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(*
* Copyright (c) 2013 - present Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*)
(** Methods for creating a procdesc from a method or function declaration *)
(** and for resolving a method call and finding the right callee *)
open Utils
open CFrontend_utils
module L = Logging
(** When the methoc call is MCStatic, means that it is a class method. *)
(** When it is MCVirtual, it means that it is an instance method and that *)
(** the method to be called will be determined at runtime. If it is MCNoVirtual *)
(** it means that it is an instance method but that the method to be called will *)
(** be determined at compile time *)
type method_call_type =
| MCVirtual
| MCNoVirtual
| MCStatic
type function_method_decl_info =
| Func_decl_info of Clang_ast_t.function_decl_info * string
| Cpp_Meth_decl_info of Clang_ast_t.function_decl_info * string (* class_name *) * string (* ret_type *)
| ObjC_Meth_decl_info of Clang_ast_t.obj_c_method_decl_info * string
| Block_decl_info of Clang_ast_t.block_decl_info * string
let is_instance_method function_method_decl_info is_instance =
match function_method_decl_info with
| Func_decl_info (function_decl_info, _) -> false
| Cpp_Meth_decl_info _ -> true
| ObjC_Meth_decl_info (method_decl_info, _) ->
method_decl_info.Clang_ast_t.omdi_is_instance_method
| Block_decl_info (block_decl_info, _) -> is_instance
let get_class_param function_method_decl_info =
if (is_instance_method function_method_decl_info false) then
match function_method_decl_info with
| Cpp_Meth_decl_info (_, class_name, _) -> [(CFrontend_config.this, class_name, None)]
| ObjC_Meth_decl_info (_, class_name) -> [(CFrontend_config.self, class_name, None)]
| _ -> []
else []
let get_param_decls function_method_decl_info =
match function_method_decl_info with
| Func_decl_info (function_decl_info, _)
| Cpp_Meth_decl_info (function_decl_info, _, _) -> function_decl_info.Clang_ast_t.fdi_parameters
| ObjC_Meth_decl_info (method_decl_info, _) -> method_decl_info.Clang_ast_t.omdi_parameters
| Block_decl_info (block_decl_info, _) -> block_decl_info.Clang_ast_t.bdi_parameters
let get_parameters function_method_decl_info =
let par_to_ms_par par =
match par with
| Clang_ast_t.ParmVarDecl (decl_info, name_info, qtype, var_decl_info) ->
let name = name_info.Clang_ast_t.ni_name in
Printing.log_out "Adding param '%s' " name;
Printing.log_out "with pointer %s@." decl_info.Clang_ast_t.di_pointer;
(name, CTypes.get_type qtype, var_decl_info.Clang_ast_t.vdi_init_expr)
| _ -> assert false in
let pars = list_map par_to_ms_par (get_param_decls function_method_decl_info) in
get_class_param function_method_decl_info @ pars
let get_return_type function_method_decl_info =
match function_method_decl_info with
| Func_decl_info (_, typ)
| Cpp_Meth_decl_info (_, _, typ)
| Block_decl_info (_, typ) -> typ
| ObjC_Meth_decl_info (method_decl_info, _) ->
let qt = method_decl_info.Clang_ast_t.omdi_result_type in
CTypes.get_type qt
let build_method_signature decl_info procname function_method_decl_info is_instance is_anonym_block is_generated =
let source_range = decl_info.Clang_ast_t.di_source_range in
let qt = get_return_type function_method_decl_info in
let is_instance_method = is_instance_method function_method_decl_info is_instance in
let parameters = get_parameters function_method_decl_info in
let attributes = decl_info.Clang_ast_t.di_attributes in
CMethod_signature.make_ms procname parameters qt attributes source_range is_instance_method is_generated
let method_signature_of_decl curr_class meth_decl block_data_opt =
let open Clang_ast_t in
match meth_decl, block_data_opt with
| FunctionDecl (decl_info, name_info, qt, fdi), _ ->
let name = name_info.ni_name in
let func_decl = Func_decl_info (fdi, CTypes.get_type qt) in
let procname = General_utils.mk_procname_from_function name (CTypes.get_type qt) in
let ms = build_method_signature decl_info procname func_decl false false false in
ms, fdi.Clang_ast_t.fdi_body, fdi.Clang_ast_t.fdi_parameters
| CXXMethodDecl (decl_info, name_info, qt, fdi), _ ->
let class_name = CContext.get_curr_class_name curr_class in
let method_name = name_info.Clang_ast_t.ni_name in
let typ = CTypes.get_type qt in
let procname = General_utils.mk_procname_from_cpp_method class_name method_name typ in
let method_decl = Cpp_Meth_decl_info (fdi, class_name, typ) in
let ms = build_method_signature decl_info procname method_decl false false false in
ms, fdi.Clang_ast_t.fdi_body, fdi.Clang_ast_t.fdi_parameters
| ObjCMethodDecl (decl_info, name_info, mdi), _ ->
let class_name = CContext.get_curr_class_name curr_class in
let method_name = name_info.ni_name in
let is_instance = mdi.omdi_is_instance_method in
let method_kind = Procname.objc_method_kind_of_bool is_instance in
let procname = General_utils.mk_procname_from_objc_method class_name method_name method_kind in
let method_decl = ObjC_Meth_decl_info (mdi, class_name) in
let is_generated = Ast_utils.is_generated name_info in
let ms = build_method_signature decl_info procname method_decl false false is_generated in
ms, mdi.omdi_body, mdi.omdi_parameters
| BlockDecl (decl_info, decl_list, decl_context_info, bdi),
Some (qt, is_instance, procname, _) ->
let func_decl = Block_decl_info (bdi, CTypes.get_type qt) in
let ms = build_method_signature decl_info procname func_decl is_instance true false in
ms, bdi.bdi_body, bdi.bdi_parameters
|_ -> assert false
let get_superclass_curr_class context =
let retrive_super cname super_opt =
let iname = Sil.TN_csu (Sil.Class, Mangled.from_string cname) in
Printing.log_out "Checking for superclass = '%s'\n\n%!" (Sil.typename_to_string iname);
match Sil.tenv_lookup (CContext.get_tenv context) iname with
| Some Sil.Tstruct(_, _, _, _, (_, super_name):: _, _, _) ->
Mangled.to_string super_name
| _ ->
Printing.log_err "NOT FOUND superclass = '%s'\n\n%!" (Sil.typename_to_string iname);
(match super_opt with
| Some super -> super
| _ -> assert false) in
match CContext.get_curr_class context with
| CContext.ContextCls (cname, super_opt, _) ->
retrive_super cname super_opt
| CContext.ContextCategory (_, cls) ->
retrive_super cls None
| CContext.ContextNoCls
| CContext.ContextProtocol _ -> assert false
let get_class_selector_instance context obj_c_message_expr_info act_params =
let selector = obj_c_message_expr_info.Clang_ast_t.omei_selector in
match obj_c_message_expr_info.Clang_ast_t.omei_receiver_kind with
| `Class qt -> (CTypes.get_type qt, selector, MCStatic)
| `Instance ->
(match act_params with
| (instance_obj, Sil.Tptr(t, _)):: _
| (instance_obj, t):: _ ->
(CTypes.classname_of_type t, selector, MCVirtual)
| _ -> assert false)
| `SuperInstance ->
let superclass = get_superclass_curr_class context in
(superclass, selector, MCNoVirtual)
| `SuperClass ->
let superclass = get_superclass_curr_class context in
(superclass, selector, MCStatic)
let get_formal_parameters tenv ms =
let rec defined_parameters pl =
match pl with
| [] -> []
| (name, raw_type, _):: pl' ->
let qt =
if (name = CFrontend_config.self && CMethod_signature.ms_is_instance ms) then
(Ast_expressions.create_pointer_type raw_type)
else Ast_expressions.create_qual_type raw_type in
let typ = CTypes_decl.qual_type_to_sil_type tenv qt in
(name, typ):: defined_parameters pl' in
defined_parameters (CMethod_signature.ms_get_args ms)
(* Returns a list of captured variables. *)
(* In order to get the right mangled name we search among *)
(* the local variables of the defining function and it's formals.*)
let captured_vars_from_block_info context cvl =
let formal2captured (s, t) =
(Mangled.from_string s, t, false) in
let find lv n =
try
list_find (fun (n', _, _) -> Mangled.to_string n' = n) lv
with Not_found -> Printing.log_err "Trying to find variable %s@." n; assert false in
let rec f cvl' =
match cvl' with
| [] -> []
| cv:: cvl'' ->
(match cv.Clang_ast_t.bcv_variable with
| Some dr ->
(match dr.Clang_ast_t.dr_name, dr.Clang_ast_t.dr_qual_type with
| Some name_info, _ ->
let n = name_info.Clang_ast_t.ni_name in
if n = CFrontend_config.self && not context.CContext.is_instance then []
else
(let procdesc_formals = Cfg.Procdesc.get_formals context.CContext.procdesc in
(Printing.log_err "formals are %s@." (Utils.list_to_string (fun (x, _) -> x) procdesc_formals));
let formals = list_map formal2captured procdesc_formals in
[find (context.CContext.local_vars @ formals) n])
| _ -> assert false)
| None -> []) :: f cvl'' in
list_flatten (f cvl)
let get_return_type tenv ms =
let qt = CMethod_signature.ms_get_ret_type ms in
CTypes_decl.qual_type_to_sil_type tenv
(Ast_expressions.create_qual_type (CTypes.get_function_return_type qt))
let sil_func_attributes_of_attributes attrs =
let rec do_translation acc al = match al with
| [] -> list_rev acc
| Clang_ast_t.SentinelAttr attribute_info:: tl ->
let (sentinel, null_pos) = match attribute_info.Clang_ast_t.ai_parameters with
| a:: b::[] -> (int_of_string a, int_of_string b)
| _ -> assert false
in
do_translation (Sil.FA_sentinel(sentinel, null_pos):: acc) tl
| _:: tl -> do_translation acc tl in
do_translation [] attrs
let should_create_procdesc cfg procname defined generated =
match Cfg.Procdesc.find_from_name cfg procname with
| Some prevoius_procdesc ->
let is_defined_previous = Cfg.Procdesc.is_defined prevoius_procdesc in
let is_generated_previous =
(Cfg.Procdesc.get_attributes prevoius_procdesc).Sil.is_generated in
if defined &&
((not is_defined_previous) || (generated && is_generated_previous)) then
(Cfg.Procdesc.remove cfg (Cfg.Procdesc.get_proc_name prevoius_procdesc) true;
true)
else false
| None -> true
(** Creates a procedure description. *)
let create_local_procdesc cfg tenv ms fbody captured is_objc_inst_method =
let defined = not ((list_length fbody) == 0) in
let procname = CMethod_signature.ms_get_name ms in
let pname = Procname.to_string procname in
let attributes = sil_func_attributes_of_attributes (CMethod_signature.ms_get_attributes ms) in
let is_generated = CMethod_signature.ms_is_generated ms in
let create_new_procdesc () =
let formals = get_formal_parameters tenv ms in
let captured_str = list_map (fun (s, t, _) -> (Mangled.to_string s, t)) captured in
(* Captured variables for blocks are treated as parameters *)
let formals = captured_str @formals in
let source_range = CMethod_signature.ms_get_loc ms in
Printing.log_out "\nCreating a new procdesc for function: '%s'\n@." pname;
let loc_start = CLocation.get_sil_location_from_range source_range true in
let loc_exit = CLocation.get_sil_location_from_range source_range false in
let ret_type = get_return_type tenv ms in
let captured' = list_map (fun (s, t, _) -> (s, t)) captured in
let procdesc =
(* This part below is a boilerplate and the following list of *)
(* instructions should be moved in the Cfg.Procdesc module *)
let open Cfg.Procdesc in
let proc_attributes =
{
Sil.access = Sil.Default;
Sil.exceptions = [];
Sil.is_abstract = false;
Sil.is_bridge_method = false;
Sil.is_objc_instance_method = is_objc_inst_method;
Sil.is_synthetic_method = false;
Sil.language = Sil.C_CPP;
Sil.func_attributes = attributes;
Sil.method_annotation = Sil.method_annotation_empty;
Sil.is_generated = is_generated;
} in
create {
cfg = cfg;
name = procname;
is_defined = defined;
ret_type = ret_type;
formals = formals;
locals = [];
captured = captured';
loc = loc_start;
proc_attributes = proc_attributes;
} in
if defined then
(if !Config.arc_mode then
Cfg.Procdesc.set_flag procdesc Mleak_buckets.objc_arc_flag "true";
let start_kind = Cfg.Node.Start_node procdesc in
let start_node = Cfg.Node.create cfg loc_start start_kind [] procdesc [] in
let exit_kind = Cfg.Node.Exit_node procdesc in
let exit_node = Cfg.Node.create cfg loc_exit exit_kind [] procdesc [] in
Cfg.Procdesc.set_start_node procdesc start_node;
Cfg.Procdesc.set_exit_node procdesc exit_node) in
let generated = CMethod_signature.ms_is_generated ms in
if should_create_procdesc cfg procname defined generated then
(create_new_procdesc (); true)
else false
(** Create a procdesc for objc methods whose signature cannot be found. *)
let create_external_procdesc cfg procname is_objc_inst_method type_opt =
match Cfg.Procdesc.find_from_name cfg procname with
| Some _ -> ()
| None ->
let ret_type, formals =
(match type_opt with
| Some (ret_type, arg_types) ->
ret_type, list_map (fun typ -> ("x", typ)) arg_types
| None -> Sil.Tvoid, []) in
let loc = Sil.loc_none in
let _ =
let open Cfg.Procdesc in
let proc_attributes =
{
Sil.access = Sil.Default;
Sil.exceptions = [];
Sil.is_abstract = false;
Sil.is_bridge_method = false;
Sil.is_objc_instance_method = is_objc_inst_method;
Sil.is_synthetic_method = false;
Sil.language = Sil.C_CPP;
Sil.func_attributes = [];
Sil.method_annotation = Sil.method_annotation_empty;
Sil.is_generated = false;
} in
create {
cfg = cfg;
name = procname;
is_defined = false;
ret_type = ret_type;
formals = formals;
locals = [];
captured = [];
loc = loc;
proc_attributes = proc_attributes;
} in
()
let instance_to_method_call_type instance =
if instance then MCVirtual
else MCStatic