// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! A pass that checks to make sure private fields and methods aren't used //! outside their scopes. use metadata::csearch; use middle::ty::{ty_struct, ty_enum}; use middle::ty; use middle::typeck::{method_map, method_origin, method_param}; use middle::typeck::{method_static, method_object}; use std::util::ignore; use syntax::ast::{DeclItem, Def, DefFn, DefId, DefStaticMethod}; use syntax::ast::{DefVariant, ExprField, ExprMethodCall, ExprPath}; use syntax::ast::{ExprStruct, ExprUnary, Ident, inherited, item_enum}; use syntax::ast::{item_foreign_mod, item_fn, item_impl, item_struct}; use syntax::ast::{item_trait, LOCAL_CRATE, NodeId, PatStruct, Path}; use syntax::ast::{private, provided, public, required, StmtDecl, visibility}; use syntax::ast; use syntax::ast_map::{node_foreign_item, node_item, node_method}; use syntax::ast_map::{node_trait_method}; use syntax::ast_map; use syntax::ast_util::{Private, Public, is_local}; use syntax::ast_util::{variant_visibility_to_privacy, visibility_to_privacy}; use syntax::attr; use syntax::codemap::Span; use syntax::parse::token; use syntax::visit; use syntax::visit::Visitor; use syntax::ast::{_mod,Expr,item,Block,Pat}; struct PrivacyVisitor { tcx: ty::ctxt, privileged_items: @mut ~[NodeId], } impl PrivacyVisitor { // Adds an item to its scope. fn add_privileged_item(&mut self, item: @ast::item, count: &mut uint) { match item.node { item_struct(*) | item_trait(*) | item_enum(*) | item_fn(*) => { self.privileged_items.push(item.id); *count += 1; } item_impl(_, _, _, ref methods) => { for method in methods.iter() { self.privileged_items.push(method.id); *count += 1; } self.privileged_items.push(item.id); *count += 1; } item_foreign_mod(ref foreign_mod) => { for foreign_item in foreign_mod.items.iter() { self.privileged_items.push(foreign_item.id); *count += 1; } } _ => {} } } // Adds items that are privileged to this scope. fn add_privileged_items(&mut self, items: &[@ast::item]) -> uint { let mut count = 0; for &item in items.iter() { self.add_privileged_item(item, &mut count); } count } // Checks that an enum variant is in scope fn check_variant(&mut self, span: Span, enum_id: ast::DefId) { let variant_info = ty::enum_variants(self.tcx, enum_id)[0]; let parental_privacy = if is_local(enum_id) { let parent_vis = ast_map::node_item_query(self.tcx.items, enum_id.node, |it| { it.vis }, ~"unbound enum parent when checking \ dereference of enum type"); visibility_to_privacy(parent_vis) } else { // WRONG Public }; debug!("parental_privacy = %?", parental_privacy); debug!("vis = %?, priv = %?", variant_info.vis, visibility_to_privacy(variant_info.vis)) // inherited => privacy of the enum item if variant_visibility_to_privacy(variant_info.vis, parental_privacy == Public) == Private { self.tcx.sess.span_err(span, "can only dereference enums \ with a single, public variant"); } } // Returns true if a crate-local method is private and false otherwise. fn method_is_private(&mut self, span: Span, method_id: NodeId) -> bool { let check = |vis: visibility, container_id: DefId| { let mut is_private = false; if vis == private { is_private = true; } else if vis == public { is_private = false; } else { // Look up the enclosing impl. if container_id.crate != LOCAL_CRATE { self.tcx.sess.span_bug(span, "local method isn't in local \ impl?!"); } match self.tcx.items.find(&container_id.node) { Some(&node_item(item, _)) => { match item.node { item_impl(_, None, _, _) if item.vis != public => { is_private = true; } _ => {} } } Some(_) => { self.tcx.sess.span_bug(span, "impl wasn't an item?!"); } None => { self.tcx.sess.span_bug(span, "impl wasn't in AST map?!"); } } } is_private }; match self.tcx.items.find(&method_id) { Some(&node_method(method, impl_id, _)) => { check(method.vis, impl_id) } Some(&node_trait_method(trait_method, trait_id, _)) => { match *trait_method { required(_) => check(public, trait_id), provided(method) => check(method.vis, trait_id), } } Some(_) => { self.tcx.sess.span_bug(span, fmt!("method_is_private: method was a %s?!", ast_map::node_id_to_str( self.tcx.items, method_id, token::get_ident_interner()))); } None => { self.tcx.sess.span_bug(span, "method not found in \ AST map?!"); } } } // Returns true if the given local item is private and false otherwise. fn local_item_is_private(&mut self, span: Span, item_id: NodeId) -> bool { let mut f: &fn(NodeId) -> bool = |_| false; f = |item_id| { match self.tcx.items.find(&item_id) { Some(&node_item(item, _)) => item.vis != public, Some(&node_foreign_item(*)) => false, Some(&node_method(method, impl_did, _)) => { match method.vis { private => true, public => false, inherited => f(impl_did.node) } } Some(&node_trait_method(_, trait_did, _)) => f(trait_did.node), Some(_) => { self.tcx.sess.span_bug(span, fmt!("local_item_is_private: item was \ a %s?!", ast_map::node_id_to_str( self.tcx.items, item_id, token::get_ident_interner()))); } None => { self.tcx.sess.span_bug(span, "item not found in AST map?!"); } } }; f(item_id) } // Checks that a private field is in scope. // FIXME #6993: change type (and name) from Ident to Name fn check_field(&mut self, span: Span, id: ast::DefId, ident: ast::Ident) { let fields = ty::lookup_struct_fields(self.tcx, id); for field in fields.iter() { if field.name != ident.name { loop; } if field.vis == private { self.tcx.sess.span_err(span, fmt!("field `%s` is private", token::ident_to_str(&ident))); } break; } } // Given the ID of a method, checks to ensure it's in scope. fn check_method_common(&mut self, span: Span, method_id: DefId, name: &Ident) { // If the method is a default method, we need to use the def_id of // the default implementation. // Having to do this this is really unfortunate. let method_id = ty::method(self.tcx, method_id).provided_source.unwrap_or(method_id); if method_id.crate == LOCAL_CRATE { let is_private = self.method_is_private(span, method_id.node); let container_id = ty::method(self.tcx, method_id).container_id(); if is_private && (container_id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &(container_id.node))) { self.tcx.sess.span_err(span, fmt!("method `%s` is private", token::ident_to_str(name))); } } else { let visibility = csearch::get_item_visibility(self.tcx.sess.cstore, method_id); if visibility != public { self.tcx.sess.span_err(span, fmt!("method `%s` is private", token::ident_to_str(name))); } } } // Checks that a private path is in scope. fn check_path(&mut self, span: Span, def: Def, path: &Path) { debug!("checking path"); match def { DefStaticMethod(method_id, _, _) => { debug!("found static method def, checking it"); self.check_method_common(span, method_id, &path.segments.last().identifier) } DefFn(def_id, _) => { if def_id.crate == LOCAL_CRATE { if self.local_item_is_private(span, def_id.node) && !self.privileged_items.iter().any(|x| x == &def_id.node) { self.tcx.sess.span_err(span, fmt!("function `%s` is private", token::ident_to_str( &path.segments .last() .identifier))); } } else if csearch::get_item_visibility(self.tcx.sess.cstore, def_id) != public { self.tcx.sess.span_err(span, fmt!("function `%s` is private", token::ident_to_str( &path.segments .last() .identifier))); } } _ => {} } } // Checks that a private method is in scope. fn check_method(&mut self, span: Span, origin: &method_origin, ident: ast::Ident) { match *origin { method_static(method_id) => { self.check_method_common(span, method_id, &ident) } method_param(method_param { trait_id: trait_id, method_num: method_num, _ }) | method_object(method_object { trait_id: trait_id, method_num: method_num, _ }) => { if trait_id.crate == LOCAL_CRATE { match self.tcx.items.find(&trait_id.node) { Some(&node_item(item, _)) => { match item.node { item_trait(_, _, ref methods) => { if method_num >= (*methods).len() { self.tcx.sess.span_bug(span, "method number out of range?!"); } match (*methods)[method_num] { provided(method) if method.vis == private && !self.privileged_items.iter() .any(|x| x == &(trait_id.node)) => { self.tcx.sess.span_err(span, fmt!("method `%s` is private", token::ident_to_str(&method .ident))); } provided(_) | required(_) => { // Required methods can't be // private. } } } _ => { self.tcx.sess.span_bug(span, "trait wasn't actually a trait?!"); } } } Some(_) => { self.tcx.sess.span_bug(span, "trait wasn't an item?!"); } None => { self.tcx.sess.span_bug(span, "trait item wasn't found in the AST map?!"); } } } else { // FIXME #4732: External crates. } } } } } impl<'self> Visitor<&'self method_map> for PrivacyVisitor { fn visit_mod<'mm>(&mut self, the_module:&_mod, _:Span, _:NodeId, method_map:&'mm method_map) { let n_added = self.add_privileged_items(the_module.items); visit::walk_mod(self, the_module, method_map); do n_added.times { ignore(self.privileged_items.pop()); } } fn visit_item<'mm>(&mut self, item:@item, method_map:&'mm method_map) { // Do not check privacy inside items with the resolve_unexported // attribute. This is used for the test runner. if !attr::contains_name(item.attrs, "!resolve_unexported") { check_sane_privacy(self.tcx, item); visit::walk_item(self, item, method_map); } } fn visit_block<'mm>(&mut self, block:&Block, method_map:&'mm method_map) { // Gather up all the privileged items. let mut n_added = 0; for stmt in block.stmts.iter() { match stmt.node { StmtDecl(decl, _) => { match decl.node { DeclItem(item) => { self.add_privileged_item(item, &mut n_added); } _ => {} } } _ => {} } } visit::walk_block(self, block, method_map); do n_added.times { ignore(self.privileged_items.pop()); } } fn visit_expr<'mm>(&mut self, expr:@Expr, method_map:&'mm method_map) { match expr.node { ExprField(base, ident, _) => { // Method calls are now a special syntactic form, // so `a.b` should always be a field. assert!(!method_map.contains_key(&expr.id)); // With type_autoderef, make sure we don't // allow pointers to violate privacy match ty::get(ty::type_autoderef(self.tcx, ty::expr_ty(self.tcx, base))).sty { ty_struct(id, _) if id.crate != LOCAL_CRATE || !self.privileged_items.iter() .any(|x| x == &(id.node)) => { debug!("(privacy checking) checking field access"); self.check_field(expr.span, id, ident); } _ => {} } } ExprMethodCall(_, base, ident, _, _, _) => { // Ditto match ty::get(ty::type_autoderef(self.tcx, ty::expr_ty(self.tcx, base))).sty { ty_enum(id, _) | ty_struct(id, _) if id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &(id.node)) => { match method_map.find(&expr.id) { None => { self.tcx.sess.span_bug(expr.span, "method call not in \ method map"); } Some(ref entry) => { debug!("(privacy checking) checking \ impl method"); self.check_method(expr.span, &entry.origin, ident); } } } _ => {} } } ExprPath(ref path) => { self.check_path(expr.span, self.tcx.def_map.get_copy(&expr.id), path); } ExprStruct(_, ref fields, _) => { match ty::get(ty::expr_ty(self.tcx, expr)).sty { ty_struct(id, _) => { if id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &(id.node)) { for field in (*fields).iter() { debug!("(privacy checking) checking \ field in struct literal"); self.check_field(expr.span, id, field.ident); } } } ty_enum(id, _) => { if id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &(id.node)) { match self.tcx.def_map.get_copy(&expr.id) { DefVariant(_, variant_id, _) => { for field in (*fields).iter() { debug!("(privacy checking) \ checking field in \ struct variant \ literal"); self.check_field(expr.span, variant_id, field.ident); } } _ => { self.tcx.sess.span_bug(expr.span, "resolve didn't \ map enum struct \ constructor to a \ variant def"); } } } } _ => { self.tcx.sess.span_bug(expr.span, "struct expr \ didn't have \ struct type?!"); } } } ExprUnary(_, ast::UnDeref, operand) => { // In *e, we need to check that if e's type is an // enum type t, then t's first variant is public or // privileged. (We can assume it has only one variant // since typeck already happened.) match ty::get(ty::expr_ty(self.tcx, operand)).sty { ty_enum(id, _) => { if id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &(id.node)) { self.check_variant(expr.span, id); } } _ => { /* No check needed */ } } } _ => {} } visit::walk_expr(self, expr, method_map); } fn visit_pat<'mm>(&mut self, pattern:@Pat, method_map:&'mm method_map) { match pattern.node { PatStruct(_, ref fields, _) => { match ty::get(ty::pat_ty(self.tcx, pattern)).sty { ty_struct(id, _) => { if id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &(id.node)) { for field in fields.iter() { debug!("(privacy checking) checking \ struct pattern"); self.check_field(pattern.span, id, field.ident); } } } ty_enum(enum_id, _) => { if enum_id.crate != LOCAL_CRATE || !self.privileged_items.iter().any(|x| x == &enum_id.node) { match self.tcx.def_map.find(&pattern.id) { Some(&DefVariant(_, variant_id, _)) => { for field in fields.iter() { debug!("(privacy checking) \ checking field in \ struct variant pattern"); self.check_field(pattern.span, variant_id, field.ident); } } _ => { self.tcx.sess.span_bug(pattern.span, "resolve didn't \ map enum struct \ pattern to a \ variant def"); } } } } _ => { self.tcx.sess.span_bug(pattern.span, "struct pattern didn't have \ struct type?!"); } } } _ => {} } visit::walk_pat(self, pattern, method_map); } } pub fn check_crate<'mm>(tcx: ty::ctxt, method_map: &'mm method_map, crate: &ast::Crate) { let privileged_items = @mut ~[]; let mut visitor = PrivacyVisitor { tcx: tcx, privileged_items: privileged_items, }; visit::walk_crate(&mut visitor, crate, method_map); } /// Validates all of the visibility qualifers placed on the item given. This /// ensures that there are no extraneous qualifiers that don't actually do /// anything. In theory these qualifiers wouldn't parse, but that may happen /// later on down the road... fn check_sane_privacy(tcx: ty::ctxt, item: @ast::item) { match item.node { // implementations of traits don't need visibility qualifiers because // that's controlled by having the trait in scope. ast::item_impl(_, Some(*), _, ref methods) => { for m in methods.iter() { match m.vis { ast::private | ast::public => { tcx.sess.span_err(m.span, "unnecessary visibility") } ast::inherited => {} } } } ast::item_enum(ref def, _) => { for v in def.variants.iter() { match v.node.vis { ast::public => { if item.vis == ast::public { tcx.sess.span_err(v.span, "unnecessary `pub` \ visibility"); } } ast::private => { if item.vis != ast::public { tcx.sess.span_err(v.span, "unnecessary `priv` \ visibility"); } } ast::inherited => {} } } } ast::item_struct(ref def, _) => { for f in def.fields.iter() { match f.node.kind { ast::named_field(_, ast::public) => { tcx.sess.span_err(f.span, "unnecessary `pub` \ visibility"); } ast::named_field(_, ast::private) => { // Fields should really be private by default... } ast::named_field(*) | ast::unnamed_field => {} } } } ast::item_trait(_, _, ref methods) => { for m in methods.iter() { match *m { ast::provided(ref m) => { match m.vis { ast::private | ast::public => { tcx.sess.span_err(m.span, "unnecessary \ visibility"); } ast::inherited => {} } } // this is warned about in the parser ast::required(*) => {} } } } ast::item_impl(*) | ast::item_static(*) | ast::item_foreign_mod(*) | ast::item_fn(*) | ast::item_mod(*) | ast::item_ty(*) | ast::item_mac(*) => {} } }