py: Tidy up variables in VM, probably fixes subtle bugs.
Things get tricky when using the nlr code to catch exceptions. Need to ensure that the variables (stack layout) in the exception handler are the same as in the bit protected by the exception handler. Prior to this patch there were a few bugs. 1) The constant mp_const_MemoryError_obj was being preloaded to a specific location on the stack at the start of the function. But this location on the stack was being overwritten in the opcode loop (since it didn't think that variable would ever be referenced again), and so when an exception occurred, the variable holding the address of MemoryError was corrupt. 2) The FOR_ITER opcode detection in the exception handler used sp, which may or may not contain the right value coming out of the main opcode loop. With this patch there is a clear separation of variables used in the opcode loop and in the exception handler (should fix issue (2) above). Furthermore, nlr_raise is no longer used in the opcode loop. Instead, it jumps directly into the exception handler. This tells the C compiler more about the possible code flow, and means that it should have the same stack layout for the exception handler. This should fix issue (1) above. Indeed, the generated (ARM) assembler has been checked explicitly, and with 'goto exception_handler', the problem with &MemoryError is fixed. This may now fix problems with rge-sm, and probably many other subtle bugs yet to show themselves. Incidentally, rge-sm now passes on pyboard (with a reduced range of integration)! Main lesson: nlr is tricky. Don't use nlr_push unless you know what you are doing! Luckily, it's not used in many places. Using nlr_raise/jump is fine.
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py/vm.c
66
py/vm.c
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@ -165,8 +165,6 @@ mp_vm_return_kind_t mp_execute_byte_code_2(const byte *code_info, const byte **i
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mp_obj_t *fastn, mp_obj_t **sp_in_out,
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mp_exc_stack_t *exc_stack, mp_exc_stack_t **exc_sp_in_out,
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volatile mp_obj_t inject_exc) {
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// careful: be sure to declare volatile any variables read in the exception handler (written is ok, I think)
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#if MICROPY_USE_COMPUTED_GOTOS
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#include "vmentrytable.h"
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#define DISPATCH() do { \
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@ -182,32 +180,43 @@ mp_vm_return_kind_t mp_execute_byte_code_2(const byte *code_info, const byte **i
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#define ENTRY_DEFAULT default
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#endif
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int op = 0;
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const byte *ip = *ip_in_out;
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mp_obj_t *sp = *sp_in_out;
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machine_uint_t unum;
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qstr qst;
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mp_obj_t obj1, obj2;
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nlr_buf_t nlr;
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// nlr_raise needs to be implemented as a goto, so that the C compiler's flow analyser
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// sees that it's possible for us to jump from the dispatch loop to the exception
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// handler. Without this, the code may have a different stack layout in the dispatch
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// loop and the exception handler, leading to very obscure bugs.
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#define RAISE(o) do { nlr_pop(); nlr.ret_val = o; goto exception_handler; } while(0)
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// variables that are visible to the exception handler (declared volatile)
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volatile bool currently_in_except_block = MP_TAGPTR_TAG(*exc_sp_in_out); // 0 or 1, to detect nested exceptions
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mp_exc_stack_t *volatile exc_sp = MP_TAGPTR_PTR(*exc_sp_in_out); // stack grows up, exc_sp points to top of stack
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const byte *volatile save_ip = ip; // this is so we can access ip in the exception handler without making ip volatile (which means the compiler can't keep it in a register in the main loop)
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const byte *volatile save_ip = *ip_in_out; // this is so we can access ip in the exception handler without making ip volatile (which means the compiler can't keep it in a register in the main loop)
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mp_obj_t *volatile save_sp = *sp_in_out; // this is so we can access sp in the exception handler when needed
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// outer exception handling loop
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for (;;) {
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nlr_buf_t nlr;
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outer_dispatch_loop:
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if (nlr_push(&nlr) == 0) {
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// local variables that are not visible to the exception handler
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byte op = 0;
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const byte *ip = *ip_in_out;
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mp_obj_t *sp = *sp_in_out;
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machine_uint_t unum;
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qstr qst;
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mp_obj_t obj1, obj2;
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// If we have exception to inject, now that we finish setting up
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// execution context, raise it. This works as if RAISE_VARARGS
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// bytecode was executed.
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// Injecting exc into yield from generator is a special case,
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// handled by MP_BC_YIELD_FROM itself
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if (inject_exc != MP_OBJ_NULL && *ip != MP_BC_YIELD_FROM) {
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mp_obj_t t = inject_exc;
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obj1 = inject_exc;
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inject_exc = MP_OBJ_NULL;
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nlr_raise(mp_make_raise_obj(t));
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obj1 = mp_make_raise_obj(obj1);
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RAISE(obj1);
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}
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// loop to execute byte code
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for (;;) {
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dispatch_loop:
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@ -297,7 +306,8 @@ dispatch_loop:
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load_check:
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if (obj1 == MP_OBJ_NULL) {
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local_name_error:
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nlr_raise(mp_obj_new_exception_msg(&mp_type_NameError, "local variable referenced before assignment"));
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obj1 = mp_obj_new_exception_msg(&mp_type_NameError, "local variable referenced before assignment");
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RAISE(obj1);
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}
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PUSH(obj1);
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DISPATCH();
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@ -580,7 +590,7 @@ unwind_jump:
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// if TOS is an integer, does something else
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// else error
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if (mp_obj_is_exception_type(TOP())) {
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nlr_raise(sp[-1]);
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RAISE(sp[-1]);
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}
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if (TOP() == mp_const_none) {
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sp--;
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@ -606,6 +616,7 @@ unwind_jump:
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ENTRY(MP_BC_FOR_ITER):
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DECODE_ULABEL; // the jump offset if iteration finishes; for labels are always forward
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save_sp = sp;
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obj1 = mp_iternext_allow_raise(TOP());
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if (obj1 == MP_OBJ_NULL) {
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--sp; // pop the exhausted iterator
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@ -829,12 +840,14 @@ unwind_return:
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}
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}
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if (obj1 == MP_OBJ_NULL) {
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nlr_raise(mp_obj_new_exception_msg(&mp_type_RuntimeError, "No active exception to reraise"));
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obj1 = mp_obj_new_exception_msg(&mp_type_RuntimeError, "No active exception to reraise");
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RAISE(obj1);
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}
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} else {
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obj1 = POP();
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}
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nlr_raise(mp_make_raise_obj(obj1));
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obj1 = mp_make_raise_obj(obj1);
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RAISE(obj1);
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ENTRY(MP_BC_YIELD_VALUE):
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yield:
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@ -847,7 +860,7 @@ yield:
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ENTRY(MP_BC_YIELD_FROM): {
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//#define EXC_MATCH(exc, type) MP_OBJ_IS_TYPE(exc, type)
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#define EXC_MATCH(exc, type) mp_obj_exception_match(exc, type)
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#define GENERATOR_EXIT_IF_NEEDED(t) if (t != MP_OBJ_NULL && EXC_MATCH(t, &mp_type_GeneratorExit)) { nlr_raise(t); }
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#define GENERATOR_EXIT_IF_NEEDED(t) if (t != MP_OBJ_NULL && EXC_MATCH(t, &mp_type_GeneratorExit)) { RAISE(t); }
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mp_vm_return_kind_t ret_kind;
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obj1 = POP();
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mp_obj_t t_exc = MP_OBJ_NULL;
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@ -890,7 +903,7 @@ yield:
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GENERATOR_EXIT_IF_NEEDED(t_exc);
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DISPATCH();
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} else {
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nlr_raise(obj2);
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RAISE(obj2);
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}
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}
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}
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@ -912,25 +925,27 @@ yield:
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DISPATCH();
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ENTRY_DEFAULT:
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printf("code %p, byte code 0x%02x not implemented\n", ip, op);
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obj1 = mp_obj_new_exception_msg(&mp_type_NotImplementedError, "byte code not implemented");
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nlr_pop();
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fastn[0] = obj1;
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return MP_VM_RETURN_EXCEPTION;
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#if !MICROPY_USE_COMPUTED_GOTOS
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} // switch
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#endif
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}
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} // for loop
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} else {
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exception_handler:
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// exception occurred
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// check if it's a StopIteration within a for block
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if (*save_ip == MP_BC_FOR_ITER && mp_obj_is_subclass_fast(mp_obj_get_type(nlr.ret_val), &mp_type_StopIteration)) {
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ip = save_ip + 1;
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const byte *ip = save_ip + 1;
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machine_uint_t unum;
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DECODE_ULABEL; // the jump offset if iteration finishes; for labels are always forward
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--sp; // pop the exhausted iterator
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ip += unum; // jump to after for-block
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*ip_in_out = ip + unum; // jump to after for-block
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*sp_in_out = save_sp - 1; // pop the exhausted iterator
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goto outer_dispatch_loop; // continue with dispatch loop
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}
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currently_in_except_block = 1;
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// catch exception and pass to byte code
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sp = MP_TAGPTR_PTR(exc_sp->val_sp);
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ip = exc_sp->handler;
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*ip_in_out = exc_sp->handler;
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mp_obj_t *sp = MP_TAGPTR_PTR(exc_sp->val_sp);
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// save this exception in the stack so it can be used in a reraise, if needed
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exc_sp->prev_exc = nlr.ret_val;
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// push(traceback, exc-val, exc-type)
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PUSH(mp_const_none);
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PUSH(nlr.ret_val);
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PUSH(mp_obj_get_type(nlr.ret_val));
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*sp_in_out = sp;
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} else {
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// propagate exception to higher level
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