[siof] add fancy interprocedural reporting

Reviewed By: jvillard

Differential Revision: D4117594

fbshipit-source-id: c55cff7
master
Sam Blackshear 8 years ago committed by Facebook Github Bot
parent 3b997e4882
commit fcf57c6e09

@ -12,14 +12,48 @@ open! Utils
module F = Format
module L = Logging
module Make (Spec : TraceElem.S) = struct
include Trace.Make(struct
module Source = Source.Dummy
module Sink = struct
include Spec
module type S = sig
include Trace.S
(** a path from some procedure via the given passthroughs to the given call stack, with
passthroughs for each callee *)
type sink_path = Passthroughs.t * (Sink.t * Passthroughs.t) list
(** get a path for each of the reportable flows to a sink in this trace *)
val get_reportable_sink_paths : t -> trace_of_pname:(Procname.t -> t) -> sink_path list
(** convert of the sinks to callee sinks for the given call site *)
val to_callee : t -> CallSite.t -> t
end
module MakeSink(TraceElem : TraceElem.S) = struct
include TraceElem
let get _ _ = []
end
module Make (TraceElem : TraceElem.S) = struct
include Trace.Make(struct
module Source = Source.Dummy
module Sink = MakeSink(TraceElem)
let should_report _ _ = true
end)
type sink_path = Passthroughs.t * (Sink.t * Passthroughs.t) list
let initial =
let dummy_source = () in
of_source dummy_source
let get_reportable_sink_paths t ~trace_of_pname =
IList.map
(fun (passthroughs, _, sinks) -> passthroughs, sinks)
(get_reportable_paths t ~trace_of_pname)
let to_callee t call_site =
IList.fold_left
(fun t_acc sink ->
let callee_sink = Sink.to_callee sink call_site in
add_sink callee_sink t_acc)
initial
(Sinks.elements (sinks t))
end

@ -7,7 +7,23 @@
* of patent rights can be found in the PATENTS file in the same directory.
*)
module Make (Spec : TraceElem.S) :
Trace.S with module Source = Source.Dummy
and module Sink.Kind = Spec.Kind
and type Sink.t = Spec.t
(** Suffix of a normal trace: just sinks and passthroughs, but no sources *)
module type S = sig
include Trace.S
(** A path from some procedure via the given passthroughs to the given call stack, with
passthroughs for each callee *)
type sink_path = Passthrough.Set.t * (Sink.t * Passthrough.Set.t) list
(** get a path for each of the reportable flows to a sink in this trace *)
val get_reportable_sink_paths : t -> trace_of_pname:(Procname.t -> t) -> sink_path list
(** convert of the sinks to callee sinks for the given call site *)
val to_callee : t -> CallSite.t -> t
end
module MakeSink (TraceElem : TraceElem.S) :
Sink.S with module Kind = TraceElem.Kind and type t = TraceElem.t
module Make (TraceElem : TraceElem.S) :
S with module Source = Source.Dummy and module Sink = MakeSink(TraceElem)

@ -75,9 +75,11 @@ module TransferFunctions (CFG : ProcCfg.S) = struct
| Prune (exp, loc, _, _) ->
Domain.join astate (get_globals tenv astate pdesc loc exp)
| Call (_, Const (Cfun callee_pname), params, loc, _) ->
let callsite = CallSite.make callee_pname loc in
let callee_globals =
Option.default Domain.initial
@@ Summary.read_summary tenv pdesc callee_pname in
match Summary.read_summary tenv pdesc callee_pname with
| Some (Domain.NonBottom trace) -> Domain.NonBottom (SiofTrace.to_callee trace callsite)
| _ -> Domain.Bottom in
add_params_globals astate tenv pdesc loc params
|> Domain.join callee_globals
|>
@ -100,29 +102,48 @@ module Analyzer =
module Interprocedural = Analyzer.Interprocedural (Summary)
let report_siof pname loc bad_globals =
let pp_desc fmt () =
let pp_var f v =
let report_siof trace pdesc tenv loc =
let trace_of_pname pname =
match Summary.read_summary tenv pdesc pname with
| Some (SiofDomain.NonBottom summary) -> summary
| _ -> SiofTrace.initial in
let pp_sink f sink =
let pp_source f v = match Pvar.get_source_file v with
| Some source_file when DB.source_file_equal DB.source_file_empty source_file ->
Format.fprintf f ""
F.fprintf f ""
| None ->
Format.fprintf f ""
F.fprintf f ""
| Some source_file ->
Format.fprintf f " from file %s" (DB.source_file_to_string source_file) in
Format.fprintf f "%s%a" (Pvar.get_simplified_name v) pp_source v in
let pp_set f s = pp_seq pp_var f s in
Format.fprintf fmt
F.fprintf f " from file %s" (DB.source_file_to_string source_file) in
let v = SiofTrace.Sink.kind sink in
F.fprintf f "%s%a" (Pvar.get_simplified_name v) pp_source v in
let pp_path_part f path =
let pp_path f path =
let pp_sep f () = F.fprintf f " => " in
let pp_elem f (sink, _) =
CallSite.pp f (SiofTrace.Sink.call_site sink) in
(F.pp_print_list ~pp_sep) pp_elem f path in
if (IList.length path > 1)
then F.fprintf f "Full path: %a" pp_path path in
let report_one_path (_, path) =
let final_sink = fst (IList.hd path) in
let description =
F.asprintf
"This global variable initializer accesses the following globals in another translation \
unit: %a"
pp_set bad_globals in
let description = pp_to_string pp_desc () in
unit: %a. %a"
pp_sink final_sink
pp_path_part (IList.rev path) in
let caller_pname = Cfg.Procdesc.get_proc_name pdesc in
let exn = Exceptions.Checkers
("STATIC_INITIALIZATION_ORDER_FIASCO", Localise.verbatim_desc description) in
Reporting.log_error pname ~loc exn
Reporting.log_error caller_pname ~loc exn in
IList.iter report_one_path (SiofTrace.get_reportable_sink_paths trace ~trace_of_pname)
let siof_check pdesc = function
let siof_check pdesc tenv = function
| Some (SiofDomain.NonBottom post) ->
let attrs = Cfg.Procdesc.get_attributes pdesc in
let is_orig_file f = match attrs.ProcAttributes.translation_unit with
@ -137,21 +158,15 @@ let siof_check pdesc = function
(fun sink -> is_foreign (SiofTrace.Sink.kind sink))
(SiofTrace.sinks post) in
if not (SiofTrace.Sinks.is_empty foreign_global_sinks)
then
let foreign_globals =
IList.map
(fun sink -> (SiofTrace.Sink.kind sink))
(SiofTrace.Sinks.elements foreign_global_sinks) in
report_siof (Cfg.Procdesc.get_proc_name pdesc) attrs.ProcAttributes.loc foreign_globals;
then report_siof post pdesc tenv attrs.ProcAttributes.loc;
| Some SiofDomain.Bottom | None ->
()
let checker callback =
let pdesc = callback.Callbacks.proc_desc in
let checker ({ Callbacks.tenv; proc_desc } as callback) =
let post = Interprocedural.checker callback ProcData.empty_extras in
let pname = Cfg.Procdesc.get_proc_name pdesc in
let pname = Cfg.Procdesc.get_proc_name proc_desc in
match pname with
| Procname.C c when Procname.is_globals_initializer c ->
siof_check pdesc post
siof_check proc_desc tenv post
| _ ->
()

@ -16,4 +16,4 @@ sig
val pp : Format.formatter -> t -> unit
end
include Trace.S with module Sink.Kind = Globals
include SinkTrace.S with module Sink.Kind = Globals

@ -20,4 +20,4 @@ module type S = sig
val get : CallSite.t -> t option
end
module Dummy : S
module Dummy : S with type t = unit

@ -75,7 +75,7 @@ module type S = sig
val pp : F.formatter -> t -> unit
(** pretty-print a path in the context of the given procname *)
val pp_path : F.formatter -> Procname.t -> path -> unit
val pp_path : Procname.t -> F.formatter -> path -> unit
end
(** Expand a trace element (i.e., a source or sink) into a list of trace elements bottoming out in
@ -102,7 +102,7 @@ module Expander (TraceElem : TraceElem.S) = struct
(* TODO: pick the shortest path to a sink here instead (t14242809) *)
(* arbitrarily pick one elem and explore it further *)
expand_ callee_elem ((elem, passthroughs) :: elems_passthroughs_acc)
| [] ->
| _ ->
(elem, Passthrough.Set.empty) :: elems_passthroughs_acc in
expand_ elem0 []
end
@ -166,7 +166,7 @@ module Make (Spec : Spec) = struct
else acc in
Sources.fold (fun source acc -> Sinks.fold (report_one source) t.sinks acc) t.sources []
let pp_path fmt cur_pname (cur_passthroughs, sources_passthroughs, sinks_passthroughs) =
let pp_path cur_pname fmt (cur_passthroughs, sources_passthroughs, sinks_passthroughs) =
let pp_passthroughs fmt passthroughs =
if not (Passthrough.Set.is_empty passthroughs)
then F.fprintf fmt "(via %a)" Passthrough.Set.pp passthroughs in

@ -75,7 +75,7 @@ module type S = sig
val pp : F.formatter -> t -> unit
(** pretty-print a path in the context of the given procname *)
val pp_path : F.formatter -> Procname.t -> path -> unit
val pp_path : Procname.t -> F.formatter -> path -> unit
end
module Make (Spec : Spec) : S with module Source = Spec.Source and module Sink = Spec.Sink

@ -1,3 +1,4 @@
siof/const_use.cpp:17: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: u
siof/pod_across_translation_units-1.cpp:12: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: y from file siof/pod_across_translation_units-2.cpp
siof/siof_across_translation_units-1.cpp:21: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: global_object
siof/const_use.cpp:17: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: u.
siof/pod_across_translation_units-1.cpp:13: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: y from file siof/pod_across_translation_units-2.cpp. Full path: baz at [line 13] => bar at [line 12] => foo at [line 11]
siof/siof_across_translation_units-1.cpp:21: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: another_global_object from file siof/siof_across_translation_units-1.cpp.
siof/siof_across_translation_units-1.cpp:21: ERROR: STATIC_INITIALIZATION_ORDER_FIASCO This global variable initializer accesses the following globals in another translation unit: global_object.

@ -8,7 +8,8 @@
*/
extern int foo();
static int x = foo(); // BAD: report SIOF here
int bar() { return foo(); }
int baz() { return bar(); }
static int x = baz(); // BAD: report SIOF here
static int x1 = x; // do not report here
static int x2 = x1; // do not report here

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