// Copyright 2012-2013 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. //! Enforces the Rust effect system. Currently there is just one effect, /// `unsafe`. use middle::ty; use middle::typeck::MethodMap; use util::ppaux; use syntax::ast; use syntax::codemap::Span; use syntax::visit; use syntax::visit::Visitor; #[deriving(Eq)] enum UnsafeContext { SafeContext, UnsafeFn, UnsafeBlock(ast::NodeId), } fn type_is_unsafe_function(ty: ty::t) -> bool { match ty::get(ty).sty { ty::ty_bare_fn(ref f) => f.purity == ast::UnsafeFn, ty::ty_closure(ref f) => f.purity == ast::UnsafeFn, _ => false, } } struct EffectCheckVisitor { tcx: ty::ctxt, /// The method map. method_map: MethodMap, /// Whether we're in an unsafe context. unsafe_context: UnsafeContext, } impl EffectCheckVisitor { fn require_unsafe(&mut self, span: Span, description: &str) { match self.unsafe_context { SafeContext => { // Report an error. self.tcx.sess.span_err(span, format!("{} requires unsafe function or block", description)) } UnsafeBlock(block_id) => { // OK, but record this. debug!("effect: recording unsafe block as used: {:?}", block_id); let mut used_unsafe = self.tcx.used_unsafe.borrow_mut(); let _ = used_unsafe.get().insert(block_id); } UnsafeFn => {} } } fn check_str_index(&mut self, e: @ast::Expr) { let base_type = match e.node { ast::ExprIndex(_, base, _) => ty::node_id_to_type(self.tcx, base.id), _ => return }; debug!("effect: checking index with base type {}", ppaux::ty_to_str(self.tcx, base_type)); match ty::get(base_type).sty { ty::ty_str(..) => { self.tcx.sess.span_err(e.span, "modification of string types is not allowed"); } _ => {} } } } impl Visitor<()> for EffectCheckVisitor { fn visit_fn(&mut self, fn_kind: &visit::FnKind, fn_decl: &ast::FnDecl, block: &ast::Block, span: Span, node_id: ast::NodeId, _:()) { let (is_item_fn, is_unsafe_fn) = match *fn_kind { visit::FkItemFn(_, _, purity, _) => (true, purity == ast::UnsafeFn), visit::FkMethod(_, _, method) => (true, method.purity == ast::UnsafeFn), _ => (false, false), }; let old_unsafe_context = self.unsafe_context; if is_unsafe_fn { self.unsafe_context = UnsafeFn } else if is_item_fn { self.unsafe_context = SafeContext } visit::walk_fn(self, fn_kind, fn_decl, block, span, node_id, ()); self.unsafe_context = old_unsafe_context } fn visit_block(&mut self, block: &ast::Block, _:()) { let old_unsafe_context = self.unsafe_context; match block.rules { ast::DefaultBlock => {} ast::UnsafeBlock(source) => { // By default only the outermost `unsafe` block is // "used" and so nested unsafe blocks are pointless // (the inner ones are unnecessary and we actually // warn about them). As such, there are two cases when // we need to create a new context, when we're // - outside `unsafe` and found a `unsafe` block // (normal case) // - inside `unsafe` but found an `unsafe` block // created internally to the compiler // // The second case is necessary to ensure that the // compiler `unsafe` blocks don't accidentally "use" // external blocks (e.g. `unsafe { println("") }`, // expands to `unsafe { ... unsafe { ... } }` where // the inner one is compiler generated). if self.unsafe_context == SafeContext || source == ast::CompilerGenerated { self.unsafe_context = UnsafeBlock(block.id) } } } visit::walk_block(self, block, ()); self.unsafe_context = old_unsafe_context } fn visit_expr(&mut self, expr: &ast::Expr, _:()) { match expr.node { ast::ExprMethodCall(callee_id, _, _, _) => { let base_type = ty::node_id_to_type(self.tcx, callee_id); debug!("effect: method call case, base type is {}", ppaux::ty_to_str(self.tcx, base_type)); if type_is_unsafe_function(base_type) { self.require_unsafe(expr.span, "invocation of unsafe method") } } ast::ExprCall(base, _) => { let base_type = ty::node_id_to_type(self.tcx, base.id); debug!("effect: call case, base type is {}", ppaux::ty_to_str(self.tcx, base_type)); if type_is_unsafe_function(base_type) { self.require_unsafe(expr.span, "call to unsafe function") } } ast::ExprUnary(_, ast::UnDeref, base) => { let base_type = ty::node_id_to_type(self.tcx, base.id); debug!("effect: unary case, base type is {}", ppaux::ty_to_str(self.tcx, base_type)); match ty::get(base_type).sty { ty::ty_ptr(_) => { self.require_unsafe(expr.span, "dereference of unsafe pointer") } _ => {} } } ast::ExprAssign(base, _) | ast::ExprAssignOp(_, _, base, _) => { self.check_str_index(base); } ast::ExprAddrOf(ast::MutMutable, base) => { self.check_str_index(base); } ast::ExprInlineAsm(..) => { self.require_unsafe(expr.span, "use of inline assembly") } ast::ExprPath(..) => { match ty::resolve_expr(self.tcx, expr) { ast::DefStatic(_, true) => { self.require_unsafe(expr.span, "use of mutable static") } _ => {} } } _ => {} } visit::walk_expr(self, expr, ()); } } pub fn check_crate(tcx: ty::ctxt, method_map: MethodMap, krate: &ast::Crate) { let mut visitor = EffectCheckVisitor { tcx: tcx, method_map: method_map, unsafe_context: SafeContext, }; visit::walk_crate(&mut visitor, krate, ()); }