YouCompleteMe/cpp/BoostParts/boost/interprocess/mapped_region.hpp

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2012. 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_MAPPED_REGION_HPP
#define BOOST_INTERPROCESS_MAPPED_REGION_HPP
#include <boost/interprocess/detail/config_begin.hpp>
#include <boost/interprocess/detail/workaround.hpp>
#include <boost/interprocess/interprocess_fwd.hpp>
#include <boost/interprocess/exceptions.hpp>
#include <boost/move/move.hpp>
#include <boost/interprocess/detail/utilities.hpp>
#include <boost/interprocess/detail/os_file_functions.hpp>
#include <string>
#include <boost/cstdint.hpp>
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#include <boost/assert.hpp>
//Some Unixes use caddr_t instead of void * in madvise
// SunOS Tru64 HP-UX AIX
#if defined(sun) || defined(__sun) || defined(__osf__) || defined(__osf) || defined(_hpux) || defined(hpux) || defined(_AIX)
#define BOOST_INTERPROCESS_MADVISE_USES_CADDR_T
#include <sys/types.h>
#endif
//A lot of UNIXes have destructive semantics for MADV_DONTNEED, so
//we need to be careful to allow it.
#if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__)
#define BOOST_INTERPROCESS_MADV_DONTNEED_HAS_NONDESTRUCTIVE_SEMANTICS
#endif
#if defined (BOOST_INTERPROCESS_WINDOWS)
# include <boost/interprocess/detail/win32_api.hpp>
# include <boost/interprocess/sync/windows/sync_utils.hpp>
#else
# ifdef BOOST_HAS_UNISTD_H
# include <fcntl.h>
# include <sys/mman.h> //mmap
# include <unistd.h>
# include <sys/stat.h>
# include <sys/types.h>
# if defined(BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS)
# include <sys/shm.h> //System V shared memory...
# endif
# include <boost/assert.hpp>
# else
# error Unknown platform
# endif
#endif //#if (defined BOOST_INTERPROCESS_WINDOWS)
//!\file
//!Describes mapped region class
namespace boost {
namespace interprocess {
/// @cond
//Solaris declares madvise only in some configurations but defines MADV_XXX, a bit confusing.
//Predeclare it here to avoid any compilation error
#if (defined(sun) || defined(__sun)) && defined(MADV_NORMAL)
extern "C" int madvise(caddr_t, size_t, int);
#endif
namespace ipcdetail{ class interprocess_tester; }
namespace ipcdetail{ class raw_mapped_region_creator; }
/// @endcond
//!The mapped_region class represents a portion or region created from a
//!memory_mappable object.
//!
//!The OS can map a region bigger than the requested one, as region must
//!be multiple of the page size, but mapped_region will always refer to
//!the region specified by the user.
class mapped_region
{
/// @cond
//Non-copyable
BOOST_MOVABLE_BUT_NOT_COPYABLE(mapped_region)
/// @endcond
public:
//!Creates a mapping region of the mapped memory "mapping", starting in
//!offset "offset", and the mapping's size will be "size". The mapping
//!can be opened for read only, read-write or copy-on-write.
//!
//!If an address is specified, both the offset and the address must be
//!multiples of the page size.
//!
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//!The map is created using "default_map_options". This flag is OS
//!dependant and it should not be changed unless the user needs to
//!specify special options.
//!
//!In Windows systems "map_options" is a DWORD value passed as
//!"dwDesiredAccess" to "MapViewOfFileEx". If "default_map_options" is passed
//!it's initialized to zero. "map_options" is XORed with FILE_MAP_[COPY|READ|WRITE].
//!
//!In UNIX systems and POSIX mappings "map_options" is an int value passed as "flags"
//!to "mmap". If "default_map_options" is specified it's initialized to MAP_NOSYNC
//!if that option exists and to zero otherwise. "map_options" XORed with MAP_PRIVATE or MAP_SHARED.
//!
//!In UNIX systems and XSI mappings "map_options" is an int value passed as "shmflg"
//!to "shmat". If "default_map_options" is specified it's initialized to zero.
//!"map_options" is XORed with SHM_RDONLY if needed.
//!
//!The OS could allocate more pages than size/page_size(), but get_address()
//!will always return the address passed in this function (if not null) and
//!get_size() will return the specified size.
template<class MemoryMappable>
mapped_region(const MemoryMappable& mapping
,mode_t mode
,offset_t offset = 0
,std::size_t size = 0
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,const void *address = 0
,map_options_t map_options = default_map_options);
//!Default constructor. Address will be 0 (nullptr).
//!Size will be 0.
//!Does not throw
mapped_region();
//!Move constructor. *this will be constructed taking ownership of "other"'s
//!region and "other" will be left in default constructor state.
mapped_region(BOOST_RV_REF(mapped_region) other)
#if defined (BOOST_INTERPROCESS_WINDOWS)
: m_base(0), m_size(0)
, m_page_offset(0)
, m_mode(read_only)
, m_file_or_mapping_hnd(ipcdetail::invalid_file())
#else
: m_base(0), m_size(0), m_page_offset(0), m_mode(read_only), m_is_xsi(false)
#endif
{ this->swap(other); }
//!Destroys the mapped region.
//!Does not throw
~mapped_region();
//!Move assignment. If *this owns a memory mapped region, it will be
//!destroyed and it will take ownership of "other"'s memory mapped region.
mapped_region &operator=(BOOST_RV_REF(mapped_region) other)
{
mapped_region tmp(boost::move(other));
this->swap(tmp);
return *this;
}
//!Swaps the mapped_region with another
//!mapped region
void swap(mapped_region &other);
//!Returns the size of the mapping. Never throws.
std::size_t get_size() const;
//!Returns the base address of the mapping.
//!Never throws.
void* get_address() const;
//!Returns the mode of the mapping used to construct the mapped region.
//!Never throws.
mode_t get_mode() const;
//!Flushes to the disk a byte range within the mapped memory.
//!If 'async' is true, the function will return before flushing operation is completed
//!If 'async' is false, function will return once data has been written into the underlying
//!device (i.e., in mapped files OS cached information is written to disk).
//!Never throws. Returns false if operation could not be performed.
bool flush(std::size_t mapping_offset = 0, std::size_t numbytes = 0, bool async = true);
//!Shrinks current mapped region. If after shrinking there is no longer need for a previously
//!mapped memory page, accessing that page can trigger a segmentation fault.
//!Depending on the OS, this operation might fail (XSI shared memory), it can decommit storage
//!and free a portion of the virtual address space (e.g.POSIX) or this
//!function can release some physical memory wihout freeing any virtual address space(Windows).
//!Returns true on success. Never throws.
bool shrink_by(std::size_t bytes, bool from_back = true);
//!This enum specifies region usage behaviors that an application can specify
//!to the mapped region implementation.
enum advice_types{
//!Specifies that the application has no advice to give on its behavior with respect to
//!the region. It is the default characteristic if no advice is given for a range of memory.
advice_normal,
//!Specifies that the application expects to access the region sequentially from
//!lower addresses to higher addresses. The implementation can lower the priority of
//!preceding pages within the region once a page have been accessed.
advice_sequential,
//!Specifies that the application expects to access the region in a random order,
//!and prefetching is likely not advantageous.
advice_random,
//!Specifies that the application expects to access the region in the near future.
//!The implementation can prefetch pages of the region.
advice_willneed,
//!Specifies that the application expects that it will not access the region in the near future.
//!The implementation can unload pages within the range to save system resources.
advice_dontneed
};
//!Advises the implementation on the expected behavior of the application with respect to the data
//!in the region. The implementation may use this information to optimize handling of the region data.
//!This function has no effect on the semantics of access to memory in the region, although it may affect
//!the performance of access.
//!If the advise type is not known to the implementation, the function returns false. True otherwise.
bool advise(advice_types advise);
//!Returns the size of the page. This size is the minimum memory that
//!will be used by the system when mapping a memory mappable source and
//!will restrict the address and the offset to map.
static std::size_t get_page_size();
/// @cond
private:
//!Closes a previously opened memory mapping. Never throws
void priv_close();
void* priv_map_address() const;
std::size_t priv_map_size() const;
bool priv_flush_param_check(std::size_t mapping_offset, void *&addr, std::size_t &numbytes) const;
bool priv_shrink_param_check(std::size_t bytes, bool from_back, void *&shrink_page_start, std::size_t &shrink_page_bytes);
static void priv_size_from_mapping_size
(offset_t mapping_size, offset_t offset, offset_t page_offset, std::size_t &size);
static offset_t priv_page_offset_addr_fixup(offset_t page_offset, const void *&addr);
template<int dummy>
struct page_size_holder
{
static const std::size_t PageSize;
static std::size_t get_page_size();
};
void* m_base;
std::size_t m_size;
std::size_t m_page_offset;
mode_t m_mode;
#if defined(BOOST_INTERPROCESS_WINDOWS)
file_handle_t m_file_or_mapping_hnd;
#else
bool m_is_xsi;
#endif
friend class ipcdetail::interprocess_tester;
friend class ipcdetail::raw_mapped_region_creator;
void dont_close_on_destruction();
#if defined(BOOST_INTERPROCESS_WINDOWS) && !defined(BOOST_INTERPROCESS_FORCE_GENERIC_EMULATION)
template<int Dummy>
static void destroy_syncs_in_range(const void *addr, std::size_t size);
#endif
/// @endcond
};
///@cond
inline void swap(mapped_region &x, mapped_region &y)
{ x.swap(y); }
inline mapped_region::~mapped_region()
{ this->priv_close(); }
inline std::size_t mapped_region::get_size() const
{ return m_size; }
inline mode_t mapped_region::get_mode() const
{ return m_mode; }
inline void* mapped_region::get_address() const
{ return m_base; }
inline void* mapped_region::priv_map_address() const
{ return static_cast<char*>(m_base) - m_page_offset; }
inline std::size_t mapped_region::priv_map_size() const
{ return m_size + m_page_offset; }
inline bool mapped_region::priv_flush_param_check
(std::size_t mapping_offset, void *&addr, std::size_t &numbytes) const
{
//Check some errors
if(m_base == 0)
return false;
if(mapping_offset >= m_size || (mapping_offset + numbytes) > m_size){
return false;
}
//Update flush size if the user does not provide it
if(numbytes == 0){
numbytes = m_size - mapping_offset;
}
addr = (char*)this->priv_map_address() + mapping_offset;
numbytes += m_page_offset;
return true;
}
inline bool mapped_region::priv_shrink_param_check
(std::size_t bytes, bool from_back, void *&shrink_page_start, std::size_t &shrink_page_bytes)
{
//Check some errors
if(m_base == 0 || bytes > m_size){
return false;
}
else if(bytes == m_size){
this->priv_close();
return true;
}
else{
const std::size_t page_size = mapped_region::get_page_size();
if(from_back){
const std::size_t new_pages = (m_size + m_page_offset - bytes - 1)/page_size + 1;
shrink_page_start = static_cast<char*>(this->priv_map_address()) + new_pages*page_size;
shrink_page_bytes = m_page_offset + m_size - new_pages*page_size;
m_size -= bytes;
}
else{
shrink_page_start = this->priv_map_address();
m_page_offset += bytes;
shrink_page_bytes = (m_page_offset/page_size)*page_size;
m_page_offset = m_page_offset % page_size;
m_size -= bytes;
m_base = static_cast<char *>(m_base) + bytes;
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BOOST_ASSERT(shrink_page_bytes%page_size == 0);
}
return true;
}
}
inline void mapped_region::priv_size_from_mapping_size
(offset_t mapping_size, offset_t offset, offset_t page_offset, std::size_t &size)
{
//Check if mapping size fits in the user address space
//as offset_t is the maximum file size and its signed.
if(mapping_size < offset ||
boost::uintmax_t(mapping_size - (offset - page_offset)) >
boost::uintmax_t(std::size_t(-1))){
error_info err(size_error);
throw interprocess_exception(err);
}
size = static_cast<std::size_t>(mapping_size - (offset - page_offset));
}
inline offset_t mapped_region::priv_page_offset_addr_fixup(offset_t offset, const void *&address)
{
//We can't map any offset so we have to obtain system's
//memory granularity
const std::size_t page_size = mapped_region::get_page_size();
//We calculate the difference between demanded and valid offset
//(always less than a page in std::size_t, thus, representable by std::size_t)
const std::size_t page_offset =
static_cast<std::size_t>(offset - (offset / page_size) * page_size);
//Update the mapping address
if(address){
address = static_cast<const char*>(address) - page_offset;
}
return page_offset;
}
#if defined (BOOST_INTERPROCESS_WINDOWS)
inline mapped_region::mapped_region()
: m_base(0), m_size(0), m_page_offset(0), m_mode(read_only)
, m_file_or_mapping_hnd(ipcdetail::invalid_file())
{}
template<int dummy>
inline std::size_t mapped_region::page_size_holder<dummy>::get_page_size()
{
winapi::system_info info;
get_system_info(&info);
return std::size_t(info.dwAllocationGranularity);
}
template<class MemoryMappable>
inline mapped_region::mapped_region
(const MemoryMappable &mapping
,mode_t mode
,offset_t offset
,std::size_t size
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,const void *address
,map_options_t map_options)
: m_base(0), m_size(0), m_page_offset(0), m_mode(mode)
, m_file_or_mapping_hnd(ipcdetail::invalid_file())
{
mapping_handle_t mhandle = mapping.get_mapping_handle();
{
file_handle_t native_mapping_handle = 0;
//Set accesses
//For "create_file_mapping"
unsigned long protection = 0;
//For "mapviewoffile"
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unsigned long map_access = map_options == default_map_options ? 0 : map_options;
switch(mode)
{
case read_only:
case read_private:
protection |= winapi::page_readonly;
map_access |= winapi::file_map_read;
break;
case read_write:
protection |= winapi::page_readwrite;
map_access |= winapi::file_map_write;
break;
case copy_on_write:
protection |= winapi::page_writecopy;
map_access |= winapi::file_map_copy;
break;
default:
{
error_info err(mode_error);
throw interprocess_exception(err);
}
break;
}
//For file mapping (including emulated shared memory through temporary files),
//the device is a file handle so we need to obtain file's size and call create_file_mapping
//to obtain the mapping handle.
//For files we don't need the file mapping after mapping the memory, as the file is there
//so we'll program the handle close
void * handle_to_close = winapi::invalid_handle_value;
if(!mhandle.is_shm){
//Create mapping handle
native_mapping_handle = winapi::create_file_mapping
( ipcdetail::file_handle_from_mapping_handle(mapping.get_mapping_handle())
, protection, 0, 0, 0);
//Check if all is correct
if(!native_mapping_handle){
error_info err = winapi::get_last_error();
throw interprocess_exception(err);
}
handle_to_close = native_mapping_handle;
}
else{
//For windows_shared_memory the device handle is already a mapping handle
//and we need to maintain it
native_mapping_handle = mhandle.handle;
}
//RAII handle close on scope exit
const winapi::handle_closer close_handle(handle_to_close);
(void)close_handle;
const offset_t page_offset = priv_page_offset_addr_fixup(offset, address);
//Obtain mapping size if user provides 0 size
if(size == 0){
offset_t mapping_size;
if(!winapi::get_file_mapping_size(native_mapping_handle, mapping_size)){
error_info err = winapi::get_last_error();
throw interprocess_exception(err);
}
//This can throw
priv_size_from_mapping_size(mapping_size, offset, page_offset, size);
}
//Map with new offsets and size
void *base = winapi::map_view_of_file_ex
(native_mapping_handle,
map_access,
offset - page_offset,
static_cast<std::size_t>(page_offset + size),
const_cast<void*>(address));
//Check error
if(!base){
error_info err = winapi::get_last_error();
throw interprocess_exception(err);
}
//Calculate new base for the user
m_base = static_cast<char*>(base) + page_offset;
m_page_offset = page_offset;
m_size = size;
}
//Windows shared memory needs the duplication of the handle if we want to
//make mapped_region independent from the mappable device
//
//For mapped files, we duplicate the file handle to be able to FlushFileBuffers
if(!winapi::duplicate_current_process_handle(mhandle.handle, &m_file_or_mapping_hnd)){
error_info err = winapi::get_last_error();
this->priv_close();
throw interprocess_exception(err);
}
}
inline bool mapped_region::flush(std::size_t mapping_offset, std::size_t numbytes, bool async)
{
void *addr;
if(!this->priv_flush_param_check(mapping_offset, addr, numbytes)){
return false;
}
//Flush it all
if(!winapi::flush_view_of_file(addr, numbytes)){
return false;
}
//m_file_or_mapping_hnd can be a file handle or a mapping handle.
//so flushing file buffers has only sense for files...
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else if(!async && m_file_or_mapping_hnd != winapi::invalid_handle_value &&
winapi::get_file_type(m_file_or_mapping_hnd) == winapi::file_type_disk){
return winapi::flush_file_buffers(m_file_or_mapping_hnd);
}
return true;
}
inline bool mapped_region::shrink_by(std::size_t bytes, bool from_back)
{
void *shrink_page_start;
std::size_t shrink_page_bytes;
if(!this->priv_shrink_param_check(bytes, from_back, shrink_page_start, shrink_page_bytes)){
return false;
}
else if(shrink_page_bytes){
//In Windows, we can't decommit the storage or release the virtual address space,
//the best we can do is try to remove some memory from the process working set.
//With a bit of luck we can free some physical memory.
unsigned long old_protect_ignored;
bool b_ret = winapi::virtual_unlock(shrink_page_start, shrink_page_bytes)
|| (winapi::get_last_error() == winapi::error_not_locked);
(void)old_protect_ignored;
//Change page protection to forbid any further access
b_ret = b_ret && winapi::virtual_protect
(shrink_page_start, shrink_page_bytes, winapi::page_noaccess, old_protect_ignored);
return b_ret;
}
else{
return true;
}
}
inline bool mapped_region::advise(advice_types)
{
//Windows has no madvise/posix_madvise equivalent
return false;
}
inline void mapped_region::priv_close()
{
if(m_base){
void *addr = this->priv_map_address();
#if !defined(BOOST_INTERPROCESS_FORCE_GENERIC_EMULATION)
mapped_region::destroy_syncs_in_range<0>(addr, m_size);
#endif
winapi::unmap_view_of_file(addr);
m_base = 0;
}
if(m_file_or_mapping_hnd != ipcdetail::invalid_file()){
winapi::close_handle(m_file_or_mapping_hnd);
m_file_or_mapping_hnd = ipcdetail::invalid_file();
}
}
inline void mapped_region::dont_close_on_destruction()
{}
#else //#if (defined BOOST_INTERPROCESS_WINDOWS)
inline mapped_region::mapped_region()
: m_base(0), m_size(0), m_page_offset(0), m_mode(read_only), m_is_xsi(false)
{}
template<int dummy>
inline std::size_t mapped_region::page_size_holder<dummy>::get_page_size()
{ return std::size_t(sysconf(_SC_PAGESIZE)); }
template<class MemoryMappable>
inline mapped_region::mapped_region
( const MemoryMappable &mapping
, mode_t mode
, offset_t offset
, std::size_t size
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, const void *address
, map_options_t map_options)
: m_base(0), m_size(0), m_page_offset(0), m_mode(mode), m_is_xsi(false)
{
mapping_handle_t map_hnd = mapping.get_mapping_handle();
//Some systems dont' support XSI shared memory
#ifdef BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS
if(map_hnd.is_xsi){
//Get the size
::shmid_ds xsi_ds;
int ret = ::shmctl(map_hnd.handle, IPC_STAT, &xsi_ds);
if(ret == -1){
error_info err(system_error_code());
throw interprocess_exception(err);
}
//Compare sizess
if(size == 0){
size = (std::size_t)xsi_ds.shm_segsz;
}
else if(size != (std::size_t)xsi_ds.shm_segsz){
error_info err(size_error);
throw interprocess_exception(err);
}
//Calculate flag
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int flag = map_options == default_map_options ? 0 : map_options;
if(m_mode == read_only){
flag |= SHM_RDONLY;
}
else if(m_mode != read_write){
error_info err(mode_error);
throw interprocess_exception(err);
}
//Attach memory
void *base = ::shmat(map_hnd.handle, (void*)address, flag);
if(base == (void*)-1){
error_info err(system_error_code());
throw interprocess_exception(err);
}
//Update members
m_base = base;
m_size = size;
m_mode = mode;
m_page_offset = 0;
m_is_xsi = true;
return;
}
#endif //ifdef BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS
//We calculate the difference between demanded and valid offset
const offset_t page_offset = priv_page_offset_addr_fixup(offset, address);
if(size == 0){
struct ::stat buf;
if(0 != fstat(map_hnd.handle, &buf)){
error_info err(system_error_code());
throw interprocess_exception(err);
}
//This can throw
priv_size_from_mapping_size(buf.st_size, offset, page_offset, size);
}
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#ifdef MAP_NOSYNC
#define BOOST_INTERPROCESS_MAP_NOSYNC MAP_NOSYNC
#else
#define BOOST_INTERPROCESS_MAP_NOSYNC 0
#endif //MAP_NOSYNC
//Create new mapping
int prot = 0;
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int flags = map_options == default_map_options ? BOOST_INTERPROCESS_MAP_NOSYNC : map_options;
#undef BOOST_INTERPROCESS_MAP_NOSYNC
switch(mode)
{
case read_only:
prot |= PROT_READ;
flags |= MAP_SHARED;
break;
case read_private:
prot |= (PROT_READ);
flags |= MAP_PRIVATE;
break;
case read_write:
prot |= (PROT_WRITE | PROT_READ);
flags |= MAP_SHARED;
break;
case copy_on_write:
prot |= (PROT_WRITE | PROT_READ);
flags |= MAP_PRIVATE;
break;
default:
{
error_info err(mode_error);
throw interprocess_exception(err);
}
break;
}
//Map it to the address space
void* base = mmap ( const_cast<void*>(address)
, static_cast<std::size_t>(page_offset + size)
, prot
, flags
, mapping.get_mapping_handle().handle
, offset - page_offset);
//Check if mapping was successful
if(base == MAP_FAILED){
error_info err = system_error_code();
throw interprocess_exception(err);
}
//Calculate new base for the user
m_base = static_cast<char*>(base) + page_offset;
m_page_offset = page_offset;
m_size = size;
//Check for fixed mapping error
if(address && (base != address)){
error_info err(busy_error);
this->priv_close();
throw interprocess_exception(err);
}
}
inline bool mapped_region::shrink_by(std::size_t bytes, bool from_back)
{
void *shrink_page_start = 0;
std::size_t shrink_page_bytes = 0;
if(m_is_xsi || !this->priv_shrink_param_check(bytes, from_back, shrink_page_start, shrink_page_bytes)){
return false;
}
else if(shrink_page_bytes){
//In UNIX we can decommit and free virtual address space.
return 0 == munmap(shrink_page_start, shrink_page_bytes);
}
else{
return true;
}
}
inline bool mapped_region::flush(std::size_t mapping_offset, std::size_t numbytes, bool async)
{
void *addr;
if(m_is_xsi || !this->priv_flush_param_check(mapping_offset, addr, numbytes)){
return false;
}
//Flush it all
return msync(addr, numbytes, async ? MS_ASYNC : MS_SYNC) == 0;
}
inline bool mapped_region::advise(advice_types advice)
{
int unix_advice = 0;
//Modes; 0: none, 2: posix, 1: madvise
const unsigned int mode_none = 0;
const unsigned int mode_padv = 1;
const unsigned int mode_madv = 2;
unsigned int mode = mode_none;
//Choose advice either from POSIX (preferred) or native Unix
switch(advice){
case advice_normal:
#if defined(POSIX_MADV_NORMAL)
unix_advice = POSIX_MADV_NORMAL;
mode = mode_padv;
#elif defined(MADV_NORMAL)
unix_advice = MADV_NORMAL;
mode = mode_madv;
#endif
break;
case advice_sequential:
#if defined(POSIX_MADV_SEQUENTIAL)
unix_advice = POSIX_MADV_SEQUENTIAL;
mode = mode_padv;
#elif defined(MADV_SEQUENTIAL)
unix_advice = MADV_SEQUENTIAL;
mode = mode_madv;
#endif
break;
case advice_random:
#if defined(POSIX_MADV_RANDOM)
unix_advice = POSIX_MADV_RANDOM;
mode = mode_padv;
#elif defined(MADV_RANDOM)
unix_advice = MADV_RANDOM;
mode = mode_madv;
#endif
break;
case advice_willneed:
#if defined(POSIX_MADV_WILLNEED)
unix_advice = POSIX_MADV_WILLNEED;
mode = mode_padv;
#elif defined(MADV_WILLNEED)
unix_advice = MADV_WILLNEED;
mode = mode_madv;
#endif
break;
case advice_dontneed:
#if defined(POSIX_MADV_DONTNEED)
unix_advice = POSIX_MADV_DONTNEED;
mode = mode_padv;
#elif defined(MADV_DONTNEED) && defined(BOOST_INTERPROCESS_MADV_DONTNEED_HAS_NONDESTRUCTIVE_SEMANTICS)
unix_advice = MADV_DONTNEED;
mode = mode_madv;
#endif
break;
default:
return false;
}
switch(mode){
#if defined(POSIX_MADV_NORMAL)
case mode_padv:
return 0 == posix_madvise(this->priv_map_address(), this->priv_map_size(), unix_advice);
#endif
#if defined(MADV_NORMAL)
case mode_madv:
return 0 == madvise(
#if defined(BOOST_INTERPROCESS_MADVISE_USES_CADDR_T)
(caddr_t)
#endif
this->priv_map_address(), this->priv_map_size(), unix_advice);
#endif
default:
return false;
}
}
inline void mapped_region::priv_close()
{
if(m_base != 0){
#ifdef BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS
if(m_is_xsi){
int ret = ::shmdt(m_base);
BOOST_ASSERT(ret == 0);
(void)ret;
return;
}
#endif //#ifdef BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS
munmap(this->priv_map_address(), this->priv_map_size());
m_base = 0;
}
}
inline void mapped_region::dont_close_on_destruction()
{ m_base = 0; }
#endif //##if (defined BOOST_INTERPROCESS_WINDOWS)
template<int dummy>
const std::size_t mapped_region::page_size_holder<dummy>::PageSize
= mapped_region::page_size_holder<dummy>::get_page_size();
inline std::size_t mapped_region::get_page_size()
{
if(!page_size_holder<0>::PageSize)
return page_size_holder<0>::get_page_size();
else
return page_size_holder<0>::PageSize;
}
inline void mapped_region::swap(mapped_region &other)
{
ipcdetail::do_swap(this->m_base, other.m_base);
ipcdetail::do_swap(this->m_size, other.m_size);
ipcdetail::do_swap(this->m_page_offset, other.m_page_offset);
ipcdetail::do_swap(this->m_mode, other.m_mode);
#if (defined BOOST_INTERPROCESS_WINDOWS)
ipcdetail::do_swap(this->m_file_or_mapping_hnd, other.m_file_or_mapping_hnd);
#else
ipcdetail::do_swap(this->m_is_xsi, other.m_is_xsi);
#endif
}
//!No-op functor
struct null_mapped_region_function
{
bool operator()(void *, std::size_t , bool) const
{ return true; }
std::size_t get_min_size() const
{ return 0; }
};
/// @endcond
} //namespace interprocess {
} //namespace boost {
#include <boost/interprocess/detail/config_end.hpp>
#endif //BOOST_INTERPROCESS_MAPPED_REGION_HPP
#if !defined(BOOST_INTERPROCESS_DOXYGEN_INVOKED)
#ifndef BOOST_INTERPROCESS_MAPPED_REGION_EXT_HPP
#define BOOST_INTERPROCESS_MAPPED_REGION_EXT_HPP
#if defined(BOOST_INTERPROCESS_WINDOWS) && !defined(BOOST_INTERPROCESS_FORCE_GENERIC_EMULATION)
# include <boost/interprocess/sync/windows/sync_utils.hpp>
# include <boost/interprocess/detail/windows_intermodule_singleton.hpp>
namespace boost {
namespace interprocess {
template<int Dummy>
inline void mapped_region::destroy_syncs_in_range(const void *addr, std::size_t size)
{
ipcdetail::sync_handles &handles =
ipcdetail::windows_intermodule_singleton<ipcdetail::sync_handles>::get();
handles.destroy_syncs_in_range(addr, size);
}
} //namespace interprocess {
} //namespace boost {
#endif //defined(BOOST_INTERPROCESS_WINDOWS) && !defined(BOOST_INTERPROCESS_FORCE_GENERIC_EMULATION)
#endif //#ifdef BOOST_INTERPROCESS_MAPPED_REGION_EXT_HPP
#endif //#if !defined(BOOST_INTERPROCESS_DOXYGEN_INVOKED)