Source: base64_rfc2045.ml (reference.base64.src.base64.rfc2045)

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IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * *) let default_alphabet = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/" let io_buffer_size = 65536 let invalid_arg fmt = Format.ksprintf (fun s -> invalid_arg s) fmt let invalid_bounds off len = invalid_arg "Invalid bounds (off: %d, len: %d)" off len let malformed chr = `Malformed (String.make 1 chr) let unsafe_byte source off pos = Bytes.unsafe_get source (off + pos) let unsafe_blit = Bytes.unsafe_blit let unsafe_chr = Char.unsafe_chr let unsafe_set_chr source off chr = Bytes.unsafe_set source off chr type state = { quantum : int; size : int; buffer : Bytes.t } let continue state (quantum, size) = `Continue { state with quantum; size } let flush state = `Flush { state with quantum = 0; size = 0 } let table = "\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\255\062\255\255\255\063\052\053\054\055\056\057\058\059\060\061\255\255\255\255\255\255\255\000\001\002\003\004\005\006\007\008\009\010\011\012\013\014\015\016\017\018\019\020\021\022\023\024\025\255\255\255\255\255\255\026\027\028\029\030\031\032\033\034\035\036\037\038\039\040\041\042\043\044\045\046\047\048\049\050\051\255\255\255\255\255" let r_repr ({ quantum; size; _ } as state) chr = (* assert (0 <= off && 0 <= len && off + len <= String.length source); *) (* assert (len >= 1); *) let code = Char.code table.[Char.code chr] in match size with | 0 -> continue state (code, 1) | 1 -> continue state ((quantum lsl 6) lor code, 2) | 2 -> continue state ((quantum lsl 6) lor code, 3) | 3 -> unsafe_set_chr state.buffer 0 (unsafe_chr ((quantum lsr 10) land 255)) ; unsafe_set_chr state.buffer 1 (unsafe_chr ((quantum lsr 2) land 255)) ; unsafe_set_chr state.buffer 2 (unsafe_chr ((quantum lsl 6) lor code land 255)) ; flush state | _ -> malformed chr type src = [ `Channel of in_channel | `String of string | `Manual ] type decode = [ `Await | `End | `Wrong_padding | `Malformed of string | `Flush of string ] type input = [ `Line_break | `Wsp | `Padding | `Malformed of string | `Flush of state ] type decoder = { src : src; mutable i : Bytes.t; mutable i_off : int; mutable i_pos : int; mutable i_len : int; mutable s : state; mutable padding : int; mutable unsafe : bool; mutable byte_count : int; mutable limit_count : int; mutable pp : decoder -> input -> decode; mutable k : decoder -> decode; } let i_rem decoder = decoder.i_len - decoder.i_pos + 1 let end_of_input decoder = decoder.i <- Bytes.empty ; decoder.i_off <- 0 ; decoder.i_pos <- 0 ; decoder.i_len <- min_int let src decoder source off len = if off < 0 || len < 0 || off + len > Bytes.length source then invalid_bounds off len else if len = 0 then end_of_input decoder else ( decoder.i <- source ; decoder.i_off <- off ; decoder.i_pos <- 0 ; decoder.i_len <- len - 1) let refill k decoder = match decoder.src with | `Manual -> decoder.k <- k ; `Await | `String _ -> end_of_input decoder ; k decoder | `Channel ic -> let len = input ic decoder.i 0 (Bytes.length decoder.i) in src decoder decoder.i 0 len ; k decoder let dangerous decoder v = decoder.unsafe <- v let reset decoder = decoder.limit_count <- 0 let ret k v byte_count decoder = decoder.k <- k ; decoder.byte_count <- decoder.byte_count + byte_count ; decoder.limit_count <- decoder.limit_count + byte_count ; if decoder.limit_count > 78 then dangerous decoder true ; decoder.pp decoder v type flush_and_malformed = [ `Flush of state | `Malformed of string ] let padding { size; _ } padding = match (size, padding) with | 0, 0 -> true | 1, _ -> false | 2, 2 -> true | 3, 1 -> true | _ -> false let t_flush { quantum; size; buffer } = match size with | 0 | 1 -> `Flush { quantum; size; buffer = Bytes.empty } | 2 -> let quantum = quantum lsr 4 in `Flush { quantum; size; buffer = Bytes.make 1 (unsafe_chr (quantum land 255)) } | 3 -> let quantum = quantum lsr 2 in unsafe_set_chr buffer 0 (unsafe_chr ((quantum lsr 8) land 255)) ; unsafe_set_chr buffer 1 (unsafe_chr (quantum land 255)) ; `Flush { quantum; size; buffer = Bytes.sub buffer 0 2 } | _ -> assert false (* this branch is impossible, size can only ever be in the range [0..3]. *) let wrong_padding decoder = let k _ = `End in decoder.k <- k ; `Wrong_padding let rec t_decode_base64 chr decoder = if decoder.padding = 0 then let rec go pos = function | `Continue state -> if decoder.i_len - (decoder.i_pos + pos) + 1 > 0 then ( match unsafe_byte decoder.i decoder.i_off (decoder.i_pos + pos) with | ('A' .. 'Z' | 'a' .. 'z' | '0' .. '9' | '+' | '/') as chr -> go (succ pos) (r_repr state chr) | '=' -> decoder.padding <- decoder.padding + 1 ; decoder.i_pos <- decoder.i_pos + pos + 1 ; decoder.s <- state ; ret decode_base64 `Padding (pos + 1) decoder | ' ' | '\t' -> decoder.i_pos <- decoder.i_pos + pos + 1 ; decoder.s <- state ; ret decode_base64 `Wsp (pos + 1) decoder | '\r' -> decoder.i_pos <- decoder.i_pos + pos + 1 ; decoder.s <- state ; decode_base64_lf_after_cr decoder | chr -> decoder.i_pos <- decoder.i_pos + pos + 1 ; decoder.s <- state ; ret decode_base64 (malformed chr) (pos + 1) decoder) else ( decoder.i_pos <- decoder.i_pos + pos ; decoder.byte_count <- decoder.byte_count + pos ; decoder.limit_count <- decoder.limit_count + pos ; decoder.s <- state ; refill decode_base64 decoder) | #flush_and_malformed as v -> decoder.i_pos <- decoder.i_pos + pos ; ret decode_base64 v pos decoder in go 1 (r_repr decoder.s chr) else ( decoder.i_pos <- decoder.i_pos + 1 ; ret decode_base64 (malformed chr) 1 decoder) and decode_base64_lf_after_cr decoder = let rem = i_rem decoder in if rem < 0 then ret decode_base64 (malformed '\r') 1 decoder else if rem = 0 then refill decode_base64_lf_after_cr decoder else match unsafe_byte decoder.i decoder.i_off decoder.i_pos with | '\n' -> decoder.i_pos <- decoder.i_pos + 1 ; ret decode_base64 `Line_break 2 decoder | _ -> ret decode_base64 (malformed '\r') 1 decoder and decode_base64 decoder = let rem = i_rem decoder in if rem <= 0 then if rem < 0 then ret (fun decoder -> if padding decoder.s decoder.padding then `End else wrong_padding decoder) (t_flush decoder.s) 0 decoder else refill decode_base64 decoder else match unsafe_byte decoder.i decoder.i_off decoder.i_pos with | ('A' .. 'Z' | 'a' .. 'z' | '0' .. '9' | '+' | '/') as chr -> t_decode_base64 chr decoder | '=' -> decoder.padding <- decoder.padding + 1 ; decoder.i_pos <- decoder.i_pos + 1 ; ret decode_base64 `Padding 1 decoder | ' ' | '\t' -> decoder.i_pos <- decoder.i_pos + 1 ; ret decode_base64 `Wsp 1 decoder | '\r' -> decoder.i_pos <- decoder.i_pos + 1 ; decode_base64_lf_after_cr decoder | chr -> decoder.i_pos <- decoder.i_pos + 1 ; ret decode_base64 (malformed chr) 1 decoder let pp_base64 decoder = function | `Line_break -> reset decoder ; decoder.k decoder | `Wsp | `Padding -> decoder.k decoder | `Flush state -> decoder.s <- state ; `Flush (Bytes.to_string state.buffer) | `Malformed _ as v -> v let decoder src = let pp = pp_base64 in let k = decode_base64 in let i, i_off, i_pos, i_len = match src with | `Manual -> (Bytes.empty, 0, 1, 0) | `Channel _ -> (Bytes.create io_buffer_size, 0, 1, 0) | `String s -> (Bytes.unsafe_of_string s, 0, 0, String.length s - 1) in { src; i_off; i_pos; i_len; i; s = { quantum = 0; size = 0; buffer = Bytes.create 3 }; padding = 0; unsafe = false; byte_count = 0; limit_count = 0; pp; k; } let decode decoder = decoder.k decoder let decoder_byte_count decoder = decoder.byte_count let decoder_src decoder = decoder.src let decoder_dangerous decoder = decoder.unsafe (* / *) let invalid_encode () = invalid_arg "Expected `Await encode" type dst = [ `Channel of out_channel | `Buffer of Buffer.t | `Manual ] type encode = [ `Await | `End | `Char of char ] type encoder = { dst : dst; mutable o : Bytes.t; mutable o_off : int; mutable o_pos : int; mutable o_len : int; mutable c_col : int; i : Bytes.t; mutable s : int; t : Bytes.t; mutable t_pos : int; mutable t_len : int; mutable k : encoder -> encode -> [ `Ok | `Partial ]; } let o_rem encoder = encoder.o_len - encoder.o_pos + 1 let dst encoder source off len = if off < 0 || len < 0 || off + len > Bytes.length source then invalid_bounds off len ; encoder.o <- source ; encoder.o_off <- off ; encoder.o_pos <- 0 ; encoder.o_len <- len - 1 let dst_rem = o_rem let partial k encoder = function | `Await -> k encoder | `Char _ | `End -> invalid_encode () let flush k encoder = match encoder.dst with | `Manual -> encoder.k <- partial k ; `Partial | `Channel oc -> output oc encoder.o encoder.o_off encoder.o_pos ; encoder.o_pos <- 0 ; k encoder | `Buffer b -> let o = Bytes.unsafe_to_string encoder.o in Buffer.add_substring b o encoder.o_off encoder.o_pos ; encoder.o_pos <- 0 ; k encoder let t_range encoder len = encoder.t_pos <- 0 ; encoder.t_len <- len let rec t_flush k encoder = let blit encoder len = unsafe_blit encoder.t encoder.t_pos encoder.o encoder.o_pos len ; encoder.o_pos <- encoder.o_pos + len ; encoder.t_pos <- encoder.t_pos + len in let rem = o_rem encoder in let len = encoder.t_len - encoder.t_pos + 1 in if rem < len then ( blit encoder rem ; flush (t_flush k) encoder) else ( blit encoder len ; k encoder) let rec encode_line_break k encoder = let rem = o_rem encoder in let s, j, k = if rem < 2 then ( t_range encoder 2 ; (encoder.t, 0, t_flush k)) else let j = encoder.o_pos in encoder.o_pos <- encoder.o_pos + 2 ; (encoder.o, encoder.o_off + j, k) in unsafe_set_chr s j '\r' ; unsafe_set_chr s (j + 1) '\n' ; encoder.c_col <- 0 ; k encoder and encode_char chr k (encoder : encoder) = if encoder.s >= 2 then ( let a, b, c = (unsafe_byte encoder.i 0 0, unsafe_byte encoder.i 0 1, chr) in encoder.s <- 0 ; let quantum = (Char.code a lsl 16) + (Char.code b lsl 8) + Char.code c in let a = quantum lsr 18 in let b = (quantum lsr 12) land 63 in let c = (quantum lsr 6) land 63 in let d = quantum land 63 in let rem = o_rem encoder in let s, j, k = if rem < 4 then ( t_range encoder 4 ; (encoder.t, 0, t_flush (k 4))) else let j = encoder.o_pos in encoder.o_pos <- encoder.o_pos + 4 ; (encoder.o, encoder.o_off + j, k 4) in unsafe_set_chr s j default_alphabet.[a] ; unsafe_set_chr s (j + 1) default_alphabet.[b] ; unsafe_set_chr s (j + 2) default_alphabet.[c] ; unsafe_set_chr s (j + 3) default_alphabet.[d] ; flush k encoder) else ( unsafe_set_chr encoder.i encoder.s chr ; encoder.s <- encoder.s + 1 ; k 0 encoder) and encode_trailing k encoder = match encoder.s with | 2 -> let b, c = (unsafe_byte encoder.i 0 0, unsafe_byte encoder.i 0 1) in encoder.s <- 0 ; let quantum = (Char.code b lsl 10) + (Char.code c lsl 2) in let b = (quantum lsr 12) land 63 in let c = (quantum lsr 6) land 63 in let d = quantum land 63 in let rem = o_rem encoder in let s, j, k = if rem < 4 then ( t_range encoder 4 ; (encoder.t, 0, t_flush (k 4))) else let j = encoder.o_pos in encoder.o_pos <- encoder.o_pos + 4 ; (encoder.o, encoder.o_off + j, k 4) in unsafe_set_chr s j default_alphabet.[b] ; unsafe_set_chr s (j + 1) default_alphabet.[c] ; unsafe_set_chr s (j + 2) default_alphabet.[d] ; unsafe_set_chr s (j + 3) '=' ; flush k encoder | 1 -> let c = unsafe_byte encoder.i 0 0 in encoder.s <- 0 ; let quantum = Char.code c lsl 4 in let c = (quantum lsr 6) land 63 in let d = quantum land 63 in let rem = o_rem encoder in let s, j, k = if rem < 4 then ( t_range encoder 4 ; (encoder.t, 0, t_flush (k 4))) else let j = encoder.o_pos in encoder.o_pos <- encoder.o_pos + 4 ; (encoder.o, encoder.o_off + j, k 4) in unsafe_set_chr s j default_alphabet.[c] ; unsafe_set_chr s (j + 1) default_alphabet.[d] ; unsafe_set_chr s (j + 2) '=' ; unsafe_set_chr s (j + 3) '=' ; flush k encoder | 0 -> k 0 encoder | _ -> assert false and encode_base64 encoder v = let k col_count encoder = encoder.c_col <- encoder.c_col + col_count ; encoder.k <- encode_base64 ; `Ok in match v with | `Await -> k 0 encoder | `End -> if encoder.c_col = 76 then encode_line_break (fun encoder -> encode_base64 encoder v) encoder else encode_trailing k encoder | `Char chr -> let rem = o_rem encoder in if rem < 1 then flush (fun encoder -> encode_base64 encoder v) encoder else if encoder.c_col = 76 then encode_line_break (fun encoder -> encode_base64 encoder v) encoder else encode_char chr k encoder let encoder dst = let o, o_off, o_pos, o_len = match dst with | `Manual -> (Bytes.empty, 1, 0, 0) | `Buffer _ | `Channel _ -> (Bytes.create io_buffer_size, 0, 0, io_buffer_size - 1) in { dst; o_off; o_pos; o_len; o; t = Bytes.create 4; t_pos = 1; t_len = 0; c_col = 0; i = Bytes.create 3; s = 0; k = encode_base64; } let encode encoder = encoder.k encoder let encoder_dst encoder = encoder.dst