boost/context/fiber_fcontext.hpp
// Copyright Oliver Kowalke 2017. // 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) #ifndef BOOST_CONTEXT_FIBER_H #define BOOST_CONTEXT_FIBER_H #include <boost/context/detail/config.hpp> #include <algorithm> #include <cstddef> #include <cstdint> #include <cstdlib> #include <exception> #include <functional> #include <memory> #include <ostream> #include <tuple> #include <utility> #include <boost/assert.hpp> #include <boost/config.hpp> #include <boost/intrusive_ptr.hpp> #if defined(BOOST_NO_CXX14_STD_EXCHANGE) #include <boost/context/detail/exchange.hpp> #endif #if defined(BOOST_NO_CXX17_STD_INVOKE) #include <boost/context/detail/invoke.hpp> #endif #include <boost/context/detail/disable_overload.hpp> #include <boost/context/detail/exception.hpp> #include <boost/context/detail/fcontext.hpp> #include <boost/context/detail/tuple.hpp> #include <boost/context/fixedsize_stack.hpp> #include <boost/context/flags.hpp> #include <boost/context/preallocated.hpp> #include <boost/context/segmented_stack.hpp> #include <boost/context/stack_context.hpp> #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_PREFIX #endif #if defined(BOOST_MSVC) # pragma warning(push) # pragma warning(disable: 4702) #endif namespace boost { namespace context { namespace detail { inline transfer_t fiber_unwind( transfer_t t) { throw forced_unwind( t.fctx); return { nullptr, nullptr }; } template< typename Rec > transfer_t fiber_exit( transfer_t t) noexcept { Rec * rec = static_cast< Rec * >( t.data); // destroy context stack rec->deallocate(); return { nullptr, nullptr }; } template< typename Rec > void fiber_entry( transfer_t t) noexcept { // transfer control structure to the context-stack Rec * rec = static_cast< Rec * >( t.data); BOOST_ASSERT( nullptr != t.fctx); BOOST_ASSERT( nullptr != rec); try { // jump back to `create_context()` t = jump_fcontext( t.fctx, nullptr); // start executing t.fctx = rec->run( t.fctx); } catch ( forced_unwind const& ex) { t = { ex.fctx, nullptr }; #ifndef BOOST_ASSERT_IS_VOID const_cast< forced_unwind & >( ex).caught = true; #endif } BOOST_ASSERT( nullptr != t.fctx); // destroy context-stack of `this`context on next context ontop_fcontext( t.fctx, rec, fiber_exit< Rec >); BOOST_ASSERT_MSG( false, "context already terminated"); } template< typename Ctx, typename Fn > transfer_t fiber_ontop( transfer_t t) { BOOST_ASSERT( nullptr != t.data); auto p = *static_cast< Fn * >( t.data); t.data = nullptr; // execute function, pass fiber via reference Ctx c = p( Ctx{ t.fctx } ); #if defined(BOOST_NO_CXX14_STD_EXCHANGE) return { exchange( c.fctx_, nullptr), nullptr }; #else return { std::exchange( c.fctx_, nullptr), nullptr }; #endif } template< typename Ctx, typename StackAlloc, typename Fn > class fiber_record { private: stack_context sctx_; typename std::decay< StackAlloc >::type salloc_; typename std::decay< Fn >::type fn_; static void destroy( fiber_record * p) noexcept { typename std::decay< StackAlloc >::type salloc = std::move( p->salloc_); stack_context sctx = p->sctx_; // deallocate fiber_record p->~fiber_record(); // destroy stack with stack allocator salloc.deallocate( sctx); } public: fiber_record( stack_context sctx, StackAlloc && salloc, Fn && fn) noexcept : sctx_( sctx), salloc_( std::forward< StackAlloc >( salloc)), fn_( std::forward< Fn >( fn) ) { } fiber_record( fiber_record const&) = delete; fiber_record & operator=( fiber_record const&) = delete; void deallocate() noexcept { destroy( this); } fcontext_t run( fcontext_t fctx) { // invoke context-function #if defined(BOOST_NO_CXX17_STD_INVOKE) Ctx c = boost::context::detail::invoke( fn_, Ctx{ fctx } ); #else Ctx c = std::invoke( fn_, Ctx{ fctx } ); #endif #if defined(BOOST_NO_CXX14_STD_EXCHANGE) return exchange( c.fctx_, nullptr); #else return std::exchange( c.fctx_, nullptr); #endif } }; template< typename Record, typename StackAlloc, typename Fn > fcontext_t create_fiber1( StackAlloc && salloc, Fn && fn) { auto sctx = salloc.allocate(); // reserve space for control structure void * storage = reinterpret_cast< void * >( ( reinterpret_cast< uintptr_t >( sctx.sp) - static_cast< uintptr_t >( sizeof( Record) ) ) & ~static_cast< uintptr_t >( 0xff) ); // placment new for control structure on context stack Record * record = new ( storage) Record{ sctx, std::forward< StackAlloc >( salloc), std::forward< Fn >( fn) }; // 64byte gab between control structure and stack top // should be 16byte aligned void * stack_top = reinterpret_cast< void * >( reinterpret_cast< uintptr_t >( storage) - static_cast< uintptr_t >( 64) ); void * stack_bottom = reinterpret_cast< void * >( reinterpret_cast< uintptr_t >( sctx.sp) - static_cast< uintptr_t >( sctx.size) ); // create fast-context const std::size_t size = reinterpret_cast< uintptr_t >( stack_top) - reinterpret_cast< uintptr_t >( stack_bottom); const fcontext_t fctx = make_fcontext( stack_top, size, & fiber_entry< Record >); BOOST_ASSERT( nullptr != fctx); // transfer control structure to context-stack return jump_fcontext( fctx, record).fctx; } template< typename Record, typename StackAlloc, typename Fn > fcontext_t create_fiber2( preallocated palloc, StackAlloc && salloc, Fn && fn) { // reserve space for control structure void * storage = reinterpret_cast< void * >( ( reinterpret_cast< uintptr_t >( palloc.sp) - static_cast< uintptr_t >( sizeof( Record) ) ) & ~ static_cast< uintptr_t >( 0xff) ); // placment new for control structure on context-stack Record * record = new ( storage) Record{ palloc.sctx, std::forward< StackAlloc >( salloc), std::forward< Fn >( fn) }; // 64byte gab between control structure and stack top void * stack_top = reinterpret_cast< void * >( reinterpret_cast< uintptr_t >( storage) - static_cast< uintptr_t >( 64) ); void * stack_bottom = reinterpret_cast< void * >( reinterpret_cast< uintptr_t >( palloc.sctx.sp) - static_cast< uintptr_t >( palloc.sctx.size) ); // create fast-context const std::size_t size = reinterpret_cast< uintptr_t >( stack_top) - reinterpret_cast< uintptr_t >( stack_bottom); const fcontext_t fctx = make_fcontext( stack_top, size, & fiber_entry< Record >); BOOST_ASSERT( nullptr != fctx); // transfer control structure to context-stack return jump_fcontext( fctx, record).fctx; } } class fiber { private: template< typename Ctx, typename StackAlloc, typename Fn > friend class detail::fiber_record; template< typename Ctx, typename Fn > friend detail::transfer_t detail::fiber_ontop( detail::transfer_t); template< typename StackAlloc, typename Fn > friend fiber callcc( std::allocator_arg_t, StackAlloc &&, Fn &&); template< typename StackAlloc, typename Fn > friend fiber callcc( std::allocator_arg_t, preallocated, StackAlloc &&, Fn &&); detail::fcontext_t fctx_{ nullptr }; fiber( detail::fcontext_t fctx) noexcept : fctx_{ fctx } { } public: fiber() noexcept = default; template< typename Fn, typename = detail::disable_overload< fiber, Fn > > fiber( Fn && fn) : fiber{ std::allocator_arg, fixedsize_stack(), std::forward< Fn >( fn) } { } template< typename StackAlloc, typename Fn > fiber( std::allocator_arg_t, StackAlloc && salloc, Fn && fn) : fctx_{ detail::create_fiber1< detail::fiber_record< fiber, StackAlloc, Fn > >( std::forward< StackAlloc >( salloc), std::forward< Fn >( fn) ) } { } template< typename StackAlloc, typename Fn > fiber( std::allocator_arg_t, preallocated palloc, StackAlloc && salloc, Fn && fn) : fctx_{ detail::create_fiber2< detail::fiber_record< fiber, StackAlloc, Fn > >( palloc, std::forward< StackAlloc >( salloc), std::forward< Fn >( fn) ) } { } #if defined(BOOST_USE_SEGMENTED_STACKS) template< typename Fn > fiber( std::allocator_arg_t, segmented_stack, Fn &&); template< typename StackAlloc, typename Fn > fiber( std::allocator_arg_t, preallocated, segmented_stack, Fn &&); #endif ~fiber() { if ( BOOST_UNLIKELY( nullptr != fctx_) ) { detail::ontop_fcontext( #if defined(BOOST_NO_CXX14_STD_EXCHANGE) detail::exchange( fctx_, nullptr), #else std::exchange( fctx_, nullptr), #endif nullptr, detail::fiber_unwind); } } fiber( fiber && other) noexcept { swap( other); } fiber & operator=( fiber && other) noexcept { if ( BOOST_LIKELY( this != & other) ) { fiber tmp = std::move( other); swap( tmp); } return * this; } fiber( fiber const& other) noexcept = delete; fiber & operator=( fiber const& other) noexcept = delete; fiber resume() && { BOOST_ASSERT( nullptr != fctx_); return { detail::jump_fcontext( #if defined(BOOST_NO_CXX14_STD_EXCHANGE) detail::exchange( fctx_, nullptr), #else std::exchange( fctx_, nullptr), #endif nullptr).fctx }; } template< typename Fn > fiber resume_with( Fn && fn) && { BOOST_ASSERT( nullptr != fctx_); auto p = std::forward< Fn >( fn); return { detail::ontop_fcontext( #if defined(BOOST_NO_CXX14_STD_EXCHANGE) detail::exchange( fctx_, nullptr), #else std::exchange( fctx_, nullptr), #endif & p, detail::fiber_ontop< fiber, decltype(p) >).fctx }; } explicit operator bool() const noexcept { return nullptr != fctx_; } bool operator!() const noexcept { return nullptr == fctx_; } bool operator<( fiber const& other) const noexcept { return fctx_ < other.fctx_; } #if !defined(BOOST_EMBTC) template< typename charT, class traitsT > friend std::basic_ostream< charT, traitsT > & operator<<( std::basic_ostream< charT, traitsT > & os, fiber const& other) { if ( nullptr != other.fctx_) { return os << other.fctx_; } else { return os << "{not-a-context}"; } } #else template< typename charT, class traitsT > friend std::basic_ostream< charT, traitsT > & operator<<( std::basic_ostream< charT, traitsT > & os, fiber const& other); #endif void swap( fiber & other) noexcept { std::swap( fctx_, other.fctx_); } }; #if defined(BOOST_EMBTC) template< typename charT, class traitsT > inline std::basic_ostream< charT, traitsT > & operator<<( std::basic_ostream< charT, traitsT > & os, fiber const& other) { if ( nullptr != other.fctx_) { return os << other.fctx_; } else { return os << "{not-a-context}"; } } #endif inline void swap( fiber & l, fiber & r) noexcept { l.swap( r); } typedef fiber fiber_context; }} #if defined(BOOST_MSVC) # pragma warning(pop) #endif #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_SUFFIX #endif #endif // BOOST_CONTEXT_FIBER_H