# SPDX-License-Identifier: GPL-2.0 # # Copyright 2019 Google LLC. import gdb from linux import utils rb_root_type = utils.CachedType("struct rb_root") rb_node_type = utils.CachedType("struct rb_node") def rb_first(root): if root.type == rb_root_type.get_type(): node = node.address.cast(rb_root_type.get_type().pointer()) elif root.type != rb_root_type.get_type().pointer(): raise gdb.GdbError("Must be struct rb_root not {}".format(root.type)) node = root['rb_node'] if node is 0: return None while node['rb_left']: node = node['rb_left'] return node def rb_last(root): if root.type == rb_root_type.get_type(): node = node.address.cast(rb_root_type.get_type().pointer()) elif root.type != rb_root_type.get_type().pointer(): raise gdb.GdbError("Must be struct rb_root not {}".format(root.type)) node = root['rb_node'] if node is 0: return None while node['rb_right']: node = node['rb_right'] return node def rb_parent(node): parent = gdb.Value(node['__rb_parent_color'] & ~3) return parent.cast(rb_node_type.get_type().pointer()) def rb_empty_node(node): return node['__rb_parent_color'] == node.address def rb_next(node): if node.type == rb_node_type.get_type(): node = node.address.cast(rb_node_type.get_type().pointer()) elif node.type != rb_node_type.get_type().pointer(): raise gdb.GdbError("Must be struct rb_node not {}".format(node.type)) if rb_empty_node(node): return None if node['rb_right']: node = node['rb_right'] while node['rb_left']: node = node['rb_left'] return node parent = rb_parent(node) while parent and node == parent['rb_right']: node = parent parent = rb_parent(node) return parent def rb_prev(node): if node.type == rb_node_type.get_type(): node = node.address.cast(rb_node_type.get_type().pointer()) elif node.type != rb_node_type.get_type().pointer(): raise gdb.GdbError("Must be struct rb_node not {}".format(node.type)) if rb_empty_node(node): return None if node['rb_left']: node = node['rb_left'] while node['rb_right']: node = node['rb_right'] return node.dereference() parent = rb_parent(node) while parent and node == parent['rb_left'].dereference(): node = parent parent = rb_parent(node) return parent class LxRbFirst(gdb.Function): """Lookup and return a node from an RBTree $lx_rb_first(root): Return the node at the given index. If index is omitted, the root node is dereferenced and returned.""" def __init__(self): super(LxRbFirst, self).__init__("lx_rb_first") def invoke(self, root): result = rb_first(root) if result is None: raise gdb.GdbError("No entry in tree") return result LxRbFirst() class LxRbLast(gdb.Function): """Lookup and return a node from an RBTree. $lx_rb_last(root): Return the node at the given index. If index is omitted, the root node is dereferenced and returned.""" def __init__(self): super(LxRbLast, self).__init__("lx_rb_last") def invoke(self, root): result = rb_last(root) if result is None: raise gdb.GdbError("No entry in tree") return result LxRbLast() class LxRbNext(gdb.Function): """Lookup and return a node from an RBTree. $lx_rb_next(node): Return the node at the given index. If index is omitted, the root node is dereferenced and returned.""" def __init__(self): super(LxRbNext, self).__init__("lx_rb_next") def invoke(self, node): result = rb_next(node) if result is None: raise gdb.GdbError("No entry in tree") return result LxRbNext() class LxRbPrev(gdb.Function): """Lookup and return a node from an RBTree. $lx_rb_prev(node): Return the node at the given index. If index is omitted, the root node is dereferenced and returned.""" def __init__(self): super(LxRbPrev, self).__init__("lx_rb_prev") def invoke(self, node): result = rb_prev(node) if result is None: raise gdb.GdbError("No entry in tree") return result LxRbPrev()