/* +----------------------------------------------------------------------+ | Zend Engine, CFG - Control Flow Graph | +----------------------------------------------------------------------+ | Copyright (c) 1998-2018 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_cfg.h" #include "zend_func_info.h" #include "zend_worklist.h" #include "zend_optimizer.h" #include "zend_optimizer_internal.h" static void zend_mark_reachable(zend_op *opcodes, zend_cfg *cfg, zend_basic_block *b) /* {{{ */ { zend_uchar opcode; zend_basic_block *b0; int successor_0, successor_1; zend_basic_block *blocks = cfg->blocks; while (1) { b->flags |= ZEND_BB_REACHABLE; successor_0 = b->successors[0]; if (successor_0 >= 0) { successor_1 = b->successors[1]; if (successor_1 >= 0) { b0 = blocks + successor_0; b0->flags |= ZEND_BB_TARGET; if (!(b0->flags & ZEND_BB_REACHABLE)) { zend_mark_reachable(opcodes, cfg, b0); } ZEND_ASSERT(b->len != 0); opcode = opcodes[b->start + b->len - 1].opcode; b = blocks + successor_1; if (opcode == ZEND_JMPZNZ) { b->flags |= ZEND_BB_TARGET; } else { b->flags |= ZEND_BB_FOLLOW; } } else if (b->len != 0) { opcode = opcodes[b->start + b->len - 1].opcode; b = blocks + successor_0; if (opcode == ZEND_JMP) { b->flags |= ZEND_BB_TARGET; } else { b->flags |= ZEND_BB_FOLLOW; if (cfg->split_at_calls) { if (opcode == ZEND_INCLUDE_OR_EVAL || opcode == ZEND_GENERATOR_CREATE || opcode == ZEND_YIELD || opcode == ZEND_YIELD_FROM || opcode == ZEND_DO_FCALL || opcode == ZEND_DO_UCALL || opcode == ZEND_DO_FCALL_BY_NAME) { b->flags |= ZEND_BB_ENTRY; } } if (cfg->split_at_recv) { if (opcode == ZEND_RECV || opcode == ZEND_RECV_INIT) { b->flags |= ZEND_BB_RECV_ENTRY; } } } } else { b = blocks + successor_0; b->flags |= ZEND_BB_FOLLOW; } if (b->flags & ZEND_BB_REACHABLE) return; } else { b->flags |= ZEND_BB_EXIT; return; } } } /* }}} */ static void zend_mark_reachable_blocks(const zend_op_array *op_array, zend_cfg *cfg, int start) /* {{{ */ { zend_basic_block *blocks = cfg->blocks; blocks[start].flags = ZEND_BB_START; zend_mark_reachable(op_array->opcodes, cfg, blocks + start); if (op_array->last_live_range || op_array->last_try_catch) { zend_basic_block *b; int j, changed; uint32_t *block_map = cfg->map; do { changed = 0; /* Add live range paths */ for (j = 0; j < op_array->last_live_range; j++) { zend_live_range *live_range = &op_array->live_range[j]; if (live_range->var == (uint32_t)-1) { /* this live range already removed */ continue; } b = blocks + block_map[live_range->start]; if (b->flags & ZEND_BB_REACHABLE) { while (b->len > 0 && op_array->opcodes[b->start].opcode == ZEND_NOP) { /* check if NOP breaks incorrect smart branch */ if (b->len == 2 && (op_array->opcodes[b->start + 1].opcode == ZEND_JMPZ || op_array->opcodes[b->start + 1].opcode == ZEND_JMPNZ) && (op_array->opcodes[b->start + 1].op1_type & (IS_CV|IS_CONST)) && b->start > 0 && zend_is_smart_branch(op_array->opcodes + b->start - 1)) { break; } b->start++; b->len--; } if (b->len == 0 && (uint32_t)b->successors[0] == block_map[live_range->end]) { /* mark as removed (empty live range) */ live_range->var = (uint32_t)-1; continue; } b->flags |= ZEND_BB_GEN_VAR; b = blocks + block_map[live_range->end]; b->flags |= ZEND_BB_KILL_VAR; if (!(b->flags & (ZEND_BB_REACHABLE|ZEND_BB_UNREACHABLE_FREE))) { if (cfg->split_at_live_ranges) { changed = 1; zend_mark_reachable(op_array->opcodes, cfg, b); } else { ZEND_ASSERT(b->start == live_range->end); b->flags |= ZEND_BB_UNREACHABLE_FREE; } } } else { ZEND_ASSERT(!(blocks[block_map[live_range->end]].flags & ZEND_BB_REACHABLE)); } } /* Add exception paths */ for (j = 0; j < op_array->last_try_catch; j++) { /* check for jumps into the middle of try block */ b = blocks + block_map[op_array->try_catch_array[j].try_op]; if (!(b->flags & ZEND_BB_REACHABLE)) { zend_basic_block *end; if (op_array->try_catch_array[j].catch_op) { end = blocks + block_map[op_array->try_catch_array[j].catch_op]; while (b != end) { if (b->flags & ZEND_BB_REACHABLE) { op_array->try_catch_array[j].try_op = b->start; break; } b++; } } b = blocks + block_map[op_array->try_catch_array[j].try_op]; if (!(b->flags & ZEND_BB_REACHABLE)) { if (op_array->try_catch_array[j].finally_op) { end = blocks + block_map[op_array->try_catch_array[j].finally_op]; while (b != end) { if (b->flags & ZEND_BB_REACHABLE) { op_array->try_catch_array[j].try_op = op_array->try_catch_array[j].catch_op; changed = 1; zend_mark_reachable(op_array->opcodes, cfg, blocks + block_map[op_array->try_catch_array[j].try_op]); break; } b++; } } } } b = blocks + block_map[op_array->try_catch_array[j].try_op]; if (b->flags & ZEND_BB_REACHABLE) { b->flags |= ZEND_BB_TRY; if (op_array->try_catch_array[j].catch_op) { b = blocks + block_map[op_array->try_catch_array[j].catch_op]; b->flags |= ZEND_BB_CATCH; if (!(b->flags & ZEND_BB_REACHABLE)) { changed = 1; zend_mark_reachable(op_array->opcodes, cfg, b); } } if (op_array->try_catch_array[j].finally_op) { b = blocks + block_map[op_array->try_catch_array[j].finally_op]; b->flags |= ZEND_BB_FINALLY; if (!(b->flags & ZEND_BB_REACHABLE)) { changed = 1; zend_mark_reachable(op_array->opcodes, cfg, b); } } if (op_array->try_catch_array[j].finally_end) { b = blocks + block_map[op_array->try_catch_array[j].finally_end]; b->flags |= ZEND_BB_FINALLY_END; if (!(b->flags & ZEND_BB_REACHABLE)) { changed = 1; zend_mark_reachable(op_array->opcodes, cfg, b); } } } else { if (op_array->try_catch_array[j].catch_op) { ZEND_ASSERT(!(blocks[block_map[op_array->try_catch_array[j].catch_op]].flags & ZEND_BB_REACHABLE)); } if (op_array->try_catch_array[j].finally_op) { ZEND_ASSERT(!(blocks[block_map[op_array->try_catch_array[j].finally_op]].flags & ZEND_BB_REACHABLE)); } if (op_array->try_catch_array[j].finally_end) { ZEND_ASSERT(!(blocks[block_map[op_array->try_catch_array[j].finally_end]].flags & ZEND_BB_REACHABLE)); } } } } while (changed); } } /* }}} */ void zend_cfg_remark_reachable_blocks(const zend_op_array *op_array, zend_cfg *cfg) /* {{{ */ { zend_basic_block *blocks = cfg->blocks; int i; int start = 0; for (i = 0; i < cfg->blocks_count; i++) { if (blocks[i].flags & ZEND_BB_REACHABLE) { start = i; i++; break; } } /* clear all flags */ for (i = 0; i < cfg->blocks_count; i++) { blocks[i].flags = 0; } zend_mark_reachable_blocks(op_array, cfg, start); } /* }}} */ static void record_successor(zend_basic_block *blocks, int pred, int n, int succ) { blocks[pred].successors[n] = succ; } static void initialize_block(zend_basic_block *block) { block->flags = 0; block->successors[0] = -1; block->successors[1] = -1; block->predecessors_count = 0; block->predecessor_offset = -1; block->idom = -1; block->loop_header = -1; block->level = -1; block->children = -1; block->next_child = -1; } #define BB_START(i) do { \ if (!block_map[i]) { blocks_count++;} \ block_map[i]++; \ } while (0) int zend_build_cfg(zend_arena **arena, const zend_op_array *op_array, uint32_t build_flags, zend_cfg *cfg, uint32_t *func_flags) /* {{{ */ { uint32_t flags = 0; uint32_t i; int j; uint32_t *block_map; zend_function *fn; int blocks_count = 0; zend_basic_block *blocks; zval *zv; zend_bool extra_entry_block = 0; cfg->split_at_live_ranges = (build_flags & ZEND_CFG_SPLIT_AT_LIVE_RANGES) != 0; cfg->split_at_calls = (build_flags & ZEND_CFG_STACKLESS) != 0; cfg->split_at_recv = (build_flags & ZEND_CFG_RECV_ENTRY) != 0 && (op_array->fn_flags & ZEND_ACC_HAS_TYPE_HINTS) == 0; cfg->map = block_map = zend_arena_calloc(arena, op_array->last, sizeof(uint32_t)); if (!block_map) { return FAILURE; } /* Build CFG, Step 1: Find basic blocks starts, calculate number of blocks */ BB_START(0); for (i = 0; i < op_array->last; i++) { zend_op *opline = op_array->opcodes + i; switch(opline->opcode) { case ZEND_RECV: case ZEND_RECV_INIT: if (build_flags & ZEND_CFG_RECV_ENTRY) { BB_START(i + 1); } break; case ZEND_RETURN: case ZEND_RETURN_BY_REF: case ZEND_GENERATOR_RETURN: case ZEND_EXIT: case ZEND_THROW: if (i + 1 < op_array->last) { BB_START(i + 1); } break; case ZEND_INCLUDE_OR_EVAL: flags |= ZEND_FUNC_INDIRECT_VAR_ACCESS; case ZEND_GENERATOR_CREATE: case ZEND_YIELD: case ZEND_YIELD_FROM: if (build_flags & ZEND_CFG_STACKLESS) { BB_START(i + 1); } break; case ZEND_DO_FCALL: case ZEND_DO_UCALL: case ZEND_DO_FCALL_BY_NAME: flags |= ZEND_FUNC_HAS_CALLS; if (build_flags & ZEND_CFG_STACKLESS) { BB_START(i + 1); } break; case ZEND_DO_ICALL: flags |= ZEND_FUNC_HAS_CALLS; break; case ZEND_INIT_FCALL: case ZEND_INIT_NS_FCALL_BY_NAME: zv = CRT_CONSTANT(opline->op2); if (opline->opcode == ZEND_INIT_NS_FCALL_BY_NAME) { /* The third literal is the lowercased unqualified name */ zv += 2; } if ((fn = zend_hash_find_ptr(EG(function_table), Z_STR_P(zv))) != NULL) { if (fn->type == ZEND_INTERNAL_FUNCTION) { flags |= zend_optimizer_classify_function( Z_STR_P(zv), opline->extended_value); } } break; case ZEND_FAST_CALL: BB_START(OP_JMP_ADDR(opline, opline->op1) - op_array->opcodes); BB_START(i + 1); break; case ZEND_FAST_RET: if (i + 1 < op_array->last) { BB_START(i + 1); } break; case ZEND_JMP: BB_START(OP_JMP_ADDR(opline, opline->op1) - op_array->opcodes); if (i + 1 < op_array->last) { BB_START(i + 1); } break; case ZEND_JMPZNZ: BB_START(OP_JMP_ADDR(opline, opline->op2) - op_array->opcodes); BB_START(ZEND_OFFSET_TO_OPLINE_NUM(op_array, opline, opline->extended_value)); if (i + 1 < op_array->last) { BB_START(i + 1); } break; case ZEND_JMPZ: case ZEND_JMPNZ: case ZEND_JMPZ_EX: case ZEND_JMPNZ_EX: case ZEND_JMP_SET: case ZEND_COALESCE: case ZEND_ASSERT_CHECK: BB_START(OP_JMP_ADDR(opline, opline->op2) - op_array->opcodes); BB_START(i + 1); break; case ZEND_CATCH: if (!opline->result.num) { BB_START(ZEND_OFFSET_TO_OPLINE_NUM(op_array, opline, opline->extended_value)); } BB_START(i + 1); break; case ZEND_DECLARE_ANON_CLASS: case ZEND_DECLARE_ANON_INHERITED_CLASS: case ZEND_FE_FETCH_R: case ZEND_FE_FETCH_RW: BB_START(ZEND_OFFSET_TO_OPLINE_NUM(op_array, opline, opline->extended_value)); BB_START(i + 1); break; case ZEND_FE_RESET_R: case ZEND_FE_RESET_RW: BB_START(OP_JMP_ADDR(opline, opline->op2) - op_array->opcodes); BB_START(i + 1); break; case ZEND_UNSET_VAR: case ZEND_ISSET_ISEMPTY_VAR: if (((opline->extended_value & ZEND_FETCH_TYPE_MASK) == ZEND_FETCH_LOCAL) && !(opline->extended_value & ZEND_QUICK_SET)) { flags |= ZEND_FUNC_INDIRECT_VAR_ACCESS; } else if (((opline->extended_value & ZEND_FETCH_TYPE_MASK) == ZEND_FETCH_GLOBAL || (opline->extended_value & ZEND_FETCH_TYPE_MASK) == ZEND_FETCH_GLOBAL_LOCK) && !op_array->function_name) { flags |= ZEND_FUNC_INDIRECT_VAR_ACCESS; } break; case ZEND_FETCH_R: case ZEND_FETCH_W: case ZEND_FETCH_RW: case ZEND_FETCH_FUNC_ARG: case ZEND_FETCH_IS: case ZEND_FETCH_UNSET: if ((opline->extended_value & ZEND_FETCH_TYPE_MASK) == ZEND_FETCH_LOCAL) { flags |= ZEND_FUNC_INDIRECT_VAR_ACCESS; } else if (((opline->extended_value & ZEND_FETCH_TYPE_MASK) == ZEND_FETCH_GLOBAL || (opline->extended_value & ZEND_FETCH_TYPE_MASK) == ZEND_FETCH_GLOBAL_LOCK) && !op_array->function_name) { flags |= ZEND_FUNC_INDIRECT_VAR_ACCESS; } break; } } /* If the entry block has predecessors, we may need to split it */ if ((build_flags & ZEND_CFG_NO_ENTRY_PREDECESSORS) && op_array->last > 0 && block_map[0] > 1) { extra_entry_block = 1; } if (cfg->split_at_live_ranges) { for (j = 0; j < op_array->last_live_range; j++) { BB_START(op_array->live_range[j].start); BB_START(op_array->live_range[j].end); } } if (op_array->last_try_catch) { for (j = 0; j < op_array->last_try_catch; j++) { BB_START(op_array->try_catch_array[j].try_op); if (op_array->try_catch_array[j].catch_op) { BB_START(op_array->try_catch_array[j].catch_op); } if (op_array->try_catch_array[j].finally_op) { BB_START(op_array->try_catch_array[j].finally_op); } if (op_array->try_catch_array[j].finally_end) { BB_START(op_array->try_catch_array[j].finally_end); } } } blocks_count += extra_entry_block; cfg->blocks_count = blocks_count; /* Build CFG, Step 2: Build Array of Basic Blocks */ cfg->blocks = blocks = zend_arena_calloc(arena, sizeof(zend_basic_block), blocks_count); if (!blocks) { return FAILURE; } blocks_count = -1; if (extra_entry_block) { initialize_block(&blocks[0]); blocks[0].start = 0; blocks[0].len = 0; blocks_count++; } for (i = 0; i < op_array->last; i++) { if (block_map[i]) { if (blocks_count >= 0) { blocks[blocks_count].len = i - blocks[blocks_count].start; } blocks_count++; initialize_block(&blocks[blocks_count]); blocks[blocks_count].start = i; } block_map[i] = blocks_count; } blocks[blocks_count].len = i - blocks[blocks_count].start; blocks_count++; /* Build CFG, Step 3: Calculate successors */ for (j = 0; j < blocks_count; j++) { zend_op *opline; if (blocks[j].len == 0) { record_successor(blocks, j, 0, j + 1); continue; } opline = op_array->opcodes + blocks[j].start + blocks[j].len - 1; switch (opline->opcode) { case ZEND_FAST_RET: case ZEND_RETURN: case ZEND_RETURN_BY_REF: case ZEND_GENERATOR_RETURN: case ZEND_EXIT: case ZEND_THROW: break; case ZEND_JMP: record_successor(blocks, j, 0, block_map[OP_JMP_ADDR(opline, opline->op1) - op_array->opcodes]); break; case ZEND_JMPZNZ: record_successor(blocks, j, 0, block_map[OP_JMP_ADDR(opline, opline->op2) - op_array->opcodes]); record_successor(blocks, j, 1, block_map[ZEND_OFFSET_TO_OPLINE_NUM(op_array, opline, opline->extended_value)]); break; case ZEND_JMPZ: case ZEND_JMPNZ: case ZEND_JMPZ_EX: case ZEND_JMPNZ_EX: case ZEND_JMP_SET: case ZEND_COALESCE: case ZEND_ASSERT_CHECK: record_successor(blocks, j, 0, block_map[OP_JMP_ADDR(opline, opline->op2) - op_array->opcodes]); record_successor(blocks, j, 1, j + 1); break; case ZEND_CATCH: if (!opline->result.num) { record_successor(blocks, j, 0, block_map[ZEND_OFFSET_TO_OPLINE_NUM(op_array, opline, opline->extended_value)]); record_successor(blocks, j, 1, j + 1); } else { record_successor(blocks, j, 0, j + 1); } break; case ZEND_DECLARE_ANON_CLASS: case ZEND_DECLARE_ANON_INHERITED_CLASS: case ZEND_FE_FETCH_R: case ZEND_FE_FETCH_RW: record_successor(blocks, j, 0, block_map[ZEND_OFFSET_TO_OPLINE_NUM(op_array, opline, opline->extended_value)]); record_successor(blocks, j, 1, j + 1); break; case ZEND_FE_RESET_R: case ZEND_FE_RESET_RW: record_successor(blocks, j, 0, block_map[OP_JMP_ADDR(opline, opline->op2) - op_array->opcodes]); record_successor(blocks, j, 1, j + 1); break; case ZEND_FAST_CALL: record_successor(blocks, j, 0, block_map[OP_JMP_ADDR(opline, opline->op1) - op_array->opcodes]); record_successor(blocks, j, 1, j + 1); break; default: record_successor(blocks, j, 0, j + 1); break; } } /* Build CFG, Step 4, Mark Reachable Basic Blocks */ zend_mark_reachable_blocks(op_array, cfg, 0); if (func_flags) { *func_flags |= flags; } return SUCCESS; } /* }}} */ int zend_cfg_build_predecessors(zend_arena **arena, zend_cfg *cfg) /* {{{ */ { int j, edges; zend_basic_block *b; zend_basic_block *blocks = cfg->blocks; zend_basic_block *end = blocks + cfg->blocks_count; int *predecessors; edges = 0; for (b = blocks; b < end; b++) { b->predecessors_count = 0; } for (b = blocks; b < end; b++) { if (!(b->flags & ZEND_BB_REACHABLE)) { b->successors[0] = -1; b->successors[1] = -1; b->predecessors_count = 0; } else { if (b->successors[0] >= 0) { edges++; blocks[b->successors[0]].predecessors_count++; if (b->successors[1] >= 0 && b->successors[1] != b->successors[0]) { edges++; blocks[b->successors[1]].predecessors_count++; } } } } cfg->predecessors = predecessors = (int*)zend_arena_calloc(arena, sizeof(int), edges); if (!predecessors) { return FAILURE; } edges = 0; for (b = blocks; b < end; b++) { if (b->flags & ZEND_BB_REACHABLE) { b->predecessor_offset = edges; edges += b->predecessors_count; b->predecessors_count = 0; } } for (j = 0; j < cfg->blocks_count; j++) { if (blocks[j].flags & ZEND_BB_REACHABLE) { if (blocks[j].successors[0] >= 0) { zend_basic_block *b = blocks + blocks[j].successors[0]; predecessors[b->predecessor_offset + b->predecessors_count] = j; b->predecessors_count++; if (blocks[j].successors[1] >= 0 && blocks[j].successors[1] != blocks[j].successors[0]) { zend_basic_block *b = blocks + blocks[j].successors[1]; predecessors[b->predecessor_offset + b->predecessors_count] = j; b->predecessors_count++; } } } } return SUCCESS; } /* }}} */ /* Computes a postorder numbering of the CFG */ static void compute_postnum_recursive( int *postnum, int *cur, const zend_cfg *cfg, int block_num) /* {{{ */ { zend_basic_block *block = &cfg->blocks[block_num]; if (postnum[block_num] != -1) { return; } postnum[block_num] = -2; /* Marker for "currently visiting" */ if (block->successors[0] >= 0) { compute_postnum_recursive(postnum, cur, cfg, block->successors[0]); if (block->successors[1] >= 0) { compute_postnum_recursive(postnum, cur, cfg, block->successors[1]); } } postnum[block_num] = (*cur)++; } /* }}} */ /* Computes dominator tree using algorithm from "A Simple, Fast Dominance Algorithm" by * Cooper, Harvey and Kennedy. */ int zend_cfg_compute_dominators_tree(const zend_op_array *op_array, zend_cfg *cfg) /* {{{ */ { zend_basic_block *blocks = cfg->blocks; int blocks_count = cfg->blocks_count; int j, k, changed; ALLOCA_FLAG(use_heap) int *postnum = do_alloca(sizeof(int) * cfg->blocks_count, use_heap); memset(postnum, -1, sizeof(int) * cfg->blocks_count); j = 0; compute_postnum_recursive(postnum, &j, cfg, 0); /* FIXME: move declarations */ blocks[0].idom = 0; do { changed = 0; /* Iterating in RPO here would converge faster */ for (j = 1; j < blocks_count; j++) { int idom = -1; if ((blocks[j].flags & ZEND_BB_REACHABLE) == 0) { continue; } for (k = 0; k < blocks[j].predecessors_count; k++) { int pred = cfg->predecessors[blocks[j].predecessor_offset + k]; if (idom < 0) { if (blocks[pred].idom >= 0) idom = pred; continue; } if (blocks[pred].idom >= 0) { while (idom != pred) { while (postnum[pred] < postnum[idom]) pred = blocks[pred].idom; while (postnum[idom] < postnum[pred]) idom = blocks[idom].idom; } } } if (idom >= 0 && blocks[j].idom != idom) { blocks[j].idom = idom; changed = 1; } } } while (changed); blocks[0].idom = -1; for (j = 1; j < blocks_count; j++) { if ((blocks[j].flags & ZEND_BB_REACHABLE) == 0) { continue; } if (blocks[j].idom >= 0) { /* Sort by block number to traverse children in pre-order */ if (blocks[blocks[j].idom].children < 0 || j < blocks[blocks[j].idom].children) { blocks[j].next_child = blocks[blocks[j].idom].children; blocks[blocks[j].idom].children = j; } else { int k = blocks[blocks[j].idom].children; while (blocks[k].next_child >=0 && j > blocks[k].next_child) { k = blocks[k].next_child; } blocks[j].next_child = blocks[k].next_child; blocks[k].next_child = j; } } } for (j = 0; j < blocks_count; j++) { int idom = blocks[j].idom, level = 0; if ((blocks[j].flags & ZEND_BB_REACHABLE) == 0) { continue; } while (idom >= 0) { level++; if (blocks[idom].level >= 0) { level += blocks[idom].level; break; } else { idom = blocks[idom].idom; } } blocks[j].level = level; } free_alloca(postnum, use_heap); return SUCCESS; } /* }}} */ static int dominates(zend_basic_block *blocks, int a, int b) /* {{{ */ { while (blocks[b].level > blocks[a].level) { b = blocks[b].idom; } return a == b; } /* }}} */ typedef struct { int id; int level; } block_info; static int compare_block_level(const block_info *a, const block_info *b) { return b->level - a->level; } static void swap_blocks(block_info *a, block_info *b) { block_info tmp = *a; *a = *b; *b = tmp; } int zend_cfg_identify_loops(const zend_op_array *op_array, zend_cfg *cfg, uint32_t *flags) /* {{{ */ { int i, j, k, n; int time; zend_basic_block *blocks = cfg->blocks; int *entry_times, *exit_times; zend_worklist work; int flag = ZEND_FUNC_NO_LOOPS; block_info *sorted_blocks; ALLOCA_FLAG(list_use_heap) ALLOCA_FLAG(tree_use_heap) ALLOCA_FLAG(sorted_blocks_use_heap) ZEND_WORKLIST_ALLOCA(&work, cfg->blocks_count, list_use_heap); /* We don't materialize the DJ spanning tree explicitly, as we are only interested in ancestor * queries. These are implemented by checking entry/exit times of the DFS search. */ entry_times = do_alloca(2 * sizeof(int) * cfg->blocks_count, tree_use_heap); exit_times = entry_times + cfg->blocks_count; memset(entry_times, -1, 2 * sizeof(int) * cfg->blocks_count); zend_worklist_push(&work, 0); time = 0; while (zend_worklist_len(&work)) { next: i = zend_worklist_peek(&work); if (entry_times[i] == -1) { entry_times[i] = time++; } /* Visit blocks immediately dominated by i. */ for (j = blocks[i].children; j >= 0; j = blocks[j].next_child) { if (zend_worklist_push(&work, j)) { goto next; } } /* Visit join edges. */ for (j = 0; j < 2; j++) { int succ = blocks[i].successors[j]; if (succ < 0) { continue; } else if (blocks[succ].idom == i) { continue; } else if (zend_worklist_push(&work, succ)) { goto next; } } exit_times[i] = time++; zend_worklist_pop(&work); } /* Sort blocks by decreasing level, which is the order in which we want to process them */ sorted_blocks = do_alloca(sizeof(block_info) * cfg->blocks_count, sorted_blocks_use_heap); for (i = 0; i < cfg->blocks_count; i++) { sorted_blocks[i].id = i; sorted_blocks[i].level = blocks[i].level; } zend_sort(sorted_blocks, cfg->blocks_count, sizeof(block_info), (compare_func_t) compare_block_level, (swap_func_t) swap_blocks); /* Identify loops. See Sreedhar et al, "Identifying Loops Using DJ Graphs". */ for (n = 0; n < cfg->blocks_count; n++) { i = sorted_blocks[n].id; zend_bitset_clear(work.visited, zend_bitset_len(cfg->blocks_count)); for (j = 0; j < blocks[i].predecessors_count; j++) { int pred = cfg->predecessors[blocks[i].predecessor_offset + j]; /* A join edge is one for which the predecessor does not immediately dominate the successor. */ if (blocks[i].idom == pred) { continue; } /* In a loop back-edge (back-join edge), the successor dominates the predecessor. */ if (dominates(blocks, i, pred)) { blocks[i].flags |= ZEND_BB_LOOP_HEADER; flag &= ~ZEND_FUNC_NO_LOOPS; zend_worklist_push(&work, pred); } else { /* Otherwise it's a cross-join edge. See if it's a branch to an ancestor on the DJ spanning tree. */ if (entry_times[pred] > entry_times[i] && exit_times[pred] < exit_times[i]) { blocks[i].flags |= ZEND_BB_IRREDUCIBLE_LOOP; flag |= ZEND_FUNC_IRREDUCIBLE; flag &= ~ZEND_FUNC_NO_LOOPS; } } } while (zend_worklist_len(&work)) { j = zend_worklist_pop(&work); while (blocks[j].loop_header >= 0) { j = blocks[j].loop_header; } if (j != i) { blocks[j].loop_header = i; for (k = 0; k < blocks[j].predecessors_count; k++) { zend_worklist_push(&work, cfg->predecessors[blocks[j].predecessor_offset + k]); } } } } free_alloca(sorted_blocks, sorted_blocks_use_heap); free_alloca(entry_times, tree_use_heap); ZEND_WORKLIST_FREE_ALLOCA(&work, list_use_heap); *flags |= flag; return SUCCESS; } /* }}} */ /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * indent-tabs-mode: t * End: */