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xmpp.chapril.org-ejabberd/src/ram_file_io_server.erl
Mickaël Rémond beb3a450f0 * src/ejabberd_loglevel.erl: Preliminary dynamic loglevel support.
Debug can be enabled with the command "ejabberd_loglevel:set(5)".
(EJAB-74)
* src/ejabberd_app.erl: Likewise.
* src/ejabberd.hrl: Likewise (More log levels are now supported).
* src/ram_file_io_server.erl: Likewise (Needed to dynamically
recompile the error logger).

SVN Revision: 689
2006-12-04 16:07:44 +00:00

409 lines
12 KiB
Erlang

%% ``The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved via the world wide web at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% The Initial Developer of the Original Code is Ericsson Utvecklings AB.
%% Portions created by Ericsson are Copyright 1999, Ericsson Utvecklings
%% AB. All Rights Reserved.''
%%
%% $Id$
%%
%% This file is mostly copied from Erlang file_io_server.erl
%% See: http://www.erlang.org/ml-archive/erlang-questions/200607/msg00080.html
%% for details on ram_file_io_server.erl (Erlang OTP R11B-2)
-module(ram_file_io_server).
%% A simple file server for io to one file instance per server instance.
-export([format_error/1]).
-export([start/3, start_link/3]).
-record(state, {handle,owner,mref,buf,read_mode}).
-define(PRIM_FILE, ram_file).
-define(READ_SIZE_LIST, 128).
-define(READ_SIZE_BINARY, (8*1024)).
-define(eat_message(M, T), receive M -> M after T -> timeout end).
%%%-----------------------------------------------------------------
%%% Exported functions
format_error({_Line, ?MODULE, Reason}) ->
io_lib:format("~w", [Reason]);
format_error({_Line, Mod, Reason}) ->
Mod:format_error(Reason);
format_error(ErrorId) ->
erl_posix_msg:message(ErrorId).
start(Owner, FileName, ModeList)
when pid(Owner), list(FileName), list(ModeList) ->
do_start(spawn, Owner, FileName, ModeList).
start_link(Owner, FileName, ModeList)
when pid(Owner), list(FileName), list(ModeList) ->
do_start(spawn_link, Owner, FileName, ModeList).
%%%-----------------------------------------------------------------
%%% Server starter, dispatcher and helpers
do_start(Spawn, Owner, FileName, ModeList) ->
Self = self(),
Ref = make_ref(),
Pid =
erlang:Spawn(
fun() ->
%% process_flag(trap_exit, true),
{ReadMode,Opts} =
case lists:member(binary, ModeList) of
true ->
{binary,ModeList};
false ->
{list,[binary|ModeList]}
end,
case ?PRIM_FILE:open(FileName, Opts) of
{error, Reason} = Error ->
Self ! {Ref, Error},
exit(Reason);
{ok, Handle} ->
%% XXX must I handle R6 nodes here?
M = erlang:monitor(process, Owner),
Self ! {Ref, ok},
server_loop(
#state{handle = Handle,
owner = Owner,
mref = M,
buf = <<>>,
read_mode = ReadMode})
end
end),
Mref = erlang:monitor(process, Pid),
receive
{Ref, {error, _Reason} = Error} ->
erlang:demonitor(Mref),
receive {'DOWN', Mref, _, _, _} -> ok after 0 -> ok end,
Error;
{Ref, ok} ->
erlang:demonitor(Mref),
receive
{'DOWN', Mref, _, _, Reason} ->
{error, Reason}
after 0 ->
{ok, Pid}
end;
{'DOWN', Mref, _, _, Reason} ->
{error, Reason}
end.
server_loop(#state{mref = Mref} = State) ->
receive
{file_request, From, ReplyAs, Request} when pid(From) ->
case file_request(Request, State) of
{reply, Reply, NewState} ->
file_reply(From, ReplyAs, Reply),
server_loop(NewState);
{error, Reply, NewState} ->
%% error is the same as reply, except that
%% it breaks the io_request_loop further down
file_reply(From, ReplyAs, Reply),
server_loop(NewState);
{stop, Reason, Reply, _NewState} ->
file_reply(From, ReplyAs, Reply),
exit(Reason)
end;
{io_request, From, ReplyAs, Request} when pid(From) ->
case io_request(Request, State) of
{reply, Reply, NewState} ->
io_reply(From, ReplyAs, Reply),
server_loop(NewState);
{error, Reply, NewState} ->
%% error is the same as reply, except that
%% it breaks the io_request_loop further down
io_reply(From, ReplyAs, Reply),
server_loop(NewState);
{stop, Reason, Reply, _NewState} ->
io_reply(From, ReplyAs, Reply),
exit(Reason)
end;
{'DOWN', Mref, _, _, Reason} ->
exit(Reason);
_ ->
server_loop(State)
end.
file_reply(From, ReplyAs, Reply) ->
From ! {file_reply, ReplyAs, Reply}.
io_reply(From, ReplyAs, Reply) ->
From ! {io_reply, ReplyAs, Reply}.
%%%-----------------------------------------------------------------
%%% file requests
file_request({pread,At,Sz},
#state{handle=Handle,buf=Buf,read_mode=ReadMode}=State) ->
case position(Handle, At, Buf) of
{ok,_Offs} ->
case ?PRIM_FILE:read(Handle, Sz) of
{ok,Bin} when ReadMode==list ->
std_reply({ok,binary_to_list(Bin)}, State);
Reply ->
std_reply(Reply, State)
end;
Reply ->
std_reply(Reply, State)
end;
file_request({pwrite,At,Data},
#state{handle=Handle,buf=Buf}=State) ->
case position(Handle, At, Buf) of
{ok,_Offs} ->
std_reply(?PRIM_FILE:write(Handle, Data), State);
Reply ->
std_reply(Reply, State)
end;
file_request(sync,
#state{handle=Handle}=State) ->
case ?PRIM_FILE:sync(Handle) of
{error,_}=Reply ->
{stop,normal,Reply,State};
Reply ->
{reply,Reply,State}
end;
file_request(close,
#state{handle=Handle}=State) ->
{stop,normal,?PRIM_FILE:close(Handle),State#state{buf= <<>>}};
file_request({position,At},
#state{handle=Handle,buf=Buf}=State) ->
std_reply(position(Handle, At, Buf), State);
file_request(truncate,
#state{handle=Handle}=State) ->
case ?PRIM_FILE:truncate(Handle) of
{error,_Reason}=Reply ->
{stop,normal,Reply,State#state{buf= <<>>}};
Reply ->
{reply,Reply,State}
end;
file_request(Unknown,
#state{}=State) ->
Reason = {request, Unknown},
{error,{error,Reason},State}.
std_reply({error,_}=Reply, State) ->
{error,Reply,State#state{buf= <<>>}};
std_reply(Reply, State) ->
{reply,Reply,State#state{buf= <<>>}}.
%%%-----------------------------------------------------------------
%%% I/O request
io_request({put_chars,Chars}, % binary(Chars) new in R9C
#state{buf= <<>>}=State) ->
put_chars(Chars, State);
io_request({put_chars,Chars}, % binary(Chars) new in R9C
#state{handle=Handle,buf=Buf}=State) ->
case position(Handle, cur, Buf) of
{error,_}=Reply ->
{stop,normal,Reply,State#state{buf= <<>>}};
_ ->
put_chars(Chars, State#state{buf= <<>>})
end;
io_request({put_chars,Mod,Func,Args},
#state{}=State) ->
case catch apply(Mod, Func, Args) of
Chars when list(Chars); binary(Chars) ->
io_request({put_chars,Chars}, State);
_ ->
{error,{error,Func},State}
end;
io_request({get_until,_Prompt,Mod,Func,XtraArgs},
#state{}=State) ->
get_chars(io_lib, get_until, {Mod, Func, XtraArgs}, State);
io_request({get_chars,_Prompt,N}, % New in R9C
#state{}=State) ->
get_chars(N, State);
io_request({get_chars,_Prompt,Mod,Func,XtraArg}, % New in R9C
#state{}=State) ->
get_chars(Mod, Func, XtraArg, State);
io_request({get_line,_Prompt}, % New in R9C
#state{}=State) ->
get_chars(io_lib, collect_line, [], State);
io_request({setopts, Opts}, % New in R9C
#state{}=State) when list(Opts) ->
setopts(Opts, State);
io_request({requests,Requests},
#state{}=State) when list(Requests) ->
io_request_loop(Requests, {reply,ok,State});
io_request(Unknown,
#state{}=State) ->
Reason = {request,Unknown},
{error,{error,Reason},State}.
%% Process a list of requests as long as the results are ok.
io_request_loop([], Result) ->
Result;
io_request_loop([_Request|_Tail],
{stop,_Reason,_Reply,_State}=Result) ->
Result;
io_request_loop([_Request|_Tail],
{error,_Reply,_State}=Result) ->
Result;
io_request_loop([Request|Tail],
{reply,_Reply,State}) ->
io_request_loop(Tail, io_request(Request, State)).
%% I/O request put_chars
%%
put_chars(Chars, #state{handle=Handle}=State) ->
case ?PRIM_FILE:write(Handle, Chars) of
{error,_}=Reply ->
{stop,normal,Reply,State};
Reply ->
{reply,Reply,State}
end.
%% Process the I/O request get_chars
%%
get_chars(0, #state{read_mode=ReadMode}=State) ->
{reply,cast(<<>>, ReadMode),State};
get_chars(N, #state{buf=Buf,read_mode=ReadMode}=State)
when integer(N), N > 0, N =< size(Buf) ->
{B1,B2} = split_binary(Buf, N),
{reply,cast(B1, ReadMode),State#state{buf=B2}};
get_chars(N, #state{handle=Handle,buf=Buf,read_mode=ReadMode}=State)
when integer(N), N > 0 ->
BufSize = size(Buf),
NeedSize = N-BufSize,
Size = max(NeedSize, ?READ_SIZE_BINARY),
case ?PRIM_FILE:read(Handle, Size) of
{ok, B} ->
if BufSize+size(B) < N ->
std_reply(cat(Buf, B, ReadMode), State);
true ->
{B1,B2} = split_binary(B, NeedSize),
{reply,cat(Buf, B1, ReadMode),State#state{buf=B2}}
end;
eof when BufSize==0 ->
{reply,eof,State};
eof ->
std_reply(cast(Buf, ReadMode), State);
{error,Reason}=Error ->
{stop,Reason,Error,State#state{buf= <<>>}}
end;
get_chars(_N, #state{}=State) ->
{error,{error,get_chars},State}.
get_chars(Mod, Func, XtraArg, #state{buf= <<>>}=State) ->
get_chars_empty(Mod, Func, XtraArg, start, State);
get_chars(Mod, Func, XtraArg, #state{buf=Buf}=State) ->
get_chars_apply(Mod, Func, XtraArg, start, State#state{buf= <<>>}, Buf).
get_chars_empty(Mod, Func, XtraArg, S,
#state{handle=Handle,read_mode=ReadMode}=State) ->
case ?PRIM_FILE:read(Handle, read_size(ReadMode)) of
{ok,Bin} ->
get_chars_apply(Mod, Func, XtraArg, S, State, Bin);
eof ->
get_chars_apply(Mod, Func, XtraArg, S, State, eof);
{error,Reason}=Error ->
{stop,Reason,Error,State}
end.
get_chars_apply(Mod, Func, XtraArg, S0,
#state{read_mode=ReadMode}=State, Data0) ->
Data1 = case ReadMode of
list when binary(Data0) -> binary_to_list(Data0);
_ -> Data0
end,
case catch Mod:Func(S0, Data1, XtraArg) of
{stop,Result,Buf} ->
{reply,Result,State#state{buf=cast_binary(Buf)}};
{'EXIT',Reason} ->
{stop,Reason,{error,err_func(Mod, Func, XtraArg)},State};
S1 ->
get_chars_empty(Mod, Func, XtraArg, S1, State)
end.
%% Convert error code to make it look as before
err_func(io_lib, get_until, {_,F,_}) ->
F;
err_func(_, F, _) ->
F.
%% Process the I/O request setopts
%%
%% setopts
setopts(Opts0, State) ->
Opts = proplists:substitute_negations([{list,binary}], Opts0),
case proplists:get_value(binary, Opts) of
true ->
{ok,ok,State#state{read_mode=binary}};
false ->
{ok,ok,State#state{read_mode=list}};
_ ->
{error,{error,badarg},State}
end.
%% Concatenate two binaries and convert the result to list or binary
cat(B1, B2, binary) ->
list_to_binary([B1,B2]);
cat(B1, B2, list) ->
binary_to_list(B1)++binary_to_list(B2).
%% Cast binary to list or binary
cast(B, binary) ->
B;
cast(B, list) ->
binary_to_list(B).
%% Convert buffer to binary
cast_binary(Binary) when binary(Binary) ->
Binary;
cast_binary(List) when list(List) ->
list_to_binary(List);
cast_binary(_EOF) ->
<<>>.
%% Read size for different read modes
read_size(binary) ->
?READ_SIZE_BINARY;
read_size(list) ->
?READ_SIZE_LIST.
max(A, B) when A >= B ->
A;
max(_, B) ->
B.
%%%-----------------------------------------------------------------
%%% ?PRIM_FILE helpers
%% Compensates ?PRIM_FILE:position/2 for the number of bytes
%% we have buffered
position(Handle, cur, Buf) ->
position(Handle, {cur, 0}, Buf);
position(Handle, {cur, Offs}, Buf) when list(Buf) ->
?PRIM_FILE:position(Handle, {cur, Offs-length(Buf)});
position(Handle, {cur, Offs}, Buf) when binary(Buf) ->
?PRIM_FILE:position(Handle, {cur, Offs-size(Buf)});
position(Handle, At, _Buf) ->
?PRIM_FILE:position(Handle, At).