factor/vm/image.c

#include "factor.h"

void init_objects(HEADER *h)
{
	int i;
	for(i = 0; i < USER_ENV; i++)
		userenv[i] = F;
	userenv[GLOBAL_ENV] = h->global;
	userenv[BOOT_ENV] = h->boot;
	T = h->t;
	bignum_zero = h->bignum_zero;
	bignum_pos_one = h->bignum_pos_one;
	bignum_neg_one = h->bignum_neg_one;
}

void load_image(const char* filename, int literal_table)
{
	FILE* file;
	HEADER h;
	HEADER_2 ext_h;

	file = fopen(filename,"rb");
	if(file == NULL)
	{
		fprintf(stderr,"Cannot open image file: %s\n",filename);
		fprintf(stderr,"%s\n",strerror(errno));
		exit(1);
	}

	printf("Loading %s...",filename);

	/* read header */
	{
		/* read it in native byte order */
		fread(&h,sizeof(HEADER)/sizeof(CELL),sizeof(CELL),file);

		if(h.magic != IMAGE_MAGIC)
			fatal_error("Bad magic number",h.magic);

		if(h.version == IMAGE_VERSION)
			fread(&ext_h,sizeof(HEADER_2)/sizeof(CELL),sizeof(CELL),file);
		else if(h.version == IMAGE_VERSION_0)
		{
			ext_h.size = literal_table;
			ext_h.literal_top = 0;
			ext_h.literal_max = literal_table;
			ext_h.relocation_base = compiling.base;
		}
		else
			fatal_error("Bad version number",h.version);
	}

	/* read data heap */
	{
		CELL size = h.size / CELLS;
		allot(h.size);

		if(size != fread((void*)tenured.base,sizeof(CELL),size,file))
			fatal_error("Wrong data heap length",h.size);

		tenured.here = tenured.base + h.size;
		data_relocation_base = h.relocation_base;
	}

	/* read code heap */
	{
		CELL size = ext_h.size;
		if(size + compiling.base >= compiling.limit)
			fatal_error("Code heap too large",ext_h.size);

		if(h.version == IMAGE_VERSION
			&& size != fread((void*)compiling.base,1,size,file))
			fatal_error("Wrong code heap length",ext_h.size);

		compiling.here = compiling.base + ext_h.size;
		literal_top = compiling.base + ext_h.literal_top;
		literal_max = compiling.base + ext_h.literal_max;
		compiling.here = compiling.base + ext_h.size;
		code_relocation_base = ext_h.relocation_base;
	}

	fclose(file);

	printf(" relocating...");
	fflush(stdout);

	init_objects(&h);

	relocate_data();
	relocate_code();

	printf(" done\n");
	fflush(stdout);
}

bool save_image(const char* filename)
{
	FILE* file;
	HEADER h;
	HEADER_2 ext_h;

	fprintf(stderr,"Saving %s...\n",filename);

	file = fopen(filename,"wb");
	if(file == NULL)
		fatal_error("Cannot open image for writing",errno);

	h.magic = IMAGE_MAGIC;
	h.version = IMAGE_VERSION;
	h.relocation_base = tenured.base;
	h.boot = userenv[BOOT_ENV];
	h.size = tenured.here - tenured.base;
	h.global = userenv[GLOBAL_ENV];
	h.t = T;
	h.bignum_zero = bignum_zero;
	h.bignum_pos_one = bignum_pos_one;
	h.bignum_neg_one = bignum_neg_one;
	fwrite(&h,sizeof(HEADER),1,file);

	ext_h.size = compiling.here - compiling.base;
	ext_h.literal_top = literal_top - compiling.base;
	ext_h.literal_max = literal_max - compiling.base;
	ext_h.relocation_base = compiling.base;
	fwrite(&ext_h,sizeof(HEADER_2),1,file);

	fwrite((void*)tenured.base,h.size,1,file);
	fwrite((void*)compiling.base,ext_h.size,1,file);

	fclose(file);

	return true;
}

void primitive_save_image(void)
{
	F_STRING* filename;
	/* do a full GC to push everything into tenured space */
	garbage_collection(TENURED);
	filename = untag_string(dpop());
	save_image(to_char_string(filename,true));
}

void relocate_object(CELL relocating)
{
	switch(untag_header(get(relocating)))
	{
	case RATIO_TYPE:
		fixup_ratio((F_RATIO*)relocating);
		break;
	case COMPLEX_TYPE:
		fixup_complex((F_COMPLEX*)relocating);
		break;
	case WORD_TYPE:
		fixup_word((F_WORD*)relocating);
		break;
	case ARRAY_TYPE:
	case TUPLE_TYPE:
	case QUOTATION_TYPE:
		fixup_array((F_ARRAY*)relocating);
		break;
	case HASHTABLE_TYPE:
		fixup_hashtable((F_HASHTABLE*)relocating);
		break;
	case VECTOR_TYPE:
		fixup_vector((F_VECTOR*)relocating);
		break;
	case STRING_TYPE:
		rehash_string((F_STRING*)relocating);
		break;
	case SBUF_TYPE:
		fixup_sbuf((F_SBUF*)relocating);
		break;
	case DLL_TYPE:
		fixup_dll((DLL*)relocating);
		break;
	case ALIEN_TYPE:
		fixup_alien((ALIEN*)relocating);
		break;
	case WRAPPER_TYPE:
		fixup_wrapper((F_WRAPPER*)relocating);
		break;
	}
}

void relocate_data()
{
	CELL relocating;

	data_fixup(&userenv[BOOT_ENV]);
	data_fixup(&userenv[GLOBAL_ENV]);
	data_fixup(&T);
	data_fixup(&bignum_zero);
	data_fixup(&bignum_pos_one);
	data_fixup(&bignum_neg_one);

	for(relocating = tenured.base;
		relocating < tenured.here;
		relocating += untagged_object_size(relocating))
	{
		allot_barrier(relocating);
		relocate_object(relocating);
	}

	for(relocating = compiling.base;
		relocating < literal_top;
		relocating += CELLS)
	{
		data_fixup((CELL*)relocating);
	}
}

void undefined_symbol(void)
{
	general_error(ERROR_UNDEFINED_SYMBOL,F,F,true);
}

CELL get_rel_symbol(F_REL* rel)
{
	CELL arg = REL_ARGUMENT(rel);
	F_ARRAY *pair = untag_array(get(compiling.base + arg * CELLS));
	F_STRING *symbol = untag_string(get(AREF(pair,0)));
	CELL library = get(AREF(pair,1));
	DLL *dll = (library == F ? NULL : untag_dll(library));
	CELL sym;

	if(dll != NULL && !dll->dll)
		return (CELL)undefined_symbol;

	sym = (CELL)ffi_dlsym(dll,symbol,false);

	if(!sym)
		return (CELL)undefined_symbol;

	return sym;
}

INLINE CELL compute_code_rel(F_REL *rel, CELL original)
{
	switch(REL_TYPE(rel))
	{
	case F_PRIMITIVE:
		return primitive_to_xt(REL_ARGUMENT(rel));
	case F_DLSYM:
		return get_rel_symbol(rel);
	case F_ABSOLUTE:
		return original + (compiling.base - code_relocation_base);
	case F_CARDS:
		return cards_offset;
	default:
		critical_error("Unsupported rel type",rel->type);
		return -1;
	}
}

INLINE CELL relocate_code_next(CELL relocating)
{
	F_COMPILED* compiled = (F_COMPILED*)relocating;

	F_REL* rel = (F_REL*)(
		relocating + sizeof(F_COMPILED)
		+ compiled->code_length);

	F_REL* rel_end = (F_REL*)(
		relocating + sizeof(F_COMPILED)
		+ compiled->code_length
		+ compiled->reloc_length);

	if(compiled->header != COMPILED_HEADER)
		critical_error("Wrong compiled header",relocating);

	while(rel < rel_end)
	{
		CELL original;
		CELL new_value;

		code_fixup(&rel->offset);
		
		switch(REL_CLASS(rel))
		{
		case REL_ABSOLUTE_CELL:
			original = get(rel->offset);
			break;
		case REL_ABSOLUTE:
			original = *(u32*)rel->offset;
			break;
		case REL_RELATIVE:
			original = *(u32*)rel->offset - (rel->offset + sizeof(u32));
			break;
		case REL_2_2:
			original = reloc_get_2_2(rel->offset);
			break;
		default:
			critical_error("Unsupported rel class",REL_CLASS(rel));
			return -1;
		}

		/* to_c_string can fill up the heap */
		maybe_gc(0);
		new_value = compute_code_rel(rel,original);

		switch(REL_CLASS(rel))
		{
		case REL_ABSOLUTE_CELL:
			put(rel->offset,new_value);
			break;
		case REL_ABSOLUTE:
			*(u32*)rel->offset = new_value;
			break;
		case REL_RELATIVE:
			*(u32*)rel->offset = new_value - (rel->offset + CELLS);
			break;
		case REL_2_2:
			reloc_set_2_2(rel->offset,new_value);
			break;
		default:
			critical_error("Unsupported rel class",REL_CLASS(rel));
			return -1;
		}

		rel++;
	}

	return (CELL)rel_end;
}

void relocate_code()
{
	/* start relocating from the end of the space reserved for literals */
	CELL relocating = literal_max;
	while(relocating < compiling.here)
		relocating = relocate_code_next(relocating);
}
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`#include "factor.h"`

starting generational GC 2005-05-10 22:30:58 -04:00			`void init_objects(HEADER *h)`
			`{`
			`int i;`
			`for(i = 0; i < USER_ENV; i++)`
			`userenv[i] = F;`
			`userenv[GLOBAL_ENV] = h->global;`
			`userenv[BOOT_ENV] = h->boot;`
			`T = h->t;`
			`bignum_zero = h->bignum_zero;`
			`bignum_pos_one = h->bignum_pos_one;`
			`bignum_neg_one = h->bignum_neg_one;`
			`}`

Makefile changes 2006-03-19 19:59:45 -05:00			`void load_image(const char* filename, int literal_table)`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`{`
			`FILE* file;`
			`HEADER h;`
saving code to disk! 2004-12-25 02:55:03 -05:00			`HEADER_2 ext_h;`

First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`file = fopen(filename,"rb");`
read1 stream operation added, inferior.factor styled text communication protocol 2004-08-22 01:46:26 -04:00			`if(file == NULL)`
Double-clicking Factor.app now works 2006-03-19 02:42:40 -05:00			`{`
			`fprintf(stderr,"Cannot open image file: %s\n",filename);`
			`fprintf(stderr,"%s\n",strerror(errno));`
			`exit(1);`
			`}`

			`printf("Loading %s...",filename);`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00
saving code to disk! 2004-12-25 02:55:03 -05:00			`/* read header */`
			`{`
			`/* read it in native byte order */`
			`fread(&h,sizeof(HEADER)/sizeof(CELL),sizeof(CELL),file);`

			`if(h.magic != IMAGE_MAGIC)`
			`fatal_error("Bad magic number",h.magic);`

			`if(h.version == IMAGE_VERSION)`
			`fread(&ext_h,sizeof(HEADER_2)/sizeof(CELL),sizeof(CELL),file);`
			`else if(h.version == IMAGE_VERSION_0)`
			`{`
fixnum-shift intrinsics 2005-05-09 22:34:47 -04:00			`ext_h.size = literal_table;`
saving code to disk! 2004-12-25 02:55:03 -05:00			`ext_h.literal_top = 0;`
fixnum-shift intrinsics 2005-05-09 22:34:47 -04:00			`ext_h.literal_max = literal_table;`
saving code to disk! 2004-12-25 02:55:03 -05:00			`ext_h.relocation_base = compiling.base;`
			`}`
			`else`
			`fatal_error("Bad version number",h.version);`
			`}`

			`/* read data heap */`
			`{`
			`CELL size = h.size / CELLS;`
			`allot(h.size);`

more generational GC work 2005-05-11 00:43:52 -04:00			`if(size != fread((void*)tenured.base,sizeof(CELL),size,file))`
saving code to disk! 2004-12-25 02:55:03 -05:00			`fatal_error("Wrong data heap length",h.size);`

more generational GC work 2005-05-11 00:43:52 -04:00			`tenured.here = tenured.base + h.size;`
saving code to disk! 2004-12-25 02:55:03 -05:00			`data_relocation_base = h.relocation_base;`
			`}`

			`/* read code heap */`
			`{`
			`CELL size = ext_h.size;`
			`if(size + compiling.base >= compiling.limit)`
			`fatal_error("Code heap too large",ext_h.size);`

			`if(h.version == IMAGE_VERSION`
			`&& size != fread((void*)compiling.base,1,size,file))`
			`fatal_error("Wrong code heap length",ext_h.size);`

			`compiling.here = compiling.base + ext_h.size;`
			`literal_top = compiling.base + ext_h.literal_top;`
			`literal_max = compiling.base + ext_h.literal_max;`
			`compiling.here = compiling.base + ext_h.size;`
			`code_relocation_base = ext_h.relocation_base;`
			`}`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00
			`fclose(file);`

more compiler work, a few java factor fixes 2004-09-06 22:39:12 -04:00			`printf(" relocating...");`
parse number fix, doc updates, sparc32 fix, big-endian float fix 2004-08-07 18:45:48 -04:00			`fflush(stdout);`

starting generational GC 2005-05-10 22:30:58 -04:00			`init_objects(&h);`
parse number fix, doc updates, sparc32 fix, big-endian float fix 2004-08-07 18:45:48 -04:00
saving code to disk! 2004-12-25 02:55:03 -05:00			`relocate_data();`
			`relocate_code();`
parse number fix, doc updates, sparc32 fix, big-endian float fix 2004-08-07 18:45:48 -04:00
more compiler work, a few java factor fixes 2004-09-06 22:39:12 -04:00			`printf(" done\n");`
			`fflush(stdout);`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`}`

Makefile changes 2006-03-19 19:59:45 -05:00			`bool save_image(const char* filename)`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`{`
			`FILE* file;`
			`HEADER h;`
saving code to disk! 2004-12-25 02:55:03 -05:00			`HEADER_2 ext_h;`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00
working on cfactor bootstrap 2004-08-20 18:48:08 -04:00			`fprintf(stderr,"Saving %s...\n",filename);`
saving code to disk! 2004-12-25 02:55:03 -05:00
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`file = fopen(filename,"wb");`
read1 stream operation added, inferior.factor styled text communication protocol 2004-08-22 01:46:26 -04:00			`if(file == NULL)`
working on cfactor bootstrap 2004-08-20 18:48:08 -04:00			`fatal_error("Cannot open image for writing",errno);`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00
			`h.magic = IMAGE_MAGIC;`
			`h.version = IMAGE_VERSION;`
more generational GC work 2005-05-11 00:43:52 -04:00			`h.relocation_base = tenured.base;`
working on cfactor bootstrap 2004-08-20 18:48:08 -04:00			`h.boot = userenv[BOOT_ENV];`
more generational GC work 2005-05-11 00:43:52 -04:00			`h.size = tenured.here - tenured.base;`
working on cfactor bootstrap 2004-08-20 18:48:08 -04:00			`h.global = userenv[GLOBAL_ENV];`
starting generational GC 2005-05-10 22:30:58 -04:00			`h.t = T;`
			`h.bignum_zero = bignum_zero;`
			`h.bignum_pos_one = bignum_pos_one;`
			`h.bignum_neg_one = bignum_neg_one;`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`fwrite(&h,sizeof(HEADER),1,file);`
saving code to disk! 2004-12-25 02:55:03 -05:00
			`ext_h.size = compiling.here - compiling.base;`
			`ext_h.literal_top = literal_top - compiling.base;`
			`ext_h.literal_max = literal_max - compiling.base;`
			`ext_h.relocation_base = compiling.base;`
			`fwrite(&ext_h,sizeof(HEADER_2),1,file);`

more generational GC work 2005-05-11 00:43:52 -04:00			`fwrite((void*)tenured.base,h.size,1,file);`
saving code to disk! 2004-12-25 02:55:03 -05:00			`fwrite((void*)compiling.base,ext_h.size,1,file);`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00
			`fclose(file);`

			`return true;`
			`}`

			`void primitive_save_image(void)`
			`{`
array refactoring; started hashtable refactoring 2005-01-25 19:40:57 -05:00			`F_STRING* filename;`
more generational GC work 2005-05-11 00:43:52 -04:00			`/* do a full GC to push everything into tenured space */`
			`garbage_collection(TENURED);`
array refactoring; started hashtable refactoring 2005-01-25 19:40:57 -05:00			`filename = untag_string(dpop());`
FFI now supports Unicode (UTF16) strings better, and the Cocoa bridge uses this functionality 2006-05-22 23:32:27 -04:00			`save_image(to_char_string(filename,true));`
First import of Factor 0.60 2004-07-16 02:26:21 -04:00			`}`
Big runtime cleanup 2006-07-07 00:07:18 -04:00
			`void relocate_object(CELL relocating)`
			`{`
			`switch(untag_header(get(relocating)))`
			`{`
			`case RATIO_TYPE:`
			`fixup_ratio((F_RATIO*)relocating);`
			`break;`
			`case COMPLEX_TYPE:`
			`fixup_complex((F_COMPLEX*)relocating);`
			`break;`
			`case WORD_TYPE:`
			`fixup_word((F_WORD*)relocating);`
			`break;`
			`case ARRAY_TYPE:`
			`case TUPLE_TYPE:`
			`case QUOTATION_TYPE:`
			`fixup_array((F_ARRAY*)relocating);`
			`break;`
			`case HASHTABLE_TYPE:`
			`fixup_hashtable((F_HASHTABLE*)relocating);`
			`break;`
			`case VECTOR_TYPE:`
			`fixup_vector((F_VECTOR*)relocating);`
			`break;`
			`case STRING_TYPE:`
			`rehash_string((F_STRING*)relocating);`
			`break;`
			`case SBUF_TYPE:`
			`fixup_sbuf((F_SBUF*)relocating);`
			`break;`
			`case DLL_TYPE:`
			`fixup_dll((DLL*)relocating);`
			`break;`
			`case ALIEN_TYPE:`
			`fixup_alien((ALIEN*)relocating);`
			`break;`
			`case WRAPPER_TYPE:`
			`fixup_wrapper((F_WRAPPER*)relocating);`
			`break;`
			`}`
			`}`

			`void relocate_data()`
			`{`
			`CELL relocating;`

			`data_fixup(&userenv[BOOT_ENV]);`
			`data_fixup(&userenv[GLOBAL_ENV]);`
			`data_fixup(&T);`
			`data_fixup(&bignum_zero);`
			`data_fixup(&bignum_pos_one);`
			`data_fixup(&bignum_neg_one);`

			`for(relocating = tenured.base;`
			`relocating < tenured.here;`
			`relocating += untagged_object_size(relocating))`
			`{`
			`allot_barrier(relocating);`
			`relocate_object(relocating);`
			`}`

			`for(relocating = compiling.base;`
			`relocating < literal_top;`
			`relocating += CELLS)`
			`{`
			`data_fixup((CELL*)relocating);`
			`}`
			`}`

			`void undefined_symbol(void)`
			`{`
			`general_error(ERROR_UNDEFINED_SYMBOL,F,F,true);`
			`}`

			`CELL get_rel_symbol(F_REL* rel)`
			`{`
			`CELL arg = REL_ARGUMENT(rel);`
			`F_ARRAY pair = untag_array(get(compiling.base + arg CELLS));`
			`F_STRING *symbol = untag_string(get(AREF(pair,0)));`
			`CELL library = get(AREF(pair,1));`
			`DLL *dll = (library == F ? NULL : untag_dll(library));`
			`CELL sym;`

			`if(dll != NULL && !dll->dll)`
			`return (CELL)undefined_symbol;`

			`sym = (CELL)ffi_dlsym(dll,symbol,false);`

			`if(!sym)`
			`return (CELL)undefined_symbol;`

			`return sym;`
			`}`

			`INLINE CELL compute_code_rel(F_REL *rel, CELL original)`
			`{`
			`switch(REL_TYPE(rel))`
			`{`
			`case F_PRIMITIVE:`
			`return primitive_to_xt(REL_ARGUMENT(rel));`
			`case F_DLSYM:`
			`return get_rel_symbol(rel);`
			`case F_ABSOLUTE:`
			`return original + (compiling.base - code_relocation_base);`
			`case F_CARDS:`
			`return cards_offset;`
			`default:`
			`critical_error("Unsupported rel type",rel->type);`
			`return -1;`
			`}`
			`}`

			`INLINE CELL relocate_code_next(CELL relocating)`
			`{`
			`F_COMPILED* compiled = (F_COMPILED*)relocating;`

			`F_REL* rel = (F_REL*)(`
			`relocating + sizeof(F_COMPILED)`
			`+ compiled->code_length);`

			`F_REL* rel_end = (F_REL*)(`
			`relocating + sizeof(F_COMPILED)`
			`+ compiled->code_length`
			`+ compiled->reloc_length);`

			`if(compiled->header != COMPILED_HEADER)`
			`critical_error("Wrong compiled header",relocating);`

			`while(rel < rel_end)`
			`{`
			`CELL original;`
			`CELL new_value;`

			`code_fixup(&rel->offset);`

			`switch(REL_CLASS(rel))`
			`{`
			`case REL_ABSOLUTE_CELL:`
			`original = get(rel->offset);`
			`break;`
			`case REL_ABSOLUTE:`
			`original = (u32)rel->offset;`
			`break;`
			`case REL_RELATIVE:`
			`original = (u32)rel->offset - (rel->offset + sizeof(u32));`
			`break;`
			`case REL_2_2:`
			`original = reloc_get_2_2(rel->offset);`
			`break;`
			`default:`
			`critical_error("Unsupported rel class",REL_CLASS(rel));`
			`return -1;`
			`}`

			`/* to_c_string can fill up the heap */`
			`maybe_gc(0);`
			`new_value = compute_code_rel(rel,original);`

			`switch(REL_CLASS(rel))`
			`{`
			`case REL_ABSOLUTE_CELL:`
			`put(rel->offset,new_value);`
			`break;`
			`case REL_ABSOLUTE:`
			`(u32)rel->offset = new_value;`
			`break;`
			`case REL_RELATIVE:`
			`(u32)rel->offset = new_value - (rel->offset + CELLS);`
			`break;`
			`case REL_2_2:`
			`reloc_set_2_2(rel->offset,new_value);`
			`break;`
			`default:`
			`critical_error("Unsupported rel class",REL_CLASS(rel));`
			`return -1;`
			`}`

			`rel++;`
			`}`

			`return (CELL)rel_end;`
			`}`

			`void relocate_code()`
			`{`
			`/* start relocating from the end of the space reserved for literals */`
			`CELL relocating = literal_max;`
			`while(relocating < compiling.here)`
			`relocating = relocate_code_next(relocating);`
			`}`