boost/interprocess/detail/win32_api.hpp
//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2015. 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_API_HPP
#define BOOST_INTERPROCESS_WIN32_API_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/interprocess/detail/config_begin.hpp>
#include <boost/interprocess/detail/workaround.hpp>
#include <boost/cstdint.hpp>
#include <cstddef>
#include <cstring>
#include <cstdlib>
#include <cstdio>
#include <boost/assert.hpp>
#include <string>
#include <vector>
#ifdef BOOST_USE_WINDOWS_H
#include <windows.h>
#endif
#if defined(_MSC_VER)
# pragma once
# pragma comment( lib, "Advapi32.lib" )
# pragma comment( lib, "oleaut32.lib" )
# pragma comment( lib, "Ole32.lib" )
#endif
#if defined (BOOST_INTERPROCESS_WINDOWS)
# include <cstdarg>
# include <boost/detail/interlocked.hpp>
#else
# error "This file can only be included in Windows OS"
#endif
//////////////////////////////////////////////////////////////////////////////
//
// Declaration of Windows structures or typedefs if BOOST_USE_WINDOWS_H is used
//
//////////////////////////////////////////////////////////////////////////////
#if defined(BOOST_GCC)
//Ignore -pedantic errors here (anonymous structs, etc.)
# if (BOOST_GCC >= 40600)
# pragma GCC diagnostic push
# if (BOOST_GCC >= 40800)
# pragma GCC diagnostic ignored "-Wpedantic"
# else
# pragma GCC diagnostic ignored "-pedantic"
# endif
# pragma GCC diagnostic ignored "-Wnon-virtual-dtor"
# else
# pragma GCC system_header
# endif
//When loading DLLs we have no option but reinterpret casting function types
# if (BOOST_GCC >= 80000)
# pragma GCC diagnostic ignored "-Wcast-function-type"
# endif
#endif
//#define BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED
//#define BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED
#ifdef BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED
# define BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED_VALUE 1
#else
# define BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED_VALUE 0
#endif
#ifdef BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED
# define BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED_VALUE 1
#else
# define BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED_VALUE 0
#endif
#define BOOST_INTERPROCESS_BOOTSTAMP_VALUE_SUM \
(BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED_VALUE + \
BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED_VALUE)
#if 1 < BOOST_INTERPROCESS_BOOTSTAMP_VALUE_SUM
# error "Only one of \
BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED and \
BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED can be defined"
#endif
#if 0 == BOOST_INTERPROCESS_BOOTSTAMP_VALUE_SUM
# define BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED
#endif
namespace boost {
namespace interprocess {
namespace winapi {
//Own defines
static const unsigned long MaxPath = 260;
//////////////////////////////////////////////////////////////////////////////
//
// Nt native structures
//
//////////////////////////////////////////////////////////////////////////////
struct interprocess_semaphore_basic_information
{
unsigned int count; // current semaphore count
unsigned int limit; // max semaphore count
};
struct interprocess_section_basic_information
{
void * base_address;
unsigned long section_attributes;
__int64 section_size;
};
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;
::boost::ulong_long_type ullBootTimeBias;
::boost::ulong_long_type ullSleepTimeBias;
} data;
unsigned char Reserved1[sizeof(data_t)];
};
static const long BootstampLength = sizeof(__int64);
static const long BootAndSystemstampLength = sizeof(__int64)*2;
static const long SystemTimeOfDayInfoLength = sizeof(system_timeofday_information::data_t);
struct object_name_information_t
{
unicode_string_t Name;
wchar_t NameBuffer[1];
};
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
};
enum semaphore_information_class {
semaphore_basic_information = 0
};
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
};
enum section_information_class
{
section_basic_information,
section_image_information
};
} //namespace winapi {
} //namespace interprocess {
} //namespace boost {
//////////////////////////////////////////////////////////////////////////////
//
// Forward declaration of winapi
//
//////////////////////////////////////////////////////////////////////////////
#include <boost/winapi/get_current_process_id.hpp>
#include <boost/winapi/get_current_thread_id.hpp>
#include <boost/winapi/get_current_process.hpp>
#include <boost/winapi/get_process_times.hpp>
#include <boost/winapi/error_codes.hpp>
#include <boost/winapi/thread.hpp>
#include <boost/winapi/system.hpp>
#include <boost/winapi/time.hpp>
#include <boost/winapi/timers.hpp>
#include <boost/winapi/get_last_error.hpp>
#include <boost/winapi/handles.hpp>
#include <boost/winapi/file_management.hpp>
#include <boost/winapi/mutex.hpp>
#include <boost/winapi/wait.hpp>
#include <boost/winapi/file_mapping.hpp>
#include <boost/winapi/semaphore.hpp>
#include <boost/winapi/system.hpp>
#include <boost/winapi/error_handling.hpp>
#include <boost/winapi/local_memory.hpp>
#include <boost/winapi/directory_management.hpp>
#include <boost/winapi/security.hpp>
#include <boost/winapi/dll.hpp>
#include <boost/winapi/basic_types.hpp>
//This should go in winapi's basic_types.hpp
namespace boost {
namespace ipwinapiext {
typedef boost::winapi::LONG_ LSTATUS;
typedef boost::winapi::DWORD_ (__stdcall *LPTHREAD_START_ROUTINE_)
(boost::winapi::LPVOID_ lpThreadParameter);
//#ifndef BOOST_USE_WINDOWS_H
//typedef boost::winapi::LARGE_INTEGER_ LARGE_INTEGER_EXT;
//#else
//typedef LARGE_INTEGER LARGE_INTEGER_EXT;
//#endif
}} //namespace boost::ipwinapiext
#ifndef BOOST_USE_WINDOWS_H
extern "C" {
//Error handling
BOOST_SYMBOL_IMPORT BOOST_WINAPI_DETAIL_VOID BOOST_WINAPI_WINAPI_CC SetLastError(boost::winapi::DWORD_ dwErrCode);
//File management
BOOST_SYMBOL_IMPORT boost::winapi::DWORD_ BOOST_WINAPI_WINAPI_CC GetFileType(boost::winapi::HANDLE_ hTemplateFile);
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC FlushFileBuffers(boost::winapi::HANDLE_ hFile);
//threading
BOOST_SYMBOL_IMPORT boost::winapi::HANDLE_ BOOST_WINAPI_WINAPI_CC CreateThread
( ::_SECURITY_ATTRIBUTES* lpThreadAttributes
, boost::winapi::SIZE_T_ dwStackSize
, boost::ipwinapiext::LPTHREAD_START_ROUTINE_ lpStartAddress
, boost::winapi::LPVOID_ lpParameter
, boost::winapi::DWORD_ dwCreationFlags
, boost::winapi::LPDWORD_ lpThreadId
);
//Virtual Memory
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC VirtualLock(boost::winapi::LPVOID_ lpAddress, boost::winapi::SIZE_T_ dwSize);
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC VirtualUnlock(boost::winapi::LPVOID_ lpAddress, boost::winapi::SIZE_T_ dwSize);
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC VirtualProtect( boost::winapi::LPVOID_ lpAddress, boost::winapi::SIZE_T_ dwSize
, boost::winapi::DWORD_ flNewProtect, boost::winapi::PDWORD_ lpflOldProtect);
//registry.hpp
BOOST_WINAPI_DETAIL_DECLARE_HANDLE(HKEY);
BOOST_SYMBOL_IMPORT boost::ipwinapiext::LSTATUS BOOST_WINAPI_WINAPI_CC RegOpenKeyExA
(::HKEY hKey, const char *lpSubKey, boost::winapi::DWORD_ ulOptions, boost::winapi::DWORD_ samDesired, ::HKEY *phkResult);
BOOST_SYMBOL_IMPORT boost::ipwinapiext::LSTATUS BOOST_WINAPI_WINAPI_CC RegOpenKeyExW
(::HKEY hKey, const wchar_t *lpSubKey, boost::winapi::DWORD_ ulOptions, boost::winapi::DWORD_ samDesired, ::HKEY *phkResult);
BOOST_SYMBOL_IMPORT boost::ipwinapiext::LSTATUS BOOST_WINAPI_WINAPI_CC RegQueryValueExA
(::HKEY hKey, const char *lpValueName, boost::winapi::DWORD_ *lpReserved, boost::winapi::DWORD_ *lpType, boost::winapi::BYTE_ *lpData, boost::winapi::DWORD_ *lpcbData);
BOOST_SYMBOL_IMPORT boost::ipwinapiext::LSTATUS BOOST_WINAPI_WINAPI_CC RegQueryValueExW
(::HKEY hKey, const wchar_t *lpValueName, boost::winapi::DWORD_ *lpReserved, boost::winapi::DWORD_ *lpType, boost::winapi::BYTE_ *lpData, boost::winapi::DWORD_ *lpcbData);
BOOST_SYMBOL_IMPORT boost::ipwinapiext::LSTATUS BOOST_WINAPI_WINAPI_CC RegCloseKey(::HKEY hKey);
//Event Log
BOOST_SYMBOL_IMPORT boost::winapi::HANDLE_ BOOST_WINAPI_WINAPI_CC OpenEventLogA(const char* lpUNCServerName, const char* lpSourceName);
BOOST_SYMBOL_IMPORT boost::winapi::HANDLE_ BOOST_WINAPI_WINAPI_CC OpenEventLogW(const wchar_t* lpUNCServerName, const wchar_t* lpSourceName);
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC CloseEventLog(boost::winapi::HANDLE_ hEventLog);
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC ReadEventLogA
( boost::winapi::HANDLE_ hEventLog, boost::winapi::DWORD_ dwReadFlags, boost::winapi::DWORD_ dwRecordOffset, void* lpBuffer
, boost::winapi::DWORD_ nNumberOfBytesToRead, boost::winapi::DWORD_ *pnBytesRead, boost::winapi::DWORD_ *pnMinNumberOfBytesNeeded);
BOOST_SYMBOL_IMPORT boost::winapi::BOOL_ BOOST_WINAPI_WINAPI_CC ReadEventLogW
( boost::winapi::HANDLE_ hEventLog, boost::winapi::DWORD_ dwReadFlags, boost::winapi::DWORD_ dwRecordOffset, void* lpBuffer
, boost::winapi::DWORD_ nNumberOfBytesToRead, boost::winapi::DWORD_ *pnBytesRead, boost::winapi::DWORD_ *pnMinNumberOfBytesNeeded);
} //extern "C" {
#endif //#ifndef BOOST_USE_WINDOWS_H
namespace boost {
namespace ipwinapiext {
typedef ::HKEY HKEY_;
#if BOOST_WINAPI_PARTITION_APP_SYSTEM
//Threads
BOOST_FORCEINLINE boost::winapi::HANDLE_ CreateThread
( boost::winapi::SECURITY_ATTRIBUTES_* lpThreadAttributes
, boost::winapi::SIZE_T_ dwStackSize
, boost::ipwinapiext::LPTHREAD_START_ROUTINE_ lpStartAddress
, boost::winapi::LPVOID_ lpParameter
, boost::winapi::DWORD_ dwCreationFlags
, boost::winapi::LPDWORD_ lpThreadId
)
{
return ::CreateThread( reinterpret_cast< ::_SECURITY_ATTRIBUTES* >(lpThreadAttributes)
, dwStackSize, lpStartAddress
, lpParameter, dwCreationFlags, lpThreadId);
}
//Error handling
BOOST_FORCEINLINE BOOST_WINAPI_DETAIL_VOID SetLastError(boost::winapi::DWORD_ dwErrCode)
{ ::SetLastError(dwErrCode); }
//File management
BOOST_FORCEINLINE boost::winapi::DWORD_ GetFileType(boost::winapi::HANDLE_ hTemplateFile)
{ return ::GetFileType(hTemplateFile); }
BOOST_FORCEINLINE boost::winapi::BOOL_ FlushFileBuffers(boost::winapi::HANDLE_ hFile)
{ return ::FlushFileBuffers(hFile); }
//Virtual Memory
BOOST_FORCEINLINE boost::winapi::BOOL_ VirtualLock(boost::winapi::LPVOID_ lpAddress, boost::winapi::SIZE_T_ dwSize)
{ return ::VirtualLock(lpAddress, dwSize); }
BOOST_FORCEINLINE boost::winapi::BOOL_ VirtualUnlock(boost::winapi::LPVOID_ lpAddress, boost::winapi::SIZE_T_ dwSize)
{ return ::VirtualUnlock(lpAddress, dwSize); }
BOOST_FORCEINLINE boost::winapi::BOOL_ VirtualProtect( boost::winapi::LPVOID_ lpAddress, boost::winapi::SIZE_T_ dwSize
, boost::winapi::DWORD_ flNewProtect, boost::winapi::PDWORD_ lpflOldProtect)
{ return ::VirtualProtect(lpAddress, dwSize, flNewProtect, lpflOldProtect); }
//registry.hpp
BOOST_FORCEINLINE boost::ipwinapiext::LSTATUS RegOpenKeyExA
(boost::ipwinapiext::HKEY_ hKey, const char *lpSubKey, boost::winapi::DWORD_ ulOptions, boost::winapi::DWORD_ samDesired, boost::ipwinapiext::HKEY_ *phkResult)
{
return ::RegOpenKeyExA(reinterpret_cast< ::HKEY >(hKey), lpSubKey, ulOptions, samDesired, reinterpret_cast< ::HKEY* >(phkResult));
}
BOOST_FORCEINLINE boost::ipwinapiext::LSTATUS RegOpenKeyExW
(boost::ipwinapiext::HKEY_ hKey, const wchar_t *lpSubKey, boost::winapi::DWORD_ ulOptions, boost::winapi::DWORD_ samDesired, boost::ipwinapiext::HKEY_ *phkResult)
{
return ::RegOpenKeyExW(reinterpret_cast< ::HKEY >(hKey), lpSubKey, ulOptions, samDesired, reinterpret_cast< ::HKEY* >(phkResult));
}
BOOST_FORCEINLINE boost::ipwinapiext::LSTATUS RegQueryValueExA
(boost::ipwinapiext::HKEY_ hKey, const char *lpValueName, boost::winapi::DWORD_ *lpReserved, boost::winapi::DWORD_ *lpType, boost::winapi::BYTE_ *lpData, boost::winapi::DWORD_ *lpcbData)
{
return ::RegQueryValueExA(reinterpret_cast< ::HKEY >(hKey), lpValueName, lpReserved, lpType, lpData, lpcbData);
}
BOOST_FORCEINLINE boost::ipwinapiext::LSTATUS RegQueryValueExW
(boost::ipwinapiext::HKEY_ hKey, const wchar_t *lpValueName, boost::winapi::DWORD_ *lpReserved, boost::winapi::DWORD_ *lpType, boost::winapi::BYTE_ *lpData, boost::winapi::DWORD_ *lpcbData)
{
return ::RegQueryValueExW(reinterpret_cast< ::HKEY >(hKey), lpValueName, lpReserved, lpType, lpData, lpcbData);
}
BOOST_FORCEINLINE boost::ipwinapiext::LSTATUS RegCloseKey(boost::ipwinapiext::HKEY_ hKey)
{
return ::RegCloseKey(reinterpret_cast< ::HKEY >(hKey));
}
BOOST_FORCEINLINE void GetSystemInfo(boost::winapi::LPSYSTEM_INFO_ lpSystemInfo)
{ return ::GetSystemInfo(reinterpret_cast< ::_SYSTEM_INFO* >(lpSystemInfo)); }
#endif //BOOST_WINAPI_PARTITION_APP_SYSTEM
} //namespace ipwinapiext {
} //namespace boost {
namespace boost {
namespace interprocess {
namespace winapi {
typedef boost::winapi::SYSTEM_INFO_ interprocess_system_info;
typedef boost::winapi::OVERLAPPED_ interprocess_overlapped;
typedef boost::winapi::FILETIME_ interprocess_filetime;
typedef boost::winapi::WIN32_FIND_DATAA_ win32_find_data_a;
typedef boost::winapi::WIN32_FIND_DATAW_ win32_find_data_w;
typedef boost::winapi::SECURITY_ATTRIBUTES_ interprocess_security_attributes;
typedef boost::winapi::SECURITY_DESCRIPTOR_ interprocess_security_descriptor;
typedef boost::winapi::BY_HANDLE_FILE_INFORMATION_ interprocess_by_handle_file_information;
typedef boost::winapi::HMODULE_ hmodule;
typedef boost::ipwinapiext::HKEY_ hkey;
typedef boost::winapi::FARPROC_ farproc_t;
//ntdll.dll
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 *NtOpenFile)(void **FileHandle, unsigned long DesiredAccess, object_attributes_t *ObjectAttributes
, io_status_block_t *IoStatusBlock, unsigned long ShareAccess, unsigned long Length, unsigned long OpenOptions);
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 long (__stdcall *NtQuerySemaphore_t)(void*, unsigned int info_class, interprocess_semaphore_basic_information *pinfo, unsigned int info_size, unsigned int *ret_len);
typedef long (__stdcall *NtQuerySection_t)(void*, section_information_class, interprocess_section_basic_information *pinfo, unsigned long info_size, unsigned long *ret_len);
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 *NtQueryTimerResolution_t) (unsigned long* LowestResolution, unsigned long* HighestResolution, unsigned long* CurrentResolution);
typedef long (__stdcall *NtSetTimerResolution_t) (unsigned long RequestedResolution, int Set, unsigned long* ActualResolution);
} //namespace winapi {
} //namespace interprocess {
} //namespace boost {
//////////////////////////////////////////////////////////////////////////////
//
// Forward declaration of constants
//
//////////////////////////////////////////////////////////////////////////////
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_invalid_handle = 6L;
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;
static const unsigned long error_not_locked = 158L;
//Retries in CreateFile, see http://support.microsoft.com/kb/316609
static const unsigned long error_sharing_violation_tries = 3L;
static const unsigned long error_sharing_violation_sleep_ms = 250L;
static const unsigned long error_file_too_large = 223L;
static const unsigned long error_insufficient_buffer = 122L;
static const unsigned long error_handle_eof = 38L;
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 page_noaccess = 0x01;
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 long delete_flag = 0x00010000L;
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 const unsigned long invalid_file_attributes = ((unsigned long)-1);
static void * const invalid_handle_value = ((void*)(long)(-1));
static const unsigned long file_type_char = 0x0002L;
static const unsigned long file_type_disk = 0x0001L;
static const unsigned long file_type_pipe = 0x0003L;
static const unsigned long file_type_remote = 0x8000L;
static const unsigned long file_type_unknown = 0x0000L;
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;
const unsigned long max_record_buffer_size = 0x10000L; // 64K
const unsigned long max_path = 260;
//Keys
static const hkey hkey_local_machine = (hkey)(unsigned long*)(long)(0x80000002);
static unsigned long key_query_value = 0x0001;
// Registry types
#define reg_none ( 0 ) // No value type
#define reg_sz ( 1 ) // Unicode nul terminated string
#define reg_expand_sz ( 2 ) // Unicode nul terminated string
// (with environment variable references)
#define reg_binary ( 3 ) // Free form binary
#define reg_dword ( 4 ) // 32-bit number
#define reg_dword_little_endian ( 4 ) // 32-bit number (same as REG_DWORD)
#define reg_dword_big_endian ( 5 ) // 32-bit number
#define reg_link ( 6 ) // Symbolic Link (unicode)
#define reg_multi_sz ( 7 ) // Multiple Unicode strings
#define reg_resource_list ( 8 ) // Resource list in the resource map
#define reg_full_resource_descriptor ( 9 ) // Resource list in the hardware description
#define reg_resource_requirements_list ( 10 )
#define reg_qword ( 11 ) // 64-bit number
#define reg_qword_little_endian ( 11 ) // 64-bit number (same as reg_qword)
} //namespace winapi {
} //namespace interprocess {
} //namespace boost {
namespace boost {
namespace interprocess {
namespace winapi {
inline unsigned long get_last_error()
{ return GetLastError(); }
inline void set_last_error(unsigned long err)
{ return SetLastError(err); }
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()
{
if(!SwitchToThread()){
Sleep(0);
}
}
inline void sleep_tick()
{ Sleep(1); }
inline void sleep(unsigned long ms)
{ Sleep(ms); }
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_a *lpFindFileData)
{ return FindFirstFileA(lpFileName, lpFindFileData); }
inline void * find_first_file(const wchar_t *lpFileName, win32_find_data_w *lpFindFileData)
{ return FindFirstFileW(lpFileName, lpFindFileData); }
inline bool find_next_file(void *hFindFile, win32_find_data_a *lpFindFileData)
{ return FindNextFileA(hFindFile, lpFindFileData) != 0; }
inline bool find_next_file(void *hFindFile, win32_find_data_w *lpFindFileData)
{ return FindNextFileW(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 unsigned long get_file_type(void *hFile)
{
return GetFileType(hFile);
}
/*
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 *open_or_create_mutex(const char *name, bool initial_owner, interprocess_security_attributes *attr)
{ return CreateMutexA(attr, (int)initial_owner, name); }
inline void *open_or_create_mutex(const wchar_t *name, bool initial_owner, interprocess_security_attributes *attr)
{ return CreateMutexW(attr, (int)initial_owner, 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 *open_or_create_semaphore(const char *name, long initial_count, long maximum_count, interprocess_security_attributes *attr)
{ return CreateSemaphoreA(attr, initial_count, maximum_count, name); }
inline void *open_or_create_semaphore(const wchar_t *name, long initial_count, long maximum_count, interprocess_security_attributes *attr)
{ return CreateSemaphoreW(attr, initial_count, maximum_count, name); }
inline void *open_semaphore(const char *name)
{ return OpenSemaphoreA(semaphore_all_access, 0, name); }
inline void *open_semaphore(const wchar_t *name)
{ return OpenSemaphoreW(semaphore_all_access, 0, name); }
inline int release_semaphore(void *handle, long release_count, long *prev_count)
{ return ReleaseSemaphore(handle, release_count, prev_count); }
class interprocess_all_access_security
{
interprocess_security_attributes sa;
interprocess_security_descriptor sd;
bool initialized;
public:
interprocess_all_access_security()
: initialized(false)
{
if(!boost::winapi::InitializeSecurityDescriptor(&sd, security_descriptor_revision))
return;
if(!boost::winapi::SetSecurityDescriptorDacl(&sd, true, 0, false))
return;
sa.lpSecurityDescriptor = &sd;
sa.nLength = sizeof(interprocess_security_attributes);
sa.bInheritHandle = false;
initialized = true;
}
interprocess_security_attributes *get_attributes()
{ return &sa; }
};
inline void * create_file_mapping (void * handle, unsigned long access, ::boost::ulong_long_type file_offset, const char * name, interprocess_security_attributes *psec)
{
const boost::winapi::DWORD_ high_size(file_offset >> 32), low_size((boost::winapi::DWORD_)file_offset);
return CreateFileMappingA (handle, psec, access, high_size, low_size, name);
}
inline void * create_file_mapping (void * handle, unsigned long access, ::boost::ulong_long_type file_offset, const wchar_t * name, interprocess_security_attributes *psec)
{
const boost::winapi::DWORD_ high_size(file_offset >> 32), low_size((boost::winapi::DWORD_)file_offset);
return CreateFileMappingW (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 * open_file_mapping (unsigned long access, const wchar_t *name)
{ return OpenFileMappingW (access, 0, name); }
inline void *map_view_of_file_ex(void *handle, unsigned long file_access, ::boost::ulong_long_type offset, std::size_t numbytes, void *base_addr)
{
const unsigned long offset_low = (unsigned long)(offset & ((::boost::ulong_long_type)0xFFFFFFFF));
const unsigned long offset_high = offset >> 32;
return MapViewOfFileEx(handle, file_access, offset_high, offset_low, numbytes, base_addr);
}
template<class CharT>
inline void *create_file(const CharT *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 = boost::winapi::create_file(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 void get_system_info(interprocess_system_info *info)
{ boost::ipwinapiext::GetSystemInfo(info); }
inline bool flush_view_of_file(void *base_addr, std::size_t numbytes)
{ return 0 != boost::winapi::FlushViewOfFile(base_addr, numbytes); }
inline bool virtual_unlock(void *base_addr, std::size_t numbytes)
{ return 0 != boost::ipwinapiext::VirtualUnlock(base_addr, numbytes); }
inline bool virtual_protect(void *base_addr, std::size_t numbytes, unsigned long flNewProtect, unsigned long &lpflOldProtect)
{ return 0 != boost::ipwinapiext::VirtualProtect(base_addr, numbytes, flNewProtect, &lpflOldProtect); }
inline bool flush_file_buffers(void *handle)
{ return 0 != boost::ipwinapiext::FlushFileBuffers(handle); }
inline bool get_file_size(void *handle, __int64 &size)
{ return 0 != boost::winapi::GetFileSizeEx(handle, (boost::winapi::LARGE_INTEGER_*)&size); }
template<class CharT>
inline bool create_directory(const CharT *name)
{
interprocess_all_access_security sec;
return 0 != boost::winapi::create_directory(name, sec.get_attributes());
}
template<class CharT>
inline bool remove_directory(const CharT *lpPathName)
{ return 0 != boost::winapi::remove_directory(lpPathName); }
template<class CharT>
inline unsigned long get_temp_path(unsigned long length, CharT *buffer)
{ return boost::winapi::get_temp_path(length, buffer); }
inline int set_end_of_file(void *handle)
{ return 0 != boost::winapi::SetEndOfFile(handle); }
inline bool set_file_pointer(void *handle, __int64 distance, __int64 *new_file_pointer, unsigned long move_method)
{
long highPart = distance >> 32u;
boost::winapi::DWORD_ r = boost::winapi::SetFilePointer(handle, (unsigned long)distance, &highPart, move_method);
bool br = r != boost::winapi::INVALID_SET_FILE_POINTER_ || boost::winapi::GetLastError() != 0;
if (br && new_file_pointer){
*new_file_pointer = (unsigned __int64)r + ((__int64)highPart << 32);
}
return br;
}
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 != boost::winapi::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 != boost::winapi::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 != boost::winapi::WriteFile(hnd, buffer, bytes_to_write, bytes_written, overlapped); }
inline bool read_file(void *hnd, void *buffer, unsigned long bytes_to_read, unsigned long *bytes_read, interprocess_overlapped* overlapped)
{ return 0 != boost::winapi::ReadFile(hnd, buffer, bytes_to_read, bytes_read, overlapped); }
inline bool get_file_information_by_handle(void *hnd, interprocess_by_handle_file_information *info)
{ return 0 != boost::winapi::GetFileInformationByHandle(hnd, info); }
inline long interlocked_increment(long volatile *addr)
{ return BOOST_INTERLOCKED_INCREMENT(const_cast<long*>(addr)); }
inline long interlocked_decrement(long volatile *addr)
{ return BOOST_INTERLOCKED_DECREMENT(const_cast<long*>(addr)); }
inline long interlocked_compare_exchange(long volatile *addr, long val1, long val2)
{ return BOOST_INTERLOCKED_COMPARE_EXCHANGE(const_cast<long*>(addr), val1, val2); }
inline long interlocked_exchange_add(long volatile* addend, long value)
{ return BOOST_INTERLOCKED_EXCHANGE_ADD(const_cast<long*>(addend), value); }
inline long interlocked_exchange(long volatile* addend, long value)
{ return BOOST_INTERLOCKED_EXCHANGE(const_cast<long*>(addend), value); }
//Forward functions
inline hmodule load_library(const char *name)
{ return boost::winapi::LoadLibraryA(name); }
inline bool free_library(hmodule module)
{ return 0 != boost::winapi::FreeLibrary(module); }
inline farproc_t get_proc_address(hmodule module, const char *name)
{ return boost::winapi::GetProcAddress(module, name); }
inline void *get_current_process()
{ return boost::winapi::GetCurrentProcess(); }
inline hmodule get_module_handle(const char *name)
{ return boost::winapi::GetModuleHandleA(name); }
inline long reg_open_key_ex(hkey hKey, const char *lpSubKey, unsigned long ulOptions, unsigned long samDesired, hkey *phkResult)
{ return boost::ipwinapiext::RegOpenKeyExA(hKey, lpSubKey, ulOptions, samDesired, phkResult); }
inline long reg_open_key_ex(hkey hKey, const wchar_t *lpSubKey, unsigned long ulOptions, unsigned long samDesired, hkey *phkResult)
{ return boost::ipwinapiext::RegOpenKeyExW(hKey, lpSubKey, ulOptions, samDesired, phkResult); }
inline long reg_query_value_ex(hkey hKey, const char *lpValueName, unsigned long*lpReserved, unsigned long*lpType, unsigned char *lpData, unsigned long*lpcbData)
{ return boost::ipwinapiext::RegQueryValueExA(hKey, lpValueName, lpReserved, lpType, lpData, lpcbData); }
inline long reg_query_value_ex(hkey hKey, const wchar_t *lpValueName, unsigned long*lpReserved, unsigned long*lpType, unsigned char *lpData, unsigned long*lpcbData)
{ return boost::ipwinapiext::RegQueryValueExW(hKey, lpValueName, lpReserved, lpType, lpData, lpcbData); }
inline long reg_close_key(hkey hKey)
{ return boost::ipwinapiext::RegCloseKey(hKey); }
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;
}
//A class that locates and caches loaded DLL function addresses.
template<int Dummy>
struct function_address_holder
{
enum { NtSetInformationFile
, NtQuerySystemInformation
, NtQueryObject
, NtQuerySemaphore
, NtQuerySection
, NtOpenFile
, NtClose
, NtQueryTimerResolution
, NumFunction
};
enum { NtDll_dll, Kernel32_dll, NumModule };
private:
static const char *FunctionNames[NumFunction];
static const char *ModuleNames[NumModule];
static farproc_t FunctionAddresses[NumFunction];
static unsigned int FunctionModules[NumFunction];
static volatile long FunctionStates[NumFunction];
static hmodule ModuleAddresses[NumModule];
static volatile long ModuleStates[NumModule];
static hmodule get_module_from_id(unsigned int id)
{
BOOST_ASSERT(id < (unsigned int)NumModule);
hmodule addr = get_module_handle(ModuleNames[id]);
BOOST_ASSERT(addr);
return addr;
}
static hmodule get_module(const unsigned int id)
{
BOOST_ASSERT(id < (unsigned int)NumModule);
for(unsigned i = 0; ModuleStates[id] < 2; ++i){
if(interlocked_compare_exchange(&ModuleStates[id], 1, 0) == 0){
ModuleAddresses[id] = get_module_from_id(id);
interlocked_increment(&ModuleStates[id]);
break;
}
else if(i & 1){
sched_yield();
}
else{
sleep_tick();
}
}
return ModuleAddresses[id];
}
static farproc_t get_address_from_dll(const unsigned int id)
{
BOOST_ASSERT(id < (unsigned int)NumFunction);
farproc_t addr = get_proc_address(get_module(FunctionModules[id]), FunctionNames[id]);
BOOST_ASSERT(addr);
return addr;
}
public:
static farproc_t get(const unsigned int id)
{
BOOST_ASSERT(id < (unsigned int)NumFunction);
for(unsigned i = 0; FunctionStates[id] < 2; ++i){
if(interlocked_compare_exchange(&FunctionStates[id], 1, 0) == 0){
FunctionAddresses[id] = get_address_from_dll(id);
interlocked_increment(&FunctionStates[id]);
break;
}
else if(i & 1){
sched_yield();
}
else{
sleep_tick();
}
}
return FunctionAddresses[id];
}
};
template<int Dummy>
const char *function_address_holder<Dummy>::FunctionNames[function_address_holder<Dummy>::NumFunction] =
{
"NtSetInformationFile",
"NtQuerySystemInformation",
"NtQueryObject",
"NtQuerySemaphore",
"NtQuerySection",
"NtOpenFile",
"NtClose",
"NtQueryTimerResolution",
};
template<int Dummy>
unsigned int function_address_holder<Dummy>::FunctionModules[function_address_holder<Dummy>::NumFunction] =
{
NtDll_dll,
NtDll_dll,
NtDll_dll,
NtDll_dll,
NtDll_dll,
NtDll_dll,
NtDll_dll,
NtDll_dll,
};
template<int Dummy>
const char *function_address_holder<Dummy>::ModuleNames[function_address_holder<Dummy>::NumModule] =
{
"ntdll.dll"//, "kernel32.dll"
};
template<int Dummy>
farproc_t function_address_holder<Dummy>::FunctionAddresses[function_address_holder<Dummy>::NumFunction];
template<int Dummy>
volatile long function_address_holder<Dummy>::FunctionStates[function_address_holder<Dummy>::NumFunction];
template<int Dummy>
hmodule function_address_holder<Dummy>::ModuleAddresses[function_address_holder<Dummy>::NumModule];
template<int Dummy>
volatile long function_address_holder<Dummy>::ModuleStates[function_address_holder<Dummy>::NumModule];
struct dll_func
: public function_address_holder<0>
{};
//Complex winapi based functions...
struct library_unloader
{
hmodule lib_;
library_unloader(hmodule module) : lib_(module){}
~library_unloader(){ free_library(lib_); }
};
inline bool get_system_time_of_day_information(system_timeofday_information &info)
{
NtQuerySystemInformation_t pNtQuerySystemInformation = reinterpret_cast<NtQuerySystemInformation_t>
(dll_func::get(dll_func::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;
}
//Writes the hexadecimal value of the buffer, in the wide character string.
//str must be twice length
inline void buffer_to_wide_str(const void *buf, std::size_t length, wchar_t *str)
{
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;
const char *chbuf = static_cast<const char *>(buf);
for(std::size_t i = 0; i != length; ++i){
str[char_counter++] = Characters[(chbuf[i]&0xF0)>>4];
str[char_counter++] = Characters[(chbuf[i]&0x0F)];
}
}
//Writes the hexadecimal value of the buffer, in the narrow character string.
//str must be twice length
inline void buffer_to_narrow_str(const void *buf, std::size_t length, char *str)
{
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;
const char *chbuf = static_cast<const char *>(buf);
for(std::size_t i = 0; i != length; ++i){
str[char_counter++] = Characters[(chbuf[i]&0xF0)>>4];
str[char_counter++] = Characters[(chbuf[i]&0x0F)];
}
}
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;
}
buffer_to_narrow_str(info.Reserved1, BootstampLength, bootstamp_str);
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;
}
buffer_to_wide_str(&info.Reserved1[0], BootAndSystemstampLength, bootsystemstamp);
s = BootAndSystemstampLength*2;
return true;
}
class handle_closer
{
void *handle_;
handle_closer(const handle_closer &);
handle_closer& operator=(const handle_closer &);
public:
explicit 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[1];
} ren;
};
class nt_query_mem_deleter
{
static const std::size_t rename_offset = offsetof(ntquery_mem_t, ren.info.FileName) -
offsetof(ntquery_mem_t, name.Name.Buffer);
// Timestamp process id atomic count
static const std::size_t rename_suffix =
(SystemTimeOfDayInfoLength + sizeof(unsigned long) + sizeof(boost::winapi::DWORD_))*2;
public:
explicit nt_query_mem_deleter(std::size_t object_name_information_size)
: m_size(object_name_information_size + rename_offset + rename_suffix)
, m_buf(new char [m_size])
{}
~nt_query_mem_deleter()
{
delete[]m_buf;
}
void realloc_mem(std::size_t num_bytes)
{
num_bytes += rename_suffix + rename_offset;
char *buf = m_buf;
m_buf = new char[num_bytes];
delete[]buf;
m_size = num_bytes;
}
ntquery_mem_t *query_mem() const
{ return static_cast<ntquery_mem_t *>(static_cast<void*>(m_buf)); }
unsigned long object_name_information_size() const
{
return static_cast<unsigned long>(m_size - rename_offset - SystemTimeOfDayInfoLength*2);
}
std::size_t file_rename_information_size() const
{ return static_cast<unsigned long>(m_size); }
private:
std::size_t m_size;
char *m_buf;
};
class c_heap_deleter
{
public:
explicit c_heap_deleter(std::size_t size)
: m_buf(::malloc(size))
{}
~c_heap_deleter()
{
if(m_buf) ::free(m_buf);
}
void realloc_mem(std::size_t num_bytes)
{
void *oldBuf = m_buf;
m_buf = ::realloc(m_buf, num_bytes);
if (!m_buf){
free(oldBuf);
}
}
void *get() const
{ return m_buf; }
private:
void *m_buf;
};
template<class CharT>
inline bool unlink_file(const CharT *filename)
{
//Don't try to optimize doing a DeleteFile first
//as there are interactions with permissions and
//in-use files.
//
//if(!delete_file(filename)){
// (...)
//
//This functions tries to emulate UNIX unlink semantics in windows.
//
//- Open the file and mark the handle as delete-on-close
//- Rename the file to an arbitrary name based on a random number
//- Close the handle. If there are no file users, it will be deleted.
// Otherwise it will be used by already connected handles but the
// file name can't be used to open this file again
try{
NtSetInformationFile_t pNtSetInformationFile =
reinterpret_cast<NtSetInformationFile_t>(dll_func::get(dll_func::NtSetInformationFile));
NtQueryObject_t pNtQueryObject = reinterpret_cast<NtQueryObject_t>(dll_func::get(dll_func::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, 0, 0);
if(fh == invalid_handle_value){
return false;
}
handle_closer h_closer(fh);
{
//Obtain name length
unsigned long size;
const std::size_t initial_string_mem = 512u;
nt_query_mem_deleter nt_query_mem(sizeof(ntquery_mem_t)+initial_string_mem);
//Obtain file name with guessed length
if(pNtQueryObject(fh, object_name_information, nt_query_mem.query_mem(), nt_query_mem.object_name_information_size(), &size)){
//Obtain file name with exact length buffer
nt_query_mem.realloc_mem(size);
if(pNtQueryObject(fh, object_name_information, nt_query_mem.query_mem(), nt_query_mem.object_name_information_size(), &size)){
return false;
}
}
ntquery_mem_t *pmem = nt_query_mem.query_mem();
file_rename_information_t *pfri = &pmem->ren.info;
const std::size_t RenMaxNumChars =
(((char*)(pmem) + nt_query_mem.file_rename_information_size()) - (char*)&pmem->ren.info.FileName[0])/sizeof(wchar_t);
//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);
//Search '\\' character to replace from 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;
//Sometimes the precission of the timestamp is not enough and we need to add another random number.
//The process id (to exclude concurrent processes) and an atomic count (to exclude concurrent threads).
//should be enough
const unsigned long pid = get_current_process_id();
buffer_to_wide_str(&pid, sizeof(pid), &pfri->FileName[filename_string_length]);
filename_string_length += sizeof(pid)*2;
static volatile boost::uint32_t u32_count = 0;
interlocked_decrement(reinterpret_cast<volatile long*>(&u32_count));
buffer_to_wide_str(const_cast<const boost::uint32_t *>(&u32_count), sizeof(boost::uint32_t), &pfri->FileName[filename_string_length]);
filename_string_length += sizeof(boost::uint32_t)*2;
//Fill rename information (FileNameLength is in bytes)
pfri->FileNameLength = static_cast<unsigned long>(sizeof(wchar_t)*(filename_string_length));
pfri->Replace = 1;
pfri->RootDir = 0;
//Cange the name of the in-use file...
io_status_block_t io;
if(0 != pNtSetInformationFile(fh, &io, pfri, nt_query_mem.file_rename_information_size(), file_rename_information)){
return false;
}
}
//...and mark it as delete-on-close
{
//Don't use pNtSetInformationFile with file_disposition_information as it can return STATUS_CANNOT_DELETE
//if the file is still mapped. Reopen it with NtOpenFile and file_delete_on_close
NtOpenFile_t pNtOpenFile = reinterpret_cast<NtOpenFile_t>(dll_func::get(dll_func::NtOpenFile));
NtClose_t pNtClose = reinterpret_cast<NtClose_t>(dll_func::get(dll_func::NtClose));
const wchar_t empty_str [] = L"";
unicode_string_t ustring = { sizeof(empty_str) - sizeof (wchar_t) //length in bytes without null
, sizeof(empty_str) //total size in bytes of memory allocated for Buffer.
, const_cast<wchar_t*>(empty_str)
};
object_attributes_t object_attr;
initialize_object_attributes(&object_attr, &ustring, 0, fh, 0);
void* fh2 = 0;
io_status_block_t io;
pNtOpenFile( &fh2, delete_flag, &object_attr, &io
, file_share_read | file_share_write | file_share_delete, file_delete_on_close);
pNtClose(fh2);
//Even if NtOpenFile fails, the file was renamed and the original no longer exists, so return a success status
return true;
}
}
catch(...){
return false;
}
return true;
}
struct reg_closer
{
hkey key_;
reg_closer(hkey key) : key_(key){}
~reg_closer(){ reg_close_key(key_); }
};
template <class CharT>
inline bool get_registry_value_buffer(hkey key_type, const CharT *subkey_name, const CharT *value_name, void *buf, std::size_t &buflen)
{
bool bret = false;
hkey key;
if (reg_open_key_ex( key_type
, subkey_name
, 0
, key_query_value
, &key) == 0){
reg_closer key_closer(key);
//Obtain the value
unsigned long size = buflen;
unsigned long type;
buflen = 0;
bret = 0 == reg_query_value_ex( key, value_name, 0, &type, (unsigned char*)buf, &size);
if(bret)
buflen = (std::size_t)size;
}
return bret;
}
template<class CharT>
inline bool get_registry_value_string(hkey key_type, const CharT *subkey_name, const CharT *value_name, std::basic_string<CharT> &s)
{
bool bret = false;
s.clear();
hkey key;
if (reg_open_key_ex( key_type
, subkey_name
, 0
, key_query_value
, &key) == 0){
reg_closer key_closer(key);
//Obtain the value
unsigned long size;
unsigned long type;
long err = reg_query_value_ex( key, value_name, 0, &type, 0, &size);
if((reg_sz == type || reg_expand_sz == type) && !err){
//Size includes terminating NULL
s.resize(size/sizeof(CharT));
err = reg_query_value_ex( key, value_name, 0, &type, (unsigned char*)(&s[0]), &size);
if(!err){
s.erase(s.end()-1);
bret = true;
}
(void)err;
}
}
return bret;
}
template<class CharT>
inline void get_shared_documents_folder(std::basic_string<CharT> &s)
{
get_registry_value_string( hkey_local_machine
, "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders"
, "Common AppData"
, s);
}
inline void get_shared_documents_folder(std::wstring &s)
{
get_registry_value_string( hkey_local_machine
, L"SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders"
, L"Common AppData"
, s);
}
template<class CharT>
inline void get_registry_value(const CharT *folder, const CharT *value_key, std::vector<unsigned char> &s)
{
s.clear();
hkey key;
if (reg_open_key_ex( hkey_local_machine
, folder
, 0
, key_query_value
, &key) == 0){
reg_closer key_closer(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);
long err = reg_query_value_ex( 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);
err = reg_query_value_ex( key, reg_value, 0, &type, (unsigned char*)(&s[0]), &size);
if(!err)
s.erase(s.end()-1);
(void)err;
}
}
}
inline bool is_directory(const char *path)
{
unsigned long attrib = GetFileAttributesA(path);
return (attrib != invalid_file_attributes &&
(attrib & file_attribute_directory));
}
inline bool get_file_mapping_size(void *file_mapping_hnd, __int64 &size)
{
NtQuerySection_t pNtQuerySection =
reinterpret_cast<NtQuerySection_t>(dll_func::get(dll_func::NtQuerySection));
//Obtain file name
interprocess_section_basic_information info;
unsigned long ntstatus =
pNtQuerySection(file_mapping_hnd, section_basic_information, &info, sizeof(info), 0);
size = info.section_size;
return !ntstatus;
}
inline bool get_semaphore_info(void *handle, long &count, long &limit)
{
winapi::interprocess_semaphore_basic_information info;
winapi::NtQuerySemaphore_t pNtQuerySemaphore =
reinterpret_cast<winapi::NtQuerySemaphore_t>(dll_func::get(winapi::dll_func::NtQuerySemaphore));
unsigned int ret_len;
long status = pNtQuerySemaphore(handle, winapi::semaphore_basic_information, &info, sizeof(info), &ret_len);
count = info.count;
limit = info.limit;
return !status;
}
inline bool query_timer_resolution(unsigned long *lowres, unsigned long *highres, unsigned long *curres)
{
winapi::NtQueryTimerResolution_t pNtQueryTimerResolution =
reinterpret_cast<winapi::NtQueryTimerResolution_t>(dll_func::get(winapi::dll_func::NtQueryTimerResolution));
return !pNtQueryTimerResolution(lowres, highres, curres);
}
inline bool query_performance_counter(__int64 *lpPerformanceCount)
{
return 0 != boost::winapi::QueryPerformanceCounter(reinterpret_cast<boost::winapi::LARGE_INTEGER_*>(lpPerformanceCount));
}
inline bool query_performance_frequency(__int64 *lpFrequency)
{
return 0 != boost::winapi::QueryPerformanceFrequency(reinterpret_cast<boost::winapi::LARGE_INTEGER_*>(lpFrequency));
}
inline unsigned long get_tick_count()
{ return GetTickCount(); }
template<class CharT>
struct winapi_traits;
template<>
struct winapi_traits<char>
{
static int cmp(const char *a, const char *b)
{ return std::strcmp(a, b); }
};
template<>
struct winapi_traits<wchar_t>
{
static int cmp(const wchar_t *a, const wchar_t *b)
{ return std::wcscmp(a, b); }
};
#if defined(BOOST_INTERPROCESS_BOOTSTAMP_IS_SESSION_MANAGER_BASED)
inline bool get_last_bootup_time(std::string &stamp)
{
unsigned dword_val = 0;
std::size_t dword_size = sizeof(dword_val);
bool b_ret = get_registry_value_buffer( hkey_local_machine
, "SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Memory Management\\PrefetchParameters"
, "BootId", &dword_val, dword_size);
if (b_ret)
{
char dword_str[sizeof(dword_val)*2u+1];
buffer_to_narrow_str(&dword_val, dword_size, dword_str);
dword_str[sizeof(dword_val)*2] = '\0';
stamp = dword_str;
b_ret = get_registry_value_buffer( hkey_local_machine
, "SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Power"
, "HybridBootAnimationTime", &dword_val, dword_size);
//Old Windows versions have no HybridBootAnimationTime
if(b_ret)
{
buffer_to_narrow_str(&dword_val, dword_size, dword_str);
dword_str[sizeof(dword_val)*2] = '\0';
stamp += "_";
stamp += dword_str;
}
b_ret = true;
}
return b_ret;
}
inline bool get_last_bootup_time(std::wstring &stamp)
{
unsigned dword_val = 0;
std::size_t dword_size = sizeof(dword_val);
bool b_ret = get_registry_value_buffer( hkey_local_machine
, L"SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Memory Management\\PrefetchParameters"
, L"BootId", &dword_val, dword_size);
if (b_ret)
{
wchar_t dword_str[sizeof(dword_val)*2u+1];
buffer_to_wide_str(&dword_val, dword_size, dword_str);
dword_str[sizeof(dword_val)*2] = L'\0';
stamp = dword_str;
b_ret = get_registry_value_buffer( hkey_local_machine
, L"SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Power"
, L"HybridBootAnimationTime", &dword_val, dword_size);
//Old Windows versions have no HybridBootAnimationTime
if(b_ret)
{
buffer_to_wide_str(&dword_val, dword_size, dword_str);
dword_str[sizeof(dword_val)*2] = L'\0';
stamp += L"_";
stamp += dword_str;
}
b_ret = true;
}
return b_ret;
}
#elif defined(BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED)
static const unsigned long eventlog_sequential_read = 0x0001;
static const unsigned long eventlog_backwards_read = 0x0008;
struct interprocess_eventlogrecord
{
unsigned long Length; // Length of full record
unsigned long Reserved; // Used by the service
unsigned long RecordNumber; // Absolute record number
unsigned long TimeGenerated; // Seconds since 1-1-1970
unsigned long TimeWritten; // Seconds since 1-1-1970
unsigned long EventID;
unsigned short EventType;
unsigned short NumStrings;
unsigned short EventCategory;
unsigned short ReservedFlags; // For use with paired events (auditing)
unsigned long ClosingRecordNumber; // For use with paired events (auditing)
unsigned long StringOffset; // Offset from beginning of record
unsigned long UserSidLength;
unsigned long UserSidOffset;
unsigned long DataLength;
unsigned long DataOffset; // Offset from beginning of record
//
// Then follow:
//
// wchar_t SourceName[]
// wchar_t Computername[]
// SID UserSid
// wchar_t Strings[]
// BYTE Data[]
// CHAR Pad[]
// unsigned long Length;
//
};
class eventlog_handle_closer
{
void *handle_;
eventlog_handle_closer(const handle_closer &);
eventlog_handle_closer& operator=(const eventlog_handle_closer &);
public:
explicit eventlog_handle_closer(void *handle) : handle_(handle){}
~eventlog_handle_closer()
{ CloseEventLog(handle_); }
};
// Loop through the buffer and obtain the contents of the
// requested record in the buffer.
template<class CharT>
inline bool find_record_in_buffer( const void* pBuffer, unsigned long dwBytesRead, const CharT *provider_name
, unsigned int id_to_find, interprocess_eventlogrecord *&pevent_log_record)
{
const unsigned char * pRecord = static_cast<const unsigned char*>(pBuffer);
const unsigned char * pEndOfRecords = pRecord + dwBytesRead;
while (pRecord < pEndOfRecords){
interprocess_eventlogrecord *pTypedRecord = (interprocess_eventlogrecord*)pRecord;
// Check provider, written at the end of the fixed-part of the record
if (0 == winapi_traits<CharT>::cmp(provider_name, (CharT*)(pRecord + sizeof(interprocess_eventlogrecord))))
{
// Check event id
if(id_to_find == (pTypedRecord->EventID & 0xFFFF)){
pevent_log_record = pTypedRecord;
return true;
}
}
pRecord += pTypedRecord->Length;
}
pevent_log_record = 0;
return false;
}
//Obtains the bootup time from the System Event Log,
//event ID == 6005 (event log started).
//Adapted from http://msdn.microsoft.com/en-us/library/windows/desktop/bb427356.aspx
inline bool get_last_bootup_time(std::string &stamp)
{
const char *source_name = "System";
const char *provider_name = "EventLog";
const unsigned short event_id = 6005u;
unsigned long status = 0;
unsigned long dwBytesToRead = 0;
unsigned long dwBytesRead = 0;
unsigned long dwMinimumBytesToRead = 0;
// The source name (provider) must exist as a subkey of Application.
void *hEventLog = OpenEventLogA(0, source_name);
if (hEventLog){
eventlog_handle_closer hnd_closer(hEventLog); (void)hnd_closer;
// Allocate an initial block of memory used to read event records. The number
// of records read into the buffer will vary depending on the size of each event.
// The size of each event will vary based on the size of the user-defined
// data included with each event, the number and length of insertion
// strings, and other data appended to the end of the event record.
dwBytesToRead = max_record_buffer_size;
c_heap_deleter heap_deleter(dwBytesToRead);
// Read blocks of records until you reach the end of the log or an
// error occurs. The records are read from newest to oldest. If the buffer
// is not big enough to hold a complete event record, reallocate the buffer.
if (heap_deleter.get() != 0){
while (0 == status){
if (!ReadEventLogA(hEventLog,
eventlog_sequential_read | eventlog_backwards_read,
0,
heap_deleter.get(),
dwBytesToRead,
&dwBytesRead,
&dwMinimumBytesToRead)) {
status = get_last_error();
if (error_insufficient_buffer == status) {
status = 0;
dwBytesToRead = dwMinimumBytesToRead;
heap_deleter.realloc_mem(dwMinimumBytesToRead);
if (!heap_deleter.get()){
return false;
}
}
else{ //Not found or EOF
return false;
}
}
else
{
interprocess_eventlogrecord *pTypedRecord;
// Print the contents of each record in the buffer.
if(find_record_in_buffer(heap_deleter.get(), dwBytesRead, provider_name, event_id, pTypedRecord)){
char stamp_str[sizeof(unsigned long)*3+1];
std::sprintf(&stamp_str[0], "%u", ((unsigned int)pTypedRecord->TimeGenerated));
stamp = stamp_str;
break;
}
}
}
}
}
return true;
}
inline bool get_last_bootup_time(std::wstring &stamp)
{
const wchar_t *source_name = L"System";
const wchar_t *provider_name = L"EventLog";
const unsigned short event_id = 6005u;
unsigned long status = 0;
unsigned long dwBytesToRead = 0;
unsigned long dwBytesRead = 0;
unsigned long dwMinimumBytesToRead = 0;
// The source name (provider) must exist as a subkey of Application.
void *hEventLog = OpenEventLogW(0, source_name);
if (hEventLog){
eventlog_handle_closer hnd_closer(hEventLog); (void)hnd_closer;
// Allocate an initial block of memory used to read event records. The number
// of records read into the buffer will vary depending on the size of each event.
// The size of each event will vary based on the size of the user-defined
// data included with each event, the number and length of insertion
// strings, and other data appended to the end of the event record.
dwBytesToRead = max_record_buffer_size;
c_heap_deleter heap_deleter(dwBytesToRead);
// Read blocks of records until you reach the end of the log or an
// error occurs. The records are read from newest to oldest. If the buffer
// is not big enough to hold a complete event record, reallocate the buffer.
if (heap_deleter.get() != 0){
while (0 == status){
if (!ReadEventLogW(hEventLog,
eventlog_sequential_read | eventlog_backwards_read,
0,
heap_deleter.get(),
dwBytesToRead,
&dwBytesRead,
&dwMinimumBytesToRead)) {
status = get_last_error();
if (error_insufficient_buffer == status) {
status = 0;
dwBytesToRead = dwMinimumBytesToRead;
heap_deleter.realloc_mem(dwMinimumBytesToRead);
if (!heap_deleter.get()){
return false;
}
}
else{ //Not found or EOF
return false;
}
}
else
{
interprocess_eventlogrecord *pTypedRecord;
// Print the contents of each record in the buffer.
if(find_record_in_buffer(heap_deleter.get(), dwBytesRead, provider_name, event_id, pTypedRecord)){
wchar_t stamp_str[sizeof(unsigned long)*3+1];
std::swprintf(&stamp_str[0], L"%u", ((unsigned int)pTypedRecord->TimeGenerated));
stamp = stamp_str;
break;
}
}
}
}
}
return true;
}
#endif //BOOST_INTERPROCESS_BOOTSTAMP_IS_EVENTLOG_BASED
} //namespace winapi
} //namespace interprocess
} //namespace boost
#if defined(BOOST_GCC) && (BOOST_GCC >= 40600)
# pragma GCC diagnostic pop
#endif
#include <boost/interprocess/detail/config_end.hpp>
#endif //#ifdef BOOST_INTERPROCESS_WIN32_API_HPP