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fiber_data.hpp
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fiber_data.hpp
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#ifndef RBX_VM_FIBER_DATA_HPP
#define RBX_VM_FIBER_DATA_HPP
#include "vm/config.h"
#include "bug.hpp"
#include "prelude.hpp"
#include "gc/variable_buffer.hpp"
namespace rubinius {
#if defined(IS_X86)
#define FIBER_ASM_X8632
struct fiber_context_t {
void* eip;
void* esp;
void* ebp;
void* ebx;
};
#elif defined(IS_X8664)
#define FIBER_ASM_X8664
struct fiber_context_t {
void* rip;
void* rsp;
void* rbp;
void* rbx;
void* r12;
void* r13;
void* r14;
void* r15;
};
#else
struct fiber_context_t {
int dummy;
};
#endif
class FiberStack;
class FiberStacks;
class FiberData {
fiber_context_t machine_;
enum Status {
eInitial = 1,
eRunning,
eOnStack,
eOnHeap,
eDead
} status_;
VM* thread_;
FiberStack* stack_;
void* heap_;
size_t heap_size_;
size_t heap_capacity_;
VariableRootBuffers variable_root_buffers_;
CallFrame* call_frame_;
// Private constructor so only FiberStack can use it.
FiberData(VM* thread, bool root=false)
: status_(root ? eOnStack : eInitial)
, thread_(thread)
, stack_(0)
, heap_(0)
, heap_size_(0)
, heap_capacity_(0)
, call_frame_(0)
{}
friend class FiberStacks;
public:
~FiberData();
bool dead_p() {
return status_ == eDead;
}
CallFrame* call_frame() {
return call_frame_;
}
void set_call_frame(CallFrame* cf) {
call_frame_ = cf;
}
VM* thread() {
return thread_;
}
VariableRootBuffers& variable_root_buffers() {
return variable_root_buffers_;
}
bool uninitialized_p() {
return status_ == eInitial && stack_ == 0;
}
fiber_context_t* machine() {
return &machine_;
}
void* stack_address() {
return stack_ ? stack_->address() : 0;
}
size_t stack_size() {
return stack_ ? stack_->size() : 0;
}
void* stack_bottom() {
#ifdef RBX_FIBER_ENABLED
#if defined(FIBER_ASM_X8632)
return machine_.esp;
#elif defined(FIBER_ASM_X8664)
return machine_.rsp;
#endif
#else
rubinius::bug("Fibers not supported on this platform");
return 0; // for the cute little dumb compiler
#endif
}
intptr_t data_offset() {
if(status_ != eOnHeap) return 0;
return (intptr_t)heap_ - (intptr_t)stack_bottom();
}
intptr_t data_lower_bound() {
if(status_ != eOnHeap) return 0;
return (intptr_t)stack_->address();
}
intptr_t data_upper_bound() {
if(status_ != eOnHeap) return 0;
return (intptr_t)stack_->address() + stack_->size();
}
bool currently_on_stack_p(FiberData* cur) {
return stack_ && stack_->user() == cur;
}
FiberStack* allocate_stack(STATE);
void take_stack(STATE);
void copy_stack(STATE, void* addr, size_t size);
void copy_to_heap(STATE);
void orphan(STATE);
void switch_to(STATE, FiberData* from);
void switch_and_orphan(STATE, FiberData* from);
void die();
};
}
#endif