package obus
Pure Ocaml implementation of the D-Bus protocol
Install
Dune Dependency
Authors
Maintainers
Sources
1.2.3.tar.gz
sha256=75703f78015e15d03d0fdba1633a155875daf17d854225658429e72a0df06258
md5=3090a796f0af95e16838d81656ac4b97
doc/src/obus.internals/oBus_introspect_ext.ml.html
Source file oBus_introspect_ext.ml
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278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460(* * oBus_introspect_ext.ml * ---------------------- * Copyright : (c) 2010, Jeremie Dimino <jeremie@dimino.org> * Licence : BSD3 * * This file is a part of obus, an ocaml implementation of D-Bus. *) open Printf open OBus_value (* +-----------------------------------------------------------------+ | Annotations | +-----------------------------------------------------------------+ *) let obus_enum = "org.ocamlcore.forge.obus.Enum" let obus_flag = "org.ocamlcore.forge.obus.Flag" let obus_type = "org.ocamlcore.forge.obus.Type" let obus_itype = "org.ocamlcore.forge.obus.IType" let obus_otype = "org.ocamlcore.forge.obus.OType" (* +-----------------------------------------------------------------+ | Extended types | +-----------------------------------------------------------------+ *) type basic = | Byte | Boolean | Int16 | Int32 | Int64 | Uint16 | Uint32 | Uint64 | Double | String | Signature | Object_path | Unix_fd | Enum of T.basic * (V.basic * string) list | Flag of T.basic * (V.basic * string) list type single = | Basic of basic | Structure of single list | Array of single | Dict of basic * single | Variant type sequence = single list let byte = Byte let boolean = Boolean let int16 = Int16 let int32 = Int32 let int64 = Int64 let uint16 = Uint16 let uint32 = Uint32 let uint64 = Uint64 let double = Double let string = String let signature = Signature let object_path = Object_path let unix_fd = Unix_fd let check_values func typ values = match typ with | T.Byte | T.Int16 | T.Int32 | T.Int64 | T.Uint16 | T.Uint32 | T.Uint64 -> List.iter (fun (value, name) -> if V.type_of_basic value <> typ then ksprintf invalid_arg "OBus_introspect_ext.%s: unexpected type" func) values | _ -> ksprintf invalid_arg "OBus_introspect_ext.%s: type '%s' is not supported for enumerations" func (T.string_of_basic typ) let enum typ values = check_values "enum" typ values; Enum(typ, values) let flag typ values = check_values "flag" typ values; Flag(typ, values) let basic t = Basic t let structure t = Structure t let array t = Array t let dict tk tv = Dict(tk, tv) let variant = Variant (* +-----------------------------------------------------------------+ | Stripping | +-----------------------------------------------------------------+ *) let strip_basic = function | Byte -> T.Byte | Boolean -> T.Boolean | Int16 -> T.Int16 | Int32 -> T.Int32 | Int64 -> T.Int64 | Uint16 -> T.Uint16 | Uint32 -> T.Uint32 | Uint64 -> T.Uint64 | Double -> T.Double | String -> T.String | Signature -> T.Signature | Object_path -> T.Object_path | Unix_fd -> T.Unix_fd | Enum(t, _) -> t | Flag(t, _) -> t let rec strip_single = function | Basic t -> T.Basic(strip_basic t) | Structure tl -> T.structure(List.map strip_single tl) | Array t -> T.Array(strip_single t) | Dict(tk, tv) -> T.Dict(strip_basic tk, strip_single tv) | Variant -> T.Variant let strip_sequence l = List.map strip_single l (* +-----------------------------------------------------------------+ | Projections | +-----------------------------------------------------------------+ *) let project_basic = function | T.Byte -> Byte | T.Boolean -> Boolean | T.Int16 -> Int16 | T.Int32 -> Int32 | T.Int64 -> Int64 | T.Uint16 -> Uint16 | T.Uint32 -> Uint32 | T.Uint64 -> Uint64 | T.Double -> Double | T.String -> String | T.Signature -> Signature | T.Object_path -> Object_path | T.Unix_fd -> Unix_fd let rec project_single = function | T.Basic t -> Basic(project_basic t) | T.Structure tl -> structure(List.map project_single tl) | T.Array t -> Array(project_single t) | T.Dict(tk, tv) -> Dict(project_basic tk, project_single tv) | T.Variant -> Variant let project_sequence l = List.map project_single l (* +-----------------------------------------------------------------+ | Symbols and environments | +-----------------------------------------------------------------+ *) type term = OBus_type_ext_lexer.term = | Term of string * term list | Tuple of term list let term name args = Term(name, args) let tuple = function | [t] -> t | l -> Tuple l type symbol = | Sym_enum of OBus_value.T.basic * (OBus_value.V.basic * string) list | Sym_flag of OBus_value.T.basic * (OBus_value.V.basic * string) list let sym_enum typ values = check_values "sym_enum" typ values; Sym_enum(typ, values) let sym_flag typ values = check_values "sym_flag" typ values; Sym_flag(typ, values) type env = (string * symbol) list exception Resolve_error of string let rec resolve env = function | Term(name, args) -> begin let args = List.map (resolve env) args in match try Some(List.assoc name env) with Not_found -> None with | Some(Sym_enum(typ, values)) -> Basic(Enum(typ, values)) | Some(Sym_flag(typ, values)) -> Basic(Flag(typ, values)) | None -> match name, args with | "byte", [] -> Basic Byte | "boolean", [] -> Basic Boolean | "int16", [] -> Basic Int16 | "int32", [] -> Basic Int32 | "int64", [] -> Basic Int64 | "uint16", [] -> Basic Uint16 | "uint32", [] -> Basic Uint32 | "uint64", [] -> Basic Uint64 | "double", [] -> Basic Double | "string", [] -> Basic String | "signature", [] -> Basic Signature | "object_path", [] -> Basic Object_path | "unix_fd", [] -> Basic Unix_fd | "array", [t] -> Array t | "dict", [Basic tk; tv] -> Dict(tk, tv) | "dict", [tk; tv] -> raise (Resolve_error "type of a dictionary key must be a basic type") | "variant", [] -> Variant | _ -> raise (Resolve_error(sprintf "unbounded symbol: %S with arity %d" name (List.length args))) end | Tuple l -> Structure(List.map (resolve env) l) (* +-----------------------------------------------------------------+ | Projection D-Bus types -> terms | +-----------------------------------------------------------------+ *) let term_of_basic = function | T.Byte -> term "byte" [] | T.Boolean -> term "boolean" [] | T.Int16 -> term "int16" [] | T.Int32 -> term "int32" [] | T.Int64 -> term "int64" [] | T.Uint16 -> term "uint16" [] | T.Uint32 -> term "uint32" [] | T.Uint64 -> term "uint64" [] | T.Double -> term "double" [] | T.String -> term "string" [] | T.Signature -> term "signature" [] | T.Object_path -> term "object_path" [] | T.Unix_fd -> term "unix_fd" [] let rec term_of_single = function | T.Basic t -> term_of_basic t | T.Array t -> term "array" [term_of_single t] | T.Dict(tk, tv) -> term "dict" [term_of_basic tk; term_of_single tv] | T.Structure tl -> tuple (List.map term_of_single tl) | T.Variant -> term "variant" [] let term_of_sequence l = tuple (List.map term_of_single l) (* +-----------------------------------------------------------------+ | Exended ast | +-----------------------------------------------------------------+ *) type name = string type annotation = name * string type argument = name option * term type access = OBus_introspect.access = Read | Write | Read_write type member = | Method of name * argument list * argument list * annotation list | Signal of name * argument list * annotation list | Property of name * term * access * annotation list type interface = name * member list * (string * symbol) list * annotation list (* +-----------------------------------------------------------------+ | Printing/parsing | +-----------------------------------------------------------------+ *) open Printf let rec string_of_term = function | Term(name, []) -> name | Term(name, args) -> "(" ^ String.concat " " (name :: List.map string_of_term args) ^ ")" | Tuple typs -> "<" ^ String.concat "," (List.map string_of_term typs) ^ ">" let string_of_enum name typ values = sprintf "%s:%s=%s" name (match typ with | T.Byte -> "byte" | T.Int16 -> "int16" | T.Int32 -> "int32" | T.Int64 -> "int64" | T.Uint16 -> "uint16" | T.Uint32 -> "uint32" | T.Uint64 -> "uint64" | _ -> assert false) (String.concat "," (List.map (fun (key, value) -> sprintf "%s:%s" (match key with | V.Byte x -> string_of_int (Char.code x) | V.Int16 x | V.Uint16 x -> string_of_int x | V.Int32 x | V.Uint32 x -> Int32.to_string x | V.Int64 x | V.Uint64 x -> Int64.to_string x | _ -> assert false) value) values)) let string_of_flag = string_of_enum let term_of_string str = try OBus_type_ext_lexer.single (Lexing.from_string str) with OBus_type_ext_lexer.Fail(pos, msg) -> ksprintf failwith "failed to parse extended type %S, at position %d: %s" str pos msg let enum_of_string str = try OBus_type_ext_lexer.enum_and_flag (Lexing.from_string str) with OBus_type_ext_lexer.Fail(pos, msg) -> ksprintf failwith "failed to parse extended symbol %S, at position %d: %s" str pos msg let flag_of_string = enum_of_string (* +-----------------------------------------------------------------+ | Encoding | +-----------------------------------------------------------------+ *) let set_annotation name value annotations = let rec loop acc = function | [] -> (name, value) :: acc | (name', _) :: rest when name = name' -> (name, value) :: List.rev_append acc rest | a :: rest -> loop (a :: acc) rest in loop [] annotations let encode_arguments env args annotation_name annotations = let rec loop acc use_ext = function | [] -> (List.rev acc, use_ext) | (name, typ) :: rest -> let ext_typ = resolve env typ in let std_typ = strip_single ext_typ in (* Check whether the type contains extended types: *) if project_single std_typ = ext_typ then loop ((name, std_typ) :: acc) use_ext rest else loop ((name, std_typ) :: acc) true rest in let args', use_ext = loop [] false args in if use_ext then (args', set_annotation annotation_name (string_of_term (tuple (List.map snd args))) annotations) else (args', annotations) let encode (name, members, symbols, annotations) = let env = symbols in let members = List.map (function | Method(name, i_args, o_args, annotations) -> let i_args, annotations = encode_arguments env i_args obus_itype annotations in let o_args, annotations = encode_arguments env o_args obus_otype annotations in OBus_introspect.Method(name, i_args, o_args, annotations) | Signal(name, args, annotations) -> let args, annotations = encode_arguments env args obus_type annotations in OBus_introspect.Signal(name, args, annotations) | Property(name, typ, access, annotations) -> begin match encode_arguments env [(None, typ)] obus_type annotations with | [(None, typ)], annotations -> OBus_introspect.Property(name, typ, access, annotations) | _ -> assert false end) members in let annotations = List.map (function | (name, Sym_enum(typ, values)) -> (obus_enum, string_of_enum name typ values) | (name, Sym_flag(typ, values)) -> (obus_flag, string_of_flag name typ values)) symbols @ annotations in (name, members, annotations) let get_annotation name annotations = let rec loop acc = function | [] -> (acc, None) | (name', value) :: rest -> if name = name' then (List.rev_append acc rest, Some value) else loop ((name', value) :: acc) rest in loop [] annotations let decode_arguments args annotation_name annotations = match get_annotation annotation_name annotations with | (annotations, None) -> (List.map (fun (name, typ) -> (name, term_of_single typ)) args, annotations) | (annotations, Some value) -> (List.map2 (fun (name, _) term -> (name, term)) args (match term_of_string value with | Tuple l -> l | t -> [t]), annotations) let decode (name, members, annotations) = let members = List.map (function | OBus_introspect.Method(name, i_args, o_args, annotations) -> let i_args, annotations = decode_arguments i_args obus_itype annotations in let o_args, annotations = decode_arguments o_args obus_otype annotations in Method(name, i_args, o_args, annotations) | OBus_introspect.Signal(name, args, annotations) -> let args, annotations = decode_arguments args obus_type annotations in Signal(name, args, annotations) | OBus_introspect.Property(name, typ, access, annotations) -> begin match decode_arguments [(None, typ)] obus_type annotations with | [(None, typ)], annotations -> Property(name, typ, access, annotations) | _ -> assert false end) members in let symbols, annotations = List.partition (fun (name, value) -> name = obus_enum || name = obus_flag) annotations in let symbols = List.map (fun (name, value) -> if name = obus_enum then let name, typ, values = enum_of_string value in (name, sym_enum typ values) else if name = obus_flag then let name, typ, values = flag_of_string value in (name, sym_flag typ values) else assert false) symbols in (name, members, symbols, annotations)