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|
module U64 = Stdint.Uint64
module U32 = Stdint.Uint32
type sid =
{ sid_ident_auth : U64.t (* 6 B *)
; sid_sub_auths : U32.t array (* max. 15 × *)
}
and sub_auths = U32.t array
let sizeof_ident_auth = 6
let sizeof_sub_auth = 4
let max_subauth_count = 15
let create_unsafe sa ia =
{ sid_ident_auth = ia
; sid_sub_auths = sa }
(* There isn’t much to validate to begin with except for the hard cap on
the number of subauths. *)
let create ?(sa=[||]) ia =
if Array.length sa > max_subauth_count then None else
Some (create_unsafe sa ia)
let get_ident_auth s = s.sid_ident_auth
let get_sub_auths s = s.sid_sub_auths
exception Nope
let equal_sub_auths saa sab =
try
Array.iter2
(fun saa sab -> if U32.compare saa sab <> 0 then raise Nope)
saa sab;
true
with Nope -> false
let equal a b =
U64.compare a.sid_ident_auth b.sid_ident_auth = 0
&& Array.length a.sid_sub_auths = Array.length b.sid_sub_auths
&& equal_sub_auths a.sid_sub_auths b.sid_sub_auths
module StringFmt = struct
let expect_char s c p =
if s.[p] = c then () else
raise
(Invalid_argument
(Printf.sprintf
"Invalid SID [%s]: expected ‘%c’ at position %d, found ‘%c’"
s c p s.[p]))
let is_digit c = '0' <= c && c <= '9'
let read_decimal_string f s p =
let n = String.length s in
assert (p < n);
let p' = ref p in
let b = Buffer.create 16 in
while !p' < n && is_digit s.[!p'] do
Buffer.add_char b s.[!p'];
incr p'
done;
let nb = Buffer.length b in
if nb = 0 then
raise (Invalid_argument
(Printf.sprintf
"Invalid SID [%s]: expected decimal at position %d" s p))
else
p + nb,
f (Buffer.contents b)
let read_decimal_u64 = read_decimal_string U64.of_string
let read_decimal_u32 = read_decimal_string U32.of_string
(*
* The spec ([MS-DTYP]):
*
* 2.4.2.1: SID= "S-1-" IdentifierAuthority 1*SubAuthority
*)
let decode s =
let n = String.length s in
if n <= 4 then
raise
(Invalid_argument
(Printf.sprintf
"Invalid SID: ‘%s’ too short to be a SID in string format" s))
else
expect_char s 'S' 0;
expect_char s '-' 1;
expect_char s '1' 2;
expect_char s '-' 3;
let p = 4 in
let p, ia = read_decimal_u64 s p in
let sa = ref [] and p' = ref p in
while !p' < n && List.length !sa < max_subauth_count do
expect_char s '-' !p';
let np, d = read_decimal_u32 s (!p' + 1) in
sa := d :: !sa;
p' := np
done;
{ sid_ident_auth = ia
; sid_sub_auths = Array.of_list (List.rev !sa)
}
let from_string_res s =
try Ok (decode s) with Invalid_argument msg -> Error msg
let from_string_opt s =
try Some (decode s) with Invalid_argument _ -> None
let fmt_ident_auth b ia =
Buffer.add_string b (U64.to_string ia)
let fmt_sub_auths b sas =
Array.iter
(fun sa ->
Buffer.add_char b '-';
Buffer.add_string b (U32.to_string sa))
sas
let encode s =
let b = Buffer.create 16 in
Buffer.add_string b "S-1-";
fmt_ident_auth b s.sid_ident_auth;
fmt_sub_auths b s.sid_sub_auths;
Buffer.contents b
end (* [module StringFmt] *)
module PacketRep = struct (* [MS-DTYP] 2.4.22 *)
(* XXX configurable endianness *)
let encode s =
let nsa = Array.length s.sid_sub_auths in
let l = 8 + nsa * sizeof_sub_auth in
let b = Buffer.create l in
assert (0 <= nsa && nsa <= 15);
let pushbyte c = char_of_int c |> Buffer.add_char b in
pushbyte 1;
pushbyte nsa;
let getia n =
pushbyte (U64.to_int (U64.shift_right s.sid_ident_auth n) land 0xff)
in (* big endian!, cf. [MS-DTYP] 2.4.1.1 *)
getia 5; getia 4; getia 3; getia 2; getia 1; getia 0;
let getsa sa n = pushbyte (U32.to_int (U32.shift_right sa n) land 0xff) in
Array.iter
(fun sa -> getsa sa 0; getsa sa 1; getsa sa 2; getsa sa 3)
s.sid_sub_auths;
Bytes.unsafe_of_string (Buffer.contents b)
let wordlen = 4 (* sizeof int *)
let min_pktrep_len = 1 + 1 + sizeof_ident_auth
let max_pktrep_len = 1 + 1
+ sizeof_ident_auth
+ max_subauth_count * sizeof_sub_auth
let pktrep_sa_off = min_pktrep_len
let decode b =
let l = Bytes.length b in
if l < min_pktrep_len || max_pktrep_len < l then
Error (Printf.sprintf
"bad input size: expected %d–%d B, got %d B"
min_pktrep_len max_pktrep_len l) else
if l mod wordlen <> 0 then
Error (Printf.sprintf
"bad input size: not divisible by word length (%d)"
wordlen) else
let v = Bytes.get b 0 |> int_of_char in
if v <> 0x01 then
Error (Printf.sprintf
"input malformed: expected SID version=0x01, got 0x%0.2x" v) else
let nsa = Bytes.get b 1 |> int_of_char in
if max_subauth_count < nsa then
Error (Printf.sprintf
"input malformed: up to %d subAuthority elements permitted, \
%d specified"
max_subauth_count nsa) else
let getbyte n ia = (* b[n] << (5 - (n - 2)) *)
U64.logor ia
(U64.shift_left (Bytes.get b n |> int_of_char |> U64.of_int) (5 - (n - 2)))
in
let ia = U64.zero
|> getbyte 2 |> getbyte 3 |> getbyte 4
|> getbyte 5 |> getbyte 6 |> getbyte 7 in
let sas = Array.make nsa (U32.zero) in
for i = 0 to (nsa - 1) do
let off = pktrep_sa_off + i * sizeof_sub_auth in
sas.(i) <- U32.of_bytes_little_endian b off
done;
Ok { sid_ident_auth = ia
; sid_sub_auths = sas
}
end (* [module PacketRep] *)
module WellKnown = struct
(*
* see also
* https://docs.microsoft.com/en-us/windows/desktop/secauthz/well-known-sids
*)
let null = create_unsafe [| U32.zero |] U64.zero
let everyone = create_unsafe [| U32.zero |] U64.one
let world = everyone
let local = create_unsafe [| U32.zero |] (U64.of_int 2)
let creator_owner_id = create_unsafe [| U32.zero |] (U64.of_int 3)
let creator_group_id = create_unsafe [| U32.one |] (U64.of_int 3)
let elite = create_unsafe [| U32.of_int 3 ; U32.of_int 3; U32.of_int 7 |] U64.one
module Prefix = struct
let security_null_sid_authority ?(sa=[||]) () = create ~sa (U64.of_int 0)
let security_world_sid_authority ?(sa=[||]) () = create ~sa (U64.of_int 1)
let security_local_sid_authority ?(sa=[||]) () = create ~sa (U64.of_int 2)
let security_creator_sid_authority ?(sa=[||]) () = create ~sa (U64.of_int 3)
let security_nt_authority ?(sa=[||]) () = create ~sa (U64.of_int 5)
end
end
let of_string = StringFmt.decode
let to_string = StringFmt.encode
type t = sid
|