173 lines
4.5 KiB
C++
Executable File
173 lines
4.5 KiB
C++
Executable File
#include "master.hpp"
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namespace factor
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{
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void fatal_error(const char *msg, cell tagged)
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{
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std::cout << "fatal_error: " << msg;
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std::cout << ": " << std::hex << tagged << std::dec;
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std::cout << std::endl;
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exit(1);
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}
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void critical_error(const char *msg, cell tagged)
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{
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std::cout << "You have triggered a bug in Factor. Please report.\n";
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std::cout << "critical_error: " << msg;
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std::cout << ": " << std::hex << tagged << std::dec;
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std::cout << std::endl;
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tls_vm()->factorbug();
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}
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void out_of_memory()
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{
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std::cout << "Out of memory\n\n";
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tls_vm()->dump_generations();
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exit(1);
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}
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void factor_vm::throw_error(cell error, stack_frame *callstack_top)
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{
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/* If the error handler is set, we rewind any C stack frames and
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pass the error to user-space. */
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if(!current_gc && to_boolean(special_objects[ERROR_HANDLER_QUOT]))
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{
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/* If error was thrown during heap scan, we re-enable the GC */
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gc_off = false;
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/* Reset local roots */
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data_roots.clear();
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bignum_roots.clear();
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code_roots.clear();
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/* If we had an underflow or overflow, stack pointers might be
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out of bounds */
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ctx->fix_stacks();
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ctx->push(error);
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/* Errors thrown from C code pass NULL for this parameter.
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Errors thrown from Factor code, or signal handlers, pass the
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actual stack pointer at the time, since the saved pointer is
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not necessarily up to date at that point. */
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if(callstack_top)
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callstack_top = fix_callstack_top(callstack_top,ctx->callstack_bottom);
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else
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callstack_top = ctx->callstack_top;
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unwind_native_frames(special_objects[ERROR_HANDLER_QUOT],callstack_top);
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}
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/* Error was thrown in early startup before error handler is set, just
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crash. */
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else
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{
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std::cout << "You have triggered a bug in Factor. Please report.\n";
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std::cout << "early_error: ";
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print_obj(error);
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std::cout << std::endl;
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factorbug();
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}
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}
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void factor_vm::general_error(vm_error_type error, cell arg1, cell arg2, stack_frame *callstack_top)
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{
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throw_error(allot_array_4(special_objects[OBJ_ERROR],
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tag_fixnum(error),arg1,arg2),callstack_top);
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}
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void factor_vm::type_error(cell type, cell tagged)
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{
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general_error(ERROR_TYPE,tag_fixnum(type),tagged,NULL);
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}
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void factor_vm::not_implemented_error()
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{
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general_error(ERROR_NOT_IMPLEMENTED,false_object,false_object,NULL);
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}
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/* Test if 'fault' is in the guard page at the top or bottom (depending on
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offset being 0 or -1) of area+area_size */
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bool factor_vm::in_page(cell fault, cell area, cell area_size, int offset)
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{
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int pagesize = getpagesize();
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area += area_size;
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area += offset * pagesize;
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return fault >= area && fault <= area + pagesize;
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}
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void factor_vm::memory_protection_error(cell addr, stack_frame *native_stack)
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{
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if(in_page(addr, ctx->datastack_region->start, 0, -1))
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general_error(ERROR_DS_UNDERFLOW,false_object,false_object,native_stack);
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else if(in_page(addr, ctx->datastack_region->start, ds_size, 0))
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general_error(ERROR_DS_OVERFLOW,false_object,false_object,native_stack);
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else if(in_page(addr, ctx->retainstack_region->start, 0, -1))
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general_error(ERROR_RS_UNDERFLOW,false_object,false_object,native_stack);
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else if(in_page(addr, ctx->retainstack_region->start, rs_size, 0))
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general_error(ERROR_RS_OVERFLOW,false_object,false_object,native_stack);
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else if(in_page(addr, nursery.end, 0, 0))
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critical_error("allot_object() missed GC check",0);
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else
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general_error(ERROR_MEMORY,allot_cell(addr),false_object,native_stack);
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}
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void factor_vm::signal_error(cell signal, stack_frame *native_stack)
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{
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general_error(ERROR_SIGNAL,allot_cell(signal),false_object,native_stack);
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}
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void factor_vm::divide_by_zero_error()
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{
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general_error(ERROR_DIVIDE_BY_ZERO,false_object,false_object,NULL);
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}
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void factor_vm::fp_trap_error(unsigned int fpu_status, stack_frame *signal_callstack_top)
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{
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general_error(ERROR_FP_TRAP,tag_fixnum(fpu_status),false_object,signal_callstack_top);
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}
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void factor_vm::primitive_call_clear()
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{
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unwind_native_frames(ctx->pop(),ctx->callstack_bottom);
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}
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/* For testing purposes */
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void factor_vm::primitive_unimplemented()
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{
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not_implemented_error();
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}
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void factor_vm::memory_signal_handler_impl()
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{
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memory_protection_error(signal_fault_addr,signal_callstack_top);
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}
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void memory_signal_handler_impl()
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{
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tls_vm()->memory_signal_handler_impl();
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}
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void factor_vm::misc_signal_handler_impl()
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{
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signal_error(signal_number,signal_callstack_top);
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}
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void misc_signal_handler_impl()
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{
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tls_vm()->misc_signal_handler_impl();
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}
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void factor_vm::fp_signal_handler_impl()
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{
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fp_trap_error(signal_fpu_status,signal_callstack_top);
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}
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void fp_signal_handler_impl()
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{
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tls_vm()->fp_signal_handler_impl();
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}
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}
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