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|
open OUnit
module U64 = Stdint.Uint64
module U32 = Stdint.Uint32
(*
let () = Printexc.record_backtrace true ;;
*)
(* S-1-1-0-1-2-3-4-5-6-7-8-9-10-11-12-13-14 *)
let max_sid = Stdint.(
Sid.create_unsafe
[| Uint32.zero ; Uint32.one ; Uint32.of_int 2
; Uint32.of_int 3 ; Uint32.of_int 4 ; Uint32.of_int 5
; Uint32.of_int 6 ; Uint32.of_int 7 ; Uint32.of_int 8
; Uint32.of_int 9 ; Uint32.of_int 10 ; Uint32.of_int 11
; Uint32.of_int 12 ; Uint32.of_int 13 ; Uint32.of_int 14
|]
Uint64.one
)
let create_ok () =
let w = Sid.WellKnown.everyone
and s =
match Sid.create ~sa:[| Stdint.Uint32.zero |] Stdint.Uint64.one with
| None -> assert_failure "Sid.create failed for S-1-0"
| Some s -> s
in
assert_bool
(Printf.sprintf "[%s] ≠ [%s]" (Sid.to_string s) (Sid.to_string w))
(Sid.equal s w)
let create_fail () =
let sas = Array.make 16 Stdint.Uint32.one in
match Sid.create ~sa:sas Stdint.Uint64.zero with
| None -> ()
| Some s -> assert_failure ("Sid.create succeeded on invalid sa array")
let unwrap_of_string s =
match Sid.of_string s with
| Error e ->
assert_failure
(Printf.sprintf "error parsing assumed well-formed sid [%s]: %s" s e)
| Ok r -> r
let sf_parse_ok () =
let s = unwrap_of_string "S-1-1-0"
and z = Stdint.((Sid.create_unsafe [| Uint32.zero |] Uint64.one)) in
assert_bool
(Printf.sprintf "[%s] ≠ [%s]" (Sid.to_string s) (Sid.to_string z))
(Sid.equal s z);
let w = Sid.WellKnown.world in
assert_bool
(Printf.sprintf "[%s] ≠ [well known: %s]"
(Sid.to_string s) (Sid.to_string w))
(Sid.equal s w)
let sf_parse_empty_fail () =
match Sid.of_string "" with
| Ok _ -> assert_failure "unexpectedly parsed the empty string"
| Error e ->
assert_equal e "Invalid SID: ‘’ too short to be a SID in string format"
let sf_parse_junk_fail () =
match Sid.of_string "not a sid" with
| Ok _ -> assert_failure "unexpectedly parsed junk inputs as SID"
| Error e ->
assert_equal
e "Invalid SID [not a sid]: expected ‘S’ at position 0, found ‘n’"
let sf_parse_ia_junk_fail () =
match Sid.of_string "S-I-3-3-7" with
| Ok _ -> assert_failure "unexpectedly parsed junk inputs as SID"
| Error e ->
assert_equal
e "Invalid SID [S-I-3-3-7]: expected ‘1’ at position 2, found ‘I’"
let sf_parse_trailing_ok () =
let s = unwrap_of_string "S-1-0-0-" in
assert_equal (Sid.to_string s) "S-1-0-0"
let sf_parse_maxint_ok () =
let s = unwrap_of_string
(Printf.sprintf "S-1-281474976710655-%s-%s"
(U32.to_string U32.max_int)
(U32.to_string U32.max_int))
in
assert_equal (Sid.to_string s) "S-1-281474976710655-4294967295-4294967295"
let sf_parse_oobia_fail () =
match Sid.of_string
(Printf.sprintf "S-1-%s-42" (U64.to_string U64.max_int))
with
| Ok _ -> assert_failure "unexpectedly parsed the out of bounds subauth"
| Error e ->
assert_equal e "Invalid SID: identifier authority cannot fit 6 B \
(281474976710655)"
let sf_parse_oobsa_fail () =
match Sid.of_string
(Printf.sprintf "S-1-42-%s" (U64.to_string U64.max_int))
with
| Ok _ -> assert_failure "unexpectedly parsed the out of bounds subauth"
| Error e ->
assert_equal e "Invalid SID: error parsing subauth at position 7, \
(err: Uint32.of_string)"
let sf_parse_long_ok () =
let s = unwrap_of_string "S-1-1-0-1-2-3-4-5-6-7-8-9-10-11-12-13-14"
and l = max_sid in
assert_bool
(Printf.sprintf "[%s] ≠ [%s]" (Sid.to_string s) (Sid.to_string l))
(Sid.equal s l)
let sf_parse_too_long_ok () =
(* must ignore trailing subauths *)
let s1 = unwrap_of_string "S-1-1-0-1-2-3-4-5-6-7-8-9-10-11-12-13-14-15"
and s2 = unwrap_of_string "S-1-1-0-1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17"
and l = max_sid in
assert_bool
(Printf.sprintf "[%s] ≠ [%s]" (Sid.to_string s1) (Sid.to_string l))
(Sid.equal s1 l);
assert_bool
(Printf.sprintf "[%s] ≠ [%s]" (Sid.to_string s2) (Sid.to_string l))
(Sid.equal s2 l)
let pr_encode_null_ok () =
let x =
Sid.WellKnown.null
|> Sid.PacketRep.encode
|> Xxd.xxd_of_bytes ~blocklen:2
in
let expect = "0101 0000 0000 0000 0000 0000" in
(* vvcc iiii iiii iiii ssss ssss *)
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" x expect)
x expect
let pr_encode_be_ok () =
let sid = "S-1-0-42" in
let sle = unwrap_of_string sid
|> Sid.PacketRep.encode
|> Xxd.xxd_of_bytes ~blocklen:2
and sbe = unwrap_of_string sid
|> Sid.PacketRep.encode ~endian:Big
|> Xxd.xxd_of_bytes ~blocklen:2
in
let expect_le = "0101 0000 0000 0000 2a00 0000"
and expect_be = "0101 0000 0000 0000 0000 002a" in
(* vvcc iiii iiii iiii ssss ssss *)
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" sle expect_le)
sle expect_le;
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" sbe expect_be)
sbe expect_be
let pr_encode_all_ok () =
let x =
Sid.WellKnown.everyone
|> Sid.PacketRep.encode
|> Xxd.xxd_of_bytes ~blocklen:2
in
let expect = "0101 0000 0000 0001 0000 0000" in
(* vvcc iiii iiii iiii ssss ssss *)
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" x expect)
x expect
let pr_decode_all_ok () =
let s =
match
Xxd.bytes_of_xxd "0101 0000 0000 0001 0000 0000"
(* vvcc iiii iiii iiii ssss ssss *)
|> Sid.PacketRep.decode
with
| Ok s -> s
| Error e ->
assert_failure
(Printf.sprintf "error decoding SID: %s" e)
in
let w = Sid.WellKnown.world in
assert_bool
(Printf.sprintf "[%s] ≠ [%s]"
(Sid.to_string s) (Sid.to_string w))
(Sid.equal s w)
let pr_decode_be_ok () =
let sid = unwrap_of_string "S-1-1-1-2-3-4-5-6-7-8-9-10-11-12-13-14-15"
and sle =
match Xxd.bytes_of_xxd
"010f 0000 0000 0001 \
0100 0000 0200 0000 0300 0000 0400 0000 \
0500 0000 0600 0000 0700 0000 0800 0000 \
0900 0000 0a00 0000 0b00 0000 0c00 0000 \
0d00 0000 0e00 0000 0f00 0000"
|> Sid.PacketRep.decode
with
| Ok s -> s
| Error e ->
assert_failure
(Printf.sprintf "error decoding SID: %s" e)
and sbe =
match Xxd.bytes_of_xxd
"010f 0000 0000 0001 \
0000 0001 0000 0002 0000 0003 0000 0004 \
0000 0005 0000 0006 0000 0007 0000 0008 \
0000 0009 0000 000a 0000 000b 0000 000c \
0000 000d 0000 000e 0000 000f"
|> Sid.PacketRep.decode ~endian:Big
with
| Ok s -> s
| Error e ->
assert_failure
(Printf.sprintf "error decoding SID: %s" e)
in
assert_bool
(Printf.sprintf "le: [%s] ≠ [%s]" (Sid.to_string sid) (Sid.to_string sle))
(Sid.equal sid sle);
assert_bool
(Printf.sprintf "be: [%s] ≠ [%s]" (Sid.to_string sid) (Sid.to_string sbe))
(Sid.equal sid sbe)
let pr_decode_version_fail () =
let b = Xxd.bytes_of_xxd "0201 0000 0000 0001 0000 0000" in
(* vvcc iiii iiii iiii ssss ssss *)
match Sid.PacketRep.decode b with
| Error e ->
let expect = "input malformed: expected SID version=0x01, got 0x02" in
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" e expect)
e expect
| Ok s ->
assert_failure
(Printf.sprintf "malformed SID decoded unexpectedly: %s"
(Sid.to_string s))
let pr_decode_sacount_fail () =
let b = Xxd.bytes_of_xxd "0110 0000 0000 0001 0000 0000" in
(* vvcc iiii iiii iiii ssss ssss *)
match Sid.PacketRep.decode b with
| Error e ->
let expect = "input malformed: up to 15 subAuthority elements \
permitted, 16 specified" in
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" e expect)
e expect
| Ok s ->
assert_failure
(Printf.sprintf "malformed SID decoded unexpectedly: %s"
(Sid.to_string s))
let pr_decode_short_fail () =
let b = Xxd.bytes_of_xxd "0105 0000 0000 00" in
(* vvcc iiii iiii ii…… *)
match Sid.PacketRep.decode b with
| Error e ->
let expect = "bad input size: expected 8–68 B, got 7 B" in
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" e expect)
e expect
| Ok s ->
assert_failure
(Printf.sprintf "malformed SID decoded unexpectedly: %s"
(Sid.to_string s))
let pr_decode_long_fail () =
let r =
"010e 0000 0000 0000 0100 0000 0200 0000 \
0300 0000 0400 0000 0500 0000 0600 0000 \
0700 0000 0800 0000 0900 0000 0a00 0000 \
0b00 0000 0c00 0000 0d00 0000 0e00 0000 \
0f00 0000 1000 0000"
in
let b = Xxd.bytes_of_xxd r in
match Sid.PacketRep.decode b with
| Error e ->
let expect = "bad input size: expected 8–68 B, got 72 B" in
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" e expect)
e expect
| Ok s ->
assert_failure
(Printf.sprintf "malformed SID decoded unexpectedly: %s"
(Sid.to_string s))
let pr_decode_odd_fail () =
match
Xxd.bytes_of_xxd "0101 0000 0000 0000 0100 0000 0200"
(* vvcc iiii iiii iiii ssss ssss ssss …
upper half word missing *)
|> Sid.PacketRep.decode
with
| Error e ->
let expect = "bad input size: not divisible by word length (4)" in
assert_equal
~msg:(Printf.sprintf "[%s] ≠ [%s]" e expect)
e expect
| Ok s ->
assert_failure
(Printf.sprintf "malformed SID decoded unexpectedly: %s"
(Sid.to_string s))
let string_format_test = "string-format-syntax" >:::
[ "parse-ok" >:: sf_parse_ok
; "parse-empty-fail" >:: sf_parse_empty_fail
; "parse-junk-fail" >:: sf_parse_junk_fail
; "parse-ia-junk-fail" >:: sf_parse_ia_junk_fail
; "parse-trailing-ok" >:: sf_parse_trailing_ok
; "parse-maxint-ok" >:: sf_parse_maxint_ok
; "parse-oobia-fail" >:: sf_parse_oobia_fail
; "parse-oobsa-fail" >:: sf_parse_oobsa_fail
; "parse-long-ok" >:: sf_parse_long_ok
; "parse-too-long-ok" >:: sf_parse_too_long_ok
]
let packet_rep_test = "packet-rep" >:::
[ "encode-null-ok" >:: pr_encode_null_ok
; "encode-all-ok" >:: pr_encode_all_ok
; "encode-be-ok" >:: pr_encode_be_ok
; "decode-all-ok" >:: pr_decode_all_ok
; "decode-be-ok" >:: pr_decode_be_ok
; "decode-version-fail" >:: pr_decode_version_fail
; "decode-sacount-fail" >:: pr_decode_sacount_fail
; "decode-short-fail" >:: pr_decode_short_fail
; "decode-long-fail" >:: pr_decode_long_fail
; "decode-odd-fail" >:: pr_decode_odd_fail
]
let () =
ignore (run_test_tt_main string_format_test);
ignore (run_test_tt_main packet_rep_test )
|