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factor/vm/debug.c

491 lines
10 KiB
C
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#include "master.h"
static bool full_output;
void print_chars(F_STRING* str)
{
CELL i;
for(i = 0; i < string_capacity(str); i++)
putchar(string_nth(str,i));
}
void print_word(F_WORD* word, CELL nesting)
{
if(type_of(word->vocabulary) == STRING_TYPE)
{
print_chars(untag_string(word->vocabulary));
print_string(":");
}
if(type_of(word->name) == STRING_TYPE)
print_chars(untag_string(word->name));
else
{
print_string("#<not a string: ");
print_nested_obj(word->name,nesting);
print_string(">");
}
}
void print_factor_string(F_STRING* str)
{
putchar('"');
print_chars(str);
putchar('"');
}
void print_array(F_ARRAY* array, CELL nesting)
{
CELL length = array_capacity(array);
CELL i;
bool trimmed;
if(length > 10 && !full_output)
{
trimmed = true;
length = 10;
}
else
trimmed = false;
for(i = 0; i < length; i++)
{
print_string(" ");
print_nested_obj(array_nth(array,i),nesting);
}
if(trimmed)
print_string("...");
}
void print_tuple(F_TUPLE* tuple, CELL nesting)
{
F_TUPLE_LAYOUT *layout = untag_object(tuple->layout);
CELL length = to_fixnum(layout->size);
print_string(" ");
print_nested_obj(layout->class,nesting);
CELL i;
bool trimmed;
if(length > 10 && !full_output)
{
trimmed = true;
length = 10;
}
else
trimmed = false;
for(i = 0; i < length; i++)
{
print_string(" ");
print_nested_obj(tuple_nth(tuple,i),nesting);
}
if(trimmed)
print_string("...");
}
void print_nested_obj(CELL obj, F_FIXNUM nesting)
{
if(nesting <= 0 && !full_output)
{
print_string(" ... ");
return;
}
F_QUOTATION *quot;
switch(type_of(obj))
{
case FIXNUM_TYPE:
print_fixnum(untag_fixnum_fast(obj));
break;
case WORD_TYPE:
print_word(untag_word(obj),nesting - 1);
break;
case STRING_TYPE:
print_factor_string(untag_string(obj));
break;
case F_TYPE:
print_string("f");
break;
case TUPLE_TYPE:
print_string("T{");
print_tuple(untag_object(obj),nesting - 1);
print_string(" }");
break;
case ARRAY_TYPE:
print_string("{");
print_array(untag_object(obj),nesting - 1);
print_string(" }");
break;
case QUOTATION_TYPE:
print_string("[");
quot = untag_object(obj);
print_array(untag_object(quot->array),nesting - 1);
print_string(" ]");
break;
default:
print_string("#<type "); print_cell(type_of(obj)); print_string(" @ "); print_cell_hex(obj);
break;
}
}
void print_obj(CELL obj)
{
print_nested_obj(obj,10);
}
void print_objects(CELL start, CELL end)
{
for(; start <= end; start += CELLS)
{
print_obj(get(start));
nl();
}
}
void print_datastack(void)
{
print_string("==== DATA STACK:\n");
print_objects(ds_bot,ds);
}
void print_retainstack(void)
{
print_string("==== RETAIN STACK:\n");
print_objects(rs_bot,rs);
}
void print_stack_frame(F_STACK_FRAME *frame)
{
print_obj(frame_executing(frame));
print_string("\n");
print_obj(frame_scan(frame));
print_string("\n");
print_cell_hex((CELL)frame_executing(frame));
print_cell_hex((CELL)frame->xt);
}
void print_callstack(void)
{
print_string("==== CALL STACK:\n");
CELL bottom = (CELL)stack_chain->callstack_bottom;
CELL top = (CELL)stack_chain->callstack_top;
iterate_callstack(top,bottom,print_stack_frame);
}
void dump_cell(CELL cell)
{
print_cell_hex_pad(cell); print_string(": ");
cell = get(cell);
print_cell_hex_pad(cell); print_string(" tag "); print_cell(TAG(cell));
switch(TAG(cell))
{
case OBJECT_TYPE:
case BIGNUM_TYPE:
case FLOAT_TYPE:
if(cell == F)
print_string(" -- F");
else if(cell < TYPE_COUNT<<TAG_BITS)
{
print_string(" -- possible header: ");
print_cell(cell>>TAG_BITS);
}
else if(cell >= data_heap->segment->start
&& cell < data_heap->segment->end)
{
CELL header = get(UNTAG(cell));
CELL type = header>>TAG_BITS;
print_string(" -- object; ");
if(TAG(header) == 0 && type < TYPE_COUNT)
{
print_string(" type "); print_cell(type);
}
else
print_string(" header corrupt");
}
break;
}
nl();
}
void dump_memory(CELL from, CELL to)
{
from = UNTAG(from);
for(; from <= to; from += CELLS)
dump_cell(from);
}
void dump_zone(F_ZONE *z)
{
print_string("Start="); print_cell(z->start);
print_string(", size="); print_cell(z->size);
print_string(", here="); print_cell(z->here - z->start); nl();
}
void dump_generations(void)
{
CELL i;
print_string("Nursery: ");
dump_zone(&nursery);
for(i = 1; i < data_heap->gen_count; i++)
{
print_string("Generation "); print_cell(i); print_string(": ");
dump_zone(&data_heap->generations[i]);
}
for(i = 0; i < data_heap->gen_count; i++)
{
print_string("Semispace "); print_cell(i); print_string(": ");
dump_zone(&data_heap->semispaces[i]);
}
print_string("Cards: base=");
print_cell((CELL)data_heap->cards);
print_string(", size=");
print_cell((CELL)(data_heap->cards_end - data_heap->cards));
nl();
}
void dump_objects(F_FIXNUM type)
{
gc();
begin_scan();
CELL obj;
while((obj = next_object()) != F)
{
if(type == -1 || type_of(obj) == type)
{
print_cell_hex_pad(obj);
print_string(" ");
print_nested_obj(obj,2);
nl();
}
}
/* end scan */
gc_off = false;
}
CELL look_for;
CELL obj;
void find_data_references_step(CELL *scan)
{
if(look_for == *scan)
{
print_cell_hex_pad(obj);
print_string(" ");
print_nested_obj(obj,2);
nl();
}
}
void find_data_references(CELL look_for_)
{
look_for = look_for_;
begin_scan();
while((obj = next_object()) != F)
do_slots(UNTAG(obj),find_data_references_step);
/* end scan */
gc_off = false;
}
CELL look_for;
void find_code_references_step(F_COMPILED *compiled, CELL code_start, CELL literals_start)
{
CELL scan;
CELL literal_end = literals_start + compiled->literals_length;
for(scan = literals_start; scan < literal_end; scan += CELLS)
{
CELL code_start = (CELL)(compiled + 1);
CELL literal_start = code_start + compiled->code_length;
CELL obj = get(literal_start);
if(look_for == get(scan))
{
print_cell_hex_pad(obj);
print_string(" ");
print_nested_obj(obj,2);
nl();
}
}
}
void find_code_references(CELL look_for_)
{
look_for = look_for_;
iterate_code_heap(find_code_references_step);
}
void factorbug(void)
{
if(fep_disabled)
{
print_string("Low level debugger disabled\n");
exit(1);
}
/* open_console(); */
print_string("Starting low level debugger...\n");
print_string(" Basic commands:\n");
print_string("q -- continue executing Factor - NOT SAFE\n");
print_string("im -- save image to fep.image\n");
print_string("x -- exit Factor\n");
print_string(" Advanced commands:\n");
print_string("d <addr> <count> -- dump memory\n");
print_string("u <addr> -- dump object at tagged <addr>\n");
print_string(". <addr> -- print object at tagged <addr>\n");
print_string("t -- toggle output trimming\n");
print_string("s r -- dump data, retain stacks\n");
print_string(".s .r .c -- print data, retain, call stacks\n");
print_string("e -- dump environment\n");
print_string("g -- dump generations\n");
print_string("card <addr> -- print card containing address\n");
print_string("addr <card> -- print address containing card\n");
print_string("data -- data heap dump\n");
print_string("words -- words dump\n");
print_string("tuples -- tuples dump\n");
print_string("refs <addr> -- find data heap references to object\n");
print_string("push <addr> -- push object on data stack - NOT SAFE\n");
print_string("code -- code heap dump\n");
bool seen_command = false;
for(;;)
{
char cmd[1024];
print_string("READY\n");
fflush(stdout);
if(scanf("%1000s",cmd) <= 0)
{
if(!seen_command)
{
/* If we exit with an EOF immediately, then
dump stacks. This is useful for builder and
other cases where Factor is run with stdin
redirected to /dev/null */
fep_disabled = true;
print_datastack();
print_retainstack();
print_callstack();
}
exit(1);
}
seen_command = true;
if(strcmp(cmd,"d") == 0)
{
CELL addr = read_cell_hex();
scanf(" ");
CELL count = read_cell_hex();
dump_memory(addr,addr+count);
}
else if(strcmp(cmd,"u") == 0)
{
CELL addr = read_cell_hex();
CELL count = object_size(addr);
dump_memory(addr,addr+count);
}
else if(strcmp(cmd,".") == 0)
{
CELL addr = read_cell_hex();
print_obj(addr);
print_string("\n");
}
else if(strcmp(cmd,"t") == 0)
full_output = !full_output;
else if(strcmp(cmd,"s") == 0)
dump_memory(ds_bot,ds);
else if(strcmp(cmd,"r") == 0)
dump_memory(rs_bot,rs);
else if(strcmp(cmd,".s") == 0)
print_datastack();
else if(strcmp(cmd,".r") == 0)
print_retainstack();
else if(strcmp(cmd,".c") == 0)
print_callstack();
else if(strcmp(cmd,"e") == 0)
{
int i;
for(i = 0; i < USER_ENV; i++)
dump_cell((CELL)&userenv[i]);
}
else if(strcmp(cmd,"g") == 0)
dump_generations();
else if(strcmp(cmd,"card") == 0)
{
CELL addr = read_cell_hex();
print_cell_hex((CELL)ADDR_TO_CARD(addr));
nl();
}
else if(strcmp(cmd,"addr") == 0)
{
CELL card = read_cell_hex();
print_cell_hex((CELL)CARD_TO_ADDR(card));
nl();
}
else if(strcmp(cmd,"q") == 0)
return;
else if(strcmp(cmd,"x") == 0)
exit(1);
else if(strcmp(cmd,"im") == 0)
save_image(STR_FORMAT("fep.image"));
else if(strcmp(cmd,"data") == 0)
dump_objects(-1);
else if(strcmp(cmd,"refs") == 0)
{
CELL addr = read_cell_hex();
print_string("Data heap references:\n");
find_data_references(addr);
print_string("Code heap references:\n");
find_code_references(addr);
nl();
}
else if(strcmp(cmd,"words") == 0)
dump_objects(WORD_TYPE);
else if(strcmp(cmd,"tuples") == 0)
dump_objects(TUPLE_TYPE);
else if(strcmp(cmd,"push") == 0)
{
CELL addr = read_cell_hex();
dpush(addr);
}
else if(strcmp(cmd,"code") == 0)
dump_heap(&code_heap);
else
print_string("unknown command\n");
}
}
void primitive_die(void)
{
print_string("The die word was called by the library. Unless you called it yourself,\n");
print_string("you have triggered a bug in Factor. Please report.\n");
factorbug();
}
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