/* +----------------------------------------------------------------------+ | PHP Version 7 | +----------------------------------------------------------------------+ | 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: | | https://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: Benjamin Eberlei | +----------------------------------------------------------------------+ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "php.h" #if defined(HAVE_LIBXML) && defined(HAVE_DOM) #include "php_dom.h" /* {{{ firstElementChild DomParentNode readonly=yes URL: https://www.w3.org/TR/dom/#dom-parentnode-firstelementchild */ int dom_parent_node_first_element_child_read(dom_object *obj, zval *retval) { xmlNode *nodep, *first = NULL; nodep = dom_object_get_node(obj); if (nodep == NULL) { php_dom_throw_error(INVALID_STATE_ERR, 1); return FAILURE; } if (dom_node_children_valid(nodep) == SUCCESS) { first = nodep->children; while (first && first->type != XML_ELEMENT_NODE) { first = first->next; } } if (!first) { ZVAL_NULL(retval); return SUCCESS; } php_dom_create_object(first, retval, obj); return SUCCESS; } /* }}} */ /* {{{ lastElementChild DomParentNode readonly=yes URL: https://www.w3.org/TR/dom/#dom-parentnode-lastelementchild */ int dom_parent_node_last_element_child_read(dom_object *obj, zval *retval) { xmlNode *nodep, *last = NULL; nodep = dom_object_get_node(obj); if (nodep == NULL) { php_dom_throw_error(INVALID_STATE_ERR, 1); return FAILURE; } if (dom_node_children_valid(nodep) == SUCCESS) { last = nodep->last; while (last && last->type != XML_ELEMENT_NODE) { last = last->prev; } } if (!last) { ZVAL_NULL(retval); return SUCCESS; } php_dom_create_object(last, retval, obj); return SUCCESS; } /* }}} */ /* {{{ childElementCount DomParentNode readonly=yes https://www.w3.org/TR/dom/#dom-parentnode-childelementcount */ int dom_parent_node_child_element_count(dom_object *obj, zval *retval) { xmlNode *nodep, *first = NULL; zend_long count = 0; nodep = dom_object_get_node(obj); if (nodep == NULL) { php_dom_throw_error(INVALID_STATE_ERR, 1); return FAILURE; } if (dom_node_children_valid(nodep) == SUCCESS) { first = nodep->children; while (first != NULL) { if (first->type == XML_ELEMENT_NODE) { count++; } first = first->next; } } ZVAL_LONG(retval, count); return SUCCESS; } /* }}} */ static bool dom_is_node_in_list(const zval *nodes, int nodesc, const xmlNodePtr node_to_find) { for (int i = 0; i < nodesc; i++) { if (Z_TYPE(nodes[i]) == IS_OBJECT) { const zend_class_entry *ce = Z_OBJCE(nodes[i]); if (instanceof_function(ce, dom_node_class_entry)) { if (dom_object_get_node(Z_DOMOBJ_P(nodes + i)) == node_to_find) { return true; } } } } return false; } static xmlDocPtr dom_doc_from_context_node(xmlNodePtr contextNode) { if (contextNode->type == XML_DOCUMENT_NODE || contextNode->type == XML_HTML_DOCUMENT_NODE) { return (xmlDocPtr) contextNode; } else { return contextNode->doc; } } xmlNode* dom_zvals_to_fragment(php_libxml_ref_obj *document, xmlNode *contextNode, zval *nodes, int nodesc) { int i; xmlDoc *documentNode; xmlNode *fragment; xmlNode *newNode; dom_object *newNodeObj; documentNode = dom_doc_from_context_node(contextNode); fragment = xmlNewDocFragment(documentNode); if (!fragment) { return NULL; } for (i = 0; i < nodesc; i++) { if (Z_TYPE(nodes[i]) == IS_OBJECT) { newNodeObj = Z_DOMOBJ_P(&nodes[i]); newNode = dom_object_get_node(newNodeObj); if (newNode->parent != NULL) { xmlUnlinkNode(newNode); } newNodeObj->document = document; xmlSetTreeDoc(newNode, documentNode); /* Citing from the docs (https://gnome.pages.gitlab.gnome.org/libxml2/devhelp/libxml2-tree.html#xmlAddChild): * "Add a new node to @parent, at the end of the child (or property) list merging adjacent TEXT nodes (in which case @cur is freed)". * So we must take a copy if this situation arises to prevent a use-after-free. */ bool will_free = newNode->type == XML_TEXT_NODE && fragment->last && fragment->last->type == XML_TEXT_NODE; if (will_free) { newNode = xmlCopyNode(newNode, 1); } if (newNode->type == XML_DOCUMENT_FRAG_NODE) { /* Unpack document fragment nodes, the behaviour differs for different libxml2 versions. */ newNode = newNode->children; while (newNode) { xmlNodePtr next = newNode->next; xmlUnlinkNode(newNode); if (!xmlAddChild(fragment, newNode)) { goto err; } newNode = next; } } else if (!xmlAddChild(fragment, newNode)) { if (will_free) { xmlFreeNode(newNode); } goto err; } } else { ZEND_ASSERT(Z_TYPE(nodes[i]) == IS_STRING); newNode = xmlNewDocText(documentNode, (xmlChar *) Z_STRVAL(nodes[i])); xmlSetTreeDoc(newNode, documentNode); if (!xmlAddChild(fragment, newNode)) { xmlFreeNode(newNode); goto err; } } } return fragment; err: xmlFreeNode(fragment); return NULL; } static void dom_fragment_assign_parent_node(xmlNodePtr parentNode, xmlNodePtr fragment) { xmlNodePtr node = fragment->children; while (node != NULL) { node->parent = parentNode; if (node == fragment->last) { break; } node = node->next; } fragment->children = NULL; fragment->last = NULL; } static zend_result dom_sanity_check_node_list_for_insertion(php_libxml_ref_obj *document, xmlNodePtr parentNode, zval *nodes, int nodesc) { if (document == NULL) { php_dom_throw_error(HIERARCHY_REQUEST_ERR, 1); return FAILURE; } xmlDocPtr documentNode = dom_doc_from_context_node(parentNode); for (int i = 0; i < nodesc; i++) { zend_uchar type = Z_TYPE(nodes[i]); if (type == IS_OBJECT) { const zend_class_entry *ce = Z_OBJCE(nodes[i]); if (instanceof_function(ce, dom_node_class_entry)) { xmlNodePtr node = dom_object_get_node(Z_DOMOBJ_P(nodes + i)); if (node->doc != documentNode) { php_dom_throw_error(WRONG_DOCUMENT_ERR, dom_get_strict_error(document)); return FAILURE; } if (node->type == XML_ATTRIBUTE_NODE || dom_hierarchy(parentNode, node) != SUCCESS) { php_dom_throw_error(HIERARCHY_REQUEST_ERR, dom_get_strict_error(document)); return FAILURE; } } else { zend_argument_type_error(i + 1, "must be of type DOMNode|string, %s given", zend_zval_type_name(&nodes[i])); return FAILURE; } } else if (type != IS_STRING) { zend_argument_type_error(i + 1, "must be of type DOMNode|string, %s given", zend_zval_type_name(&nodes[i])); return FAILURE; } } return SUCCESS; } static void dom_pre_insert(xmlNodePtr insertion_point, xmlNodePtr parentNode, xmlNodePtr newchild, xmlNodePtr fragment) { if (!insertion_point) { /* Place it as last node */ if (parentNode->children) { /* There are children */ newchild->prev = parentNode->last; parentNode->last->next = newchild; } else { /* No children, because they moved out when they became a fragment */ parentNode->children = newchild; } parentNode->last = fragment->last; } else { /* Insert fragment before insertion_point */ fragment->last->next = insertion_point; if (insertion_point->prev) { insertion_point->prev->next = newchild; newchild->prev = insertion_point->prev; } insertion_point->prev = fragment->last; if (parentNode->children == insertion_point) { parentNode->children = newchild; } } } void dom_parent_node_append(dom_object *context, zval *nodes, int nodesc) { xmlNode *parentNode = dom_object_get_node(context); xmlNodePtr newchild, prevsib; if (UNEXPECTED(dom_sanity_check_node_list_for_insertion(context->document, parentNode, nodes, nodesc) != SUCCESS)) { return; } xmlNode *fragment = dom_zvals_to_fragment(context->document, parentNode, nodes, nodesc); if (fragment == NULL) { return; } newchild = fragment->children; prevsib = parentNode->last; if (newchild) { if (prevsib != NULL) { prevsib->next = newchild; } else { parentNode->children = newchild; } xmlNodePtr last = fragment->last; parentNode->last = last; newchild->prev = prevsib; dom_fragment_assign_parent_node(parentNode, fragment); dom_reconcile_ns_list(parentNode->doc, newchild, last); } xmlFree(fragment); } void dom_parent_node_prepend(dom_object *context, zval *nodes, int nodesc) { xmlNode *parentNode = dom_object_get_node(context); if (parentNode->children == NULL) { dom_parent_node_append(context, nodes, nodesc); return; } if (UNEXPECTED(dom_sanity_check_node_list_for_insertion(context->document, parentNode, nodes, nodesc) != SUCCESS)) { return; } xmlNode *fragment = dom_zvals_to_fragment(context->document, parentNode, nodes, nodesc); if (fragment == NULL) { return; } xmlNode *newchild = fragment->children; if (newchild) { xmlNodePtr last = fragment->last; dom_pre_insert(parentNode->children, parentNode, newchild, fragment); dom_fragment_assign_parent_node(parentNode, fragment); dom_reconcile_ns_list(parentNode->doc, newchild, last); } xmlFree(fragment); } void dom_parent_node_after(dom_object *context, zval *nodes, int nodesc) { /* Spec link: https://dom.spec.whatwg.org/#dom-childnode-after */ xmlNode *prevsib = dom_object_get_node(context); xmlNodePtr newchild, parentNode; xmlNode *fragment; xmlDoc *doc; /* Spec step 1 */ parentNode = prevsib->parent; /* Spec step 2 */ if (!parentNode) { int stricterror = dom_get_strict_error(context->document); php_dom_throw_error(HIERARCHY_REQUEST_ERR, stricterror); return; } /* Spec step 3: find first following child not in nodes; otherwise null */ xmlNodePtr viable_next_sibling = prevsib->next; while (viable_next_sibling) { if (!dom_is_node_in_list(nodes, nodesc, viable_next_sibling)) { break; } viable_next_sibling = viable_next_sibling->next; } doc = prevsib->doc; if (UNEXPECTED(dom_sanity_check_node_list_for_insertion(context->document, parentNode, nodes, nodesc) != SUCCESS)) { return; } /* Spec step 4: convert nodes into fragment */ fragment = dom_zvals_to_fragment(context->document, parentNode, nodes, nodesc); if (fragment == NULL) { return; } newchild = fragment->children; if (newchild) { xmlNodePtr last = fragment->last; /* Step 5: place fragment into the parent before viable_next_sibling */ dom_pre_insert(viable_next_sibling, parentNode, newchild, fragment); dom_fragment_assign_parent_node(parentNode, fragment); dom_reconcile_ns_list(doc, newchild, last); } xmlFree(fragment); } void dom_parent_node_before(dom_object *context, zval *nodes, int nodesc) { /* Spec link: https://dom.spec.whatwg.org/#dom-childnode-before */ xmlNode *nextsib = dom_object_get_node(context); xmlNodePtr newchild, parentNode; xmlNode *fragment; xmlDoc *doc; /* Spec step 1 */ parentNode = nextsib->parent; /* Spec step 2 */ if (!parentNode) { int stricterror = dom_get_strict_error(context->document); php_dom_throw_error(HIERARCHY_REQUEST_ERR, stricterror); return; } /* Spec step 3: find first following child not in nodes; otherwise null */ xmlNodePtr viable_previous_sibling = nextsib->prev; while (viable_previous_sibling) { if (!dom_is_node_in_list(nodes, nodesc, viable_previous_sibling)) { break; } viable_previous_sibling = viable_previous_sibling->prev; } doc = nextsib->doc; if (UNEXPECTED(dom_sanity_check_node_list_for_insertion(context->document, parentNode, nodes, nodesc) != SUCCESS)) { return; } /* Spec step 4: convert nodes into fragment */ fragment = dom_zvals_to_fragment(context->document, parentNode, nodes, nodesc); if (fragment == NULL) { return; } newchild = fragment->children; if (newchild) { xmlNodePtr last = fragment->last; /* Step 5: if viable_previous_sibling is null, set it to the parent's first child, otherwise viable_previous_sibling's next sibling */ if (!viable_previous_sibling) { viable_previous_sibling = parentNode->children; } else { viable_previous_sibling = viable_previous_sibling->next; } /* Step 6: place fragment into the parent after viable_previous_sibling */ dom_pre_insert(viable_previous_sibling, parentNode, newchild, fragment); dom_fragment_assign_parent_node(parentNode, fragment); dom_reconcile_ns_list(doc, newchild, last); } xmlFree(fragment); } static zend_result dom_child_removal_preconditions(const xmlNodePtr child, int stricterror) { if (dom_node_is_read_only(child) == SUCCESS || (child->parent != NULL && dom_node_is_read_only(child->parent) == SUCCESS)) { php_dom_throw_error(NO_MODIFICATION_ALLOWED_ERR, stricterror); return FAILURE; } if (!child->parent) { php_dom_throw_error(NOT_FOUND_ERR, stricterror); return FAILURE; } if (dom_node_children_valid(child->parent) == FAILURE) { return FAILURE; } xmlNodePtr children = child->parent->children; if (!children) { php_dom_throw_error(NOT_FOUND_ERR, stricterror); return FAILURE; } return SUCCESS; } void dom_child_node_remove(dom_object *context) { xmlNode *child = dom_object_get_node(context); xmlNodePtr children; int stricterror; stricterror = dom_get_strict_error(context->document); if (UNEXPECTED(dom_child_removal_preconditions(child, stricterror) != SUCCESS)) { return; } children = child->parent->children; while (children) { if (children == child) { xmlUnlinkNode(child); return; } children = children->next; } php_dom_throw_error(NOT_FOUND_ERR, stricterror); } void dom_child_replace_with(dom_object *context, zval *nodes, int nodesc) { /* Spec link: https://dom.spec.whatwg.org/#dom-childnode-replacewith */ xmlNodePtr child = dom_object_get_node(context); /* Spec step 1 */ xmlNodePtr parentNode = child->parent; /* Spec step 2 */ if (!parentNode) { int stricterror = dom_get_strict_error(context->document); php_dom_throw_error(HIERARCHY_REQUEST_ERR, stricterror); return; } int stricterror = dom_get_strict_error(context->document); if (UNEXPECTED(dom_child_removal_preconditions(child, stricterror) != SUCCESS)) { return; } /* Spec step 3: find first following child not in nodes; otherwise null */ xmlNodePtr viable_next_sibling = child->next; while (viable_next_sibling) { if (!dom_is_node_in_list(nodes, nodesc, viable_next_sibling)) { break; } viable_next_sibling = viable_next_sibling->next; } if (UNEXPECTED(dom_sanity_check_node_list_for_insertion(context->document, parentNode, nodes, nodesc) != SUCCESS)) { return; } /* Spec step 4: convert nodes into fragment */ xmlNodePtr fragment = dom_zvals_to_fragment(context->document, parentNode, nodes, nodesc); if (UNEXPECTED(fragment == NULL)) { return; } /* Spec step 5: perform the replacement */ xmlNodePtr newchild = fragment->children; xmlDocPtr doc = parentNode->doc; /* Unlink and free it unless it became a part of the fragment. */ if (child->parent != fragment) { xmlUnlinkNode(child); } if (newchild) { xmlNodePtr last = fragment->last; dom_pre_insert(viable_next_sibling, parentNode, newchild, fragment); dom_fragment_assign_parent_node(parentNode, fragment); dom_reconcile_ns_list(doc, newchild, last); } xmlFree(fragment); } #endif