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(*
* Copyright (c) 2009-2013, Monoidics ltd.
* Copyright (c) 2013-present, Facebook, Inc.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
open! IStd
module L = Logging
(** add instructions to perform abstraction *)
let add_abstraction_instructions pdesc =
let open Procdesc in
(* true if there is a succ node s.t.: it is an exit node, or the succ of >1 nodes *)
let converging_node node =
let is_exit node = match Node.get_kind node with Node.Exit_node _ -> true | _ -> false in
let succ_nodes = Node.get_succs node in
if List.exists ~f:is_exit succ_nodes then true
else
match succ_nodes with [] -> false | [h] -> List.length (Node.get_preds h) > 1 | _ -> false
in
let node_requires_abstraction node =
match Node.get_kind node with
| Node.Start_node _ | Node.Join_node ->
false
| Node.Exit_node _ | Node.Stmt_node _ | Node.Prune_node _ | Node.Skip_node _ ->
converging_node node
in
let do_node node =
let loc = Node.get_last_loc node in
if node_requires_abstraction node then Node.append_instrs node [Sil.Abstract loc]
in
Procdesc.iter_nodes do_node pdesc
module BackwardCfg = ProcCfg.Backward (ProcCfg.Exceptional)
module LivenessAnalysis = AbstractInterpreter.Make (BackwardCfg) (Liveness.TransferFunctions)
module VarDomain = Liveness.Domain
(** computes the non-nullified reaching definitions at the end of each node by building on the
results of a liveness analysis to be precise, what we want to compute is:
to_nullify := (live_before U non_nullifed_reaching_defs) - live_after
non_nullified_reaching_defs := non_nullified_reaching_defs - to_nullify
Note that this can't be done with by combining the results of reaching definitions and liveness
after the fact, nor can it be done with liveness alone. We will insert nullify instructions for
each pvar in to_nullify afer we finish the analysis. Nullify instructions speed up the analysis
by enabling it to GC state that will no longer be read. *)
module NullifyTransferFunctions = struct
(* (reaching non-nullified vars) * (vars to nullify) *)
module Domain = AbstractDomain.Pair (VarDomain) (VarDomain)
module CFG = ProcCfg.Exceptional
type extras = LivenessAnalysis.invariant_map
let postprocess ((reaching_defs, _) as astate) node {ProcData.extras} =
let node_id = Procdesc.Node.get_id (CFG.underlying_node node) in
match LivenessAnalysis.extract_state node_id extras with
(* note: because the analysis is backward, post and pre are reversed *)
| Some {AbstractInterpreter.post= live_before; pre= live_after} ->
let to_nullify = VarDomain.diff (VarDomain.union live_before reaching_defs) live_after in
let reaching_defs' = VarDomain.diff reaching_defs to_nullify in
(reaching_defs', to_nullify)
| None ->
astate
let cache_node = ref (Procdesc.Node.dummy None)
let cache_instr = ref Sil.skip_instr
let last_instr_in_node node =
let get_last_instr () =
CFG.instrs node |> Instrs.last |> Option.value ~default:Sil.skip_instr
in
if phys_equal node !cache_node then !cache_instr
else
let last_instr = get_last_instr () in
cache_node := node ;
cache_instr := last_instr ;
last_instr
let is_last_instr_in_node instr node = phys_equal (last_instr_in_node node) instr
let exec_instr ((active_defs, to_nullify) as astate) extras node instr =
let astate' =
match instr with
| Sil.Load (lhs_id, _, _, _) ->
(VarDomain.add (Var.of_id lhs_id) active_defs, to_nullify)
| Sil.Call ((id, _), _, _, _, _) ->
let active_defs' = VarDomain.add (Var.of_id id) active_defs in
(active_defs', to_nullify)
| Sil.Store (Exp.Lvar lhs_pvar, _, _, _) ->
(VarDomain.add (Var.of_pvar lhs_pvar) active_defs, to_nullify)
| Sil.Store _ | Prune _ | Declare_locals _ | Remove_temps _ | Abstract _ ->
astate
| Sil.Nullify _ ->
L.(die InternalError)
"Should not add nullify instructions before running nullify analysis!"
in
if is_last_instr_in_node instr node then postprocess astate' node extras else astate'
let pp_session_name _node fmt = Format.pp_print_string fmt "nullify"
end
module NullifyAnalysis =
AbstractInterpreter.MakeNoCFG
(Scheduler.ReversePostorder (ProcCfg.Exceptional)) (NullifyTransferFunctions)
let add_nullify_instrs pdesc tenv liveness_inv_map =
let address_taken_vars =
if Typ.Procname.is_java (Procdesc.get_proc_name pdesc) then AddressTaken.Domain.empty
(* can't take the address of a variable in Java *)
else
let initial = AddressTaken.Domain.empty in
match AddressTaken.Analyzer.compute_post (ProcData.make_default pdesc tenv) ~initial with
| Some post ->
post
| None ->
AddressTaken.Domain.empty
in
let nullify_proc_cfg = ProcCfg.Exceptional.from_pdesc pdesc in
let nullify_proc_data = ProcData.make pdesc tenv liveness_inv_map in
let initial = (VarDomain.empty, VarDomain.empty) in
let nullify_inv_map =
NullifyAnalysis.exec_cfg nullify_proc_cfg nullify_proc_data ~initial ~debug:false
in
(* only nullify pvars that are local; don't nullify those that can escape *)
let is_local pvar = not (Pvar.is_return pvar || Pvar.is_global pvar) in
let node_nullify_instructions loc pvars =
List.rev_filter_map pvars ~f:(fun pvar ->
if is_local pvar then Some (Sil.Nullify (pvar, loc)) else None )
in
let node_removetmps_instruction loc ids =
if ids <> [] then Some (Sil.Remove_temps (List.rev ids, loc)) else None
in
Container.iter nullify_proc_cfg ~fold:ProcCfg.Exceptional.fold_nodes ~f:(fun node ->
match NullifyAnalysis.extract_post (ProcCfg.Exceptional.id node) nullify_inv_map with
| Some (_, to_nullify) ->
let pvars_to_nullify, ids_to_remove =
VarDomain.fold
(fun var (pvars_acc, ids_acc) ->
match Var.to_exp var with
(* we nullify all address taken variables at the end of the procedure *)
| Exp.Lvar pvar
when not (AddressTaken.Domain.mem pvar address_taken_vars) ->
(pvar :: pvars_acc, ids_acc)
| Exp.Var id ->
(pvars_acc, id :: ids_acc)
| _ ->
(pvars_acc, ids_acc) )
to_nullify ([], [])
in
let loc = Procdesc.Node.get_last_loc node in
node_nullify_instructions loc pvars_to_nullify
|> IList.opt_cons (node_removetmps_instruction loc ids_to_remove)
|> Procdesc.Node.append_instrs node
| None ->
() ) ;
(* nullify all address taken variables *)
if not (AddressTaken.Domain.is_empty address_taken_vars) then
let exit_node = ProcCfg.Exceptional.exit_node nullify_proc_cfg in
let exit_loc = Procdesc.Node.get_last_loc exit_node in
node_nullify_instructions exit_loc (AddressTaken.Domain.elements address_taken_vars)
|> Procdesc.Node.append_instrs exit_node
(** perform liveness analysis and insert Nullify/Remove_temps instructions into the IR to make it
easy for analyses to do abstract garbage collection *)
let do_liveness pdesc tenv =
let liveness_proc_cfg = BackwardCfg.from_pdesc pdesc in
let initial = Liveness.Domain.empty in
let liveness_inv_map =
LivenessAnalysis.exec_cfg liveness_proc_cfg
(ProcData.make_default pdesc tenv)
~initial ~debug:false
in
add_nullify_instrs pdesc tenv liveness_inv_map ;
Procdesc.signal_did_preanalysis pdesc
(** add Abstract instructions into the IR to give hints about when abstraction should be
performed *)
let do_abstraction pdesc =
add_abstraction_instructions pdesc ;
Procdesc.signal_did_preanalysis pdesc
let do_preanalysis pdesc tenv =
if not (Procdesc.did_preanalysis pdesc) then ( do_liveness pdesc tenv ; do_abstraction pdesc )