1 /*
2    +----------------------------------------------------------------------+
3    | Zend Engine, e-SSA based Type & Range Inference                      |
4    +----------------------------------------------------------------------+
5    | Copyright (c) 1998-2018 The PHP Group                                |
6    +----------------------------------------------------------------------+
7    | This source file is subject to version 3.01 of the PHP license,      |
8    | that is bundled with this package in the file LICENSE, and is        |
9    | available through the world-wide-web at the following url:           |
10    | http://www.php.net/license/3_01.txt                                  |
11    | If you did not receive a copy of the PHP license and are unable to   |
12    | obtain it through the world-wide-web, please send a note to          |
13    | license@php.net so we can mail you a copy immediately.               |
14    +----------------------------------------------------------------------+
15    | Authors: Dmitry Stogov <dmitry@zend.com>                             |
16    +----------------------------------------------------------------------+
17 */
18 
19 #include "php.h"
20 #include "zend_compile.h"
21 #include "zend_generators.h"
22 #include "zend_inference.h"
23 #include "zend_func_info.h"
24 #include "zend_call_graph.h"
25 #include "zend_worklist.h"
26 
27 /* The used range inference algorithm is described in:
28  *     V. Campos, R. Rodrigues, I. de Assis Costa and F. Pereira.
29  *     "Speed and Precision in Range Analysis", SBLP'12.
30  *
31  * There are a couple degrees of freedom, we use:
32  *  * Propagation on SCCs.
33  *  * e-SSA for live range splitting.
34  *  * Only intra-procedural inference.
35  *  * Widening with warmup passes, but without jump sets.
36  */
37 
38 /* Whether to handle symbolic range constraints */
39 #define SYM_RANGE
40 
41 /* Whether to handle negative range constraints */
42 /* Negative range inference is buggy, so disabled for now */
43 #undef NEG_RANGE
44 
45 /* Number of warmup passes to use prior to widening */
46 #define RANGE_WARMUP_PASSES 16
47 
48 /* Logging for range inference in general */
49 #if 0
50 #define LOG_SSA_RANGE(...) fprintf(stderr, __VA_ARGS__)
51 #else
52 #define LOG_SSA_RANGE(...)
53 #endif
54 
55 /* Logging for negative range constraints */
56 #if 0
57 #define LOG_NEG_RANGE(...) fprintf(stderr, __VA_ARGS__)
58 #else
59 #define LOG_NEG_RANGE(...)
60 #endif
61 
62 /* Pop elements in unspecified order from worklist until it is empty */
63 #define WHILE_WORKLIST(worklist, len, i) do { \
64 	zend_bool _done = 0; \
65 	while (!_done) { \
66 		_done = 1; \
67 		ZEND_BITSET_FOREACH(worklist, len, i) { \
68 			zend_bitset_excl(worklist, i); \
69 			_done = 0;
70 
71 #define WHILE_WORKLIST_END() \
72 		} ZEND_BITSET_FOREACH_END(); \
73 	} \
74 } while (0)
75 
76 #define CHECK_SCC_VAR(var2) \
77 	do { \
78 		if (!ssa->vars[var2].no_val) { \
79 			if (dfs[var2] < 0) { \
80 				zend_ssa_check_scc_var(op_array, ssa, var2, index, dfs, root, stack); \
81 			} \
82 			if (ssa->vars[var2].scc < 0 && dfs[root[var]] >= dfs[root[var2]]) { \
83 				root[var] = root[var2]; \
84 			} \
85 		} \
86 	} while (0)
87 
88 #define CHECK_SCC_ENTRY(var2) \
89 	do { \
90 		if (ssa->vars[var2].scc != ssa->vars[var].scc) { \
91 			ssa->vars[var2].scc_entry = 1; \
92 		} \
93 	} while (0)
94 
95 #define ADD_SCC_VAR(_var) \
96 	do { \
97 		if (ssa->vars[_var].scc == scc) { \
98 			zend_bitset_incl(worklist, _var); \
99 		} \
100 	} while (0)
101 
102 #define ADD_SCC_VAR_1(_var) \
103 	do { \
104 		if (ssa->vars[_var].scc == scc && \
105 		    !zend_bitset_in(visited, _var)) { \
106 			zend_bitset_incl(worklist, _var); \
107 		} \
108 	} while (0)
109 
110 #define FOR_EACH_DEFINED_VAR(line, MACRO) \
111 	do { \
112 		if (ssa->ops[line].op1_def >= 0) { \
113 			MACRO(ssa->ops[line].op1_def); \
114 		} \
115 		if (ssa->ops[line].op2_def >= 0) { \
116 			MACRO(ssa->ops[line].op2_def); \
117 		} \
118 		if (ssa->ops[line].result_def >= 0) { \
119 			MACRO(ssa->ops[line].result_def); \
120 		} \
121 		if (op_array->opcodes[line].opcode == ZEND_OP_DATA) { \
122 			if (ssa->ops[line-1].op1_def >= 0) { \
123 				MACRO(ssa->ops[line-1].op1_def); \
124 			} \
125 			if (ssa->ops[line-1].op2_def >= 0) { \
126 				MACRO(ssa->ops[line-1].op2_def); \
127 			} \
128 			if (ssa->ops[line-1].result_def >= 0) { \
129 				MACRO(ssa->ops[line-1].result_def); \
130 			} \
131 		} else if ((uint32_t)line+1 < op_array->last && \
132 		           op_array->opcodes[line+1].opcode == ZEND_OP_DATA) { \
133 			if (ssa->ops[line+1].op1_def >= 0) { \
134 				MACRO(ssa->ops[line+1].op1_def); \
135 			} \
136 			if (ssa->ops[line+1].op2_def >= 0) { \
137 				MACRO(ssa->ops[line+1].op2_def); \
138 			} \
139 			if (ssa->ops[line+1].result_def >= 0) { \
140 				MACRO(ssa->ops[line+1].result_def); \
141 			} \
142 		} \
143 	} while (0)
144 
145 
146 #define FOR_EACH_VAR_USAGE(_var, MACRO) \
147 	do { \
148 		zend_ssa_phi *p = ssa->vars[_var].phi_use_chain; \
149 		int use = ssa->vars[_var].use_chain; \
150 		while (use >= 0) { \
151 			FOR_EACH_DEFINED_VAR(use, MACRO); \
152 			use = zend_ssa_next_use(ssa->ops, _var, use); \
153 		} \
154 		p = ssa->vars[_var].phi_use_chain; \
155 		while (p) { \
156 			MACRO(p->ssa_var); \
157 			p = zend_ssa_next_use_phi(ssa, _var, p); \
158 		} \
159 	} while (0)
160 
add_will_overflow(zend_long a,zend_long b)161 static inline zend_bool add_will_overflow(zend_long a, zend_long b) {
162 	return (b > 0 && a > ZEND_LONG_MAX - b)
163 		|| (b < 0 && a < ZEND_LONG_MIN - b);
164 }
165 #if 0
166 static inline zend_bool sub_will_overflow(zend_long a, zend_long b) {
167 	return (b > 0 && a < ZEND_LONG_MIN + b)
168 		|| (b < 0 && a > ZEND_LONG_MAX + b);
169 }
170 #endif
171 
zend_ssa_check_scc_var(const zend_op_array * op_array,zend_ssa * ssa,int var,int * index,int * dfs,int * root,zend_worklist_stack * stack)172 static void zend_ssa_check_scc_var(const zend_op_array *op_array, zend_ssa *ssa, int var, int *index, int *dfs, int *root, zend_worklist_stack *stack) /* {{{ */
173 {
174 #ifdef SYM_RANGE
175 	zend_ssa_phi *p;
176 #endif
177 
178 	dfs[var] = *index;
179 	(*index)++;
180 	root[var] = var;
181 
182 	FOR_EACH_VAR_USAGE(var, CHECK_SCC_VAR);
183 
184 #ifdef SYM_RANGE
185 	/* Process symbolic control-flow constraints */
186 	p = ssa->vars[var].sym_use_chain;
187 	while (p) {
188 		CHECK_SCC_VAR(p->ssa_var);
189 		p = p->sym_use_chain;
190 	}
191 #endif
192 
193 	if (root[var] == var) {
194 		ssa->vars[var].scc = ssa->sccs;
195 		while (stack->len > 0) {
196 			int var2 = zend_worklist_stack_peek(stack);
197 			if (dfs[var2] <= dfs[var]) {
198 				break;
199 			}
200 			zend_worklist_stack_pop(stack);
201 			ssa->vars[var2].scc = ssa->sccs;
202 		}
203 		ssa->sccs++;
204 	} else {
205 		zend_worklist_stack_push(stack, var);
206 	}
207 }
208 /* }}} */
209 
zend_ssa_find_sccs(const zend_op_array * op_array,zend_ssa * ssa)210 int zend_ssa_find_sccs(const zend_op_array *op_array, zend_ssa *ssa) /* {{{ */
211 {
212 	int index = 0, *dfs, *root;
213 	zend_worklist_stack stack;
214 	int j;
215 	ALLOCA_FLAG(dfs_use_heap)
216 	ALLOCA_FLAG(root_use_heap)
217 	ALLOCA_FLAG(stack_use_heap)
218 
219 	dfs = do_alloca(sizeof(int) * ssa->vars_count, dfs_use_heap);
220 	memset(dfs, -1, sizeof(int) * ssa->vars_count);
221 	root = do_alloca(sizeof(int) * ssa->vars_count, root_use_heap);
222 	ZEND_WORKLIST_STACK_ALLOCA(&stack, ssa->vars_count, stack_use_heap);
223 
224 	/* Find SCCs using Tarjan's algorithm. */
225 	for (j = 0; j < ssa->vars_count; j++) {
226 		if (!ssa->vars[j].no_val && dfs[j] < 0) {
227 			zend_ssa_check_scc_var(op_array, ssa, j, &index, dfs, root, &stack);
228 		}
229 	}
230 
231 	/* Revert SCC order. This results in a topological order. */
232 	for (j = 0; j < ssa->vars_count; j++) {
233 		if (ssa->vars[j].scc >= 0) {
234 			ssa->vars[j].scc = ssa->sccs - (ssa->vars[j].scc + 1);
235 		}
236 	}
237 
238 	for (j = 0; j < ssa->vars_count; j++) {
239 		if (ssa->vars[j].scc >= 0) {
240 			int var = j;
241 			if (root[j] == j) {
242 				ssa->vars[j].scc_entry = 1;
243 			}
244 			FOR_EACH_VAR_USAGE(var, CHECK_SCC_ENTRY);
245 		}
246 	}
247 
248 	ZEND_WORKLIST_STACK_FREE_ALLOCA(&stack, stack_use_heap);
249 	free_alloca(root, root_use_heap);
250 	free_alloca(dfs, dfs_use_heap);
251 
252 	return SUCCESS;
253 }
254 /* }}} */
255 
zend_ssa_find_false_dependencies(const zend_op_array * op_array,zend_ssa * ssa)256 int zend_ssa_find_false_dependencies(const zend_op_array *op_array, zend_ssa *ssa) /* {{{ */
257 {
258 	zend_ssa_var *ssa_vars = ssa->vars;
259 	zend_ssa_op *ssa_ops = ssa->ops;
260 	int ssa_vars_count = ssa->vars_count;
261 	zend_bitset worklist;
262 	int i, j, use;
263 	zend_ssa_phi *p;
264 	ALLOCA_FLAG(use_heap);
265 
266 	if (!op_array->function_name || !ssa->vars || !ssa->ops) {
267 		return SUCCESS;
268 	}
269 
270 	worklist = do_alloca(sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count), use_heap);
271 	memset(worklist, 0, sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count));
272 
273 	for (i = 0; i < ssa_vars_count; i++) {
274 		ssa_vars[i].no_val = 1; /* mark as unused */
275 		use = ssa->vars[i].use_chain;
276 		while (use >= 0) {
277 			if (!zend_ssa_is_no_val_use(&op_array->opcodes[use], &ssa->ops[use], i)) {
278 				ssa_vars[i].no_val = 0; /* used directly */
279 				zend_bitset_incl(worklist, i);
280 				break;
281 			}
282 			use = zend_ssa_next_use(ssa_ops, i, use);
283 		}
284 	}
285 
286 	WHILE_WORKLIST(worklist, zend_bitset_len(ssa_vars_count), i) {
287 		if (ssa_vars[i].definition_phi) {
288 			/* mark all possible sources as used */
289 			p = ssa_vars[i].definition_phi;
290 			if (p->pi >= 0) {
291 				if (ssa_vars[p->sources[0]].no_val) {
292 					ssa_vars[p->sources[0]].no_val = 0; /* used indirectly */
293 					zend_bitset_incl(worklist, p->sources[0]);
294 				}
295 			} else {
296 				for (j = 0; j < ssa->cfg.blocks[p->block].predecessors_count; j++) {
297 					ZEND_ASSERT(p->sources[j] >= 0);
298 					if (ssa->vars[p->sources[j]].no_val) {
299 						ssa_vars[p->sources[j]].no_val = 0; /* used indirectly */
300 						zend_bitset_incl(worklist, p->sources[j]);
301 					}
302 				}
303 			}
304 		}
305 	} WHILE_WORKLIST_END();
306 
307 	free_alloca(worklist, use_heap);
308 
309 	return SUCCESS;
310 }
311 /* }}} */
312 
313 /* From "Hacker's Delight" */
minOR(zend_ulong a,zend_ulong b,zend_ulong c,zend_ulong d)314 zend_ulong minOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d)
315 {
316 	zend_ulong m, temp;
317 
318 	m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1);
319 	while (m != 0) {
320 		if (~a & c & m) {
321 			temp = (a | m) & -m;
322 			if (temp <= b) {
323 				a = temp;
324 				break;
325 			}
326 		} else if (a & ~c & m) {
327 			temp = (c | m) & -m;
328 			if (temp <= d) {
329 				c = temp;
330 				break;
331 			}
332 		}
333 		m = m >> 1;
334 	}
335 	return a | c;
336 }
337 
maxOR(zend_ulong a,zend_ulong b,zend_ulong c,zend_ulong d)338 zend_ulong maxOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d)
339 {
340 	zend_ulong m, temp;
341 
342 	m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1);
343 	while (m != 0) {
344 		if (b & d & m) {
345 			temp = (b - m) | (m - 1);
346 			if (temp >= a) {
347 				b = temp;
348 				break;
349 			}
350 			temp = (d - m) | (m - 1);
351 			if (temp >= c) {
352 				d = temp;
353 				break;
354 			}
355 		}
356 		m = m >> 1;
357 	}
358 	return b | d;
359 }
360 
minAND(zend_ulong a,zend_ulong b,zend_ulong c,zend_ulong d)361 zend_ulong minAND(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d)
362 {
363 	zend_ulong m, temp;
364 
365 	m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1);
366 	while (m != 0) {
367 		if (~a & ~c & m) {
368 			temp = (a | m) & -m;
369 			if (temp <= b) {
370 				a = temp;
371 				break;
372 			}
373 			temp = (c | m) & -m;
374 			if (temp <= d) {
375 				c = temp;
376 				break;
377 			}
378 		}
379 		m = m >> 1;
380 	}
381 	return a & c;
382 }
383 
maxAND(zend_ulong a,zend_ulong b,zend_ulong c,zend_ulong d)384 zend_ulong maxAND(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d)
385 {
386 	zend_ulong m, temp;
387 
388 	m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1);
389 	while (m != 0) {
390 		if (b & ~d & m) {
391 			temp = (b | ~m) | (m - 1);
392 			if (temp >= a) {
393 				b = temp;
394 				break;
395 			}
396 		} else if (~b & d & m) {
397 			temp = (d | ~m) | (m - 1);
398 			if (temp >= c) {
399 				d = temp;
400 				break;
401 			}
402 		}
403 		m = m >> 1;
404 	}
405 	return b & d;
406 }
407 
minXOR(zend_ulong a,zend_ulong b,zend_ulong c,zend_ulong d)408 zend_ulong minXOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d)
409 {
410 	return minAND(a, b, ~d, ~c) | minAND(~b, ~a, c, d);
411 }
412 
maxXOR(zend_ulong a,zend_ulong b,zend_ulong c,zend_ulong d)413 zend_ulong maxXOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d)
414 {
415 	return maxOR(0, maxAND(a, b, ~d, ~c), 0, maxAND(~b, ~a, c, d));
416 }
417 
418 /* Based on "Hacker's Delight" */
419 
420 /*
421 0: + + + + 0 0 0 0 => 0 0 + min/max
422 2: + + - + 0 0 1 0 => 1 0 ? min(a,b,c,-1)/max(a,b,0,d)
423 3: + + - - 0 0 1 1 => 1 1 - min/max
424 8: - + + + 1 0 0 0 => 1 0 ? min(a,-1,b,d)/max(0,b,c,d)
425 a: - + - + 1 0 1 0 => 1 0 ? MIN(a,c)/max(0,b,0,d)
426 b: - + - - 1 0 1 1 => 1 1 - c/-1
427 c: - - + + 1 1 0 0 => 1 1 - min/max
428 e: - - - + 1 1 1 0 => 1 1 - a/-1
429 f  - - - - 1 1 1 1 => 1 1 - min/max
430 */
zend_ssa_range_or(zend_long a,zend_long b,zend_long c,zend_long d,zend_ssa_range * tmp)431 static void zend_ssa_range_or(zend_long a, zend_long b, zend_long c, zend_long d, zend_ssa_range *tmp)
432 {
433 	int x = ((a < 0) ? 8 : 0) |
434 	        ((b < 0) ? 4 : 0) |
435 	        ((c < 0) ? 2 : 0) |
436 	        ((d < 0) ? 2 : 0);
437 	switch (x) {
438 		case 0x0:
439 		case 0x3:
440 		case 0xc:
441 		case 0xf:
442 			tmp->min = minOR(a, b, c, d);
443 			tmp->max = maxOR(a, b, c, d);
444 			break;
445 		case 0x2:
446 			tmp->min = minOR(a, b, c, -1);
447 			tmp->max = maxOR(a, b, 0, d);
448 			break;
449 		case 0x8:
450 			tmp->min = minOR(a, -1, c, d);
451 			tmp->max = maxOR(0, b, c, d);
452 			break;
453 		case 0xa:
454 			tmp->min = MIN(a, c);
455 			tmp->max = maxOR(0, b, 0, d);
456 			break;
457 		case 0xb:
458 			tmp->min = c;
459 			tmp->max = -1;
460 			break;
461 		case 0xe:
462 			tmp->min = a;
463 			tmp->max = -1;
464 			break;
465 	}
466 }
467 
468 /*
469 0: + + + + 0 0 0 0 => 0 0 + min/max
470 2: + + - + 0 0 1 0 => 0 0 + 0/b
471 3: + + - - 0 0 1 1 => 0 0 + min/max
472 8: - + + + 1 0 0 0 => 0 0 + 0/d
473 a: - + - + 1 0 1 0 => 1 0 ? min(a,-1,c,-1)/NAX(b,d)
474 b: - + - - 1 0 1 1 => 1 0 ? min(a,-1,c,d)/max(0,b,c,d)
475 c: - - + + 1 1 0 0 => 1 1 - min/max
476 e: - - - + 1 1 1 0 => 1 0 ? min(a,b,c,-1)/max(a,b,0,d)
477 f  - - - - 1 1 1 1 => 1 1 - min/max
478 */
zend_ssa_range_and(zend_long a,zend_long b,zend_long c,zend_long d,zend_ssa_range * tmp)479 static void zend_ssa_range_and(zend_long a, zend_long b, zend_long c, zend_long d, zend_ssa_range *tmp)
480 {
481 	int x = ((a < 0) ? 8 : 0) |
482 	        ((b < 0) ? 4 : 0) |
483 	        ((c < 0) ? 2 : 0) |
484 	        ((d < 0) ? 2 : 0);
485 	switch (x) {
486 		case 0x0:
487 		case 0x3:
488 		case 0xc:
489 		case 0xf:
490 			tmp->min = minAND(a, b, c, d);
491 			tmp->max = maxAND(a, b, c, d);
492 			break;
493 		case 0x2:
494 			tmp->min = 0;
495 			tmp->max = b;
496 			break;
497 		case 0x8:
498 			tmp->min = 0;
499 			tmp->max = d;
500 			break;
501 		case 0xa:
502 			tmp->min = minAND(a, -1, c, -1);
503 			tmp->max = MAX(b, d);
504 			break;
505 		case 0xb:
506 			tmp->min = minAND(a, -1, c, d);
507 			tmp->max = maxAND(0, b, c, d);
508 			break;
509 		case 0xe:
510 			tmp->min = minAND(a, b, c, -1);
511 			tmp->max = maxAND(a, b, 0, d);
512 			break;
513 	}
514 }
515 
zend_abs_range(zend_long min,zend_long max,zend_long * abs_min,zend_long * abs_max)516 static inline zend_bool zend_abs_range(
517 		zend_long min, zend_long max, zend_long *abs_min, zend_long *abs_max) {
518 	if (min == ZEND_LONG_MIN) {
519 		/* Cannot take absolute value of LONG_MIN  */
520 		return 0;
521 	}
522 
523 	if (min >= 0) {
524 		*abs_min = min;
525 		*abs_max = max;
526 	} else if (max <= 0) {
527 		*abs_min = -max;
528 		*abs_max = -min;
529 	} else {
530 		/* Range crossing zero */
531 		*abs_min = 0;
532 		*abs_max = MAX(max, -min);
533 	}
534 
535 	return 1;
536 }
537 
shift_left_overflows(zend_long n,zend_long s)538 static inline zend_bool shift_left_overflows(zend_long n, zend_long s) {
539 	/* This considers shifts that shift in the sign bit to be overflowing as well */
540 	if (n >= 0) {
541 		return s >= SIZEOF_ZEND_LONG * 8 - 1 || (n << s) < n;
542 	} else {
543 		return s >= SIZEOF_ZEND_LONG * 8 - 1 || (n << s) > n;
544 	}
545 }
546 
547 /* Get the normal op corresponding to a compound assignment op */
get_compound_assign_op(zend_uchar opcode)548 static inline zend_uchar get_compound_assign_op(zend_uchar opcode) {
549 	switch (opcode) {
550 		case ZEND_ASSIGN_ADD: return ZEND_ADD;
551 		case ZEND_ASSIGN_SUB: return ZEND_SUB;
552 		case ZEND_ASSIGN_MUL: return ZEND_MUL;
553 		case ZEND_ASSIGN_DIV: return ZEND_DIV;
554 		case ZEND_ASSIGN_MOD: return ZEND_MOD;
555 		case ZEND_ASSIGN_SL: return ZEND_SL;
556 		case ZEND_ASSIGN_SR: return ZEND_SR;
557 		case ZEND_ASSIGN_CONCAT: return ZEND_CONCAT;
558 		case ZEND_ASSIGN_BW_OR: return ZEND_BW_OR;
559 		case ZEND_ASSIGN_BW_AND: return ZEND_BW_AND;
560 		case ZEND_ASSIGN_BW_XOR: return ZEND_BW_XOR;
561 		case ZEND_ASSIGN_POW: return ZEND_POW;
562 		EMPTY_SWITCH_DEFAULT_CASE()
563 	}
564 }
565 
zend_inference_calc_binary_op_range(const zend_op_array * op_array,zend_ssa * ssa,zend_op * opline,zend_ssa_op * ssa_op,zend_uchar opcode,zend_ssa_range * tmp)566 static int zend_inference_calc_binary_op_range(
567 		const zend_op_array *op_array, zend_ssa *ssa,
568 		zend_op *opline, zend_ssa_op *ssa_op, zend_uchar opcode, zend_ssa_range *tmp) {
569 	zend_long op1_min, op2_min, op1_max, op2_max, t1, t2, t3, t4;
570 
571 	switch (opcode) {
572 		case ZEND_ADD:
573 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
574 				op1_min = OP1_MIN_RANGE();
575 				op2_min = OP2_MIN_RANGE();
576 				op1_max = OP1_MAX_RANGE();
577 				op2_max = OP2_MAX_RANGE();
578 				tmp->min = op1_min + op2_min;
579 				tmp->max = op1_max + op2_max;
580 				if (OP1_RANGE_UNDERFLOW() ||
581 					OP2_RANGE_UNDERFLOW() ||
582 					(op1_min < 0 && op2_min < 0 && tmp->min >= 0)) {
583 					tmp->underflow = 1;
584 					tmp->min = ZEND_LONG_MIN;
585 				}
586 				if (OP1_RANGE_OVERFLOW() ||
587 					OP2_RANGE_OVERFLOW() ||
588 					(op1_max > 0 && op2_max > 0 && tmp->max <= 0)) {
589 					tmp->overflow = 1;
590 					tmp->max = ZEND_LONG_MAX;
591 				}
592 				return 1;
593 			}
594 			break;
595 		case ZEND_SUB:
596 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
597 				op1_min = OP1_MIN_RANGE();
598 				op2_min = OP2_MIN_RANGE();
599 				op1_max = OP1_MAX_RANGE();
600 				op2_max = OP2_MAX_RANGE();
601 				tmp->min = op1_min - op2_max;
602 				tmp->max = op1_max - op2_min;
603 				if (OP1_RANGE_UNDERFLOW() ||
604 					OP2_RANGE_OVERFLOW() ||
605 					(op1_min < 0 && op2_max > 0 && tmp->min >= 0)) {
606 					tmp->underflow = 1;
607 					tmp->min = ZEND_LONG_MIN;
608 				}
609 				if (OP1_RANGE_OVERFLOW() ||
610 					OP2_RANGE_UNDERFLOW() ||
611 					(op1_max > 0 && op2_min < 0 && tmp->max <= 0)) {
612 					tmp->overflow = 1;
613 					tmp->max = ZEND_LONG_MAX;
614 				}
615 				return 1;
616 			}
617 			break;
618 		case ZEND_MUL:
619 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
620 				op1_min = OP1_MIN_RANGE();
621 				op2_min = OP2_MIN_RANGE();
622 				op1_max = OP1_MAX_RANGE();
623 				op2_max = OP2_MAX_RANGE();
624 				t1 = op1_min * op2_min;
625 				t2 = op1_min * op2_max;
626 				t3 = op1_max * op2_min;
627 				t4 = op1_max * op2_max;
628 				// FIXME: more careful overflow checks?
629 				if (OP1_RANGE_UNDERFLOW() ||
630 					OP2_RANGE_UNDERFLOW() ||
631 					OP1_RANGE_OVERFLOW()  ||
632 					OP2_RANGE_OVERFLOW()  ||
633 					(double)t1 != (double)op1_min * (double)op2_min ||
634 					(double)t2 != (double)op1_min * (double)op2_max ||
635 					(double)t3 != (double)op1_max * (double)op2_min ||
636 					(double)t4 != (double)op1_max * (double)op2_max) {
637 					tmp->underflow = 1;
638 					tmp->overflow = 1;
639 					tmp->min = ZEND_LONG_MIN;
640 					tmp->max = ZEND_LONG_MAX;
641 				} else {
642 					tmp->min = MIN(MIN(t1, t2), MIN(t3, t4));
643 					tmp->max = MAX(MAX(t1, t2), MAX(t3, t4));
644 				}
645 				return 1;
646 			}
647 			break;
648 		case ZEND_DIV:
649 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
650 				op1_min = OP1_MIN_RANGE();
651 				op2_min = OP2_MIN_RANGE();
652 				op1_max = OP1_MAX_RANGE();
653 				op2_max = OP2_MAX_RANGE();
654 				if (op2_min <= 0 && op2_max >= 0) {
655 					break;
656 				}
657 				if (op1_min == ZEND_LONG_MIN && op2_max == -1) {
658 					/* Avoid ill-defined division, which may trigger SIGFPE. */
659 					break;
660 				}
661 				t1 = op1_min / op2_min;
662 				t2 = op1_min / op2_max;
663 				t3 = op1_max / op2_min;
664 				t4 = op1_max / op2_max;
665 				// FIXME: more careful overflow checks?
666 				if (OP1_RANGE_UNDERFLOW() ||
667 					OP2_RANGE_UNDERFLOW() ||
668 					OP1_RANGE_OVERFLOW()  ||
669 					OP2_RANGE_OVERFLOW()  ||
670 					t1 != (zend_long)((double)op1_min / (double)op2_min) ||
671 					t2 != (zend_long)((double)op1_min / (double)op2_max) ||
672 					t3 != (zend_long)((double)op1_max / (double)op2_min) ||
673 					t4 != (zend_long)((double)op1_max / (double)op2_max)) {
674 					tmp->underflow = 1;
675 					tmp->overflow = 1;
676 					tmp->min = ZEND_LONG_MIN;
677 					tmp->max = ZEND_LONG_MAX;
678 				} else {
679 					tmp->min = MIN(MIN(t1, t2), MIN(t3, t4));
680 					tmp->max = MAX(MAX(t1, t2), MAX(t3, t4));
681 				}
682 				return 1;
683 			}
684 			break;
685 		case ZEND_MOD:
686 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
687 				if (OP1_RANGE_UNDERFLOW() ||
688 					OP2_RANGE_UNDERFLOW() ||
689 					OP1_RANGE_OVERFLOW()  ||
690 					OP2_RANGE_OVERFLOW()) {
691 					tmp->min = ZEND_LONG_MIN;
692 					tmp->max = ZEND_LONG_MAX;
693 				} else {
694 					zend_long op2_abs_min, op2_abs_max;
695 
696 					op1_min = OP1_MIN_RANGE();
697 					op2_min = OP2_MIN_RANGE();
698 					op1_max = OP1_MAX_RANGE();
699 					op2_max = OP2_MAX_RANGE();
700 					if (!zend_abs_range(op2_min, op2_max, &op2_abs_min, &op2_abs_max)) {
701 						break;
702 					}
703 
704 					if (op2_abs_max == 0) {
705 						/* Always modulus by zero, nothing we can do */
706 						break;
707 					}
708 					if (op2_abs_min == 0) {
709 						/* Ignore the modulus by zero case, which will throw */
710 						op2_abs_min++;
711 					}
712 
713 					if (op1_min >= 0) {
714 						tmp->min = op1_max < op2_abs_min ? op1_min : 0;
715 						tmp->max = MIN(op1_max, op2_abs_max - 1);
716 					} else if (op1_max <= 0) {
717 						tmp->min = MAX(op1_min, -op2_abs_max + 1);
718 						tmp->max = op1_min > -op2_abs_min ? op1_max : 0;
719 					} else {
720 						tmp->min = MAX(op1_min, -op2_abs_max + 1);
721 						tmp->max = MIN(op1_max, op2_abs_max - 1);
722 					}
723 				}
724 				return 1;
725 			}
726 			break;
727 		case ZEND_SL:
728 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
729 				if (OP1_RANGE_UNDERFLOW() ||
730 					OP2_RANGE_UNDERFLOW() ||
731 					OP1_RANGE_OVERFLOW() ||
732 					OP2_RANGE_OVERFLOW()) {
733 					tmp->min = ZEND_LONG_MIN;
734 					tmp->max = ZEND_LONG_MAX;
735 				} else {
736 					op1_min = OP1_MIN_RANGE();
737 					op2_min = OP2_MIN_RANGE();
738 					op1_max = OP1_MAX_RANGE();
739 					op2_max = OP2_MAX_RANGE();
740 
741 					/* Shifts by negative numbers will throw, ignore them */
742 					if (op2_min < 0) {
743 						op2_min = 0;
744 					}
745 					if (op2_max < 0) {
746 						op2_max = 0;
747 					}
748 
749 					if (shift_left_overflows(op1_min, op2_max)
750 							|| shift_left_overflows(op1_max, op2_max)) {
751 						tmp->min = ZEND_LONG_MIN;
752 						tmp->max = ZEND_LONG_MAX;
753 					} else {
754 						t1 = op1_min << op2_min;
755 						t2 = op1_min << op2_max;
756 						t3 = op1_max << op2_min;
757 						t4 = op1_max << op2_max;
758 						tmp->min = MIN(MIN(t1, t2), MIN(t3, t4));
759 						tmp->max = MAX(MAX(t1, t2), MAX(t3, t4));
760 					}
761 				}
762 				return 1;
763 			}
764 			break;
765 		case ZEND_SR:
766 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
767 				if (OP1_RANGE_UNDERFLOW() ||
768 					OP2_RANGE_UNDERFLOW() ||
769 					OP1_RANGE_OVERFLOW() ||
770 					OP2_RANGE_OVERFLOW()) {
771 					tmp->min = ZEND_LONG_MIN;
772 					tmp->max = ZEND_LONG_MAX;
773 				} else {
774 					op1_min = OP1_MIN_RANGE();
775 					op2_min = OP2_MIN_RANGE();
776 					op1_max = OP1_MAX_RANGE();
777 					op2_max = OP2_MAX_RANGE();
778 
779 					/* Shifts by negative numbers will throw, ignore them */
780 					if (op2_min < 0) {
781 						op2_min = 0;
782 					}
783 					if (op2_max < 0) {
784 						op2_max = 0;
785 					}
786 
787 					/* Shifts by more than the integer size will be 0 or -1 */
788 					if (op2_min >= SIZEOF_ZEND_LONG * 8) {
789 						op2_min = SIZEOF_ZEND_LONG * 8 - 1;
790 					}
791 					if (op2_max >= SIZEOF_ZEND_LONG * 8) {
792 						op2_max = SIZEOF_ZEND_LONG * 8 - 1;
793 					}
794 
795 					t1 = op1_min >> op2_min;
796 					t2 = op1_min >> op2_max;
797 					t3 = op1_max >> op2_min;
798 					t4 = op1_max >> op2_max;
799 					tmp->min = MIN(MIN(t1, t2), MIN(t3, t4));
800 					tmp->max = MAX(MAX(t1, t2), MAX(t3, t4));
801 				}
802 				return 1;
803 			}
804 			break;
805 		case ZEND_BW_OR:
806 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
807 				if (OP1_RANGE_UNDERFLOW() ||
808 					OP2_RANGE_UNDERFLOW() ||
809 					OP1_RANGE_OVERFLOW() ||
810 					OP2_RANGE_OVERFLOW()) {
811 					tmp->min = ZEND_LONG_MIN;
812 					tmp->max = ZEND_LONG_MAX;
813 				} else {
814 					op1_min = OP1_MIN_RANGE();
815 					op2_min = OP2_MIN_RANGE();
816 					op1_max = OP1_MAX_RANGE();
817 					op2_max = OP2_MAX_RANGE();
818 					zend_ssa_range_or(op1_min, op1_max, op2_min, op2_max, tmp);
819 				}
820 				return 1;
821 			}
822 			break;
823 		case ZEND_BW_AND:
824 			if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
825 				if (OP1_RANGE_UNDERFLOW() ||
826 					OP2_RANGE_UNDERFLOW() ||
827 					OP1_RANGE_OVERFLOW() ||
828 					OP2_RANGE_OVERFLOW()) {
829 					tmp->min = ZEND_LONG_MIN;
830 					tmp->max = ZEND_LONG_MAX;
831 				} else {
832 					op1_min = OP1_MIN_RANGE();
833 					op2_min = OP2_MIN_RANGE();
834 					op1_max = OP1_MAX_RANGE();
835 					op2_max = OP2_MAX_RANGE();
836 					zend_ssa_range_and(op1_min, op1_max, op2_min, op2_max, tmp);
837 				}
838 				return 1;
839 			}
840 			break;
841 		case ZEND_BW_XOR:
842 			// TODO
843 			break;
844 		EMPTY_SWITCH_DEFAULT_CASE()
845 	}
846 	return 0;
847 }
848 
zend_inference_calc_range(const zend_op_array * op_array,zend_ssa * ssa,int var,int widening,int narrowing,zend_ssa_range * tmp)849 int zend_inference_calc_range(const zend_op_array *op_array, zend_ssa *ssa, int var, int widening, int narrowing, zend_ssa_range *tmp)
850 {
851 	uint32_t line;
852 	zend_op *opline;
853 	zend_long op1_min, op2_min, op1_max, op2_max;
854 
855 	if (ssa->vars[var].definition_phi) {
856 		zend_ssa_phi *p = ssa->vars[var].definition_phi;
857 		int i;
858 
859 		tmp->underflow = 0;
860 		tmp->min = ZEND_LONG_MAX;
861 		tmp->max = ZEND_LONG_MIN;
862 		tmp->overflow = 0;
863 		if (p->pi >= 0 && p->has_range_constraint) {
864 			zend_ssa_range_constraint *constraint = &p->constraint.range;
865 			if (constraint->negative) {
866 				if (ssa->var_info[p->sources[0]].has_range) {
867 					*tmp = ssa->var_info[p->sources[0]].range;
868 				} else if (narrowing) {
869 					tmp->underflow = 1;
870 					tmp->min = ZEND_LONG_MIN;
871 					tmp->max = ZEND_LONG_MAX;
872 					tmp->overflow = 1;
873 				}
874 
875 #ifdef NEG_RANGE
876 				if (constraint->min_ssa_var < 0 &&
877 				    constraint->max_ssa_var < 0 &&
878 				    ssa->var_info[p->ssa_var].has_range) {
879 					LOG_NEG_RANGE("%s() #%d [%ld..%ld] -> [%ld..%ld]?\n",
880 						ZSTR_VAL(op_array->function_name),
881 						p->ssa_var,
882 						ssa->var_info[p->ssa_var].range.min,
883 						ssa->var_info[p->ssa_var].range.max,
884 						tmp->min,
885 						tmp->max);
886 					if (constraint->negative == NEG_USE_LT &&
887 					    tmp->max >= constraint->range.min) {
888 						tmp->overflow = 0;
889 						tmp->max = constraint->range.min - 1;
890 						LOG_NEG_RANGE("  => [%ld..%ld]\n", tmp->min, tmp->max);
891 					} else if (constraint->negative == NEG_USE_GT &&
892 					           tmp->min <= constraint->range.max) {
893 						tmp->underflow = 0;
894 						tmp->min = constraint->range.max + 1;
895 						LOG_NEG_RANGE("  => [%ld..%ld]\n", tmp->min, tmp->max);
896 					}
897 				}
898 #endif
899 			} else if (ssa->var_info[p->sources[0]].has_range) {
900 				/* intersection */
901 				*tmp = ssa->var_info[p->sources[0]].range;
902 				if (constraint->min_ssa_var < 0) {
903 					tmp->underflow = constraint->range.underflow && tmp->underflow;
904 					tmp->min = MAX(constraint->range.min, tmp->min);
905 #ifdef SYM_RANGE
906 				} else if (narrowing && ssa->var_info[constraint->min_ssa_var].has_range) {
907 					tmp->underflow = ssa->var_info[constraint->min_ssa_var].range.underflow && tmp->underflow;
908 					if (!add_will_overflow(ssa->var_info[constraint->min_ssa_var].range.min, constraint->range.min)) {
909 						tmp->min = MAX(ssa->var_info[constraint->min_ssa_var].range.min + constraint->range.min, tmp->min);
910 					}
911 #endif
912 				}
913 				if (constraint->max_ssa_var < 0) {
914 					tmp->max = MIN(constraint->range.max, tmp->max);
915 					tmp->overflow = constraint->range.overflow && tmp->overflow;
916 #ifdef SYM_RANGE
917 				} else if (narrowing && ssa->var_info[constraint->max_ssa_var].has_range) {
918 					if (!add_will_overflow(ssa->var_info[constraint->max_ssa_var].range.max, constraint->range.max)) {
919 						tmp->max = MIN(ssa->var_info[constraint->max_ssa_var].range.max + constraint->range.max, tmp->max);
920 					}
921 					tmp->overflow = ssa->var_info[constraint->max_ssa_var].range.overflow && tmp->overflow;
922 #endif
923 				}
924 			} else if (narrowing) {
925 				if (constraint->min_ssa_var < 0) {
926 					tmp->underflow = constraint->range.underflow;
927 					tmp->min = constraint->range.min;
928 #ifdef SYM_RANGE
929 				} else if (narrowing && ssa->var_info[constraint->min_ssa_var].has_range) {
930 					if (add_will_overflow(ssa->var_info[constraint->min_ssa_var].range.min, constraint->range.min)) {
931 						tmp->underflow = 1;
932 						tmp->min = ZEND_LONG_MIN;
933 					} else {
934 						tmp->underflow = ssa->var_info[constraint->min_ssa_var].range.underflow;
935 						tmp->min = ssa->var_info[constraint->min_ssa_var].range.min + constraint->range.min;
936 					}
937 #endif
938 				} else {
939 					tmp->underflow = 1;
940 					tmp->min = ZEND_LONG_MIN;
941 				}
942 				if (constraint->max_ssa_var < 0) {
943 					tmp->max = constraint->range.max;
944 					tmp->overflow = constraint->range.overflow;
945 #ifdef SYM_RANGE
946 				} else if (narrowing && ssa->var_info[constraint->max_ssa_var].has_range) {
947 					if (add_will_overflow(ssa->var_info[constraint->max_ssa_var].range.max, constraint->range.max)) {
948 						tmp->overflow = 1;
949 						tmp->max = ZEND_LONG_MAX;
950 					} else {
951 						tmp->max = ssa->var_info[constraint->max_ssa_var].range.max + constraint->range.max;
952 						tmp->overflow = ssa->var_info[constraint->max_ssa_var].range.overflow;
953 					}
954 #endif
955 				} else {
956 					tmp->max = ZEND_LONG_MAX;
957 					tmp->overflow = 1;
958 				}
959 			}
960 		} else {
961 			for (i = 0; i < ssa->cfg.blocks[p->block].predecessors_count; i++) {
962 				ZEND_ASSERT(p->sources[i] >= 0);
963 				if (ssa->var_info[p->sources[i]].has_range) {
964 					/* union */
965 					tmp->underflow |= ssa->var_info[p->sources[i]].range.underflow;
966 					tmp->min = MIN(tmp->min, ssa->var_info[p->sources[i]].range.min);
967 					tmp->max = MAX(tmp->max, ssa->var_info[p->sources[i]].range.max);
968 					tmp->overflow |= ssa->var_info[p->sources[i]].range.overflow;
969 				} else if (narrowing) {
970 					tmp->underflow = 1;
971 					tmp->min = ZEND_LONG_MIN;
972 					tmp->max = ZEND_LONG_MAX;
973 					tmp->overflow = 1;
974 				}
975 			}
976 		}
977 		return (tmp->min <= tmp->max);
978 	} else if (ssa->vars[var].definition < 0) {
979 		if (var < op_array->last_var &&
980 		    op_array->function_name) {
981 
982 			tmp->min = 0;
983 			tmp->max = 0;
984 			tmp->underflow = 0;
985 			tmp->overflow = 0;
986 			return 1;
987 		}
988 		return 0;
989 	}
990 	line = ssa->vars[var].definition;
991 	opline = op_array->opcodes + line;
992 
993 	tmp->underflow = 0;
994 	tmp->overflow = 0;
995 	switch (opline->opcode) {
996 		case ZEND_ADD:
997 		case ZEND_SUB:
998 		case ZEND_MUL:
999 		case ZEND_DIV:
1000 		case ZEND_MOD:
1001 		case ZEND_SL:
1002 		case ZEND_SR:
1003 		case ZEND_BW_OR:
1004 		case ZEND_BW_AND:
1005 		case ZEND_BW_XOR:
1006 			if (ssa->ops[line].result_def == var) {
1007 				return zend_inference_calc_binary_op_range(
1008 					op_array, ssa, opline, &ssa->ops[line], opline->opcode, tmp);
1009 			}
1010 			break;
1011 
1012 		case ZEND_BW_NOT:
1013 			if (ssa->ops[line].result_def == var) {
1014 				if (OP1_HAS_RANGE()) {
1015 					if (OP1_RANGE_UNDERFLOW() ||
1016 					    OP1_RANGE_OVERFLOW()) {
1017 						tmp->min = ZEND_LONG_MIN;
1018 						tmp->max = ZEND_LONG_MAX;
1019 					} else {
1020 						op1_min = OP1_MIN_RANGE();
1021 						op1_max = OP1_MAX_RANGE();
1022 						tmp->min = ~op1_max;
1023 						tmp->max = ~op1_min;
1024 					}
1025 					return 1;
1026 				}
1027 			}
1028 			break;
1029 		case ZEND_CAST:
1030 			if (ssa->ops[line].op1_def == var) {
1031 				if (ssa->ops[line].op1_def >= 0) {
1032 					if (OP1_HAS_RANGE()) {
1033 						tmp->underflow = OP1_RANGE_UNDERFLOW();
1034 						tmp->min = OP1_MIN_RANGE();
1035 						tmp->max = OP1_MAX_RANGE();
1036 						tmp->overflow  = OP1_RANGE_OVERFLOW();
1037 						return 1;
1038 					}
1039 				}
1040 			} else if (ssa->ops[line].result_def == var) {
1041 				if (opline->extended_value == IS_NULL) {
1042 					tmp->min = 0;
1043 					tmp->max = 0;
1044 					return 1;
1045 				} else if (opline->extended_value == _IS_BOOL) {
1046 					if (OP1_HAS_RANGE()) {
1047 						op1_min = OP1_MIN_RANGE();
1048 						op1_max = OP1_MAX_RANGE();
1049 						tmp->min = (op1_min > 0 || op1_max < 0);
1050 						tmp->max = (op1_min != 0 || op1_max != 0);
1051 						return 1;
1052 					} else {
1053 						tmp->min = 0;
1054 						tmp->max = 1;
1055 						return 1;
1056 					}
1057 				} else if (opline->extended_value == IS_LONG) {
1058 					if (OP1_HAS_RANGE()) {
1059 						tmp->min = OP1_MIN_RANGE();
1060 						tmp->max = OP1_MAX_RANGE();
1061 						return 1;
1062 					} else {
1063 						tmp->min = ZEND_LONG_MIN;
1064 						tmp->max = ZEND_LONG_MAX;
1065 						return 1;
1066 					}
1067 				}
1068 			}
1069 			break;
1070 		case ZEND_BOOL:
1071 		case ZEND_JMPZ_EX:
1072 		case ZEND_JMPNZ_EX:
1073 			if (ssa->ops[line].result_def == var) {
1074 				if (OP1_HAS_RANGE()) {
1075 					op1_min = OP1_MIN_RANGE();
1076 					op1_max = OP1_MAX_RANGE();
1077 					tmp->min = (op1_min > 0 || op1_max < 0);
1078 					tmp->max = (op1_min != 0 || op1_max != 0);
1079 					return 1;
1080 				} else {
1081 					tmp->min = 0;
1082 					tmp->max = 1;
1083 					return 1;
1084 				}
1085 			}
1086 			break;
1087 		case ZEND_BOOL_NOT:
1088 			if (ssa->ops[line].result_def == var) {
1089 				if (OP1_HAS_RANGE()) {
1090 					op1_min = OP1_MIN_RANGE();
1091 					op1_max = OP1_MAX_RANGE();
1092 					tmp->min = (op1_min == 0 && op1_max == 0);
1093 					tmp->max = (op1_min <= 0 && op1_max >= 0);
1094 					return 1;
1095 				} else {
1096 					tmp->min = 0;
1097 					tmp->max = 1;
1098 					return 1;
1099 				}
1100 			}
1101 			break;
1102 		case ZEND_BOOL_XOR:
1103 			if (ssa->ops[line].result_def == var) {
1104 				if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
1105 					op1_min = OP1_MIN_RANGE();
1106 					op2_min = OP2_MIN_RANGE();
1107 					op1_max = OP1_MAX_RANGE();
1108 					op2_max = OP2_MAX_RANGE();
1109 					op1_min = (op1_min > 0 || op1_max < 0);
1110 					op1_max = (op1_min != 0 || op1_max != 0);
1111 					op2_min = (op2_min > 0 || op2_max < 0);
1112 					op2_max = (op2_min != 0 || op2_max != 0);
1113 					tmp->min = 0;
1114 					tmp->max = 1;
1115 					if (op1_min == op1_max && op2_min == op2_max) {
1116 						if (op1_min == op2_min) {
1117 							tmp->max = 0;
1118 						} else {
1119 							tmp->min = 1;
1120 						}
1121 					}
1122 					return 1;
1123 				} else {
1124 					tmp->min = 0;
1125 					tmp->max = 1;
1126 					return 1;
1127 				}
1128 			}
1129 			break;
1130 		case ZEND_IS_IDENTICAL:
1131 		case ZEND_IS_EQUAL:
1132 			if (ssa->ops[line].result_def == var) {
1133 				if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
1134 					op1_min = OP1_MIN_RANGE();
1135 					op2_min = OP2_MIN_RANGE();
1136 					op1_max = OP1_MAX_RANGE();
1137 					op2_max = OP2_MAX_RANGE();
1138 
1139 					tmp->min = (op1_min == op1_max &&
1140 					           op2_min == op2_max &&
1141 					           op1_min == op2_max);
1142 					tmp->max = (op1_min <= op2_max && op1_max >= op2_min);
1143 					return 1;
1144 				} else {
1145 					tmp->min = 0;
1146 					tmp->max = 1;
1147 					return 1;
1148 				}
1149 			}
1150 			break;
1151 		case ZEND_IS_NOT_IDENTICAL:
1152 		case ZEND_IS_NOT_EQUAL:
1153 			if (ssa->ops[line].result_def == var) {
1154 				if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
1155 					op1_min = OP1_MIN_RANGE();
1156 					op2_min = OP2_MIN_RANGE();
1157 					op1_max = OP1_MAX_RANGE();
1158 					op2_max = OP2_MAX_RANGE();
1159 
1160 					tmp->min = (op1_min > op2_max || op1_max < op2_min);
1161 					tmp->max = (op1_min != op1_max ||
1162 					           op2_min != op2_max ||
1163 					           op1_min != op2_max);
1164 					return 1;
1165 				} else {
1166 					tmp->min = 0;
1167 					tmp->max = 1;
1168 					return 1;
1169 				}
1170 			}
1171 			break;
1172 		case ZEND_IS_SMALLER:
1173 			if (ssa->ops[line].result_def == var) {
1174 				if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
1175 					op1_min = OP1_MIN_RANGE();
1176 					op2_min = OP2_MIN_RANGE();
1177 					op1_max = OP1_MAX_RANGE();
1178 					op2_max = OP2_MAX_RANGE();
1179 
1180 					tmp->min = op1_max < op2_min;
1181 					tmp->max = op1_min < op2_max;
1182 					return 1;
1183 				} else {
1184 					tmp->min = 0;
1185 					tmp->max = 1;
1186 					return 1;
1187 				}
1188 			}
1189 			break;
1190 		case ZEND_IS_SMALLER_OR_EQUAL:
1191 			if (ssa->ops[line].result_def == var) {
1192 				if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) {
1193 					op1_min = OP1_MIN_RANGE();
1194 					op2_min = OP2_MIN_RANGE();
1195 					op1_max = OP1_MAX_RANGE();
1196 					op2_max = OP2_MAX_RANGE();
1197 
1198 					tmp->min = op1_max <= op2_min;
1199 					tmp->max = op1_min <= op2_max;
1200 					return 1;
1201 				} else {
1202 					tmp->min = 0;
1203 					tmp->max = 1;
1204 					return 1;
1205 				}
1206 			}
1207 			break;
1208 		case ZEND_QM_ASSIGN:
1209 		case ZEND_JMP_SET:
1210 		case ZEND_COALESCE:
1211 			if (ssa->ops[line].op1_def == var) {
1212 				if (ssa->ops[line].op1_def >= 0) {
1213 					if (OP1_HAS_RANGE()) {
1214 						tmp->underflow = OP1_RANGE_UNDERFLOW();
1215 						tmp->min = OP1_MIN_RANGE();
1216 						tmp->max = OP1_MAX_RANGE();
1217 						tmp->overflow  = OP1_RANGE_OVERFLOW();
1218 						return 1;
1219 					}
1220 				}
1221 			}
1222 			if (ssa->ops[line].result_def == var) {
1223 				if (OP1_HAS_RANGE()) {
1224 					tmp->min = OP1_MIN_RANGE();
1225 					tmp->max = OP1_MAX_RANGE();
1226 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1227 					tmp->overflow  = OP1_RANGE_OVERFLOW();
1228 					return 1;
1229 				}
1230 			}
1231 			break;
1232 		case ZEND_ASSERT_CHECK:
1233 			if (ssa->ops[line].result_def == var) {
1234 				tmp->min = 0;
1235 				tmp->max = 1;
1236 				return 1;
1237 			}
1238 			break;
1239 		case ZEND_SEND_VAR:
1240 			if (ssa->ops[line].op1_def == var) {
1241 				if (ssa->ops[line].op1_def >= 0) {
1242 					if (OP1_HAS_RANGE()) {
1243 						tmp->underflow = OP1_RANGE_UNDERFLOW();
1244 						tmp->min = OP1_MIN_RANGE();
1245 						tmp->max = OP1_MAX_RANGE();
1246 						tmp->overflow  = OP1_RANGE_OVERFLOW();
1247 						return 1;
1248 					}
1249 				}
1250 			}
1251 			break;
1252 		case ZEND_PRE_INC:
1253 			if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) {
1254 				if (OP1_HAS_RANGE()) {
1255 					tmp->min = OP1_MIN_RANGE();
1256 					tmp->max = OP1_MAX_RANGE();
1257 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1258 					tmp->overflow = OP1_RANGE_OVERFLOW();
1259 					if (tmp->max < ZEND_LONG_MAX) {
1260 						tmp->max++;
1261 					} else {
1262 						tmp->overflow = 1;
1263 					}
1264 					if (tmp->min < ZEND_LONG_MAX && !tmp->underflow) {
1265 						tmp->min++;
1266 					}
1267 					return 1;
1268 				}
1269 			}
1270 			break;
1271 		case ZEND_PRE_DEC:
1272 			if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) {
1273 				if (OP1_HAS_RANGE()) {
1274 					tmp->min = OP1_MIN_RANGE();
1275 					tmp->max = OP1_MAX_RANGE();
1276 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1277 					tmp->overflow = OP1_RANGE_OVERFLOW();
1278 					if (tmp->min > ZEND_LONG_MIN) {
1279 						tmp->min--;
1280 					} else {
1281 						tmp->underflow = 1;
1282 					}
1283 					if (tmp->max > ZEND_LONG_MIN && !tmp->overflow) {
1284 						tmp->max--;
1285 					}
1286 					return 1;
1287 				}
1288 			}
1289 			break;
1290 		case ZEND_POST_INC:
1291 			if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) {
1292 				if (OP1_HAS_RANGE()) {
1293 					tmp->min = OP1_MIN_RANGE();
1294 					tmp->max = OP1_MAX_RANGE();
1295 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1296 					tmp->overflow = OP1_RANGE_OVERFLOW();
1297 					if (ssa->ops[line].result_def == var) {
1298 						return 1;
1299 					}
1300 					if (tmp->max < ZEND_LONG_MAX) {
1301 						tmp->max++;
1302 					} else {
1303 						tmp->overflow = 1;
1304 					}
1305 					if (tmp->min < ZEND_LONG_MAX && !tmp->underflow) {
1306 						tmp->min++;
1307 					}
1308 					return 1;
1309 				}
1310 			}
1311 			break;
1312 		case ZEND_POST_DEC:
1313 			if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) {
1314 				if (OP1_HAS_RANGE()) {
1315 					tmp->min = OP1_MIN_RANGE();
1316 					tmp->max = OP1_MAX_RANGE();
1317 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1318 					tmp->overflow = OP1_RANGE_OVERFLOW();
1319 					if (ssa->ops[line].result_def == var) {
1320 						return 1;
1321 					}
1322 					if (tmp->min > ZEND_LONG_MIN) {
1323 						tmp->min--;
1324 					} else {
1325 						tmp->underflow = 1;
1326 					}
1327 					if (tmp->max > ZEND_LONG_MIN && !tmp->overflow) {
1328 						tmp->max--;
1329 					}
1330 					return 1;
1331 				}
1332 			}
1333 			break;
1334 		case ZEND_UNSET_DIM:
1335 		case ZEND_UNSET_OBJ:
1336 			if (ssa->ops[line].op1_def == var) {
1337 				/* If op1 is scalar, UNSET_DIM and UNSET_OBJ have no effect, so we can keep
1338 				 * the previous ranges. */
1339 				if (OP1_HAS_RANGE()) {
1340 					tmp->min = OP1_MIN_RANGE();
1341 					tmp->max = OP1_MAX_RANGE();
1342 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1343 					tmp->overflow  = OP1_RANGE_OVERFLOW();
1344 					return 1;
1345 				}
1346 			}
1347 			break;
1348 		case ZEND_ASSIGN:
1349 			if (ssa->ops[line].op1_def == var || ssa->ops[line].op2_def == var || ssa->ops[line].result_def == var) {
1350 				if (OP2_HAS_RANGE()) {
1351 					tmp->min = OP2_MIN_RANGE();
1352 					tmp->max = OP2_MAX_RANGE();
1353 					tmp->underflow = OP2_RANGE_UNDERFLOW();
1354 					tmp->overflow  = OP2_RANGE_OVERFLOW();
1355 					return 1;
1356 				}
1357 			}
1358 			break;
1359 		case ZEND_ASSIGN_DIM:
1360 		case ZEND_ASSIGN_OBJ:
1361 			if (ssa->ops[line+1].op1_def == var) {
1362 				if ((opline+1)->opcode == ZEND_OP_DATA) {
1363 					opline++;
1364 					tmp->min = OP1_MIN_RANGE();
1365 					tmp->max = OP1_MAX_RANGE();
1366 					tmp->underflow = OP1_RANGE_UNDERFLOW();
1367 					tmp->overflow  = OP1_RANGE_OVERFLOW();
1368 					return 1;
1369 				}
1370 			}
1371 			break;
1372 		case ZEND_ASSIGN_ADD:
1373 		case ZEND_ASSIGN_SUB:
1374 		case ZEND_ASSIGN_MUL:
1375 		case ZEND_ASSIGN_DIV:
1376 		case ZEND_ASSIGN_MOD:
1377 		case ZEND_ASSIGN_SL:
1378 		case ZEND_ASSIGN_SR:
1379 		case ZEND_ASSIGN_BW_OR:
1380 		case ZEND_ASSIGN_BW_AND:
1381 		case ZEND_ASSIGN_BW_XOR:
1382 			if (opline->extended_value == 0) {
1383 				if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) {
1384 					return zend_inference_calc_binary_op_range(
1385 						op_array, ssa, opline, &ssa->ops[line],
1386 						get_compound_assign_op(opline->opcode), tmp);
1387 				}
1388 			} else if ((opline+1)->opcode == ZEND_OP_DATA) {
1389 				if (ssa->ops[line+1].op1_def == var) {
1390 					opline++;
1391 					if (OP1_HAS_RANGE()) {
1392 						tmp->min = OP1_MIN_RANGE();
1393 						tmp->max = OP1_MAX_RANGE();
1394 						tmp->underflow = OP1_RANGE_UNDERFLOW();
1395 						tmp->overflow  = OP1_RANGE_OVERFLOW();
1396 						return 1;
1397 					}
1398 				}
1399 			}
1400 			break;
1401 //		case ZEND_ASSIGN_CONCAT:
1402 		case ZEND_OP_DATA:
1403 			if ((opline-1)->opcode == ZEND_ASSIGN_DIM ||
1404 			    (opline-1)->opcode == ZEND_ASSIGN_OBJ ||
1405 			    (opline-1)->opcode == ZEND_ASSIGN_ADD ||
1406 			    (opline-1)->opcode == ZEND_ASSIGN_SUB ||
1407 			    (opline-1)->opcode == ZEND_ASSIGN_MUL) {
1408 				if (ssa->ops[line].op1_def == var) {
1409 					if (OP1_HAS_RANGE()) {
1410 						tmp->min = OP1_MIN_RANGE();
1411 						tmp->max = OP1_MAX_RANGE();
1412 						tmp->underflow = OP1_RANGE_UNDERFLOW();
1413 						tmp->overflow  = OP1_RANGE_OVERFLOW();
1414 						return 1;
1415 					}
1416 				}
1417 				break;
1418 			}
1419 			break;
1420 		case ZEND_RECV:
1421 		case ZEND_RECV_INIT:
1422 			if (ssa->ops[line].result_def == var) {
1423 				zend_func_info *func_info = ZEND_FUNC_INFO(op_array);
1424 
1425 				if (func_info &&
1426 				    (int)opline->op1.num-1 < func_info->num_args &&
1427 				    func_info->arg_info[opline->op1.num-1].info.has_range) {
1428 					*tmp = func_info->arg_info[opline->op1.num-1].info.range;
1429 					return 1;
1430 				} else if (op_array->arg_info &&
1431 				    opline->op1.num <= op_array->num_args) {
1432 					if (ZEND_TYPE_CODE(op_array->arg_info[opline->op1.num-1].type) == IS_LONG) {
1433 						tmp->underflow = 0;
1434 						tmp->min = ZEND_LONG_MIN;
1435 						tmp->max = ZEND_LONG_MAX;
1436 						tmp->overflow = 0;
1437 						return 1;
1438 					} else if (ZEND_TYPE_CODE(op_array->arg_info[opline->op1.num-1].type) == _IS_BOOL) {
1439 						tmp->underflow = 0;
1440 						tmp->min = 0;
1441 						tmp->max = 1;
1442 						tmp->overflow = 0;
1443 						return 1;
1444 					}
1445 				}
1446 			}
1447 			break;
1448 		case ZEND_STRLEN:
1449 			if (ssa->ops[line].result_def == var) {
1450 #if SIZEOF_ZEND_LONG == 4
1451 				/* The length of a string is a non-negative integer. However, on 32-bit
1452 				 * platforms overflows into negative lengths may occur, so it's better
1453 				 * to not assume any particular range. */
1454 				tmp->min = ZEND_LONG_MIN;
1455 #else
1456 				tmp->min = 0;
1457 #endif
1458 				tmp->max = ZEND_LONG_MAX;
1459 				return 1;
1460 			}
1461 			break;
1462 		case ZEND_FUNC_NUM_ARGS:
1463 			tmp->min = 0;
1464 			tmp->max = ZEND_LONG_MAX;
1465 			return 1;
1466 		case ZEND_COUNT:
1467 			/* count() on Countable objects may return negative numbers */
1468 			tmp->min = ZEND_LONG_MIN;
1469 			tmp->max = ZEND_LONG_MAX;
1470 			return 1;
1471 		case ZEND_DO_FCALL:
1472 		case ZEND_DO_ICALL:
1473 		case ZEND_DO_UCALL:
1474 		case ZEND_DO_FCALL_BY_NAME:
1475 			if (ssa->ops[line].result_def == var) {
1476 				zend_func_info *func_info = ZEND_FUNC_INFO(op_array);
1477 				zend_call_info *call_info;
1478 				if (!func_info || !func_info->call_map) {
1479 					break;
1480 				}
1481 
1482 				call_info = func_info->call_map[opline - op_array->opcodes];
1483 				if (!call_info) {
1484 					break;
1485 				}
1486 				if (call_info->callee_func->type == ZEND_USER_FUNCTION) {
1487 					func_info = ZEND_FUNC_INFO(&call_info->callee_func->op_array);
1488 					if (func_info && func_info->return_info.has_range) {
1489 						*tmp = func_info->return_info.range;
1490 						return 1;
1491 					}
1492 				}
1493 //TODO: we can't use type inference for internal functions at this point ???
1494 #if 0
1495 					uint32_t type;
1496 
1497 					type = zend_get_func_info(call_info, ssa);
1498 					if (!(type & (MAY_BE_ANY - (MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_LONG)))) {
1499 						tmp->underflow = 0;
1500 						tmp->min = 0;
1501 						tmp->max = 0;
1502 						tmp->overflow = 0;
1503 						if (type & MAY_BE_LONG) {
1504 							tmp->min = ZEND_LONG_MIN;
1505 							tmp->max = ZEND_LONG_MAX;
1506 						} else if (type & MAY_BE_TRUE) {
1507 							if (!(type & (MAY_BE_NULL|MAY_BE_FALSE))) {
1508 								tmp->min = 1;
1509 							}
1510 							tmp->max = 1;
1511 						}
1512 						return 1;
1513 					}
1514 #endif
1515 			}
1516 			break;
1517 		// FIXME: support for more opcodes
1518 		default:
1519 			break;
1520 	}
1521 	return 0;
1522 }
1523 
zend_inference_init_range(const zend_op_array * op_array,zend_ssa * ssa,int var,zend_bool underflow,zend_long min,zend_long max,zend_bool overflow)1524 void zend_inference_init_range(const zend_op_array *op_array, zend_ssa *ssa, int var, zend_bool underflow, zend_long min, zend_long max, zend_bool overflow)
1525 {
1526 	if (underflow) {
1527 		min = ZEND_LONG_MIN;
1528 	}
1529 	if (overflow) {
1530 		max = ZEND_LONG_MAX;
1531 	}
1532 	ssa->var_info[var].has_range = 1;
1533 	ssa->var_info[var].range.underflow = underflow;
1534 	ssa->var_info[var].range.min = min;
1535 	ssa->var_info[var].range.max = max;
1536 	ssa->var_info[var].range.overflow = overflow;
1537 	LOG_SSA_RANGE("  change range (init      SCC %2d) %2d [%s%ld..%ld%s]\n", ssa->vars[var].scc, var, (underflow?"-- ":""), min, max, (overflow?" ++":""));
1538 }
1539 
zend_inference_widening_meet(zend_ssa_var_info * var_info,zend_ssa_range * r)1540 int zend_inference_widening_meet(zend_ssa_var_info *var_info, zend_ssa_range *r)
1541 {
1542 	if (!var_info->has_range) {
1543 		var_info->has_range = 1;
1544 	} else {
1545 		if (r->underflow ||
1546 		    var_info->range.underflow ||
1547 		    r->min < var_info->range.min) {
1548 			r->underflow = 1;
1549 			r->min = ZEND_LONG_MIN;
1550 		}
1551 		if (r->overflow ||
1552 		    var_info->range.overflow ||
1553 		    r->max > var_info->range.max) {
1554 			r->overflow = 1;
1555 			r->max = ZEND_LONG_MAX;
1556 		}
1557 		if (var_info->range.min == r->min &&
1558 		    var_info->range.max == r->max &&
1559 		    var_info->range.underflow == r->underflow &&
1560 		    var_info->range.overflow == r->overflow) {
1561 			return 0;
1562 		}
1563 	}
1564 	var_info->range = *r;
1565 	return 1;
1566 }
1567 
zend_ssa_range_widening(const zend_op_array * op_array,zend_ssa * ssa,int var,int scc)1568 static int zend_ssa_range_widening(const zend_op_array *op_array, zend_ssa *ssa, int var, int scc)
1569 {
1570 	zend_ssa_range tmp;
1571 
1572 	if (zend_inference_calc_range(op_array, ssa, var, 1, 0, &tmp)) {
1573 		if (zend_inference_widening_meet(&ssa->var_info[var], &tmp)) {
1574 			LOG_SSA_RANGE("  change range (widening  SCC %2d) %2d [%s%ld..%ld%s]\n", scc, var, (tmp.underflow?"-- ":""), tmp.min, tmp.max, (tmp.overflow?" ++":""));
1575 			return 1;
1576 		}
1577 	}
1578 	return 0;
1579 }
1580 
zend_inference_narrowing_meet(zend_ssa_var_info * var_info,zend_ssa_range * r)1581 int zend_inference_narrowing_meet(zend_ssa_var_info *var_info, zend_ssa_range *r)
1582 {
1583 	if (!var_info->has_range) {
1584 		var_info->has_range = 1;
1585 	} else {
1586 		if (!r->underflow &&
1587 		    !var_info->range.underflow &&
1588 		    var_info->range.min < r->min) {
1589 			r->min = var_info->range.min;
1590 		}
1591 		if (!r->overflow &&
1592 		    !var_info->range.overflow &&
1593 		    var_info->range.max > r->max) {
1594 			r->max = var_info->range.max;
1595 		}
1596 		if (r->underflow) {
1597 			r->min = ZEND_LONG_MIN;
1598 		}
1599 		if (r->overflow) {
1600 			r->max = ZEND_LONG_MAX;
1601 		}
1602 		if (var_info->range.min == r->min &&
1603 		    var_info->range.max == r->max &&
1604 		    var_info->range.underflow == r->underflow &&
1605 		    var_info->range.overflow == r->overflow) {
1606 			return 0;
1607 		}
1608 	}
1609 	var_info->range = *r;
1610 	return 1;
1611 }
1612 
zend_ssa_range_narrowing(const zend_op_array * op_array,zend_ssa * ssa,int var,int scc)1613 static int zend_ssa_range_narrowing(const zend_op_array *op_array, zend_ssa *ssa, int var, int scc)
1614 {
1615 	zend_ssa_range tmp;
1616 
1617 	if (zend_inference_calc_range(op_array, ssa, var, 0, 1, &tmp)) {
1618 		if (zend_inference_narrowing_meet(&ssa->var_info[var], &tmp)) {
1619 			LOG_SSA_RANGE("  change range (narrowing SCC %2d) %2d [%s%ld..%ld%s]\n", scc, var, (tmp.underflow?"-- ":""), tmp.min, tmp.max, (tmp.overflow?" ++":""));
1620 			return 1;
1621 		}
1622 	}
1623 	return 0;
1624 }
1625 
1626 #ifdef NEG_RANGE
1627 # define CHECK_INNER_CYCLE(var2) \
1628 	do { \
1629 		if (ssa->vars[var2].scc == ssa->vars[var].scc && \
1630 		    !ssa->vars[var2].scc_entry && \
1631 		    !zend_bitset_in(visited, var2) && \
1632 			zend_check_inner_cycles(op_array, ssa, worklist, visited, var2)) { \
1633 			return 1; \
1634 		} \
1635 	} while (0)
1636 
zend_check_inner_cycles(const zend_op_array * op_array,zend_ssa * ssa,zend_bitset worklist,zend_bitset visited,int var)1637 static int zend_check_inner_cycles(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, zend_bitset visited, int var)
1638 {
1639 	if (zend_bitset_in(worklist, var)) {
1640 		return 1;
1641 	}
1642 	zend_bitset_incl(worklist, var);
1643 	FOR_EACH_VAR_USAGE(var, CHECK_INNER_CYCLE);
1644 	zend_bitset_incl(visited, var);
1645 	return 0;
1646 }
1647 #endif
1648 
zend_infer_ranges_warmup(const zend_op_array * op_array,zend_ssa * ssa,int * scc_var,int * next_scc_var,int scc)1649 static void zend_infer_ranges_warmup(const zend_op_array *op_array, zend_ssa *ssa, int *scc_var, int *next_scc_var, int scc)
1650 {
1651 	int worklist_len = zend_bitset_len(ssa->vars_count);
1652 	int j, n;
1653 	zend_ssa_range tmp;
1654 	ALLOCA_FLAG(use_heap)
1655 	zend_bitset worklist = do_alloca(sizeof(zend_ulong) * worklist_len * 2, use_heap);
1656 	zend_bitset visited = worklist + worklist_len;
1657 #ifdef NEG_RANGE
1658 	int has_inner_cycles = 0;
1659 
1660 	memset(worklist, 0, sizeof(zend_ulong) * worklist_len);
1661 	memset(visited, 0, sizeof(zend_ulong) * worklist_len);
1662 	j = scc_var[scc];
1663 	while (j >= 0) {
1664 		if (!zend_bitset_in(visited, j) &&
1665 		    zend_check_inner_cycles(op_array, ssa, worklist, visited, j)) {
1666 			has_inner_cycles = 1;
1667 			break;
1668 		}
1669 		j = next_scc_var[j];
1670 	}
1671 #endif
1672 
1673 	memset(worklist, 0, sizeof(zend_ulong) * worklist_len);
1674 
1675 	for (n = 0; n < RANGE_WARMUP_PASSES; n++) {
1676 		j= scc_var[scc];
1677 		while (j >= 0) {
1678 			if (ssa->vars[j].scc_entry) {
1679 				zend_bitset_incl(worklist, j);
1680 			}
1681 			j = next_scc_var[j];
1682 		}
1683 
1684 		memset(visited, 0, sizeof(zend_ulong) * worklist_len);
1685 
1686 		WHILE_WORKLIST(worklist, worklist_len, j) {
1687 			if (zend_inference_calc_range(op_array, ssa, j, 0, 0, &tmp)) {
1688 #ifdef NEG_RANGE
1689 				if (!has_inner_cycles &&
1690 				    ssa->var_info[j].has_range &&
1691 				    ssa->vars[j].definition_phi &&
1692 				    ssa->vars[j].definition_phi->pi >= 0 &&
1693 					ssa->vars[j].definition_phi->has_range_constraint &&
1694 				    ssa->vars[j].definition_phi->constraint.range.negative &&
1695 				    ssa->vars[j].definition_phi->constraint.range.min_ssa_var < 0 &&
1696 				    ssa->vars[j].definition_phi->constraint.range.max_ssa_var < 0) {
1697 					zend_ssa_range_constraint *constraint =
1698 						&ssa->vars[j].definition_phi->constraint.range;
1699 					if (tmp.min == ssa->var_info[j].range.min &&
1700 					    tmp.max == ssa->var_info[j].range.max) {
1701 						if (constraint->negative == NEG_INIT) {
1702 							LOG_NEG_RANGE("#%d INVARIANT\n", j);
1703 							constraint->negative = NEG_INVARIANT;
1704 						}
1705 					} else if (tmp.min == ssa->var_info[j].range.min &&
1706 					           tmp.max == ssa->var_info[j].range.max + 1 &&
1707 					           tmp.max < constraint->range.min) {
1708 						if (constraint->negative == NEG_INIT ||
1709 						    constraint->negative == NEG_INVARIANT) {
1710 							LOG_NEG_RANGE("#%d LT\n", j);
1711 							constraint->negative = NEG_USE_LT;
1712 //???NEG
1713 						} else if (constraint->negative == NEG_USE_GT) {
1714 							LOG_NEG_RANGE("#%d UNKNOWN\n", j);
1715 							constraint->negative = NEG_UNKNOWN;
1716 						}
1717 					} else if (tmp.max == ssa->var_info[j].range.max &&
1718 				               tmp.min == ssa->var_info[j].range.min - 1 &&
1719 					           tmp.min > constraint->range.max) {
1720 						if (constraint->negative == NEG_INIT ||
1721 						    constraint->negative == NEG_INVARIANT) {
1722 							LOG_NEG_RANGE("#%d GT\n", j);
1723 							constraint->negative = NEG_USE_GT;
1724 //???NEG
1725 						} else if (constraint->negative == NEG_USE_LT) {
1726 							LOG_NEG_RANGE("#%d UNKNOWN\n", j);
1727 							constraint->negative = NEG_UNKNOWN;
1728 						}
1729 					} else {
1730 						LOG_NEG_RANGE("#%d UNKNOWN\n", j);
1731 						constraint->negative = NEG_UNKNOWN;
1732 					}
1733 				}
1734 #endif
1735 				if (zend_inference_narrowing_meet(&ssa->var_info[j], &tmp)) {
1736 					LOG_SSA_RANGE("  change range (warmup %2d SCC %2d) %2d [%s%ld..%ld%s]\n", n, scc, j, (tmp.underflow?"-- ":""), tmp.min, tmp.max, (tmp.overflow?" ++":""));
1737 					zend_bitset_incl(visited, j);
1738 					FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR_1);
1739 				}
1740 			}
1741 		} WHILE_WORKLIST_END();
1742 	}
1743 	free_alloca(worklist, use_heap);
1744 }
1745 
zend_infer_ranges(const zend_op_array * op_array,zend_ssa * ssa)1746 static int zend_infer_ranges(const zend_op_array *op_array, zend_ssa *ssa) /* {{{ */
1747 {
1748 	int worklist_len = zend_bitset_len(ssa->vars_count);
1749 	zend_bitset worklist;
1750 	int *next_scc_var;
1751 	int *scc_var;
1752 	zend_ssa_phi *p;
1753 	zend_ssa_range tmp;
1754 	int scc, j;
1755 	ALLOCA_FLAG(use_heap);
1756 
1757 	worklist = do_alloca(
1758 		ZEND_MM_ALIGNED_SIZE(sizeof(zend_ulong) * worklist_len) +
1759 		ZEND_MM_ALIGNED_SIZE(sizeof(int) * ssa->vars_count) +
1760 		sizeof(int) * ssa->sccs, use_heap);
1761 	next_scc_var = (int*)((char*)worklist + ZEND_MM_ALIGNED_SIZE(sizeof(zend_ulong) * worklist_len));
1762 	scc_var = (int*)((char*)next_scc_var + ZEND_MM_ALIGNED_SIZE(sizeof(int) * ssa->vars_count));
1763 
1764 	LOG_SSA_RANGE("Range Inference\n");
1765 
1766 	/* Create linked lists of SSA variables for each SCC */
1767 	memset(scc_var, -1, sizeof(int) * ssa->sccs);
1768 	for (j = 0; j < ssa->vars_count; j++) {
1769 		if (ssa->vars[j].scc >= 0) {
1770 			next_scc_var[j] = scc_var[ssa->vars[j].scc];
1771 			scc_var[ssa->vars[j].scc] = j;
1772 		}
1773 	}
1774 
1775 	for (scc = 0; scc < ssa->sccs; scc++) {
1776 		j = scc_var[scc];
1777 		if (next_scc_var[j] < 0) {
1778 			/* SCC with a single element */
1779 			if (zend_inference_calc_range(op_array, ssa, j, 0, 1, &tmp)) {
1780 				zend_inference_init_range(op_array, ssa, j, tmp.underflow, tmp.min, tmp.max, tmp.overflow);
1781 			} else {
1782 				zend_inference_init_range(op_array, ssa, j, 1, ZEND_LONG_MIN, ZEND_LONG_MAX, 1);
1783 			}
1784 		} else {
1785 			/* Find SCC entry points */
1786 			memset(worklist, 0, sizeof(zend_ulong) * worklist_len);
1787 			do {
1788 				if (ssa->vars[j].scc_entry) {
1789 					zend_bitset_incl(worklist, j);
1790 				}
1791 				j = next_scc_var[j];
1792 			} while (j >= 0);
1793 
1794 #if RANGE_WARMUP_PASSES > 0
1795 			zend_infer_ranges_warmup(op_array, ssa, scc_var, next_scc_var, scc);
1796 			j = scc_var[scc];
1797 			do {
1798 				zend_bitset_incl(worklist, j);
1799 				j = next_scc_var[j];
1800 			} while (j >= 0);
1801 #endif
1802 
1803 			/* widening */
1804 			WHILE_WORKLIST(worklist, worklist_len, j) {
1805 				if (zend_ssa_range_widening(op_array, ssa, j, scc)) {
1806 					FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR);
1807 				}
1808 			} WHILE_WORKLIST_END();
1809 
1810 			/* Add all SCC entry variables into worklist for narrowing */
1811 			for (j = scc_var[scc]; j >= 0; j = next_scc_var[j]) {
1812 				if (!ssa->var_info[j].has_range) {
1813 					zend_inference_init_range(op_array, ssa, j, 1, ZEND_LONG_MIN, ZEND_LONG_MAX, 1);
1814 				} else if (ssa->vars[j].definition_phi &&
1815 				           ssa->vars[j].definition_phi->pi < 0) {
1816 					/* narrowing Phi functions first */
1817 					zend_ssa_range_narrowing(op_array, ssa, j, scc);
1818 				}
1819 				zend_bitset_incl(worklist, j);
1820 			}
1821 
1822 			/* narrowing */
1823 			WHILE_WORKLIST(worklist, worklist_len, j) {
1824 				if (zend_ssa_range_narrowing(op_array, ssa, j, scc)) {
1825 					FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR);
1826 #ifdef SYM_RANGE
1827 					/* Process symbolic control-flow constraints */
1828 					p = ssa->vars[j].sym_use_chain;
1829 					while (p) {
1830 						ADD_SCC_VAR(p->ssa_var);
1831 						p = p->sym_use_chain;
1832 					}
1833 #endif
1834 				}
1835 			} WHILE_WORKLIST_END();
1836 		}
1837 	}
1838 
1839 	free_alloca(worklist, use_heap);
1840 
1841 	return SUCCESS;
1842 }
1843 /* }}} */
1844 
get_ssa_alias_types(zend_ssa_alias_kind alias)1845 static uint32_t get_ssa_alias_types(zend_ssa_alias_kind alias) {
1846 	if (alias == PHP_ERRORMSG_ALIAS) {
1847 		return MAY_BE_STRING | MAY_BE_RC1 | MAY_BE_RCN;
1848 	} else if (alias == HTTP_RESPONSE_HEADER_ALIAS) {
1849 		return MAY_BE_ARRAY | MAY_BE_ARRAY_KEY_LONG | MAY_BE_ARRAY_OF_STRING | MAY_BE_RC1 | MAY_BE_RCN;
1850 	} else {
1851 		return MAY_BE_UNDEF | MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_REF | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
1852 	}
1853 }
1854 
1855 #define UPDATE_SSA_TYPE(_type, _var)									\
1856 	do {																\
1857 		uint32_t __type = (_type);										\
1858 		int __var = (_var);												\
1859 		if (__type & MAY_BE_REF) {										\
1860 			__type |= MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; \
1861 		}																\
1862 		if (__var >= 0) {												\
1863 			zend_ssa_var *__ssa_var = &ssa_vars[__var];					\
1864 			if (__ssa_var->var < op_array->last_var) {					\
1865 				if (__type & (MAY_BE_REF|MAY_BE_RCN)) {					\
1866 					__type |= MAY_BE_RC1 | MAY_BE_RCN;					\
1867 				}														\
1868 				if ((__type & MAY_BE_RC1) && (__type & MAY_BE_STRING)) {\
1869 					/* TODO: support for array keys and ($str . "")*/   \
1870 					__type |= MAY_BE_RCN;                               \
1871 				}                                                       \
1872 				if (__ssa_var->alias) {									\
1873 					__type |= get_ssa_alias_types(__ssa_var->alias);	\
1874 				}														\
1875 			}															\
1876 			if (ssa_var_info[__var].type != __type) { 					\
1877 				if (ssa_var_info[__var].type & ~__type) {				\
1878 					handle_type_narrowing(op_array, ssa, worklist,		\
1879 						__var, ssa_var_info[__var].type, __type);		\
1880 					return FAILURE;										\
1881 				}														\
1882 				ssa_var_info[__var].type = __type;						\
1883 				add_usages(op_array, ssa, worklist, __var);				\
1884 			}															\
1885 			/*zend_bitset_excl(worklist, var);*/						\
1886 		}																\
1887 	} while (0)
1888 
1889 #define UPDATE_SSA_OBJ_TYPE(_ce, _is_instanceof, var)				    \
1890 	do {                                                                \
1891 		if (var >= 0) {													\
1892 			if (ssa_var_info[var].ce != (_ce) ||                        \
1893 			    ssa_var_info[var].is_instanceof != (_is_instanceof)) {  \
1894 				ssa_var_info[var].ce = (_ce);						    \
1895 				ssa_var_info[var].is_instanceof = (_is_instanceof);     \
1896 				add_usages(op_array, ssa, worklist, var);				\
1897 			}															\
1898 			/*zend_bitset_excl(worklist, var);*/						\
1899 		}																\
1900 	} while (0)
1901 
1902 #define COPY_SSA_OBJ_TYPE(from_var, to_var) do { \
1903 	if ((from_var) >= 0 && (ssa_var_info[(from_var)].type & MAY_BE_OBJECT) \
1904 			&& ssa_var_info[(from_var)].ce) { \
1905 		UPDATE_SSA_OBJ_TYPE(ssa_var_info[(from_var)].ce, \
1906 			ssa_var_info[(from_var)].is_instanceof, (to_var)); \
1907 	} else { \
1908 		UPDATE_SSA_OBJ_TYPE(NULL, 0, (to_var)); \
1909 	} \
1910 } while (0)
1911 
add_usages(const zend_op_array * op_array,zend_ssa * ssa,zend_bitset worklist,int var)1912 static void add_usages(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, int var)
1913 {
1914 	if (ssa->vars[var].phi_use_chain) {
1915 		zend_ssa_phi *p = ssa->vars[var].phi_use_chain;
1916 		do {
1917 			zend_bitset_incl(worklist, p->ssa_var);
1918 			p = zend_ssa_next_use_phi(ssa, var, p);
1919 		} while (p);
1920 	}
1921 	if (ssa->vars[var].use_chain >= 0) {
1922 		int use = ssa->vars[var].use_chain;
1923 		zend_ssa_op *op;
1924 
1925 		do {
1926 			op = ssa->ops + use;
1927 			if (op->result_def >= 0) {
1928 				zend_bitset_incl(worklist, op->result_def);
1929 			}
1930 			if (op->op1_def >= 0) {
1931 				zend_bitset_incl(worklist, op->op1_def);
1932 			}
1933 			if (op->op2_def >= 0) {
1934 				zend_bitset_incl(worklist, op->op2_def);
1935 			}
1936 			if (op_array->opcodes[use].opcode == ZEND_OP_DATA) {
1937 				op--;
1938 				if (op->result_def >= 0) {
1939 					zend_bitset_incl(worklist, op->result_def);
1940 				}
1941 				if (op->op1_def >= 0) {
1942 					zend_bitset_incl(worklist, op->op1_def);
1943 				}
1944 				if (op->op2_def >= 0) {
1945 					zend_bitset_incl(worklist, op->op2_def);
1946 				}
1947 			}
1948 			use = zend_ssa_next_use(ssa->ops, var, use);
1949 		} while (use >= 0);
1950 	}
1951 }
1952 
reset_dependent_vars(const zend_op_array * op_array,zend_ssa * ssa,zend_bitset worklist,int var)1953 static void reset_dependent_vars(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, int var)
1954 {
1955 	zend_ssa_op *ssa_ops = ssa->ops;
1956 	zend_ssa_var *ssa_vars = ssa->vars;
1957 	zend_ssa_var_info *ssa_var_info = ssa->var_info;
1958 	zend_ssa_phi *p;
1959 	int use;
1960 
1961 	p = ssa_vars[var].phi_use_chain;
1962 	while (p) {
1963 		if (ssa_var_info[p->ssa_var].type) {
1964 			ssa_var_info[p->ssa_var].type = 0;
1965 			zend_bitset_incl(worklist, p->ssa_var);
1966 			reset_dependent_vars(op_array, ssa, worklist, p->ssa_var);
1967 		}
1968 		p = zend_ssa_next_use_phi(ssa, var, p);
1969 	}
1970 	use = ssa_vars[var].use_chain;
1971 	while (use >= 0) {
1972 		if (ssa_ops[use].op1_def >= 0 && ssa_var_info[ssa_ops[use].op1_def].type) {
1973 			ssa_var_info[ssa_ops[use].op1_def].type = 0;
1974 			zend_bitset_incl(worklist, ssa_ops[use].op1_def);
1975 			reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use].op1_def);
1976 		}
1977 		if (ssa_ops[use].op2_def >= 0 && ssa_var_info[ssa_ops[use].op2_def].type) {
1978 			ssa_var_info[ssa_ops[use].op2_def].type = 0;
1979 			zend_bitset_incl(worklist, ssa_ops[use].op2_def);
1980 			reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use].op2_def);
1981 		}
1982 		if (ssa_ops[use].result_def >= 0 && ssa_var_info[ssa_ops[use].result_def].type) {
1983 			ssa_var_info[ssa_ops[use].result_def].type = 0;
1984 			zend_bitset_incl(worklist, ssa_ops[use].result_def);
1985 			reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use].result_def);
1986 		}
1987 		if (op_array->opcodes[use+1].opcode == ZEND_OP_DATA) {
1988 			if (ssa_ops[use+1].op1_def >= 0 && ssa_var_info[ssa_ops[use+1].op1_def].type) {
1989 				ssa_var_info[ssa_ops[use+1].op1_def].type = 0;
1990 				zend_bitset_incl(worklist, ssa_ops[use+1].op1_def);
1991 				reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use+1].op1_def);
1992 			}
1993 			if (ssa_ops[use+1].op2_def >= 0 && ssa_var_info[ssa_ops[use+1].op2_def].type) {
1994 				ssa_var_info[ssa_ops[use+1].op2_def].type = 0;
1995 				zend_bitset_incl(worklist, ssa_ops[use+1].op2_def);
1996 				reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use+1].op2_def);
1997 			}
1998 			if (ssa_ops[use+1].result_def >= 0 && ssa_var_info[ssa_ops[use+1].result_def].type) {
1999 				ssa_var_info[ssa_ops[use+1].result_def].type = 0;
2000 				zend_bitset_incl(worklist, ssa_ops[use+1].result_def);
2001 				reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use+1].result_def);
2002 			}
2003 		}
2004 		use = zend_ssa_next_use(ssa_ops, var, use);
2005 	}
2006 #ifdef SYM_RANGE
2007 	/* Process symbolic control-flow constraints */
2008 	p = ssa->vars[var].sym_use_chain;
2009 	while (p) {
2010 		ssa_var_info[p->ssa_var].type = 0;
2011 		zend_bitset_incl(worklist, p->ssa_var);
2012 		reset_dependent_vars(op_array, ssa, worklist, p->ssa_var);
2013 		p = p->sym_use_chain;
2014 	}
2015 #endif
2016 }
2017 
handle_type_narrowing(const zend_op_array * op_array,zend_ssa * ssa,zend_bitset worklist,int var,uint32_t old_type,uint32_t new_type)2018 static void handle_type_narrowing(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, int var, uint32_t old_type, uint32_t new_type)
2019 {
2020 	if (1) {
2021 		/* Right now, this is always a bug */
2022 		int def_op_num = ssa->vars[var].definition;
2023 		const zend_op *def_opline = def_op_num >= 0 ? &op_array->opcodes[def_op_num] : NULL;
2024 		const char *def_op_name = def_opline ? zend_get_opcode_name(def_opline->opcode) : "PHI";
2025 		zend_error(E_WARNING, "Narrowing occurred during type inference of %s. Please file a bug report on bugs.php.net", def_op_name);
2026 	} else {
2027 		/* if new_type set resets some bits from old_type set
2028 		 * We have completely recalculate types of some dependent SSA variables
2029 		 * (this may occurs mainly because of incremental inter-precudure
2030 		 * type inference)
2031 		 */
2032 		reset_dependent_vars(op_array, ssa, worklist, var);
2033 	}
2034 }
2035 
zend_array_element_type(uint32_t t1,int write,int insert)2036 uint32_t zend_array_element_type(uint32_t t1, int write, int insert)
2037 {
2038 	uint32_t tmp = 0;
2039 
2040 	if (t1 & MAY_BE_OBJECT) {
2041 		tmp |= MAY_BE_ANY | MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2042 	}
2043 	if (t1 & MAY_BE_ARRAY) {
2044 		if (insert) {
2045 			tmp |= MAY_BE_NULL;
2046 		} else {
2047 			tmp |= MAY_BE_NULL | ((t1 & MAY_BE_ARRAY_OF_ANY) >> MAY_BE_ARRAY_SHIFT);
2048 			if (tmp & MAY_BE_ARRAY) {
2049 				tmp |= MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2050 			}
2051 			if (t1 & MAY_BE_ARRAY_OF_REF) {
2052 				tmp |= MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN;
2053 			} else if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
2054 				tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2055 			}
2056 		}
2057 	}
2058 	if (t1 & MAY_BE_STRING) {
2059 		tmp |= MAY_BE_STRING | MAY_BE_RC1;
2060 		if (write) {
2061 			tmp |= MAY_BE_NULL;
2062 		}
2063 	}
2064 	if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) {
2065 		tmp |= MAY_BE_NULL;
2066 		if (t1 & MAY_BE_ERROR) {
2067 			if (write) {
2068 				tmp |= MAY_BE_ERROR;
2069 			}
2070 		}
2071 	}
2072 	if (t1 & (MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_RESOURCE)) {
2073 		tmp |= MAY_BE_NULL;
2074 		if (write) {
2075 			tmp |= MAY_BE_ERROR;
2076 		}
2077 	}
2078 	return tmp;
2079 }
2080 
assign_dim_result_type(uint32_t arr_type,uint32_t dim_type,uint32_t value_type,zend_uchar dim_op_type)2081 static uint32_t assign_dim_result_type(
2082 		uint32_t arr_type, uint32_t dim_type, uint32_t value_type, zend_uchar dim_op_type) {
2083 	uint32_t tmp = arr_type & ~(MAY_BE_RC1|MAY_BE_RCN);
2084 
2085 	if (arr_type & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) {
2086 		tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE);
2087 		tmp |= MAY_BE_ARRAY|MAY_BE_RC1;
2088 	}
2089 	if (tmp & (MAY_BE_ARRAY|MAY_BE_STRING)) {
2090 		tmp |= MAY_BE_RC1;
2091 	}
2092 	if (tmp & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
2093 		tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2094 	}
2095 	if (tmp & MAY_BE_ARRAY) {
2096 		if (value_type & MAY_BE_UNDEF) {
2097 			tmp |= MAY_BE_ARRAY_OF_NULL;
2098 		}
2099 		if (dim_op_type == IS_UNUSED) {
2100 			tmp |= MAY_BE_ARRAY_KEY_LONG;
2101 		} else {
2102 			if (dim_type & (MAY_BE_LONG|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_RESOURCE|MAY_BE_DOUBLE)) {
2103 				tmp |= MAY_BE_ARRAY_KEY_LONG;
2104 			}
2105 			if (dim_type & MAY_BE_STRING) {
2106 				tmp |= MAY_BE_ARRAY_KEY_STRING;
2107 				if (dim_op_type != IS_CONST) {
2108 					// FIXME: numeric string
2109 					tmp |= MAY_BE_ARRAY_KEY_LONG;
2110 				}
2111 			}
2112 			if (dim_type & (MAY_BE_UNDEF|MAY_BE_NULL)) {
2113 				tmp |= MAY_BE_ARRAY_KEY_STRING;
2114 			}
2115 		}
2116 		/* Only add value type if we have a key type. It might be that the key type is illegal
2117 		 * for arrays. */
2118 		if (tmp & MAY_BE_ARRAY_KEY_ANY) {
2119 			tmp |= (value_type & MAY_BE_ANY) << MAY_BE_ARRAY_SHIFT;
2120 		}
2121 	}
2122 	return tmp;
2123 }
2124 
2125 /* For binary ops that have compound assignment operators */
binary_op_result_type(zend_ssa * ssa,zend_uchar opcode,uint32_t t1,uint32_t t2,uint32_t result_var)2126 static uint32_t binary_op_result_type(
2127 		zend_ssa *ssa, zend_uchar opcode, uint32_t t1, uint32_t t2, uint32_t result_var) {
2128 	uint32_t tmp = 0;
2129 	uint32_t t1_type = (t1 & MAY_BE_ANY) | (t1 & MAY_BE_UNDEF ? MAY_BE_NULL : 0);
2130 	uint32_t t2_type = (t2 & MAY_BE_ANY) | (t2 & MAY_BE_UNDEF ? MAY_BE_NULL : 0);
2131 
2132 	/* Handle potentially overloaded operators.
2133 	 * This could be made more precise by checking the class type, if known. */
2134 	if ((t1_type & MAY_BE_OBJECT) || (t2_type & MAY_BE_OBJECT)) {
2135 		/* This is somewhat GMP specific. */
2136 		tmp |= MAY_BE_OBJECT | MAY_BE_FALSE | MAY_BE_RC1;
2137 	}
2138 
2139 	switch (opcode) {
2140 		case ZEND_ADD:
2141 			if (t1_type == MAY_BE_LONG && t2_type == MAY_BE_LONG) {
2142 				if (!ssa->var_info[result_var].has_range ||
2143 				    ssa->var_info[result_var].range.underflow ||
2144 				    ssa->var_info[result_var].range.overflow) {
2145 					/* may overflow */
2146 					tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2147 				} else {
2148 					tmp |= MAY_BE_LONG;
2149 				}
2150 			} else if (t1_type == MAY_BE_DOUBLE || t2_type == MAY_BE_DOUBLE) {
2151 				tmp |= MAY_BE_DOUBLE;
2152 			} else if (t1_type == MAY_BE_ARRAY && t2_type == MAY_BE_ARRAY) {
2153 				tmp |= MAY_BE_ARRAY | MAY_BE_RC1;
2154 				tmp |= t1 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF);
2155 				tmp |= t2 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF);
2156 			} else {
2157 				tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2158 				if ((t1_type & MAY_BE_ARRAY) && (t2_type & MAY_BE_ARRAY)) {
2159 					tmp |= MAY_BE_ARRAY | MAY_BE_RC1;
2160 					tmp |= t1 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF);
2161 					tmp |= t2 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF);
2162 				}
2163 			}
2164 			break;
2165 		case ZEND_SUB:
2166 		case ZEND_MUL:
2167 			if (t1_type == MAY_BE_LONG && t2_type == MAY_BE_LONG) {
2168 				if (!ssa->var_info[result_var].has_range ||
2169 				    ssa->var_info[result_var].range.underflow ||
2170 				    ssa->var_info[result_var].range.overflow) {
2171 					/* may overflow */
2172 					tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2173 				} else {
2174 					tmp |= MAY_BE_LONG;
2175 				}
2176 			} else if (t1_type == MAY_BE_DOUBLE || t2_type == MAY_BE_DOUBLE) {
2177 				tmp |= MAY_BE_DOUBLE;
2178 			} else {
2179 				tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2180 			}
2181 			break;
2182 		case ZEND_DIV:
2183 		case ZEND_POW:
2184 			if (t1_type == MAY_BE_DOUBLE || t2_type == MAY_BE_DOUBLE) {
2185 				tmp |= MAY_BE_DOUBLE;
2186 			} else {
2187 				tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2188 			}
2189 			/* Division by zero results in Inf/-Inf/Nan (double), so it doesn't need any special
2190 			 * handling */
2191 			break;
2192 		case ZEND_MOD:
2193 			tmp |= MAY_BE_LONG;
2194 			/* Division by zero results in an exception, so it doesn't need any special handling */
2195 			break;
2196 		case ZEND_BW_OR:
2197 		case ZEND_BW_AND:
2198 		case ZEND_BW_XOR:
2199 			if ((t1_type & MAY_BE_STRING) && (t2_type & MAY_BE_STRING)) {
2200 				tmp |= MAY_BE_STRING | MAY_BE_RC1;
2201 			}
2202 			if ((t1_type & ~MAY_BE_STRING) || (t2_type & ~MAY_BE_STRING)) {
2203 				tmp |= MAY_BE_LONG;
2204 			}
2205 			break;
2206 		case ZEND_SL:
2207 		case ZEND_SR:
2208 			tmp |= MAY_BE_LONG;
2209 			break;
2210 		case ZEND_CONCAT:
2211 		case ZEND_FAST_CONCAT:
2212 			/* TODO: +MAY_BE_OBJECT ??? */
2213 			tmp = MAY_BE_STRING | MAY_BE_RC1 | MAY_BE_RCN;
2214 			break;
2215 		EMPTY_SWITCH_DEFAULT_CASE()
2216 	}
2217 	return tmp;
2218 }
2219 
get_class_entry(const zend_script * script,zend_string * lcname)2220 static inline zend_class_entry *get_class_entry(const zend_script *script, zend_string *lcname) {
2221 	zend_class_entry *ce = script ? zend_hash_find_ptr(&script->class_table, lcname) : NULL;
2222 	if (ce) {
2223 		return ce;
2224 	}
2225 
2226 	ce = zend_hash_find_ptr(CG(class_table), lcname);
2227 	if (ce && ce->type == ZEND_INTERNAL_CLASS) {
2228 		return ce;
2229 	}
2230 
2231 	return NULL;
2232 }
2233 
zend_fetch_arg_info(const zend_script * script,zend_arg_info * arg_info,zend_class_entry ** pce)2234 static uint32_t zend_fetch_arg_info(const zend_script *script, zend_arg_info *arg_info, zend_class_entry **pce)
2235 {
2236 	uint32_t tmp = 0;
2237 
2238 	*pce = NULL;
2239 	if (ZEND_TYPE_IS_CLASS(arg_info->type)) {
2240 		// class type hinting...
2241 		zend_string *lcname = zend_string_tolower(ZEND_TYPE_NAME(arg_info->type));
2242 		tmp |= MAY_BE_OBJECT;
2243 		*pce = get_class_entry(script, lcname);
2244 		zend_string_release(lcname);
2245 	} else if (ZEND_TYPE_IS_CODE(arg_info->type)) {
2246 		zend_uchar type_hint = ZEND_TYPE_CODE(arg_info->type);
2247 
2248 		if (type_hint == IS_VOID) {
2249 			tmp |= MAY_BE_NULL;
2250 		} else if (type_hint == IS_CALLABLE) {
2251 			tmp |= MAY_BE_STRING|MAY_BE_OBJECT|MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2252 		} else if (type_hint == IS_ITERABLE) {
2253 			tmp |= MAY_BE_OBJECT|MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2254 		} else if (type_hint == IS_ARRAY) {
2255 			tmp |= MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2256 		} else if (type_hint == _IS_BOOL) {
2257 			tmp |= MAY_BE_TRUE|MAY_BE_FALSE;
2258 		} else {
2259 			ZEND_ASSERT(type_hint < IS_REFERENCE);
2260 			tmp |= 1 << type_hint;
2261 		}
2262 	} else {
2263 		tmp |= MAY_BE_ANY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2264 	}
2265 	if (ZEND_TYPE_ALLOW_NULL(arg_info->type)) {
2266 		tmp |= MAY_BE_NULL;
2267 	}
2268 	return tmp;
2269 }
2270 
zend_update_type_info(const zend_op_array * op_array,zend_ssa * ssa,const zend_script * script,zend_bitset worklist,int i)2271 static int zend_update_type_info(const zend_op_array *op_array,
2272                                   zend_ssa            *ssa,
2273                                   const zend_script   *script,
2274                                   zend_bitset          worklist,
2275                                   int                  i)
2276 {
2277 	uint32_t t1, t2;
2278 	uint32_t tmp, orig;
2279 	zend_op *opline = op_array->opcodes + i;
2280 	zend_ssa_op *ssa_ops = ssa->ops;
2281 	zend_ssa_var *ssa_vars = ssa->vars;
2282 	zend_ssa_var_info *ssa_var_info = ssa->var_info;
2283 	zend_class_entry *ce;
2284 	int j;
2285 
2286 	if (opline->opcode == ZEND_OP_DATA) {
2287 		opline--;
2288 		i--;
2289 	}
2290 
2291 	t1 = OP1_INFO();
2292 	t2 = OP2_INFO();
2293 
2294 	/* If one of the operands cannot have any type, this means the operand derives from
2295 	 * unreachable code. Propagate the empty result early, so that that the following
2296 	 * code may assume that operands have at least one type. */
2297 	if (!(t1 & (MAY_BE_ANY|MAY_BE_UNDEF|MAY_BE_CLASS|MAY_BE_ERROR))
2298 		|| !(t2 & (MAY_BE_ANY|MAY_BE_UNDEF|MAY_BE_CLASS|MAY_BE_ERROR))) {
2299 		tmp = 0;
2300 		if (ssa_ops[i].result_def >= 0) {
2301 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2302 		}
2303 		if (ssa_ops[i].op1_def >= 0) {
2304 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2305 		}
2306 		if (ssa_ops[i].op2_def >= 0) {
2307 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def);
2308 		}
2309 		return 1;
2310 	}
2311 
2312 	switch (opline->opcode) {
2313 		case ZEND_ADD:
2314 		case ZEND_SUB:
2315 		case ZEND_MUL:
2316 		case ZEND_DIV:
2317 		case ZEND_POW:
2318 		case ZEND_MOD:
2319 		case ZEND_BW_OR:
2320 		case ZEND_BW_AND:
2321 		case ZEND_BW_XOR:
2322 		case ZEND_SL:
2323 		case ZEND_SR:
2324 		case ZEND_CONCAT:
2325 			tmp = binary_op_result_type(ssa, opline->opcode, t1, t2, ssa_ops[i].result_def);
2326 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2327 			break;
2328 		case ZEND_BW_NOT:
2329 			tmp = 0;
2330 			if (t1 & MAY_BE_STRING) {
2331 				tmp |= MAY_BE_STRING | MAY_BE_RC1;
2332 			}
2333 			if (t1 & (MAY_BE_ANY-MAY_BE_STRING)) {
2334 				tmp |= MAY_BE_LONG;
2335 			}
2336 			if (t1 & MAY_BE_OBJECT) {
2337 				/* Potentially overloaded operator. */
2338 				tmp |= MAY_BE_OBJECT | MAY_BE_RC1;
2339 			}
2340 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2341 			break;
2342 		case ZEND_BEGIN_SILENCE:
2343 			UPDATE_SSA_TYPE(MAY_BE_LONG, ssa_ops[i].result_def);
2344 			break;
2345 		case ZEND_BOOL_NOT:
2346 		case ZEND_BOOL_XOR:
2347 		case ZEND_IS_IDENTICAL:
2348 		case ZEND_IS_NOT_IDENTICAL:
2349 		case ZEND_IS_EQUAL:
2350 		case ZEND_IS_NOT_EQUAL:
2351 		case ZEND_IS_SMALLER:
2352 		case ZEND_IS_SMALLER_OR_EQUAL:
2353 		case ZEND_INSTANCEOF:
2354 		case ZEND_JMPZ_EX:
2355 		case ZEND_JMPNZ_EX:
2356 		case ZEND_CASE:
2357 		case ZEND_BOOL:
2358 		case ZEND_ISSET_ISEMPTY_CV:
2359 		case ZEND_ISSET_ISEMPTY_VAR:
2360 		case ZEND_ISSET_ISEMPTY_DIM_OBJ:
2361 		case ZEND_ISSET_ISEMPTY_PROP_OBJ:
2362 		case ZEND_ISSET_ISEMPTY_STATIC_PROP:
2363 		case ZEND_ASSERT_CHECK:
2364 		case ZEND_IN_ARRAY:
2365 			UPDATE_SSA_TYPE(MAY_BE_FALSE|MAY_BE_TRUE, ssa_ops[i].result_def);
2366 			break;
2367 		case ZEND_CAST:
2368 			if (ssa_ops[i].op1_def >= 0) {
2369 				tmp = t1;
2370 				if ((t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) &&
2371 				    (opline->op1_type == IS_CV) &&
2372 				    (opline->extended_value == IS_ARRAY ||
2373 				     opline->extended_value == IS_OBJECT)) {
2374 					tmp |= MAY_BE_RCN;
2375 				} else if ((t1 & MAY_BE_STRING) &&
2376 				    (opline->op1_type == IS_CV) &&
2377 				    opline->extended_value == IS_STRING) {
2378 					tmp |= MAY_BE_RCN;
2379 				}
2380 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2381 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2382 			}
2383 			tmp = 0;
2384 			if (opline->extended_value == _IS_BOOL) {
2385 				tmp |= MAY_BE_TRUE|MAY_BE_FALSE;
2386 			} else {
2387 				tmp |= 1 << opline->extended_value;
2388 				if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
2389 					if ((tmp & MAY_BE_ANY) == (t1 & MAY_BE_ANY)) {
2390 						tmp |= (t1 & MAY_BE_RC1) | MAY_BE_RCN;
2391 					} else if ((opline->extended_value == IS_ARRAY ||
2392 					            opline->extended_value == IS_OBJECT) &&
2393 					           (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT))) {
2394 							tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2395 					} else if (opline->extended_value == IS_STRING &&
2396 					           (t1 & (MAY_BE_STRING|MAY_BE_OBJECT))) {
2397 						tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2398 					} else {
2399 						tmp |= MAY_BE_RC1;
2400 					}
2401 				}
2402 			}
2403 			if (opline->extended_value == IS_ARRAY) {
2404 				if (t1 & MAY_BE_ARRAY) {
2405 					tmp |= t1 & (MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF);
2406 				}
2407 				if (t1 & MAY_BE_OBJECT) {
2408 					tmp |= MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2409 				} else {
2410 					tmp |= ((t1 & MAY_BE_ANY) << MAY_BE_ARRAY_SHIFT) | MAY_BE_ARRAY_KEY_LONG;
2411 				}
2412 			}
2413 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2414 			break;
2415 		case ZEND_QM_ASSIGN:
2416 		case ZEND_JMP_SET:
2417 		case ZEND_COALESCE:
2418 			if (ssa_ops[i].op1_def >= 0) {
2419 				tmp = t1;
2420 				if ((t1 & (MAY_BE_RC1|MAY_BE_REF)) && (opline->op1_type == IS_CV)) {
2421 					tmp |= MAY_BE_RCN;
2422 				}
2423 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2424 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2425 			}
2426 			tmp = t1 & ~(MAY_BE_UNDEF|MAY_BE_REF);
2427 			if (t1 & MAY_BE_UNDEF) {
2428 				tmp |= MAY_BE_NULL;
2429 			}
2430 			if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) {
2431 				tmp |= (t1 & (MAY_BE_RC1|MAY_BE_RCN));
2432 				if (opline->op1_type == IS_CV) {
2433 					tmp |= MAY_BE_RCN;
2434 				}
2435 			}
2436 			if (opline->opcode != ZEND_QM_ASSIGN) {
2437 				/* COALESCE and JMP_SET result can't be null */
2438 				tmp &= ~MAY_BE_NULL;
2439 				if (opline->opcode == ZEND_JMP_SET) {
2440 					/* JMP_SET result can't be false either */
2441 					tmp &= ~MAY_BE_FALSE;
2442 				}
2443 			}
2444 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2445 			COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].result_def);
2446 			break;
2447 		case ZEND_ASSIGN_ADD:
2448 		case ZEND_ASSIGN_SUB:
2449 		case ZEND_ASSIGN_MUL:
2450 		case ZEND_ASSIGN_DIV:
2451 		case ZEND_ASSIGN_POW:
2452 		case ZEND_ASSIGN_MOD:
2453 		case ZEND_ASSIGN_SL:
2454 		case ZEND_ASSIGN_SR:
2455 		case ZEND_ASSIGN_BW_OR:
2456 		case ZEND_ASSIGN_BW_AND:
2457 		case ZEND_ASSIGN_BW_XOR:
2458 		case ZEND_ASSIGN_CONCAT:
2459 			orig = 0;
2460 			tmp = 0;
2461 			if (opline->extended_value == ZEND_ASSIGN_OBJ) {
2462 		        tmp |= MAY_BE_REF;
2463 				orig = t1;
2464 				t1 = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2465 				t2 = OP1_DATA_INFO();
2466 			} else if (opline->extended_value == ZEND_ASSIGN_DIM) {
2467 				if (t1 & MAY_BE_ARRAY_OF_REF) {
2468 			        tmp |= MAY_BE_REF;
2469 				}
2470 				orig = t1;
2471 				t1 = zend_array_element_type(t1, 1, 0);
2472 				t2 = OP1_DATA_INFO();
2473 			} else {
2474 				if (t1 & MAY_BE_REF) {
2475 			        tmp |= MAY_BE_REF;
2476 				}
2477 			}
2478 
2479 			tmp |= binary_op_result_type(
2480 				ssa, get_compound_assign_op(opline->opcode), t1, t2, ssa_ops[i].op1_def);
2481 			if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY)) {
2482 				tmp |= MAY_BE_RC1;
2483 			}
2484 			if (tmp & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
2485 				tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2486 			}
2487 
2488 			if (opline->extended_value == ZEND_ASSIGN_DIM) {
2489 				if (opline->op1_type == IS_CV) {
2490 					orig = assign_dim_result_type(orig, OP2_INFO(), tmp, opline->op2_type);
2491 					UPDATE_SSA_TYPE(orig, ssa_ops[i].op1_def);
2492 					COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2493 				}
2494 			} else if (opline->extended_value == ZEND_ASSIGN_OBJ) {
2495 				if (opline->op1_type == IS_CV) {
2496 					if (!(orig & MAY_BE_REF)) {
2497 						if (orig & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) {
2498 							orig &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE);
2499 							orig |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN;
2500 						}
2501 						if (orig & MAY_BE_OBJECT) {
2502 							orig |= (MAY_BE_RC1|MAY_BE_RCN);
2503 						}
2504 					}
2505 					UPDATE_SSA_TYPE(orig, ssa_ops[i].op1_def);
2506 					COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2507 				}
2508 			} else {
2509 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2510 			}
2511 			if (ssa_ops[i].result_def >= 0) {
2512 				if (opline->extended_value == ZEND_ASSIGN_DIM) {
2513 					if (opline->op2_type == IS_UNUSED) {
2514 						/* When appending to an array and the LONG_MAX key is already used
2515 						 * null will be returned. */
2516 						tmp |= MAY_BE_NULL;
2517 					}
2518 					if (t2 & (MAY_BE_ARRAY | MAY_BE_OBJECT)) {
2519 						/* Arrays and objects cannot be used as keys. */
2520 						tmp |= MAY_BE_NULL;
2521 					}
2522 					if (t1 & (MAY_BE_ANY - (MAY_BE_NULL | MAY_BE_FALSE | MAY_BE_STRING | MAY_BE_ARRAY))) {
2523 						/* null and false are implicitly converted to array, anything else
2524 						 * results in a null return value. */
2525 						tmp |= MAY_BE_NULL;
2526 					}
2527 				} else if (opline->extended_value == ZEND_ASSIGN_OBJ) {
2528 					if (orig & (MAY_BE_ANY - (MAY_BE_NULL | MAY_BE_FALSE | MAY_BE_OBJECT))) {
2529 						/* null and false (and empty string) are implicitly converted to object,
2530 						 * anything else results in a null return value. */
2531 						tmp |= MAY_BE_NULL;
2532 					}
2533 				}
2534 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2535 			}
2536 			break;
2537 		case ZEND_PRE_INC:
2538 		case ZEND_PRE_DEC:
2539 			tmp = 0;
2540 			if (t1 & MAY_BE_REF) {
2541 				tmp |= MAY_BE_REF;
2542 			}
2543 			if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) {
2544 				tmp |= MAY_BE_RC1;
2545 				if (ssa_ops[i].result_def >= 0) {
2546 					tmp |= MAY_BE_RCN;
2547 				}
2548 			}
2549 			if ((t1 & (MAY_BE_ANY|MAY_BE_UNDEF)) == MAY_BE_LONG) {
2550 				if (!ssa_var_info[ssa_ops[i].op1_use].has_range ||
2551 				    (opline->opcode == ZEND_PRE_DEC &&
2552 				     (ssa_var_info[ssa_ops[i].op1_use].range.underflow ||
2553 				      ssa_var_info[ssa_ops[i].op1_use].range.min == ZEND_LONG_MIN)) ||
2554 				     (opline->opcode == ZEND_PRE_INC &&
2555 				      (ssa_var_info[ssa_ops[i].op1_use].range.overflow ||
2556 				       ssa_var_info[ssa_ops[i].op1_use].range.max == ZEND_LONG_MAX))) {
2557 					/* may overflow */
2558 					tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2559 				} else {
2560 					tmp |= MAY_BE_LONG;
2561 				}
2562 			} else {
2563 				if (t1 & MAY_BE_ERROR) {
2564 					tmp |= MAY_BE_NULL;
2565 				}
2566 				if (t1 & (MAY_BE_UNDEF | MAY_BE_NULL)) {
2567 					if (opline->opcode == ZEND_PRE_INC) {
2568 						tmp |= MAY_BE_LONG;
2569 					} else {
2570 						tmp |= MAY_BE_NULL;
2571 					}
2572 				}
2573 				if (t1 & MAY_BE_LONG) {
2574 					tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2575 				}
2576 				if (t1 & MAY_BE_DOUBLE) {
2577 					tmp |= MAY_BE_DOUBLE;
2578 				}
2579 				if (t1 & MAY_BE_STRING) {
2580 					tmp |= MAY_BE_STRING | MAY_BE_LONG | MAY_BE_DOUBLE;
2581 				}
2582 				tmp |= t1 & (MAY_BE_FALSE | MAY_BE_TRUE | MAY_BE_RESOURCE | MAY_BE_ARRAY | MAY_BE_OBJECT | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF | MAY_BE_ARRAY_KEY_ANY);
2583 			}
2584 			if (ssa_ops[i].op1_def >= 0) {
2585 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2586 			}
2587 			if (ssa_ops[i].result_def >= 0) {
2588 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2589 			}
2590 			break;
2591 		case ZEND_POST_INC:
2592 		case ZEND_POST_DEC:
2593 			if (ssa_ops[i].result_def >= 0) {
2594 				tmp = 0;
2595 				if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) {
2596 					tmp |= MAY_BE_RC1|MAY_BE_RCN;
2597 				}
2598 				tmp |= t1 & ~(MAY_BE_UNDEF|MAY_BE_ERROR|MAY_BE_REF|MAY_BE_RCN);
2599 				if (t1 & MAY_BE_UNDEF) {
2600 					tmp |= MAY_BE_NULL;
2601 				}
2602 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2603 			}
2604 			tmp = 0;
2605 			if (t1 & MAY_BE_REF) {
2606 				tmp |= MAY_BE_REF;
2607 			}
2608 			if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) {
2609 				tmp |= MAY_BE_RC1;
2610 			}
2611 			if ((t1 & (MAY_BE_ANY|MAY_BE_UNDEF)) == MAY_BE_LONG) {
2612 				if (!ssa_var_info[ssa_ops[i].op1_use].has_range ||
2613 				     (opline->opcode == ZEND_PRE_DEC &&
2614 				      (ssa_var_info[ssa_ops[i].op1_use].range.underflow ||
2615 				       ssa_var_info[ssa_ops[i].op1_use].range.min == ZEND_LONG_MIN)) ||
2616 				      (opline->opcode == ZEND_PRE_INC &&
2617 				       (ssa_var_info[ssa_ops[i].op1_use].range.overflow ||
2618 				        ssa_var_info[ssa_ops[i].op1_use].range.max == ZEND_LONG_MAX))) {
2619 					/* may overflow */
2620 					tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2621 				} else {
2622 					tmp |= MAY_BE_LONG;
2623 				}
2624 			} else {
2625 				if (t1 & MAY_BE_ERROR) {
2626 					tmp |= MAY_BE_NULL;
2627 				}
2628 				if (t1 & (MAY_BE_UNDEF | MAY_BE_NULL)) {
2629 					if (opline->opcode == ZEND_POST_INC) {
2630 						tmp |= MAY_BE_LONG;
2631 					} else {
2632 						tmp |= MAY_BE_NULL;
2633 					}
2634 				}
2635 				if (t1 & MAY_BE_LONG) {
2636 					tmp |= MAY_BE_LONG | MAY_BE_DOUBLE;
2637 				}
2638 				if (t1 & MAY_BE_DOUBLE) {
2639 					tmp |= MAY_BE_DOUBLE;
2640 				}
2641 				if (t1 & MAY_BE_STRING) {
2642 					tmp |= MAY_BE_STRING | MAY_BE_LONG | MAY_BE_DOUBLE;
2643 				}
2644 				tmp |= t1 & (MAY_BE_FALSE | MAY_BE_TRUE | MAY_BE_RESOURCE | MAY_BE_ARRAY | MAY_BE_OBJECT | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF | MAY_BE_ARRAY_KEY_ANY);
2645 			}
2646 			if (ssa_ops[i].op1_def >= 0) {
2647 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2648 			}
2649 			break;
2650 		case ZEND_ASSIGN_DIM:
2651 			if (opline->op1_type == IS_CV) {
2652 				tmp = assign_dim_result_type(t1, t2, OP1_DATA_INFO(), opline->op2_type);
2653 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2654 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2655 			}
2656 			if (ssa_ops[i].result_def >= 0) {
2657 				tmp = 0;
2658 				if (t1 & MAY_BE_STRING) {
2659 					tmp |= MAY_BE_STRING;
2660 				}
2661 				if (t1 & ((MAY_BE_ANY|MAY_BE_UNDEF) - MAY_BE_STRING)) {
2662 					tmp |= (OP1_DATA_INFO() & (MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF));
2663 
2664 					if (opline->op2_type == IS_UNUSED) {
2665 						/* When appending to an array and the LONG_MAX key is already used
2666 						 * null will be returned. */
2667 						tmp |= MAY_BE_NULL;
2668 					}
2669 					if (t2 & (MAY_BE_ARRAY | MAY_BE_OBJECT)) {
2670 						/* Arrays and objects cannot be used as keys. */
2671 						tmp |= MAY_BE_NULL;
2672 					}
2673 					if (t1 & (MAY_BE_ANY - (MAY_BE_NULL | MAY_BE_FALSE | MAY_BE_STRING | MAY_BE_ARRAY))) {
2674 						/* undef, null and false are implicitly converted to array, anything else
2675 						 * results in a null return value. */
2676 						tmp |= MAY_BE_NULL;
2677 					}
2678 				}
2679 				tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2680 				if (t1 & MAY_BE_OBJECT) {
2681 					tmp |= MAY_BE_REF;
2682 				}
2683 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2684 			}
2685 			if ((opline+1)->op1_type == IS_CV && ssa_ops[i+1].op1_def >= 0) {
2686 				opline++;
2687 				i++;
2688 				tmp = OP1_INFO();
2689 				if (tmp & (MAY_BE_ANY | MAY_BE_REF)) {
2690 					if (tmp & MAY_BE_RC1) {
2691 						tmp |= MAY_BE_RCN;
2692 					}
2693 				}
2694 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2695 			}
2696 			break;
2697 		case ZEND_ASSIGN_OBJ:
2698 			if (opline->op1_type == IS_CV) {
2699 				tmp = t1;
2700 				if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) {
2701 					tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE);
2702 					tmp |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN;
2703 				}
2704 				if (tmp & MAY_BE_OBJECT) {
2705 					tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2706 				}
2707 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2708 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2709 			}
2710 			if (ssa_ops[i].result_def >= 0) {
2711 				// TODO: ???
2712 				tmp = MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2713 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2714 			}
2715 			if ((opline+1)->op1_type == IS_CV) {
2716 				opline++;
2717 				i++;
2718 				tmp = OP1_INFO();
2719 				if (tmp & (MAY_BE_ANY | MAY_BE_REF)) {
2720 					if (tmp & MAY_BE_RC1) {
2721 						tmp |= MAY_BE_RCN;
2722 					}
2723 				}
2724 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2725 			}
2726 			break;
2727 		case ZEND_ASSIGN:
2728 			if (opline->op2_type == IS_CV && ssa_ops[i].op2_def >= 0) {
2729 				tmp = t2;
2730 				if (tmp & (MAY_BE_ANY | MAY_BE_REF)) {
2731 					if (tmp & MAY_BE_RC1) {
2732 						tmp |= MAY_BE_RCN;
2733 					}
2734 				}
2735 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def);
2736 			}
2737 			tmp = t2 & ~(MAY_BE_UNDEF|MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN);
2738 			if (t2 & MAY_BE_UNDEF) {
2739 				tmp |= MAY_BE_NULL;
2740 			}
2741 			if (t1 & MAY_BE_REF) {
2742 				tmp |= MAY_BE_REF;
2743 			}
2744 			if (t2 & MAY_BE_REF) {
2745 				tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2746 			} else if (opline->op2_type & (IS_TMP_VAR|IS_VAR)) {
2747 				tmp |= t2 & (MAY_BE_RC1|MAY_BE_RCN);
2748 			} else if (t2 & (MAY_BE_RC1|MAY_BE_RCN)) {
2749 				tmp |= MAY_BE_RCN;
2750 			}
2751 			if (RETURN_VALUE_USED(opline) && (tmp & MAY_BE_RC1)) {
2752 				tmp |= MAY_BE_RCN;
2753 			}
2754 			if (ssa_ops[i].op1_def >= 0) {
2755 				if (ssa_var_info[ssa_ops[i].op1_def].use_as_double) {
2756 					tmp &= ~MAY_BE_LONG;
2757 					tmp |= MAY_BE_DOUBLE;
2758 				}
2759 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2760 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].op1_def);
2761 			}
2762 			if (ssa_ops[i].result_def >= 0) {
2763 				UPDATE_SSA_TYPE(tmp & ~MAY_BE_REF, ssa_ops[i].result_def);
2764 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].result_def);
2765 			}
2766 			break;
2767 		case ZEND_ASSIGN_REF:
2768 // TODO: ???
2769 			if (opline->op2_type == IS_CV) {
2770 				tmp = (MAY_BE_REF | t2) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN);
2771 				if (t2 & MAY_BE_UNDEF) {
2772 					tmp |= MAY_BE_NULL;
2773 				}
2774 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def);
2775 			}
2776 			if (opline->op2_type == IS_VAR && opline->extended_value == ZEND_RETURNS_FUNCTION) {
2777 				tmp = (MAY_BE_REF | MAY_BE_RCN | MAY_BE_RC1 | t2) & ~MAY_BE_UNDEF;
2778 			} else {
2779 				tmp = (MAY_BE_REF | t2) & ~(MAY_BE_UNDEF|MAY_BE_ERROR|MAY_BE_RC1|MAY_BE_RCN);
2780 			}
2781 			if (t2 & MAY_BE_UNDEF) {
2782 				tmp |= MAY_BE_NULL;
2783 			}
2784 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2785 			if (ssa_ops[i].result_def >= 0) {
2786 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2787 			}
2788 			break;
2789 		case ZEND_BIND_GLOBAL:
2790 			tmp = MAY_BE_REF | MAY_BE_ANY
2791 				| MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2792 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2793 			break;
2794 		case ZEND_BIND_STATIC:
2795 			tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF
2796 				| (opline->extended_value ? MAY_BE_REF : (MAY_BE_RC1 | MAY_BE_RCN));
2797 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2798 			break;
2799 		case ZEND_SEND_VAR:
2800 			if (ssa_ops[i].op1_def >= 0) {
2801 				tmp = t1;
2802 				if ((t1 & (MAY_BE_RC1|MAY_BE_REF)) && (opline->op1_type == IS_CV)) {
2803 					tmp |= MAY_BE_RCN;
2804 				}
2805 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2806 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2807 			}
2808 			break;
2809 		case ZEND_BIND_LEXICAL:
2810 			if (ssa_ops[i].op2_def >= 0) {
2811 				if (opline->extended_value) {
2812 					tmp = t2 | MAY_BE_REF;
2813 				} else {
2814 					tmp = t2 & ~(MAY_BE_RC1|MAY_BE_RCN);
2815 					if (t2 & (MAY_BE_RC1|MAY_BE_RCN)) {
2816 						tmp |= MAY_BE_RCN;
2817 					}
2818 				}
2819 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def);
2820 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].op2_def);
2821 			}
2822 			break;
2823 		case ZEND_YIELD:
2824 			if (ssa_ops[i].op1_def >= 0) {
2825 				if (op_array->fn_flags & ZEND_ACC_RETURN_REFERENCE) {
2826 					tmp = t1 | MAY_BE_REF;
2827 				} else {
2828 					tmp = t1 & ~(MAY_BE_RC1|MAY_BE_RCN);
2829 					if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) {
2830 						tmp |= MAY_BE_RCN;
2831 					}
2832 				}
2833 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2834 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
2835 			}
2836 			if (ssa_ops[i].result_def >= 0) {
2837 				tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF
2838 					| MAY_BE_RC1 | MAY_BE_RCN;
2839 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2840 			}
2841 			break;
2842 		case ZEND_SEND_VAR_EX:
2843 			if (ssa_ops[i].op1_def >= 0) {
2844 				tmp = (t1 & MAY_BE_UNDEF)|MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN|MAY_BE_ANY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2845 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2846 			}
2847 			break;
2848 		case ZEND_SEND_REF:
2849 			if (ssa_ops[i].op1_def >= 0) {
2850 				tmp = MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN|MAY_BE_ANY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2851 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2852 			}
2853 			break;
2854 		case ZEND_SEND_UNPACK:
2855 			if (ssa_ops[i].op1_def >= 0) {
2856 				tmp = t1;
2857 				if (t1 & MAY_BE_ARRAY) {
2858 					tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2859 					if (t1 & MAY_BE_ARRAY_OF_ANY) {
2860 						/* SEND_UNPACK may acquire references into the array */
2861 						tmp |= MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
2862 					}
2863 				}
2864 				if (t1 & MAY_BE_OBJECT) {
2865 					tmp |= MAY_BE_RC1 | MAY_BE_RCN;
2866 				}
2867 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
2868 			}
2869 			break;
2870 		case ZEND_FAST_CONCAT:
2871 		case ZEND_ROPE_INIT:
2872 		case ZEND_ROPE_ADD:
2873 		case ZEND_ROPE_END:
2874 			UPDATE_SSA_TYPE(MAY_BE_STRING|MAY_BE_RC1|MAY_BE_RCN, ssa_ops[i].result_def);
2875 			break;
2876 		case ZEND_RECV:
2877 		case ZEND_RECV_INIT:
2878 		{
2879 			/* Typehinting */
2880 			zend_func_info *func_info;
2881 			zend_arg_info *arg_info = NULL;
2882 			if (op_array->arg_info && opline->op1.num <= op_array->num_args) {
2883 				arg_info = &op_array->arg_info[opline->op1.num-1];
2884 			}
2885 
2886 			ce = NULL;
2887 			if (arg_info) {
2888 				tmp = zend_fetch_arg_info(script, arg_info, &ce);
2889 				if (opline->opcode == ZEND_RECV_INIT &&
2890 				           Z_CONSTANT_P(CRT_CONSTANT_EX(op_array, opline->op2, ssa->rt_constants))) {
2891 					/* The constant may resolve to NULL */
2892 					tmp |= MAY_BE_NULL;
2893 				}
2894 				if (arg_info->pass_by_reference) {
2895 					tmp |= MAY_BE_REF;
2896 				} else if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
2897 					tmp |= MAY_BE_RC1|MAY_BE_RCN;
2898 				}
2899 			} else {
2900 				tmp = MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN|MAY_BE_ANY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
2901 			}
2902 			func_info = ZEND_FUNC_INFO(op_array);
2903 			if (func_info && (int)opline->op1.num-1 < func_info->num_args) {
2904 				tmp = (tmp & (MAY_BE_RC1|MAY_BE_RCN|MAY_BE_REF)) |
2905 					(tmp & func_info->arg_info[opline->op1.num-1].info.type);
2906 			}
2907 #if 0
2908 			/* We won't recieve unused arguments */
2909 			if (ssa_vars[ssa_ops[i].result_def].use_chain < 0 &&
2910 			    ssa_vars[ssa_ops[i].result_def].phi_use_chain == NULL &&
2911 			    op_array->arg_info &&
2912 			    opline->op1.num <= op_array->num_args &&
2913 			    op_array->arg_info[opline->op1.num-1].class_name == NULL &&
2914 			    !op_array->arg_info[opline->op1.num-1].type_hint) {
2915 				tmp = MAY_BE_UNDEF|MAY_BE_RCN;
2916 			}
2917 #endif
2918 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2919 			if (func_info &&
2920 			    (int)opline->op1.num-1 < func_info->num_args &&
2921 			    func_info->arg_info[opline->op1.num-1].info.ce) {
2922 				UPDATE_SSA_OBJ_TYPE(
2923 					func_info->arg_info[opline->op1.num-1].info.ce,
2924 					func_info->arg_info[opline->op1.num-1].info.is_instanceof,
2925 					ssa_ops[i].result_def);
2926 			} else if (ce) {
2927 				UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def);
2928 			} else {
2929 				UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
2930 			}
2931 			break;
2932 		}
2933 		case ZEND_DECLARE_CLASS:
2934 		case ZEND_DECLARE_INHERITED_CLASS:
2935 		case ZEND_DECLARE_ANON_CLASS:
2936 		case ZEND_DECLARE_ANON_INHERITED_CLASS:
2937 			UPDATE_SSA_TYPE(MAY_BE_CLASS, ssa_ops[i].result_def);
2938 			if (script && (ce = zend_hash_find_ptr(&script->class_table, Z_STR_P(CRT_CONSTANT_EX(op_array, opline->op1, ssa->rt_constants)))) != NULL) {
2939 				UPDATE_SSA_OBJ_TYPE(ce, 0, ssa_ops[i].result_def);
2940 			}
2941 			break;
2942 		case ZEND_FETCH_CLASS:
2943 			UPDATE_SSA_TYPE(MAY_BE_CLASS, ssa_ops[i].result_def);
2944 			if (opline->op2_type == IS_UNUSED) {
2945 				switch (opline->extended_value & ZEND_FETCH_CLASS_MASK) {
2946 					case ZEND_FETCH_CLASS_SELF:
2947 						if (op_array->scope) {
2948 							UPDATE_SSA_OBJ_TYPE(op_array->scope, 0, ssa_ops[i].result_def);
2949 						} else {
2950 							UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
2951 						}
2952 						break;
2953 					case ZEND_FETCH_CLASS_PARENT:
2954 						if (op_array->scope && op_array->scope->parent) {
2955 							UPDATE_SSA_OBJ_TYPE(op_array->scope->parent, 0, ssa_ops[i].result_def);
2956 						} else {
2957 							UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
2958 						}
2959 						break;
2960 					case ZEND_FETCH_CLASS_STATIC:
2961 					default:
2962 						UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
2963 						break;
2964 				}
2965 			} else if (opline->op2_type == IS_CONST) {
2966 				zval *zv = CRT_CONSTANT_EX(op_array, opline->op2, ssa->rt_constants);
2967 				if (Z_TYPE_P(zv) == IS_STRING) {
2968 					ce = get_class_entry(script, Z_STR_P(zv+1));
2969 					UPDATE_SSA_OBJ_TYPE(ce, 0, ssa_ops[i].result_def);
2970 				} else {
2971 					UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
2972 				}
2973 			} else {
2974 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].result_def);
2975 			}
2976 			break;
2977 		case ZEND_NEW:
2978 			tmp = MAY_BE_RC1|MAY_BE_RCN|MAY_BE_OBJECT;
2979 			if (opline->op1_type == IS_CONST &&
2980 			    (ce = get_class_entry(script, Z_STR_P(CRT_CONSTANT_EX(op_array, opline->op1, ssa->rt_constants)+1))) != NULL) {
2981 				UPDATE_SSA_OBJ_TYPE(ce, 0, ssa_ops[i].result_def);
2982 			} else if ((t1 & MAY_BE_CLASS) && ssa_ops[i].op1_use >= 0 && ssa_var_info[ssa_ops[i].op1_use].ce) {
2983 				UPDATE_SSA_OBJ_TYPE(ssa_var_info[ssa_ops[i].op1_use].ce, ssa_var_info[ssa_ops[i].op1_use].is_instanceof, ssa_ops[i].result_def);
2984 			} else {
2985 				UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
2986 			}
2987 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
2988 			break;
2989 		case ZEND_CLONE:
2990 			UPDATE_SSA_TYPE(MAY_BE_RC1|MAY_BE_RCN|MAY_BE_OBJECT, ssa_ops[i].result_def);
2991 			COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].result_def);
2992 			break;
2993 		case ZEND_INIT_ARRAY:
2994 		case ZEND_ADD_ARRAY_ELEMENT:
2995 			if (opline->op1_type == IS_CV && ssa_ops[i].op1_def >= 0) {
2996 				if (opline->extended_value & ZEND_ARRAY_ELEMENT_REF) {
2997 					tmp = (MAY_BE_REF | t1) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN);
2998 					if (t1 & MAY_BE_UNDEF) {
2999 						tmp |= MAY_BE_NULL;
3000 					}
3001 				} else if ((t1 & (MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN)) == MAY_BE_REF) {
3002 					tmp = (MAY_BE_REF | t1) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN);
3003 					if (t1 & MAY_BE_UNDEF) {
3004 						tmp |= MAY_BE_NULL;
3005 					}
3006 				} else if (t1 & MAY_BE_REF) {
3007 					tmp = (MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_REF | t1);
3008 				} else {
3009 					tmp = t1;
3010 					if (t1 & MAY_BE_RC1) {
3011 						tmp |= MAY_BE_RCN;
3012 					}
3013 				}
3014 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3015 			}
3016 			if (ssa_ops[i].result_def >= 0) {
3017 				tmp = MAY_BE_RC1|MAY_BE_ARRAY;
3018 				if (opline->op1_type != IS_UNUSED) {
3019 					tmp |= (t1 & MAY_BE_ANY) << MAY_BE_ARRAY_SHIFT;
3020 					if (t1 & MAY_BE_UNDEF) {
3021 						tmp |= MAY_BE_ARRAY_OF_NULL;
3022 					}
3023 					if (opline->extended_value & ZEND_ARRAY_ELEMENT_REF) {
3024 						tmp |= MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF;
3025 					}
3026 				}
3027 				if (ssa_ops[i].result_use >= 0) {
3028 					tmp |= ssa_var_info[ssa_ops[i].result_use].type;
3029 				}
3030 				if (opline->op2_type == IS_UNUSED) {
3031 					tmp |= MAY_BE_ARRAY_KEY_LONG;
3032 				} else {
3033 					if (t2 & (MAY_BE_LONG|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_DOUBLE)) {
3034 						tmp |= MAY_BE_ARRAY_KEY_LONG;
3035 					}
3036 					if (t2 & (MAY_BE_STRING)) {
3037 						tmp |= MAY_BE_ARRAY_KEY_STRING;
3038 						if (opline->op2_type != IS_CONST) {
3039 							// FIXME: numeric string
3040 							tmp |= MAY_BE_ARRAY_KEY_LONG;
3041 						}
3042 					}
3043 					if (t2 & (MAY_BE_UNDEF | MAY_BE_NULL)) {
3044 						tmp |= MAY_BE_ARRAY_KEY_STRING;
3045 					}
3046 				}
3047 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3048 			}
3049 			break;
3050 		case ZEND_UNSET_CV:
3051 			tmp = MAY_BE_UNDEF;
3052 			if (!op_array->function_name) {
3053 				/* In global scope, we know nothing */
3054 				tmp |= MAY_BE_REF;
3055 			}
3056 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3057 			break;
3058 		case ZEND_UNSET_DIM:
3059 		case ZEND_UNSET_OBJ:
3060 			if (ssa_ops[i].op1_def >= 0) {
3061 				UPDATE_SSA_TYPE(t1, ssa_ops[i].op1_def);
3062 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
3063 			}
3064 			break;
3065 		case ZEND_FE_RESET_R:
3066 		case ZEND_FE_RESET_RW:
3067 			if (ssa_ops[i].op1_def >= 0) {
3068 				tmp = t1;
3069 				if (opline->opcode == ZEND_FE_RESET_RW) {
3070 					tmp |= MAY_BE_REF;
3071 				} else {
3072 					if ((t1 & MAY_BE_RC1) && opline->op1_type != IS_TMP_VAR) {
3073 						tmp |= MAY_BE_RCN;
3074 					}
3075 				}
3076 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3077 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
3078 			}
3079 			if (opline->opcode == ZEND_FE_RESET_RW) {
3080 //???
3081 				tmp = MAY_BE_REF | (t1 & (MAY_BE_ARRAY | MAY_BE_OBJECT));
3082 			} else {
3083 				tmp = MAY_BE_RC1 | MAY_BE_RCN | (t1 & (MAY_BE_ARRAY | MAY_BE_OBJECT | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF));
3084 			}
3085 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3086 			COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].result_def);
3087 			break;
3088 		case ZEND_FE_FETCH_R:
3089 		case ZEND_FE_FETCH_RW:
3090 			tmp = t2;
3091 			if (t1 & MAY_BE_OBJECT) {
3092 				if (opline->opcode == ZEND_FE_FETCH_RW) {
3093 					tmp |= MAY_BE_REF | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3094 				} else {
3095 					tmp |= MAY_BE_REF | MAY_BE_RCN | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3096 				}
3097 			}
3098 			if (t1 & MAY_BE_ARRAY) {
3099 				if (opline->opcode == ZEND_FE_FETCH_RW) {
3100 					tmp |= MAY_BE_REF | MAY_BE_RCN | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3101 				} else {
3102 					tmp |= ((t1 & MAY_BE_ARRAY_OF_ANY) >> MAY_BE_ARRAY_SHIFT);
3103 					if (tmp & MAY_BE_ARRAY) {
3104 						tmp |= MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3105 					}
3106 					if (t1 & MAY_BE_ARRAY_OF_REF) {
3107 						tmp |= MAY_BE_RC1 | MAY_BE_RCN;
3108 					} else if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
3109 						tmp |= MAY_BE_RC1 | MAY_BE_RCN;
3110 					}
3111 				}
3112 			}
3113 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def);
3114 			if (ssa_ops[i].result_def >= 0) {
3115 				tmp = (ssa_ops[i].result_use >= 0) ? RES_USE_INFO() : 0;
3116 				if (t1 & MAY_BE_OBJECT) {
3117 					tmp |= MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3118 				}
3119 				if (t1 & MAY_BE_ARRAY) {
3120 					if (t1 & MAY_BE_ARRAY_KEY_LONG) {
3121 						tmp |= MAY_BE_LONG;
3122 					}
3123 					if (t1 & MAY_BE_ARRAY_KEY_STRING) {
3124 						tmp |= MAY_BE_STRING | MAY_BE_RCN;
3125 					}
3126 				}
3127 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3128 			}
3129 			break;
3130 		case ZEND_FETCH_DIM_R:
3131 		case ZEND_FETCH_DIM_IS:
3132 		case ZEND_FETCH_DIM_RW:
3133 		case ZEND_FETCH_DIM_W:
3134 		case ZEND_FETCH_DIM_UNSET:
3135 		case ZEND_FETCH_DIM_FUNC_ARG:
3136 		case ZEND_FETCH_LIST:
3137 			if (ssa_ops[i].op1_def >= 0) {
3138 				tmp = t1 & ~(MAY_BE_RC1|MAY_BE_RCN);
3139 				if (opline->opcode == ZEND_FETCH_DIM_W ||
3140 				    opline->opcode == ZEND_FETCH_DIM_RW ||
3141 				    opline->opcode == ZEND_FETCH_DIM_FUNC_ARG) {
3142 					if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) {
3143 						if (opline->opcode != ZEND_FETCH_DIM_FUNC_ARG) {
3144 							tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE);
3145 						}
3146 						tmp |= MAY_BE_ARRAY | MAY_BE_RC1;
3147 					}
3148 					if (t1 & (MAY_BE_STRING|MAY_BE_ARRAY)) {
3149 						tmp |= MAY_BE_RC1;
3150 						if (opline->opcode == ZEND_FETCH_DIM_FUNC_ARG) {
3151 							tmp |= t1 & MAY_BE_RCN;
3152 						}
3153 					}
3154 					if (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
3155 						tmp |= t1 & (MAY_BE_RC1|MAY_BE_RCN);
3156 					}
3157 					if (opline->op2_type == IS_UNUSED) {
3158 						tmp |= MAY_BE_ARRAY_KEY_LONG;
3159 					} else {
3160 						if (t2 & (MAY_BE_LONG|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_RESOURCE|MAY_BE_DOUBLE)) {
3161 							tmp |= MAY_BE_ARRAY_KEY_LONG;
3162 						}
3163 						if (t2 & MAY_BE_STRING) {
3164 							tmp |= MAY_BE_ARRAY_KEY_STRING;
3165 							if (opline->op2_type != IS_CONST) {
3166 								// FIXME: numeric string
3167 								tmp |= MAY_BE_ARRAY_KEY_LONG;
3168 							}
3169 						}
3170 						if (t2 & (MAY_BE_UNDEF | MAY_BE_NULL)) {
3171 							tmp |= MAY_BE_ARRAY_KEY_STRING;
3172 						}
3173 					}
3174 				} else if (opline->opcode == ZEND_FETCH_DIM_UNSET) {
3175 					if (t1 & MAY_BE_ARRAY) {
3176 						tmp |= MAY_BE_RC1;
3177 					}
3178 					if (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
3179 						tmp |= t1 & (MAY_BE_RC1|MAY_BE_RCN);
3180 					}
3181 				}
3182 				j = ssa_vars[ssa_ops[i].result_def].use_chain;
3183 				while (j >= 0) {
3184 					switch (op_array->opcodes[j].opcode) {
3185 						case ZEND_FETCH_DIM_W:
3186 						case ZEND_FETCH_DIM_RW:
3187 						case ZEND_FETCH_DIM_FUNC_ARG:
3188 						case ZEND_ASSIGN_DIM:
3189 							tmp |= MAY_BE_ARRAY | MAY_BE_ARRAY_OF_ARRAY;
3190 							break;
3191 						case ZEND_ASSIGN_ADD:
3192 						case ZEND_ASSIGN_SUB:
3193 						case ZEND_ASSIGN_MUL:
3194 						case ZEND_ASSIGN_DIV:
3195 						case ZEND_ASSIGN_MOD:
3196 						case ZEND_ASSIGN_SL:
3197 						case ZEND_ASSIGN_SR:
3198 						case ZEND_ASSIGN_CONCAT:
3199 						case ZEND_ASSIGN_BW_OR:
3200 						case ZEND_ASSIGN_BW_AND:
3201 						case ZEND_ASSIGN_BW_XOR:
3202 						case ZEND_ASSIGN_POW:
3203 							if (op_array->opcodes[j].extended_value == ZEND_ASSIGN_DIM) {
3204 								tmp |= MAY_BE_ARRAY | MAY_BE_ARRAY_OF_ARRAY;
3205 							} else if (op_array->opcodes[j].extended_value == ZEND_ASSIGN_OBJ) {
3206 								tmp |= MAY_BE_ARRAY_OF_OBJECT;
3207 							}
3208 							break;
3209 						case ZEND_FETCH_OBJ_W:
3210 						case ZEND_FETCH_OBJ_RW:
3211 						case ZEND_FETCH_OBJ_FUNC_ARG:
3212 						case ZEND_ASSIGN_OBJ:
3213 						case ZEND_PRE_INC_OBJ:
3214 						case ZEND_PRE_DEC_OBJ:
3215 						case ZEND_POST_INC_OBJ:
3216 						case ZEND_POST_DEC_OBJ:
3217 							tmp |= MAY_BE_ARRAY_OF_OBJECT;
3218 							break;
3219 						case ZEND_SEND_VAR_EX:
3220 						case ZEND_SEND_VAR_NO_REF:
3221 						case ZEND_SEND_VAR_NO_REF_EX:
3222 						case ZEND_SEND_REF:
3223 						case ZEND_ASSIGN_REF:
3224 						case ZEND_YIELD:
3225 						case ZEND_INIT_ARRAY:
3226 						case ZEND_ADD_ARRAY_ELEMENT:
3227 						case ZEND_RETURN_BY_REF:
3228 						case ZEND_VERIFY_RETURN_TYPE:
3229 						case ZEND_MAKE_REF:
3230 						case ZEND_FE_RESET_RW:
3231 							tmp |= MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3232 							break;
3233 						case ZEND_PRE_INC:
3234 						case ZEND_PRE_DEC:
3235 						case ZEND_POST_INC:
3236 						case ZEND_POST_DEC:
3237 							if (tmp & MAY_BE_ARRAY_OF_LONG) {
3238 								/* may overflow */
3239 								tmp |= MAY_BE_ARRAY_OF_DOUBLE;
3240 							} else if (!(tmp & (MAY_BE_ARRAY_OF_LONG|MAY_BE_ARRAY_OF_DOUBLE))) {
3241 								tmp |= MAY_BE_ARRAY_OF_LONG | MAY_BE_ARRAY_OF_DOUBLE;
3242 							}
3243 							break;
3244 						case ZEND_UNSET_DIM:
3245 						case ZEND_UNSET_OBJ:
3246 						case ZEND_FETCH_DIM_UNSET:
3247 						case ZEND_FETCH_OBJ_UNSET:
3248 							break;
3249 						default	:
3250 							break;
3251 					}
3252 					j = zend_ssa_next_use(ssa_ops, ssa_ops[i].result_def, j);
3253 				}
3254 				if ((tmp & MAY_BE_ARRAY) && (tmp & MAY_BE_ARRAY_KEY_ANY)) {
3255 					UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3256 				} else {
3257 					/* invalid key type */
3258 					tmp = (tmp & (MAY_BE_RC1|MAY_BE_RCN)) | (t1 & ~(MAY_BE_RC1|MAY_BE_RCN));
3259 					UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3260 				}
3261 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
3262 			}
3263 			/* FETCH_LIST on a string behaves like FETCH_R on null */
3264 			tmp = zend_array_element_type(
3265 				opline->opcode != ZEND_FETCH_LIST ? t1 : ((t1 & ~MAY_BE_STRING) | MAY_BE_NULL),
3266 				opline->opcode != ZEND_FETCH_DIM_R && opline->opcode != ZEND_FETCH_DIM_IS
3267 					&& opline->opcode != ZEND_FETCH_LIST,
3268 				opline->op2_type == IS_UNUSED);
3269 			if (opline->opcode == ZEND_FETCH_DIM_W ||
3270 			    opline->opcode == ZEND_FETCH_DIM_RW ||
3271 			    opline->opcode == ZEND_FETCH_DIM_FUNC_ARG) {
3272 				if (t1 & (MAY_BE_ERROR|MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_RESOURCE|MAY_BE_OBJECT)) {
3273 					tmp |= MAY_BE_ERROR;
3274 				} else if (opline->op2_type == IS_UNUSED) {
3275 					tmp |= MAY_BE_ERROR;
3276 				} else if (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) {
3277 					tmp |= MAY_BE_ERROR;
3278 				}
3279 			} else if (opline->opcode == ZEND_FETCH_DIM_IS && (t1 & MAY_BE_STRING)) {
3280 				tmp |= MAY_BE_NULL;
3281 			}
3282 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3283 			break;
3284 		case ZEND_FETCH_THIS:
3285 			UPDATE_SSA_OBJ_TYPE(op_array->scope, 1, ssa_ops[i].result_def);
3286 			UPDATE_SSA_TYPE(MAY_BE_RC1|MAY_BE_RCN|MAY_BE_OBJECT, ssa_ops[i].result_def);
3287 			break;
3288 		case ZEND_FETCH_OBJ_R:
3289 		case ZEND_FETCH_OBJ_IS:
3290 		case ZEND_FETCH_OBJ_RW:
3291 		case ZEND_FETCH_OBJ_W:
3292 		case ZEND_FETCH_OBJ_UNSET:
3293 		case ZEND_FETCH_OBJ_FUNC_ARG:
3294 			if (ssa_ops[i].op1_def >= 0) {
3295 				tmp = t1;
3296 				if (opline->opcode == ZEND_FETCH_OBJ_W ||
3297 				    opline->opcode == ZEND_FETCH_OBJ_RW ||
3298 				    opline->opcode == ZEND_FETCH_OBJ_FUNC_ARG) {
3299 					if (opline->opcode != ZEND_FETCH_DIM_FUNC_ARG) {
3300 						if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) {
3301 							tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE);
3302 							tmp |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN;
3303 						}
3304 					}
3305 				}
3306 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3307 				COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def);
3308 			}
3309 			if (ssa_ops[i].result_def >= 0) {
3310 				tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3311 				if (opline->opcode != ZEND_FETCH_OBJ_R && opline->opcode != ZEND_FETCH_OBJ_IS) {
3312 					tmp |= MAY_BE_ERROR;
3313 				}
3314 				if (opline->result_type == IS_TMP_VAR) {
3315 					tmp |= MAY_BE_RC1 | MAY_BE_RCN;
3316 				} else {
3317 					tmp |= MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN;
3318 				}
3319 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3320 			}
3321 			break;
3322 		case ZEND_DO_FCALL:
3323 		case ZEND_DO_ICALL:
3324 		case ZEND_DO_UCALL:
3325 		case ZEND_DO_FCALL_BY_NAME:
3326 			if (ssa_ops[i].result_def >= 0) {
3327 				zend_func_info *func_info = ZEND_FUNC_INFO(op_array);
3328 				zend_call_info *call_info;
3329 
3330 				if (!func_info || !func_info->call_map) {
3331 					goto unknown_opcode;
3332 				}
3333 				call_info = func_info->call_map[opline - op_array->opcodes];
3334 				if (!call_info) {
3335 					goto unknown_opcode;
3336 				}
3337 				tmp = zend_get_func_info(call_info, ssa) & ~FUNC_MAY_WARN;
3338 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3339 				if (call_info->callee_func->type == ZEND_USER_FUNCTION) {
3340 					func_info = ZEND_FUNC_INFO(&call_info->callee_func->op_array);
3341 					if (func_info) {
3342 						UPDATE_SSA_OBJ_TYPE(
3343 							func_info->return_info.ce,
3344 							func_info->return_info.is_instanceof,
3345 							ssa_ops[i].result_def);
3346 					}
3347 				}
3348 			}
3349 			break;
3350 		case ZEND_FETCH_CONSTANT:
3351 		case ZEND_FETCH_CLASS_CONSTANT:
3352 			UPDATE_SSA_TYPE(MAY_BE_RC1|MAY_BE_RCN|MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_STRING|MAY_BE_RESOURCE|MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY, ssa_ops[i].result_def);
3353 			break;
3354 		case ZEND_STRLEN:
3355 			tmp = MAY_BE_LONG;
3356 			if (t1 & (MAY_BE_ANY - (MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_STRING))) {
3357 				tmp |= MAY_BE_NULL;
3358 			}
3359 			UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3360 			break;
3361 		case ZEND_COUNT:
3362 		case ZEND_FUNC_NUM_ARGS:
3363 			UPDATE_SSA_TYPE(MAY_BE_LONG, ssa_ops[i].result_def);
3364 			break;
3365 		case ZEND_FUNC_GET_ARGS:
3366 			UPDATE_SSA_TYPE(MAY_BE_RC1| MAY_BE_ARRAY | MAY_BE_ARRAY_KEY_LONG | MAY_BE_ARRAY_OF_ANY, ssa_ops[i].result_def);
3367 			break;
3368 		case ZEND_GET_CLASS:
3369 		case ZEND_GET_CALLED_CLASS:
3370 			UPDATE_SSA_TYPE(MAY_BE_FALSE|MAY_BE_STRING|MAY_BE_RCN, ssa_ops[i].result_def);
3371 			break;
3372 		case ZEND_GET_TYPE:
3373 			UPDATE_SSA_TYPE(MAY_BE_STRING|MAY_BE_RC1|MAY_BE_RCN, ssa_ops[i].result_def);
3374 			break;
3375 		case ZEND_TYPE_CHECK:
3376 		case ZEND_DEFINED:
3377 			UPDATE_SSA_TYPE(MAY_BE_FALSE|MAY_BE_TRUE, ssa_ops[i].result_def);
3378 			break;
3379 		case ZEND_VERIFY_RETURN_TYPE:
3380 			if (t1 & MAY_BE_REF) {
3381 				tmp = t1;
3382 				ce = NULL;
3383 			} else {
3384 				zend_arg_info *ret_info = op_array->arg_info - 1;
3385 
3386 				tmp = zend_fetch_arg_info(script, ret_info, &ce);
3387 				if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
3388 					tmp |= MAY_BE_RC1 | MAY_BE_RCN;
3389 				}
3390 			}
3391 			if (opline->op1_type & (IS_TMP_VAR|IS_VAR|IS_CV)) {
3392 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3393 				if (ce) {
3394 					UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].op1_def);
3395 				} else {
3396 					UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].op1_def);
3397 				}
3398 			} else {
3399 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3400 				if (ce) {
3401 					UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def);
3402 				} else {
3403 					UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def);
3404 				}
3405 			}
3406 			break;
3407 		case ZEND_CATCH:
3408 		case ZEND_INCLUDE_OR_EVAL:
3409 			/* Forbidden opcodes */
3410 			ZEND_ASSERT(0);
3411 			break;
3412 		default:
3413 unknown_opcode:
3414 			if (ssa_ops[i].op1_def >= 0) {
3415 				tmp = MAY_BE_ANY | MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3416 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def);
3417 			}
3418 			if (ssa_ops[i].result_def >= 0) {
3419 				tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
3420 				if (opline->result_type == IS_TMP_VAR) {
3421 					tmp |= MAY_BE_RC1 | MAY_BE_RCN;
3422 				} else {
3423 					tmp |= MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN;
3424 				}
3425 				UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def);
3426 			}
3427 			break;
3428 	}
3429 
3430 	return SUCCESS;
3431 }
3432 
get_class_entry_rank(zend_class_entry * ce)3433 static uint32_t get_class_entry_rank(zend_class_entry *ce) {
3434 	uint32_t rank = 0;
3435 	while (ce->parent) {
3436 		rank++;
3437 		ce = ce->parent;
3438 	}
3439 	return rank;
3440 }
3441 
3442 /* Compute least common ancestor on class inheritance tree only */
join_class_entries(zend_class_entry * ce1,zend_class_entry * ce2,int * is_instanceof)3443 static zend_class_entry *join_class_entries(
3444 		zend_class_entry *ce1, zend_class_entry *ce2, int *is_instanceof) {
3445 	uint32_t rank1, rank2;
3446 	if (ce1 == ce2) {
3447 		return ce1;
3448 	}
3449 	if (!ce1 || !ce2) {
3450 		return NULL;
3451 	}
3452 
3453 	rank1 = get_class_entry_rank(ce1);
3454 	rank2 = get_class_entry_rank(ce2);
3455 
3456 	while (rank1 != rank2) {
3457 		if (rank1 > rank2) {
3458 			ce1 = ce1->parent;
3459 			rank1--;
3460 		} else {
3461 			ce2 = ce2->parent;
3462 			rank2--;
3463 		}
3464 	}
3465 
3466 	while (ce1 != ce2) {
3467 		ce1 = ce1->parent;
3468 		ce2 = ce2->parent;
3469 	}
3470 
3471 	if (ce1) {
3472 		*is_instanceof = 1;
3473 	}
3474 	return ce1;
3475 }
3476 
zend_infer_types_ex(const zend_op_array * op_array,const zend_script * script,zend_ssa * ssa,zend_bitset worklist)3477 int zend_infer_types_ex(const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa, zend_bitset worklist)
3478 {
3479 	zend_basic_block *blocks = ssa->cfg.blocks;
3480 	zend_ssa_var *ssa_vars = ssa->vars;
3481 	zend_ssa_var_info *ssa_var_info = ssa->var_info;
3482 	int ssa_vars_count = ssa->vars_count;
3483 	int i, j;
3484 	uint32_t tmp, worklist_len = zend_bitset_len(ssa_vars_count);
3485 
3486 	while (!zend_bitset_empty(worklist, worklist_len)) {
3487 		j = zend_bitset_first(worklist, worklist_len);
3488 		zend_bitset_excl(worklist, j);
3489 		if (ssa_vars[j].definition_phi) {
3490 			zend_ssa_phi *p = ssa_vars[j].definition_phi;
3491 			if (p->pi >= 0) {
3492 				zend_class_entry *ce = ssa_var_info[p->sources[0]].ce;
3493 				int is_instanceof = ssa_var_info[p->sources[0]].is_instanceof;
3494 				tmp = get_ssa_var_info(ssa, p->sources[0]);
3495 
3496 				if (!p->has_range_constraint) {
3497 					zend_ssa_type_constraint *constraint = &p->constraint.type;
3498 					tmp &= constraint->type_mask;
3499 					if ((tmp & MAY_BE_OBJECT) && constraint->ce && ce != constraint->ce) {
3500 						if (!ce) {
3501 							ce = constraint->ce;
3502 							is_instanceof = 1;
3503 						} else if (is_instanceof && instanceof_function(constraint->ce, ce)) {
3504 							ce = constraint->ce;
3505 						} else {
3506 							/* Ignore the constraint (either ce instanceof constraint->ce or
3507 							 * they are unrelated, as far as we can statically determine) */
3508 						}
3509 					}
3510 				}
3511 
3512 				UPDATE_SSA_TYPE(tmp, j);
3513 				UPDATE_SSA_OBJ_TYPE(ce, is_instanceof, j);
3514 			} else {
3515 				int first = 1;
3516 				int is_instanceof = 0;
3517 				zend_class_entry *ce = NULL;
3518 
3519 				tmp = 0;
3520 				for (i = 0; i < blocks[p->block].predecessors_count; i++) {
3521 					tmp |= get_ssa_var_info(ssa, p->sources[i]);
3522 				}
3523 				UPDATE_SSA_TYPE(tmp, j);
3524 				for (i = 0; i < blocks[p->block].predecessors_count; i++) {
3525 					zend_ssa_var_info *info;
3526 
3527 					ZEND_ASSERT(p->sources[i] >= 0);
3528 					info = &ssa_var_info[p->sources[i]];
3529 					if (info->type & MAY_BE_OBJECT) {
3530 						if (first) {
3531 							ce = info->ce;
3532 							is_instanceof = info->is_instanceof;
3533 							first = 0;
3534 						} else {
3535 							is_instanceof |= info->is_instanceof;
3536 							ce = join_class_entries(ce, info->ce, &is_instanceof);
3537 						}
3538 					}
3539 				}
3540 				UPDATE_SSA_OBJ_TYPE(ce, ce ? is_instanceof : 0, j);
3541 			}
3542 		} else if (ssa_vars[j].definition >= 0) {
3543 			i = ssa_vars[j].definition;
3544 			if (zend_update_type_info(op_array, ssa, script, worklist, i) == FAILURE) {
3545 				return FAILURE;
3546 			}
3547 		}
3548 	}
3549 	return SUCCESS;
3550 }
3551 
is_narrowable_instr(zend_op * opline)3552 static zend_bool is_narrowable_instr(zend_op *opline)  {
3553 	return opline->opcode == ZEND_ADD || opline->opcode == ZEND_SUB
3554 		|| opline->opcode == ZEND_MUL || opline->opcode == ZEND_DIV;
3555 }
3556 
is_effective_op1_double_cast(zend_op * opline,zval * op2)3557 static zend_bool is_effective_op1_double_cast(zend_op *opline, zval *op2) {
3558 	return (opline->opcode == ZEND_ADD && Z_LVAL_P(op2) == 0)
3559 		|| (opline->opcode == ZEND_SUB && Z_LVAL_P(op2) == 0)
3560 		|| (opline->opcode == ZEND_MUL && Z_LVAL_P(op2) == 1)
3561 		|| (opline->opcode == ZEND_DIV && Z_LVAL_P(op2) == 1);
3562 }
is_effective_op2_double_cast(zend_op * opline,zval * op1)3563 static zend_bool is_effective_op2_double_cast(zend_op *opline, zval *op1) {
3564 	/* In PHP it holds that (double)(0-$int) is bitwise identical to 0.0-(double)$int,
3565 	 * so allowing SUB here is fine. */
3566 	return (opline->opcode == ZEND_ADD && Z_LVAL_P(op1) == 0)
3567 		|| (opline->opcode == ZEND_SUB && Z_LVAL_P(op1) == 0)
3568 		|| (opline->opcode == ZEND_MUL && Z_LVAL_P(op1) == 1);
3569 }
3570 
3571 /* This function recursively checks whether it's possible to convert an integer variable
3572  * initialization to a double initialization. The basic idea is that if the value is used
3573  * only in add/sub/mul/div ("narrowable" instructions) with a double result value, then it
3574  * will be cast to double at that point anyway, so we may as well do it earlier already.
3575  *
3576  * The tricky case are chains of operations, where it's not necessarily a given that converting
3577  * an integer to double before the chain of operations is the same as converting it after the
3578  * chain. What this function does is detect two cases where it is safe:
3579  *  * If the operations only involve constants, then we can simply verify that performing the
3580  *    calculation on integers and doubles yields the same value.
3581  *  * Even if one operand is not known, we may be able to determine that the operations with the
3582  *    integer replaced by a double only acts as an effective double cast on the unknown operand.
3583  *    E.g. 0+$i and 0.0+$i only differ by that cast. If then the consuming instruction of this
3584  *    result will perform a double cast anyway, the conversion is safe.
3585  *
3586  * The checks happens recursively, while keeping track of which variables are already visisted to
3587  * avoid infinite loops. An iterative, worklist driven approach would be possible, but the state
3588  * management more cumbersome to implement, so we don't bother for now.
3589  */
can_convert_to_double(const zend_op_array * op_array,zend_ssa * ssa,int var_num,zval * value,zend_bitset visited)3590 static zend_bool can_convert_to_double(
3591 		const zend_op_array *op_array, zend_ssa *ssa, int var_num,
3592 		zval *value, zend_bitset visited) {
3593 	zend_ssa_var *var = &ssa->vars[var_num];
3594 	zend_ssa_phi *phi;
3595 	int use;
3596 	uint32_t type;
3597 
3598 	if (zend_bitset_in(visited, var_num)) {
3599 		return 1;
3600 	}
3601 	zend_bitset_incl(visited, var_num);
3602 
3603 	for (use = var->use_chain; use >= 0; use = zend_ssa_next_use(ssa->ops, var_num, use)) {
3604 		zend_op *opline = &op_array->opcodes[use];
3605 		zend_ssa_op *ssa_op = &ssa->ops[use];
3606 
3607 		if (zend_ssa_is_no_val_use(opline, ssa_op, var_num)) {
3608 			continue;
3609 		}
3610 
3611 		if (!is_narrowable_instr(opline)) {
3612 			return 0;
3613 		}
3614 
3615 		/* Instruction always returns double, the conversion is certainly fine */
3616 		type = ssa->var_info[ssa_op->result_def].type;
3617 		if ((type & MAY_BE_ANY) == MAY_BE_DOUBLE) {
3618 			continue;
3619 		}
3620 
3621 		/* UNDEF signals that the previous result is an effective double cast, this is only allowed
3622 		 * if this instruction would have done the cast anyway (previous check). */
3623 		if (Z_ISUNDEF_P(value)) {
3624 			return 0;
3625 		}
3626 
3627 		/* Check that narrowing can actually be useful */
3628 		if ((type & MAY_BE_ANY) & ~(MAY_BE_LONG|MAY_BE_DOUBLE)) {
3629 			return 0;
3630 		}
3631 
3632 		{
3633 			/* For calculation on original values */
3634 			zval orig_op1, orig_op2, orig_result;
3635 			/* For calculation with var_num cast to double */
3636 			zval dval_op1, dval_op2, dval_result;
3637 
3638 			ZVAL_UNDEF(&orig_op1);
3639 			ZVAL_UNDEF(&dval_op1);
3640 			if (ssa_op->op1_use == var_num) {
3641 				ZVAL_COPY_VALUE(&orig_op1, value);
3642 				ZVAL_DOUBLE(&dval_op1, (double) Z_LVAL_P(value));
3643 			} else if (opline->op1_type == IS_CONST) {
3644 				zval *zv = CRT_CONSTANT_EX(op_array, opline->op1, ssa->rt_constants);
3645 				if (Z_TYPE_P(zv) == IS_LONG || Z_TYPE_P(zv) == IS_DOUBLE) {
3646 					ZVAL_COPY_VALUE(&orig_op1, zv);
3647 					ZVAL_COPY_VALUE(&dval_op1, zv);
3648 				}
3649 			}
3650 
3651 			ZVAL_UNDEF(&orig_op2);
3652 			ZVAL_UNDEF(&dval_op2);
3653 			if (ssa_op->op2_use == var_num) {
3654 				ZVAL_COPY_VALUE(&orig_op2, value);
3655 				ZVAL_DOUBLE(&dval_op2, (double) Z_LVAL_P(value));
3656 			} else if (opline->op2_type == IS_CONST) {
3657 				zval *zv = CRT_CONSTANT_EX(op_array, opline->op2, ssa->rt_constants);
3658 				if (Z_TYPE_P(zv) == IS_LONG || Z_TYPE_P(zv) == IS_DOUBLE) {
3659 					ZVAL_COPY_VALUE(&orig_op2, zv);
3660 					ZVAL_COPY_VALUE(&dval_op2, zv);
3661 				}
3662 			}
3663 
3664 			ZEND_ASSERT(!Z_ISUNDEF(orig_op1) || !Z_ISUNDEF(orig_op2));
3665 			if (Z_ISUNDEF(orig_op1)) {
3666 				if (opline->opcode == ZEND_MUL && Z_LVAL(orig_op2) == 0) {
3667 					ZVAL_LONG(&orig_result, 0);
3668 				} else if (is_effective_op1_double_cast(opline, &orig_op2)) {
3669 					ZVAL_UNDEF(&orig_result);
3670 				} else {
3671 					return 0;
3672 				}
3673 			} else if (Z_ISUNDEF(orig_op2)) {
3674 				if (opline->opcode == ZEND_MUL && Z_LVAL(orig_op1) == 0) {
3675 					ZVAL_LONG(&orig_result, 0);
3676 				} else if (is_effective_op2_double_cast(opline, &orig_op1)) {
3677 					ZVAL_UNDEF(&orig_result);
3678 				} else {
3679 					return 0;
3680 				}
3681 			} else {
3682 				/* Avoid division by zero */
3683 				if (opline->opcode == ZEND_DIV && zval_get_double(&orig_op2) == 0.0) {
3684 					return 0;
3685 				}
3686 
3687 				get_binary_op(opline->opcode)(&orig_result, &orig_op1, &orig_op2);
3688 				get_binary_op(opline->opcode)(&dval_result, &dval_op1, &dval_op2);
3689 				ZEND_ASSERT(Z_TYPE(dval_result) == IS_DOUBLE);
3690 				if (zval_get_double(&orig_result) != Z_DVAL(dval_result)) {
3691 					return 0;
3692 				}
3693 			}
3694 
3695 			if (!can_convert_to_double(op_array, ssa, ssa_op->result_def, &orig_result, visited)) {
3696 				return 0;
3697 			}
3698 		}
3699 	}
3700 
3701 	for (phi = var->phi_use_chain; phi; phi = zend_ssa_next_use_phi(ssa, var_num, phi)) {
3702 		/* Check that narrowing can actually be useful */
3703 		type = ssa->var_info[phi->ssa_var].type;
3704 		if ((type & MAY_BE_ANY) & ~(MAY_BE_LONG|MAY_BE_DOUBLE)) {
3705 			return 0;
3706 		}
3707 
3708 		if (!can_convert_to_double(op_array, ssa, phi->ssa_var, value, visited)) {
3709 			return 0;
3710 		}
3711 	}
3712 
3713 	return 1;
3714 }
3715 
zend_type_narrowing(const zend_op_array * op_array,const zend_script * script,zend_ssa * ssa)3716 static int zend_type_narrowing(const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa)
3717 {
3718 	uint32_t bitset_len = zend_bitset_len(ssa->vars_count);
3719 	zend_bitset visited, worklist;
3720 	int i, v;
3721 	zend_op *opline;
3722 	zend_bool narrowed = 0;
3723 	ALLOCA_FLAG(use_heap)
3724 
3725 	visited = ZEND_BITSET_ALLOCA(2 * bitset_len, use_heap);
3726 	worklist = visited + bitset_len;
3727 
3728 	zend_bitset_clear(worklist, bitset_len);
3729 
3730 	for (v = op_array->last_var; v < ssa->vars_count; v++) {
3731 		if ((ssa->var_info[v].type & (MAY_BE_REF | MAY_BE_ANY | MAY_BE_UNDEF)) != MAY_BE_LONG) continue;
3732 		if (ssa->vars[v].definition < 0) continue;
3733 		if (ssa->vars[v].no_val) continue;
3734 		opline = op_array->opcodes + ssa->vars[v].definition;
3735 		/* Go through assignments of literal integers and check if they can be converted to
3736 		 * doubles instead, in the hope that we'll narrow long|double to double. */
3737 		if (opline->opcode == ZEND_ASSIGN && opline->result_type == IS_UNUSED &&
3738 				opline->op1_type == IS_CV && opline->op2_type == IS_CONST) {
3739 			zval *value = CRT_CONSTANT_EX(op_array, opline->op2, ssa->rt_constants);
3740 
3741 			zend_bitset_clear(visited, bitset_len);
3742 			if (can_convert_to_double(op_array, ssa, v, value, visited)) {
3743 				narrowed = 1;
3744 				ssa->var_info[v].use_as_double = 1;
3745 				/* The "visited" vars are exactly those which may change their type due to
3746 				 * narrowing. Reset their types and add them to the type inference worklist */
3747 				ZEND_BITSET_FOREACH(visited, bitset_len, i) {
3748 					ssa->var_info[i].type &= ~MAY_BE_ANY;
3749 				} ZEND_BITSET_FOREACH_END();
3750 				zend_bitset_union(worklist, visited, bitset_len);
3751 			}
3752 		}
3753 	}
3754 
3755 	if (!narrowed) {
3756 		free_alloca(visited, use_heap);
3757 		return SUCCESS;
3758 	}
3759 
3760 	if (zend_infer_types_ex(op_array, script, ssa, worklist) != SUCCESS) {
3761 		free_alloca(visited, use_heap);
3762 		return FAILURE;
3763 	}
3764 
3765 	free_alloca(visited, use_heap);
3766 	return SUCCESS;
3767 }
3768 
is_recursive_tail_call(const zend_op_array * op_array,zend_op * opline)3769 static int is_recursive_tail_call(const zend_op_array *op_array,
3770                                   zend_op             *opline)
3771 {
3772 	zend_func_info *info = ZEND_FUNC_INFO(op_array);
3773 
3774 	if (info->ssa.ops && info->ssa.vars && info->call_map &&
3775 	    info->ssa.ops[opline - op_array->opcodes].op1_use >= 0 &&
3776 	    info->ssa.vars[info->ssa.ops[opline - op_array->opcodes].op1_use].definition >= 0) {
3777 
3778 		zend_op *op = op_array->opcodes + info->ssa.vars[info->ssa.ops[opline - op_array->opcodes].op1_use].definition;
3779 
3780 		if (op->opcode == ZEND_DO_UCALL) {
3781 			zend_call_info *call_info = info->call_map[op - op_array->opcodes];
3782 			if (call_info && op_array == &call_info->callee_func->op_array) {
3783 				return 1;
3784 			}
3785 		}
3786 	}
3787 	return 0;
3788 }
3789 
zend_init_func_return_info(const zend_op_array * op_array,const zend_script * script,zend_ssa_var_info * ret)3790 void zend_init_func_return_info(const zend_op_array   *op_array,
3791                                 const zend_script     *script,
3792                                 zend_ssa_var_info     *ret)
3793 {
3794 	if (op_array->fn_flags & ZEND_ACC_HAS_RETURN_TYPE) {
3795 		zend_arg_info *ret_info = op_array->arg_info - 1;
3796 		zend_ssa_range tmp_range = {0, 0, 0, 0};
3797 
3798 		ret->type = zend_fetch_arg_info(script, ret_info, &ret->ce);
3799 		if (op_array->fn_flags & ZEND_ACC_RETURN_REFERENCE) {
3800 			ret->type |= MAY_BE_REF;
3801 		} else if (ret->type & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) {
3802 			ret->type |= MAY_BE_RC1|MAY_BE_RCN;
3803 		}
3804 		ret->is_instanceof = (ret->ce) ? 1 : 0;
3805 		ret->range = tmp_range;
3806 		ret->has_range = 0;
3807 	}
3808 }
3809 
zend_func_return_info(const zend_op_array * op_array,const zend_script * script,int recursive,int widening,zend_ssa_var_info * ret)3810 void zend_func_return_info(const zend_op_array   *op_array,
3811                            const zend_script     *script,
3812                            int                    recursive,
3813                            int                    widening,
3814                            zend_ssa_var_info     *ret)
3815 {
3816 	zend_func_info *info = ZEND_FUNC_INFO(op_array);
3817 	zend_ssa *ssa = &info->ssa;
3818 	int blocks_count = info->ssa.cfg.blocks_count;
3819 	zend_basic_block *blocks = info->ssa.cfg.blocks;
3820 	int j;
3821 	uint32_t t1;
3822 	uint32_t tmp = 0;
3823 	zend_class_entry *tmp_ce = NULL;
3824 	int tmp_is_instanceof = -1;
3825 	zend_class_entry *arg_ce;
3826 	int arg_is_instanceof;
3827 	zend_ssa_range tmp_range = {0, 0, 0, 0};
3828 	int tmp_has_range = -1;
3829 
3830 	if (op_array->fn_flags & ZEND_ACC_GENERATOR) {
3831 		ret->type = MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN;
3832 		ret->ce = zend_ce_generator;
3833 		ret->is_instanceof = 0;
3834 		ret->range = tmp_range;
3835 		ret->has_range = 0;
3836 		return;
3837 	}
3838 
3839 	for (j = 0; j < blocks_count; j++) {
3840 		if ((blocks[j].flags & ZEND_BB_REACHABLE) && blocks[j].len != 0) {
3841 			zend_op *opline = op_array->opcodes + blocks[j].start + blocks[j].len - 1;
3842 
3843 			if (opline->opcode == ZEND_RETURN || opline->opcode == ZEND_RETURN_BY_REF) {
3844 				if (!recursive &&
3845 				    info->ssa.ops &&
3846 				    info->ssa.var_info &&
3847 				    info->ssa.ops[opline - op_array->opcodes].op1_use >= 0 &&
3848 				    info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].recursive) {
3849 					continue;
3850 				}
3851 				if (is_recursive_tail_call(op_array, opline)) {
3852 					continue;
3853 				}
3854 				t1 = OP1_INFO();
3855 				if (t1 & MAY_BE_UNDEF) {
3856 					t1 |= MAY_BE_NULL;
3857 				}
3858 				if (opline->opcode == ZEND_RETURN) {
3859 					if (t1 & MAY_BE_RC1) {
3860 						t1 |= MAY_BE_RCN;
3861 					}
3862 					t1 &= ~(MAY_BE_UNDEF | MAY_BE_REF);
3863 				} else {
3864 					t1 |= MAY_BE_REF;
3865 					t1 &= ~(MAY_BE_UNDEF | MAY_BE_RC1 | MAY_BE_RCN);
3866 				}
3867 				tmp |= t1;
3868 
3869 				if (info->ssa.ops &&
3870 				    info->ssa.var_info &&
3871 				    info->ssa.ops[opline - op_array->opcodes].op1_use >= 0 &&
3872 				    info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].ce) {
3873 					arg_ce = info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].ce;
3874 					arg_is_instanceof = info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].is_instanceof;
3875 				} else {
3876 					arg_ce = NULL;
3877 					arg_is_instanceof = 0;
3878 				}
3879 
3880 				if (tmp_is_instanceof < 0) {
3881 					tmp_ce = arg_ce;
3882 					tmp_is_instanceof = arg_is_instanceof;
3883 				} else if (arg_ce && arg_ce == tmp_ce) {
3884 					if (tmp_is_instanceof != arg_is_instanceof) {
3885 						tmp_is_instanceof = 1;
3886 					}
3887 				} else {
3888 					tmp_ce = NULL;
3889 					tmp_is_instanceof = 0;
3890 				}
3891 
3892 				if (opline->op1_type == IS_CONST) {
3893 					zval *zv = CRT_CONSTANT_EX(op_array, opline->op1, info->ssa.rt_constants);
3894 
3895 					if (Z_TYPE_P(zv) == IS_NULL) {
3896 						if (tmp_has_range < 0) {
3897 							tmp_has_range = 1;
3898 							tmp_range.underflow = 0;
3899 							tmp_range.min = 0;
3900 							tmp_range.max = 0;
3901 							tmp_range.overflow = 0;
3902 						} else if (tmp_has_range) {
3903 							if (!tmp_range.underflow) {
3904 								tmp_range.min = MIN(tmp_range.min, 0);
3905 							}
3906 							if (!tmp_range.overflow) {
3907 								tmp_range.max = MAX(tmp_range.max, 0);
3908 							}
3909 						}
3910 					} else if (Z_TYPE_P(zv) == IS_FALSE) {
3911 						if (tmp_has_range < 0) {
3912 							tmp_has_range = 1;
3913 							tmp_range.underflow = 0;
3914 							tmp_range.min = 0;
3915 							tmp_range.max = 0;
3916 							tmp_range.overflow = 0;
3917 						} else if (tmp_has_range) {
3918 							if (!tmp_range.underflow) {
3919 								tmp_range.min = MIN(tmp_range.min, 0);
3920 							}
3921 							if (!tmp_range.overflow) {
3922 								tmp_range.max = MAX(tmp_range.max, 0);
3923 							}
3924 						}
3925 					} else if (Z_TYPE_P(zv) == IS_TRUE) {
3926 						if (tmp_has_range < 0) {
3927 							tmp_has_range = 1;
3928 							tmp_range.underflow = 0;
3929 							tmp_range.min = 1;
3930 							tmp_range.max = 1;
3931 							tmp_range.overflow = 0;
3932 						} else if (tmp_has_range) {
3933 							if (!tmp_range.underflow) {
3934 								tmp_range.min = MIN(tmp_range.min, 1);
3935 							}
3936 							if (!tmp_range.overflow) {
3937 								tmp_range.max = MAX(tmp_range.max, 1);
3938 							}
3939 						}
3940 					} else if (Z_TYPE_P(zv) == IS_LONG) {
3941 						if (tmp_has_range < 0) {
3942 							tmp_has_range = 1;
3943 							tmp_range.underflow = 0;
3944 							tmp_range.min = Z_LVAL_P(zv);
3945 							tmp_range.max = Z_LVAL_P(zv);
3946 							tmp_range.overflow = 0;
3947 						} else if (tmp_has_range) {
3948 							if (!tmp_range.underflow) {
3949 								tmp_range.min = MIN(tmp_range.min, Z_LVAL_P(zv));
3950 							}
3951 							if (!tmp_range.overflow) {
3952 								tmp_range.max = MAX(tmp_range.max, Z_LVAL_P(zv));
3953 							}
3954 						}
3955 					} else {
3956 						tmp_has_range = 0;
3957 					}
3958 				} else if (info->ssa.ops &&
3959 				           info->ssa.var_info &&
3960 				           info->ssa.ops[opline - op_array->opcodes].op1_use >= 0) {
3961 					if (info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].has_range) {
3962 						if (tmp_has_range < 0) {
3963 							tmp_has_range = 1;
3964 							tmp_range = info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range;
3965 						} else if (tmp_has_range) {
3966 							/* union */
3967 							if (info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.underflow) {
3968 								tmp_range.underflow = 1;
3969 								tmp_range.min = ZEND_LONG_MIN;
3970 							} else {
3971 								tmp_range.min = MIN(tmp_range.min, info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.min);
3972 							}
3973 							if (info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.overflow) {
3974 								tmp_range.overflow = 1;
3975 								tmp_range.max = ZEND_LONG_MAX;
3976 							} else {
3977 								tmp_range.max = MAX(tmp_range.max, info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.max);
3978 							}
3979 						}
3980 					} else if (!widening) {
3981 						tmp_has_range = 1;
3982 						tmp_range.underflow = 1;
3983 						tmp_range.min = ZEND_LONG_MIN;
3984 						tmp_range.max = ZEND_LONG_MAX;
3985 						tmp_range.overflow = 1;
3986 					}
3987 				} else {
3988 					tmp_has_range = 0;
3989 				}
3990 			}
3991 		}
3992 	}
3993 
3994 	if (!(op_array->fn_flags & ZEND_ACC_HAS_RETURN_TYPE)) {
3995 		if (tmp_is_instanceof < 0) {
3996 			tmp_is_instanceof = 0;
3997 			tmp_ce = NULL;
3998 		}
3999 		if (tmp_has_range < 0) {
4000 			tmp_has_range = 0;
4001 		}
4002 		ret->type = tmp;
4003 		ret->ce = tmp_ce;
4004 		ret->is_instanceof = tmp_is_instanceof;
4005 	}
4006 	ret->range = tmp_range;
4007 	ret->has_range = tmp_has_range;
4008 }
4009 
zend_infer_types(const zend_op_array * op_array,const zend_script * script,zend_ssa * ssa)4010 static int zend_infer_types(const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa)
4011 {
4012 	zend_ssa_var_info *ssa_var_info = ssa->var_info;
4013 	int ssa_vars_count = ssa->vars_count;
4014 	int j;
4015 	zend_bitset worklist;
4016 	ALLOCA_FLAG(use_heap);
4017 
4018 	worklist = do_alloca(sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count), use_heap);
4019 	memset(worklist, 0, sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count));
4020 
4021 	/* Type Inference */
4022 	for (j = op_array->last_var; j < ssa_vars_count; j++) {
4023 		zend_bitset_incl(worklist, j);
4024 		ssa_var_info[j].type = 0;
4025 	}
4026 
4027 	if (zend_infer_types_ex(op_array, script, ssa, worklist) != SUCCESS) {
4028 		free_alloca(worklist,  use_heap);
4029 		return FAILURE;
4030 	}
4031 
4032 	/* Narrowing integer initialization to doubles */
4033 	zend_type_narrowing(op_array, script, ssa);
4034 
4035 	if (ZEND_FUNC_INFO(op_array)) {
4036 		zend_func_return_info(op_array, script, 1, 0, &ZEND_FUNC_INFO(op_array)->return_info);
4037 	}
4038 
4039 	free_alloca(worklist,  use_heap);
4040 	return SUCCESS;
4041 }
4042 
zend_ssa_inference(zend_arena ** arena,const zend_op_array * op_array,const zend_script * script,zend_ssa * ssa)4043 int zend_ssa_inference(zend_arena **arena, const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa) /* {{{ */
4044 {
4045 	zend_ssa_var_info *ssa_var_info;
4046 	int i;
4047 
4048 	if (!ssa->var_info) {
4049 		ssa->var_info = zend_arena_calloc(arena, ssa->vars_count, sizeof(zend_ssa_var_info));
4050 	}
4051 	ssa_var_info = ssa->var_info;
4052 
4053 	if (!op_array->function_name) {
4054 		for (i = 0; i < op_array->last_var; i++) {
4055 			ssa_var_info[i].type = MAY_BE_UNDEF | MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_REF | MAY_BE_ANY  | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF;
4056 			ssa_var_info[i].has_range = 0;
4057 		}
4058 	} else {
4059 		for (i = 0; i < op_array->last_var; i++) {
4060 			ssa_var_info[i].type = MAY_BE_UNDEF;
4061 			ssa_var_info[i].has_range = 0;
4062 			if (ssa->vars[i].alias) {
4063 				ssa_var_info[i].type |= get_ssa_alias_types(ssa->vars[i].alias);
4064 			}
4065 		}
4066 	}
4067 	for (i = op_array->last_var; i < ssa->vars_count; i++) {
4068 		ssa_var_info[i].type = 0;
4069 		ssa_var_info[i].has_range = 0;
4070 	}
4071 
4072 	if (zend_infer_ranges(op_array, ssa) != SUCCESS) {
4073 		return FAILURE;
4074 	}
4075 
4076 	if (zend_infer_types(op_array, script, ssa) != SUCCESS) {
4077 		return FAILURE;
4078 	}
4079 
4080 	return SUCCESS;
4081 }
4082 /* }}} */
4083 
zend_inference_check_recursive_dependencies(zend_op_array * op_array)4084 void zend_inference_check_recursive_dependencies(zend_op_array *op_array)
4085 {
4086 	zend_func_info *info = ZEND_FUNC_INFO(op_array);
4087 	zend_call_info *call_info;
4088 	zend_bitset worklist;
4089 	int worklist_len, i;
4090 	ALLOCA_FLAG(use_heap);
4091 
4092 	if (!info->ssa.var_info || !(info->flags & ZEND_FUNC_RECURSIVE)) {
4093 		return;
4094 	}
4095 	worklist_len = zend_bitset_len(info->ssa.vars_count);
4096 	worklist = do_alloca(sizeof(zend_ulong) * worklist_len, use_heap);
4097 	memset(worklist, 0, sizeof(zend_ulong) * worklist_len);
4098 	call_info = info->callee_info;
4099 	while (call_info) {
4100 		if (call_info->recursive &&
4101 		    info->ssa.ops[call_info->caller_call_opline - op_array->opcodes].result_def >= 0) {
4102 			zend_bitset_incl(worklist, info->ssa.ops[call_info->caller_call_opline - op_array->opcodes].result_def);
4103 		}
4104 		call_info = call_info->next_callee;
4105 	}
4106 	WHILE_WORKLIST(worklist, worklist_len, i) {
4107 		if (!info->ssa.var_info[i].recursive) {
4108 			info->ssa.var_info[i].recursive = 1;
4109 			add_usages(op_array, &info->ssa, worklist, i);
4110 		}
4111 	} WHILE_WORKLIST_END();
4112 	free_alloca(worklist, use_heap);
4113 }
4114 
zend_may_throw(const zend_op * opline,zend_op_array * op_array,zend_ssa * ssa)4115 int zend_may_throw(const zend_op *opline, zend_op_array *op_array, zend_ssa *ssa)
4116 {
4117 	uint32_t t1 = OP1_INFO();
4118 	uint32_t t2 = OP2_INFO();
4119 
4120 	if (opline->op1_type == IS_CV) {
4121 		if (t1 & MAY_BE_UNDEF) {
4122 			switch (opline->opcode) {
4123 				case ZEND_UNSET_VAR:
4124 				case ZEND_ISSET_ISEMPTY_VAR:
4125 					return 1;
4126 				case ZEND_ISSET_ISEMPTY_DIM_OBJ:
4127 				case ZEND_ISSET_ISEMPTY_PROP_OBJ:
4128 				case ZEND_ASSIGN:
4129 				case ZEND_ASSIGN_DIM:
4130 				case ZEND_ASSIGN_REF:
4131 				case ZEND_BIND_GLOBAL:
4132 				case ZEND_FETCH_DIM_IS:
4133 				case ZEND_FETCH_OBJ_IS:
4134 				case ZEND_SEND_REF:
4135 				case ZEND_UNSET_CV:
4136 				case ZEND_ISSET_ISEMPTY_CV:
4137 					break;
4138 				default:
4139 					/* undefined variable warning */
4140 					return 1;
4141 			}
4142 		}
4143     } else if (opline->op1_type & (IS_TMP_VAR|IS_VAR)) {
4144 		if (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_ARRAY_OF_OBJECT|MAY_BE_ARRAY_OF_RESOURCE|MAY_BE_ARRAY_OF_ARRAY)) {
4145 			switch (opline->opcode) {
4146 				case ZEND_CASE:
4147 				case ZEND_FE_FETCH_R:
4148 				case ZEND_FE_FETCH_RW:
4149 				case ZEND_FETCH_LIST:
4150 				case ZEND_QM_ASSIGN:
4151 				case ZEND_SEND_VAL:
4152 				case ZEND_SEND_VAL_EX:
4153 				case ZEND_SEND_VAR:
4154 				case ZEND_SEND_VAR_EX:
4155 				case ZEND_SEND_VAR_NO_REF:
4156 				case ZEND_SEND_VAR_NO_REF_EX:
4157 				case ZEND_SEND_REF:
4158 				case ZEND_SEPARATE:
4159 				case ZEND_END_SILENCE:
4160 					break;
4161 				default:
4162 					/* destructor may be called */
4163 					return 1;
4164 			}
4165 		}
4166     }
4167 
4168     if (opline->op2_type == IS_CV) {
4169 		if (t2 & MAY_BE_UNDEF) {
4170 			switch (opline->opcode) {
4171 				case ZEND_ASSIGN_REF:
4172 					break;
4173 				default:
4174 					/* undefined variable warning */
4175 					return 1;
4176 			}
4177 		}
4178 	} else if (opline->op2_type & (IS_TMP_VAR|IS_VAR)) {
4179 		if (t2 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_ARRAY_OF_OBJECT|MAY_BE_ARRAY_OF_RESOURCE|MAY_BE_ARRAY_OF_ARRAY)) {
4180 			switch (opline->opcode) {
4181 				case ZEND_ASSIGN:
4182 					break;
4183 				default:
4184 					/* destructor may be called */
4185 					return 1;
4186 			}
4187 		}
4188     }
4189 
4190 	switch (opline->opcode) {
4191 		case ZEND_NOP:
4192 		case ZEND_IS_IDENTICAL:
4193 		case ZEND_IS_NOT_IDENTICAL:
4194 		case ZEND_QM_ASSIGN:
4195 		case ZEND_JMP:
4196 		case ZEND_CHECK_VAR:
4197 		case ZEND_MAKE_REF:
4198 		case ZEND_SEND_VAR:
4199 		case ZEND_BEGIN_SILENCE:
4200 		case ZEND_END_SILENCE:
4201 		case ZEND_SEND_VAL:
4202 		case ZEND_SEND_REF:
4203 		case ZEND_SEND_VAR_EX:
4204 		case ZEND_FREE:
4205 		case ZEND_SEPARATE:
4206 		case ZEND_TYPE_CHECK:
4207 		case ZEND_DEFINED:
4208 		case ZEND_ISSET_ISEMPTY_THIS:
4209 		case ZEND_COALESCE:
4210 		case ZEND_SWITCH_LONG:
4211 		case ZEND_SWITCH_STRING:
4212 		case ZEND_ISSET_ISEMPTY_VAR:
4213 		case ZEND_ISSET_ISEMPTY_CV:
4214 			return 0;
4215 		case ZEND_INIT_FCALL:
4216 			/* can't throw, because call is resolved at compile time */
4217 			return 0;
4218 		case ZEND_BIND_GLOBAL:
4219 			if ((opline+1)->opcode == ZEND_BIND_GLOBAL) {
4220 				return zend_may_throw(opline + 1, op_array, ssa);
4221 			}
4222 			return 0;
4223 		case ZEND_ADD:
4224 			if ((t1 & MAY_BE_ANY) == MAY_BE_ARRAY
4225 			 && (t2 & MAY_BE_ANY) == MAY_BE_ARRAY) {
4226 				return 0;
4227 			}
4228 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4229 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT));
4230 		case ZEND_DIV:
4231 		case ZEND_MOD:
4232 			if (!OP2_HAS_RANGE() ||
4233 				(OP2_MIN_RANGE() <= 0 && OP2_MAX_RANGE() >= 0)) {
4234 				/* Division by zero */
4235 				return 1;
4236 			}
4237 			/* break missing intentionally */
4238 		case ZEND_SUB:
4239 		case ZEND_MUL:
4240 		case ZEND_POW:
4241 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4242 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT));
4243 		case ZEND_SL:
4244 		case ZEND_SR:
4245 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4246 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4247 				!OP2_HAS_RANGE() ||
4248 				OP2_MIN_RANGE() < 0;
4249 		case ZEND_CONCAT:
4250 		case ZEND_FAST_CONCAT:
4251 			return (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4252 				(t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT));
4253 		case ZEND_BW_OR:
4254 		case ZEND_BW_AND:
4255 		case ZEND_BW_XOR:
4256 			if ((t1 & MAY_BE_ANY) == MAY_BE_STRING
4257 			 && (t2 & MAY_BE_ANY) == MAY_BE_STRING) {
4258 				return 0;
4259 			}
4260 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4261 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT));
4262 		case ZEND_BW_NOT:
4263 			return (t1 & (MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE));
4264 		case ZEND_BOOL_NOT:
4265 		case ZEND_PRE_INC:
4266 		case ZEND_POST_INC:
4267 		case ZEND_PRE_DEC:
4268 		case ZEND_POST_DEC:
4269 		case ZEND_JMPZ:
4270 		case ZEND_JMPNZ:
4271 		case ZEND_JMPZNZ:
4272 		case ZEND_JMPZ_EX:
4273 		case ZEND_JMPNZ_EX:
4274 		case ZEND_BOOL:
4275 		case ZEND_JMP_SET:
4276 			return (t1 & MAY_BE_OBJECT);
4277 		case ZEND_BOOL_XOR:
4278 			return (t1 & MAY_BE_OBJECT) || (t2 & MAY_BE_OBJECT);
4279 		case ZEND_IS_EQUAL:
4280 		case ZEND_IS_NOT_EQUAL:
4281 		case ZEND_IS_SMALLER:
4282 		case ZEND_IS_SMALLER_OR_EQUAL:
4283 		case ZEND_CASE:
4284 		case ZEND_SPACESHIP:
4285 			if ((t1 & MAY_BE_ANY) == MAY_BE_NULL
4286 			 || (t2 & MAY_BE_ANY) == MAY_BE_NULL) {
4287 				return 0;
4288 			}
4289 			return (t1 & (MAY_BE_OBJECT|MAY_BE_ARRAY_OF_ARRAY|MAY_BE_ARRAY_OF_OBJECT)) || (t2 & (MAY_BE_OBJECT|MAY_BE_ARRAY_OF_ARRAY|MAY_BE_ARRAY_OF_OBJECT));
4290 		case ZEND_ASSIGN_ADD:
4291 			if (opline->extended_value != 0) {
4292 				return 1;
4293 			}
4294 			if ((t1 & MAY_BE_ANY) == MAY_BE_ARRAY
4295 			 && (t2 & MAY_BE_ANY) == MAY_BE_ARRAY) {
4296 				return 0;
4297 			}
4298 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4299 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT));
4300 		case ZEND_ASSIGN_DIV:
4301 		case ZEND_ASSIGN_MOD:
4302 			if (opline->extended_value != 0) {
4303 				return 1;
4304 			}
4305 			if (!OP2_HAS_RANGE() ||
4306 				(OP2_MIN_RANGE() <= 0 && OP2_MAX_RANGE() >= 0)) {
4307 				/* Division by zero */
4308 				return 1;
4309 			}
4310 			/* break missing intentionally */
4311 		case ZEND_ASSIGN_SUB:
4312 		case ZEND_ASSIGN_MUL:
4313 		case ZEND_ASSIGN_POW:
4314 			if (opline->extended_value != 0) {
4315 				return 1;
4316 			}
4317 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4318 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT));
4319 		case ZEND_ASSIGN_SL:
4320 		case ZEND_ASSIGN_SR:
4321 			if (opline->extended_value != 0) {
4322 				return 1;
4323 			}
4324 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4325 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4326 				!OP2_HAS_RANGE() ||
4327 				OP2_MIN_RANGE() < 0;
4328 		case ZEND_ASSIGN_CONCAT:
4329 			if (opline->extended_value != 0) {
4330 				return 1;
4331 			}
4332 			return (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4333 				(t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT));
4334 		case ZEND_ASSIGN_BW_OR:
4335 		case ZEND_ASSIGN_BW_AND:
4336 		case ZEND_ASSIGN_BW_XOR:
4337 			if (opline->extended_value != 0) {
4338 				return 1;
4339 			}
4340 			if ((t1 & MAY_BE_ANY) == MAY_BE_STRING
4341 			 && (t2 & MAY_BE_ANY) == MAY_BE_STRING) {
4342 				return 0;
4343 			}
4344 			return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) ||
4345 				(t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT));
4346 		case ZEND_ASSIGN:
4347 		case ZEND_UNSET_VAR:
4348 			return (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_ARRAY_OF_OBJECT|MAY_BE_ARRAY_OF_RESOURCE|MAY_BE_ARRAY_OF_ARRAY));
4349 		case ZEND_ASSIGN_DIM:
4350 			return (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_TRUE|MAY_BE_STRING|MAY_BE_LONG|MAY_BE_DOUBLE)) || opline->op2_type == IS_UNUSED ||
4351 				(t2 & (MAY_BE_UNDEF|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE));
4352 		case ZEND_ROPE_INIT:
4353 		case ZEND_ROPE_ADD:
4354 		case ZEND_ROPE_END:
4355 			return t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT);
4356 		case ZEND_INIT_ARRAY:
4357 		case ZEND_ADD_ARRAY_ELEMENT:
4358 			return (opline->op2_type != IS_UNUSED) && (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE));
4359 		case ZEND_STRLEN:
4360 			return (t1 & MAY_BE_ANY) != MAY_BE_STRING;
4361 		case ZEND_COUNT:
4362 			return (t1 & MAY_BE_ANY) != MAY_BE_ARRAY;
4363 		case ZEND_RECV_INIT:
4364 			if (Z_CONSTANT_P(CRT_CONSTANT_EX(op_array, opline->op2, ssa->rt_constants))) {
4365 				return 1;
4366 			}
4367 			if (op_array->fn_flags & ZEND_ACC_HAS_TYPE_HINTS) {
4368 				uint32_t arg_num = opline->op1.num;
4369 				zend_arg_info *cur_arg_info;
4370 
4371 				if (EXPECTED(arg_num <= op_array->num_args)) {
4372 					cur_arg_info = &op_array->arg_info[arg_num-1];
4373 				} else if (UNEXPECTED(op_array->fn_flags & ZEND_ACC_VARIADIC)) {
4374 					cur_arg_info = &op_array->arg_info[op_array->num_args];
4375 				} else {
4376 					return 0;
4377 				}
4378 				return ZEND_TYPE_IS_SET(cur_arg_info->type);
4379 			} else {
4380 				return 0;
4381 			}
4382 		case ZEND_FETCH_IS:
4383 			return (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT));
4384 		case ZEND_ISSET_ISEMPTY_DIM_OBJ:
4385 			return (t1 & MAY_BE_OBJECT) || (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT));
4386 		case ZEND_FETCH_DIM_IS:
4387 			return (t1 & MAY_BE_OBJECT) || (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE));
4388 		case ZEND_CAST:
4389 			switch (opline->extended_value) {
4390 				case IS_NULL:
4391 					return 0;
4392 				case _IS_BOOL:
4393 					return (t1 & MAY_BE_OBJECT);
4394 				case IS_LONG:
4395 				case IS_DOUBLE:
4396 					return (t1 & MAY_BE_OBJECT);
4397 				case IS_STRING:
4398 					return (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT));
4399 				case IS_ARRAY:
4400 					return (t1 & MAY_BE_OBJECT);
4401 				case IS_OBJECT:
4402 					return (t1 & MAY_BE_ARRAY);
4403 				default:
4404 					return 1;
4405 			}
4406 		default:
4407 			return 1;
4408 	}
4409 }
4410 
4411 /*
4412  * Local variables:
4413  * tab-width: 4
4414  * c-basic-offset: 4
4415  * indent-tabs-mode: t
4416  * End:
4417  */
4418