package rpclib
A library to deal with RPCs in OCaml
Install
Dune Dependency
Authors
Maintainers
Sources
rpclib-9.0.0.tbz
sha256=ce23eb756c028d9374bd19823296bddb7c237d3f055452d30d1cf7d15216e963
sha512=d4dfd7a9ee1b7996c24819ac1895925af0ad732f117c6e06cd28c215b14aa094dbd045e44d7f84c0eeb7ab807ed970d6879c29d07b02377fcb928325124ba7f6
doc/src/rpclib.xml/xmlrpc.ml.html
Source file xmlrpc.ml
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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. *) open Printf open Rpc (* marshalling/unmarshalling code *) (* The XML-RPC is not very clear about what characters can be in a string value ... *) let encode = let translate = function | '>' -> Some ">" | '<' -> Some "<" | '&' -> Some "&" | '"' -> Some """ | c when (c >= '\x20' && c <= '\xff') || c = '\x09' || c = '\x0a' || c = '\x0d' -> None | _ -> Some "" in Internals.encode translate let rec add_value ?(strict = false) f = function | Null -> f "<value><nil/></value>" | Int i -> f "<value>"; if strict then f "<i8>"; f (Int64.to_string i); if strict then f "</i8>"; f "</value>" | Int32 i -> f "<value><i4>"; f (Int32.to_string i); f "</i4></value>" | Bool b -> f "<value><boolean>"; f (if b then "1" else "0"); f "</boolean></value>" | Float d -> f "<value><double>"; (* NB: "%g" loses a lot of precision (e.g. resulting in "1.32621e+09") *) f (Printf.sprintf "%.16g" d); f "</double></value>" | String s -> f "<value>"; f (encode s); f "</value>" | DateTime s -> f "<value><dateTime.iso8601>"; f s; f "</dateTime.iso8601></value>" | Base64 s -> f "<value><base64>"; f (Base64.encode_exn s); f "</base64></value>" | Enum l -> f "<value><array><data>"; List.iter (add_value ~strict f) l; f "</data></array></value>" | Dict d -> let add_member (name, value) = f "<member><name>"; f name; f "</name>"; add_value ~strict f value; f "</member>" in f "<value><struct>"; List.iter add_member d; f "</struct></value>" let to_string ?(strict = false) x = let buf = Buffer.create 128 in add_value ~strict (Buffer.add_string buf) x; Buffer.contents buf let to_a ?(strict = false) ~empty ~append x = let buf = empty () in add_value ~strict (fun s -> append buf s) x; buf let string_of_call ?(strict = false) call = let module B = Buffer in let buf = B.create 1024 in let add = B.add_string buf in add "<?xml version=\"1.0\"?>"; add "<methodCall><methodName>"; add (encode call.name); add "</methodName><params>"; List.iter (fun p -> add "<param>"; add (to_string ~strict p); add "</param>") call.params; add "</params></methodCall>"; B.contents buf let add_response ?(strict = false) add response = let v = if response.success then Dict [ "Status", String "Success"; "Value", response.contents ] else Dict [ "Status", String "Failure"; "ErrorDescription", response.contents ] in add "<?xml version=\"1.0\"?><methodResponse><params><param>"; to_a ~strict ~empty:(fun () -> ()) ~append:(fun _ s -> add s) v; add "</param></params></methodResponse>" let string_of_response ?(strict = false) response = let module B = Buffer in let buf = B.create 256 in let add = B.add_string buf in add_response ~strict add response; B.contents buf let a_of_response ?(strict = false) ~empty ~append response = let buf = empty () in let add s = append buf s in add_response ~strict add response; buf exception Parse_error of string * string * Xmlm.input let debug_input input = let buf = Buffer.create 1024 in let rec aux = if not (Xmlm.eoi input) then ( match Xmlm.input input with | `El_start ((_, tag), _) -> Buffer.add_string buf "<"; Buffer.add_string buf tag; Buffer.add_string buf ">"; aux (tag :: tags) | `El_end -> (match tags with | [] -> Buffer.add_string buf "<?/>"; aux tags | h :: t -> Buffer.add_string buf "</"; Buffer.add_string buf h; Buffer.add_string buf ">"; aux t) | `Data d -> Buffer.add_string buf d; aux tags | `Dtd _ -> aux tags) in aux []; Buffer.contents buf let pretty_string_of_error got expected input = sprintf "Error: got '%s' while '%s' was expected when processing '%s'\n" got expected (debug_input input) let parse_error got expected input = raise (Parse_error (got, expected, input)) module Parser = struct let is_empty s = let is_empty = ref true in for i = 0 to String.length s - 1 do if s.[i] <> '\n' && s.[i] <> ' ' && s.[i] <> '\t' then is_empty := false done; !is_empty let rec skip_empty input = match Xmlm.peek input with | `Data d when is_empty d -> let _ = Xmlm.input input in skip_empty input | _ -> () (* Helpers *) let get_data input = match Xmlm.input input with | `Dtd _ -> parse_error "dtd" "data" input | `Data d -> d | `El_start ((_, tag), _) -> parse_error (sprintf "open_tag(%s)" tag) "data" input | `El_end -> "" let rec open_tag input = match Xmlm.input input with | `Dtd _ -> open_tag input | `El_start ((_, tag), _) -> tag | `Data d when is_empty d -> open_tag input | `Data d -> parse_error (sprintf "data(%s)" (String.escaped d)) "open_tag" input | `El_end -> parse_error "close_tag" "open_tag" input let rec close_tag tag input = match Xmlm.input input with | `Dtd _ -> parse_error "dtd" (sprintf "close_tag(%s)" tag) input | `El_end -> () | `El_start ((_, t), _) -> parse_error (sprintf "open_tag(%s)" t) (sprintf "close_tag(%s)" tag) input | `Data d when is_empty d -> close_tag tag input | `Data d -> parse_error (sprintf "data(%s)" (String.escaped d)) (sprintf "close_tag(%s)" tag) input let empty_tag input = function | "string" -> String "" | "array" -> Enum [] | "struct" -> Dict [] | "nil" -> Null | "value" -> String "" | tag -> parse_error (sprintf "empty_%s" tag) tag input let f input = let tag = open_tag input in let r = if Xmlm.peek input = `El_end then empty_tag input tag else f input tag in close_tag tag input; r let map_tag tag f input = let t = open_tag input in if t = tag then ( let r = f input in close_tag tag input; r) else parse_error (sprintf "open_tag(%s)" t) (sprintf "open_tag(%s)" tag) input let name input = map_tag "name" get_data input let data f input = map_tag "data" f input let value f input = let t = open_tag input in if t = "value" then ( let r = match Xmlm.peek input with | `El_end -> Rpc.String "" | `Data d -> let _ = Xmlm.input input in if is_empty d && match Xmlm.peek input with | `El_start _ -> true | _ -> false then f input else Rpc.String d | _ -> f input in close_tag "value" input; r) else parse_error "open_tag(value)" (sprintf "open_tag(%s)" t) input let members f input = let g input = let name = name input in let value = f name input in name, value in let r = ref [] in skip_empty input; while Xmlm.peek input <> `El_end do r := map_tag "member" g input :: !r; skip_empty input done; List.rev !r (* Constructors *) let make fn ?callback accu data = let r = fn data in match callback with | Some f -> f (List.rev accu) r; r | None -> r let make_null = make (fun () -> Null) let make_int = make (fun data -> Int (Int64.of_string data)) let make_bool = make (fun data -> Bool (if data = "1" then true else false)) let make_float = make (fun data -> Float (float_of_string data)) let make_string = make (fun data -> String data) let make_dateTime = make (fun data -> DateTime data) let make_base64 ?(base64_decoder=fun s -> Base64.decode_exn s) = make (fun data -> Base64 (base64_decoder data)) let make_enum = make (fun data -> Enum data) let make_dict = make (fun data -> Dict data) (* General parser functions *) let rec of_xml ?callback ?base64_decoder accu input = try value (map_tags (basic_types ?callback ?base64_decoder accu)) input with | Xmlm.Error ((a, b), e) as exn -> eprintf "Characters %i--%i: %s\n%!" a b (Xmlm.error_message e); raise exn | e -> eprintf "%s\n%!" (Printexc.to_string e); raise e and basic_types ?callback ?base64_decoder accu input = function | "int" | "i8" | "i4" -> make_int ?callback accu (get_data input) | "boolean" -> make_bool ?callback accu (get_data input) | "double" -> make_float ?callback accu (get_data input) | "string" -> make_string ?callback accu (get_data input) | "dateTime.iso8601" -> make_dateTime ?callback accu (get_data input) | "base64" -> make_base64 ?callback ?base64_decoder accu (get_data input) | "array" -> make_enum ?callback accu (data (of_xmls ?callback accu) input) | "struct" -> make_dict ?callback accu (members (fun name -> of_xml ?callback (name :: accu)) input) | "nil" -> make_null ?callback accu () | tag -> parse_error (sprintf "open_tag(%s)" tag) "open_tag(int/i8/i4/boolean/double/string/dateTime.iso8601/array/struct/nil)" input and of_xmls ?callback accu input = let r = ref [] in skip_empty input; while Xmlm.peek input <> `El_end do r := of_xml ?callback accu input :: !r; skip_empty input done; List.rev !r end let of_string ?callback ?base64_decoder str = let input = Xmlm.make_input (`String (0, str)) in (match Xmlm.peek input with | `Dtd _ -> ignore (Xmlm.input input) | _ -> ()); Parser.of_xml ?callback ?base64_decoder [] input let of_a ?callback ?base64_decoder ~next_char b = let aux () = match next_char b with | Some c -> int_of_char c | None -> raise End_of_file in let input = Xmlm.make_input (`Fun aux) in Parser.of_xml ?callback ?base64_decoder [] input let call_of_string ?callback ?base64_decoder str = let input = Xmlm.make_input (`String (0, str)) in (match Xmlm.peek input with | `Dtd _ -> ignore (Xmlm.input input) | _ -> ()); let name = ref "" in let params = ref [] in Parser.map_tag "methodCall" (fun input -> name := Parser.map_tag "methodName" Parser.get_data input; Parser.map_tag "params" (fun input -> Parser.skip_empty input; while Xmlm.peek input <> `El_end do Parser.map_tag "param" (fun input -> params := Parser.of_xml ?callback ?base64_decoder [] input :: !params) input; Parser.skip_empty input done) input) input; call !name (List.rev !params) let response_of_fault ?callback ?base64_decoder input = Parser.map_tag "fault" (fun input -> match Parser.of_xml ?callback ?base64_decoder [] input with | Dict d -> let fault_code = List.assoc "faultCode" d in let fault_string = List.assoc "faultString" d in failure (Rpc.Enum [ String "fault"; fault_code; fault_string ]) | r -> parse_error (to_string r) "fault" input) input let response_of_success ?callback ?base64_decoder input = Parser.map_tag "params" (fun input -> Parser.map_tag "param" (fun input -> match Parser.of_xml ?callback ?base64_decoder [] input with | Dict d -> if List.mem_assoc "Status" d && List.assoc "Status" d = String "Success" && List.mem_assoc "Value" d then success (List.assoc "Value" d) else if List.mem_assoc "Status" d && List.assoc "Status" d = String "Failure" && List.mem_assoc "ErrorDescription" d then failure (List.assoc "ErrorDescription" d) else success (Dict d) | v -> success v) input) input let response_of_input ?callback ?base64_decoder input = (match Xmlm.peek input with | `Dtd _ -> ignore (Xmlm.input input) | _ -> ()); Parser.map_tag "methodResponse" (fun input -> Parser.skip_empty input; match Xmlm.peek input with | `El_start ((_, "params"), _) -> response_of_success ?callback ?base64_decoder input | `El_start ((_, "fault"), _) -> response_of_fault ?callback ?base64_decoder input | `El_start ((_, tag), _) -> parse_error (sprintf "open_tag(%s)" tag) "open_tag(fault/params)" input | `Data d -> parse_error (String.escaped d) "open_tag(fault/params)" input | `El_end -> parse_error "close_tag" "open_tag(fault/params)" input | `Dtd _ -> parse_error "dtd" "open_tag(fault/params)" input) input let response_of_string ?callback ?base64_decoder str = let input = Xmlm.make_input (`String (0, str)) in response_of_input ?callback ?base64_decoder input let response_of_in_channel ?callback ?base64_decoder chan = let input = Xmlm.make_input (`Channel chan) in response_of_input ?callback ?base64_decoder input