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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
module List = Base.List
module O = Ocaml
module Cons = O.Cons
module G = Grammar
let (<|) f a = f a
let (|>) a f = f a
let ( @* ) g f x = g(f(x))
let msgtype_of_defs lst =
let typeconstr_of_def = function
| G.Define (G.Constr (name, []), _) -> name, None
| G.Define (G.Constr (name, lst), _) ->
name, Some (O.TypeTuple (List.map (snd @* Tools.tuple_of_var) lst))
| _ -> assert false
in O.Type [[], "msg", O.TypeConstructor (List.map typeconstr_of_def lst)]
let gettype_of_defs lst =
let gettype_of_def = function
| G.Define (G.Constr (name, []), _) ->
O.Val (Ident.source (Printf.sprintf "get_%s" name),
O.TypeArrow (O.TypeName ([O.TypeVerbatim "msg"],["list"]), O.TypeVerbatim "msg option"))
| G.Define (G.Constr (name, lst), _) ->
O.Val (Ident.source (Printf.sprintf "get_%s" name),
O.TypeArrow (O.TypeName ([O.TypeVerbatim "msg"],["list"]),
O.TypeName ([(O.TypeTuple (List.map (snd @* Tools.tuple_of_var) lst))],["option"])))
| _ -> assert false
in List.map gettype_of_def lst
let rec ol2l = function [] -> [] | (Some x)::rest -> x::ol2l rest | None::rest -> (O.TypeConst O.TypeString)::ol2l rest
let msgtype_of_raws lst =
let typeconstr_of_raw = function
| G.Raw (name, _, []) -> name, None
| G.Raw (name, _, lst) -> name, Some (O.TypeTuple (ol2l (List.map (fun (_,b,_,_) -> b) lst)))
| _ -> assert false
in O.Type [[], "rawmsg", O.TypeConstructor (List.map typeconstr_of_raw lst)]
let gettype_of_raws lst =
let gettype_of_raw = function
| G.Raw (name, _, []) -> O.Val (Ident.source (Printf.sprintf "get_%s" name),
O.TypeArrow (O.TypeName ([O.TypeVerbatim "rawmsg"],["list"]), O.TypeVerbatim "rawmsg option"))
| G.Raw (name, _, lst) -> O.Val (Ident.source (Printf.sprintf "get_%s" name),
O.TypeArrow (O.TypeName ([O.TypeVerbatim "rawmsg"],["list"]),
O.TypeName ([(O.TypeTuple (ol2l (List.map (fun (_,b,_,_) -> b) lst)))],["option"])))
| _ -> assert false
in List.map gettype_of_raw lst
let str_of_type_expr te = let b = Buffer.create 1024 in (OcamlPrint.Buf.type_expr b te; Buffer.contents b)
let make_runtime_type = function
| G.Startfun (name, lst, _) ->
let param_types =
str_of_type_expr (match lst with [] -> O.TypeConst O.TypeUnit | _ -> (O.TypeTuple (List.map (snd @* Tools.tuple_of_var) lst))) in
"\
type proto_exn = exn * string * (string option)\n\
\n\
type ec = proto_exn -> runtime -> Scheduler.t -> Scheduler.connection_info -> Buffer.t * int ref -> unit\n\
\n\
type ecsa = proto_exn -> runtime -> Scheduler.t -> Scheduler.connection_info -> Buffer.t * int ref -> ec -> unit\n\
\n\
type t =\n \
{\n \
runtime : runtime;\n \
err_cont : ecsa option;\n \
extra_params : "^param_types^";\n \
}\n\n"
| _ -> assert false
let make_launch_server parserprefix = function
| G.Startfun (name, lst, _) ->
let params = String.concat " " <| List.map (fst @* Tools.tuple_of_var) lst in
let paramst = "("^(String.concat "," <| List.map (fst @* Tools.tuple_of_var) lst)^")" in
let modname = String.capitalize parserprefix in
"\n(* == Future design on Runtime layer == *)\n\
(* Two steps (privileged and unprivileged) *)\n\
exception PermissionDenied\n\
exception UnixError\n\
\n\
let proto_"^name^"_start "^params^" runtime sched conn (_err_cont:ec) =\n \
(* Per-connection initialisation here... *)\n \
incr number_of_connections;\n \
proto_"^name^" "^params^" runtime sched conn (new_mailbox runtime) _err_cont\n\
\n\
let get_ports (t:t) (sched:Scheduler.t) =\n \
[ t.runtime.rt_proto.rt_name, `Connection\n \
{ Network.\n \
conn_incoming =\n \
(fun _params conn ->\n \
let "^paramst^" = t.extra_params in\n \
let _err_cont = Option.default default_err_cont (Option.map ecsa2ec t.err_cont) in\n \
proto_"^name^"_start "^params^" t.runtime sched conn _err_cont\n \
);\n \
conn_terminating = (fun () -> Logger.log \""^modname^" terminated\");\n \
secure_mode = t.runtime.rt_proto.rt_secure_mode;\n \
port_spec = Network.make_port_spec ~protocol (Unix.inet_addr_of_string t.runtime.rt_proto.rt_addr) t.runtime.rt_proto.rt_port\n \
};\n \
]\n\n"
| _ -> assert false
let make_launch_client = function
| G.Startfun (name, lst, _) ->
let params = String.concat " " <| List.map (fst @* Tools.tuple_of_var) lst in
let paramst = "("^(String.concat "," <| List.map (fst @* Tools.tuple_of_var) lst)^")" in
"\n\
let proto_"^name^"_start "^params^" (runtime:runtime) (sched:Scheduler.t) (conn:Scheduler.connection_info) ?_err_cont () =\n \
(* Per-connection initialisation here... *)\n \
incr number_of_connections;\n \
let _err_cont = Option.default default_err_cont (Option.map ecsa2ec _err_cont) in\n \
proto_"^name^" "^params^" runtime sched conn (new_mailbox runtime) _err_cont\n\
\n\
let connect (t:t) ?(secure_mode=Network.Unsecured) (sched:Scheduler.t) (addr:string) (port:int) =\n \
let port_spec = Network.make_port_spec ~protocol (Network.inet_addr_of_name addr) port in\n \
let "^paramst^" = t.extra_params in\n \
Network.connect sched port_spec secure_mode\n \
(fun conn -> proto_"^name^"_start "^params^" t.runtime sched conn ?_err_cont:t.err_cont ())\n\
\n\
let run_client (sched:Scheduler.t) =\n \
Scheduler.run sched\n\
\n\
let launch_client (t:t) (addr:string) (port:int) =\n \
let sched = Scheduler.default in\n \
connect t sched addr port;\n \
run_client sched\n\n"
| _ -> assert false
let gen_functor_sign has_raw arg lst =
let ilst, stuff = List.partition (function G.Import _ -> true | _ -> false) lst in
let sign = List.map Tools.val_of_import ilst
and startfun =
try
List.find (function G.Startfun _ -> true | _ -> false) lst
with Not_found -> failwith "Fatal Error: No entry node defined"
in
let fsign =
match startfun with
| G.Startfun (_, lst, _) ->
let funame = match arg with | "server" -> "launch_server" | _ -> "launch_client" in
(match arg with
| "client" ->
[ O.Val (Ident.source "number_of_connections", O.TypeVerbatim "int ref");
O.Val (Ident.source "connect",
O.TypeVerbatim ("t -> ?secure_mode:Network.secure_mode -> Scheduler.t -> string -> int -> unit"));
O.Val (Ident.source "run_client", O.TypeVerbatim ("Scheduler.t -> unit"));
O.Val (Ident.source funame, O.TypeVerbatim ("t -> string -> int -> unit"));
O.Val (Ident.source "protocol", O.TypeVerbatim "NetAddr.protocol");
O.Val (Ident.source "string_of_msg", O.TypeVar("msg -> string")) ;
]
| _ ->
[ O.Exception ("PermissionDenied",None);
O.Exception ("UnixError",None);
O.Val (Ident.source "number_of_connections", O.TypeVerbatim "int ref");
O.Val (Ident.source "string_of_msg", O.TypeVar("msg -> string")) ;
if has_raw then O.Val (Ident.source "string_of_rawmsg", O.TypeVar("rawmsg -> string")) else O.Verbatim "";
O.Val (Ident.source "compare_msg", O.TypeVar("msg * msg -> bool")) ;
O.Val (Ident.source "get_msg_name", O.TypeVar("msg -> string")) ;
O.Val (Ident.source "get_ports",
O.TypeVerbatim("t -> Scheduler.t -> (string * [> `Connection of Network.port ]) list"));
O.Val (Ident.source "protocol", O.TypeVerbatim "NetAddr.protocol");
])
| _ -> assert false
in
if List.length sign > 0 then
[O.DeclareFunctor (
"Make",
[ ("Required", Some (O.Signature (O.Inlined sign))) ],
Some (O.Signature (O.Inlined fsign)),
O.Structure []
)]
else fsign
let read_fun pp pn = O.Verbatim ("\n\
(*let raw_oc_opt = Some (open_out (Sys.getenv(\"HOME\")^\"/output.txt\"))*)\n\
\n\
let write_errcont runtime sched conn ?block_size ?timeout buf ?err_cont finalize =\n \
let default_errcont = function\n \
| Scheduler.Timeout ->\n \
(Logger.error \"write_errcont: Timeout\";\n \
Scheduler.remove_connection sched conn)\n \
| Scheduler.Connection_closed ->\n \
(Logger.error \"write_errcont: Connection_closed\";\n \
Scheduler.remove_connection sched conn)\n \
| exn ->\n \
(Logger.error \"Caught write exception: %s\" (Printexc.to_string exn);\n \
if runtime.rt_proto.rt_backtrace then Logger.debug \"%s\" (Printexc.get_backtrace());\n \
Scheduler.remove_connection sched conn)\n \
in\n \
let err_cont = Option.default default_errcont err_cont in\n \
let timeout = Option.default (runtime.rt_proto.rt_server_write_timeout) timeout in \n \
(*#<If$minlevel 10>match raw_oc_opt with\n \
| Some oc -> (output_string oc buf; Pervasives.flush oc)\n \
| None -> ()#<End>;*)\n \
Scheduler.write sched conn ?block_size ~timeout buf ~err_cont finalize\n\
\n\
let new_mailbox runtime = (HttpTools.get_buf ~hint:runtime.rt_proto.rt_block_size (), ref 0)\n\
\n\
let number_of_connections = ref 0\n\
\n\
let close_conn sched conn mailbox =\n \
(* Connection close code here... *)\n \
HttpTools.free_buf (fst mailbox);\n \
HttpTools.collect_bufs 2 (*(!number_of_connections)*);\n \
decr number_of_connections;\n \
#<If$minlevel 2>Logger.debug \"close_conn: %d\" !number_of_connections#<End>;\n \
Scheduler.remove_connection sched conn\n\
\n\
let (default_err_cont:ec) = fun (exn,name,bt_opt) _runtime sched conn mailbox ->\n \
Logger.error \""^(String.lowercase pp)^"(%s): Uncaught exception %s%!\" name (Printexc.to_string exn);\n \
Option.iter (fun bt -> Logger.debug \"%s\" bt) bt_opt;\n \
close_conn sched conn mailbox\n\
\n\
let ec2ecsa (ec:ec) = ((fun exn_name _runtime sched conn mailbox _ec -> ec exn_name _runtime sched conn mailbox):ecsa)\n\
\n\
let ecsa2ec (ecsa:ecsa) = ((fun exn_name _runtime sched conn mailbox -> ecsa exn_name _runtime sched conn mailbox default_err_cont):ec)\n\
\n\
let receive _runtime sched conn mailbox ?err_cont ?timeout cont =\n \
let parse_msg (buf,start,len) =\n \
let str = Buffer.sub buf start len in\n \
#<If$minlevel 2>Logger.debug \"receive: str='%s'\" (String.escaped str)#<End>;\n \
let (_pos,msg) = parse_"^(String.lowercase pn)^"_msg1 str in\n \
#<If$minlevel 1>Logger.debug \"receive: msg1=%s\" (String.escaped (string_of_msg msg))#<End>;\n \
cont msg\n \
in\n \
try\n \
HttpTools.upto_mark_stream_cps2 ~inclusive:true sched conn mailbox \"\\r\\n\" _runtime.rt_proto.rt_payload ?err_cont ?timeout parse_msg\n \
with exn -> match err_cont with Some err_cont -> err_cont exn | None -> raise exn\n\
")
let gen_functor ~protocol parserprefix parsername arg lst types startfun =
let dlst, temp = List.partition (function G.Define _ -> true | _ -> false) lst in
let rlst, temp2 = List.partition (function G.Raw _ -> true |_ -> false) temp in
let slst, rest = List.partition (function G.Set _ -> true | _ -> false) temp2 in
(*let opens, stuff = List.partition (function G.MOpen _ -> true | _ -> false) rest in*)
let ilst, stuff2 = List.partition (function G.Import _ -> true | _ -> false) rest in
let ocam, stuff3 = List.partition (function G.OcamlTop _ -> true | G.Ocaml _ -> true | G.GVerbatim _ -> true | _ -> false) stuff2 in
let dbgvars, stuff4 = List.partition (function G.Debugvar _ -> true | _ -> false) stuff3 in
let funs, _ = List.partition (function G.Startfun _ -> true | G.Fun _ -> true | _ -> false) stuff4 in
let fs = Rewrite_funs.gen_funs funs in
let code = List.fold_left (fun el gl ->
match gl with
| G.OcamlTop sl -> sl@el
| G.Ocaml (dbg,l,ew,en,e) -> (Rewrite_funs.dbgexpr (dbg,l,ew,en,e))::el
| G.GVerbatim (dbg,l,ew,en,s) -> (O.Verbatim (Rewrite_funs.verbstr (dbg,l,ew,en,s)))::el
| _ -> assert false) [] ocam in
let sign = List.map Tools.val_of_import ilst in
let launch =
match arg with
| "server" -> make_launch_server parserprefix startfun
| _ -> make_launch_client startfun
in
let stru =
O.Verbatim (Printf.sprintf "let protocol = NetAddr.mk_protocol \"%s\"" protocol)
:: (if List.length sign > 0 then O.Open [Ident.source "Required"] else O.Verbatim "")
:: (if not (List.is_empty dlst) then Gen_printer.do_it dlst else O.Verbatim "")
:: (if not (List.is_empty dlst) then Gen_compare.gen_get_compare_msg dlst else O.Verbatim "")
:: (if not (List.is_empty dlst) then Gen_compare.gen_get_msg_name dlst else O.Verbatim "")
:: (if not (List.is_empty dlst) then Gen_compare.gen_get_msg_value dlst else O.Verbatim "")
:: (if not (List.is_empty rlst) then Gen_raw_printer.do_it rlst else O.Verbatim "")
:: (if not (List.is_empty rlst) then Gen_compare.gen_get_compare_rawmsg rlst else O.Verbatim "")
:: (if not (List.is_empty rlst) then Gen_compare.gen_get_rawmsg_name rlst else O.Verbatim "")
:: (if not (List.is_empty rlst) then Gen_compare.gen_get_rawmsg_value rlst else O.Verbatim "")
:: read_fun parserprefix parsername
:: List.map Tools.let_of_set slst
@ code
@ fs
@ [O.Verbatim launch]
in
O.Open [Ident.source "Base"]
:: O.Open [Ident.source "Scheduler"]
:: O.Open [Ident.source (String.capitalize parsername)]
(*:: List.map (function MOpen s -> O.Open [Ident.source s] | _ -> assert false) opens*)
:: List.map (function G.Debugvar s -> O.Verbatim ("#<Debugvar:"^s^">") | _ -> assert false) dbgvars
@ types
@ (if List.length sign > 0 then
[O.DeclareFunctor (
"Make",
[ ("Required", Some (O.Signature (O.Inlined sign))) ],
None,
O.Structure stru
)]
else stru)
let rec resolve_includes lst =
List.fold_right (fun expr lst ->
match expr with
| G.Include name ->
(*Printf.eprintf "resolve_includes: name=%s\n%!" name;*)
let str = File.content name in
let pos,partial = G.parse_grammar_prog str in
if pos < String.length str then
failwith <| Printf.sprintf "Parse error at char: %d in file %s" pos name
else
let lst2 = resolve_includes (partial) in
lst2@lst
| expr -> expr::lst) lst []
let () =
if Array.length Sys.argv <> 5 then
failwith "Not the right number of arguments."
else
let src = Sys.argv.(1) in
let dst_dir = Sys.argv.(2) ^ "/" in
let dst = dst_dir ^ Sys.argv.(3) ^ ".ml" in
let mlidst = dst_dir ^ Sys.argv.(3) ^ ".mli" in
let parserprefix = Sys.argv.(3) in
let parsername = Sys.argv.(4) in
let trx = dst_dir ^ parsername ^ ".trx" in
let rp = dst_dir ^ parsername ^ "_rp.ml" in
let str = File.content src in
let pos, partial = G.parse_grammar_prog str in
if pos < String.length str then
failwith <| Printf.sprintf "Parse error at char: %d in file %s" pos src
else
let complete = resolve_includes partial in
let tmpl = List.filter (function
| G.Generate _ -> false
| _ -> true) complete in
let olst, lst3 = List.partition (function G.MOpen _ -> true | _ -> false) tmpl in
let malst, lst4 = List.partition (function G.MAlias _ -> true | _ -> false) lst3 in
let tlst, lst2 = List.partition (function G.MType _ -> true | _ -> false) lst4 in
let vlst, lst = List.partition (function G.MVal _ -> true | _ -> false) lst2 in
let defs = List.filter (function G.Define _ -> true |_ -> false) lst in
let raws = List.filter (function G.Raw _ -> true |_ -> false) lst in
let has_raw = List.length raws > 0 in
let mtype = msgtype_of_defs defs::[] in
let mvals = gettype_of_defs defs in
let rtype = if has_raw then msgtype_of_raws raws::[] else [] in
let rvals = if has_raw then gettype_of_raws raws else [] in
let opens = List.map (function G.MOpen s -> O.Open [Ident.source s] | _ -> assert false) olst in
let modaliases = List.map (function G.MAlias (a,m) -> O.Module (a,Some (O.Verbatim m),[],None) | _ -> assert false) malst in
let startfun =
try List.find (function G.Startfun _ -> true | _ -> false) lst
with Not_found -> failwith "Fatal Error: No entry node defined" in
let protocol =
match List.find_map (function G.Protocol ct -> Some ct | _ -> None) lst with
| Some ct -> ct
| None -> failwith "Fatal error: No protocol type specification; please add '-protocol XXX' in the protocol file"
in
let runtime_type = make_runtime_type startfun in
let types = (Tools.types_of_tdefs parsername (G.MType ("msg", O.TypeVar "msg") :: tlst))@[O.Verbatim runtime_type] in
let vals = Tools.types_of_tdefs parsername vlst in
if not (List.is_empty raws)
then
Gen_rp.do_it rtype parsername raws rp;
if not (List.is_empty defs) then let output_gra = open_out trx in (
try
Gen_trx.do_it mtype defs |> OcamlPrint.Output.code output_gra;
let output_mod = open_out dst in (
try
let serv_or_client =
(try
(function G.Generate s -> s |_ -> assert false)
<| List.find (function G.Generate _ -> true | _ -> false) complete
with
| Not_found -> failwith "Fatal error: No generate specification;\
please add -generate client (or server) in protocol file")
in opens @ modaliases @ rtype @ gen_functor ~protocol parserprefix parsername serv_or_client lst types startfun
|> OcamlPrint.Output.code output_mod
; let output_mli = open_out mlidst in (
try
opens @ modaliases @ types @ mvals @ rtype @ rvals @ vals @ gen_functor_sign has_raw serv_or_client lst
|> OcamlPrint.Output.code output_mli
with
| Failure s -> prerr_endline s
| e -> prerr_endline
<| Printf.sprintf "Fatal error while generating the signature file:"
^ Printexc.to_string e
) ; close_out output_mli
with
| Failure s -> prerr_endline s
| Not_found -> prerr_endline "Error, you didn't precise if you wanted a server or a client.\nRemember to add a « -generate » rule in your proto source code."
| e -> prerr_endline
<| "Fatal error while generating the ocaml source code:\n"
^ Printexc.to_string e
) ; close_out output_mod
with
| Failure s -> prerr_endline s
| e -> prerr_endline
<| "Fatal error while generating the trx grammar:\n"
^ Printexc.to_string e
) ; close_out output_gra
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