/* +----------------------------------------------------------------------+ | PHP Version 7 | +----------------------------------------------------------------------+ | Copyright (c) 1997-2015 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: Felipe Pena | | Authors: Joe Watkins | | Authors: Bob Weinand | +----------------------------------------------------------------------+ */ #include "phpdbg_btree.h" #include "phpdbg.h" #define CHOOSE_BRANCH(n) \ branch = branch->branches[!!(n)]; #ifdef _Win32 # define emalloc malloc # define efree free #endif /* depth in bits */ void phpdbg_btree_init(phpdbg_btree *tree, zend_ulong depth) { tree->depth = depth; tree->branch = NULL; tree->count = 0; } phpdbg_btree_result *phpdbg_btree_find(phpdbg_btree *tree, zend_ulong idx) { phpdbg_btree_branch *branch = tree->branch; int i = tree->depth - 1; if (branch == NULL) { return NULL; } do { if ((idx >> i) % 2 == 1) { if (branch->branches[1]) { CHOOSE_BRANCH(1); } else { return NULL; } } else { if (branch->branches[0]) { CHOOSE_BRANCH(0); } else { return NULL; } } } while (i--); return &branch->result; } phpdbg_btree_result *phpdbg_btree_find_closest(phpdbg_btree *tree, zend_ulong idx) { phpdbg_btree_branch *branch = tree->branch; int i = tree->depth - 1, last_superior_i = -1; if (branch == NULL) { return NULL; } /* find nearest watchpoint */ do { if ((idx >> i) % 2 == 0) { if (branch->branches[0]) { CHOOSE_BRANCH(0); /* an impossible branch was found if: */ } else { /* there's no lower branch than idx */ if (last_superior_i == -1) { /* failure */ return NULL; } /* reset state */ branch = tree->branch; i = tree->depth - 1; /* follow branch according to bits in idx until the last lower branch before the impossible branch */ do { CHOOSE_BRANCH((idx >> i) % 2 == 1 && branch->branches[1]); } while (--i > last_superior_i); /* use now the lower branch of which we can be sure that it contains only branches lower than idx */ CHOOSE_BRANCH(0); /* and choose the highest possible branch in the branch containing only branches lower than idx */ while (i--) { CHOOSE_BRANCH(branch->branches[1]); } break; } /* follow branch according to bits in idx until having found an impossible branch */ } else { if (branch->branches[1]) { if (branch->branches[0]) { last_superior_i = i; } CHOOSE_BRANCH(1); } else { CHOOSE_BRANCH(0); while (i--) { CHOOSE_BRANCH(branch->branches[1]); } break; } } } while (i--); return &branch->result; } phpdbg_btree_position phpdbg_btree_find_between(phpdbg_btree *tree, zend_ulong lower_idx, zend_ulong higher_idx) { phpdbg_btree_position pos; pos.tree = tree; pos.end = lower_idx; pos.cur = higher_idx; return pos; } phpdbg_btree_result *phpdbg_btree_next(phpdbg_btree_position *pos) { phpdbg_btree_result *result = phpdbg_btree_find_closest(pos->tree, pos->cur); if (result == NULL || result->idx < pos->end) { return NULL; } pos->cur = result->idx - 1; return result; } int phpdbg_btree_insert_or_update(phpdbg_btree *tree, zend_ulong idx, void *ptr, int flags) { int i = tree->depth - 1; phpdbg_btree_branch **branch = &tree->branch; do { if (*branch == NULL) { break; } branch = &(*branch)->branches[(idx >> i) % 2]; } while (i--); if (*branch == NULL) { if (!(flags & PHPDBG_BTREE_INSERT)) { return FAILURE; } { phpdbg_btree_branch *memory = *branch = emalloc((i + 2) * sizeof(phpdbg_btree_branch)); do { (*branch)->branches[!((idx >> i) % 2)] = NULL; branch = &(*branch)->branches[(idx >> i) % 2]; *branch = ++memory; } while (i--); tree->count++; } } else if (!(flags & PHPDBG_BTREE_UPDATE)) { return FAILURE; } (*branch)->result.idx = idx; (*branch)->result.ptr = ptr; return SUCCESS; } int phpdbg_btree_delete(phpdbg_btree *tree, zend_ulong idx) { int i = tree->depth; phpdbg_btree_branch *branch = tree->branch; int i_last_dual_branch = -1, last_dual_branch_branch; phpdbg_btree_branch *last_dual_branch = NULL; goto check_branch_existence; do { if (branch->branches[0] && branch->branches[1]) { last_dual_branch = branch; i_last_dual_branch = i; last_dual_branch_branch = (idx >> i) % 2; } branch = branch->branches[(idx >> i) % 2]; check_branch_existence: if (branch == NULL) { return FAILURE; } } while (i--); tree->count--; if (i_last_dual_branch == -1) { efree(tree->branch); tree->branch = NULL; } else { if (last_dual_branch->branches[last_dual_branch_branch] == last_dual_branch + 1) { phpdbg_btree_branch *original_branch = last_dual_branch->branches[!last_dual_branch_branch]; memcpy(last_dual_branch + 1, last_dual_branch->branches[!last_dual_branch_branch], (i_last_dual_branch + 1) * sizeof(phpdbg_btree_branch)); efree(last_dual_branch->branches[!last_dual_branch_branch]); last_dual_branch->branches[!last_dual_branch_branch] = last_dual_branch + 1; branch = last_dual_branch->branches[!last_dual_branch_branch]; for (i = i_last_dual_branch; i--;) { branch = (branch->branches[branch->branches[1] == ++original_branch] = last_dual_branch + i_last_dual_branch - i + 1); } } else { efree(last_dual_branch->branches[last_dual_branch_branch]); } last_dual_branch->branches[last_dual_branch_branch] = NULL; } return SUCCESS; } void phpdbg_btree_branch_dump(phpdbg_btree_branch *branch, zend_ulong depth) { if (branch) { if (depth--) { phpdbg_btree_branch_dump(branch->branches[0], depth); phpdbg_btree_branch_dump(branch->branches[1], depth); } else { fprintf(stderr, "%p: %p\n", (void *) branch->result.idx, branch->result.ptr); } } } void phpdbg_btree_dump(phpdbg_btree *tree) { phpdbg_btree_branch_dump(tree->branch, tree->depth); }