2024-11-07 19:11:22 +00:00
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type bigstring =
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(char, Bigarray.int8_unsigned_elt, Bigarray.c_layout) Bigarray.Array1.t
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external swap16 : int -> int = "%bswap16"
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external swap32 : int32 -> int32 = "%bswap_int32"
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external swap64 : int64 -> int64 = "%bswap_int64"
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module Bstr = struct
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type t = bigstring
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let of_bigstring x = x
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2024-11-08 10:05:23 +00:00
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let empty = Bigarray.Array1.create Bigarray.char Bigarray.c_layout 0
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2024-11-07 19:11:22 +00:00
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let length = Bigarray.Array1.dim
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external get : t -> int -> char = "%caml_ba_ref_1"
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external get_uint8 : t -> int -> int = "%caml_ba_ref_1"
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external get_uint16_ne : t -> int -> int = "%caml_bigstring_get16"
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external get_int32_ne : t -> int -> int32 = "%caml_bigstring_get32"
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external get_int64_ne : t -> int -> int64 = "%caml_bigstring_get64"
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let get_int8 bstr i =
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(get_uint8 bstr i lsl (Sys.int_size - 8)) asr (Sys.int_size - 8)
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let get_uint16_le bstr i =
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if Sys.big_endian then swap16 (get_uint16_ne bstr i)
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else get_uint16_ne bstr i
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let get_uint16_be bstr i =
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if not Sys.big_endian then swap16 (get_uint16_ne bstr i)
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else get_uint16_ne bstr i
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let get_int16_ne bstr i =
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(get_uint16_ne bstr i lsl (Sys.int_size - 16)) asr (Sys.int_size - 16)
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let get_int16_le bstr i =
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(get_uint16_le bstr i lsl (Sys.int_size - 16)) asr (Sys.int_size - 16)
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let get_int16_be bstr i =
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(get_uint16_be bstr i lsl (Sys.int_size - 16)) asr (Sys.int_size - 16)
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let get_int32_le bstr i =
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if Sys.big_endian then swap32 (get_int32_ne bstr i) else get_int32_ne bstr i
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let get_int32_be bstr i =
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if not Sys.big_endian then swap32 (get_int32_ne bstr i)
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else get_int32_ne bstr i
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let get_int64_le bstr i =
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if Sys.big_endian then swap64 (get_int64_ne bstr i) else get_int64_ne bstr i
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let get_int64_be bstr i =
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if not Sys.big_endian then swap64 (get_int64_ne bstr i)
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else get_int64_ne bstr i
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let sub t ~off ~len = Bigarray.Array1.sub t off len
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let blit_to_bytes bstr ~src_off dst ~dst_off ~len =
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if
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len < 0
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|| src_off < 0
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|| src_off > length bstr - len
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|| dst_off < 0
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|| dst_off > Bytes.length dst - len
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then invalid_arg "Cachet.Bstr.blit_to_bytes";
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let len0 = len land 3 in
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let len1 = len lsr 2 in
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for i = 0 to len1 - 1 do
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let i = i * 4 in
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let v = get_int32_ne bstr (src_off + i) in
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Bytes.set_int32_ne dst (dst_off + i) v
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done;
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for i = 0 to len0 - 1 do
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let i = (len1 * 4) + i in
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let v = get_uint8 bstr (src_off + i) in
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Bytes.set_uint8 dst (dst_off + i) v
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done
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let sub_string bstr ~off ~len =
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let buf = Bytes.create len in
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blit_to_bytes bstr ~src_off:off buf ~dst_off:0 ~len;
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Bytes.unsafe_to_string buf
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let to_string bstr = sub_string bstr ~off:0 ~len:(length bstr)
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let is_empty bstr = length bstr == 0
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end
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external hash : (int32[@unboxed]) -> int -> (int32[@unboxed])
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= "cachet_hash_mix_intnat" "caml_hash_mix_intnat"
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[@@noalloc]
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let hash h d = Int32.to_int (hash h d)
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let failwithf fmt = Format.ksprintf (fun str -> failwith str) fmt
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type slice = { offset: int; length: int; payload: bigstring }
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let pp_slice ppf { offset; length; _ } =
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Format.fprintf ppf "{ @[<hov>offset= %x;@ length= %d;@] }" offset length
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(* Counter Trailing Zero *)
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let unsafe_ctz n =
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let t = ref 1 in
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let r = ref 0 in
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while n land !t = 0 do
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t := !t lsl 1;
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incr r
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done;
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!r
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let bstr_of_slice ?(logical_address = 0) { offset; length; payload } =
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if logical_address < 0 then invalid_arg "Cachet.bstr_of_slice";
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if logical_address == 0 || logical_address == offset then payload
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else if logical_address > offset + length then
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invalid_arg "Cachet.bstr_of_slice"
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else
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let pagesize = unsafe_ctz offset in
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let off = logical_address land ((pagesize lsl 1) - 1) in
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let len = length - off in
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Bstr.sub payload ~off ~len
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type metrics = { mutable cache_hit: int; mutable cache_miss: int }
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let metrics () = { cache_hit= 0; cache_miss= 0 }
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type 'fd t = {
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arr: slice option array
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; fd: 'fd
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; map: 'fd map
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; pagesize: int
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; cachesize: int
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; metrics: metrics
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}
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and 'fd map = 'fd -> pos:int -> int -> bigstring
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let fd { fd; _ } = fd
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let copy t =
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{
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arr= Array.make (1 lsl t.cachesize) None
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; fd= t.fd
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; map= t.map
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; pagesize= t.pagesize
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; cachesize= t.cachesize
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; metrics= metrics ()
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}
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(* XXX(dinosaure): power of two. *)
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let pot x = x land (x - 1) == 0 && x != 0
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let make ?(cachesize = 1 lsl 10) ?(pagesize = 1 lsl 12) ~map fd =
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if pot cachesize = false || pot pagesize = false then
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invalid_arg "Chat.make: cachesize or pagesize must be a power of two";
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let arr = Array.make cachesize None in
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let pagesize = unsafe_ctz pagesize in
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let cachesize = unsafe_ctz cachesize in
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let metrics = metrics () in
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{ arr; fd; map; pagesize; cachesize; metrics }
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let load t logical_address =
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let page = logical_address lsr t.pagesize in
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let payload = t.map t.fd ~pos:(page lsl t.pagesize) (1 lsl t.pagesize) in
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let length = Bigarray.Array1.dim payload in
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let slice = { offset= page lsl t.pagesize; length; payload } in
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let hash = hash 0l slice.offset land ((1 lsl t.cachesize) - 1) in
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t.arr.(hash) <- Some slice;
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slice
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let none : slice option = None
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let cache_miss t = t.metrics.cache_miss
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let cache_hit t = t.metrics.cache_hit
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let load t ?(len = 1) logical_address =
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if len > 1 lsl t.pagesize then
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invalid_arg "Cachet.load: you can not load more than a page";
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if logical_address < 0 then
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invalid_arg "Cachet.load: a logical address must be positive";
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let page = logical_address lsr t.pagesize in
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let hash = hash 0l (page lsl t.pagesize) land ((1 lsl t.cachesize) - 1) in
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let offset = logical_address land ((t.pagesize lsl 1) - 1) in
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match t.arr.(hash) with
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| Some slice as value when slice.offset == page lsl t.pagesize ->
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t.metrics.cache_hit <- t.metrics.cache_hit + 1;
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if slice.length - offset >= len then value else none
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| Some _ | None ->
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t.metrics.cache_miss <- t.metrics.cache_miss + 1;
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let slice = load t logical_address in
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if slice.length - offset >= len then Some slice else none
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let invalidate t ~off:logical_address ~len =
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if logical_address < 0 || len < 0 then
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invalid_arg
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"Cachet.invalidate: the logical address and/or the number of bytes to \
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invalid must be positives";
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let start_page = logical_address lsr t.pagesize in
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let end_page = (logical_address + len) lsr t.pagesize in
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let mask = (1 lsl t.cachesize) - 1 in
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for i = start_page to end_page - 1 do
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t.arr.(hash 0l (i lsl t.pagesize) land mask) <- None
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done
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let is_aligned x = x land ((1 lsl 2) - 1) == 0
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let get_uint8 t logical_address =
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match load t ~len:1 logical_address with
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| Some { payload; _ } ->
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let offset = logical_address land ((1 lsl t.pagesize) - 1) in
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Bstr.get_uint8 payload offset
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| None -> failwithf "Cachet.get_uint8"
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let get_int8 t logical_address =
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(get_uint8 t logical_address lsl (Sys.int_size - 8)) asr (Sys.int_size - 8)
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let blit_to_bytes t ~src_off:logical_address buf ~dst_off ~len =
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if len < 0 || dst_off < 0 || dst_off > Bytes.length buf - len then
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invalid_arg "Cachet.blit_to_bytes";
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let off = logical_address land ((1 lsl t.pagesize) - 1) in
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if is_aligned off && (1 lsl t.pagesize) - off >= len then begin
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match load t ~len logical_address with
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| None -> failwithf "Cachet.blit_to_bytes"
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| Some slice ->
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Bstr.blit_to_bytes slice.payload ~src_off:off buf ~dst_off:0 ~len
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end
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else
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for i = 0 to len - 1 do
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let v = get_uint8 t (logical_address + i) in
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Bytes.set_uint8 buf (dst_off + i) v
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done
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let get_string t ~len logical_address =
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let buf = Bytes.create len in
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blit_to_bytes t ~src_off:logical_address buf ~dst_off:0 ~len;
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Bytes.unsafe_to_string buf
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2024-11-08 10:05:23 +00:00
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let get_uint16_ne t logical_address =
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let str = get_string t ~len:2 logical_address in
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String.get_uint16_ne str 0
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let get_uint16_le t logical_address =
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let str = get_string t ~len:2 logical_address in
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String.get_uint16_le str 0
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let get_uint16_be t logical_address =
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let str = get_string t ~len:2 logical_address in
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String.get_uint16_be str 0
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let get_int16_ne t logical_address =
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let str = get_string t ~len:2 logical_address in
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String.get_int16_ne str 0
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let get_int16_le t logical_address =
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let str = get_string t ~len:2 logical_address in
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String.get_int16_le str 0
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let get_int16_be t logical_address =
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let str = get_string t ~len:2 logical_address in
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String.get_int16_be str 0
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let get_int32_ne t logical_address =
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let str = get_string t ~len:4 logical_address in
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String.get_int32_ne str 0
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let get_int32_le t logical_address =
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let str = get_string t ~len:4 logical_address in
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String.get_int32_le str 0
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let get_int32_be t logical_address =
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let str = get_string t ~len:4 logical_address in
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String.get_int32_be str 0
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let get_int64_ne t logical_address =
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let str = get_string t ~len:8 logical_address in
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String.get_int64_ne str 0
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let get_int64_le t logical_address =
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let str = get_string t ~len:8 logical_address in
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String.get_int64_le str 0
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let get_int64_be t logical_address =
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let str = get_string t ~len:8 logical_address in
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String.get_int64_be str 0
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2024-11-07 19:11:22 +00:00
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let rec get_seq t logical_address () =
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match load t logical_address with
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| Some { offset; payload; length; _ } ->
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let off = logical_address land ((1 lsl t.pagesize) - 1) in
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let len = length - off in
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let buf = Bytes.create len in
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Bstr.blit_to_bytes payload ~src_off:off buf ~dst_off:0 ~len;
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let str = Bytes.unsafe_to_string buf in
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let next = get_seq t (offset + (1 lsl t.pagesize)) in
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Seq.Cons (str, next)
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| None -> Seq.Nil
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let next t slice = load t (slice.offset + (1 lsl t.pagesize))
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let naive_iter_with_len t len ~fn logical_address =
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for i = 0 to len - 1 do
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fn (get_uint8 t (logical_address + i))
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done
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let iter_with_len t len ~fn logical_address =
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if len > 1 lsl t.pagesize then naive_iter_with_len t len ~fn logical_address
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else begin
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match load t logical_address with
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| Some { offset; payload; length } ->
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let off = logical_address land ((1 lsl t.pagesize) - 1) in
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let max = Int.min (length - off) len in
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for i = 0 to max - 1 do
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fn (Bstr.get_uint8 payload (off + i))
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done;
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if max < len then begin
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let logical_address = offset + (1 lsl t.pagesize) in
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match load t logical_address with
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| Some { payload; length; _ } ->
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if len - max > length then failwith "Chat.iter_with_len";
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for i = 0 to len - max - 1 do
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fn (Bstr.get_uint8 payload i)
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done
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| None -> failwith "Chat.iter_with_len"
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end
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| None -> failwith "Chat.iter_with_len"
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end
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let iter t ?len ~fn logical_address =
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match len with
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| Some len -> iter_with_len t len ~fn logical_address
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| None ->
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let rec go logical_address =
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match load t logical_address with
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| Some { offset; payload; length } ->
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let off = logical_address land ((1 lsl t.pagesize) - 1) in
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let len = length - off in
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for i = 0 to len - 1 do
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fn (Bstr.get_uint8 payload (off + i))
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done;
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go (offset + (1 lsl t.pagesize))
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| None -> ()
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in
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|
go logical_address
|
2024-11-08 11:08:05 +00:00
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let syscalls t ~logical_address ~len =
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let pagesize = 1 lsl t.pagesize in
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let len = (logical_address land (pagesize - 1)) + len in
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let len =
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|
if (pagesize - 1) land len != 0 then
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|
(len + pagesize) land lnot (pagesize - 1)
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else len
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in
|
|
|
|
len lsr t.pagesize
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