Result Code STATUS_INVALID_HANDLE - The specified handle is invalid. STATUS_ACCESS_DENIED - The specified handle does not specify delet access. --*/ { RTL_PAGED_CODE(); return( NtDeleteKey(KeyHandle) ); } NTSTATUS RtlpNtEnumerateSubKey( IN HANDLE KeyHandle, OUT PUNICODE_STRING SubKeyName, IN ULONG Index, OUT PLARGE_INTEGER LastWriteTime ) /*++ Routine Description: This function finds the name of the next sub key of a given key. By making successive calls, all of the sub keys of a key can be determined. Arguments: KeyHandle - Handle of the key whose sub keys are to be enumerated. SubKeyName - Pointer to a Unicode String in which the name of the sub key will be returned. Index - Specifies the (ZERO-based) number of the sub key to be returned. LastWriteTime - Receives the time stamp that specifies when the key was last written. Return Value: NTSTATUS - Result code STATUS_SUCCESS - The call succeeded STATUS_INVALID_PARAMETER - Invalid parameter STATUS_NO_MORE_ENTRIES - There is no key having the specified index STATUS_BUFFER_OVERFLOW - The buffer of the output string was not large enough to hold the next sub-key name. SubKeyName->Length contains the number of bytes required. STATUS_NO_MEMORY - There was not sufficient heap to perform the requested operation. --*/ { NTSTATUS Status; PKEY_BASIC_INFORMATION KeyInformation = NULL; ULONG LocalBufferLength, ResultLength; RTL_PAGED_CODE(); LocalBufferLength = 0; if (SubKeyName->MaximumLength > 0) { LocalBufferLength = SubKeyName->MaximumLength + FIELD_OFFSET(KEY_BASIC_INFORMATION, Name); KeyInformation = RtlAllocateHeap( RtlProcessHeap(), 0, LocalBufferLength ); if (KeyInformation == NULL) { return(STATUS_NO_MEMORY); } } Status = NtEnumerateKey( KeyHandle, Index, KeyBasicInformation, //KeyInformationClass (PVOID)KeyInformation, LocalBufferLength, &ResultLength ); if (NT_SUCCESS(Status)) { if ( SubKeyName->MaximumLength >= KeyInformation->NameLength) { SubKeyName->Length = (USHORT)KeyInformation->NameLength; RtlMoveMemory( SubKeyName->Buffer, &KeyInformation->Name[0], SubKeyName->Length ); } else { Status = STATUS_BUFFER_OVERFLOW; } } // // Return the length required if we failed due to a small buffer // if (Status == STATUS_BUFFER_OVERFLOW) { SubKeyName->Length = (USHORT)(ResultLength - FIELD_OFFSET(KEY_BASIC_INFORMATION, Name)); } // // Free up any memory we allocated // if (KeyInformation != NULL) { RtlFreeHeap( RtlProcessHeap(), 0, KeyInformation ); } return(Status); DBG_UNREFERENCED_PARAMETER( LastWriteTime ); }