(*
  OCaml HTTP - do it yourself (fully OCaml) HTTP daemon

  Copyright (C) <2002-2004> Stefano Zacchiroli <zack@cs.unibo.it>

  This program is free software; you can redistribute it and/or modify
  it under the terms of the GNU General Public License as published by
  the Free Software Foundation; either version 2 of the License, or
  (at your option) any later version.

  This program 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 General Public License for more details.

  You should have received a copy of the GNU General Public License
  along with this program; if not, write to the Free Software
  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
*)

open Printf;;

open Http_common;;
open Http_types;;
open Http_constants;;
open Http_parser;;

  (** send raw data on outchan, flushing it afterwards *)
let send_raw ~data outchan =
  output_string outchan data;
  flush outchan

let send_CRLF = send_raw ~data:crlf

let send_header ~header ~value =
  Http_parser_sanity.heal_header (header, value);
  send_raw ~data:(header ^ ": " ^ value ^ crlf)

let send_headers ~headers outchan =
  List.iter (fun (header, value) -> send_header ~header ~value outchan) headers

  (** internal: low level for send_status_line *)
let send_status_line' ~version code =
  let status_line =
    String.concat
      " "
      [ string_of_version version;
      string_of_int code;
      Http_misc.reason_phrase_of_code code ]
  in
  send_raw ~data:(status_line ^ crlf)

let int_of_code = function
  | `Code code -> code
  | `Status status -> code_of_status status

let send_status_line ?(version = http_version) ~(code: status_code) outchan =
  send_status_line' ~version (int_of_code code) outchan

  (* FIXME duplication of code between this and response#addBasicHeaders *)
let send_basic_headers ?(version = http_version) ~(code: status_code) outchan =
  send_status_line' ~version (int_of_code code) outchan;
  send_headers
    ~headers:["Date", Http_misc.date_822 (); "Server", server_string]
    outchan

  (** internal: given a status code and an additional body return a string
  representing an HTML document that explains the meaning of given status code.
  Additional data can be added to the body via 'body' argument *)
let foo_body code body =
  let reason_phrase = Http_misc.reason_phrase_of_code code in
  sprintf
"<!DOCTYPE HTML PUBLIC \"-//IETF//DTD HTML 2.0//EN\">
<HTML><HEAD>
<TITLE>%d %s</TITLE>
</HEAD><BODY>
<H1>%d - %s</H1>%s
</BODY></HTML>"
    code reason_phrase code reason_phrase body

  (** internal: send a fooish body explaining in HTML form the 'reason phrase'
  of an HTTP response; body, if given, will be appended to the body *)
let send_foo_body code body = send_raw ~data:(foo_body code body)

  (* Warning: keep default values in sync with Http_response.response class *)
let respond ?(body = "") ?(headers = []) ?version ?(code = `Code 200) outchan =
  send_basic_headers ?version ~code outchan;
  send_headers ~headers outchan;
  send_header "Content-Length" (string_of_int (String.length body)) outchan;
  send_CRLF outchan;
  send_raw ~data:body outchan

  (** internal: low level for respond_redirect, respond_error, ...
  This function send a status line corresponding to a given code, some basic
  headers, the additional headers (if given) and an HTML page containing the
  reason phrase; if body is given it will be included in the body of the HTML
  page *)
let send_empty_response
  func_name ?(is_valid_status = fun _ -> true) ?(headers=[]) ?(body="") () =
    fun ?version code outchan ->
      if not (is_valid_status (int_of_code code)) then
        failwith
          (sprintf "'%d' isn't a valid status code for %s"
            (int_of_code code) func_name)
      else begin  (* status code suitable for answering *)
        let headers =
          [ "Connection", "close";
            "Content-Type", "text/html; charset=iso-8859-1" ] @ headers
        in
        let body = (foo_body (int_of_code code) body) ^ body in
        respond ?version ~code ~headers ~body outchan
      end

let respond_redirect
  ~location ?body ?version ?(code = `Code 301) outchan
  =
  send_empty_response "Daemon.respond_redirect" ~is_valid_status:is_redirection
    ~headers:["Location", location] ?body () ?version code outchan

let respond_error ?body ?version ?(code = `Code 400) outchan =
  send_empty_response "Daemon.respond_error" ~is_valid_status:is_error
    ?body () ?version code outchan

let respond_not_found ~url ?version outchan =
  send_empty_response "Daemon.respond_not_found" () ?version (`Code 404) outchan

let respond_forbidden ~url ?version outchan =
  send_empty_response "Daemon.respond_permission_denied" () ?version
  (`Code 403) outchan

let respond_unauthorized ?version ?(realm = server_string) outchan =
  respond ~headers:["WWW-Authenticate", sprintf "Basic realm=\"%s\"" realm]
    ~code:(`Code 401) outchan

let send_file ~src outchan =
  let buflen = 1024 in
  let buf = String.make buflen ' ' in

  let (file, cleanup) =
    match src with
    | FileSrc fname -> (* if we open the file, we close it before returning *)
        let f = open_in fname in
        f, (fun () -> close_in f)
    | InChanSrc inchan -> inchan, ignore
  in
  try
    while true do
      let bytes = input file buf 0 buflen in
      if bytes = 0 then
        raise End_of_file
      else
        output outchan buf 0 bytes
    done;
    assert false
  with End_of_file ->
    begin
      flush outchan;
      cleanup ()
    end

  (* TODO interface is too ugly to advertise this function in .mli *)
  (** create a minimal HTML directory listing of a given directory and send it
  over an out_channel, directory is passed as a dir_handle; name is the
  directory name, used for pretty printing purposes; path is the opened dir
  path, used to test its contents with stat *)
let send_dir_listing ~dir ~name ~path outchan =
  fprintf outchan "<html>\n<head><title>%s</title></head>\n<body>\n" name;
  let (dirs, files) =
    List.partition (fun e -> Http_misc.is_directory (path ^ e)) (Http_misc.ls dir)
  in
  List.iter
    (fun d -> fprintf outchan "<a href=\"%s/\">%s/</a><br />\n" d d)
    (List.sort compare dirs);
  List.iter
    (fun f -> fprintf outchan "<a href=\"%s\">%s</a><br />\n" f f)
    (List.sort compare files);
  fprintf outchan "</body>\n</html>";
  flush outchan

let respond_file ~fname ?(version = http_version) outchan =
  (** ASSUMPTION: 'fname' doesn't begin with a "/"; it's relative to the current
  document root (usually the daemon's cwd) *)
  let droot = Sys.getcwd () in  (* document root *)
  let path = droot ^ "/" ^ fname in (* full path to the desired file *)
  if not (Sys.file_exists path) then (* file not found *)
    respond_not_found ~url:fname outchan
  else begin
    try
      if Http_misc.is_directory path then begin (* file found, is a dir *)
        let dir = Unix.opendir path in
        send_basic_headers ~version ~code:(`Code 200) outchan;
        send_header "Content-Type" "text/html" outchan;
        send_CRLF outchan;
        send_dir_listing ~dir ~name:fname ~path outchan;
        Unix.closedir dir
      end else begin  (* file found, is something else *)
        let file = open_in fname in
        send_basic_headers ~version ~code:(`Code 200) outchan;
        send_header
          ~header:"Content-Length"
          ~value:(string_of_int (Http_misc.filesize fname))
          outchan;
        send_CRLF outchan;
        send_file ~src:(InChanSrc file) outchan;
        close_in file
      end
    with
    | Unix.Unix_error (Unix.EACCES, s, _) when (s = fname) ->
        respond_forbidden ~url:fname ~version outchan
    | Sys_error s when
        (Pcre.pmatch ~rex:(Pcre.regexp (fname ^ ": Permission denied")) s) ->
          respond_forbidden ~url:fname ~version outchan
  end

let respond_with (res: Http_types.response) outchan =
  res#serialize outchan;
  flush outchan

  (** internal: this exception is raised after a malformed request has been read
  by a serving process to signal main server (or itself if mode = `Single) to
  skip to next request *)
exception Again;;

let pp_parse_exc e =
  sprintf "HTTP request parse error: %s" (Printexc.to_string e)

  (* given a Http_parser.parse_request like function, wrap it in a function that
  do the same and additionally catch parsing exception sending HTTP error
  messages back to client as needed. Returned function raises Again when it
  encounter a parse error (name 'Again' is intended for future versions that
  will support http keep alive signaling that a new request has to be parsed
  from client) *)
let rec wrap_parse_request_w_safety parse_function inchan outchan =
(*   try *)
  (try
    parse_function inchan
  with
  | (End_of_file) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 400) ~body:"Unexpected End Of File" outchan;
      raise Again
  | (Malformed_request req) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 400)
        ~body:("request 1st line format should be: '<method> <url> <version>'" ^
          "<br />\nwhile received request 1st line was:<br />\n" ^ req)
        outchan;
      raise Again
  | (Invalid_HTTP_method meth) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 501)
        ~body:("Method '" ^ meth ^ "' isn't supported (yet)")
        outchan;
      raise Again
  | (Malformed_request_URI uri) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 400) ~body:("Malformed URL: '" ^ uri ^ "'")
        outchan;
      raise Again
  | (Invalid_HTTP_version version) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 505)
        ~body:("HTTP version '" ^ version ^ "' isn't supported (yet)")
        outchan;
      raise Again
  | (Malformed_query query) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 400)
        ~body:(sprintf "Malformed query string '%s'" query) outchan;
      raise Again
  | (Malformed_query_part (binding, query)) as e ->
      debug_print (pp_parse_exc e);
      respond_error ~code:(`Code 400)
        ~body:(sprintf "Malformed query part '%s' in query '%s'" binding query)
        outchan;
      raise Again)
(*  (* preliminary support for HTTP keep alive connections ... *)
  with Again ->
    wrap_parse_request_w_safety parse_function inchan outchan
*)

  (* wrapper around Http_parser.parse_request which catch parsing exceptions and
  return error messages to client as needed
  @param inchan in_channel from which read incoming requests
  @param outchan out_channl on which respond with error messages if needed
  *)
let safe_parse_request = wrap_parse_request_w_safety parse_request

  (* as above but for OO version (Http_parser.parse_request') *)
let safe_parse_request' = wrap_parse_request_w_safety (new Http_request.request)

let chdir_to_document_root = function (* chdir to document root *)
  | Some dir -> Sys.chdir dir
  | None -> ()

let server_of_mode = function
  | `Single -> Http_tcp_server.simple
  | `Fork   -> Http_tcp_server.fork
  | `Thread -> Http_tcp_server.thread

  (* TODO what happens when a Quit exception is raised by a callback? Do other
  callbacks keep on living until the end or are them all killed immediatly?
  The right semantics should obviously be the first one *)

  (* TODO support also chroot to 'root', not only chdir *)
  (* curried request *)
let start
  ?(addr = default_addr) ?(port = default_port)
  ?(timeout = Some default_timeout) ?(mode = default_mode) ?root callback
  =
  chdir_to_document_root root;
  let sockaddr = Http_misc.build_sockaddr (addr, port) in
  let daemon_callback inchan outchan =
    try
      let (path, parameters) = safe_parse_request inchan outchan in
      callback path parameters outchan;
      flush outchan
    with
    | Unauthorized realm -> respond_unauthorized ~realm outchan
    | Again -> ()
  in
  try
    (server_of_mode mode) ~sockaddr ~timeout daemon_callback 
  with Quit -> ()

  (* OO request *)
let start'
  ?(addr = default_addr) ?(port = default_port)
  ?(timeout = Some default_timeout) ?(mode = default_mode) ?root callback
  =
  chdir_to_document_root root;
  let sockaddr = Http_misc.build_sockaddr (addr, port) in
  let daemon_callback inchan outchan =
    try
      let req = safe_parse_request' inchan outchan in
      callback req outchan;
      flush outchan
    with
    | Unauthorized realm -> respond_unauthorized ~realm outchan
    | Again -> ()
  in
  try
    (server_of_mode mode) ~sockaddr ~timeout daemon_callback 
  with Quit -> ()

module Trivial =
  struct
    let callback path _ outchan =
      if not (Pcre.pmatch ~rex:(Pcre.regexp "^/") path) then
        respond_error ~code:(`Code 400) outchan
      else
        respond_file ~fname:(Http_misc.strip_heading_slash path) outchan
    let start ?(addr = default_addr) ?(port = default_port) () =
      start ~addr ~port callback
  end

  (* @param inchan input channel connected to client
     @param outchan output channel connected to client
     @param sockaddr client socket address *)
class connection inchan outchan sockaddr =
  (* ASSUMPTION: inchan and outchan are channels built on top of the same
  Unix.file_descr thus closing one of them will close also the other *)
  let close' o = o#close in
  object (self)

    initializer Gc.finalise close' self

    val mutable closed = false

    method private assertNotClosed =
      if closed then
        failwith "Http_daemon.connection: connection is closed"

    method getRequest =
      self#assertNotClosed;
      try
        Some (safe_parse_request' inchan outchan)
      with Again -> None

    method respond_with res =
      self#assertNotClosed;
      respond_with res outchan

    method close =
      self#assertNotClosed;
      close_in inchan;  (* this close also outchan *)
      closed <- true

  end

class daemon ?(addr = "0.0.0.0") ?(port = 80) () =
  object (self)

    val suck =
      Http_tcp_server.init_socket (Http_misc.build_sockaddr (addr, port))

    method accept =
      let (cli_suck, cli_sockaddr) = Unix.accept suck in  (* may block *)
      let (inchan, outchan) =
        (Unix.in_channel_of_descr cli_suck, Unix.out_channel_of_descr cli_suck)
      in
      new connection inchan outchan cli_sockaddr

    method getRequest =
      let conn = self#accept in
      match conn#getRequest with
      | None ->
          conn#close;
          self#getRequest
      | Some req -> (req, conn)

  end