package cstruct

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Raw memory buffers with capabilities

Cstruct_cap wraps OCaml Stdlib's Bigarray module. Each t consists of a proxy (consisting of offset, length, and the actual Bigarray.t buffer). The goal of this module is two-fold: enable zero-copy - the underlying buffer is shared by most of the functions - and static checking of read and write capabilities to the underlying buffer (using phantom types).

Each 'a t is parameterized by the available capabilities: read (rd) and write (wr): to access the contents of the buffer the read capability is necessary, for modifying the content of the buffer the write capability is necessary. Capabilities can only be dropped, never gained, to a buffer. If code only has read capability, this does not mean that there is no other code fragment with write capability to the underlying buffer.

The functions that retrieve bytes (get_uint8 etc.) require a read capability, functions mutating the underlying buffer (set_uint8 etc.) require a write capability. Allocation of a buffer (via create, ...) returns a t with read and write capabilities. ro drops the write capability, wo drops the read capability. The only exception is unsafe_to_bigarray that returns the underlying Bigarray.t.

Accessors and mutators for fixed size integers (8, 16, 32, 64 bit) are provided for big-endian and little-endian encodings.

Types

type 'a rd = < rd : unit.. > as 'a

Type of read capability.

type 'a wr = < wr : unit.. > as 'a

Type of write capability.

type 'a t

Type of cstruct with capabilities 'a.

type buffer = (char, Bigarray.int8_unsigned_elt, Bigarray.c_layout) Bigarray.Array1.t

Type of buffer. A t is composed of an underlying buffer.

type rdwr = < rd : unit ; wr : unit >

Type of both read and write capability.

type ro = < rd : unit >

Type of only read capability.

type wo = < wr : unit >

Type of only write capability.

type uint8 = int

8-bit unsigned integer.

type uint16 = int

16-bit unsigned integer.

type uint32 = int32

32-bit unsigned integer.

type uint64 = int64

64-bit unsigned integer.

Capabilities

val ro : 'a rd t -> ro t

ro t is t' with only read capability.

val wo : 'a wr t -> wo t

wo t is t' with only write capability.

Basic operations

val equal : 'a rd t -> 'b rd t -> bool

equal a b is true iff a and b correspond to the same sequence of bytes (it uses memcmp internally). Both a and b need at least read capability rd.

val compare : 'a rd t -> 'b rd t -> int

compare a b gives an unspecified total ordering over t. Both a and b need at least read capability rd.

val pp : Format.formatter -> 'a rd t -> unit

pp ppf t pretty-prints t on ppf. t needs read capability rd.

val length : 'a t -> int

length t return length of t. Note that this length is potentially smaller than the actual size of the underlying buffer, as functions such as sub, shift, and split can construct a smaller view.

val check_alignment : 'a t -> int -> bool

check_alignment t alignment is true if the first byte stored in the underlying buffer of t is at a memory address where address mod alignment = 0, false otherwise. The mod used has the C/OCaml semantic (which differs from Python). Typical uses are to check a buffer is aligned to a page or disk sector boundary.

  • raises Invalid_argument

    if alignment is not a positive integer.

val lenv : 'a t list -> int

lenv vs is the combined length of all t in vs.

  • raises Invalid_argument

    if computing the sum overflows.

Constructors

val create : int -> rdwr t

create len allocates a buffer and proxy with both read and write capabilities of size len. It is filled with zero bytes.

val create_unsafe : int -> rdwr t

create_unsafe len allocates a buffer and proxy with both read and write capabilities of size len.

Note that the returned t will contain arbitrary data, likely including the contents of previously-deallocated cstructs.

Beware!

Forgetting to replace this data could cause your application to leak sensitive information.

Subviews

val sub : 'a t -> off:int -> len:int -> 'a t

sub t ~off ~len returns a proxy which shares the underlying buffer of t. It is sliced at offset off and of length len. The returned value has the same capabilities as t.

  • raises Invalid_argument

    if the offset exceeds t length.

val shift : 'a t -> int -> 'a t

shift t len returns a proxy which shares the underlying buffer of t. The returned value starts len bytes later than the given t. The returned value has the same capabilities as t.

  • raises Invalid_argument

    if the offset exceeds t length.

val shiftv : 'a t list -> int -> 'a t list

shiftv ts n is ts without the first n bytes. It has the property that equal (concat (shiftv ts n)) (shift (concat ts) n). This operation is fairly fast, as it will share the tail of the list. The first item in the returned list is never an empty cstruct, so you'll get [] if and only if lenv ts = n.

val split : ?start:int -> 'a t -> int -> 'a t * 'a t

split ~start t len returns two proxies extracted from t. The first starts at offset start (default 0), and is of length len. The second is the remainder of t. The underlying buffer is shared, the capabilities are preserved.

  • raises Invalid_argument

    if start exceeds the length of t, or if there is a bounds violation of t via len + start.

Construction from existing t

val append : 'a rd t -> 'b rd t -> rdwr t

append a b allocates a buffer r of size length a + length b. Then the content of a is copied at the start of the buffer r, and b is copied behind a's end in r. a and b need at least read capability rd, the returned value has both read and write capabilities.

val concat : 'a rd t list -> rdwr t

concat vss allocates a buffer r of size lenv vss. Each v of vss is copied into the buffer r. Each v of vss need at least read capability rd, the returned value has both read and write capabilities.

val fillv : src:'a rd t list -> dst:'b wr t -> int * 'a rd t list

fillv ~src ~dst copies from src to dst until src is exhausted or dst is full. It returns the number of bytes copied and the remaining data from src, if any. This is useful if you want to bufferize data into fixed-sized chunks. Each t of src need at least read capability rd. dst needs at least write capability wr.

val rev : 'a rd t -> rdwr t

rev t allocates a buffer r of size length t, and fills it with the bytes of t in reverse order. The given t needs at least read capability rd, the returned value has both read and write capabilities.

Mutation of the underlying buffer

val memset : 'a wr t -> int -> unit

memset t x sets all bytes of t to x land 0xFF. t needs at least write capability wr.

val blit : 'a rd t -> src_off:int -> 'b wr t -> dst_off:int -> len:int -> unit

blit src ~src_off dst ~dst_off ~len copies len bytes from src starting at index src_off to dst starting at index dst_off. It works correctly even if src and dst refer to the same underlying buffer, and the src and dst intervals overlap. This function uses memmove internally.

src needs at least read capability rd. dst needs at least write capability wr.

  • raises Invalid_argument

    if src_off and len do not designate a valid segment of src, or if dst_off and len do not designate a valid segment of dst.

val blit_from_string : string -> src_off:int -> 'a wr t -> dst_off:int -> len:int -> unit

blit_from_string src ~src_off dst ~dst_off ~len copies len byres from src starting at index src_off to dst starting at index dst_off. This function uses memcpy internally.

dst needs at least write capability wr.

  • raises Invalid_argument

    if src_off and len do not designate a valid sub-string of src, or if dst_off and len do not designate a valid segment of dst.

val blit_from_bytes : bytes -> src_off:int -> 'a wr t -> dst_off:int -> len:int -> unit

blit_from_bytes src ~src_off dst ~dst_off ~len copies len bytes from src starting at index src_off to dst starting at index dst_off. This uses memcpy internally.

dst needs at least write capability wr.

  • raises Invalid_argument

    if src_off and len do not designate a valid sub-sequence of src, or if dst_off and len do no designate a valid segment of dst.

Converters: string, bytes, bigarray

val of_string : ?off:int -> ?len:int -> string -> rdwr t

of_string ~off ~len s allocates a buffer and copies the contents of s into it starting at offset off (default 0) and of length len (default String.length s - off). The returned value has both read and write capabilities.

  • raises Invalid_argument

    if off and len does not designate a valid segment of s.

val to_string : ?off:int -> ?len:int -> 'a rd t -> string

to_string ~off ~len t is the string representation of the segment of t starting at off (default 0) of size len (default length t - off). t needs at least read capability rd.

  • raises Invalid_argument

    if off and len does not designate a valid segment of t.

val of_hex : ?off:int -> ?len:int -> string -> rdwr t

of_hex ~off ~len s allocates a buffer and copies the content of s starting at offset off (default 0) of length len (default String.length s - off), decoding the hex-encoded characters. Whitespaces in the string are ignored, every pair of hex-encoded characters in s are converted to one byte in the returned t, which is exactly half the size of the non-whitespace characters of s from off of length len.

  • raises Invalid_argument

    is the input string contains invalid characters or an off number of non-whitespace characters.

val copyv : 'a rd t list -> string

copy vs is the string representation of the concatenation of all t in vs. Each t need at least read capability rd.

  • raises Invalid_argument

    if the length of the result would exceed Sys.max_string_length.

val of_bytes : ?off:int -> ?len:int -> bytes -> rdwr t

of_bytes ~off ~len b allocates a buffer and copies the contents of b into it starting at offset off (default 0) and of length len (default Bytes.length b - off). The returned value has both read and write capabilities.

  • raises Invalid_argument

    if off and len does not designate a valid segment of s.

val to_bytes : ?off:int -> ?len:int -> 'a rd t -> bytes

to_bytes ~off ~len t is the bytes representation of the segment of t starting at off (default 0) of size len (default length t - off). t needs at least read capability rd.

  • raises Invalid_argument

    if off and len do not designate a valid segment of t.

val blit_to_bytes : 'a rd t -> src_off:int -> bytes -> dst_off:int -> len:int -> unit

blit_to_bytes src ~src_off dst ~dst_off ~len copies length len bytes from src, starting at index src_off, to sequences dst, starting at index dst_off. blit_to_bytes uses memcpy internally.

src needs at least read capability rd.

  • raises Invalid_argument

    if src_off and len do not designate a valid segment of src, or if dst_off and len do not designate a valid sub-seuqnce of dst.

val of_bigarray : ?off:int -> ?len:int -> buffer -> rdwr t

of_bigarray ~off ~len b is a proxy that contains b with offset off (default 0) of length len (default Bigarray.Array1.dim b - off). The returned value has both read and write capabilties.

  • raises Invalid_argument

    if off and len do not designate a valid segment of b.

val unsafe_to_bigarray : 'a t -> buffer

unsafe_to_bigarray t converts t into a buffer Bigarray, using the Bigarray slicing to allocate a fresh proxy Bigarray that preserves sharing of the underlying buffer.

In other words:

let t = Cstruct_cap.create 10 in
let b = Cstruct_cap.unsafe_to_bigarray t in
Bigarray.Array1.set b 0 '\x42' ;
assert (Cstruct_cap.get_char t 0 = '\x42')

Higher order functions

type 'a iter = unit -> 'a option

Type of iterator.

val iter : ('a rd t -> int option) -> ('a rd t -> 'v) -> 'a rd t -> 'v iter

iter lenf of_cstruct t is an iterator over t that returns elements of size lenf t and type of_cstruct t. t needs at least read capability rd and iter keeps capabilities of t on of_cstruct.

val fold : ('acc -> 'x -> 'acc) -> 'x iter -> 'acc -> 'acc

fold f iter acc is (f iterN accN ... (f iter acc)...).

Accessors and mutators

val get_char : 'a rd t -> int -> char

get_char t off returns the character contained in t at offset off. t needs at least read capability rd.

  • raises Invalid_argument

    if the offset exceeds t length.

val set_char : 'a wr t -> int -> char -> unit

set_char t off c sets the character contained in t at offset off to character c. t needs at least write capability wr.

  • raises Invalid_argument

    if the offset exceeds t length.

val get_uint8 : 'a rd t -> int -> uint8

get_uint8 t off returns the byte contained in t at offset off. t needs at least read capability rd.

  • raises Invalid_argument

    if the offset exceeds t length.

val set_uint8 : 'a wr t -> int -> uint8 -> unit

set_uint8 t off x sets the byte contained in t at offset off to byte x. t needs at least write capability wr.

  • raises Invalid_argument

    if the offset exceeds t length.

module BE : sig ... end
module LE : sig ... end

Helpers to parse with capabilities.

As Cstruct, capabilities interface provides helpers functions to help the user to parse contents.

val head : ?rev:bool -> 'a rd t -> char option

head cs is Some (get cs h) with h = 0 if rev = false (default) or h = length cs - 1 if rev = true. None is returned if cs is empty.

val tail : ?rev:bool -> 'a rd t -> 'a rd t

tail cs is cs without its first (rev is false, default) or last (rev is true) byte or cs is empty.

val is_empty : 'a rd t -> bool

is_empty cs is length cs = 0.

val is_prefix : affix:'a rd t -> 'a rd t -> bool

is_prefix ~affix cs is true iff affix.[zidx] = cs.[zidx] for all indices zidx of affix.

val is_suffix : affix:'a rd t -> 'a rd t -> bool

is_suffix ~affix cs is true iff affix.[n - zidx] = cs.[m - zidx] for all indices zidx of affix with n = length affix - 1 and m = length cs - 1.

val is_infix : affix:'a rd t -> 'a rd t -> bool

is_infix ~affix cs is true iff there exists an index z in cs such that for all indices zidx of affix we have affix.[zidx] = cs.[z + zidx].

val for_all : (char -> bool) -> 'a rd t -> bool

for_all p cs is true iff for all indices zidx of cs, p cs.[zidx] = true.

val exists : (char -> bool) -> 'a rd t -> bool

exists p cs is true iff there exists an index zidx of cs with p cs.[zidx] = true.

val start : 'a rd t -> 'a rd t

start cs is the empty sub-part at the start position of cs.

val stop : 'a rd t -> 'a rd t

stop cs is the empty sub-part at the stop position of cs.

val trim : ?drop:(char -> bool) -> 'a rd t -> 'a rd t

trim ~drop cs is cs with prefix and suffix bytes satisfying drop in cs removed. drop defaults to function ' ' | '\r' .. '\t' -> true | _ -> false.

val span : ?rev:bool -> ?min:int -> ?max:int -> ?sat:(char -> bool) -> 'a rd t -> 'a rd t * 'a rd t

span ~rev ~min ~max ~sat cs is (l, r) where:

  • if rev is false (default), l is at least min and at most max consecutive sat satisfying initial bytes of cs or empty if there are no such bytes. r are the remaining bytes of cs.
  • if rev is true, r is at least min and at most max consecutive sat satisfying final bytes of cs or empty if there are no such bytes. l are the remaining bytes of cs.

If max is unspecified the span is unlimited. If min is unspecified it defaults to 0. If min > max the condition can't be satisfied and the left or right span, depending on rev, is always empty. sat defaults to (fun _ -> true).

The invariant l ^ r = s holds.

For instance, the ABNF expression:

  time := 1*10DIGIT

can be translated to:

let (time, _) = span ~min:1 ~max:10 is_digit cs in
  • raises Invalid_argument

    if max or min is negative.

val take : ?rev:bool -> ?min:int -> ?max:int -> ?sat:(char -> bool) -> 'a rd t -> 'a rd t

take ~rev ~min ~max ~sat cs is the matching span of span without the remaining one. In other words:

(if rev then snd else fst) @@ span ~rev ~min ~max ~sat cs
val drop : ?rev:bool -> ?min:int -> ?max:int -> ?sat:(char -> bool) -> 'a rd t -> 'a rd t

drop ~rev ~min ~max ~sat cs is the remaining span of span without the matching one. In other words:

(if rev then fst else snd) @@ span ~rev ~min ~max ~sat cs
val cut : ?rev:bool -> sep:'a rd t -> 'a rd t -> ('a rd t * 'a rd t) option

cut ~sep cs is either the pair Some (l, r) of the two (possibly empty) sub-buffers of cs that are delimited by the first match of the non empty separator string sep or None if sep can't be matched in cs. Matching starts from the beginning of cs (rev is false, default) or the end (rev is true).

The invariant l ^ sep ^ r = s holds.

For instance, the ABNF expression:

  field_name := *PRINT
  field_value := *ASCII
  field := field_name ":" field_value

can be translated to:

match cut ~sep:":" value with
| Some (field_name, field_value) -> ...
| None -> invalid_arg "invalid field"
  • raises Invalid_argument

    if sep is the empty buffer.

val cuts : ?rev:bool -> ?empty:bool -> sep:'a rd t -> 'a rd t -> 'a rd t list

cuts ~sep cs is the list of all sub-buffers of cs that are delimited by matches of the non empty separator sep. Empty sub-buffers are omitted in the list if empty is false (default to true).

Matching separators in cs starts from the beginning of cs (rev is false, default) or the end (rev is true). Once one is found, the separator is skipped and matching starts again, that is separator matches can't overlap. If there is no separator match in cs, the list [cs] is returned.

The following invariants hold:

  • concat ~sep (cuts ~empty:true ~sep cs) = cs
  • cuts ~empty:true ~sep cs <> []

For instance, the ABNF expression:

  arg := *(ASCII / ",") ; any characters exclude ","
  args := arg *("," arg)

can be translated to:

let args = cuts ~sep:"," buffer in
  • raises Invalid_argument

    if sep is the empty buffer.

val fields : ?empty:bool -> ?is_sep:(char -> bool) -> 'a rd t -> 'a rd t list

fields ~empty ~is_sep cs is the list of (possibly empty) sub-buffers that are delimited by bytes for which is_sep is true. Empty sub-buffers are omitted in the list if empty is false (defaults to true). is_sep c if it's not define by the user is true iff c is an US-ASCII white space character, that is one of space ' ' (0x20), tab '\t' (0x09), newline '\n' (0x0a), vertical tab (0x0b), form feed (0x0c), carriage return '\r' (0x0d).

val find : ?rev:bool -> (char -> bool) -> 'a rd t -> 'a rd t option

find ~rev sat cs is the sub-buffer of cs (if any) that spans the first byte that satisfies sat in cs after position start cs (rev is false, default) or before stop cs (rev is true). None is returned if there is no matching byte in s.

val find_sub : ?rev:bool -> sub:'a rd t -> 'a rd t -> 'a rd t option

find_sub ~rev ~sub cs is the sub-buffer of cs (if any) that spans the first match of sub in cs after position start cs (rev is false, default) or before stop cs (rev is true). Only bytes are compared and sub can be on a different base buffer. None is returned if there is no match of sub in s.

val filter : (char -> bool) -> 'a rd t -> 'a rd t

filter sat cs is the buffer made of the bytes of cs that satisfy sat, in the same order.

val filter_map : (char -> char option) -> 'a rd t -> rdwr t

filter_map f cs is the buffer made of the bytes of cs as mapped by f, in the same order.

val map : (char -> char) -> 'a rd t -> rdwr t

map f cs is cs' with cs'.[i] = f cs.[i] for all indices i of cs. f is invoked in increasing index order.

val mapi : (int -> char -> char) -> 'a rd t -> rdwr t

map f cs is cs' with cs'.[i] = f i cs.[i] for all indices i of cs. f is invoked in increasing index order.

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