142 lines
3.1 KiB
C++
Executable File
142 lines
3.1 KiB
C++
Executable File
#include "master.hpp"
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namespace factor
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{
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callback_heap::callback_heap(cell size, factor_vm *parent_) :
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seg(new segment(size,true)),
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here(seg->start),
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parent(parent_) {}
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callback_heap::~callback_heap()
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{
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delete seg;
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seg = NULL;
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}
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void factor_vm::init_callbacks(cell size)
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{
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callbacks = new callback_heap(size,this);
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}
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bool callback_heap::setup_seh_p()
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{
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#if defined(WINDOWS) && defined(FACTOR_X86)
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return true;
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#else
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return false;
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#endif
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}
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bool callback_heap::return_takes_param_p()
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{
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#if defined(FACTOR_X86) || defined(FACTOR_AMD64)
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return true;
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#else
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return false;
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#endif
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}
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instruction_operand callback_heap::callback_operand(code_block *stub, cell index)
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{
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tagged<array> code_template(parent->special_objects[CALLBACK_STUB]);
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tagged<byte_array> relocation_template(array_nth(code_template.untagged(),0));
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relocation_entry entry(relocation_template->data<relocation_entry>()[index]);
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return instruction_operand(entry,stub,0);
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}
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void callback_heap::store_callback_operand(code_block *stub, cell index)
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{
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parent->store_external_address(callback_operand(stub,index));
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}
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void callback_heap::store_callback_operand(code_block *stub, cell index, cell value)
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{
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callback_operand(stub,index).store_value(value);
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}
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void callback_heap::update(code_block *stub)
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{
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store_callback_operand(stub,setup_seh_p() ? 2 : 1,(cell)callback_entry_point(stub));
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stub->flush_icache();
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}
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code_block *callback_heap::add(cell owner, cell return_rewind)
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{
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tagged<array> code_template(parent->special_objects[CALLBACK_STUB]);
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tagged<byte_array> insns(array_nth(code_template.untagged(),1));
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cell size = array_capacity(insns.untagged());
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cell bump = align(size + sizeof(code_block),data_alignment);
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if(here + bump > seg->end) fatal_error("Out of callback space",0);
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free_heap_block *free_block = (free_heap_block *)here;
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free_block->make_free(bump);
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here += bump;
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code_block *stub = (code_block *)free_block;
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stub->owner = owner;
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stub->parameters = false_object;
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stub->relocation = false_object;
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memcpy(stub->entry_point(),insns->data<void>(),size);
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/* Store VM pointer */
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store_callback_operand(stub,0,(cell)parent);
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cell index;
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if(setup_seh_p())
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{
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store_callback_operand(stub,1);
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index = 1;
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}
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else
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index = 0;
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/* Store VM pointer */
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store_callback_operand(stub,index + 2,(cell)parent);
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/* On x86, the RET instruction takes an argument which depends on
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the callback's calling convention */
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if(return_takes_param_p())
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store_callback_operand(stub,index + 3,return_rewind);
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update(stub);
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return stub;
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}
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struct callback_updater {
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callback_heap *callbacks;
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explicit callback_updater(callback_heap *callbacks_) : callbacks(callbacks_) {}
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void operator()(code_block *stub)
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{
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callbacks->update(stub);
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}
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};
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void callback_heap::update()
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{
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callback_updater updater(this);
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each_callback(updater);
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}
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/* Allocates memory */
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void factor_vm::primitive_callback()
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{
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cell return_rewind = to_cell(ctx->pop());
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tagged<word> w(ctx->pop());
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w.untag_check(this);
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void* func = callbacks->add(w.value(),return_rewind)->entry_point();
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CODE_TO_FUNCTION_POINTER_CALLBACK(this, func);
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ctx->push(allot_alien(func));
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}
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}
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