/* +----------------------------------------------------------------------+ | Zend Engine, e-SSA based Type & Range Inference | +----------------------------------------------------------------------+ | Copyright (c) The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Dmitry Stogov | +----------------------------------------------------------------------+ */ #include "php.h" #include "zend_compile.h" #include "zend_generators.h" #include "zend_inference.h" #include "zend_func_info.h" #include "zend_call_graph.h" #include "zend_worklist.h" /* The used range inference algorithm is described in: * V. Campos, R. Rodrigues, I. de Assis Costa and F. Pereira. * "Speed and Precision in Range Analysis", SBLP'12. * * There are a couple degrees of freedom, we use: * * Propagation on SCCs. * * e-SSA for live range splitting. * * Only intra-procedural inference. * * Widening with warmup passes, but without jump sets. */ /* Whether to handle symbolic range constraints */ #define SYM_RANGE /* Whether to handle negative range constraints */ /* Negative range inference is buggy, so disabled for now */ #undef NEG_RANGE /* Number of warmup passes to use prior to widening */ #define RANGE_WARMUP_PASSES 16 /* Logging for range inference in general */ #if 0 #define LOG_SSA_RANGE(...) fprintf(stderr, __VA_ARGS__) #else #define LOG_SSA_RANGE(...) #endif /* Logging for negative range constraints */ #if 0 #define LOG_NEG_RANGE(...) fprintf(stderr, __VA_ARGS__) #else #define LOG_NEG_RANGE(...) #endif /* Pop elements in unspecified order from worklist until it is empty */ #define WHILE_WORKLIST(worklist, len, i) do { \ zend_bool _done = 0; \ while (!_done) { \ _done = 1; \ ZEND_BITSET_FOREACH(worklist, len, i) { \ zend_bitset_excl(worklist, i); \ _done = 0; #define WHILE_WORKLIST_END() \ } ZEND_BITSET_FOREACH_END(); \ } \ } while (0) #define CHECK_SCC_VAR(var2) \ do { \ if (!ssa->vars[var2].no_val) { \ if (dfs[var2] < 0) { \ zend_ssa_check_scc_var(op_array, ssa, var2, index, dfs, root, stack); \ } \ if (ssa->vars[var2].scc < 0 && dfs[root[var]] >= dfs[root[var2]]) { \ root[var] = root[var2]; \ } \ } \ } while (0) #define CHECK_SCC_ENTRY(var2) \ do { \ if (ssa->vars[var2].scc != ssa->vars[var].scc) { \ ssa->vars[var2].scc_entry = 1; \ } \ } while (0) #define ADD_SCC_VAR(_var) \ do { \ if (ssa->vars[_var].scc == scc) { \ zend_bitset_incl(worklist, _var); \ } \ } while (0) #define ADD_SCC_VAR_1(_var) \ do { \ if (ssa->vars[_var].scc == scc && \ !zend_bitset_in(visited, _var)) { \ zend_bitset_incl(worklist, _var); \ } \ } while (0) #define FOR_EACH_DEFINED_VAR(line, MACRO) \ do { \ if (ssa->ops[line].op1_def >= 0) { \ MACRO(ssa->ops[line].op1_def); \ } \ if (ssa->ops[line].op2_def >= 0) { \ MACRO(ssa->ops[line].op2_def); \ } \ if (ssa->ops[line].result_def >= 0) { \ MACRO(ssa->ops[line].result_def); \ } \ if (op_array->opcodes[line].opcode == ZEND_OP_DATA) { \ if (ssa->ops[line-1].op1_def >= 0) { \ MACRO(ssa->ops[line-1].op1_def); \ } \ if (ssa->ops[line-1].op2_def >= 0) { \ MACRO(ssa->ops[line-1].op2_def); \ } \ if (ssa->ops[line-1].result_def >= 0) { \ MACRO(ssa->ops[line-1].result_def); \ } \ } else if ((uint32_t)line+1 < op_array->last && \ op_array->opcodes[line+1].opcode == ZEND_OP_DATA) { \ if (ssa->ops[line+1].op1_def >= 0) { \ MACRO(ssa->ops[line+1].op1_def); \ } \ if (ssa->ops[line+1].op2_def >= 0) { \ MACRO(ssa->ops[line+1].op2_def); \ } \ if (ssa->ops[line+1].result_def >= 0) { \ MACRO(ssa->ops[line+1].result_def); \ } \ } \ } while (0) #define FOR_EACH_VAR_USAGE(_var, MACRO) \ do { \ zend_ssa_phi *p = ssa->vars[_var].phi_use_chain; \ int use = ssa->vars[_var].use_chain; \ while (use >= 0) { \ FOR_EACH_DEFINED_VAR(use, MACRO); \ use = zend_ssa_next_use(ssa->ops, _var, use); \ } \ p = ssa->vars[_var].phi_use_chain; \ while (p) { \ MACRO(p->ssa_var); \ p = zend_ssa_next_use_phi(ssa, _var, p); \ } \ } while (0) static inline zend_bool add_will_overflow(zend_long a, zend_long b) { return (b > 0 && a > ZEND_LONG_MAX - b) || (b < 0 && a < ZEND_LONG_MIN - b); } #if 0 static inline zend_bool sub_will_overflow(zend_long a, zend_long b) { return (b > 0 && a < ZEND_LONG_MIN + b) || (b < 0 && a > ZEND_LONG_MAX + b); } #endif 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) /* {{{ */ { #ifdef SYM_RANGE zend_ssa_phi *p; #endif dfs[var] = *index; (*index)++; root[var] = var; FOR_EACH_VAR_USAGE(var, CHECK_SCC_VAR); #ifdef SYM_RANGE /* Process symbolic control-flow constraints */ p = ssa->vars[var].sym_use_chain; while (p) { CHECK_SCC_VAR(p->ssa_var); p = p->sym_use_chain; } #endif if (root[var] == var) { ssa->vars[var].scc = ssa->sccs; while (stack->len > 0) { int var2 = zend_worklist_stack_peek(stack); if (dfs[var2] <= dfs[var]) { break; } zend_worklist_stack_pop(stack); ssa->vars[var2].scc = ssa->sccs; } ssa->sccs++; } else { zend_worklist_stack_push(stack, var); } } /* }}} */ int zend_ssa_find_sccs(const zend_op_array *op_array, zend_ssa *ssa) /* {{{ */ { int index = 0, *dfs, *root; zend_worklist_stack stack; int j; ALLOCA_FLAG(dfs_use_heap) ALLOCA_FLAG(root_use_heap) ALLOCA_FLAG(stack_use_heap) dfs = do_alloca(sizeof(int) * ssa->vars_count, dfs_use_heap); memset(dfs, -1, sizeof(int) * ssa->vars_count); root = do_alloca(sizeof(int) * ssa->vars_count, root_use_heap); ZEND_WORKLIST_STACK_ALLOCA(&stack, ssa->vars_count, stack_use_heap); /* Find SCCs using Tarjan's algorithm. */ for (j = 0; j < ssa->vars_count; j++) { if (!ssa->vars[j].no_val && dfs[j] < 0) { zend_ssa_check_scc_var(op_array, ssa, j, &index, dfs, root, &stack); } } /* Revert SCC order. This results in a topological order. */ for (j = 0; j < ssa->vars_count; j++) { if (ssa->vars[j].scc >= 0) { ssa->vars[j].scc = ssa->sccs - (ssa->vars[j].scc + 1); } } for (j = 0; j < ssa->vars_count; j++) { if (ssa->vars[j].scc >= 0) { int var = j; if (root[j] == j) { ssa->vars[j].scc_entry = 1; } FOR_EACH_VAR_USAGE(var, CHECK_SCC_ENTRY); } } ZEND_WORKLIST_STACK_FREE_ALLOCA(&stack, stack_use_heap); free_alloca(root, root_use_heap); free_alloca(dfs, dfs_use_heap); return SUCCESS; } /* }}} */ int zend_ssa_find_false_dependencies(const zend_op_array *op_array, zend_ssa *ssa) /* {{{ */ { zend_ssa_var *ssa_vars = ssa->vars; zend_ssa_op *ssa_ops = ssa->ops; int ssa_vars_count = ssa->vars_count; zend_bitset worklist; int i, j, use; zend_ssa_phi *p; ALLOCA_FLAG(use_heap); if (!op_array->function_name || !ssa->vars || !ssa->ops) { return SUCCESS; } worklist = do_alloca(sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count), use_heap); memset(worklist, 0, sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count)); for (i = 0; i < ssa_vars_count; i++) { ssa_vars[i].no_val = 1; /* mark as unused */ use = ssa->vars[i].use_chain; while (use >= 0) { if (!zend_ssa_is_no_val_use(&op_array->opcodes[use], &ssa->ops[use], i)) { ssa_vars[i].no_val = 0; /* used directly */ zend_bitset_incl(worklist, i); break; } use = zend_ssa_next_use(ssa_ops, i, use); } } WHILE_WORKLIST(worklist, zend_bitset_len(ssa_vars_count), i) { if (ssa_vars[i].definition_phi) { /* mark all possible sources as used */ p = ssa_vars[i].definition_phi; if (p->pi >= 0) { if (ssa_vars[p->sources[0]].no_val) { ssa_vars[p->sources[0]].no_val = 0; /* used indirectly */ zend_bitset_incl(worklist, p->sources[0]); } } else { for (j = 0; j < ssa->cfg.blocks[p->block].predecessors_count; j++) { ZEND_ASSERT(p->sources[j] >= 0); if (ssa->vars[p->sources[j]].no_val) { ssa_vars[p->sources[j]].no_val = 0; /* used indirectly */ zend_bitset_incl(worklist, p->sources[j]); } } } } } WHILE_WORKLIST_END(); free_alloca(worklist, use_heap); return SUCCESS; } /* }}} */ /* From "Hacker's Delight" */ zend_ulong minOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d) { zend_ulong m, temp; m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1); while (m != 0) { if (~a & c & m) { temp = (a | m) & -m; if (temp <= b) { a = temp; break; } } else if (a & ~c & m) { temp = (c | m) & -m; if (temp <= d) { c = temp; break; } } m = m >> 1; } return a | c; } zend_ulong maxOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d) { zend_ulong m, temp; m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1); while (m != 0) { if (b & d & m) { temp = (b - m) | (m - 1); if (temp >= a) { b = temp; break; } temp = (d - m) | (m - 1); if (temp >= c) { d = temp; break; } } m = m >> 1; } return b | d; } zend_ulong minAND(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d) { zend_ulong m, temp; m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1); while (m != 0) { if (~a & ~c & m) { temp = (a | m) & -m; if (temp <= b) { a = temp; break; } temp = (c | m) & -m; if (temp <= d) { c = temp; break; } } m = m >> 1; } return a & c; } zend_ulong maxAND(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d) { zend_ulong m, temp; m = Z_UL(1) << (sizeof(zend_ulong) * 8 - 1); while (m != 0) { if (b & ~d & m) { temp = (b | ~m) | (m - 1); if (temp >= a) { b = temp; break; } } else if (~b & d & m) { temp = (d | ~m) | (m - 1); if (temp >= c) { d = temp; break; } } m = m >> 1; } return b & d; } zend_ulong minXOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d) { return minAND(a, b, ~d, ~c) | minAND(~b, ~a, c, d); } zend_ulong maxXOR(zend_ulong a, zend_ulong b, zend_ulong c, zend_ulong d) { return maxOR(0, maxAND(a, b, ~d, ~c), 0, maxAND(~b, ~a, c, d)); } /* Based on "Hacker's Delight" */ /* 0: + + + + 0 0 0 0 => 0 0 + min/max 2: + + - + 0 0 1 0 => 1 0 ? min(a,b,c,-1)/max(a,b,0,d) 3: + + - - 0 0 1 1 => 1 1 - min/max 8: - + + + 1 0 0 0 => 1 0 ? min(a,-1,b,d)/max(0,b,c,d) a: - + - + 1 0 1 0 => 1 0 ? MIN(a,c)/max(0,b,0,d) b: - + - - 1 0 1 1 => 1 1 - c/-1 c: - - + + 1 1 0 0 => 1 1 - min/max e: - - - + 1 1 1 0 => 1 1 - a/-1 f - - - - 1 1 1 1 => 1 1 - min/max */ static void zend_ssa_range_or(zend_long a, zend_long b, zend_long c, zend_long d, zend_ssa_range *tmp) { int x = ((a < 0) ? 8 : 0) | ((b < 0) ? 4 : 0) | ((c < 0) ? 2 : 0) | ((d < 0) ? 2 : 0); switch (x) { case 0x0: case 0x3: case 0xc: case 0xf: tmp->min = minOR(a, b, c, d); tmp->max = maxOR(a, b, c, d); break; case 0x2: tmp->min = minOR(a, b, c, -1); tmp->max = maxOR(a, b, 0, d); break; case 0x8: tmp->min = minOR(a, -1, c, d); tmp->max = maxOR(0, b, c, d); break; case 0xa: tmp->min = MIN(a, c); tmp->max = maxOR(0, b, 0, d); break; case 0xb: tmp->min = c; tmp->max = -1; break; case 0xe: tmp->min = a; tmp->max = -1; break; } } /* 0: + + + + 0 0 0 0 => 0 0 + min/max 2: + + - + 0 0 1 0 => 0 0 + 0/b 3: + + - - 0 0 1 1 => 0 0 + min/max 8: - + + + 1 0 0 0 => 0 0 + 0/d a: - + - + 1 0 1 0 => 1 0 ? min(a,-1,c,-1)/NAX(b,d) b: - + - - 1 0 1 1 => 1 0 ? min(a,-1,c,d)/max(0,b,c,d) c: - - + + 1 1 0 0 => 1 1 - min/max e: - - - + 1 1 1 0 => 1 0 ? min(a,b,c,-1)/max(a,b,0,d) f - - - - 1 1 1 1 => 1 1 - min/max */ static void zend_ssa_range_and(zend_long a, zend_long b, zend_long c, zend_long d, zend_ssa_range *tmp) { int x = ((a < 0) ? 8 : 0) | ((b < 0) ? 4 : 0) | ((c < 0) ? 2 : 0) | ((d < 0) ? 2 : 0); switch (x) { case 0x0: case 0x3: case 0xc: case 0xf: tmp->min = minAND(a, b, c, d); tmp->max = maxAND(a, b, c, d); break; case 0x2: tmp->min = 0; tmp->max = b; break; case 0x8: tmp->min = 0; tmp->max = d; break; case 0xa: tmp->min = minAND(a, -1, c, -1); tmp->max = MAX(b, d); break; case 0xb: tmp->min = minAND(a, -1, c, d); tmp->max = maxAND(0, b, c, d); break; case 0xe: tmp->min = minAND(a, b, c, -1); tmp->max = maxAND(a, b, 0, d); break; } } static inline zend_bool zend_abs_range( zend_long min, zend_long max, zend_long *abs_min, zend_long *abs_max) { if (min == ZEND_LONG_MIN) { /* Cannot take absolute value of LONG_MIN */ return 0; } if (min >= 0) { *abs_min = min; *abs_max = max; } else if (max <= 0) { *abs_min = -max; *abs_max = -min; } else { /* Range crossing zero */ *abs_min = 0; *abs_max = MAX(max, -min); } return 1; } static inline zend_long safe_shift_left(zend_long n, zend_long s) { return (zend_long) ((zend_ulong) n << (zend_ulong) s); } static inline zend_bool shift_left_overflows(zend_long n, zend_long s) { /* This considers shifts that shift in the sign bit to be overflowing as well */ if (n >= 0) { return s >= SIZEOF_ZEND_LONG * 8 - 1 || safe_shift_left(n, s) < n; } else { return s >= SIZEOF_ZEND_LONG * 8 || safe_shift_left(n, s) > n; } } static int 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) { zend_long op1_min, op2_min, op1_max, op2_max, t1, t2, t3, t4; switch (opcode) { case ZEND_ADD: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || zend_add_will_overflow(op1_min, op2_min)) { tmp->underflow = 1; tmp->min = ZEND_LONG_MIN; } else { tmp->min = op1_min + op2_min; } if (OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW() || zend_add_will_overflow(op1_max, op2_max)) { tmp->overflow = 1; tmp->max = ZEND_LONG_MAX; } else { tmp->max = op1_max + op2_max; } return 1; } break; case ZEND_SUB: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_OVERFLOW() || zend_sub_will_overflow(op1_min, op2_max)) { tmp->underflow = 1; tmp->min = ZEND_LONG_MIN; } else { tmp->min = op1_min - op2_max; } if (OP1_RANGE_OVERFLOW() || OP2_RANGE_UNDERFLOW() || zend_sub_will_overflow(op1_max, op2_min)) { tmp->overflow = 1; tmp->max = ZEND_LONG_MAX; } else { tmp->max = op1_max - op2_min; } return 1; } break; case ZEND_MUL: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { double dummy; zend_long t1_overflow, t2_overflow, t3_overflow, t4_overflow; op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); /* Suppress uninit variable warnings, these will only be used if the overflow * flags are all false. */ t1 = t2 = t3 = t4 = 0; ZEND_SIGNED_MULTIPLY_LONG(op1_min, op2_min, t1, dummy, t1_overflow); ZEND_SIGNED_MULTIPLY_LONG(op1_min, op2_max, t2, dummy, t2_overflow); ZEND_SIGNED_MULTIPLY_LONG(op1_max, op2_min, t3, dummy, t3_overflow); ZEND_SIGNED_MULTIPLY_LONG(op1_max, op2_max, t4, dummy, t4_overflow); (void) dummy; // FIXME: more careful overflow checks? if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW() || t1_overflow || t2_overflow || t3_overflow || t4_overflow ) { tmp->underflow = 1; tmp->overflow = 1; tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { tmp->min = MIN(MIN(t1, t2), MIN(t3, t4)); tmp->max = MAX(MAX(t1, t2), MAX(t3, t4)); } return 1; } break; case ZEND_DIV: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); if (op2_min <= 0 && op2_max >= 0) { break; } if (op1_min == ZEND_LONG_MIN && op2_max == -1) { /* Avoid ill-defined division, which may trigger SIGFPE. */ break; } t1 = op1_min / op2_min; t2 = op1_min / op2_max; t3 = op1_max / op2_min; t4 = op1_max / op2_max; // FIXME: more careful overflow checks? if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW() || t1 != (zend_long)((double)op1_min / (double)op2_min) || t2 != (zend_long)((double)op1_min / (double)op2_max) || t3 != (zend_long)((double)op1_max / (double)op2_min) || t4 != (zend_long)((double)op1_max / (double)op2_max)) { tmp->underflow = 1; tmp->overflow = 1; tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { tmp->min = MIN(MIN(t1, t2), MIN(t3, t4)); tmp->max = MAX(MAX(t1, t2), MAX(t3, t4)); } return 1; } break; case ZEND_MOD: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW()) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { zend_long op2_abs_min, op2_abs_max; op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); if (!zend_abs_range(op2_min, op2_max, &op2_abs_min, &op2_abs_max)) { break; } if (op2_abs_max == 0) { /* Always modulus by zero, nothing we can do */ break; } if (op2_abs_min == 0) { /* Ignore the modulus by zero case, which will throw */ op2_abs_min++; } if (op1_min >= 0) { tmp->min = op1_max < op2_abs_min ? op1_min : 0; tmp->max = MIN(op1_max, op2_abs_max - 1); } else if (op1_max <= 0) { tmp->min = MAX(op1_min, -op2_abs_max + 1); tmp->max = op1_min > -op2_abs_min ? op1_max : 0; } else { tmp->min = MAX(op1_min, -op2_abs_max + 1); tmp->max = MIN(op1_max, op2_abs_max - 1); } } return 1; } break; case ZEND_SL: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW()) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); /* Shifts by negative numbers will throw, ignore them */ if (op2_min < 0) { op2_min = 0; } if (op2_max < 0) { op2_max = 0; } if (shift_left_overflows(op1_min, op2_max) || shift_left_overflows(op1_max, op2_max)) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { t1 = safe_shift_left(op1_min, op2_min); t2 = safe_shift_left(op1_min, op2_max); t3 = safe_shift_left(op1_max, op2_min); t4 = safe_shift_left(op1_max, op2_max); tmp->min = MIN(MIN(t1, t2), MIN(t3, t4)); tmp->max = MAX(MAX(t1, t2), MAX(t3, t4)); } } return 1; } break; case ZEND_SR: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW()) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); /* Shifts by negative numbers will throw, ignore them */ if (op2_min < 0) { op2_min = 0; } if (op2_max < 0) { op2_max = 0; } /* Shifts by more than the integer size will be 0 or -1 */ if (op2_min >= SIZEOF_ZEND_LONG * 8) { op2_min = SIZEOF_ZEND_LONG * 8 - 1; } if (op2_max >= SIZEOF_ZEND_LONG * 8) { op2_max = SIZEOF_ZEND_LONG * 8 - 1; } t1 = op1_min >> op2_min; t2 = op1_min >> op2_max; t3 = op1_max >> op2_min; t4 = op1_max >> op2_max; tmp->min = MIN(MIN(t1, t2), MIN(t3, t4)); tmp->max = MAX(MAX(t1, t2), MAX(t3, t4)); } return 1; } break; case ZEND_BW_OR: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW()) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); zend_ssa_range_or(op1_min, op1_max, op2_min, op2_max, tmp); } return 1; } break; case ZEND_BW_AND: if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { if (OP1_RANGE_UNDERFLOW() || OP2_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW() || OP2_RANGE_OVERFLOW()) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); zend_ssa_range_and(op1_min, op1_max, op2_min, op2_max, tmp); } return 1; } break; case ZEND_BW_XOR: // TODO break; EMPTY_SWITCH_DEFAULT_CASE() } return 0; } int zend_inference_calc_range(const zend_op_array *op_array, zend_ssa *ssa, int var, int widening, int narrowing, zend_ssa_range *tmp) { uint32_t line; zend_op *opline; zend_long op1_min, op2_min, op1_max, op2_max; if (ssa->vars[var].definition_phi) { zend_ssa_phi *p = ssa->vars[var].definition_phi; int i; tmp->underflow = 0; tmp->min = ZEND_LONG_MAX; tmp->max = ZEND_LONG_MIN; tmp->overflow = 0; if (p->pi >= 0 && p->has_range_constraint) { zend_ssa_range_constraint *constraint = &p->constraint.range; if (constraint->negative) { if (ssa->var_info[p->sources[0]].has_range) { *tmp = ssa->var_info[p->sources[0]].range; } else if (narrowing) { tmp->underflow = 1; tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; tmp->overflow = 1; } #ifdef NEG_RANGE if (constraint->min_ssa_var < 0 && constraint->max_ssa_var < 0 && ssa->var_info[p->ssa_var].has_range) { LOG_NEG_RANGE("%s() #%d [%ld..%ld] -> [%ld..%ld]?\n", ZSTR_VAL(op_array->function_name), p->ssa_var, ssa->var_info[p->ssa_var].range.min, ssa->var_info[p->ssa_var].range.max, tmp->min, tmp->max); if (constraint->negative == NEG_USE_LT && tmp->max >= constraint->range.min) { tmp->overflow = 0; tmp->max = constraint->range.min - 1; LOG_NEG_RANGE(" => [%ld..%ld]\n", tmp->min, tmp->max); } else if (constraint->negative == NEG_USE_GT && tmp->min <= constraint->range.max) { tmp->underflow = 0; tmp->min = constraint->range.max + 1; LOG_NEG_RANGE(" => [%ld..%ld]\n", tmp->min, tmp->max); } } #endif } else if (ssa->var_info[p->sources[0]].has_range) { /* intersection */ *tmp = ssa->var_info[p->sources[0]].range; if (constraint->min_ssa_var < 0) { tmp->underflow = constraint->range.underflow && tmp->underflow; tmp->min = MAX(constraint->range.min, tmp->min); #ifdef SYM_RANGE } else if (narrowing && ssa->var_info[constraint->min_ssa_var].has_range) { tmp->underflow = ssa->var_info[constraint->min_ssa_var].range.underflow && tmp->underflow; if (!add_will_overflow(ssa->var_info[constraint->min_ssa_var].range.min, constraint->range.min)) { tmp->min = MAX(ssa->var_info[constraint->min_ssa_var].range.min + constraint->range.min, tmp->min); } #endif } if (constraint->max_ssa_var < 0) { tmp->max = MIN(constraint->range.max, tmp->max); tmp->overflow = constraint->range.overflow && tmp->overflow; #ifdef SYM_RANGE } else if (narrowing && ssa->var_info[constraint->max_ssa_var].has_range) { if (!add_will_overflow(ssa->var_info[constraint->max_ssa_var].range.max, constraint->range.max)) { tmp->max = MIN(ssa->var_info[constraint->max_ssa_var].range.max + constraint->range.max, tmp->max); } tmp->overflow = ssa->var_info[constraint->max_ssa_var].range.overflow && tmp->overflow; #endif } } else if (narrowing) { if (constraint->min_ssa_var < 0) { tmp->underflow = constraint->range.underflow; tmp->min = constraint->range.min; #ifdef SYM_RANGE } else if (narrowing && ssa->var_info[constraint->min_ssa_var].has_range) { if (add_will_overflow(ssa->var_info[constraint->min_ssa_var].range.min, constraint->range.min)) { tmp->underflow = 1; tmp->min = ZEND_LONG_MIN; } else { tmp->underflow = ssa->var_info[constraint->min_ssa_var].range.underflow; tmp->min = ssa->var_info[constraint->min_ssa_var].range.min + constraint->range.min; } #endif } else { tmp->underflow = 1; tmp->min = ZEND_LONG_MIN; } if (constraint->max_ssa_var < 0) { tmp->max = constraint->range.max; tmp->overflow = constraint->range.overflow; #ifdef SYM_RANGE } else if (narrowing && ssa->var_info[constraint->max_ssa_var].has_range) { if (add_will_overflow(ssa->var_info[constraint->max_ssa_var].range.max, constraint->range.max)) { tmp->overflow = 1; tmp->max = ZEND_LONG_MAX; } else { tmp->max = ssa->var_info[constraint->max_ssa_var].range.max + constraint->range.max; tmp->overflow = ssa->var_info[constraint->max_ssa_var].range.overflow; } #endif } else { tmp->max = ZEND_LONG_MAX; tmp->overflow = 1; } } } else { for (i = 0; i < ssa->cfg.blocks[p->block].predecessors_count; i++) { ZEND_ASSERT(p->sources[i] >= 0); if (ssa->var_info[p->sources[i]].has_range) { /* union */ tmp->underflow |= ssa->var_info[p->sources[i]].range.underflow; tmp->min = MIN(tmp->min, ssa->var_info[p->sources[i]].range.min); tmp->max = MAX(tmp->max, ssa->var_info[p->sources[i]].range.max); tmp->overflow |= ssa->var_info[p->sources[i]].range.overflow; } else if (narrowing) { tmp->underflow = 1; tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; tmp->overflow = 1; } } } return (tmp->min <= tmp->max); } else if (ssa->vars[var].definition < 0) { if (var < op_array->last_var && op_array->function_name) { tmp->min = 0; tmp->max = 0; tmp->underflow = 0; tmp->overflow = 0; return 1; } return 0; } line = ssa->vars[var].definition; opline = op_array->opcodes + line; tmp->underflow = 0; tmp->overflow = 0; switch (opline->opcode) { case ZEND_ADD: case ZEND_SUB: case ZEND_MUL: case ZEND_DIV: case ZEND_MOD: case ZEND_SL: case ZEND_SR: case ZEND_BW_OR: case ZEND_BW_AND: case ZEND_BW_XOR: if (ssa->ops[line].result_def == var) { return zend_inference_calc_binary_op_range( op_array, ssa, opline, &ssa->ops[line], opline->opcode, tmp); } break; case ZEND_BW_NOT: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { if (OP1_RANGE_UNDERFLOW() || OP1_RANGE_OVERFLOW()) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else { op1_min = OP1_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); tmp->min = ~op1_max; tmp->max = ~op1_min; } return 1; } } break; case ZEND_CAST: if (ssa->ops[line].op1_def == var) { if (ssa->ops[line].op1_def >= 0) { if (OP1_HAS_RANGE()) { tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } } else if (ssa->ops[line].result_def == var) { if (opline->extended_value == IS_NULL) { tmp->min = 0; tmp->max = 0; return 1; } else if (opline->extended_value == _IS_BOOL) { if (OP1_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); tmp->min = (op1_min > 0 || op1_max < 0); tmp->max = (op1_min != 0 || op1_max != 0); return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } else if (opline->extended_value == IS_LONG) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); return 1; } else { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; return 1; } } } break; case ZEND_BOOL: case ZEND_JMPZ_EX: case ZEND_JMPNZ_EX: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); tmp->min = (op1_min > 0 || op1_max < 0); tmp->max = (op1_min != 0 || op1_max != 0); return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_BOOL_NOT: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); tmp->min = (op1_min == 0 && op1_max == 0); tmp->max = (op1_min <= 0 && op1_max >= 0); return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_BOOL_XOR: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); op1_min = (op1_min > 0 || op1_max < 0); op1_max = (op1_min != 0 || op1_max != 0); op2_min = (op2_min > 0 || op2_max < 0); op2_max = (op2_min != 0 || op2_max != 0); tmp->min = 0; tmp->max = 1; if (op1_min == op1_max && op2_min == op2_max) { if (op1_min == op2_min) { tmp->max = 0; } else { tmp->min = 1; } } return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_IS_IDENTICAL: case ZEND_IS_EQUAL: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); tmp->min = (op1_min == op1_max && op2_min == op2_max && op1_min == op2_max); tmp->max = (op1_min <= op2_max && op1_max >= op2_min); return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_IS_NOT_IDENTICAL: case ZEND_IS_NOT_EQUAL: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); tmp->min = (op1_min > op2_max || op1_max < op2_min); tmp->max = (op1_min != op1_max || op2_min != op2_max || op1_min != op2_max); return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_IS_SMALLER: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); tmp->min = op1_max < op2_min; tmp->max = op1_min < op2_max; return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_IS_SMALLER_OR_EQUAL: if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE() && OP2_HAS_RANGE()) { op1_min = OP1_MIN_RANGE(); op2_min = OP2_MIN_RANGE(); op1_max = OP1_MAX_RANGE(); op2_max = OP2_MAX_RANGE(); tmp->min = op1_max <= op2_min; tmp->max = op1_min <= op2_max; return 1; } else { tmp->min = 0; tmp->max = 1; return 1; } } break; case ZEND_QM_ASSIGN: case ZEND_JMP_SET: case ZEND_COALESCE: case ZEND_COPY_TMP: if (ssa->ops[line].op1_def == var) { if (ssa->ops[line].op1_def >= 0) { if (OP1_HAS_RANGE()) { tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } } if (ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } break; case ZEND_ASSERT_CHECK: if (ssa->ops[line].result_def == var) { tmp->min = 0; tmp->max = 1; return 1; } break; case ZEND_SEND_VAR: if (ssa->ops[line].op1_def == var) { if (ssa->ops[line].op1_def >= 0) { if (OP1_HAS_RANGE()) { tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } } break; case ZEND_PRE_INC: if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); if (tmp->max < ZEND_LONG_MAX) { tmp->max++; } else { tmp->overflow = 1; } if (tmp->min < ZEND_LONG_MAX && !tmp->underflow) { tmp->min++; } return 1; } } break; case ZEND_PRE_DEC: if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); if (tmp->min > ZEND_LONG_MIN) { tmp->min--; } else { tmp->underflow = 1; } if (tmp->max > ZEND_LONG_MIN && !tmp->overflow) { tmp->max--; } return 1; } } break; case ZEND_POST_INC: if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); if (ssa->ops[line].result_def == var) { return 1; } if (tmp->max < ZEND_LONG_MAX) { tmp->max++; } else { tmp->overflow = 1; } if (tmp->min < ZEND_LONG_MAX && !tmp->underflow) { tmp->min++; } return 1; } } break; case ZEND_POST_DEC: if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); if (ssa->ops[line].result_def == var) { return 1; } if (tmp->min > ZEND_LONG_MIN) { tmp->min--; } else { tmp->underflow = 1; } if (tmp->max > ZEND_LONG_MIN && !tmp->overflow) { tmp->max--; } return 1; } } break; case ZEND_UNSET_DIM: case ZEND_UNSET_OBJ: if (ssa->ops[line].op1_def == var) { /* If op1 is scalar, UNSET_DIM and UNSET_OBJ have no effect, so we can keep * the previous ranges. */ if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } break; case ZEND_ASSIGN: if (ssa->ops[line].op1_def == var || ssa->ops[line].op2_def == var || ssa->ops[line].result_def == var) { if (OP2_HAS_RANGE()) { tmp->min = OP2_MIN_RANGE(); tmp->max = OP2_MAX_RANGE(); tmp->underflow = OP2_RANGE_UNDERFLOW(); tmp->overflow = OP2_RANGE_OVERFLOW(); return 1; } } break; case ZEND_ASSIGN_DIM: case ZEND_ASSIGN_OBJ: if (ssa->ops[line+1].op1_def == var) { if ((opline+1)->opcode == ZEND_OP_DATA) { opline++; tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } break; case ZEND_ASSIGN_OP: if (opline->extended_value != ZEND_CONCAT && opline->extended_value != ZEND_POW) { if (ssa->ops[line].op1_def == var || ssa->ops[line].result_def == var) { return zend_inference_calc_binary_op_range( op_array, ssa, opline, &ssa->ops[line], opline->extended_value, tmp); } } break; case ZEND_ASSIGN_DIM_OP: case ZEND_ASSIGN_OBJ_OP: case ZEND_ASSIGN_STATIC_PROP_OP: if ((opline+1)->opcode == ZEND_OP_DATA) { if (ssa->ops[line+1].op1_def == var) { opline++; if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } } break; case ZEND_OP_DATA: if ((opline-1)->opcode == ZEND_ASSIGN_DIM || (opline-1)->opcode == ZEND_ASSIGN_OBJ || ((opline-1)->opcode == ZEND_ASSIGN_OP && ((opline-1)->extended_value == ZEND_ADD || (opline-1)->extended_value == ZEND_SUB || (opline-1)->extended_value == ZEND_MUL))) { if (ssa->ops[line].op1_def == var) { if (OP1_HAS_RANGE()) { tmp->min = OP1_MIN_RANGE(); tmp->max = OP1_MAX_RANGE(); tmp->underflow = OP1_RANGE_UNDERFLOW(); tmp->overflow = OP1_RANGE_OVERFLOW(); return 1; } } break; } break; case ZEND_RECV: case ZEND_RECV_INIT: if (ssa->ops[line].result_def == var) { zend_func_info *func_info = ZEND_FUNC_INFO(op_array); if (func_info && (int)opline->op1.num-1 < func_info->num_args && func_info->arg_info[opline->op1.num-1].info.has_range) { *tmp = func_info->arg_info[opline->op1.num-1].info.range; return 1; } else if (op_array->arg_info && opline->op1.num <= op_array->num_args) { if (ZEND_TYPE_CODE(op_array->arg_info[opline->op1.num-1].type) == IS_LONG) { tmp->underflow = 0; tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; tmp->overflow = 0; return 1; } else if (ZEND_TYPE_CODE(op_array->arg_info[opline->op1.num-1].type) == _IS_BOOL) { tmp->underflow = 0; tmp->min = 0; tmp->max = 1; tmp->overflow = 0; return 1; } } } break; case ZEND_STRLEN: if (ssa->ops[line].result_def == var) { #if SIZEOF_ZEND_LONG == 4 /* The length of a string is a non-negative integer. However, on 32-bit * platforms overflows into negative lengths may occur, so it's better * to not assume any particular range. */ tmp->min = ZEND_LONG_MIN; #else tmp->min = 0; #endif tmp->max = ZEND_LONG_MAX; return 1; } break; case ZEND_FUNC_NUM_ARGS: tmp->min = 0; tmp->max = ZEND_LONG_MAX; return 1; case ZEND_COUNT: /* count() on Countable objects may return negative numbers */ tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; return 1; case ZEND_DO_FCALL: case ZEND_DO_ICALL: case ZEND_DO_UCALL: case ZEND_DO_FCALL_BY_NAME: if (ssa->ops[line].result_def == var) { zend_func_info *func_info = ZEND_FUNC_INFO(op_array); zend_call_info *call_info; if (!func_info || !func_info->call_map) { break; } call_info = func_info->call_map[opline - op_array->opcodes]; if (!call_info) { break; } if (call_info->callee_func->type == ZEND_USER_FUNCTION) { func_info = ZEND_FUNC_INFO(&call_info->callee_func->op_array); if (func_info && func_info->return_info.has_range) { *tmp = func_info->return_info.range; return 1; } } //TODO: we can't use type inference for internal functions at this point ??? #if 0 uint32_t type; type = zend_get_func_info(call_info, ssa); if (!(type & (MAY_BE_ANY - (MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_LONG)))) { tmp->underflow = 0; tmp->min = 0; tmp->max = 0; tmp->overflow = 0; if (type & MAY_BE_LONG) { tmp->min = ZEND_LONG_MIN; tmp->max = ZEND_LONG_MAX; } else if (type & MAY_BE_TRUE) { if (!(type & (MAY_BE_NULL|MAY_BE_FALSE))) { tmp->min = 1; } tmp->max = 1; } return 1; } #endif } break; // FIXME: support for more opcodes default: break; } return 0; } 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) { if (underflow) { min = ZEND_LONG_MIN; } if (overflow) { max = ZEND_LONG_MAX; } ssa->var_info[var].has_range = 1; ssa->var_info[var].range.underflow = underflow; ssa->var_info[var].range.min = min; ssa->var_info[var].range.max = max; ssa->var_info[var].range.overflow = overflow; LOG_SSA_RANGE(" change range (init SCC %2d) %2d [%s%ld..%ld%s]\n", ssa->vars[var].scc, var, (underflow?"-- ":""), min, max, (overflow?" ++":"")); } int zend_inference_widening_meet(zend_ssa_var_info *var_info, zend_ssa_range *r) { if (!var_info->has_range) { var_info->has_range = 1; } else { if (r->underflow || var_info->range.underflow || r->min < var_info->range.min) { r->underflow = 1; r->min = ZEND_LONG_MIN; } if (r->overflow || var_info->range.overflow || r->max > var_info->range.max) { r->overflow = 1; r->max = ZEND_LONG_MAX; } if (var_info->range.min == r->min && var_info->range.max == r->max && var_info->range.underflow == r->underflow && var_info->range.overflow == r->overflow) { return 0; } } var_info->range = *r; return 1; } static int zend_ssa_range_widening(const zend_op_array *op_array, zend_ssa *ssa, int var, int scc) { zend_ssa_range tmp; if (zend_inference_calc_range(op_array, ssa, var, 1, 0, &tmp)) { if (zend_inference_widening_meet(&ssa->var_info[var], &tmp)) { LOG_SSA_RANGE(" change range (widening SCC %2d) %2d [%s%ld..%ld%s]\n", scc, var, (tmp.underflow?"-- ":""), tmp.min, tmp.max, (tmp.overflow?" ++":"")); return 1; } } return 0; } int zend_inference_narrowing_meet(zend_ssa_var_info *var_info, zend_ssa_range *r) { if (!var_info->has_range) { var_info->has_range = 1; } else { if (!r->underflow && !var_info->range.underflow && var_info->range.min < r->min) { r->min = var_info->range.min; } if (!r->overflow && !var_info->range.overflow && var_info->range.max > r->max) { r->max = var_info->range.max; } if (r->underflow) { r->min = ZEND_LONG_MIN; } if (r->overflow) { r->max = ZEND_LONG_MAX; } if (var_info->range.min == r->min && var_info->range.max == r->max && var_info->range.underflow == r->underflow && var_info->range.overflow == r->overflow) { return 0; } } var_info->range = *r; return 1; } static int zend_ssa_range_narrowing(const zend_op_array *op_array, zend_ssa *ssa, int var, int scc) { zend_ssa_range tmp; if (zend_inference_calc_range(op_array, ssa, var, 0, 1, &tmp)) { if (zend_inference_narrowing_meet(&ssa->var_info[var], &tmp)) { LOG_SSA_RANGE(" change range (narrowing SCC %2d) %2d [%s%ld..%ld%s]\n", scc, var, (tmp.underflow?"-- ":""), tmp.min, tmp.max, (tmp.overflow?" ++":"")); return 1; } } return 0; } #ifdef NEG_RANGE # define CHECK_INNER_CYCLE(var2) \ do { \ if (ssa->vars[var2].scc == ssa->vars[var].scc && \ !ssa->vars[var2].scc_entry && \ !zend_bitset_in(visited, var2) && \ zend_check_inner_cycles(op_array, ssa, worklist, visited, var2)) { \ return 1; \ } \ } while (0) static int zend_check_inner_cycles(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, zend_bitset visited, int var) { if (zend_bitset_in(worklist, var)) { return 1; } zend_bitset_incl(worklist, var); FOR_EACH_VAR_USAGE(var, CHECK_INNER_CYCLE); zend_bitset_incl(visited, var); return 0; } #endif static void zend_infer_ranges_warmup(const zend_op_array *op_array, zend_ssa *ssa, int *scc_var, int *next_scc_var, int scc) { int worklist_len = zend_bitset_len(ssa->vars_count); int j, n; zend_ssa_range tmp; ALLOCA_FLAG(use_heap) zend_bitset worklist = do_alloca(sizeof(zend_ulong) * worklist_len * 2, use_heap); zend_bitset visited = worklist + worklist_len; #ifdef NEG_RANGE int has_inner_cycles = 0; memset(worklist, 0, sizeof(zend_ulong) * worklist_len); memset(visited, 0, sizeof(zend_ulong) * worklist_len); j = scc_var[scc]; while (j >= 0) { if (!zend_bitset_in(visited, j) && zend_check_inner_cycles(op_array, ssa, worklist, visited, j)) { has_inner_cycles = 1; break; } j = next_scc_var[j]; } #endif memset(worklist, 0, sizeof(zend_ulong) * worklist_len); for (n = 0; n < RANGE_WARMUP_PASSES; n++) { j= scc_var[scc]; while (j >= 0) { if (ssa->vars[j].scc_entry) { zend_bitset_incl(worklist, j); } j = next_scc_var[j]; } memset(visited, 0, sizeof(zend_ulong) * worklist_len); WHILE_WORKLIST(worklist, worklist_len, j) { if (zend_inference_calc_range(op_array, ssa, j, 0, 0, &tmp)) { #ifdef NEG_RANGE if (!has_inner_cycles && ssa->var_info[j].has_range && ssa->vars[j].definition_phi && ssa->vars[j].definition_phi->pi >= 0 && ssa->vars[j].definition_phi->has_range_constraint && ssa->vars[j].definition_phi->constraint.range.negative && ssa->vars[j].definition_phi->constraint.range.min_ssa_var < 0 && ssa->vars[j].definition_phi->constraint.range.max_ssa_var < 0) { zend_ssa_range_constraint *constraint = &ssa->vars[j].definition_phi->constraint.range; if (tmp.min == ssa->var_info[j].range.min && tmp.max == ssa->var_info[j].range.max) { if (constraint->negative == NEG_INIT) { LOG_NEG_RANGE("#%d INVARIANT\n", j); constraint->negative = NEG_INVARIANT; } } else if (tmp.min == ssa->var_info[j].range.min && tmp.max == ssa->var_info[j].range.max + 1 && tmp.max < constraint->range.min) { if (constraint->negative == NEG_INIT || constraint->negative == NEG_INVARIANT) { LOG_NEG_RANGE("#%d LT\n", j); constraint->negative = NEG_USE_LT; //???NEG } else if (constraint->negative == NEG_USE_GT) { LOG_NEG_RANGE("#%d UNKNOWN\n", j); constraint->negative = NEG_UNKNOWN; } } else if (tmp.max == ssa->var_info[j].range.max && tmp.min == ssa->var_info[j].range.min - 1 && tmp.min > constraint->range.max) { if (constraint->negative == NEG_INIT || constraint->negative == NEG_INVARIANT) { LOG_NEG_RANGE("#%d GT\n", j); constraint->negative = NEG_USE_GT; //???NEG } else if (constraint->negative == NEG_USE_LT) { LOG_NEG_RANGE("#%d UNKNOWN\n", j); constraint->negative = NEG_UNKNOWN; } } else { LOG_NEG_RANGE("#%d UNKNOWN\n", j); constraint->negative = NEG_UNKNOWN; } } #endif if (zend_inference_narrowing_meet(&ssa->var_info[j], &tmp)) { 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?" ++":"")); zend_bitset_incl(visited, j); FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR_1); } } } WHILE_WORKLIST_END(); } free_alloca(worklist, use_heap); } static int zend_infer_ranges(const zend_op_array *op_array, zend_ssa *ssa) /* {{{ */ { int worklist_len = zend_bitset_len(ssa->vars_count); zend_bitset worklist; int *next_scc_var; int *scc_var; zend_ssa_phi *p; zend_ssa_range tmp; int scc, j; ALLOCA_FLAG(use_heap); worklist = do_alloca( ZEND_MM_ALIGNED_SIZE(sizeof(zend_ulong) * worklist_len) + ZEND_MM_ALIGNED_SIZE(sizeof(int) * ssa->vars_count) + sizeof(int) * ssa->sccs, use_heap); next_scc_var = (int*)((char*)worklist + ZEND_MM_ALIGNED_SIZE(sizeof(zend_ulong) * worklist_len)); scc_var = (int*)((char*)next_scc_var + ZEND_MM_ALIGNED_SIZE(sizeof(int) * ssa->vars_count)); LOG_SSA_RANGE("Range Inference\n"); /* Create linked lists of SSA variables for each SCC */ memset(scc_var, -1, sizeof(int) * ssa->sccs); for (j = 0; j < ssa->vars_count; j++) { if (ssa->vars[j].scc >= 0) { next_scc_var[j] = scc_var[ssa->vars[j].scc]; scc_var[ssa->vars[j].scc] = j; } } for (scc = 0; scc < ssa->sccs; scc++) { j = scc_var[scc]; if (next_scc_var[j] < 0) { /* SCC with a single element */ if (zend_inference_calc_range(op_array, ssa, j, 0, 1, &tmp)) { zend_inference_init_range(op_array, ssa, j, tmp.underflow, tmp.min, tmp.max, tmp.overflow); } else { zend_inference_init_range(op_array, ssa, j, 1, ZEND_LONG_MIN, ZEND_LONG_MAX, 1); } } else { /* Find SCC entry points */ memset(worklist, 0, sizeof(zend_ulong) * worklist_len); do { if (ssa->vars[j].scc_entry) { zend_bitset_incl(worklist, j); } j = next_scc_var[j]; } while (j >= 0); #if RANGE_WARMUP_PASSES > 0 zend_infer_ranges_warmup(op_array, ssa, scc_var, next_scc_var, scc); j = scc_var[scc]; do { zend_bitset_incl(worklist, j); j = next_scc_var[j]; } while (j >= 0); #endif /* widening */ WHILE_WORKLIST(worklist, worklist_len, j) { if (zend_ssa_range_widening(op_array, ssa, j, scc)) { FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR); } } WHILE_WORKLIST_END(); /* initialize missing ranges */ for (j = scc_var[scc]; j >= 0; j = next_scc_var[j]) { if (!ssa->var_info[j].has_range) { zend_inference_init_range(op_array, ssa, j, 1, ZEND_LONG_MIN, ZEND_LONG_MAX, 1); FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR); } } /* widening (second round) */ WHILE_WORKLIST(worklist, worklist_len, j) { if (zend_ssa_range_widening(op_array, ssa, j, scc)) { FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR); } } WHILE_WORKLIST_END(); /* Add all SCC entry variables into worklist for narrowing */ for (j = scc_var[scc]; j >= 0; j = next_scc_var[j]) { if (ssa->vars[j].definition_phi && ssa->vars[j].definition_phi->pi < 0) { /* narrowing Phi functions first */ zend_ssa_range_narrowing(op_array, ssa, j, scc); } zend_bitset_incl(worklist, j); } /* narrowing */ WHILE_WORKLIST(worklist, worklist_len, j) { if (zend_ssa_range_narrowing(op_array, ssa, j, scc)) { FOR_EACH_VAR_USAGE(j, ADD_SCC_VAR); #ifdef SYM_RANGE /* Process symbolic control-flow constraints */ p = ssa->vars[j].sym_use_chain; while (p) { ADD_SCC_VAR(p->ssa_var); p = p->sym_use_chain; } #endif } } WHILE_WORKLIST_END(); } } free_alloca(worklist, use_heap); return SUCCESS; } /* }}} */ static uint32_t get_ssa_alias_types(zend_ssa_alias_kind alias) { if (alias == PHP_ERRORMSG_ALIAS) { return MAY_BE_STRING | MAY_BE_RC1 | MAY_BE_RCN; } else if (alias == HTTP_RESPONSE_HEADER_ALIAS) { return MAY_BE_ARRAY | MAY_BE_ARRAY_KEY_LONG | MAY_BE_ARRAY_OF_STRING | MAY_BE_RC1 | MAY_BE_RCN; } else { 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; } } #define UPDATE_SSA_TYPE(_type, _var) \ do { \ uint32_t __type = (_type); \ int __var = (_var); \ if (__type & MAY_BE_REF) { \ __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; \ } \ if (__var >= 0) { \ zend_ssa_var *__ssa_var = &ssa_vars[__var]; \ if (__ssa_var->var < op_array->last_var) { \ if (__type & (MAY_BE_REF|MAY_BE_RCN)) { \ __type |= MAY_BE_RC1 | MAY_BE_RCN; \ } \ if ((__type & MAY_BE_RC1) && (__type & MAY_BE_STRING)) {\ /* TODO: support for array keys and ($str . "")*/ \ __type |= MAY_BE_RCN; \ } \ if (__ssa_var->alias) { \ __type |= get_ssa_alias_types(__ssa_var->alias); \ } \ } \ if (ssa_var_info[__var].type != __type) { \ if (ssa_var_info[__var].type & ~__type) { \ handle_type_narrowing(op_array, ssa, worklist, \ __var, ssa_var_info[__var].type, __type); \ return FAILURE; \ } \ ssa_var_info[__var].type = __type; \ add_usages(op_array, ssa, worklist, __var); \ } \ /*zend_bitset_excl(worklist, var);*/ \ } \ } while (0) #define UPDATE_SSA_OBJ_TYPE(_ce, _is_instanceof, var) \ do { \ if (var >= 0) { \ if (ssa_var_info[var].ce != (_ce) || \ ssa_var_info[var].is_instanceof != (_is_instanceof)) { \ ssa_var_info[var].ce = (_ce); \ ssa_var_info[var].is_instanceof = (_is_instanceof); \ add_usages(op_array, ssa, worklist, var); \ } \ /*zend_bitset_excl(worklist, var);*/ \ } \ } while (0) #define COPY_SSA_OBJ_TYPE(from_var, to_var) do { \ if ((from_var) >= 0 && (ssa_var_info[(from_var)].type & MAY_BE_OBJECT) \ && ssa_var_info[(from_var)].ce) { \ UPDATE_SSA_OBJ_TYPE(ssa_var_info[(from_var)].ce, \ ssa_var_info[(from_var)].is_instanceof, (to_var)); \ } else { \ UPDATE_SSA_OBJ_TYPE(NULL, 0, (to_var)); \ } \ } while (0) static void add_usages(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, int var) { if (ssa->vars[var].phi_use_chain) { zend_ssa_phi *p = ssa->vars[var].phi_use_chain; do { zend_bitset_incl(worklist, p->ssa_var); p = zend_ssa_next_use_phi(ssa, var, p); } while (p); } if (ssa->vars[var].use_chain >= 0) { int use = ssa->vars[var].use_chain; zend_ssa_op *op; do { op = ssa->ops + use; if (op->result_def >= 0) { zend_bitset_incl(worklist, op->result_def); } if (op->op1_def >= 0) { zend_bitset_incl(worklist, op->op1_def); } if (op->op2_def >= 0) { zend_bitset_incl(worklist, op->op2_def); } if (op_array->opcodes[use].opcode == ZEND_OP_DATA) { op--; if (op->result_def >= 0) { zend_bitset_incl(worklist, op->result_def); } if (op->op1_def >= 0) { zend_bitset_incl(worklist, op->op1_def); } if (op->op2_def >= 0) { zend_bitset_incl(worklist, op->op2_def); } } else if (use + 1 < op_array->last && op_array->opcodes[use + 1].opcode == ZEND_OP_DATA) { op++; if (op->result_def >= 0) { zend_bitset_incl(worklist, op->result_def); } if (op->op1_def >= 0) { zend_bitset_incl(worklist, op->op1_def); } if (op->op2_def >= 0) { zend_bitset_incl(worklist, op->op2_def); } } use = zend_ssa_next_use(ssa->ops, var, use); } while (use >= 0); } } static void reset_dependent_vars(const zend_op_array *op_array, zend_ssa *ssa, zend_bitset worklist, int var) { zend_ssa_op *ssa_ops = ssa->ops; zend_ssa_var *ssa_vars = ssa->vars; zend_ssa_var_info *ssa_var_info = ssa->var_info; zend_ssa_phi *p; int use; p = ssa_vars[var].phi_use_chain; while (p) { if (ssa_var_info[p->ssa_var].type) { ssa_var_info[p->ssa_var].type = 0; zend_bitset_incl(worklist, p->ssa_var); reset_dependent_vars(op_array, ssa, worklist, p->ssa_var); } p = zend_ssa_next_use_phi(ssa, var, p); } use = ssa_vars[var].use_chain; while (use >= 0) { if (ssa_ops[use].op1_def >= 0 && ssa_var_info[ssa_ops[use].op1_def].type) { ssa_var_info[ssa_ops[use].op1_def].type = 0; zend_bitset_incl(worklist, ssa_ops[use].op1_def); reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use].op1_def); } if (ssa_ops[use].op2_def >= 0 && ssa_var_info[ssa_ops[use].op2_def].type) { ssa_var_info[ssa_ops[use].op2_def].type = 0; zend_bitset_incl(worklist, ssa_ops[use].op2_def); reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use].op2_def); } if (ssa_ops[use].result_def >= 0 && ssa_var_info[ssa_ops[use].result_def].type) { ssa_var_info[ssa_ops[use].result_def].type = 0; zend_bitset_incl(worklist, ssa_ops[use].result_def); reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use].result_def); } if (op_array->opcodes[use+1].opcode == ZEND_OP_DATA) { if (ssa_ops[use+1].op1_def >= 0 && ssa_var_info[ssa_ops[use+1].op1_def].type) { ssa_var_info[ssa_ops[use+1].op1_def].type = 0; zend_bitset_incl(worklist, ssa_ops[use+1].op1_def); reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use+1].op1_def); } if (ssa_ops[use+1].op2_def >= 0 && ssa_var_info[ssa_ops[use+1].op2_def].type) { ssa_var_info[ssa_ops[use+1].op2_def].type = 0; zend_bitset_incl(worklist, ssa_ops[use+1].op2_def); reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use+1].op2_def); } if (ssa_ops[use+1].result_def >= 0 && ssa_var_info[ssa_ops[use+1].result_def].type) { ssa_var_info[ssa_ops[use+1].result_def].type = 0; zend_bitset_incl(worklist, ssa_ops[use+1].result_def); reset_dependent_vars(op_array, ssa, worklist, ssa_ops[use+1].result_def); } } use = zend_ssa_next_use(ssa_ops, var, use); } #ifdef SYM_RANGE /* Process symbolic control-flow constraints */ p = ssa->vars[var].sym_use_chain; while (p) { ssa_var_info[p->ssa_var].type = 0; zend_bitset_incl(worklist, p->ssa_var); reset_dependent_vars(op_array, ssa, worklist, p->ssa_var); p = p->sym_use_chain; } #endif } 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) { if (1) { /* Right now, this is always a bug */ int def_op_num = ssa->vars[var].definition; const zend_op *def_opline = def_op_num >= 0 ? &op_array->opcodes[def_op_num] : NULL; const char *def_op_name = def_opline ? zend_get_opcode_name(def_opline->opcode) : "PHI"; zend_error(E_WARNING, "Narrowing occurred during type inference of %s. Please file a bug report on bugs.php.net", def_op_name); } else { /* if new_type set resets some bits from old_type set * We have completely recalculate types of some dependent SSA variables * (this may occurs mainly because of incremental inter-precudure * type inference) */ reset_dependent_vars(op_array, ssa, worklist, var); } } uint32_t zend_array_element_type(uint32_t t1, int write, int insert) { uint32_t tmp = 0; if (t1 & MAY_BE_OBJECT) { if (!write) { /* can't be REF because of ZVAL_COPY_DEREF() usage */ tmp |= MAY_BE_ANY | MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; } else { 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; } } if (t1 & MAY_BE_ARRAY) { if (insert) { tmp |= MAY_BE_NULL; } else { tmp |= MAY_BE_NULL | ((t1 & MAY_BE_ARRAY_OF_ANY) >> MAY_BE_ARRAY_SHIFT); if (tmp & MAY_BE_ARRAY) { tmp |= MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; } if (t1 & MAY_BE_ARRAY_OF_REF) { if (!write) { /* can't be REF because of ZVAL_COPY_DEREF() usage */ tmp |= MAY_BE_RC1 | MAY_BE_RCN; } else { tmp |= MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN; } } else if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } } } if (t1 & MAY_BE_STRING) { tmp |= MAY_BE_STRING | MAY_BE_RC1; if (write) { tmp |= MAY_BE_NULL; } } if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { tmp |= MAY_BE_NULL; if (t1 & MAY_BE_ERROR) { if (write) { tmp |= MAY_BE_ERROR; } } } if (t1 & (MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_RESOURCE)) { tmp |= MAY_BE_NULL; if (write) { tmp |= MAY_BE_ERROR; } } return tmp; } static uint32_t assign_dim_result_type( uint32_t arr_type, uint32_t dim_type, uint32_t value_type, zend_uchar dim_op_type) { uint32_t tmp = arr_type & ~(MAY_BE_RC1|MAY_BE_RCN); if (arr_type & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); tmp |= MAY_BE_ARRAY|MAY_BE_RC1; } if (tmp & (MAY_BE_ARRAY|MAY_BE_STRING)) { tmp |= MAY_BE_RC1; } if (tmp & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } if (tmp & MAY_BE_ARRAY) { /* Only add key type if we have a value type. We want to maintain the invariant that a * key type exists iff a value type exists even in dead code that may use empty types. */ if (value_type & (MAY_BE_ANY|MAY_BE_UNDEF)) { if (value_type & MAY_BE_UNDEF) { tmp |= MAY_BE_ARRAY_OF_NULL; } if (dim_op_type == IS_UNUSED) { tmp |= MAY_BE_ARRAY_KEY_LONG; } else { if (dim_type & (MAY_BE_LONG|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_RESOURCE|MAY_BE_DOUBLE)) { tmp |= MAY_BE_ARRAY_KEY_LONG; } if (dim_type & MAY_BE_STRING) { tmp |= MAY_BE_ARRAY_KEY_STRING; if (dim_op_type != IS_CONST) { // FIXME: numeric string tmp |= MAY_BE_ARRAY_KEY_LONG; } } if (dim_type & (MAY_BE_UNDEF|MAY_BE_NULL)) { tmp |= MAY_BE_ARRAY_KEY_STRING; } } } /* Only add value type if we have a key type. It might be that the key type is illegal * for arrays. */ if (tmp & MAY_BE_ARRAY_KEY_ANY) { tmp |= (value_type & MAY_BE_ANY) << MAY_BE_ARRAY_SHIFT; } } return tmp; } /* For binary ops that have compound assignment operators */ static uint32_t binary_op_result_type( zend_ssa *ssa, zend_uchar opcode, uint32_t t1, uint32_t t2, int result_var, zend_long optimization_level) { uint32_t tmp = 0; uint32_t t1_type = (t1 & MAY_BE_ANY) | (t1 & MAY_BE_UNDEF ? MAY_BE_NULL : 0); uint32_t t2_type = (t2 & MAY_BE_ANY) | (t2 & MAY_BE_UNDEF ? MAY_BE_NULL : 0); if (!(ZEND_OPTIMIZER_IGNORE_OVERLOADING & optimization_level)) { /* Handle potentially overloaded operators. * This could be made more precise by checking the class type, if known. */ if ((t1_type & MAY_BE_OBJECT) || (t2_type & MAY_BE_OBJECT)) { /* This is somewhat GMP specific. */ tmp |= MAY_BE_OBJECT | MAY_BE_FALSE | MAY_BE_RC1; } } switch (opcode) { case ZEND_ADD: if (t1_type == MAY_BE_LONG && t2_type == MAY_BE_LONG) { if (result_var < 0 || !ssa->var_info[result_var].has_range || ssa->var_info[result_var].range.underflow || ssa->var_info[result_var].range.overflow) { /* may overflow */ tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } else { tmp |= MAY_BE_LONG; } } else if (t1_type == MAY_BE_DOUBLE || t2_type == MAY_BE_DOUBLE) { tmp |= MAY_BE_DOUBLE; } else if (t1_type == MAY_BE_ARRAY && t2_type == MAY_BE_ARRAY) { tmp |= MAY_BE_ARRAY | MAY_BE_RC1; tmp |= t1 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF); tmp |= t2 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF); } else { tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; if ((t1_type & MAY_BE_ARRAY) && (t2_type & MAY_BE_ARRAY)) { tmp |= MAY_BE_ARRAY | MAY_BE_RC1; tmp |= t1 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF); tmp |= t2 & (MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF); } } break; case ZEND_SUB: case ZEND_MUL: if (t1_type == MAY_BE_LONG && t2_type == MAY_BE_LONG) { if (result_var < 0 || !ssa->var_info[result_var].has_range || ssa->var_info[result_var].range.underflow || ssa->var_info[result_var].range.overflow) { /* may overflow */ tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } else { tmp |= MAY_BE_LONG; } } else if (t1_type == MAY_BE_DOUBLE || t2_type == MAY_BE_DOUBLE) { tmp |= MAY_BE_DOUBLE; } else { tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } break; case ZEND_DIV: case ZEND_POW: if (t1_type == MAY_BE_DOUBLE || t2_type == MAY_BE_DOUBLE) { tmp |= MAY_BE_DOUBLE; } else { tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } /* Division by zero results in Inf/-Inf/Nan (double), so it doesn't need any special * handling */ break; case ZEND_MOD: tmp |= MAY_BE_LONG; /* Division by zero results in an exception, so it doesn't need any special handling */ break; case ZEND_BW_OR: case ZEND_BW_AND: case ZEND_BW_XOR: if ((t1_type & MAY_BE_STRING) && (t2_type & MAY_BE_STRING)) { tmp |= MAY_BE_STRING | MAY_BE_RC1; } if ((t1_type & ~MAY_BE_STRING) || (t2_type & ~MAY_BE_STRING)) { tmp |= MAY_BE_LONG; } break; case ZEND_SL: case ZEND_SR: tmp |= MAY_BE_LONG; break; case ZEND_CONCAT: case ZEND_FAST_CONCAT: /* TODO: +MAY_BE_OBJECT ??? */ tmp = MAY_BE_STRING | MAY_BE_RC1 | MAY_BE_RCN; break; EMPTY_SWITCH_DEFAULT_CASE() } return tmp; } static inline zend_class_entry *get_class_entry(const zend_script *script, zend_string *lcname) { zend_class_entry *ce = script ? zend_hash_find_ptr(&script->class_table, lcname) : NULL; if (ce) { return ce; } ce = zend_hash_find_ptr(CG(class_table), lcname); if (ce && ce->type == ZEND_INTERNAL_CLASS) { return ce; } return NULL; } static uint32_t zend_convert_type_code_to_may_be(zend_uchar type_code) { switch (type_code) { case IS_VOID: return MAY_BE_NULL; case IS_CALLABLE: return MAY_BE_STRING|MAY_BE_OBJECT|MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF; case IS_ITERABLE: return MAY_BE_OBJECT|MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF; case IS_ARRAY: return MAY_BE_ARRAY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF; case _IS_BOOL: return MAY_BE_TRUE|MAY_BE_FALSE; default: ZEND_ASSERT(type_code < IS_REFERENCE); return 1 << type_code; } } static uint32_t zend_fetch_arg_info(const zend_script *script, zend_arg_info *arg_info, zend_class_entry **pce) { uint32_t tmp = 0; *pce = NULL; if (ZEND_TYPE_IS_CLASS(arg_info->type)) { // class type hinting... zend_string *lcname = zend_string_tolower(ZEND_TYPE_NAME(arg_info->type)); tmp |= MAY_BE_OBJECT; *pce = get_class_entry(script, lcname); zend_string_release_ex(lcname, 0); } else if (ZEND_TYPE_IS_CODE(arg_info->type)) { tmp |= zend_convert_type_code_to_may_be(ZEND_TYPE_CODE(arg_info->type)); } else { tmp |= MAY_BE_ANY|MAY_BE_ARRAY_KEY_ANY|MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF; } if (ZEND_TYPE_ALLOW_NULL(arg_info->type)) { tmp |= MAY_BE_NULL; } return tmp; } static zend_property_info *lookup_prop_info(zend_class_entry *ce, zend_string *name, zend_class_entry *scope) { zend_property_info *prop_info; /* If the class is linked, reuse the precise runtime logic. */ if ((ce->ce_flags & ZEND_ACC_LINKED) && (!scope || (scope->ce_flags & ZEND_ACC_LINKED))) { zend_class_entry *prev_scope = EG(fake_scope); EG(fake_scope) = scope; prop_info = zend_get_property_info(ce, name, 1); EG(fake_scope) = prev_scope; if (prop_info && prop_info != ZEND_WRONG_PROPERTY_INFO) { return prop_info; } return NULL; } /* Otherwise, handle only some safe cases */ prop_info = zend_hash_find_ptr(&ce->properties_info, name); if (prop_info && ((prop_info->ce == scope) || (!scope && (prop_info->flags & ZEND_ACC_PUBLIC))) ) { return prop_info; } return NULL; } static zend_property_info *zend_fetch_prop_info(const zend_op_array *op_array, zend_ssa *ssa, zend_op *opline, int i) { zend_property_info *prop_info = NULL; if (opline->op2_type == IS_CONST) { zend_class_entry *ce = NULL; if (opline->op1_type == IS_UNUSED) { ce = op_array->scope; } else if (ssa->ops[i].op1_use >= 0) { ce = ssa->var_info[ssa->ops[i].op1_use].ce; } if (ce) { prop_info = lookup_prop_info(ce, Z_STR_P(CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants)), op_array->scope); if (prop_info && (prop_info->flags & ZEND_ACC_STATIC)) { prop_info = NULL; } } } return prop_info; } static zend_property_info *zend_fetch_static_prop_info(const zend_script *script, const zend_op_array *op_array, zend_ssa *ssa, zend_op *opline) { zend_property_info *prop_info = NULL; if (opline->op1_type == IS_CONST) { zend_class_entry *ce = NULL; if (opline->op2_type == IS_UNUSED) { int fetch_type = opline->op2.num & ZEND_FETCH_CLASS_MASK; switch (fetch_type) { case ZEND_FETCH_CLASS_SELF: case ZEND_FETCH_CLASS_STATIC: /* We enforce that static property types cannot change during inheritance, so * handling static the same way as self here is legal. */ ce = op_array->scope; break; case ZEND_FETCH_CLASS_PARENT: if (op_array->scope && (op_array->scope->ce_flags & ZEND_ACC_LINKED)) { ce = op_array->scope->parent; } break; } } else if (opline->op2_type == IS_CONST) { zval *zv = CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants); ce = get_class_entry(script, Z_STR_P(zv + 1)); } if (ce) { zval *zv = CRT_CONSTANT_EX(op_array, opline, opline->op1, ssa->rt_constants); prop_info = lookup_prop_info(ce, Z_STR_P(zv), op_array->scope); if (prop_info && !(prop_info->flags & ZEND_ACC_STATIC)) { prop_info = NULL; } } } return prop_info; } static uint32_t zend_fetch_prop_type(const zend_script *script, zend_property_info *prop_info, zend_class_entry **pce) { if (prop_info && ZEND_TYPE_IS_SET(prop_info->type)) { uint32_t type = ZEND_TYPE_IS_CLASS(prop_info->type) ? MAY_BE_OBJECT : zend_convert_type_code_to_may_be(ZEND_TYPE_CODE(prop_info->type)); if (ZEND_TYPE_ALLOW_NULL(prop_info->type)) { type |= MAY_BE_NULL; } if (type & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { type |= MAY_BE_RC1 | MAY_BE_RCN; } if (pce) { if (ZEND_TYPE_IS_CE(prop_info->type)) { *pce = ZEND_TYPE_CE(prop_info->type); } else if (ZEND_TYPE_IS_NAME(prop_info->type)) { zend_string *lcname = zend_string_tolower(ZEND_TYPE_NAME(prop_info->type)); *pce = get_class_entry(script, lcname); zend_string_release(lcname); } else { *pce = NULL; } } return type; } if (pce) { *pce = NULL; } return MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF | MAY_BE_RC1 | MAY_BE_RCN; } static int zend_update_type_info(const zend_op_array *op_array, zend_ssa *ssa, const zend_script *script, zend_bitset worklist, int i, zend_long optimization_level) { uint32_t t1, t2; uint32_t tmp, orig; zend_op *opline = op_array->opcodes + i; zend_ssa_op *ssa_ops = ssa->ops; zend_ssa_var *ssa_vars = ssa->vars; zend_ssa_var_info *ssa_var_info = ssa->var_info; zend_class_entry *ce; int j; if (opline->opcode == ZEND_OP_DATA) { opline--; i--; } t1 = OP1_INFO(); t2 = OP2_INFO(); /* If one of the operands cannot have any type, this means the operand derives from * unreachable code. Propagate the empty result early, so that that the following * code may assume that operands have at least one type. */ if (!(t1 & (MAY_BE_ANY|MAY_BE_UNDEF|MAY_BE_CLASS|MAY_BE_ERROR)) || !(t2 & (MAY_BE_ANY|MAY_BE_UNDEF|MAY_BE_CLASS|MAY_BE_ERROR))) { tmp = 0; if (ssa_ops[i].result_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } if (ssa_ops[i].op1_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } if (ssa_ops[i].op2_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def); } return 1; } switch (opline->opcode) { case ZEND_ADD: case ZEND_SUB: case ZEND_MUL: case ZEND_DIV: case ZEND_POW: case ZEND_MOD: case ZEND_BW_OR: case ZEND_BW_AND: case ZEND_BW_XOR: case ZEND_SL: case ZEND_SR: case ZEND_CONCAT: tmp = binary_op_result_type(ssa, opline->opcode, t1, t2, ssa_ops[i].result_def, optimization_level); UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_BW_NOT: tmp = 0; if (t1 & MAY_BE_STRING) { tmp |= MAY_BE_STRING | MAY_BE_RC1; } if (t1 & (MAY_BE_ANY-MAY_BE_STRING)) { tmp |= MAY_BE_LONG; } if (!(ZEND_OPTIMIZER_IGNORE_OVERLOADING & optimization_level)) { if (t1 & MAY_BE_OBJECT) { /* Potentially overloaded operator. */ tmp |= MAY_BE_OBJECT | MAY_BE_RC1; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_BEGIN_SILENCE: UPDATE_SSA_TYPE(MAY_BE_LONG, ssa_ops[i].result_def); break; case ZEND_BOOL_NOT: case ZEND_BOOL_XOR: case ZEND_IS_IDENTICAL: case ZEND_IS_NOT_IDENTICAL: case ZEND_IS_EQUAL: case ZEND_IS_NOT_EQUAL: case ZEND_IS_SMALLER: case ZEND_IS_SMALLER_OR_EQUAL: case ZEND_INSTANCEOF: case ZEND_JMPZ_EX: case ZEND_JMPNZ_EX: case ZEND_CASE: case ZEND_BOOL: case ZEND_ISSET_ISEMPTY_CV: case ZEND_ISSET_ISEMPTY_VAR: case ZEND_ISSET_ISEMPTY_DIM_OBJ: case ZEND_ISSET_ISEMPTY_PROP_OBJ: case ZEND_ISSET_ISEMPTY_STATIC_PROP: case ZEND_ASSERT_CHECK: case ZEND_IN_ARRAY: UPDATE_SSA_TYPE(MAY_BE_FALSE|MAY_BE_TRUE, ssa_ops[i].result_def); break; case ZEND_ARRAY_KEY_EXISTS: tmp = MAY_BE_FALSE|MAY_BE_TRUE; if (t2 & ((MAY_BE_ANY|MAY_BE_UNDEF) - (MAY_BE_ARRAY|MAY_BE_OBJECT))) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_CAST: if (ssa_ops[i].op1_def >= 0) { tmp = t1; if ((t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) && (opline->op1_type == IS_CV) && (opline->extended_value == IS_ARRAY || opline->extended_value == IS_OBJECT)) { tmp |= MAY_BE_RCN; } else if ((t1 & MAY_BE_STRING) && (opline->op1_type == IS_CV) && opline->extended_value == IS_STRING) { tmp |= MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } tmp = 0; if (opline->extended_value == _IS_BOOL) { tmp |= MAY_BE_TRUE|MAY_BE_FALSE; } else { tmp |= 1 << opline->extended_value; if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { if ((tmp & MAY_BE_ANY) == (t1 & MAY_BE_ANY)) { tmp |= (t1 & MAY_BE_RC1) | MAY_BE_RCN; } else if ((opline->extended_value == IS_ARRAY || opline->extended_value == IS_OBJECT) && (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT))) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } else if (opline->extended_value == IS_STRING && (t1 & (MAY_BE_STRING|MAY_BE_OBJECT))) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } else { tmp |= MAY_BE_RC1; } } } if (opline->extended_value == IS_ARRAY) { if (t1 & MAY_BE_ARRAY) { tmp |= t1 & (MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF); } if (t1 & MAY_BE_OBJECT) { tmp |= MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; } else { tmp |= ((t1 & MAY_BE_ANY) << MAY_BE_ARRAY_SHIFT) | ((t1 & MAY_BE_ANY)? MAY_BE_ARRAY_KEY_LONG : 0); } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_QM_ASSIGN: case ZEND_JMP_SET: case ZEND_COALESCE: case ZEND_COPY_TMP: if (ssa_ops[i].op1_def >= 0) { tmp = t1; if ((t1 & (MAY_BE_RC1|MAY_BE_REF)) && (opline->op1_type == IS_CV)) { tmp |= MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } tmp = t1 & ~(MAY_BE_UNDEF|MAY_BE_REF); if (t1 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= (t1 & (MAY_BE_RC1|MAY_BE_RCN)); if (opline->op1_type == IS_CV) { tmp |= MAY_BE_RCN; } } if (opline->opcode != ZEND_QM_ASSIGN) { /* COALESCE and JMP_SET result can't be null */ tmp &= ~MAY_BE_NULL; if (opline->opcode == ZEND_JMP_SET) { /* JMP_SET result can't be false either */ tmp &= ~MAY_BE_FALSE; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].result_def); break; case ZEND_ASSIGN_OP: case ZEND_ASSIGN_DIM_OP: case ZEND_ASSIGN_OBJ_OP: case ZEND_ASSIGN_STATIC_PROP_OP: { zend_property_info *prop_info = NULL; orig = 0; tmp = 0; if (opline->opcode == ZEND_ASSIGN_OBJ_OP) { prop_info = zend_fetch_prop_info(op_array, ssa, opline, i); orig = t1; t1 = zend_fetch_prop_type(script, prop_info, &ce); t2 = OP1_DATA_INFO(); } else if (opline->opcode == ZEND_ASSIGN_DIM_OP) { if (t1 & MAY_BE_ARRAY_OF_REF) { tmp |= MAY_BE_REF; } orig = t1; t1 = zend_array_element_type(t1, 1, 0); t2 = OP1_DATA_INFO(); } else if (opline->opcode == ZEND_ASSIGN_STATIC_PROP_OP) { prop_info = zend_fetch_static_prop_info(script, op_array, ssa, opline); t1 = zend_fetch_prop_type(script, prop_info, &ce); t2 = OP1_DATA_INFO(); } else { if (t1 & MAY_BE_REF) { tmp |= MAY_BE_REF; } } tmp |= binary_op_result_type( ssa, opline->extended_value, t1, t2, opline->opcode == ZEND_ASSIGN_OP ? ssa_ops[i].op1_def : -1, optimization_level); if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY)) { tmp |= MAY_BE_RC1; } if (tmp & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } if (opline->opcode == ZEND_ASSIGN_DIM_OP) { if (opline->op1_type == IS_CV) { orig = assign_dim_result_type(orig, OP2_INFO(), tmp, opline->op2_type); UPDATE_SSA_TYPE(orig, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } } else if (opline->opcode == ZEND_ASSIGN_OBJ_OP) { if (opline->op1_type == IS_CV) { if (!(orig & MAY_BE_REF)) { if (orig & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { orig &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); orig |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN; } if (orig & MAY_BE_OBJECT) { orig |= (MAY_BE_RC1|MAY_BE_RCN); } } UPDATE_SSA_TYPE(orig, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } } else if (opline->opcode == ZEND_ASSIGN_STATIC_PROP) { /* Nothing to do */ } else { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { ce = NULL; if (opline->opcode == ZEND_ASSIGN_DIM_OP) { if (opline->op2_type == IS_UNUSED) { /* When appending to an array and the LONG_MAX key is already used * null will be returned. */ tmp |= MAY_BE_NULL; } if (t2 & (MAY_BE_ARRAY | MAY_BE_OBJECT)) { /* Arrays and objects cannot be used as keys. */ tmp |= MAY_BE_NULL; } if (t1 & (MAY_BE_ANY - (MAY_BE_NULL | MAY_BE_FALSE | MAY_BE_STRING | MAY_BE_ARRAY))) { /* null and false are implicitly converted to array, anything else * results in a null return value. */ tmp |= MAY_BE_NULL; } } else if (opline->opcode == ZEND_ASSIGN_OBJ_OP) { if (orig & (MAY_BE_ANY - (MAY_BE_NULL | MAY_BE_FALSE | MAY_BE_OBJECT))) { /* null and false (and empty string) are implicitly converted to object, * anything else results in a null return value. */ tmp |= MAY_BE_NULL; } /* The return value must also satisfy the property type */ if (prop_info) { tmp &= zend_fetch_prop_type(script, prop_info, NULL); } } else if (opline->opcode == ZEND_ASSIGN_STATIC_PROP_OP) { /* The return value must also satisfy the property type */ if (prop_info) { tmp &= zend_fetch_prop_type(script, prop_info, NULL); } } tmp &= ~MAY_BE_REF; UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def); } } break; } case ZEND_PRE_INC: case ZEND_PRE_DEC: tmp = 0; if (t1 & MAY_BE_REF) { tmp |= MAY_BE_REF; } if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= MAY_BE_RC1; if (ssa_ops[i].result_def >= 0) { tmp |= MAY_BE_RCN; } } if ((t1 & (MAY_BE_ANY|MAY_BE_UNDEF)) == MAY_BE_LONG) { if (!ssa_var_info[ssa_ops[i].op1_use].has_range || (opline->opcode == ZEND_PRE_DEC && (ssa_var_info[ssa_ops[i].op1_use].range.underflow || ssa_var_info[ssa_ops[i].op1_use].range.min == ZEND_LONG_MIN)) || (opline->opcode == ZEND_PRE_INC && (ssa_var_info[ssa_ops[i].op1_use].range.overflow || ssa_var_info[ssa_ops[i].op1_use].range.max == ZEND_LONG_MAX))) { /* may overflow */ tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } else { tmp |= MAY_BE_LONG; } } else { if (t1 & MAY_BE_ERROR) { tmp |= MAY_BE_NULL; } if (t1 & (MAY_BE_UNDEF | MAY_BE_NULL)) { if (opline->opcode == ZEND_PRE_INC) { tmp |= MAY_BE_LONG; } else { tmp |= MAY_BE_NULL; } } if (t1 & MAY_BE_LONG) { tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } if (t1 & MAY_BE_DOUBLE) { tmp |= MAY_BE_DOUBLE; } if (t1 & MAY_BE_STRING) { tmp |= MAY_BE_STRING | MAY_BE_LONG | MAY_BE_DOUBLE; } 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); } if (ssa_ops[i].op1_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; case ZEND_POST_INC: case ZEND_POST_DEC: if (ssa_ops[i].result_def >= 0) { tmp = 0; if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= MAY_BE_RC1|MAY_BE_RCN; } tmp |= t1 & ~(MAY_BE_UNDEF|MAY_BE_ERROR|MAY_BE_REF|MAY_BE_RCN); if (t1 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } tmp = 0; if (t1 & MAY_BE_REF) { tmp |= MAY_BE_REF; } if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= MAY_BE_RC1; } if ((t1 & (MAY_BE_ANY|MAY_BE_UNDEF)) == MAY_BE_LONG) { if (!ssa_var_info[ssa_ops[i].op1_use].has_range || (opline->opcode == ZEND_POST_DEC && (ssa_var_info[ssa_ops[i].op1_use].range.underflow || ssa_var_info[ssa_ops[i].op1_use].range.min == ZEND_LONG_MIN)) || (opline->opcode == ZEND_POST_INC && (ssa_var_info[ssa_ops[i].op1_use].range.overflow || ssa_var_info[ssa_ops[i].op1_use].range.max == ZEND_LONG_MAX))) { /* may overflow */ tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } else { tmp |= MAY_BE_LONG; } } else { if (t1 & MAY_BE_ERROR) { tmp |= MAY_BE_NULL; } if (t1 & (MAY_BE_UNDEF | MAY_BE_NULL)) { if (opline->opcode == ZEND_POST_INC) { tmp |= MAY_BE_LONG; } else { tmp |= MAY_BE_NULL; } } if (t1 & MAY_BE_LONG) { tmp |= MAY_BE_LONG | MAY_BE_DOUBLE; } if (t1 & MAY_BE_DOUBLE) { tmp |= MAY_BE_DOUBLE; } if (t1 & MAY_BE_STRING) { tmp |= MAY_BE_STRING | MAY_BE_LONG | MAY_BE_DOUBLE; } 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); } if (ssa_ops[i].op1_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_ASSIGN_DIM: if (opline->op1_type == IS_CV) { tmp = assign_dim_result_type(t1, t2, OP1_DATA_INFO(), opline->op2_type); UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { tmp = 0; if (t1 & MAY_BE_STRING) { tmp |= MAY_BE_STRING; } if (t1 & ((MAY_BE_ANY|MAY_BE_UNDEF) - MAY_BE_STRING)) { tmp |= (OP1_DATA_INFO() & (MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF)); if (opline->op2_type == IS_UNUSED) { /* When appending to an array and the LONG_MAX key is already used * null will be returned. */ tmp |= MAY_BE_NULL; } if (t2 & (MAY_BE_ARRAY | MAY_BE_OBJECT)) { /* Arrays and objects cannot be used as keys. */ tmp |= MAY_BE_NULL; } if (t1 & (MAY_BE_ANY - (MAY_BE_NULL | MAY_BE_FALSE | MAY_BE_STRING | MAY_BE_ARRAY))) { /* undef, null and false are implicitly converted to array, anything else * results in a null return value. */ tmp |= MAY_BE_NULL; } } tmp |= MAY_BE_RC1 | MAY_BE_RCN; if (t1 & MAY_BE_OBJECT) { tmp |= MAY_BE_REF; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } if ((opline+1)->op1_type == IS_CV && ssa_ops[i+1].op1_def >= 0) { opline++; i++; tmp = OP1_INFO(); if (tmp & (MAY_BE_ANY | MAY_BE_REF)) { if (tmp & MAY_BE_RC1) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_ASSIGN_OBJ: if (opline->op1_type == IS_CV) { tmp = t1; if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); tmp |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN; } if (tmp & MAY_BE_OBJECT) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { // TODO: If there is no __set we might do better tmp = zend_fetch_prop_type(script, zend_fetch_prop_info(op_array, ssa, opline, i), &ce); UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def); } } if ((opline+1)->op1_type == IS_CV) { opline++; i++; tmp = OP1_INFO(); if (tmp & (MAY_BE_ANY | MAY_BE_REF)) { if (tmp & MAY_BE_RC1) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_PRE_INC_OBJ: case ZEND_PRE_DEC_OBJ: case ZEND_POST_INC_OBJ: case ZEND_POST_DEC_OBJ: if (opline->op1_type == IS_CV) { tmp = t1; if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); tmp |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN; } if (tmp & MAY_BE_OBJECT) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { // TODO: ??? 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; UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; case ZEND_ASSIGN: if (opline->op2_type == IS_CV && ssa_ops[i].op2_def >= 0) { tmp = t2; if (tmp & (MAY_BE_ANY | MAY_BE_REF)) { if (tmp & MAY_BE_RC1) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def); } tmp = t2 & ~(MAY_BE_UNDEF|MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN); if (t2 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } if (t1 & MAY_BE_REF) { tmp |= MAY_BE_REF; } if (t2 & MAY_BE_REF) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } else if (opline->op2_type & (IS_TMP_VAR|IS_VAR)) { tmp |= t2 & (MAY_BE_RC1|MAY_BE_RCN); } else if (t2 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= MAY_BE_RCN; } if (RETURN_VALUE_USED(opline) && (tmp & MAY_BE_RC1)) { tmp |= MAY_BE_RCN; } if (ssa_ops[i].op1_def >= 0) { if (ssa_var_info[ssa_ops[i].op1_def].use_as_double) { tmp &= ~MAY_BE_LONG; tmp |= MAY_BE_DOUBLE; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { UPDATE_SSA_TYPE(tmp & ~MAY_BE_REF, ssa_ops[i].result_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].result_def); } break; case ZEND_ASSIGN_REF: // TODO: ??? if (opline->op2_type == IS_CV) { tmp = (MAY_BE_REF | t2) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN); if (t2 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def); } if (opline->op2_type == IS_VAR && opline->extended_value == ZEND_RETURNS_FUNCTION) { tmp = (MAY_BE_REF | MAY_BE_RCN | MAY_BE_RC1 | t2) & ~MAY_BE_UNDEF; } else { tmp = (MAY_BE_REF | t2) & ~(MAY_BE_UNDEF|MAY_BE_ERROR|MAY_BE_RC1|MAY_BE_RCN); } if (t2 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); if (ssa_ops[i].result_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; case ZEND_ASSIGN_OBJ_REF: if (opline->op1_type == IS_CV) { tmp = t1; if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); tmp |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN; } if (tmp & MAY_BE_OBJECT) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } t2 = OP1_DATA_INFO(); if ((opline+1)->op1_type == IS_VAR && (opline->extended_value & ZEND_RETURNS_FUNCTION)) { tmp = (MAY_BE_REF | MAY_BE_RCN | MAY_BE_RC1 | t2) & ~MAY_BE_UNDEF; } else { tmp = (MAY_BE_REF | t2) & ~(MAY_BE_UNDEF|MAY_BE_ERROR|MAY_BE_RC1|MAY_BE_RCN); } if (t2 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } if (ssa_ops[i].result_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } if ((opline+1)->op1_type == IS_CV) { opline++; i++; tmp = (MAY_BE_REF | t2) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN); if (t2 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_ASSIGN_STATIC_PROP_REF: if ((opline+1)->op1_type == IS_CV) { opline++; i++; UPDATE_SSA_TYPE(MAY_BE_REF, ssa_ops[i].op1_def); } break; case ZEND_BIND_GLOBAL: tmp = MAY_BE_REF | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); break; case ZEND_BIND_STATIC: tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF | ((opline->extended_value & ZEND_BIND_REF) ? MAY_BE_REF : (MAY_BE_RC1 | MAY_BE_RCN)); if (opline->extended_value & ZEND_BIND_IMPLICIT) { tmp |= MAY_BE_UNDEF; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); break; case ZEND_SEND_VAR: if (ssa_ops[i].op1_def >= 0) { tmp = t1; if ((t1 & (MAY_BE_RC1|MAY_BE_REF)) && (opline->op1_type == IS_CV)) { tmp |= MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } break; case ZEND_BIND_LEXICAL: if (ssa_ops[i].op2_def >= 0) { if (opline->extended_value & ZEND_BIND_REF) { tmp = t2 | MAY_BE_REF; } else { tmp = t2 & ~(MAY_BE_RC1|MAY_BE_RCN); if (t2 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].op2_def); } break; case ZEND_YIELD: if (ssa_ops[i].op1_def >= 0) { if (op_array->fn_flags & ZEND_ACC_RETURN_REFERENCE) { tmp = t1 | MAY_BE_REF; } else { tmp = t1 & ~(MAY_BE_RC1|MAY_BE_RCN); if (t1 & (MAY_BE_RC1|MAY_BE_RCN)) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF | MAY_BE_RC1 | MAY_BE_RCN; UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; case ZEND_SEND_VAR_EX: case ZEND_SEND_FUNC_ARG: if (ssa_ops[i].op1_def >= 0) { 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; UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_SEND_REF: if (ssa_ops[i].op1_def >= 0) { 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; UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_SEND_UNPACK: if (ssa_ops[i].op1_def >= 0) { tmp = t1; if (t1 & MAY_BE_ARRAY) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; if (t1 & MAY_BE_ARRAY_OF_ANY) { /* SEND_UNPACK may acquire references into the array */ tmp |= MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; } } if (t1 & MAY_BE_OBJECT) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_FAST_CONCAT: case ZEND_ROPE_INIT: case ZEND_ROPE_ADD: case ZEND_ROPE_END: UPDATE_SSA_TYPE(MAY_BE_STRING|MAY_BE_RC1|MAY_BE_RCN, ssa_ops[i].result_def); break; case ZEND_RECV: case ZEND_RECV_INIT: { /* Typehinting */ zend_func_info *func_info; zend_arg_info *arg_info = NULL; if (op_array->arg_info && opline->op1.num <= op_array->num_args) { arg_info = &op_array->arg_info[opline->op1.num-1]; } ce = NULL; if (arg_info) { tmp = zend_fetch_arg_info(script, arg_info, &ce); if (opline->opcode == ZEND_RECV_INIT && Z_TYPE_P(CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants)) == IS_CONSTANT_AST) { /* The constant may resolve to NULL */ tmp |= MAY_BE_NULL; } if (arg_info->pass_by_reference) { tmp |= MAY_BE_REF; } else if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= MAY_BE_RC1|MAY_BE_RCN; } } else { 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; } func_info = ZEND_FUNC_INFO(op_array); if (func_info && (int)opline->op1.num-1 < func_info->num_args) { tmp = (tmp & (MAY_BE_RC1|MAY_BE_RCN|MAY_BE_REF)) | (tmp & func_info->arg_info[opline->op1.num-1].info.type); } #if 0 /* We won't receive unused arguments */ if (ssa_vars[ssa_ops[i].result_def].use_chain < 0 && ssa_vars[ssa_ops[i].result_def].phi_use_chain == NULL && op_array->arg_info && opline->op1.num <= op_array->num_args && op_array->arg_info[opline->op1.num-1].class_name == NULL && !op_array->arg_info[opline->op1.num-1].type_hint) { tmp = MAY_BE_UNDEF|MAY_BE_RCN; } #endif UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (func_info && (int)opline->op1.num-1 < func_info->num_args && func_info->arg_info[opline->op1.num-1].info.ce) { UPDATE_SSA_OBJ_TYPE( func_info->arg_info[opline->op1.num-1].info.ce, func_info->arg_info[opline->op1.num-1].info.is_instanceof, ssa_ops[i].result_def); } else if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); } break; } case ZEND_DECLARE_ANON_CLASS: UPDATE_SSA_TYPE(MAY_BE_CLASS, ssa_ops[i].result_def); if (script && (ce = zend_hash_find_ptr(&script->class_table, Z_STR_P(CRT_CONSTANT_EX(op_array, opline, opline->op1, ssa->rt_constants)))) != NULL) { UPDATE_SSA_OBJ_TYPE(ce, 0, ssa_ops[i].result_def); } break; case ZEND_FETCH_CLASS: UPDATE_SSA_TYPE(MAY_BE_CLASS, ssa_ops[i].result_def); if (opline->op2_type == IS_UNUSED) { switch (opline->op1.num & ZEND_FETCH_CLASS_MASK) { case ZEND_FETCH_CLASS_SELF: if (op_array->scope) { UPDATE_SSA_OBJ_TYPE(op_array->scope, 0, ssa_ops[i].result_def); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); } break; case ZEND_FETCH_CLASS_PARENT: if (op_array->scope && op_array->scope->parent && (op_array->scope->ce_flags & ZEND_ACC_LINKED)) { UPDATE_SSA_OBJ_TYPE(op_array->scope->parent, 0, ssa_ops[i].result_def); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); } break; case ZEND_FETCH_CLASS_STATIC: default: UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); break; } } else if (opline->op2_type == IS_CONST) { zval *zv = CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants); if (Z_TYPE_P(zv) == IS_STRING) { ce = get_class_entry(script, Z_STR_P(zv+1)); UPDATE_SSA_OBJ_TYPE(ce, 0, ssa_ops[i].result_def); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); } } else { COPY_SSA_OBJ_TYPE(ssa_ops[i].op2_use, ssa_ops[i].result_def); } break; case ZEND_NEW: tmp = MAY_BE_RC1|MAY_BE_RCN|MAY_BE_OBJECT; if (opline->op1_type == IS_CONST && (ce = get_class_entry(script, Z_STR_P(CRT_CONSTANT_EX(op_array, opline, opline->op1, ssa->rt_constants)+1))) != NULL) { UPDATE_SSA_OBJ_TYPE(ce, 0, ssa_ops[i].result_def); } else if ((t1 & MAY_BE_CLASS) && ssa_ops[i].op1_use >= 0 && ssa_var_info[ssa_ops[i].op1_use].ce) { 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); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_CLONE: UPDATE_SSA_TYPE(MAY_BE_RC1|MAY_BE_RCN|MAY_BE_OBJECT, ssa_ops[i].result_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].result_def); break; case ZEND_INIT_ARRAY: case ZEND_ADD_ARRAY_ELEMENT: if (opline->op1_type == IS_CV && ssa_ops[i].op1_def >= 0) { if (opline->extended_value & ZEND_ARRAY_ELEMENT_REF) { tmp = (MAY_BE_REF | t1) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN); if (t1 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } } else if ((t1 & (MAY_BE_REF|MAY_BE_RC1|MAY_BE_RCN)) == MAY_BE_REF) { tmp = (MAY_BE_REF | t1) & ~(MAY_BE_UNDEF|MAY_BE_RC1|MAY_BE_RCN); if (t1 & MAY_BE_UNDEF) { tmp |= MAY_BE_NULL; } } else if (t1 & MAY_BE_REF) { tmp = (MAY_BE_RC1 | MAY_BE_RCN | MAY_BE_REF | t1); } else { tmp = t1; if (t1 & MAY_BE_RC1) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { tmp = MAY_BE_RC1|MAY_BE_ARRAY; if (ssa_ops[i].result_use >= 0) { tmp |= ssa_var_info[ssa_ops[i].result_use].type; } if (opline->op1_type != IS_UNUSED) { tmp |= (t1 & MAY_BE_ANY) << MAY_BE_ARRAY_SHIFT; if (t1 & MAY_BE_UNDEF) { tmp |= MAY_BE_ARRAY_OF_NULL; } if (opline->extended_value & ZEND_ARRAY_ELEMENT_REF) { tmp |= MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF; } if (opline->op2_type == IS_UNUSED) { tmp |= MAY_BE_ARRAY_KEY_LONG; } else { if (t2 & (MAY_BE_LONG|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_DOUBLE|MAY_BE_RESOURCE)) { tmp |= MAY_BE_ARRAY_KEY_LONG; } if (t2 & (MAY_BE_STRING)) { tmp |= MAY_BE_ARRAY_KEY_STRING; if (opline->op2_type != IS_CONST) { // FIXME: numeric string tmp |= MAY_BE_ARRAY_KEY_LONG; } } if (t2 & (MAY_BE_UNDEF | MAY_BE_NULL)) { tmp |= MAY_BE_ARRAY_KEY_STRING; } } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; case ZEND_ADD_ARRAY_UNPACK: tmp = ssa_var_info[ssa_ops[i].result_use].type; ZEND_ASSERT(tmp & MAY_BE_ARRAY); /* Ignore string keys as they will throw. */ if (t1 & MAY_BE_ARRAY_KEY_LONG) { tmp |= MAY_BE_ARRAY_KEY_LONG | (t1 & (MAY_BE_ARRAY_OF_ANY|MAY_BE_ARRAY_OF_REF)); } if (t1 & MAY_BE_OBJECT) { tmp |= MAY_BE_ARRAY_KEY_LONG | MAY_BE_ARRAY_OF_ANY; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_UNSET_CV: tmp = MAY_BE_UNDEF; if (!op_array->function_name) { /* In global scope, we know nothing */ tmp |= MAY_BE_REF; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); break; case ZEND_UNSET_DIM: case ZEND_UNSET_OBJ: if (ssa_ops[i].op1_def >= 0) { UPDATE_SSA_TYPE(t1, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } break; case ZEND_FE_RESET_R: case ZEND_FE_RESET_RW: if (ssa_ops[i].op1_def >= 0) { tmp = t1; if (opline->opcode == ZEND_FE_RESET_RW) { tmp |= MAY_BE_REF; } else { if ((t1 & MAY_BE_RC1) && opline->op1_type != IS_TMP_VAR) { tmp |= MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } if (opline->opcode == ZEND_FE_RESET_RW) { //??? tmp = MAY_BE_REF | (t1 & (MAY_BE_ARRAY | MAY_BE_OBJECT)); } else { 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)); } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].result_def); break; case ZEND_FE_FETCH_R: case ZEND_FE_FETCH_RW: tmp = t2; if (t1 & MAY_BE_OBJECT) { if (opline->opcode == ZEND_FE_FETCH_RW) { tmp |= MAY_BE_REF | MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; } else { 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; } } if (t1 & MAY_BE_ARRAY) { if (opline->opcode == ZEND_FE_FETCH_RW) { 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; } else { tmp |= ((t1 & MAY_BE_ARRAY_OF_ANY) >> MAY_BE_ARRAY_SHIFT); if (tmp & MAY_BE_ARRAY) { tmp |= MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; } if (t1 & MAY_BE_ARRAY_OF_REF) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } else if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op2_def); if (ssa_ops[i].result_def >= 0) { tmp = (ssa_ops[i].result_use >= 0) ? RES_USE_INFO() : 0; if (t1 & MAY_BE_OBJECT) { 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; } if (t1 & MAY_BE_ARRAY) { if (t1 & MAY_BE_ARRAY_KEY_LONG) { tmp |= MAY_BE_LONG; } if (t1 & MAY_BE_ARRAY_KEY_STRING) { tmp |= MAY_BE_STRING | MAY_BE_RCN; } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; case ZEND_FETCH_DIM_R: case ZEND_FETCH_DIM_IS: case ZEND_FETCH_DIM_RW: case ZEND_FETCH_DIM_W: case ZEND_FETCH_DIM_UNSET: case ZEND_FETCH_DIM_FUNC_ARG: case ZEND_FETCH_LIST_R: case ZEND_FETCH_LIST_W: if (ssa_ops[i].op1_def >= 0) { tmp = t1 & ~(MAY_BE_RC1|MAY_BE_RCN); if (opline->opcode == ZEND_FETCH_DIM_W || opline->opcode == ZEND_FETCH_DIM_RW || opline->opcode == ZEND_FETCH_DIM_FUNC_ARG || opline->opcode == ZEND_FETCH_LIST_W) { if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { if (opline->opcode != ZEND_FETCH_DIM_FUNC_ARG) { tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); } tmp |= MAY_BE_ARRAY | MAY_BE_RC1; } if (t1 & (MAY_BE_STRING|MAY_BE_ARRAY)) { tmp |= MAY_BE_RC1; if (opline->opcode == ZEND_FETCH_DIM_FUNC_ARG) { tmp |= t1 & MAY_BE_RCN; } } if (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= t1 & (MAY_BE_RC1|MAY_BE_RCN); } if (opline->op2_type == IS_UNUSED) { tmp |= MAY_BE_ARRAY_KEY_LONG; } else { if (t2 & (MAY_BE_LONG|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_RESOURCE|MAY_BE_DOUBLE)) { tmp |= MAY_BE_ARRAY_KEY_LONG; } if (t2 & MAY_BE_STRING) { tmp |= MAY_BE_ARRAY_KEY_STRING; if (opline->op2_type != IS_CONST) { // FIXME: numeric string tmp |= MAY_BE_ARRAY_KEY_LONG; } } if (t2 & (MAY_BE_UNDEF | MAY_BE_NULL)) { tmp |= MAY_BE_ARRAY_KEY_STRING; } } } else if (opline->opcode == ZEND_FETCH_DIM_UNSET) { if (t1 & MAY_BE_ARRAY) { tmp |= MAY_BE_RC1; } if (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= t1 & (MAY_BE_RC1|MAY_BE_RCN); } } if (opline->opcode == ZEND_FETCH_DIM_RW || opline->opcode == ZEND_FETCH_DIM_W || opline->opcode == ZEND_FETCH_DIM_FUNC_ARG || opline->opcode == ZEND_FETCH_LIST_W) { j = ssa_vars[ssa_ops[i].result_def].use_chain; while (j >= 0) { switch (op_array->opcodes[j].opcode) { case ZEND_FETCH_DIM_W: case ZEND_FETCH_DIM_RW: case ZEND_FETCH_DIM_FUNC_ARG: case ZEND_FETCH_LIST_W: case ZEND_ASSIGN_DIM: case ZEND_ASSIGN_DIM_OP: tmp |= MAY_BE_ARRAY | MAY_BE_ARRAY_OF_ARRAY; break; case ZEND_FETCH_OBJ_W: case ZEND_FETCH_OBJ_RW: case ZEND_FETCH_OBJ_FUNC_ARG: case ZEND_ASSIGN_OBJ: case ZEND_ASSIGN_OBJ_OP: case ZEND_ASSIGN_OBJ_REF: case ZEND_PRE_INC_OBJ: case ZEND_PRE_DEC_OBJ: case ZEND_POST_INC_OBJ: case ZEND_POST_DEC_OBJ: tmp |= MAY_BE_ARRAY_OF_OBJECT; break; case ZEND_SEND_VAR_EX: case ZEND_SEND_FUNC_ARG: case ZEND_SEND_VAR_NO_REF: case ZEND_SEND_VAR_NO_REF_EX: case ZEND_SEND_REF: case ZEND_ASSIGN_REF: case ZEND_YIELD: case ZEND_INIT_ARRAY: case ZEND_ADD_ARRAY_ELEMENT: case ZEND_RETURN_BY_REF: case ZEND_VERIFY_RETURN_TYPE: case ZEND_MAKE_REF: case ZEND_FE_RESET_RW: tmp |= MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; break; case ZEND_PRE_INC: case ZEND_PRE_DEC: case ZEND_POST_INC: case ZEND_POST_DEC: if (tmp & MAY_BE_ARRAY_OF_LONG) { /* may overflow */ tmp |= MAY_BE_ARRAY_OF_DOUBLE; } else if (!(tmp & (MAY_BE_ARRAY_OF_LONG|MAY_BE_ARRAY_OF_DOUBLE))) { tmp |= MAY_BE_ARRAY_OF_LONG | MAY_BE_ARRAY_OF_DOUBLE; } break; case ZEND_SEND_VAR: /* This can occur if a DIM_FETCH_FUNC_ARG with UNUSED op2 is left * behind, because it can't be converted to DIM_FETCH_R. */ break; EMPTY_SWITCH_DEFAULT_CASE() } j = zend_ssa_next_use(ssa_ops, ssa_ops[i].result_def, j); } } if ((tmp & MAY_BE_ARRAY) && (tmp & MAY_BE_ARRAY_KEY_ANY)) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } else { /* invalid key type */ tmp = (tmp & (MAY_BE_RC1|MAY_BE_RCN)) | (t1 & ~(MAY_BE_RC1|MAY_BE_RCN)); UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } /* FETCH_LIST on a string behaves like FETCH_R on null */ tmp = zend_array_element_type( opline->opcode != ZEND_FETCH_LIST_R ? t1 : ((t1 & ~MAY_BE_STRING) | MAY_BE_NULL), opline->result_type == IS_VAR, opline->op2_type == IS_UNUSED); if (opline->opcode == ZEND_FETCH_DIM_W || opline->opcode == ZEND_FETCH_DIM_RW || opline->opcode == ZEND_FETCH_DIM_FUNC_ARG || opline->opcode == ZEND_FETCH_LIST_W) { if (t1 & (MAY_BE_ERROR|MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_RESOURCE|MAY_BE_OBJECT)) { tmp |= MAY_BE_ERROR; } else if (opline->op2_type == IS_UNUSED) { tmp |= MAY_BE_ERROR; } else if (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) { tmp |= MAY_BE_ERROR; } } else if (opline->opcode == ZEND_FETCH_DIM_IS && (t1 & MAY_BE_STRING)) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_FETCH_THIS: UPDATE_SSA_OBJ_TYPE(op_array->scope, 1, ssa_ops[i].result_def); UPDATE_SSA_TYPE(MAY_BE_RC1|MAY_BE_RCN|MAY_BE_OBJECT, ssa_ops[i].result_def); break; case ZEND_FETCH_OBJ_R: case ZEND_FETCH_OBJ_IS: case ZEND_FETCH_OBJ_RW: case ZEND_FETCH_OBJ_W: case ZEND_FETCH_OBJ_UNSET: case ZEND_FETCH_OBJ_FUNC_ARG: if (ssa_ops[i].op1_def >= 0) { tmp = t1; if (opline->opcode == ZEND_FETCH_OBJ_W || opline->opcode == ZEND_FETCH_OBJ_RW || opline->opcode == ZEND_FETCH_OBJ_FUNC_ARG) { if (opline->opcode != ZEND_FETCH_DIM_FUNC_ARG) { if (t1 & (MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE)) { tmp &= ~(MAY_BE_UNDEF|MAY_BE_NULL|MAY_BE_FALSE); tmp |= MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN; } } } UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); COPY_SSA_OBJ_TYPE(ssa_ops[i].op1_use, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { tmp = zend_fetch_prop_type(script, zend_fetch_prop_info(op_array, ssa, opline, i), &ce); if (opline->result_type != IS_TMP_VAR) { tmp |= MAY_BE_REF | MAY_BE_ERROR; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def); } } break; case ZEND_FETCH_STATIC_PROP_R: case ZEND_FETCH_STATIC_PROP_IS: case ZEND_FETCH_STATIC_PROP_RW: case ZEND_FETCH_STATIC_PROP_W: case ZEND_FETCH_STATIC_PROP_UNSET: case ZEND_FETCH_STATIC_PROP_FUNC_ARG: tmp = zend_fetch_prop_type(script, zend_fetch_static_prop_info(script, op_array, ssa, opline), &ce); if (opline->result_type != IS_TMP_VAR) { tmp |= MAY_BE_REF | MAY_BE_ERROR; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def); } break; case ZEND_DO_FCALL: case ZEND_DO_ICALL: case ZEND_DO_UCALL: case ZEND_DO_FCALL_BY_NAME: if (ssa_ops[i].result_def >= 0) { zend_func_info *func_info = ZEND_FUNC_INFO(op_array); zend_call_info *call_info; if (!func_info || !func_info->call_map) { goto unknown_opcode; } call_info = func_info->call_map[opline - op_array->opcodes]; if (!call_info) { goto unknown_opcode; } tmp = zend_get_func_info(call_info, ssa) & ~FUNC_MAY_WARN; UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (call_info->callee_func->type == ZEND_USER_FUNCTION) { func_info = ZEND_FUNC_INFO(&call_info->callee_func->op_array); if (func_info) { UPDATE_SSA_OBJ_TYPE( func_info->return_info.ce, func_info->return_info.is_instanceof, ssa_ops[i].result_def); } } } break; case ZEND_FETCH_CONSTANT: case ZEND_FETCH_CLASS_CONSTANT: 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); break; case ZEND_STRLEN: tmp = MAY_BE_LONG; if (t1 & (MAY_BE_ANY - (MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_LONG|MAY_BE_DOUBLE|MAY_BE_STRING))) { tmp |= MAY_BE_NULL; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); break; case ZEND_COUNT: case ZEND_FUNC_NUM_ARGS: UPDATE_SSA_TYPE(MAY_BE_LONG, ssa_ops[i].result_def); break; case ZEND_FUNC_GET_ARGS: UPDATE_SSA_TYPE(MAY_BE_RC1| MAY_BE_ARRAY | MAY_BE_ARRAY_KEY_LONG | MAY_BE_ARRAY_OF_ANY, ssa_ops[i].result_def); break; case ZEND_GET_CLASS: case ZEND_GET_CALLED_CLASS: UPDATE_SSA_TYPE(MAY_BE_FALSE|MAY_BE_STRING|MAY_BE_RCN, ssa_ops[i].result_def); break; case ZEND_GET_TYPE: UPDATE_SSA_TYPE(MAY_BE_STRING|MAY_BE_RC1|MAY_BE_RCN, ssa_ops[i].result_def); break; case ZEND_TYPE_CHECK: case ZEND_DEFINED: UPDATE_SSA_TYPE(MAY_BE_FALSE|MAY_BE_TRUE, ssa_ops[i].result_def); break; case ZEND_VERIFY_RETURN_TYPE: if (t1 & MAY_BE_REF) { tmp = t1; ce = NULL; } else { zend_arg_info *ret_info = op_array->arg_info - 1; tmp = zend_fetch_arg_info(script, ret_info, &ce); if (tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } } if (opline->op1_type & (IS_TMP_VAR|IS_VAR|IS_CV)) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].op1_def); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].op1_def); } } else { UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (ce) { UPDATE_SSA_OBJ_TYPE(ce, 1, ssa_ops[i].result_def); } else { UPDATE_SSA_OBJ_TYPE(NULL, 0, ssa_ops[i].result_def); } } break; case ZEND_MAKE_REF: 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; UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); if (ssa_ops[i].op1_def >= 0) { UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } break; case ZEND_CATCH: case ZEND_INCLUDE_OR_EVAL: /* Forbidden opcodes */ ZEND_ASSERT(0); break; default: unknown_opcode: if (ssa_ops[i].op1_def >= 0) { 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; UPDATE_SSA_TYPE(tmp, ssa_ops[i].op1_def); } if (ssa_ops[i].result_def >= 0) { tmp = MAY_BE_ANY | MAY_BE_ARRAY_KEY_ANY | MAY_BE_ARRAY_OF_ANY | MAY_BE_ARRAY_OF_REF; if (opline->result_type == IS_TMP_VAR) { tmp |= MAY_BE_RC1 | MAY_BE_RCN; } else { tmp |= MAY_BE_REF | MAY_BE_RC1 | MAY_BE_RCN; } UPDATE_SSA_TYPE(tmp, ssa_ops[i].result_def); } break; } return SUCCESS; } static uint32_t get_class_entry_rank(zend_class_entry *ce) { uint32_t rank = 0; if (ce->ce_flags & ZEND_ACC_LINKED) { while (ce->parent) { rank++; ce = ce->parent; } } return rank; } /* Compute least common ancestor on class inheritance tree only */ static zend_class_entry *join_class_entries( zend_class_entry *ce1, zend_class_entry *ce2, int *is_instanceof) { uint32_t rank1, rank2; if (ce1 == ce2) { return ce1; } if (!ce1 || !ce2) { return NULL; } rank1 = get_class_entry_rank(ce1); rank2 = get_class_entry_rank(ce2); while (rank1 != rank2) { if (rank1 > rank2) { ce1 = !(ce1->ce_flags & ZEND_ACC_LINKED) ? NULL : ce1->parent; rank1--; } else { ce2 = !(ce2->ce_flags & ZEND_ACC_LINKED) ? NULL : ce2->parent; rank2--; } } while (ce1 != ce2) { ce1 = !(ce1->ce_flags & ZEND_ACC_LINKED) ? NULL : ce1->parent; ce2 = !(ce2->ce_flags & ZEND_ACC_LINKED) ? NULL : ce2->parent; } if (ce1) { *is_instanceof = 1; } return ce1; } int zend_infer_types_ex(const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa, zend_bitset worklist, zend_long optimization_level) { zend_basic_block *blocks = ssa->cfg.blocks; zend_ssa_var *ssa_vars = ssa->vars; zend_ssa_var_info *ssa_var_info = ssa->var_info; int ssa_vars_count = ssa->vars_count; int i, j; uint32_t tmp, worklist_len = zend_bitset_len(ssa_vars_count); while (!zend_bitset_empty(worklist, worklist_len)) { j = zend_bitset_first(worklist, worklist_len); zend_bitset_excl(worklist, j); if (ssa_vars[j].definition_phi) { zend_ssa_phi *p = ssa_vars[j].definition_phi; if (p->pi >= 0) { zend_class_entry *ce = ssa_var_info[p->sources[0]].ce; int is_instanceof = ssa_var_info[p->sources[0]].is_instanceof; tmp = get_ssa_var_info(ssa, p->sources[0]); if (!p->has_range_constraint) { zend_ssa_type_constraint *constraint = &p->constraint.type; tmp &= constraint->type_mask; if (!(tmp & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE))) { tmp &= ~(MAY_BE_RC1|MAY_BE_RCN); } if ((tmp & MAY_BE_OBJECT) && constraint->ce && ce != constraint->ce) { if (!ce) { ce = constraint->ce; is_instanceof = 1; } else if (is_instanceof && instanceof_function(constraint->ce, ce)) { ce = constraint->ce; } else { /* Ignore the constraint (either ce instanceof constraint->ce or * they are unrelated, as far as we can statically determine) */ } } } UPDATE_SSA_TYPE(tmp, j); UPDATE_SSA_OBJ_TYPE(ce, is_instanceof, j); } else { int first = 1; int is_instanceof = 0; zend_class_entry *ce = NULL; tmp = 0; for (i = 0; i < blocks[p->block].predecessors_count; i++) { tmp |= get_ssa_var_info(ssa, p->sources[i]); } UPDATE_SSA_TYPE(tmp, j); for (i = 0; i < blocks[p->block].predecessors_count; i++) { zend_ssa_var_info *info; ZEND_ASSERT(p->sources[i] >= 0); info = &ssa_var_info[p->sources[i]]; if (info->type & MAY_BE_OBJECT) { if (first) { ce = info->ce; is_instanceof = info->is_instanceof; first = 0; } else { is_instanceof |= info->is_instanceof; ce = join_class_entries(ce, info->ce, &is_instanceof); } } } UPDATE_SSA_OBJ_TYPE(ce, ce ? is_instanceof : 0, j); } } else if (ssa_vars[j].definition >= 0) { i = ssa_vars[j].definition; if (zend_update_type_info(op_array, ssa, script, worklist, i, optimization_level) == FAILURE) { return FAILURE; } } } return SUCCESS; } static zend_bool is_narrowable_instr(zend_op *opline) { return opline->opcode == ZEND_ADD || opline->opcode == ZEND_SUB || opline->opcode == ZEND_MUL || opline->opcode == ZEND_DIV; } static zend_bool is_effective_op1_double_cast(zend_op *opline, zval *op2) { return (opline->opcode == ZEND_ADD && Z_LVAL_P(op2) == 0) || (opline->opcode == ZEND_SUB && Z_LVAL_P(op2) == 0) || (opline->opcode == ZEND_MUL && Z_LVAL_P(op2) == 1) || (opline->opcode == ZEND_DIV && Z_LVAL_P(op2) == 1); } static zend_bool is_effective_op2_double_cast(zend_op *opline, zval *op1) { /* In PHP it holds that (double)(0-$int) is bitwise identical to 0.0-(double)$int, * so allowing SUB here is fine. */ return (opline->opcode == ZEND_ADD && Z_LVAL_P(op1) == 0) || (opline->opcode == ZEND_SUB && Z_LVAL_P(op1) == 0) || (opline->opcode == ZEND_MUL && Z_LVAL_P(op1) == 1); } /* This function recursively checks whether it's possible to convert an integer variable * initialization to a double initialization. The basic idea is that if the value is used * only in add/sub/mul/div ("narrowable" instructions) with a double result value, then it * will be cast to double at that point anyway, so we may as well do it earlier already. * * The tricky case are chains of operations, where it's not necessarily a given that converting * an integer to double before the chain of operations is the same as converting it after the * chain. What this function does is detect two cases where it is safe: * * If the operations only involve constants, then we can simply verify that performing the * calculation on integers and doubles yields the same value. * * Even if one operand is not known, we may be able to determine that the operations with the * integer replaced by a double only acts as an effective double cast on the unknown operand. * E.g. 0+$i and 0.0+$i only differ by that cast. If then the consuming instruction of this * result will perform a double cast anyway, the conversion is safe. * * The checks happens recursively, while keeping track of which variables are already visisted to * avoid infinite loops. An iterative, worklist driven approach would be possible, but the state * management more cumbersome to implement, so we don't bother for now. */ static zend_bool can_convert_to_double( const zend_op_array *op_array, zend_ssa *ssa, int var_num, zval *value, zend_bitset visited) { zend_ssa_var *var = &ssa->vars[var_num]; zend_ssa_phi *phi; int use; uint32_t type; if (zend_bitset_in(visited, var_num)) { return 1; } zend_bitset_incl(visited, var_num); for (use = var->use_chain; use >= 0; use = zend_ssa_next_use(ssa->ops, var_num, use)) { zend_op *opline = &op_array->opcodes[use]; zend_ssa_op *ssa_op = &ssa->ops[use]; if (zend_ssa_is_no_val_use(opline, ssa_op, var_num)) { continue; } if (!is_narrowable_instr(opline)) { return 0; } /* Instruction always returns double, the conversion is certainly fine */ type = ssa->var_info[ssa_op->result_def].type; if ((type & MAY_BE_ANY) == MAY_BE_DOUBLE) { continue; } /* UNDEF signals that the previous result is an effective double cast, this is only allowed * if this instruction would have done the cast anyway (previous check). */ if (Z_ISUNDEF_P(value)) { return 0; } /* Check that narrowing can actually be useful */ if ((type & MAY_BE_ANY) & ~(MAY_BE_LONG|MAY_BE_DOUBLE)) { return 0; } { /* For calculation on original values */ zval orig_op1, orig_op2, orig_result; /* For calculation with var_num cast to double */ zval dval_op1, dval_op2, dval_result; ZVAL_UNDEF(&orig_op1); ZVAL_UNDEF(&dval_op1); if (ssa_op->op1_use == var_num) { ZVAL_COPY_VALUE(&orig_op1, value); ZVAL_DOUBLE(&dval_op1, (double) Z_LVAL_P(value)); } else if (opline->op1_type == IS_CONST) { zval *zv = CRT_CONSTANT_EX(op_array, opline, opline->op1, ssa->rt_constants); if (Z_TYPE_P(zv) == IS_LONG || Z_TYPE_P(zv) == IS_DOUBLE) { ZVAL_COPY_VALUE(&orig_op1, zv); ZVAL_COPY_VALUE(&dval_op1, zv); } } ZVAL_UNDEF(&orig_op2); ZVAL_UNDEF(&dval_op2); if (ssa_op->op2_use == var_num) { ZVAL_COPY_VALUE(&orig_op2, value); ZVAL_DOUBLE(&dval_op2, (double) Z_LVAL_P(value)); } else if (opline->op2_type == IS_CONST) { zval *zv = CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants); if (Z_TYPE_P(zv) == IS_LONG || Z_TYPE_P(zv) == IS_DOUBLE) { ZVAL_COPY_VALUE(&orig_op2, zv); ZVAL_COPY_VALUE(&dval_op2, zv); } } ZEND_ASSERT(!Z_ISUNDEF(orig_op1) || !Z_ISUNDEF(orig_op2)); if (Z_ISUNDEF(orig_op1)) { if (opline->opcode == ZEND_MUL && Z_LVAL(orig_op2) == 0) { ZVAL_LONG(&orig_result, 0); } else if (is_effective_op1_double_cast(opline, &orig_op2)) { ZVAL_UNDEF(&orig_result); } else { return 0; } } else if (Z_ISUNDEF(orig_op2)) { if (opline->opcode == ZEND_MUL && Z_LVAL(orig_op1) == 0) { ZVAL_LONG(&orig_result, 0); } else if (is_effective_op2_double_cast(opline, &orig_op1)) { ZVAL_UNDEF(&orig_result); } else { return 0; } } else { zend_uchar opcode = opline->opcode; if (opcode == ZEND_ASSIGN_OP) { opcode = opline->extended_value; } /* Avoid division by zero */ if (opcode == ZEND_DIV && zval_get_double(&orig_op2) == 0.0) { return 0; } get_binary_op(opcode)(&orig_result, &orig_op1, &orig_op2); get_binary_op(opcode)(&dval_result, &dval_op1, &dval_op2); ZEND_ASSERT(Z_TYPE(dval_result) == IS_DOUBLE); if (zval_get_double(&orig_result) != Z_DVAL(dval_result)) { return 0; } } if (!can_convert_to_double(op_array, ssa, ssa_op->result_def, &orig_result, visited)) { return 0; } } } for (phi = var->phi_use_chain; phi; phi = zend_ssa_next_use_phi(ssa, var_num, phi)) { /* Check that narrowing can actually be useful */ type = ssa->var_info[phi->ssa_var].type; if ((type & MAY_BE_ANY) & ~(MAY_BE_LONG|MAY_BE_DOUBLE)) { return 0; } if (!can_convert_to_double(op_array, ssa, phi->ssa_var, value, visited)) { return 0; } } return 1; } static int zend_type_narrowing(const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa, zend_long optimization_level) { uint32_t bitset_len = zend_bitset_len(ssa->vars_count); zend_bitset visited, worklist; int i, v; zend_op *opline; zend_bool narrowed = 0; ALLOCA_FLAG(use_heap) visited = ZEND_BITSET_ALLOCA(2 * bitset_len, use_heap); worklist = visited + bitset_len; zend_bitset_clear(worklist, bitset_len); for (v = op_array->last_var; v < ssa->vars_count; v++) { if ((ssa->var_info[v].type & (MAY_BE_REF | MAY_BE_ANY | MAY_BE_UNDEF)) != MAY_BE_LONG) continue; if (ssa->vars[v].definition < 0) continue; if (ssa->vars[v].no_val) continue; opline = op_array->opcodes + ssa->vars[v].definition; /* Go through assignments of literal integers and check if they can be converted to * doubles instead, in the hope that we'll narrow long|double to double. */ if (opline->opcode == ZEND_ASSIGN && opline->result_type == IS_UNUSED && opline->op1_type == IS_CV && opline->op2_type == IS_CONST) { zval *value = CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants); zend_bitset_clear(visited, bitset_len); if (can_convert_to_double(op_array, ssa, v, value, visited)) { narrowed = 1; ssa->var_info[v].use_as_double = 1; /* The "visited" vars are exactly those which may change their type due to * narrowing. Reset their types and add them to the type inference worklist */ ZEND_BITSET_FOREACH(visited, bitset_len, i) { ssa->var_info[i].type &= ~MAY_BE_ANY; } ZEND_BITSET_FOREACH_END(); zend_bitset_union(worklist, visited, bitset_len); } } } if (!narrowed) { free_alloca(visited, use_heap); return SUCCESS; } if (zend_infer_types_ex(op_array, script, ssa, worklist, optimization_level) != SUCCESS) { free_alloca(visited, use_heap); return FAILURE; } free_alloca(visited, use_heap); return SUCCESS; } static int is_recursive_tail_call(const zend_op_array *op_array, zend_op *opline) { zend_func_info *info = ZEND_FUNC_INFO(op_array); if (info->ssa.ops && info->ssa.vars && info->call_map && info->ssa.ops[opline - op_array->opcodes].op1_use >= 0 && info->ssa.vars[info->ssa.ops[opline - op_array->opcodes].op1_use].definition >= 0) { zend_op *op = op_array->opcodes + info->ssa.vars[info->ssa.ops[opline - op_array->opcodes].op1_use].definition; if (op->opcode == ZEND_DO_UCALL) { zend_call_info *call_info = info->call_map[op - op_array->opcodes]; if (call_info && op_array == &call_info->callee_func->op_array) { return 1; } } } return 0; } void zend_init_func_return_info(const zend_op_array *op_array, const zend_script *script, zend_ssa_var_info *ret) { if (op_array->fn_flags & ZEND_ACC_HAS_RETURN_TYPE) { zend_arg_info *ret_info = op_array->arg_info - 1; zend_ssa_range tmp_range = {0, 0, 0, 0}; ret->type = zend_fetch_arg_info(script, ret_info, &ret->ce); if (op_array->fn_flags & ZEND_ACC_RETURN_REFERENCE) { ret->type |= MAY_BE_REF; } else if (ret->type & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)) { ret->type |= MAY_BE_RC1|MAY_BE_RCN; } ret->is_instanceof = (ret->ce) ? 1 : 0; ret->range = tmp_range; ret->has_range = 0; } } void zend_func_return_info(const zend_op_array *op_array, const zend_script *script, int recursive, int widening, zend_ssa_var_info *ret) { zend_func_info *info = ZEND_FUNC_INFO(op_array); zend_ssa *ssa = &info->ssa; int blocks_count = info->ssa.cfg.blocks_count; zend_basic_block *blocks = info->ssa.cfg.blocks; int j; uint32_t t1; uint32_t tmp = 0; zend_class_entry *tmp_ce = NULL; int tmp_is_instanceof = -1; zend_class_entry *arg_ce; int arg_is_instanceof; zend_ssa_range tmp_range = {0, 0, 0, 0}; int tmp_has_range = -1; if (op_array->fn_flags & ZEND_ACC_GENERATOR) { ret->type = MAY_BE_OBJECT | MAY_BE_RC1 | MAY_BE_RCN; ret->ce = zend_ce_generator; ret->is_instanceof = 0; ret->range = tmp_range; ret->has_range = 0; return; } for (j = 0; j < blocks_count; j++) { if ((blocks[j].flags & ZEND_BB_REACHABLE) && blocks[j].len != 0) { zend_op *opline = op_array->opcodes + blocks[j].start + blocks[j].len - 1; if (opline->opcode == ZEND_RETURN || opline->opcode == ZEND_RETURN_BY_REF) { if (!recursive && info->ssa.ops && info->ssa.var_info && info->ssa.ops[opline - op_array->opcodes].op1_use >= 0 && info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].recursive) { continue; } if (is_recursive_tail_call(op_array, opline)) { continue; } t1 = OP1_INFO(); if (t1 & MAY_BE_UNDEF) { t1 |= MAY_BE_NULL; } if (opline->opcode == ZEND_RETURN) { if (t1 & MAY_BE_RC1) { t1 |= MAY_BE_RCN; } t1 &= ~(MAY_BE_UNDEF | MAY_BE_REF); } else { t1 |= MAY_BE_REF; t1 &= ~(MAY_BE_UNDEF | MAY_BE_RC1 | MAY_BE_RCN); } tmp |= t1; if (info->ssa.ops && info->ssa.var_info && info->ssa.ops[opline - op_array->opcodes].op1_use >= 0 && info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].ce) { arg_ce = info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].ce; arg_is_instanceof = info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].is_instanceof; } else { arg_ce = NULL; arg_is_instanceof = 0; } if (tmp_is_instanceof < 0) { tmp_ce = arg_ce; tmp_is_instanceof = arg_is_instanceof; } else if (arg_ce && arg_ce == tmp_ce) { if (tmp_is_instanceof != arg_is_instanceof) { tmp_is_instanceof = 1; } } else { tmp_ce = NULL; tmp_is_instanceof = 0; } if (opline->op1_type == IS_CONST) { zval *zv = CRT_CONSTANT_EX(op_array, opline, opline->op1, info->ssa.rt_constants); if (Z_TYPE_P(zv) == IS_NULL) { if (tmp_has_range < 0) { tmp_has_range = 1; tmp_range.underflow = 0; tmp_range.min = 0; tmp_range.max = 0; tmp_range.overflow = 0; } else if (tmp_has_range) { if (!tmp_range.underflow) { tmp_range.min = MIN(tmp_range.min, 0); } if (!tmp_range.overflow) { tmp_range.max = MAX(tmp_range.max, 0); } } } else if (Z_TYPE_P(zv) == IS_FALSE) { if (tmp_has_range < 0) { tmp_has_range = 1; tmp_range.underflow = 0; tmp_range.min = 0; tmp_range.max = 0; tmp_range.overflow = 0; } else if (tmp_has_range) { if (!tmp_range.underflow) { tmp_range.min = MIN(tmp_range.min, 0); } if (!tmp_range.overflow) { tmp_range.max = MAX(tmp_range.max, 0); } } } else if (Z_TYPE_P(zv) == IS_TRUE) { if (tmp_has_range < 0) { tmp_has_range = 1; tmp_range.underflow = 0; tmp_range.min = 1; tmp_range.max = 1; tmp_range.overflow = 0; } else if (tmp_has_range) { if (!tmp_range.underflow) { tmp_range.min = MIN(tmp_range.min, 1); } if (!tmp_range.overflow) { tmp_range.max = MAX(tmp_range.max, 1); } } } else if (Z_TYPE_P(zv) == IS_LONG) { if (tmp_has_range < 0) { tmp_has_range = 1; tmp_range.underflow = 0; tmp_range.min = Z_LVAL_P(zv); tmp_range.max = Z_LVAL_P(zv); tmp_range.overflow = 0; } else if (tmp_has_range) { if (!tmp_range.underflow) { tmp_range.min = MIN(tmp_range.min, Z_LVAL_P(zv)); } if (!tmp_range.overflow) { tmp_range.max = MAX(tmp_range.max, Z_LVAL_P(zv)); } } } else { tmp_has_range = 0; } } else if (info->ssa.ops && info->ssa.var_info && info->ssa.ops[opline - op_array->opcodes].op1_use >= 0) { if (info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].has_range) { if (tmp_has_range < 0) { tmp_has_range = 1; tmp_range = info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range; } else if (tmp_has_range) { /* union */ if (info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.underflow) { tmp_range.underflow = 1; tmp_range.min = ZEND_LONG_MIN; } else { tmp_range.min = MIN(tmp_range.min, info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.min); } if (info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.overflow) { tmp_range.overflow = 1; tmp_range.max = ZEND_LONG_MAX; } else { tmp_range.max = MAX(tmp_range.max, info->ssa.var_info[info->ssa.ops[opline - op_array->opcodes].op1_use].range.max); } } } else if (!widening) { tmp_has_range = 1; tmp_range.underflow = 1; tmp_range.min = ZEND_LONG_MIN; tmp_range.max = ZEND_LONG_MAX; tmp_range.overflow = 1; } } else { tmp_has_range = 0; } } } } if (!(op_array->fn_flags & ZEND_ACC_HAS_RETURN_TYPE)) { if (tmp_is_instanceof < 0) { tmp_is_instanceof = 0; tmp_ce = NULL; } if (tmp_has_range < 0) { tmp_has_range = 0; } ret->type = tmp; ret->ce = tmp_ce; ret->is_instanceof = tmp_is_instanceof; } ret->range = tmp_range; ret->has_range = tmp_has_range; } static int zend_infer_types(const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa, zend_long optimization_level) { zend_ssa_var_info *ssa_var_info = ssa->var_info; int ssa_vars_count = ssa->vars_count; int j; zend_bitset worklist; ALLOCA_FLAG(use_heap); worklist = do_alloca(sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count), use_heap); memset(worklist, 0, sizeof(zend_ulong) * zend_bitset_len(ssa_vars_count)); /* Type Inference */ for (j = op_array->last_var; j < ssa_vars_count; j++) { zend_bitset_incl(worklist, j); ssa_var_info[j].type = 0; } if (zend_infer_types_ex(op_array, script, ssa, worklist, optimization_level) != SUCCESS) { free_alloca(worklist, use_heap); return FAILURE; } /* Narrowing integer initialization to doubles */ zend_type_narrowing(op_array, script, ssa, optimization_level); if (ZEND_FUNC_INFO(op_array)) { zend_func_return_info(op_array, script, 1, 0, &ZEND_FUNC_INFO(op_array)->return_info); } free_alloca(worklist, use_heap); return SUCCESS; } int zend_ssa_inference(zend_arena **arena, const zend_op_array *op_array, const zend_script *script, zend_ssa *ssa, zend_long optimization_level) /* {{{ */ { zend_ssa_var_info *ssa_var_info; int i; if (!ssa->var_info) { ssa->var_info = zend_arena_calloc(arena, ssa->vars_count, sizeof(zend_ssa_var_info)); } ssa_var_info = ssa->var_info; if (!op_array->function_name) { for (i = 0; i < op_array->last_var; i++) { 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; ssa_var_info[i].has_range = 0; } } else { for (i = 0; i < op_array->last_var; i++) { ssa_var_info[i].type = MAY_BE_UNDEF; ssa_var_info[i].has_range = 0; if (ssa->vars[i].alias) { ssa_var_info[i].type |= get_ssa_alias_types(ssa->vars[i].alias); } } } for (i = op_array->last_var; i < ssa->vars_count; i++) { ssa_var_info[i].type = 0; ssa_var_info[i].has_range = 0; } if (zend_infer_ranges(op_array, ssa) != SUCCESS) { return FAILURE; } if (zend_infer_types(op_array, script, ssa, optimization_level) != SUCCESS) { return FAILURE; } return SUCCESS; } /* }}} */ void zend_inference_check_recursive_dependencies(zend_op_array *op_array) { zend_func_info *info = ZEND_FUNC_INFO(op_array); zend_call_info *call_info; zend_bitset worklist; int worklist_len, i; ALLOCA_FLAG(use_heap); if (!info->ssa.var_info || !(info->flags & ZEND_FUNC_RECURSIVE)) { return; } worklist_len = zend_bitset_len(info->ssa.vars_count); worklist = do_alloca(sizeof(zend_ulong) * worklist_len, use_heap); memset(worklist, 0, sizeof(zend_ulong) * worklist_len); call_info = info->callee_info; while (call_info) { if (call_info->recursive && call_info->caller_call_opline && info->ssa.ops[call_info->caller_call_opline - op_array->opcodes].result_def >= 0) { zend_bitset_incl(worklist, info->ssa.ops[call_info->caller_call_opline - op_array->opcodes].result_def); } call_info = call_info->next_callee; } WHILE_WORKLIST(worklist, worklist_len, i) { if (!info->ssa.var_info[i].recursive) { info->ssa.var_info[i].recursive = 1; add_usages(op_array, &info->ssa, worklist, i); } } WHILE_WORKLIST_END(); free_alloca(worklist, use_heap); } int zend_may_throw(const zend_op *opline, zend_op_array *op_array, zend_ssa *ssa) { uint32_t t1 = OP1_INFO(); uint32_t t2 = OP2_INFO(); if (opline->op1_type == IS_CV) { if (t1 & MAY_BE_UNDEF) { switch (opline->opcode) { case ZEND_UNSET_VAR: case ZEND_ISSET_ISEMPTY_VAR: return 1; case ZEND_ISSET_ISEMPTY_DIM_OBJ: case ZEND_ISSET_ISEMPTY_PROP_OBJ: case ZEND_ASSIGN: case ZEND_ASSIGN_DIM: case ZEND_ASSIGN_REF: case ZEND_BIND_GLOBAL: case ZEND_BIND_STATIC: case ZEND_FETCH_DIM_IS: case ZEND_FETCH_OBJ_IS: case ZEND_SEND_REF: case ZEND_UNSET_CV: case ZEND_ISSET_ISEMPTY_CV: break; default: /* undefined variable warning */ return 1; } } } else if (opline->op1_type & (IS_TMP_VAR|IS_VAR)) { if (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_ARRAY_OF_OBJECT|MAY_BE_ARRAY_OF_RESOURCE|MAY_BE_ARRAY_OF_ARRAY)) { switch (opline->opcode) { case ZEND_CASE: case ZEND_FE_FETCH_R: case ZEND_FE_FETCH_RW: case ZEND_FETCH_LIST_R: case ZEND_QM_ASSIGN: case ZEND_SEND_VAL: case ZEND_SEND_VAL_EX: case ZEND_SEND_VAR: case ZEND_SEND_VAR_EX: case ZEND_SEND_FUNC_ARG: case ZEND_SEND_VAR_NO_REF: case ZEND_SEND_VAR_NO_REF_EX: case ZEND_SEND_REF: case ZEND_SEPARATE: case ZEND_END_SILENCE: break; default: /* destructor may be called */ return 1; } } } if (opline->op2_type == IS_CV) { if (t2 & MAY_BE_UNDEF) { switch (opline->opcode) { case ZEND_ASSIGN_REF: break; default: /* undefined variable warning */ return 1; } } } else if (opline->op2_type & (IS_TMP_VAR|IS_VAR)) { if (t2 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_ARRAY_OF_OBJECT|MAY_BE_ARRAY_OF_RESOURCE|MAY_BE_ARRAY_OF_ARRAY)) { switch (opline->opcode) { case ZEND_ASSIGN: break; default: /* destructor may be called */ return 1; } } } switch (opline->opcode) { case ZEND_NOP: case ZEND_IS_IDENTICAL: case ZEND_IS_NOT_IDENTICAL: case ZEND_QM_ASSIGN: case ZEND_JMP: case ZEND_CHECK_VAR: case ZEND_MAKE_REF: case ZEND_SEND_VAR: case ZEND_BEGIN_SILENCE: case ZEND_END_SILENCE: case ZEND_SEND_VAL: case ZEND_SEND_REF: case ZEND_SEND_VAR_EX: case ZEND_SEND_FUNC_ARG: case ZEND_FREE: case ZEND_SEPARATE: case ZEND_TYPE_CHECK: case ZEND_DEFINED: case ZEND_ISSET_ISEMPTY_THIS: case ZEND_COALESCE: case ZEND_SWITCH_LONG: case ZEND_SWITCH_STRING: case ZEND_ISSET_ISEMPTY_VAR: case ZEND_ISSET_ISEMPTY_CV: case ZEND_FUNC_NUM_ARGS: case ZEND_FUNC_GET_ARGS: case ZEND_COPY_TMP: return 0; case ZEND_INIT_FCALL: /* can't throw, because call is resolved at compile time */ return 0; case ZEND_BIND_GLOBAL: if ((opline+1)->opcode == ZEND_BIND_GLOBAL) { return zend_may_throw(opline + 1, op_array, ssa); } return 0; case ZEND_ADD: if ((t1 & MAY_BE_ANY) == MAY_BE_ARRAY && (t2 & MAY_BE_ANY) == MAY_BE_ARRAY) { return 0; } return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); case ZEND_DIV: case ZEND_MOD: if (!OP2_HAS_RANGE() || (OP2_MIN_RANGE() <= 0 && OP2_MAX_RANGE() >= 0)) { /* Division by zero */ return 1; } /* break missing intentionally */ case ZEND_SUB: case ZEND_MUL: case ZEND_POW: return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); case ZEND_SL: case ZEND_SR: return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || !OP2_HAS_RANGE() || OP2_MIN_RANGE() < 0; case ZEND_CONCAT: case ZEND_FAST_CONCAT: return (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT)); case ZEND_BW_OR: case ZEND_BW_AND: case ZEND_BW_XOR: if ((t1 & MAY_BE_ANY) == MAY_BE_STRING && (t2 & MAY_BE_ANY) == MAY_BE_STRING) { return 0; } return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); case ZEND_BW_NOT: return (t1 & (MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_TRUE|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)); case ZEND_BOOL_NOT: case ZEND_PRE_INC: case ZEND_POST_INC: case ZEND_PRE_DEC: case ZEND_POST_DEC: case ZEND_JMPZ: case ZEND_JMPNZ: case ZEND_JMPZNZ: case ZEND_JMPZ_EX: case ZEND_JMPNZ_EX: case ZEND_BOOL: case ZEND_JMP_SET: return (t1 & MAY_BE_OBJECT); case ZEND_BOOL_XOR: return (t1 & MAY_BE_OBJECT) || (t2 & MAY_BE_OBJECT); case ZEND_IS_EQUAL: case ZEND_IS_NOT_EQUAL: case ZEND_IS_SMALLER: case ZEND_IS_SMALLER_OR_EQUAL: case ZEND_CASE: case ZEND_SPACESHIP: if ((t1 & MAY_BE_ANY) == MAY_BE_NULL || (t2 & MAY_BE_ANY) == MAY_BE_NULL) { return 0; } 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)); case ZEND_ASSIGN_OP: if (opline->extended_value == ZEND_ADD) { if ((t1 & MAY_BE_ANY) == MAY_BE_ARRAY && (t2 & MAY_BE_ANY) == MAY_BE_ARRAY) { return 0; } return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); } else if (opline->extended_value == ZEND_DIV || opline->extended_value == ZEND_MOD) { if (!OP2_HAS_RANGE() || (OP2_MIN_RANGE() <= 0 && OP2_MAX_RANGE() >= 0)) { /* Division by zero */ return 1; } return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); } else if (opline->extended_value == ZEND_SUB || opline->extended_value == ZEND_MUL || opline->extended_value == ZEND_POW) { return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); } else if (opline->extended_value == ZEND_SL || opline->extended_value == ZEND_SR) { return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || !OP2_HAS_RANGE() || OP2_MIN_RANGE() < 0; } else if (opline->extended_value == ZEND_CONCAT) { return (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT)); } else if (opline->extended_value == ZEND_BW_OR || opline->extended_value == ZEND_BW_AND || opline->extended_value == ZEND_BW_XOR) { if ((t1 & MAY_BE_ANY) == MAY_BE_STRING && (t2 & MAY_BE_ANY) == MAY_BE_STRING) { return 0; } return (t1 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)) || (t2 & (MAY_BE_STRING|MAY_BE_ARRAY|MAY_BE_OBJECT)); } return 1; case ZEND_ASSIGN: if (t1 & MAY_BE_REF) { return 1; } case ZEND_BIND_STATIC: case ZEND_UNSET_VAR: return (t1 & (MAY_BE_OBJECT|MAY_BE_RESOURCE|MAY_BE_ARRAY_OF_OBJECT|MAY_BE_ARRAY_OF_RESOURCE|MAY_BE_ARRAY_OF_ARRAY)); case ZEND_ASSIGN_DIM: if ((opline+1)->op1_type == IS_CV) { if (_ssa_op1_info(op_array, ssa, opline+1) & MAY_BE_UNDEF) { return 1; } } 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 || (t2 & (MAY_BE_UNDEF|MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)); case ZEND_ASSIGN_OBJ: if (t1 & (MAY_BE_ANY-(MAY_BE_NULL|MAY_BE_FALSE|MAY_BE_OBJECT))) { return 1; } if (ssa->ops[opline - op_array->opcodes].op1_use) { zend_ssa_var_info *var_info = ssa->var_info + ssa->ops[opline - op_array->opcodes].op1_use; zend_class_entry *ce = var_info->ce; if (var_info->is_instanceof || !ce || ce->create_object || ce->__get || ce->__set || (ce->ce_flags & ZEND_ACC_INHERITED)) { return 1; } if (op_array->scope != ce && ce->default_properties_count) { zend_property_info *prop_info; if (opline->op2_type == IS_CONST) { prop_info = zend_hash_find_ptr(&ce->properties_info, Z_STR_P(CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants))); if (prop_info && !(prop_info->flags & ZEND_ACC_PUBLIC)) { return 1; } } else { if (t2 & (MAY_BE_ANY-MAY_BE_STRING)) { return 1; } ZEND_HASH_FOREACH_PTR(&ce->properties_info, prop_info) { if (!(prop_info->flags & ZEND_ACC_PUBLIC)) { return 1; } } ZEND_HASH_FOREACH_END(); } } return 0; } return 1; case ZEND_ROPE_INIT: case ZEND_ROPE_ADD: case ZEND_ROPE_END: return t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT); case ZEND_INIT_ARRAY: case ZEND_ADD_ARRAY_ELEMENT: return (opline->op2_type != IS_UNUSED) && (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)); case ZEND_STRLEN: return (t1 & MAY_BE_ANY) != MAY_BE_STRING; case ZEND_COUNT: return (t1 & MAY_BE_ANY) != MAY_BE_ARRAY; case ZEND_RECV_INIT: if (Z_TYPE_P(CRT_CONSTANT_EX(op_array, opline, opline->op2, ssa->rt_constants)) == IS_CONSTANT_AST) { return 1; } if (op_array->fn_flags & ZEND_ACC_HAS_TYPE_HINTS) { uint32_t arg_num = opline->op1.num; zend_arg_info *cur_arg_info; if (EXPECTED(arg_num <= op_array->num_args)) { cur_arg_info = &op_array->arg_info[arg_num-1]; } else if (UNEXPECTED(op_array->fn_flags & ZEND_ACC_VARIADIC)) { cur_arg_info = &op_array->arg_info[op_array->num_args]; } else { return 0; } return ZEND_TYPE_IS_SET(cur_arg_info->type); } else { return 0; } case ZEND_FETCH_IS: return (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT)); case ZEND_ISSET_ISEMPTY_DIM_OBJ: return (t1 & MAY_BE_OBJECT) || (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT)); case ZEND_FETCH_DIM_IS: return (t1 & MAY_BE_OBJECT) || (t2 & (MAY_BE_ARRAY|MAY_BE_OBJECT|MAY_BE_RESOURCE)); case ZEND_CAST: switch (opline->extended_value) { case IS_NULL: return 0; case _IS_BOOL: return (t1 & MAY_BE_OBJECT); case IS_LONG: case IS_DOUBLE: return (t1 & MAY_BE_OBJECT); case IS_STRING: return (t1 & (MAY_BE_ARRAY|MAY_BE_OBJECT)); case IS_ARRAY: return (t1 & MAY_BE_OBJECT); case IS_OBJECT: return (t1 & MAY_BE_ARRAY); default: return 1; } default: return 1; } }