////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2009. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // See http://www.boost.org/libs/interprocess for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTERPROCESS_WIN32_SYNC_PRIMITIVES_HPP #define BOOST_INTERPROCESS_WIN32_SYNC_PRIMITIVES_HPP #include #include #include #include #include #include #include #if (defined _MSC_VER) && (_MSC_VER >= 1200) # pragma once # pragma comment( lib, "advapi32.lib" ) # pragma comment( lib, "oleaut32.lib" ) # pragma comment( lib, "Ole32.lib" ) #endif #if (defined BOOST_INTERPROCESS_WINDOWS) # include # include #else # error "This file can only be included in Windows OS" #endif //The structures used in Interprocess with the //same binary interface as windows ones namespace boost { namespace interprocess { namespace winapi { //Some used constants static const unsigned long infinite_time = 0xFFFFFFFF; static const unsigned long error_already_exists = 183L; static const unsigned long error_sharing_violation = 32L; static const unsigned long error_file_not_found = 2u; static const unsigned long error_no_more_files = 18u; //Retries in CreateFile, see http://support.microsoft.com/kb/316609 static const unsigned int error_sharing_violation_tries = 3u; static const unsigned int error_sharing_violation_sleep_ms = 250u; static const unsigned long semaphore_all_access = (0x000F0000L)|(0x00100000L)|0x3; static const unsigned long mutex_all_access = (0x000F0000L)|(0x00100000L)|0x0001; static const unsigned long page_readonly = 0x02; static const unsigned long page_readwrite = 0x04; static const unsigned long page_writecopy = 0x08; static const unsigned long standard_rights_required = 0x000F0000L; static const unsigned long section_query = 0x0001; static const unsigned long section_map_write = 0x0002; static const unsigned long section_map_read = 0x0004; static const unsigned long section_map_execute = 0x0008; static const unsigned long section_extend_size = 0x0010; static const unsigned long section_all_access = standard_rights_required | section_query | section_map_write | section_map_read | section_map_execute | section_extend_size; static const unsigned long file_map_copy = section_query; static const unsigned long file_map_write = section_map_write; static const unsigned long file_map_read = section_map_read; static const unsigned long file_map_all_access = section_all_access; static const unsigned long delete_access = 0x00010000L; static const unsigned long file_flag_backup_semantics = 0x02000000; static const long file_flag_delete_on_close = 0x04000000; //Native API constants static const unsigned long file_open_for_backup_intent = 0x00004000; static const int file_share_valid_flags = 0x00000007; static const long file_delete_on_close = 0x00001000L; static const long obj_case_insensitive = 0x00000040L; static const unsigned long movefile_copy_allowed = 0x02; static const unsigned long movefile_delay_until_reboot = 0x04; static const unsigned long movefile_replace_existing = 0x01; static const unsigned long movefile_write_through = 0x08; static const unsigned long movefile_create_hardlink = 0x10; static const unsigned long movefile_fail_if_not_trackable = 0x20; static const unsigned long file_share_read = 0x00000001; static const unsigned long file_share_write = 0x00000002; static const unsigned long file_share_delete = 0x00000004; static const unsigned long file_attribute_readonly = 0x00000001; static const unsigned long file_attribute_hidden = 0x00000002; static const unsigned long file_attribute_system = 0x00000004; static const unsigned long file_attribute_directory = 0x00000010; static const unsigned long file_attribute_archive = 0x00000020; static const unsigned long file_attribute_device = 0x00000040; static const unsigned long file_attribute_normal = 0x00000080; static const unsigned long file_attribute_temporary = 0x00000100; static const unsigned long generic_read = 0x80000000L; static const unsigned long generic_write = 0x40000000L; static const unsigned long wait_object_0 = 0; static const unsigned long wait_abandoned = 0x00000080L; static const unsigned long wait_timeout = 258L; static const unsigned long wait_failed = (unsigned long)0xFFFFFFFF; static const unsigned long duplicate_close_source = (unsigned long)0x00000001; static const unsigned long duplicate_same_access = (unsigned long)0x00000002; static const unsigned long format_message_allocate_buffer = (unsigned long)0x00000100; static const unsigned long format_message_ignore_inserts = (unsigned long)0x00000200; static const unsigned long format_message_from_string = (unsigned long)0x00000400; static const unsigned long format_message_from_hmodule = (unsigned long)0x00000800; static const unsigned long format_message_from_system = (unsigned long)0x00001000; static const unsigned long format_message_argument_array = (unsigned long)0x00002000; static const unsigned long format_message_max_width_mask = (unsigned long)0x000000FF; static const unsigned long lang_neutral = (unsigned long)0x00; static const unsigned long sublang_default = (unsigned long)0x01; static const unsigned long invalid_file_size = (unsigned long)0xFFFFFFFF; static void * const invalid_handle_value = (void*)(long)(-1); static const unsigned long create_new = 1; static const unsigned long create_always = 2; static const unsigned long open_existing = 3; static const unsigned long open_always = 4; static const unsigned long truncate_existing = 5; static const unsigned long file_begin = 0; static const unsigned long file_current = 1; static const unsigned long file_end = 2; static const unsigned long lockfile_fail_immediately = 1; static const unsigned long lockfile_exclusive_lock = 2; static const unsigned long error_lock_violation = 33; static const unsigned long security_descriptor_revision = 1; //Own defines static const long SystemTimeOfDayInfoLength = 48; static const long BootAndSystemstampLength = 16; static const long BootstampLength = 8; static const unsigned long MaxPath = 260; //Keys static void * const hkey_local_machine = (void*)(unsigned long*)(long)(0x80000002); static unsigned long key_query_value = 0x0001; //COM API const long RPC_C_AUTHN_LEVEL_PKT_IG = 4; const long RPC_C_IMP_LEVEL_IMPERSONATE_IG = 3; const long EOAC_NONE_IG = 0; const long CLSCTX_INPROC_SERVER_IG = 0x1; const long CLSCTX_LOCAL_SERVER_IG = 0x4; const long WBEM_FLAG_RETURN_IMMEDIATELY_IG = 0x10; const long WBEM_INFINITE_IG = 0xffffffff; } //namespace winapi { } //namespace interprocess { } //namespace boost { namespace boost { namespace interprocess { namespace winapi { struct GUID_IG { unsigned long Data1; unsigned short Data2; unsigned short Data3; unsigned char Data4[8]; }; const GUID_IG CLSID_WbemAdministrativeLocator = { 0xcb8555cc, 0x9128, 0x11d1, {0xad, 0x9b, 0x00, 0xc0, 0x4f, 0xd8, 0xfd, 0xff}}; const GUID_IG IID_IUnknown = { 0x00000000, 0x0000, 0x0000, {0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46}}; struct wchar_variant { unsigned long long dummy; union value_t{ wchar_t *pbstrVal; unsigned long long dummy; } value; }; struct IUnknown_IG { public: virtual long __stdcall QueryInterface( /* [in] */ const GUID_IG &riid, /* [iid_is][out] */ void **ppvObject) = 0; virtual unsigned long __stdcall AddRef( void) = 0; virtual unsigned long __stdcall Release( void) = 0; }; struct IWbemClassObject_IG : public IUnknown_IG { public: virtual long __stdcall GetQualifierSet( /* [out] */ void **ppQualSet) = 0; virtual long __stdcall Get( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags, /* [unique][in][out] */ wchar_variant *pVal, /* [unique][in][out] */ long *pType, /* [unique][in][out] */ long *plFlavor) = 0; virtual long __stdcall Put( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags, /* [in] */ wchar_variant *pVal, /* [in] */ long Type) = 0; virtual long __stdcall Delete( /* [string][in] */ const wchar_t * wszName) = 0; virtual long __stdcall GetNames( /* [string][in] */ const wchar_t * wszQualifierName, /* [in] */ long lFlags, /* [in] */ wchar_variant *pQualifierVal, /* [out] */ void * *pNames) = 0; virtual long __stdcall BeginEnumeration( /* [in] */ long lEnumFlags) = 0; virtual long __stdcall Next( /* [in] */ long lFlags, /* [unique][in][out] */ wchar_t * *strName, /* [unique][in][out] */ wchar_variant *pVal, /* [unique][in][out] */ long *pType, /* [unique][in][out] */ long *plFlavor) = 0; virtual long __stdcall EndEnumeration( void) = 0; virtual long __stdcall GetPropertyQualifierSet( /* [string][in] */ const wchar_t * wszProperty, /* [out] */ void **ppQualSet) = 0; virtual long __stdcall Clone( /* [out] */ IWbemClassObject_IG **ppCopy) = 0; virtual long __stdcall GetObjectText( /* [in] */ long lFlags, /* [out] */ wchar_t * *pstrObjectText) = 0; virtual long __stdcall SpawnDerivedClass( /* [in] */ long lFlags, /* [out] */ IWbemClassObject_IG **ppNewClass) = 0; virtual long __stdcall SpawnInstance( /* [in] */ long lFlags, /* [out] */ IWbemClassObject_IG **ppNewInstance) = 0; virtual long __stdcall CompareTo( /* [in] */ long lFlags, /* [in] */ IWbemClassObject_IG *pCompareTo) = 0; virtual long __stdcall GetPropertyOrigin( /* [string][in] */ const wchar_t * wszName, /* [out] */ wchar_t * *pstrClassName) = 0; virtual long __stdcall InheritsFrom( /* [in] */ const wchar_t * strAncestor) = 0; virtual long __stdcall GetMethod( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags, /* [out] */ IWbemClassObject_IG **ppInSignature, /* [out] */ IWbemClassObject_IG **ppOutSignature) = 0; virtual long __stdcall PutMethod( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags, /* [in] */ IWbemClassObject_IG *pInSignature, /* [in] */ IWbemClassObject_IG *pOutSignature) = 0; virtual long __stdcall DeleteMethod( /* [string][in] */ const wchar_t * wszName) = 0; virtual long __stdcall BeginMethodEnumeration( /* [in] */ long lEnumFlags) = 0; virtual long __stdcall NextMethod( /* [in] */ long lFlags, /* [unique][in][out] */ wchar_t * *pstrName, /* [unique][in][out] */ IWbemClassObject_IG **ppInSignature, /* [unique][in][out] */ IWbemClassObject_IG **ppOutSignature) = 0; virtual long __stdcall EndMethodEnumeration( void) = 0; virtual long __stdcall GetMethodQualifierSet( /* [string][in] */ const wchar_t * wszMethod, /* [out] */ void **ppQualSet) = 0; virtual long __stdcall GetMethodOrigin( /* [string][in] */ const wchar_t * wszMethodName, /* [out] */ wchar_t * *pstrClassName) = 0; }; struct IWbemContext_IG : public IUnknown_IG { public: virtual long __stdcall Clone( /* [out] */ IWbemContext_IG **ppNewCopy) = 0; virtual long __stdcall GetNames( /* [in] */ long lFlags, /* [out] */ void * *pNames) = 0; virtual long __stdcall BeginEnumeration( /* [in] */ long lFlags) = 0; virtual long __stdcall Next( /* [in] */ long lFlags, /* [out] */ wchar_t * *pstrName, /* [out] */ wchar_variant *pValue) = 0; virtual long __stdcall EndEnumeration( void) = 0; virtual long __stdcall SetValue( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags, /* [in] */ wchar_variant *pValue) = 0; virtual long __stdcall GetValue( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags, /* [out] */ wchar_variant *pValue) = 0; virtual long __stdcall DeleteValue( /* [string][in] */ const wchar_t * wszName, /* [in] */ long lFlags) = 0; virtual long __stdcall DeleteAll( void) = 0; }; struct IEnumWbemClassObject_IG : public IUnknown_IG { public: virtual long __stdcall Reset( void) = 0; virtual long __stdcall Next( /* [in] */ long lTimeout, /* [in] */ unsigned long uCount, /* [length_is][size_is][out] */ IWbemClassObject_IG **apObjects, /* [out] */ unsigned long *puReturned) = 0; virtual long __stdcall NextAsync( /* [in] */ unsigned long uCount, /* [in] */ void *pSink) = 0; virtual long __stdcall Clone( /* [out] */ void **ppEnum) = 0; virtual long __stdcall Skip( /* [in] */ long lTimeout, /* [in] */ unsigned long nCount) = 0; }; struct IWbemServices_IG : public IUnknown_IG { public: virtual long __stdcall OpenNamespace( /* [in] */ const wchar_t * strNamespace, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [unique][in][out] */ void **ppWorkingNamespace, /* [unique][in][out] */ void **ppResult) = 0; virtual long __stdcall CancelAsyncCall( /* [in] */ void *pSink) = 0; virtual long __stdcall QueryObjectSink( /* [in] */ long lFlags, /* [out] */ void **ppResponseHandler) = 0; virtual long __stdcall GetObject( /* [in] */ const wchar_t * strObjectPath, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [unique][in][out] */ void **ppObject, /* [unique][in][out] */ void **ppCallResult) = 0; virtual long __stdcall GetObjectAsync( /* [in] */ const wchar_t * strObjectPath, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall PutClass( /* [in] */ IWbemClassObject_IG *pObject, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [unique][in][out] */ void **ppCallResult) = 0; virtual long __stdcall PutClassAsync( /* [in] */ IWbemClassObject_IG *pObject, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall DeleteClass( /* [in] */ const wchar_t * strClass, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [unique][in][out] */ void **ppCallResult) = 0; virtual long __stdcall DeleteClassAsync( /* [in] */ const wchar_t * strClass, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall CreateClassEnum( /* [in] */ const wchar_t * strSuperclass, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [out] */ void **ppEnum) = 0; virtual long __stdcall CreateClassEnumAsync( /* [in] */ const wchar_t * strSuperclass, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall PutInstance( /* [in] */ void *pInst, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [unique][in][out] */ void **ppCallResult) = 0; virtual long __stdcall PutInstanceAsync( /* [in] */ void *pInst, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall DeleteInstance( /* [in] */ const wchar_t * strObjectPath, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [unique][in][out] */ void **ppCallResult) = 0; virtual long __stdcall DeleteInstanceAsync( /* [in] */ const wchar_t * strObjectPath, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall CreateInstanceEnum( /* [in] */ const wchar_t * strFilter, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [out] */ void **ppEnum) = 0; virtual long __stdcall CreateInstanceEnumAsync( /* [in] */ const wchar_t * strFilter, /* [in] */ long lFlags, /* [in] */ void *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall ExecQuery( /* [in] */ const wchar_t * strQueryLanguage, /* [in] */ const wchar_t * strQuery, /* [in] */ long lFlags, /* [in] */ IWbemContext_IG *pCtx, /* [out] */ IEnumWbemClassObject_IG **ppEnum) = 0; virtual long __stdcall ExecQueryAsync( /* [in] */ const wchar_t * strQueryLanguage, /* [in] */ const wchar_t * strQuery, /* [in] */ long lFlags, /* [in] */ IWbemContext_IG *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall ExecNotificationQuery( /* [in] */ const wchar_t * strQueryLanguage, /* [in] */ const wchar_t * strQuery, /* [in] */ long lFlags, /* [in] */ IWbemContext_IG *pCtx, /* [out] */ void **ppEnum) = 0; virtual long __stdcall ExecNotificationQueryAsync( /* [in] */ const wchar_t * strQueryLanguage, /* [in] */ const wchar_t * strQuery, /* [in] */ long lFlags, /* [in] */ IWbemContext_IG *pCtx, /* [in] */ void *pResponseHandler) = 0; virtual long __stdcall ExecMethod( /* [in] */ const wchar_t * strObjectPath, /* [in] */ const wchar_t * strMethodName, /* [in] */ long lFlags, /* [in] */ IWbemContext_IG *pCtx, /* [in] */ IWbemClassObject_IG *pInParams, /* [unique][in][out] */ IWbemClassObject_IG **ppOutParams, /* [unique][in][out] */ void **ppCallResult) = 0; virtual long __stdcall ExecMethodAsync( /* [in] */ const wchar_t * strObjectPath, /* [in] */ const wchar_t * strMethodName, /* [in] */ long lFlags, /* [in] */ IWbemContext_IG *pCtx, /* [in] */ IWbemClassObject_IG *pInParams, /* [in] */ void *pResponseHandler) = 0; }; struct IWbemLocator_IG : public IUnknown_IG { public: virtual long __stdcall ConnectServer( /* [in] */ const wchar_t * strNetworkResource, /* [in] */ const wchar_t * strUser, /* [in] */ const wchar_t * strPassword, /* [in] */ const wchar_t * strLocale, /* [in] */ long lSecurityFlags, /* [in] */ const wchar_t * strAuthority, /* [in] */ void *pCtx, /* [out] */ IWbemServices_IG **ppNamespace) = 0; }; struct interprocess_overlapped { unsigned long *internal; unsigned long *internal_high; union { struct { unsigned long offset; unsigned long offset_high; }dummy; void *pointer; }; void *h_event; }; struct interprocess_filetime { unsigned long dwLowDateTime; unsigned long dwHighDateTime; }; struct win32_find_data_t { unsigned long dwFileAttributes; interprocess_filetime ftCreationTime; interprocess_filetime ftLastAccessTime; interprocess_filetime ftLastWriteTime; unsigned long nFileSizeHigh; unsigned long nFileSizeLow; unsigned long dwReserved0; unsigned long dwReserved1; char cFileName[MaxPath]; char cAlternateFileName[14]; }; struct interprocess_security_attributes { unsigned long nLength; void *lpSecurityDescriptor; int bInheritHandle; }; struct system_info { union { unsigned long dwOemId; // Obsolete field...do not use struct { unsigned short wProcessorArchitecture; unsigned short wReserved; } dummy; }; unsigned long dwPageSize; void * lpMinimumApplicationAddress; void * lpMaximumApplicationAddress; unsigned long * dwActiveProcessorMask; unsigned long dwNumberOfProcessors; unsigned long dwProcessorType; unsigned long dwAllocationGranularity; unsigned short wProcessorLevel; unsigned short wProcessorRevision; }; struct interprocess_memory_basic_information { void * BaseAddress; void * AllocationBase; unsigned long AllocationProtect; unsigned long RegionSize; unsigned long State; unsigned long Protect; unsigned long Type; }; typedef struct _interprocess_acl { unsigned char AclRevision; unsigned char Sbz1; unsigned short AclSize; unsigned short AceCount; unsigned short Sbz2; } interprocess_acl; typedef struct _interprocess_security_descriptor { unsigned char Revision; unsigned char Sbz1; unsigned short Control; void *Owner; void *Group; interprocess_acl *Sacl; interprocess_acl *Dacl; } interprocess_security_descriptor; enum file_information_class_t { file_directory_information = 1, file_full_directory_information, file_both_directory_information, file_basic_information, file_standard_information, file_internal_information, file_ea_information, file_access_information, file_name_information, file_rename_information, file_link_information, file_names_information, file_disposition_information, file_position_information, file_full_ea_information, file_mode_information, file_alignment_information, file_all_information, file_allocation_information, file_end_of_file_information, file_alternate_name_information, file_stream_information, file_pipe_information, file_pipe_local_information, file_pipe_remote_information, file_mailslot_query_information, file_mailslot_set_information, file_compression_information, file_copy_on_write_information, file_completion_information, file_move_cluster_information, file_quota_information, file_reparse_point_information, file_network_open_information, file_object_id_information, file_tracking_information, file_ole_directory_information, file_content_index_information, file_inherit_content_index_information, file_ole_information, file_maximum_information }; struct file_name_information_t { unsigned long FileNameLength; wchar_t FileName[1]; }; struct file_rename_information_t { int Replace; void *RootDir; unsigned long FileNameLength; wchar_t FileName[1]; }; struct unicode_string_t { unsigned short Length; unsigned short MaximumLength; wchar_t *Buffer; }; struct object_attributes_t { unsigned long Length; void * RootDirectory; unicode_string_t *ObjectName; unsigned long Attributes; void *SecurityDescriptor; void *SecurityQualityOfService; }; struct io_status_block_t { union { long Status; void *Pointer; }; unsigned long *Information; }; union system_timeofday_information { struct data_t { __int64 liKeBootTime; __int64 liKeSystemTime; __int64 liExpTimeZoneBias; unsigned long uCurrentTimeZoneId; unsigned long dwReserved; } data; unsigned char Reserved1[SystemTimeOfDayInfoLength]; }; struct interprocess_by_handle_file_information { unsigned long dwFileAttributes; interprocess_filetime ftCreationTime; interprocess_filetime ftLastAccessTime; interprocess_filetime ftLastWriteTime; unsigned long dwVolumeSerialNumber; unsigned long nFileSizeHigh; unsigned long nFileSizeLow; unsigned long nNumberOfLinks; unsigned long nFileIndexHigh; unsigned long nFileIndexLow; }; enum system_information_class { system_basic_information = 0, system_performance_information = 2, system_time_of_day_information = 3, system_process_information = 5, system_processor_performance_information = 8, system_interrupt_information = 23, system_exception_information = 33, system_registry_quota_information = 37, system_lookaside_information = 45 }; enum object_information_class { object_basic_information, object_name_information, object_type_information, object_all_information, object_data_information }; struct object_name_information_t { unicode_string_t Name; wchar_t NameBuffer[1]; }; //Some windows API declarations extern "C" __declspec(dllimport) unsigned long __stdcall GetCurrentProcessId(); extern "C" __declspec(dllimport) unsigned long __stdcall GetCurrentThreadId(); extern "C" __declspec(dllimport) int __stdcall GetProcessTimes ( void *hProcess, interprocess_filetime* lpCreationTime , interprocess_filetime *lpExitTime,interprocess_filetime *lpKernelTime , interprocess_filetime *lpUserTime ); extern "C" __declspec(dllimport) void __stdcall Sleep(unsigned long); extern "C" __declspec(dllimport) unsigned long __stdcall GetLastError(); extern "C" __declspec(dllimport) void * __stdcall GetCurrentProcess(); extern "C" __declspec(dllimport) int __stdcall CloseHandle(void*); extern "C" __declspec(dllimport) int __stdcall DuplicateHandle ( void *hSourceProcessHandle, void *hSourceHandle , void *hTargetProcessHandle, void **lpTargetHandle , unsigned long dwDesiredAccess, int bInheritHandle , unsigned long dwOptions); extern "C" __declspec(dllimport) void *__stdcall FindFirstFileA(const char *lpFileName, win32_find_data_t *lpFindFileData); extern "C" __declspec(dllimport) int __stdcall FindNextFileA(void *hFindFile, win32_find_data_t *lpFindFileData); extern "C" __declspec(dllimport) int __stdcall FindClose(void *hFindFile); extern "C" __declspec(dllimport) void __stdcall GetSystemTimeAsFileTime(interprocess_filetime*); extern "C" __declspec(dllimport) int __stdcall FileTimeToLocalFileTime(const interprocess_filetime *in, const interprocess_filetime *out); extern "C" __declspec(dllimport) void * __stdcall CreateMutexA(interprocess_security_attributes*, int, const char *); extern "C" __declspec(dllimport) void * __stdcall OpenMutexA(unsigned long, int, const char *); extern "C" __declspec(dllimport) unsigned long __stdcall WaitForSingleObject(void *, unsigned long); extern "C" __declspec(dllimport) int __stdcall ReleaseMutex(void *); extern "C" __declspec(dllimport) int __stdcall UnmapViewOfFile(void *); extern "C" __declspec(dllimport) void * __stdcall CreateSemaphoreA(interprocess_security_attributes*, long, long, const char *); extern "C" __declspec(dllimport) int __stdcall ReleaseSemaphore(void *, long, long *); extern "C" __declspec(dllimport) void * __stdcall OpenSemaphoreA(unsigned long, int, const char *); extern "C" __declspec(dllimport) void * __stdcall CreateFileMappingA (void *, interprocess_security_attributes*, unsigned long, unsigned long, unsigned long, const char *); extern "C" __declspec(dllimport) void * __stdcall MapViewOfFileEx (void *, unsigned long, unsigned long, unsigned long, std::size_t, void*); extern "C" __declspec(dllimport) void * __stdcall OpenFileMappingA (unsigned long, int, const char *); extern "C" __declspec(dllimport) void * __stdcall CreateFileA (const char *, unsigned long, unsigned long, struct interprocess_security_attributes*, unsigned long, unsigned long, void *); extern "C" __declspec(dllimport) int __stdcall DeleteFileA (const char *); extern "C" __declspec(dllimport) int __stdcall MoveFileExA (const char *, const char *, unsigned long); extern "C" __declspec(dllimport) void __stdcall GetSystemInfo (struct system_info *); extern "C" __declspec(dllimport) int __stdcall FlushViewOfFile (void *, std::size_t); extern "C" __declspec(dllimport) int __stdcall FlushFileBuffers (void *); extern "C" __declspec(dllimport) int __stdcall GetFileSizeEx (void *, __int64 *size); extern "C" __declspec(dllimport) unsigned long __stdcall FormatMessageA (unsigned long dwFlags, const void *lpSource, unsigned long dwMessageId, unsigned long dwLanguageId, char *lpBuffer, unsigned long nSize, std::va_list *Arguments); extern "C" __declspec(dllimport) void *__stdcall LocalFree (void *); extern "C" __declspec(dllimport) int __stdcall CreateDirectoryA(const char *, interprocess_security_attributes*); extern "C" __declspec(dllimport) int __stdcall RemoveDirectoryA(const char *lpPathName); extern "C" __declspec(dllimport) int __stdcall GetTempPathA(unsigned long length, char *buffer); extern "C" __declspec(dllimport) int __stdcall CreateDirectory(const char *, interprocess_security_attributes*); extern "C" __declspec(dllimport) int __stdcall SetFileValidData(void *, __int64 size); extern "C" __declspec(dllimport) int __stdcall SetEndOfFile(void *); extern "C" __declspec(dllimport) int __stdcall SetFilePointerEx(void *, __int64 distance, __int64 *new_file_pointer, unsigned long move_method); extern "C" __declspec(dllimport) int __stdcall LockFile (void *hnd, unsigned long offset_low, unsigned long offset_high, unsigned long size_low, unsigned long size_high); extern "C" __declspec(dllimport) int __stdcall UnlockFile(void *hnd, unsigned long offset_low, unsigned long offset_high, unsigned long size_low, unsigned long size_high); extern "C" __declspec(dllimport) int __stdcall LockFileEx(void *hnd, unsigned long flags, unsigned long reserved, unsigned long size_low, unsigned long size_high, interprocess_overlapped* overlapped); extern "C" __declspec(dllimport) int __stdcall UnlockFileEx(void *hnd, unsigned long reserved, unsigned long size_low, unsigned long size_high, interprocess_overlapped* overlapped); extern "C" __declspec(dllimport) int __stdcall WriteFile(void *hnd, const void *buffer, unsigned long bytes_to_write, unsigned long *bytes_written, interprocess_overlapped* overlapped); extern "C" __declspec(dllimport) int __stdcall InitializeSecurityDescriptor(interprocess_security_descriptor *pSecurityDescriptor, unsigned long dwRevision); extern "C" __declspec(dllimport) int __stdcall SetSecurityDescriptorDacl(interprocess_security_descriptor *pSecurityDescriptor, int bDaclPresent, interprocess_acl *pDacl, int bDaclDefaulted); extern "C" __declspec(dllimport) void *__stdcall LoadLibraryA(const char *); extern "C" __declspec(dllimport) int __stdcall FreeLibrary(void *); extern "C" __declspec(dllimport) void *__stdcall GetProcAddress(void *, const char*); extern "C" __declspec(dllimport) void *__stdcall GetModuleHandleA(const char*); extern "C" __declspec(dllimport) void *__stdcall GetFileInformationByHandle(void *, interprocess_by_handle_file_information*); //COM API extern "C" __declspec(dllimport) long __stdcall CoInitialize(void *pvReserved); extern "C" __declspec(dllimport) long __stdcall CoInitializeSecurity( void* pSecDesc, long cAuthSvc, void *asAuthSvc, void *pReserved1, unsigned long dwAuthnLevel, unsigned long dwImpLevel, void *pAuthList, unsigned long dwCapabilities, void *pReserved3 ); extern "C" __declspec(dllimport) long __stdcall VariantClear(wchar_variant * pvarg); extern "C" __declspec(dllimport) long __stdcall CoCreateInstance(const GUID_IG & rclsid, IUnknown_IG *pUnkOuter, unsigned long dwClsContext, const GUID_IG & riid, void** ppv); extern "C" __declspec(dllimport) void __stdcall CoUninitialize(void); //API function typedefs //Pointer to functions typedef long (__stdcall *NtDeleteFile_t)(object_attributes_t *ObjectAttributes); typedef long (__stdcall *NtSetInformationFile_t)(void *FileHandle, io_status_block_t *IoStatusBlock, void *FileInformation, unsigned long Length, int FileInformationClass ); typedef long (__stdcall *NtQueryInformationFile_t)(void *,io_status_block_t *,void *, long, int); typedef long (__stdcall *NtOpenFile_t)(void*,unsigned long ,object_attributes_t*,io_status_block_t*,unsigned long,unsigned long); typedef long (__stdcall *NtClose_t) (void*); typedef long (__stdcall *RtlCreateUnicodeStringFromAsciiz_t)(unicode_string_t *, const char *); typedef void (__stdcall *RtlFreeUnicodeString_t)(unicode_string_t *); typedef void (__stdcall *RtlInitUnicodeString_t)( unicode_string_t *, const wchar_t * ); typedef long (__stdcall *RtlAppendUnicodeToString_t)(unicode_string_t *Destination, const wchar_t *Source); typedef long (__stdcall * NtQuerySystemInformation_t)(int, void*, unsigned long, unsigned long *); typedef long (__stdcall * NtQueryObject_t)(void*, object_information_class, void *, unsigned long, unsigned long *); typedef unsigned long (__stdcall * GetMappedFileName_t)(void *, void *, wchar_t *, unsigned long); typedef unsigned long (__stdcall * GetMappedFileName_t)(void *, void *, wchar_t *, unsigned long); typedef long (__stdcall * RegOpenKey_t)(void *, const char *, void **); typedef long (__stdcall * RegOpenKeyEx_t)(void *, const char *, unsigned long, unsigned long, void **); typedef long (__stdcall * RegQueryValue_t)(void *, const char *, char *, long*); typedef long (__stdcall * RegQueryValueEx_t)(void *, const char *, unsigned long*, unsigned long*, unsigned char *, unsigned long*); typedef long (__stdcall * RegCloseKey_t)(void *); } //namespace winapi { } //namespace interprocess { } //namespace boost { namespace boost { namespace interprocess { namespace winapi { inline unsigned long get_last_error() { return GetLastError(); } inline unsigned long format_message (unsigned long dwFlags, const void *lpSource, unsigned long dwMessageId, unsigned long dwLanguageId, char *lpBuffer, unsigned long nSize, std::va_list *Arguments) { return FormatMessageA (dwFlags, lpSource, dwMessageId, dwLanguageId, lpBuffer, nSize, Arguments); } //And now, wrapper functions inline void * local_free(void *hmem) { return LocalFree(hmem); } inline unsigned long make_lang_id(unsigned long p, unsigned long s) { return ((((unsigned short)(s)) << 10) | (unsigned short)(p)); } inline void sched_yield() { Sleep(1); } inline unsigned long get_current_thread_id() { return GetCurrentThreadId(); } inline bool get_process_times ( void *hProcess, interprocess_filetime* lpCreationTime , interprocess_filetime *lpExitTime, interprocess_filetime *lpKernelTime , interprocess_filetime *lpUserTime ) { return 0 != GetProcessTimes(hProcess, lpCreationTime, lpExitTime, lpKernelTime, lpUserTime); } inline unsigned long get_current_process_id() { return GetCurrentProcessId(); } inline unsigned int close_handle(void* handle) { return CloseHandle(handle); } inline void * find_first_file(const char *lpFileName, win32_find_data_t *lpFindFileData) { return FindFirstFileA(lpFileName, lpFindFileData); } inline bool find_next_file(void *hFindFile, win32_find_data_t *lpFindFileData) { return FindNextFileA(hFindFile, lpFindFileData) != 0; } inline bool find_close(void *handle) { return FindClose(handle) != 0; } inline bool duplicate_current_process_handle (void *hSourceHandle, void **lpTargetHandle) { return 0 != DuplicateHandle ( GetCurrentProcess(), hSourceHandle, GetCurrentProcess() , lpTargetHandle, 0, 0 , duplicate_same_access); } inline void get_system_time_as_file_time(interprocess_filetime *filetime) { GetSystemTimeAsFileTime(filetime); } inline bool file_time_to_local_file_time (const interprocess_filetime *in, const interprocess_filetime *out) { return 0 != FileTimeToLocalFileTime(in, out); } inline void *create_mutex(const char *name) { return CreateMutexA(0, 0, name); } inline void *open_mutex(const char *name) { return OpenMutexA(mutex_all_access, 0, name); } inline unsigned long wait_for_single_object(void *handle, unsigned long time) { return WaitForSingleObject(handle, time); } inline int release_mutex(void *handle) { return ReleaseMutex(handle); } inline int unmap_view_of_file(void *address) { return UnmapViewOfFile(address); } inline void *create_semaphore(long initialCount, const char *name) { return CreateSemaphoreA(0, initialCount, (long)(((unsigned long)(-1))>>1), name); } inline int release_semaphore(void *handle, long release_count, long *prev_count) { return ReleaseSemaphore(handle, release_count, prev_count); } inline void *open_semaphore(const char *name) { return OpenSemaphoreA(semaphore_all_access, 1, name); } class interprocess_all_access_security { interprocess_security_attributes sa; interprocess_security_descriptor sd; bool initialized; public: interprocess_all_access_security() : initialized(false) { if(!InitializeSecurityDescriptor(&sd, security_descriptor_revision)) return; if(!SetSecurityDescriptorDacl(&sd, true, 0, false)) return; sa.lpSecurityDescriptor = &sd; sa.nLength = sizeof(interprocess_security_attributes); sa.bInheritHandle = false; initialized = false; } interprocess_security_attributes *get_attributes() { return &sa; } }; inline void * create_file_mapping (void * handle, unsigned long access, unsigned long high_size, unsigned long low_size, const char * name, interprocess_security_attributes *psec) { return CreateFileMappingA (handle, psec, access, high_size, low_size, name); } inline void * open_file_mapping (unsigned long access, const char *name) { return OpenFileMappingA (access, 0, name); } inline void *map_view_of_file_ex(void *handle, unsigned long file_access, unsigned long highoffset, unsigned long lowoffset, std::size_t numbytes, void *base_addr) { return MapViewOfFileEx(handle, file_access, highoffset, lowoffset, numbytes, base_addr); } inline void *create_file(const char *name, unsigned long access, unsigned long creation_flags, unsigned long attributes, interprocess_security_attributes *psec) { for (unsigned int attempt(0); attempt < error_sharing_violation_tries; ++attempt){ void * const handle = CreateFileA(name, access, file_share_read | file_share_write | file_share_delete, psec, creation_flags, attributes, 0); bool const invalid(invalid_handle_value == handle); if (!invalid){ return handle; } if (error_sharing_violation != get_last_error()){ return handle; } Sleep(error_sharing_violation_sleep_ms); } return invalid_handle_value; } inline bool delete_file(const char *name) { return 0 != DeleteFileA(name); } inline bool move_file_ex(const char *source_filename, const char *destination_filename, unsigned long flags) { return 0 != MoveFileExA(source_filename, destination_filename, flags); } inline void get_system_info(system_info *info) { GetSystemInfo(info); } inline bool flush_view_of_file(void *base_addr, std::size_t numbytes) { return 0 != FlushViewOfFile(base_addr, numbytes); } inline bool flush_file_buffers(void *handle) { return 0 != FlushFileBuffers(handle); } inline bool get_file_size(void *handle, __int64 &size) { return 0 != GetFileSizeEx(handle, &size); } inline bool create_directory(const char *name) { interprocess_all_access_security sec; return 0 != CreateDirectoryA(name, sec.get_attributes()); } inline bool remove_directory(const char *lpPathName) { return 0 != RemoveDirectoryA(lpPathName); } inline unsigned long get_temp_path(unsigned long length, char *buffer) { return GetTempPathA(length, buffer); } inline int set_end_of_file(void *handle) { return 0 != SetEndOfFile(handle); } inline bool set_file_pointer_ex(void *handle, __int64 distance, __int64 *new_file_pointer, unsigned long move_method) { return 0 != SetFilePointerEx(handle, distance, new_file_pointer, move_method); } inline bool lock_file_ex(void *hnd, unsigned long flags, unsigned long reserved, unsigned long size_low, unsigned long size_high, interprocess_overlapped *overlapped) { return 0 != LockFileEx(hnd, flags, reserved, size_low, size_high, overlapped); } inline bool unlock_file_ex(void *hnd, unsigned long reserved, unsigned long size_low, unsigned long size_high, interprocess_overlapped *overlapped) { return 0 != UnlockFileEx(hnd, reserved, size_low, size_high, overlapped); } inline bool write_file(void *hnd, const void *buffer, unsigned long bytes_to_write, unsigned long *bytes_written, interprocess_overlapped* overlapped) { return 0 != WriteFile(hnd, buffer, bytes_to_write, bytes_written, overlapped); } inline bool get_file_information_by_handle(void *hnd, interprocess_by_handle_file_information *info) { return 0 != GetFileInformationByHandle(hnd, info); } inline long interlocked_increment(long volatile *addr) { return BOOST_INTERLOCKED_INCREMENT(addr); } inline long interlocked_decrement(long volatile *addr) { return BOOST_INTERLOCKED_DECREMENT(addr); } inline long interlocked_compare_exchange(long volatile *addr, long val1, long val2) { return BOOST_INTERLOCKED_COMPARE_EXCHANGE(addr, val1, val2); } inline long interlocked_exchange_add(long volatile* addend, long value) { return BOOST_INTERLOCKED_EXCHANGE_ADD(const_cast(addend), value); } inline long interlocked_exchange(long volatile* addend, long value) { return BOOST_INTERLOCKED_EXCHANGE(const_cast(addend), value); } //Forward functions inline void *load_library(const char *name) { return LoadLibraryA(name); } inline bool free_library(void *module) { return 0 != FreeLibrary(module); } inline void *get_proc_address(void *module, const char *name) { return GetProcAddress(module, name); } inline void *get_current_process() { return GetCurrentProcess(); } inline void *get_module_handle(const char *name) { return GetModuleHandleA(name); } inline void initialize_object_attributes ( object_attributes_t *pobject_attr, unicode_string_t *name , unsigned long attr, void *rootdir, void *security_descr) { pobject_attr->Length = sizeof(object_attributes_t); pobject_attr->RootDirectory = rootdir; pobject_attr->Attributes = attr; pobject_attr->ObjectName = name; pobject_attr->SecurityDescriptor = security_descr; pobject_attr->SecurityQualityOfService = 0; } inline void rtl_init_empty_unicode_string(unicode_string_t *ucStr, wchar_t *buf, unsigned short bufSize) { ucStr->Buffer = buf; ucStr->Length = 0; ucStr->MaximumLength = bufSize; } //Complex winapi based functions... struct library_unloader { void *lib_; library_unloader(void *module) : lib_(module){} ~library_unloader(){ free_library(lib_); } }; //pszFilename must have room for at least MaxPath+1 characters inline bool get_file_name_from_handle_function (void * hFile, wchar_t *pszFilename, std::size_t length, std::size_t &out_length) { if(length <= MaxPath){ return false; } void *hiPSAPI = load_library("PSAPI.DLL"); if (0 == hiPSAPI) return 0; library_unloader unloader(hiPSAPI); // Pointer to function getMappedFileName() in PSAPI.DLL GetMappedFileName_t pfGMFN = (GetMappedFileName_t)get_proc_address(hiPSAPI, "GetMappedFileNameW"); if (! pfGMFN){ return 0; // Failed: unexpected error } bool bSuccess = false; // Create a file mapping object. void * hFileMap = create_file_mapping(hFile, page_readonly, 0, 1, 0, 0); if(hFileMap) { // Create a file mapping to get the file name. void* pMem = map_view_of_file_ex(hFileMap, file_map_read, 0, 0, 1, 0); if (pMem){ out_length = pfGMFN(get_current_process(), pMem, pszFilename, MaxPath); if(out_length){ bSuccess = true; } unmap_view_of_file(pMem); } close_handle(hFileMap); } return(bSuccess); } inline bool get_system_time_of_day_information(system_timeofday_information &info) { NtQuerySystemInformation_t pNtQuerySystemInformation = (NtQuerySystemInformation_t) get_proc_address(get_module_handle("ntdll.dll"), "NtQuerySystemInformation"); unsigned long res; long status = pNtQuerySystemInformation(system_time_of_day_information, &info, sizeof(info), &res); if(status){ return false; } return true; } inline bool get_boot_time(unsigned char (&bootstamp) [BootstampLength]) { system_timeofday_information info; bool ret = get_system_time_of_day_information(info); if(!ret){ return false; } std::memcpy(&bootstamp[0], &info.Reserved1, sizeof(bootstamp)); return true; } inline bool get_boot_and_system_time(unsigned char (&bootsystemstamp) [BootAndSystemstampLength]) { system_timeofday_information info; bool ret = get_system_time_of_day_information(info); if(!ret){ return false; } std::memcpy(&bootsystemstamp[0], &info.Reserved1, sizeof(bootsystemstamp)); return true; } inline bool get_boot_time_str(char *bootstamp_str, std::size_t &s) //will write BootstampLength chars { if(s < (BootstampLength*2)) return false; system_timeofday_information info; bool ret = get_system_time_of_day_information(info); if(!ret){ return false; } const char Characters [] = { '0', '1', '2', '3', '4', '5', '6', '7' , '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; std::size_t char_counter = 0; for(std::size_t i = 0; i != static_cast(BootstampLength); ++i){ bootstamp_str[char_counter++] = Characters[(info.Reserved1[i]&0xF0)>>4]; bootstamp_str[char_counter++] = Characters[(info.Reserved1[i]&0x0F)]; } s = BootstampLength*2; return true; } inline bool get_boot_and_system_time_wstr(wchar_t *bootsystemstamp, std::size_t &s) //will write BootAndSystemstampLength chars { if(s < (BootAndSystemstampLength*2)) return false; system_timeofday_information info; bool ret = get_system_time_of_day_information(info); if(!ret){ return false; } const wchar_t Characters [] = { L'0', L'1', L'2', L'3', L'4', L'5', L'6', L'7' , L'8', L'9', L'A', L'B', L'C', L'D', L'E', L'F' }; std::size_t char_counter = 0; for(std::size_t i = 0; i != static_cast(BootAndSystemstampLength); ++i){ bootsystemstamp[char_counter++] = Characters[(info.Reserved1[i]&0xF0)>>4]; bootsystemstamp[char_counter++] = Characters[(info.Reserved1[i]&0x0F)]; } s = BootAndSystemstampLength*2; return true; } class handle_closer { void *handle_; public: handle_closer(void *handle) : handle_(handle){} ~handle_closer(){ close_handle(handle_); } }; union ntquery_mem_t { object_name_information_t name; struct ren_t { file_rename_information_t info; wchar_t buf[32767]; } ren; }; inline bool unlink_file(const char *filename) { try{ NtSetInformationFile_t pNtSetInformationFile = (NtSetInformationFile_t)get_proc_address(get_module_handle("ntdll.dll"), "NtSetInformationFile"); if(!pNtSetInformationFile){ return false; } NtQueryObject_t pNtQueryObject = (NtQueryObject_t)get_proc_address(get_module_handle("ntdll.dll"), "NtQueryObject"); //First step: Obtain a handle to the file using Win32 rules. This resolves relative paths void *fh = create_file(filename, generic_read | delete_access, open_existing, file_flag_backup_semantics | file_flag_delete_on_close, 0); if(fh == invalid_handle_value){ return false; } handle_closer h_closer(fh); std::auto_ptr pmem(new ntquery_mem_t); file_rename_information_t *pfri = (file_rename_information_t*)&pmem->ren.info; const std::size_t RenMaxNumChars = ((char*)pmem.get() - (char*)&pmem->ren.info.FileName[0])/sizeof(wchar_t); //Obtain file name unsigned long size; if(pNtQueryObject(fh, object_name_information, pmem.get(), sizeof(ntquery_mem_t), &size)){ return false; } //Copy filename to the rename member std::memmove(pmem->ren.info.FileName, pmem->name.Name.Buffer, pmem->name.Name.Length); std::size_t filename_string_length = pmem->name.Name.Length/sizeof(wchar_t); //Second step: obtain the complete native-nt filename //if(!get_file_name_from_handle_function(fh, pfri->FileName, RenMaxNumChars, filename_string_length)){ //return 0; //} //Add trailing mark if((RenMaxNumChars-filename_string_length) < (SystemTimeOfDayInfoLength*2)){ return false; } //Search '\\' character to replace it for(std::size_t i = filename_string_length; i != 0; --filename_string_length){ if(pmem->ren.info.FileName[--i] == L'\\') break; } //Add random number std::size_t s = RenMaxNumChars - filename_string_length; if(!get_boot_and_system_time_wstr(&pfri->FileName[filename_string_length], s)){ return false; } filename_string_length += s; //Fill rename information (FileNameLength is in bytes) pfri->FileNameLength = static_cast(sizeof(wchar_t)*(filename_string_length)); pfri->Replace = 1; pfri->RootDir = 0; //Final step: change the name of the in-use file: io_status_block_t io; if(0 != pNtSetInformationFile(fh, &io, pfri, sizeof(ntquery_mem_t::ren_t), file_rename_information)){ return false; } return true; } catch(...){ return false; } } struct reg_closer { RegCloseKey_t func_; void *key_; reg_closer(RegCloseKey_t func, void *key) : func_(func), key_(key){} ~reg_closer(){ (*func_)(key_); } }; inline void get_shared_documents_folder(std::string &s) { s.clear(); void *hAdvapi = load_library("Advapi32.dll"); if (hAdvapi){ library_unloader unloader(hAdvapi); // Pointer to function RegOpenKeyA RegOpenKeyEx_t pRegOpenKey = (RegOpenKeyEx_t)get_proc_address(hAdvapi, "RegOpenKeyExA"); if (pRegOpenKey){ // Pointer to function RegCloseKey RegCloseKey_t pRegCloseKey = (RegCloseKey_t)get_proc_address(hAdvapi, "RegCloseKey"); if (pRegCloseKey){ // Pointer to function RegQueryValueA RegQueryValueEx_t pRegQueryValue = (RegQueryValueEx_t)get_proc_address(hAdvapi, "RegQueryValueExA"); if (pRegQueryValue){ //Open the key void *key; if ((*pRegOpenKey)( hkey_local_machine , "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders" , 0 , key_query_value , &key) == 0){ reg_closer key_closer(pRegCloseKey, key); //Obtain the value unsigned long size; unsigned long type; const char *const reg_value = "Common AppData"; long err = (*pRegQueryValue)( key, reg_value, 0, &type, 0, &size); if(!err){ //Size includes terminating NULL s.resize(size); err = (*pRegQueryValue)( key, reg_value, 0, &type, (unsigned char*)(&s[0]), &size); if(!err) s.erase(s.end()-1); (void)err; } } } } } } } inline void get_registry_value(const char *folder, const char *value_key, std::vector &s) { s.clear(); void *hAdvapi = load_library("Advapi32.dll"); if (hAdvapi){ library_unloader unloader(hAdvapi); // Pointer to function RegOpenKeyA RegOpenKeyEx_t pRegOpenKey = (RegOpenKeyEx_t)get_proc_address(hAdvapi, "RegOpenKeyExA"); if (pRegOpenKey){ // Pointer to function RegCloseKey RegCloseKey_t pRegCloseKey = (RegCloseKey_t)get_proc_address(hAdvapi, "RegCloseKey"); if (pRegCloseKey){ // Pointer to function RegQueryValueA RegQueryValueEx_t pRegQueryValue = (RegQueryValueEx_t)get_proc_address(hAdvapi, "RegQueryValueExA"); if (pRegQueryValue){ //Open the key void *key; if ((*pRegOpenKey)( hkey_local_machine , folder , 0 , key_query_value , &key) == 0){ reg_closer key_closer(pRegCloseKey, key); //Obtain the value unsigned long size; unsigned long type; const char *const reg_value = value_key; long err = (*pRegQueryValue)( key, reg_value, 0, &type, 0, &size); if(!err){ //Size includes terminating NULL s.resize(size); err = (*pRegQueryValue)( key, reg_value, 0, &type, (unsigned char*)(&s[0]), &size); if(!err) s.erase(s.end()-1); (void)err; } } } } } } } inline bool get_wmi_class_attribute( std::wstring& strValue, const wchar_t *wmi_class, const wchar_t *wmi_class_var) { CoInitialize(0); bool bRet = false; if( 0 == CoInitializeSecurity( 0, -1, 0, 0, RPC_C_AUTHN_LEVEL_PKT_IG, RPC_C_IMP_LEVEL_IMPERSONATE_IG, 0, EOAC_NONE_IG, 0 ) ) { IWbemLocator_IG * pIWbemLocator = 0; IWbemServices_IG * pWbemServices = 0; IEnumWbemClassObject_IG * pEnumObject = 0; const wchar_t * bstrNamespace = L"root\\cimv2"; if( 0 != CoCreateInstance( CLSID_WbemAdministrativeLocator, 0, CLSCTX_INPROC_SERVER_IG | CLSCTX_LOCAL_SERVER_IG, IID_IUnknown, ( void ** )&pIWbemLocator ) ) { return false; } if( 0 != pIWbemLocator->ConnectServer( bstrNamespace, // Namespace 0, // Userid 0, // PW 0, // Locale 0, // flags 0, // Authority 0, // Context &pWbemServices ) ) { pIWbemLocator->Release(); return false; } strValue.clear(); strValue += L"Select "; strValue += wmi_class_var; strValue += L" from "; strValue += wmi_class; if ( 0 != pWbemServices->ExecQuery( L"WQL", strValue.c_str(), WBEM_FLAG_RETURN_IMMEDIATELY_IG, 0, &pEnumObject ) ) { pIWbemLocator->Release(); pWbemServices->Release(); return false; } unsigned long uCount = 1, uReturned; IWbemClassObject_IG * pClassObject = 0; if ( 0 != pEnumObject->Reset() ) { pIWbemLocator->Release(); pWbemServices->Release(); pEnumObject->Release(); return false; } wchar_variant vwchar; while( 0 == pEnumObject->Next( WBEM_INFINITE_IG, uCount, &pClassObject, &uReturned ) ) { if ( 0 == pClassObject->Get( L"LastBootUpTime", 0, &vwchar, 0, 0 ) ) { bRet = true; strValue = vwchar.value.pbstrVal; VariantClear(&vwchar ); break; } } pIWbemLocator->Release(); pWbemServices->Release(); pEnumObject->Release(); pClassObject->Release(); } CoUninitialize(); return bRet; } inline bool get_last_bootup_time( std::wstring& strValue ) { bool ret = get_wmi_class_attribute(strValue, L"Win32_OperatingSystem", L"LastBootUpTime"); std::size_t timezone = strValue.find(L'+'); if(timezone != std::wstring::npos){ strValue.erase(timezone); } timezone = strValue.find(L'-'); if(timezone != std::wstring::npos){ strValue.erase(timezone); } return ret; } inline bool get_last_bootup_time( std::string& str ) { std::wstring wstr; bool ret = get_last_bootup_time(wstr); str.resize(wstr.size()); for(std::size_t i = 0, max = str.size(); i != max; ++i){ str[i] = '0' + (wstr[i]-L'0'); } return ret; } } //namespace winapi } //namespace interprocess } //namespace boost #include #endif //#ifdef BOOST_INTERPROCESS_WIN32_SYNC_PRIMITIVES_HPP