source: libcfa/src/concurrency/coroutine.cfa @ b3f9684c

//
// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
//
// The contents of this file are covered under the licence agreement in the
// file "LICENCE" distributed with Cforall.
//
// coroutine.c --
//
// Author           : Thierry Delisle
// Created On       : Mon Nov 28 12:27:26 2016
// Last Modified By : Peter A. Buhr
// Last Modified On : Tue May 26 22:06:09 2020
// Update Count     : 21
//

#define __cforall_thread__

#include "coroutine.hfa"

#include <stddef.h>
#include <malloc.h>
#include <errno.h>
#include <string.h>
#include <unistd.h>
#include <sys/mman.h>                                                                   // mprotect
extern "C" {
// use this define to make unwind.h play nice, definitely a hack
#define HIDE_EXPORTS
#include <unwind.h>
#undef HIDE_EXPORTS
}

#include "kernel_private.hfa"

#define __CFA_INVOKE_PRIVATE__
#include "invoke.h"

extern "C" {
        void _CtxCoroutine_Unwind(struct _Unwind_Exception * storage, struct $coroutine *) __attribute__ ((__noreturn__));
        static void _CtxCoroutine_UnwindCleanup(_Unwind_Reason_Code, struct _Unwind_Exception *) __attribute__ ((__noreturn__));
        static void _CtxCoroutine_UnwindCleanup(_Unwind_Reason_Code, struct _Unwind_Exception *) {
                abort();
        }

        extern void CtxRet( struct __stack_context_t * to ) asm ("CtxRet") __attribute__ ((__noreturn__));
}

//-----------------------------------------------------------------------------
FORALL_DATA_INSTANCE(CoroutineCancelled, (dtype coroutine_t), (coroutine_t))

struct __cfaehm_node {
        struct _Unwind_Exception unwind_exception;
        struct __cfaehm_node * next;
        int handler_index;
};

forall(dtype T)
void mark_exception(CoroutineCancelled(T) *) {}

forall(dtype T)
void copy(CoroutineCancelled(T) * dst, CoroutineCancelled(T) * src) {
        dst->the_coroutine = src->the_coroutine;
        dst->the_exception = src->the_exception;
}

forall(dtype T)
const char * msg(CoroutineCancelled(T) *) {
        return "CoroutineCancelled(...)";
}

// This code should not be inlined. It is the error path on resume.
forall(dtype T | is_coroutine(T))
void __cfaehm_cancelled_coroutine( T & cor, $coroutine * desc ) {
        verify( desc->cancellation );
        desc->state = Cancelled;
        exception_t * except = (exception_t *)(1 + (__cfaehm_node *)desc->cancellation);

        // TODO: Remove explitate vtable set once trac#186 is fixed.
        CoroutineCancelled(T) except;
        except.virtual_table = &get_exception_vtable(&except);
        except.the_coroutine = &cor;
        except.the_exception = except;
        throwResume except;

        except->virtual_table->free( except );
        free( desc->cancellation );
        desc->cancellation = 0p;
}

//-----------------------------------------------------------------------------
// Global state variables

// minimum feasible stack size in bytes
#define MinStackSize 1000
extern size_t __page_size;                              // architecture pagesize HACK, should go in proper runtime singleton

void __stack_prepare( __stack_info_t * this, size_t create_size );

//-----------------------------------------------------------------------------
// Coroutine ctors and dtors
void ?{}( __stack_info_t & this, void * storage, size_t storageSize ) {
        this.storage   = (__stack_t *)storage;

        // Did we get a piece of storage ?
        if (this.storage || storageSize != 0) {
                // We either got a piece of storage or the user asked for a specific size
                // Immediately create the stack
                // (This is slightly unintuitive that non-default sized coroutines create are eagerly created
                // but it avoids that all coroutines carry an unnecessary size)
                verify( storageSize != 0 );
                __stack_prepare( &this, storageSize );
        }
}

void ^?{}(__stack_info_t & this) {
        bool userStack = ((intptr_t)this.storage & 0x1) != 0;
        if ( ! userStack && this.storage ) {
                __attribute__((may_alias)) intptr_t * istorage = (intptr_t *)&this.storage;
                *istorage &= (intptr_t)-1;

                void * storage = this.storage->limit;
                __cfaabi_dbg_debug_do(
                        storage = (char*)(storage) - __page_size;
                        if ( mprotect( storage, __page_size, PROT_READ | PROT_WRITE ) == -1 ) {
                                abort( "(coStack_t *)%p.^?{}() : internal error, mprotect failure, error(%d) %s.", &this, errno, strerror( errno ) );
                        }
                );
                __cfaabi_dbg_print_safe("Kernel : Deleting stack %p\n", storage);
                free( storage );
        }
}

void ?{}( $coroutine & this, const char name[], void * storage, size_t storageSize ) with( this ) {
        (this.context){0p, 0p};
        (this.stack){storage, storageSize};
        this.name = name;
        state = Start;
        starter = 0p;
        last = 0p;
        cancellation = 0p;
}

void ^?{}($coroutine& this) {
        if(this.state != Halted && this.state != Start && this.state != Primed) {
                $coroutine * src = TL_GET( this_thread )->curr_cor;
                $coroutine * dst = &this;

                struct _Unwind_Exception storage;
                storage.exception_class = -1;
                storage.exception_cleanup = _CtxCoroutine_UnwindCleanup;
                this.cancellation = &storage;
                this.last = src;

                // not resuming self ?
                if ( src == dst ) {
                        abort( "Attempt by coroutine %.256s (%p) to terminate itself.\n", src->name, src );
                }

                $ctx_switch( src, dst );
        }
}

// Part of the Public API
// Not inline since only ever called once per coroutine
forall(dtype T | is_coroutine(T))
void prime(T& cor) {
        $coroutine* this = get_coroutine(cor);
        assert(this->state == Start);

        this->state = Primed;
        resume(cor);
}

[void *, size_t] __stack_alloc( size_t storageSize ) {
        const size_t stack_data_size = libCeiling( sizeof(__stack_t), 16 ); // minimum alignment
        assert(__page_size != 0l);
        size_t size = libCeiling( storageSize, 16 ) + stack_data_size;

        // If we are running debug, we also need to allocate a guardpage to catch stack overflows.
        void * storage;
        __cfaabi_dbg_debug_do(
                storage = memalign( __page_size, size + __page_size );
        );
        __cfaabi_dbg_no_debug_do(
                storage = (void*)malloc(size);
        );

        __cfaabi_dbg_print_safe("Kernel : Created stack %p of size %zu\n", storage, size);
        __cfaabi_dbg_debug_do(
                if ( mprotect( storage, __page_size, PROT_NONE ) == -1 ) {
                        abort( "__stack_alloc : internal error, mprotect failure, error(%d) %s.", (int)errno, strerror( (int)errno ) );
                }
                storage = (void *)(((intptr_t)storage) + __page_size);
        );

        verify( ((intptr_t)storage & (libAlign() - 1)) == 0ul );
        return [storage, size];
}

void __stack_prepare( __stack_info_t * this, size_t create_size ) {
        const size_t stack_data_size = libCeiling( sizeof(__stack_t), 16 ); // minimum alignment
        bool userStack;
        void * storage;
        size_t size;
        if ( !this->storage ) {
                userStack = false;
                [storage, size] = __stack_alloc( create_size );
        } else {
                userStack = true;
                __cfaabi_dbg_print_safe("Kernel : stack obj %p using user stack %p(%zd bytes)\n", this, this->storage, (intptr_t)this->storage->limit - (intptr_t)this->storage->base);

                // The stack must be aligned, advance the pointer to the next align data
                storage = (void*)libCeiling( (intptr_t)this->storage, libAlign());

                // The size needs to be shrinked to fit all the extra data structure and be aligned
                ptrdiff_t diff = (intptr_t)storage - (intptr_t)this->storage;
                size = libFloor(create_size - stack_data_size - diff, libAlign());
        } // if
        assertf( size >= MinStackSize, "Stack size %zd provides less than minimum of %d bytes for a stack.", size, MinStackSize );

        this->storage = (__stack_t *)((intptr_t)storage + size);
        this->storage->limit = storage;
        this->storage->base  = (void*)((intptr_t)storage + size);
        this->storage->exception_context.top_resume = 0p;
        this->storage->exception_context.current_exception = 0p;
        __attribute__((may_alias)) intptr_t * istorage = (intptr_t*)&this->storage;
        *istorage |= userStack ? 0x1 : 0x0;
}

// We need to call suspend from invoke.c, so we expose this wrapper that
// is not inline (We can't inline Cforall in C)
extern "C" {
        void __cfactx_cor_leave( struct $coroutine * src ) {
                $coroutine * starter = src->cancellation != 0 ? src->last : src->starter;

                src->state = Halted;

                assertf( starter != 0,
                        "Attempt to suspend/leave coroutine \"%.256s\" (%p) that has never been resumed.\n"
                        "Possible cause is a suspend executed in a member called by a coroutine user rather than by the coroutine main.",
                        src->name, src );
                assertf( starter->state != Halted,
                        "Attempt by coroutine \"%.256s\" (%p) to suspend/leave back to terminated coroutine \"%.256s\" (%p).\n"
                        "Possible cause is terminated coroutine's main routine has already returned.",
                        src->name, src, starter->name, starter );

                $ctx_switch( src, starter );
        }

        struct $coroutine * __cfactx_cor_finish(void) {
                struct $coroutine * cor = kernelTLS.this_thread->curr_cor;

                if(cor->state == Primed) {
                        __cfactx_suspend();
                }

                cor->state = Active;

                return cor;
        }
}

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