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|
(* abi fuzzer, generates two modules one calling
* the other in two possibly different languages
*)
type _ bty =
| Char: int bty
| Short: int bty
| Int: int bty
| Long: int bty
| Float: float bty
| Double: float bty
type _ sty =
| Field: 'a bty * 'b sty -> ('a * 'b) sty
| Empty: unit sty
type _ aty =
| Base: 'a bty -> 'a aty
| Struct: 'a sty -> 'a aty
type anyb = AB: _ bty -> anyb (* kinda boring... *)
type anys = AS: _ sty -> anys
type anya = AA: _ aty -> anya
type testb = TB: 'a bty * 'a -> testb
type testa = TA: 'a aty * 'a -> testa
let align a x =
let m = x mod a in
if m <> 0 then x + (a-m) else x
let btysize: type a. a bty -> int = function
| Char -> 1
| Short -> 2
| Int -> 4
| Long -> 8
| Float -> 4
| Double -> 8
let btyalign = btysize
let styempty: type a. a sty -> bool = function
| Field _ -> false
| Empty -> true
let stysize s =
let rec f: type a. int -> a sty -> int =
fun sz -> function
| Field (b, s) ->
let a = btyalign b in
f (align a sz + btysize b) s
| Empty -> sz in
f 0 s
let rec styalign: type a. a sty -> int = function
| Field (b, s) -> max (btyalign b) (styalign s)
| Empty -> 1
(* Generate types and test vectors. *)
module Gen = struct
module R = Random
let init = function
| None ->
let f = open_in "/dev/urandom" in
let seed =
Char.code (input_char f) lsl 8 +
Char.code (input_char f) in
close_in f;
R.init seed;
seed
| Some seed ->
R.init seed;
seed
let int sz =
let bound = 1 lsl (8 * min sz 3 - 1) in
let i = R.int bound in
if R.bool () then - i else i
let float () =
let f = R.float 1000. in
if R.bool () then -. f else f
let testv: type a. a aty -> a =
let tb: type a. a bty -> a = function (* eh, dry... *)
| Float -> float ()
| Double -> float ()
| Char -> int (btysize Char)
| Short -> int (btysize Short)
| Int -> int (btysize Int)
| Long -> int (btysize Long) in
let rec ts: type a. a sty -> a = function
| Field (b, s) -> (tb b, ts s)
| Empty -> () in
function
| Base b -> tb b
| Struct s -> ts s
let b () = (* uniform *)
match R.int 6 with
| 0 -> AB Char
| 1 -> AB Short
| 2 -> AB Int
| 3 -> AB Long
| 4 -> AB Float
| _ -> AB Double
let smax = 5 (* max elements in structs *)
let structp = 0.3 (* odds of having a struct type *)
let amax = 8 (* max function arguments *)
let s () =
let rec f n =
if n = 0 then AS Empty else
let AB bt = b () in
let AS st = f (n-1) in
AS (Field (bt, st)) in
f (1 + R.int (smax-1))
let a () =
if R.float 1.0 > structp then
let AB bt = b () in
AA (Base bt)
else
let AB bt = b () in
let AS st = s () in
AA (Struct (Field (bt, st)))
let test () =
let AA ty = a () in
let t = testv ty in
TA (ty, t)
let tests () =
let rec f n =
if n = 0 then [] else
test () :: f (n-1) in
f (R.int amax)
end
(* Code generation for C *)
module OutC = struct
open Printf
let ctypelong oc name =
let cb: type a. a bty -> unit = function
| Char -> fprintf oc "char"
| Short -> fprintf oc "short"
| Int -> fprintf oc "int"
| Long -> fprintf oc "long"
| Float -> fprintf oc "float"
| Double -> fprintf oc "double" in
let rec cs: type a. int -> a sty -> unit =
fun i -> function
| Field (b, s) ->
cb b;
fprintf oc " f%d; " i;
cs (i+1) s;
| Empty -> () in
function
| Base b ->
cb b;
| Struct s ->
fprintf oc "struct %s { " name;
cs 1 s;
fprintf oc "}";
()
let ctype: type a. out_channel -> string -> a aty -> unit =
fun oc name -> function
| Struct _ -> fprintf oc "struct %s" name
| t -> ctypelong oc "" t
let base: type a. out_channel -> a bty * a -> unit =
fun oc -> function
| Char, i -> fprintf oc "%d" i
| Short, i -> fprintf oc "%d" i
| Int, i -> fprintf oc "%d" i
| Long, i -> fprintf oc "%d" i
| Float, f -> fprintf oc "%ff" f
| Double, f -> fprintf oc "%f" f
let init oc name (TA (ty, t)) =
let inits s =
let rec f: type a. a sty * a -> unit = function
| Field (b, s), (tb, ts) ->
base oc (b, tb);
fprintf oc ", ";
f (s, ts)
| Empty, () -> () in
fprintf oc "{ ";
f s;
fprintf oc "}"; in
ctype oc name ty;
fprintf oc " %s = " name;
begin match (ty, t) with
| Base b, tb -> base oc (b, tb)
| Struct s, ts -> inits (s, ts)
end;
fprintf oc ";\n";
()
let extension = ".c"
let comment oc s =
fprintf oc "/* %s */\n" s
let prelude oc = List.iter (fprintf oc "%s\n")
[ "#include <stdio.h>"
; "#include <stdlib.h>"
; ""
; "static void fail(char *chk)"
; "{"
; "\tfprintf(stderr, \"fail: checking %s\\n\", chk);"
; "\tabort();"
; "}"
; ""
]
let typedef oc name = function
| TA (Struct ts, _) ->
ctypelong oc name (Struct ts);
fprintf oc ";\n";
| _ -> ()
let check oc name =
let chkbase: type a. string -> a bty * a -> unit =
fun name t ->
fprintf oc "\tif (%s != " name;
base oc t;
fprintf oc ")\n\t\tfail(%S);\n" name; in
function
| TA (Base b, tb) -> chkbase name (b, tb)
| TA (Struct s, ts) ->
let rec f: type a. int -> a sty * a -> unit =
fun i -> function
| Field (b, s), (tb, ts) ->
chkbase (Printf.sprintf "%s.f%d" name i) (b, tb);
f (i+1) (s, ts);
| Empty, () -> () in
f 1 (s, ts)
let argname i = "arg" ^ string_of_int (i+1)
let proto oc (TA (tret, _)) args =
ctype oc "ret" tret;
fprintf oc " f(";
let narg = List.length args in
List.iteri (fun i (TA (targ, _)) ->
ctype oc (argname i) targ;
fprintf oc " %s" (argname i);
if i <> narg-1 then
fprintf oc ", ";
) args;
fprintf oc ")";
()
let caller oc ret args =
let narg = List.length args in
prelude oc;
typedef oc "ret" ret;
List.iteri (fun i arg ->
typedef oc (argname i) arg;
) args;
proto oc ret args;
fprintf oc ";\n\nint main()\n{\n";
List.iteri (fun i arg ->
fprintf oc "\t";
init oc (argname i) arg;
) args;
fprintf oc "\t";
let TA (tret, _) = ret in
ctype oc "ret" tret;
fprintf oc " ret;\n\n";
fprintf oc "\tret = f(";
List.iteri (fun i _ ->
fprintf oc "%s" (argname i);
if i <> narg-1 then
fprintf oc ", ";
) args;
fprintf oc ");\n";
check oc "ret" ret;
fprintf oc "\n\treturn 0;\n}\n";
()
let callee oc ret args =
prelude oc;
typedef oc "ret" ret;
List.iteri (fun i arg ->
typedef oc (argname i) arg;
) args;
fprintf oc "\n";
proto oc ret args;
fprintf oc "\n{\n\t";
init oc "ret" ret;
fprintf oc "\n";
List.iteri (fun i arg ->
check oc (argname i) arg;
) args;
fprintf oc "\n\treturn ret;\n}\n";
()
end
(* Code generation for QBE *)
module OutIL = struct
open Printf
let comment oc s =
fprintf oc "# %s\n" s
let tmp, lbl =
let next = ref 0 in
(fun () -> incr next; "%t" ^ (string_of_int !next)),
(fun () -> incr next; "@l" ^ (string_of_int !next))
let bvalue: type a. a bty * a -> string = function
| Char, i -> sprintf "%d" i
| Short, i -> sprintf "%d" i
| Int, i -> sprintf "%d" i
| Long, i -> sprintf "%d" i
| Float, f -> sprintf "s_%f" f
| Double, f -> sprintf "d_%f" f
let btype: type a. a bty -> string = function
| Char -> "w"
| Short -> "w"
| Int -> "w"
| Long -> "l"
| Float -> "s"
| Double -> "d"
let extension = ".ssa"
let argname i = "arg" ^ string_of_int (i+1)
let siter oc base s g =
let rec f: type a. int -> int -> a sty * a -> unit =
fun id off -> function
| Field (b, s), (tb, ts) ->
let off = align (btyalign b) off in
let addr = tmp () in
fprintf oc "\t%s =l add %d, %s\n" addr off base;
g id addr (TB (b, tb));
f (id + 1) (off + btysize b) (s, ts);
| Empty, () -> () in
f 0 0 s
let bmemtype b =
if AB b = AB Char then "b" else
if AB b = AB Short then "h" else
btype b
let init oc = function
| TA (Base b, tb) -> bvalue (b, tb)
| TA (Struct s, ts) ->
let base = tmp () in
fprintf oc "\t%s =l alloc%d %d\n"
base (styalign s) (stysize s);
siter oc base (s, ts)
begin fun _ addr (TB (b, tb)) ->
fprintf oc "\tstore%s %s, %s\n"
(bmemtype b) (bvalue (b, tb)) addr;
end;
base
let check oc id name =
let bcheck = fun id name (b, tb) ->
let tcmp = tmp () in
let nxtl = lbl () in
fprintf oc "\t%s =w ceq%s %s, %s\n"
tcmp (btype b) name (bvalue (b, tb));
fprintf oc "\tstorew %d, %%failcode\n" id;
fprintf oc "\tjnz %s, %s, @fail\n" tcmp nxtl;
fprintf oc "%s\n" nxtl; in
function
| TA (Base Char, i) ->
let tval = tmp () in
fprintf oc "\t%s =w extsb %s\n" tval name;
bcheck id tval (Int, i)
| TA (Base Short, i) ->
let tval = tmp () in
fprintf oc "\t%s =w extsh %s\n" tval name;
bcheck id tval (Int, i)
| TA (Base b, tb) ->
bcheck id name (b, tb)
| TA (Struct s, ts) ->
siter oc name (s, ts)
begin fun id' addr (TB (b, tb)) ->
let tval = tmp () in
let lsuffix =
if AB b = AB Char then "sb" else
if AB b = AB Short then "sh" else
"" in
fprintf oc "\t%s =%s load%s %s\n"
tval (btype b) lsuffix addr;
bcheck (100*id + id'+1) tval (b, tb);
end;
()
let ttype name = function
| TA (Base b, _) -> btype b
| TA (Struct _, _) -> ":" ^ name
let typedef oc name =
let rec f: type a. a sty -> unit = function
| Field (b, s) ->
fprintf oc "%s" (bmemtype b);
if not (styempty s) then
fprintf oc ", ";
f s;
| Empty -> () in
function
| TA (Struct ts, _) ->
fprintf oc "type :%s = { " name;
f ts;
fprintf oc " }\n";
| _ -> ()
let postlude oc = List.iter (fprintf oc "%s\n")
[ "@fail"
; "# failure code"
; "\t%fcode =w loadw %failcode"
; "\t%f0 =w call $printf(l $failstr, w %fcode)"
; "\t%f1 =w call $abort()"
; "\tret 0"
; "}"
; ""
; "data $failstr = { b \"fail on check %d\\n\", b 0 }"
]
let caller oc ret args =
let narg = List.length args in
List.iteri (fun i arg ->
typedef oc (argname i) arg;
) args;
typedef oc "ret" ret;
fprintf oc "\nexport function w $main() {\n";
fprintf oc "@start\n";
fprintf oc "\t%%failcode =l alloc4 4\n";
let targs = List.mapi (fun i arg ->
comment oc ("define argument " ^ (string_of_int (i+1)));
(ttype (argname i) arg, init oc arg)
) args in
comment oc "call test function";
fprintf oc "\t%%ret =%s call $f(" (ttype "ret" ret);
List.iteri (fun i (ty, tmp) ->
fprintf oc "%s %s" ty tmp;
if i <> narg-1 then
fprintf oc ", ";
) targs;
fprintf oc ")\n";
comment oc "check the return value";
check oc 0 "%ret" ret;
fprintf oc "\tret 0\n";
postlude oc;
()
let callee oc ret args =
let narg = List.length args in
List.iteri (fun i arg ->
typedef oc (argname i) arg;
) args;
typedef oc "ret" ret;
fprintf oc "\nexport function %s $f(" (ttype "ret" ret);
List.iteri (fun i arg ->
let a = argname i in
fprintf oc "%s %%%s" (ttype a arg) a;
if i <> narg-1 then
fprintf oc ", ";
) args;
fprintf oc ") {\n";
fprintf oc "@start\n";
fprintf oc "\t%%failcode =l alloc4 4\n";
List.iteri (fun i arg ->
comment oc ("checking argument " ^ (string_of_int (i+1)));
check oc (i+1) ("%" ^ argname i) arg;
) args;
comment oc "define the return value";
let rettmp = init oc ret in
fprintf oc "\tret %s\n" rettmp;
postlude oc;
()
end
module type OUT = sig
val extension: string
val comment: out_channel -> string -> unit
val caller: out_channel -> testa -> testa list -> unit
val callee: out_channel -> testa -> testa list -> unit
end
let _ =
let usage code =
Printf.eprintf "usage: abi.ml [-s SEED] DIR {c,ssa} {c,ssa}\n";
exit code in
let outmod = function
| "c" -> (module OutC : OUT)
| "ssa" -> (module OutIL: OUT)
| _ -> usage 1 in
let seed, dir, mcaller, mcallee =
match Sys.argv with
| [| _; "-s"; seed; dir; caller; callee |] ->
let seed =
try Some (int_of_string seed) with
Failure _ -> usage 1 in
seed, dir, outmod caller, outmod callee
| [| _; dir; caller; callee |] ->
None, dir, outmod caller, outmod callee
| [| _; "-h" |] ->
usage 0
| _ ->
usage 1 in
let seed = Gen.init seed in
let tret = Gen.test () in
let targs = Gen.tests () in
let module OCaller = (val mcaller : OUT) in
let module OCallee = (val mcallee : OUT) in
let ocaller = open_out (dir ^ "/caller" ^ OCaller.extension) in
let ocallee = open_out (dir ^ "/callee" ^ OCallee.extension) in
OCaller.comment ocaller (Printf.sprintf "seed %d" seed);
OCallee.comment ocallee (Printf.sprintf "seed %d" seed);
OCaller.caller ocaller tret targs;
OCallee.callee ocallee tret targs;
()
|