%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2013. All Rights Reserved.
%%
%% 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 online 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.
%%
%% %CopyrightEnd%
%%
%%
-module(httpd_conf).
%% EWSAPI
-export([is_directory/1, is_file/1, make_integer/1, clean/1,
custom_clean/3, check_enum/2]).
%% Application internal API
-export([load/1, load/2, load_mime_types/1, store/1, store/2,
remove/1, remove_all/1, get_config/2, get_config/3,
lookup_socket_type/1,
lookup/2, lookup/3, lookup/4,
validate_properties/1]).
-define(VMODULE,"CONF").
-include("httpd_internal.hrl").
-include("httpd.hrl").
-include_lib("inets/src/http_lib/http_internal.hrl").
%%%=========================================================================
%%% EWSAPI
%%%=========================================================================
%%-------------------------------------------------------------------------
%% is_directory(FilePath) -> Result
%% FilePath = string()
%% Result = {ok,Directory} | {error,Reason}
%% Directory = string()
%% Reason = string() | enoent | eacces | enotdir | FileInfo
%% FileInfo = File info record
%%
%% Description: Checks if FilePath is a directory in which case it is
%% returned.
%%-------------------------------------------------------------------------
is_directory(Directory) ->
case file:read_file_info(Directory) of
{ok,FileInfo} ->
#file_info{type = Type, access = Access} = FileInfo,
is_directory(Type,Access,FileInfo,Directory);
{error,Reason} ->
{error,Reason}
end.
is_directory(directory,read,_FileInfo,Directory) ->
{ok,Directory};
is_directory(directory,read_write,_FileInfo,Directory) ->
{ok,Directory};
is_directory(_Type,_Access,FileInfo,_Directory) ->
{error,FileInfo}.
%%-------------------------------------------------------------------------
%% is_file(FilePath) -> Result
%% FilePath = string()
%% Result = {ok,File} | {error,Reason}
%% File = string()
%% Reason = string() | enoent | eacces | enotdir | FileInfo
%% FileInfo = File info record
%%
%% Description: Checks if FilePath is a regular file in which case it
%% is returned.
%%-------------------------------------------------------------------------
is_file(File) ->
case file:read_file_info(File) of
{ok,FileInfo} ->
#file_info{type = Type, access = Access} = FileInfo,
is_file(Type,Access,FileInfo,File);
{error,Reason} ->
{error,Reason}
end.
is_file(regular,read,_FileInfo,File) ->
{ok,File};
is_file(regular,read_write,_FileInfo,File) ->
{ok,File};
is_file(_Type,_Access,FileInfo,_File) ->
{error,FileInfo}.
%%-------------------------------------------------------------------------
%% make_integer(String) -> Result
%% String = string()
%% Result = {ok,integer()} | {error,nomatch}
%%
%% Description: make_integer/1 returns an integer representation of String.
%%-------------------------------------------------------------------------
make_integer(String) ->
case inets_regexp:match(clean(String),"[0-9]+") of
{match, _, _} ->
{ok, list_to_integer(clean(String))};
nomatch ->
{error, nomatch}
end.
%%-------------------------------------------------------------------------
%% clean(String) -> Stripped
%% String = Stripped = string()
%%
%% Description:clean/1 removes leading and/or trailing white spaces
%% from String.
%%-------------------------------------------------------------------------
clean(String) ->
{ok,CleanedString,_} =
inets_regexp:gsub(String, "^[ \t\n\r\f]*|[ \t\n\r\f]*\$",""),
CleanedString.
%%-------------------------------------------------------------------------
%% custom_clean(String,Before,After) -> Stripped
%% Before = After = regexp()
%% String = Stripped = string()
%%
%% Description: custom_clean/3 removes leading and/or trailing white
%% spaces and custom characters from String.
%%-------------------------------------------------------------------------
custom_clean(String,MoreBefore,MoreAfter) ->
{ok,CleanedString,_} = inets_regexp:gsub(String,"^[ \t\n\r\f"++MoreBefore++
"]*|[ \t\n\r\f"++MoreAfter++"]*\$",""),
CleanedString.
%%-------------------------------------------------------------------------
%% check_enum(EnumString,ValidEnumStrings) -> Result
%% EnumString = string()
%% ValidEnumStrings = [string()]
%% Result = {ok,atom()} | {error,not_valid}
%%
%% Description: check_enum/2 checks if EnumString is a valid
%% enumeration of ValidEnumStrings in which case it is returned as an
%% atom.
%%-------------------------------------------------------------------------
check_enum(_Enum,[]) ->
{error, not_valid};
check_enum(Enum,[Enum|_Rest]) ->
{ok, list_to_atom(Enum)};
check_enum(Enum, [_NotValid|Rest]) ->
check_enum(Enum, Rest).
%%%=========================================================================
%%% Application internal API
%%%=========================================================================
%% The configuration data is handled in three (3) phases:
%% 1. Parse the config file and put all directives into a key-vale
%% tuple list (load/1).
%% 2. Traverse the key-value tuple list store it into an ETS table.
%% Directives depending on other directives are taken care of here
%% (store/1).
%% 3. Traverse the ETS table and do a complete clean-up (remove/1).
%% Phase 1: Load
load(ConfigFile) ->
?hdrv("load config", [{config_file, ConfigFile}]),
case read_config_file(ConfigFile) of
{ok, Config} ->
?hdrt("config read", []),
case bootstrap(Config) of
{error, Reason} ->
?hdri("bootstrap failed", [{reason, Reason}]),
{error, Reason};
{ok, Modules} ->
?hdrd("config bootstrapped", [{modules, Modules}]),
load_config(Config, lists:append(Modules, [?MODULE]))
end;
{error, Reason} ->
?hdri("failed reading config file", [{reason, Reason}]),
{error, ?NICE("Error while reading config file: "++Reason)}
end.
load(eof, []) ->
eof;
load("MaxHeaderSize " ++ MaxHeaderSize, []) ->
case make_integer(MaxHeaderSize) of
{ok, Integer} ->
{ok, [], {max_header_size,Integer}};
{error, _} ->
{error, ?NICE(clean(MaxHeaderSize)++
" is an invalid number of MaxHeaderSize")}
end;
load("MaxURISize " ++ MaxHeaderSize, []) ->
case make_integer(MaxHeaderSize) of
{ok, Integer} ->
{ok, [], {max_uri_size, Integer}};
{error, _} ->
{error, ?NICE(clean(MaxHeaderSize)++
" is an invalid number of MaxHeaderSize")}
end;
load("MaxBodySize " ++ MaxBodySize, []) ->
case make_integer(MaxBodySize) of
{ok, Integer} ->
{ok, [], {max_body_size,Integer}};
{error, _} ->
{error, ?NICE(clean(MaxBodySize) ++
" is an invalid number of MaxBodySize")}
end;
load("ServerName " ++ ServerName, []) ->
{ok,[], {server_name, clean(ServerName)}};
load("ServerTokens " ++ ServerTokens, []) ->
%% These are the valid *plain* server tokens:
%% sprod, major, minor, minimum, os, full
%% It can also be a "private" server token: private:<any string>
case string:tokens(ServerTokens, [$:]) of
["private", Private] ->
{ok,[], {server_tokens, clean(Private)}};
[TokStr] ->
Tok = list_to_atom(clean(TokStr)),
case lists:member(Tok, [prod, major, minor, minimum, os, full]) of
true ->
{ok,[], {server_tokens, Tok}};
false ->
{error, ?NICE(clean(ServerTokens) ++
" is an invalid ServerTokens")}
end;
_ ->
{error, ?NICE(clean(ServerTokens) ++ " is an invalid ServerTokens")}
end;
load("SocketType " ++ SocketType, []) ->
%% ssl is the same as HTTP_DEFAULT_SSL_KIND
%% essl is the pure Erlang-based ssl (the "new" ssl)
case check_enum(clean(SocketType), ["ssl", "essl", "ip_comm"]) of
{ok, ValidSocketType} ->
{ok, [], {socket_type, ValidSocketType}};
{error,_} ->
{error, ?NICE(clean(SocketType) ++ " is an invalid SocketType")}
end;
load("Port " ++ Port, []) ->
case make_integer(Port) of
{ok, Integer} ->
{ok, [], {port, Integer}};
{error, _} ->
{error, ?NICE(clean(Port)++" is an invalid Port")}
end;
load("BindAddress " ++ Address0, []) ->
%% If an ipv6 address is provided in URL-syntax strip the
%% url specific part e.i. "[FEDC:BA98:7654:3210:FEDC:BA98:7654:3210]"
%% -> "FEDC:BA98:7654:3210:FEDC:BA98:7654:3210"
try
begin
?hdrv("load BindAddress", [{address0, Address0}]),
{Address, IpFamily} =
case string:tokens(Address0, [$|]) of
[Address1] ->
?hdrv("load BindAddress", [{address1, Address1}]),
{clean_address(Address1), inet6fb4};
[Address1, IpFamilyStr] ->
?hdrv("load BindAddress",
[{address1, Address1},
{ipfamily_str, IpFamilyStr}]),
{clean_address(Address1), make_ipfamily(IpFamilyStr)};
_Bad ->
?hdrv("load BindAddress - bad address",
[{bad_address, _Bad}]),
throw({error, {bad_bind_address, Address0}})
end,
?hdrv("load BindAddress - address and ipfamily separated",
[{address, Address}, {ipfamily, IpFamily}]),
case Address of
"*" ->
{ok, [], [{bind_address, any}, {ipfamily, IpFamily}]};
_ ->
case httpd_util:ip_address(Address, IpFamily) of
{ok, IPAddr} ->
?hdrv("load BindAddress - checked",
[{ip_address, IPAddr}]),
Entries = [{bind_address, IPAddr},
{ipfamily, IpFamily}],
{ok, [], Entries};
{error, _} ->
{error, ?NICE(Address ++ " is an invalid address")}
end
end
end
catch
throw:{error, {bad_bind_address, _}} ->
?hdrv("load BindAddress - bad bind address", []),
{error, ?NICE(Address0 ++ " is an invalid address")};
throw:{error, {bad_ipfamily, _}} ->
?hdrv("load BindAddress - bad ipfamily", []),
{error, ?NICE(Address0 ++ " has an invalid ipfamily")}
end;
load("KeepAlive " ++ OnorOff, []) ->
case list_to_atom(clean(OnorOff)) of
off ->
{ok, [], {keep_alive, false}};
_ ->
{ok, [], {keep_alive, true}}
end;
load("MaxKeepAliveRequests " ++ MaxRequests, []) ->
case make_integer(MaxRequests) of
{ok, Integer} ->
{ok, [], {max_keep_alive_request, Integer}};
{error, _} ->
{error, ?NICE(clean(MaxRequests) ++
" is an invalid MaxKeepAliveRequests")}
end;
%% This clause is kept for backwards compatibility
load("MaxKeepAliveRequest " ++ MaxRequests, []) ->
case make_integer(MaxRequests) of
{ok, Integer} ->
{ok, [], {max_keep_alive_request, Integer}};
{error, _} ->
{error, ?NICE(clean(MaxRequests) ++
" is an invalid MaxKeepAliveRequest")}
end;
load("KeepAliveTimeout " ++ Timeout, []) ->
case make_integer(Timeout) of
{ok, Integer} ->
{ok, [], {keep_alive_timeout, Integer*1000}};
{error, _} ->
{error, ?NICE(clean(Timeout)++" is an invalid KeepAliveTimeout")}
end;
load("Modules " ++ Modules, []) ->
{ok, ModuleList} = inets_regexp:split(Modules," "),
{ok, [], {modules,[list_to_atom(X) || X <- ModuleList]}};
load("ServerAdmin " ++ ServerAdmin, []) ->
{ok, [], {server_admin,clean(ServerAdmin)}};
load("ServerRoot " ++ ServerRoot, []) ->
case is_directory(clean(ServerRoot)) of
{ok, Directory} ->
{ok, [], [{server_root,string:strip(Directory,right,$/)}]};
{error, _} ->
{error, ?NICE(clean(ServerRoot)++" is an invalid ServerRoot")}
end;
load("MimeTypes " ++ MimeTypes, []) ->
case load_mime_types(clean(MimeTypes)) of
{ok, MimeTypesList} ->
{ok, [], [{mime_types, MimeTypesList}]};
{error, Reason} ->
{error, Reason}
end;
load("MaxClients " ++ MaxClients, []) ->
case make_integer(MaxClients) of
{ok, Integer} ->
{ok, [], {max_clients,Integer}};
{error, _} ->
{error, ?NICE(clean(MaxClients) ++
" is an invalid number of MaxClients")}
end;
load("DocumentRoot " ++ DocumentRoot,[]) ->
case is_directory(clean(DocumentRoot)) of
{ok, Directory} ->
{ok, [], {document_root,string:strip(Directory,right,$/)}};
{error, _} ->
{error, ?NICE(clean(DocumentRoot)++" is an invalid DocumentRoot")}
end;
load("DefaultType " ++ DefaultType, []) ->
{ok, [], {default_type,clean(DefaultType)}};
load("SSLCertificateFile " ++ SSLCertificateFile, []) ->
case is_file(clean(SSLCertificateFile)) of
{ok, File} ->
{ok, [], {ssl_certificate_file,File}};
{error, _} ->
{error, ?NICE(clean(SSLCertificateFile)++
" is an invalid SSLCertificateFile")}
end;
load("SSLLogLevel " ++ SSLLogAlert, []) ->
case SSLLogAlert of
"none" ->
{ok, [], {ssl_log_alert, false}};
_ ->
{ok, [], {ssl_log_alert, true}}
end;
load("SSLCertificateKeyFile " ++ SSLCertificateKeyFile, []) ->
case is_file(clean(SSLCertificateKeyFile)) of
{ok, File} ->
{ok, [], {ssl_certificate_key_file,File}};
{error, _} ->
{error, ?NICE(clean(SSLCertificateKeyFile)++
" is an invalid SSLCertificateKeyFile")}
end;
load("SSLVerifyClient " ++ SSLVerifyClient, []) ->
case make_integer(clean(SSLVerifyClient)) of
{ok, Integer} when (Integer >=0) andalso (Integer =< 2) ->
{ok, [], {ssl_verify_client,Integer}};
{ok, _Integer} ->
{error,?NICE(clean(SSLVerifyClient) ++
" is an invalid SSLVerifyClient")};
{error, nomatch} ->
{error,?NICE(clean(SSLVerifyClient) ++
" is an invalid SSLVerifyClient")}
end;
load("SSLVerifyDepth " ++ SSLVerifyDepth, []) ->
case make_integer(clean(SSLVerifyDepth)) of
{ok, Integer} when Integer > 0 ->
{ok, [], {ssl_verify_client_depth,Integer}};
{ok, _Integer} ->
{error,?NICE(clean(SSLVerifyDepth) ++
" is an invalid SSLVerifyDepth")};
{error, nomatch} ->
{error,?NICE(clean(SSLVerifyDepth) ++
" is an invalid SSLVerifyDepth")}
end;
load("SSLCiphers " ++ SSLCiphers, []) ->
{ok, [], {ssl_ciphers, clean(SSLCiphers)}};
load("SSLCACertificateFile " ++ SSLCACertificateFile, []) ->
case is_file(clean(SSLCACertificateFile)) of
{ok, File} ->
{ok, [], {ssl_ca_certificate_file,File}};
{error, _} ->
{error, ?NICE(clean(SSLCACertificateFile)++
" is an invalid SSLCACertificateFile")}
end;
load("SSLPasswordCallbackModule " ++ SSLPasswordCallbackModule, []) ->
{ok, [], {ssl_password_callback_module,
list_to_atom(clean(SSLPasswordCallbackModule))}};
load("SSLPasswordCallbackFunction " ++ SSLPasswordCallbackFunction, []) ->
{ok, [], {ssl_password_callback_function,
list_to_atom(clean(SSLPasswordCallbackFunction))}};
load("SSLPasswordCallbackArguments " ++ SSLPasswordCallbackArguments, []) ->
{ok, [], {ssl_password_callback_arguments,
SSLPasswordCallbackArguments}};
load("DisableChunkedTransferEncodingSend " ++ TrueOrFalse, []) ->
case list_to_atom(clean(TrueOrFalse)) of
true ->
{ok, [], {disable_chunked_transfer_encoding_send, true}};
_ ->
{ok, [], {disable_chunked_transfer_encoding_send, false}}
end;
load("LogFormat " ++ LogFormat, []) ->
{ok,[],{log_format, list_to_atom(httpd_conf:clean(LogFormat))}};
load("ErrorLogFormat " ++ LogFormat, []) ->
{ok,[],{error_log_format, list_to_atom(httpd_conf:clean(LogFormat))}}.
clean_address(Addr) ->
string:strip(string:strip(clean(Addr), left, $[), right, $]).
make_ipfamily(IpFamilyStr) ->
IpFamily = list_to_atom(IpFamilyStr),
case lists:member(IpFamily, [inet, inet6, inet6fb4]) of
true ->
IpFamily;
false ->
throw({error, {bad_ipfamily, IpFamilyStr}})
end.
%%
%% load_mime_types/1 -> {ok, MimeTypes} | {error, Reason}
%%
load_mime_types(MimeTypesFile) ->
case file:open(MimeTypesFile, [read]) of
{ok, Stream} ->
parse_mime_types(Stream, []);
{error, _} ->
{error, ?NICE("Can't open " ++ MimeTypesFile)}
end.
validate_properties(Properties) ->
%% First, check that all mandatory properties are present
case mandatory_properties(Properties) of
ok ->
%% Second, check that property dependency are ok
{ok, check_minimum_bytes_per_second(validate_properties2(Properties))};
Error ->
throw(Error)
end.
%% This function is used to validate inter-property dependencies.
%% That is, if property A depends on property B.
%% The only sunch preperty at this time is bind_address that depends
%% on ipfamily.
validate_properties2(Properties) ->
case proplists:get_value(bind_address, Properties) of
undefined ->
case proplists:get_value(sock_type, Properties, ip_comm) of
ip_comm ->
case proplists:get_value(ipfamily, Properties) of
undefined ->
[{bind_address, any},
{ipfamily, inet6fb4} | Properties];
_ ->
[{bind_address, any} | Properties]
end;
_ ->
[{bind_address, any} | Properties]
end;
any ->
Properties;
Address0 ->
IpFamily = proplists:get_value(ipfamily, Properties, inet6fb4),
case httpd_util:ip_address(Address0, IpFamily) of
{ok, Address} ->
Properties1 = proplists:delete(bind_address, Properties),
[{bind_address, Address} | Properties1];
{error, Reason} ->
Error = {error,
{failed_determine_ip_address,
Address0, IpFamily, Reason}},
throw(Error)
end
end.
check_minimum_bytes_per_second(Properties) ->
case proplists:get_value(minimum_bytes_per_second, Properties, false) of
false ->
Properties;
Nr ->
case is_integer(Nr) of
false ->
throw({error, {minimum_bytes_per_second, is_not_integer}});
_ ->
Properties
end
end.
mandatory_properties(ConfigList) ->
a_must(ConfigList, [server_name, port, server_root, document_root]).
a_must(_ConfigList, []) ->
ok;
a_must(ConfigList, [Prop | Rest]) ->
case proplists:get_value(Prop, ConfigList) of
undefined ->
{error, {missing_property, Prop}};
_ ->
a_must(ConfigList, Rest)
end.
validate_config_params([]) ->
ok;
validate_config_params([{max_header_size, Value} | Rest])
when is_integer(Value) andalso (Value > 0) ->
validate_config_params(Rest);
validate_config_params([{max_header_size, Value} | _]) ->
throw({max_header_size, Value});
validate_config_params([{max_body_size, Value} | Rest])
when is_integer(Value) andalso (Value > 0) ->
validate_config_params(Rest);
validate_config_params([{max_body_size, Value} | _]) ->
throw({max_body_size, Value});
validate_config_params([{server_name, Value} | Rest])
when is_list(Value) ->
validate_config_params(Rest);
validate_config_params([{server_name, Value} | _]) ->
throw({server_name, Value});
validate_config_params([{server_tokens, Value} | Rest])
when is_atom(Value) ->
case lists:member(Value, plain_server_tokens()) of
true ->
validate_config_params(Rest);
false ->
throw({server_tokens, Value})
end;
validate_config_params([{server_tokens, {private, Value}} | Rest])
when is_list(Value) ->
validate_config_params(Rest);
validate_config_params([{server_tokens, Value} | _]) ->
throw({server_tokens, Value});
validate_config_params([{socket_type, ip_comm} | Rest]) ->
validate_config_params(Rest);
validate_config_params([{socket_type, Value} | Rest])
when Value == ssl; Value == essl ->
validate_config_params(Rest);
validate_config_params([{socket_type, {Value, _}} | Rest])
when Value == essl orelse Value == ssl ->
validate_config_params(Rest);
validate_config_params([{socket_type, Value} | _]) ->
throw({socket_type, Value});
validate_config_params([{port, Value} | Rest])
when is_integer(Value) andalso (Value >= 0) ->
validate_config_params(Rest);
validate_config_params([{port, Value} | _]) ->
throw({port, Value});
validate_config_params([{bind_address, Value} | Rest]) ->
case is_bind_address(Value) of
true ->
validate_config_params(Rest);
false ->
throw({bind_address, Value})
end;
validate_config_params([{ipfamily, Value} | Rest])
when ((Value =:= inet) orelse
(Value =:= inet6) orelse
(Value =:= inet6fb4)) ->
validate_config_params(Rest);
validate_config_params([{ipfamily, Value} | _]) ->
throw({ipfamily, Value});
validate_config_params([{keep_alive, Value} | Rest])
when (Value =:= true) orelse (Value =:= false) ->
validate_config_params(Rest);
validate_config_params([{keep_alive, Value} | _]) ->
throw({keep_alive, Value});
validate_config_params([{max_keep_alive_request, Value} | Rest])
when is_integer(Value) andalso (Value > 0) ->
validate_config_params(Rest);
validate_config_params([{max_keep_alive_request, Value} | _]) ->
throw({max_header_size, Value});
validate_config_params([{keep_alive_timeout, Value} | Rest])
when is_integer(Value) andalso (Value >= 0) ->
validate_config_params(Rest);
validate_config_params([{keep_alive_timeout, Value} | _]) ->
throw({keep_alive_timeout, Value});
validate_config_params([{modules, Value} | Rest]) ->
ok = httpd_util:modules_validate(Value),
validate_config_params(Rest);
validate_config_params([{server_admin, Value} | Rest]) when is_list(Value) ->
validate_config_params(Rest);
validate_config_params([{server_admin, Value} | _]) ->
throw({server_admin, Value});
validate_config_params([{server_root, Value} | Rest]) ->
ok = httpd_util:dir_validate(server_root, Value),
validate_config_params(Rest);
validate_config_params([{mime_types, Value} | Rest]) ->
ok = httpd_util:mime_types_validate(Value),
validate_config_params(Rest);
validate_config_params([{max_clients, Value} | Rest])
when is_integer(Value) andalso (Value > 0) ->
validate_config_params(Rest);
validate_config_params([{max_clients, Value} | _]) ->
throw({max_clients, Value});
validate_config_params([{document_root, Value} | Rest]) ->
ok = httpd_util:dir_validate(document_root, Value),
validate_config_params(Rest);
validate_config_params([{default_type, Value} | Rest]) when is_list(Value) ->
validate_config_params(Rest);
validate_config_params([{default_type, Value} | _]) ->
throw({default_type, Value});
validate_config_params([{ssl_certificate_file = Key, Value} | Rest]) ->
ok = httpd_util:file_validate(Key, Value),
validate_config_params(Rest);
validate_config_params([{ssl_certificate_key_file = Key, Value} | Rest]) ->
ok = httpd_util:file_validate(Key, Value),
validate_config_params(Rest);
validate_config_params([{ssl_verify_client, Value} | Rest])
when (Value =:= 0) orelse (Value =:= 1) orelse (Value =:= 2) ->
validate_config_params(Rest);
validate_config_params([{ssl_verify_client_depth, Value} | Rest])
when is_integer(Value) andalso (Value >= 0) ->
validate_config_params(Rest);
validate_config_params([{ssl_verify_client_depth, Value} | _]) ->
throw({ssl_verify_client_depth, Value});
validate_config_params([{ssl_ciphers, Value} | Rest]) when is_list(Value) ->
validate_config_params(Rest);
validate_config_params([{ssl_ciphers, Value} | _]) ->
throw({ssl_ciphers, Value});
validate_config_params([{ssl_ca_certificate_file = Key, Value} | Rest]) ->
ok = httpd_util:file_validate(Key, Value),
validate_config_params(Rest);
validate_config_params([{ssl_password_callback_module, Value} | Rest])
when is_atom(Value) ->
validate_config_params(Rest);
validate_config_params([{ssl_password_callback_module, Value} | _]) ->
throw({ssl_password_callback_module, Value});
validate_config_params([{ssl_password_callback_function, Value} | Rest])
when is_atom(Value) ->
validate_config_params(Rest);
validate_config_params([{ssl_password_callback_function, Value} | _]) ->
throw({ssl_password_callback_function, Value});
validate_config_params([{ssl_password_callback_arguments, Value} | Rest])
when is_list(Value) ->
validate_config_params(Rest);
validate_config_params([{ssl_password_callback_arguments, Value} | _]) ->
throw({ssl_password_callback_arguments, Value});
validate_config_params([{disable_chunked_transfer_encoding_send, Value} |
Rest])
when (Value =:= true) orelse (Value =:= false) ->
validate_config_params(Rest);
validate_config_params([{disable_chunked_transfer_encoding_send, Value} |
_ ]) ->
throw({disable_chunked_transfer_encoding_send, Value});
validate_config_params([_| Rest]) ->
validate_config_params(Rest).
%% It is actually pointless to check bind_address in this way since
%% we need ipfamily to do it properly...
is_bind_address(any) ->
true;
is_bind_address(Value) ->
case httpd_util:ip_address(Value, inet6fb4) of
{ok, _} ->
true;
_ ->
false
end.
store(ConfigList0) ->
?hdrd("store", []),
try validate_config_params(ConfigList0) of
ok ->
Modules =
proplists:get_value(modules, ConfigList0, ?DEFAULT_MODS),
?hdrt("store", [{modules, Modules}]),
Port = proplists:get_value(port, ConfigList0),
Addr = proplists:get_value(bind_address, ConfigList0, any),
ConfigList = fix_mime_types(ConfigList0),
Name = httpd_util:make_name("httpd_conf", Addr, Port),
ConfigDB = ets:new(Name, [named_table, bag, protected]),
store(ConfigDB, ConfigList,
lists:append(Modules, [?MODULE]),
ConfigList)
catch
throw:Error ->
?hdri("store - config parameter validation failed",
[{error, Error}]),
{error, {invalid_option, Error}}
end.
fix_mime_types(ConfigList0) ->
case proplists:get_value(mime_types, ConfigList0) of
undefined ->
ServerRoot = proplists:get_value(server_root, ConfigList0),
MimeTypesFile =
filename:join([ServerRoot,"conf", "mime.types"]),
case filelib:is_file(MimeTypesFile) of
true ->
{ok, MimeTypesList} = load_mime_types(MimeTypesFile),
[{mime_types, MimeTypesList} | ConfigList0];
false ->
[{mime_types,
[{"html","text/html"},{"htm","text/html"}]}
| ConfigList0]
end;
_ ->
ConfigList0
end.
store({mime_types,MimeTypesList},ConfigList) ->
Port = proplists:get_value(port, ConfigList),
Addr = proplists:get_value(bind_address, ConfigList),
Name = httpd_util:make_name("httpd_mime",Addr,Port),
{ok, MimeTypesDB} = store_mime_types(Name,MimeTypesList),
{ok, {mime_types,MimeTypesDB}};
store({log_format, LogFormat}, _ConfigList)
when (LogFormat =:= common) orelse (LogFormat =:= combined) ->
{ok,{log_format, LogFormat}};
store({log_format, LogFormat}, _ConfigList)
when (LogFormat =:= compact) orelse (LogFormat =:= pretty) ->
{ok, {log_format, LogFormat}};
store({server_tokens, ServerTokens} = Entry, _ConfigList) ->
Server = server(ServerTokens),
{ok, [Entry, {server, Server}]};
store({keep_alive_timeout, KeepAliveTimeout}, _ConfigList) ->
{ok, {keep_alive_timeout, KeepAliveTimeout * 1000}};
store(ConfigListEntry, _ConfigList) ->
{ok, ConfigListEntry}.
%% The SERVER_SOFTWARE macro has the following structure:
%% <product>/<version>
%% Example: "inets/1.2.3"
%% So, with this example (on a linux machine, with OTP R15B),
%% this will result in:
%% prod: "inets"
%% major: "inets/1"
%% minor: "inets/1.2"
%% minimal: "inets/1.2.3"
%% os: "inets/1.2.3 (unix)
%% full: "inets/1.2.3 (unix/linux) OTP/R15B"
%% Note that the format of SERVER_SOFTWARE is that of 'minimal'.
%% Also, there will always be atleast two digits in a version:
%% Not just 1 but 1.0
%%
%% We have already checked that the value is valid,
%% so there is no need to check enything here.
%%
server(prod = _ServerTokens) ->
[Prod|_Version] = string:tokens(?SERVER_SOFTWARE, [$/]),
Prod;
server(major = _ServerTokens) ->
[Prod|Version] = string:tokens(?SERVER_SOFTWARE, [$/]),
[Major|_] = string:tokens(Version, [$.]),
Prod ++ "/" ++ Major;
server(minor = _ServerTokens) ->
[Prod|Version] = string:tokens(?SERVER_SOFTWARE, [$/]),
[Major,Minor|_] = string:tokens(Version, [$.]),
Prod ++ "/" ++ Major ++ "." ++ Minor;
server(minimal = _ServerTokens) ->
%% This is the default
?SERVER_SOFTWARE;
server(os = _ServerTokens) ->
OS = os_info(partial),
lists:flatten(io_lib:format("~s ~s", [?SERVER_SOFTWARE, OS]));
server(full = _ServerTokens) ->
OTPRelease = otp_release(),
OS = os_info(full),
lists:flatten(
io_lib:format("~s ~s OTP/~s", [?SERVER_SOFTWARE, OS, OTPRelease]));
server({private, Server} = _ServerTokens) when is_list(Server) ->
%% The user provide its own
Server;
server(_) ->
?SERVER_SOFTWARE.
os_info(Info) ->
case os:type() of
{OsFamily, _OsName} when Info =:= partial ->
lists:flatten(io_lib:format("(~w)", [OsFamily]));
{OsFamily, OsName} ->
lists:flatten(io_lib:format("(~w/~w)", [OsFamily, OsName]))
end.
otp_release() ->
erlang:system_info(otp_release).
%% Phase 3: Remove
remove_all(ConfigDB) ->
Modules = httpd_util:lookup(ConfigDB,modules,[]),
remove_traverse(ConfigDB, lists:append(Modules,[?MODULE])).
remove(ConfigDB) ->
ets:delete(ConfigDB),
ok.
%% config(ConfigDB) ->
%% case httpd_util:lookup(ConfigDB, socket_type, ip_comm) of
%% ssl ->
%% case ssl_certificate_file(ConfigDB) of
%% undefined ->
%% {error,
%% "Directive SSLCertificateFile "
%% "not found in the config file"};
%% SSLCertificateFile ->
%% {ssl,
%% SSLCertificateFile++
%% ssl_certificate_key_file(ConfigDB)++
%% ssl_verify_client(ConfigDB)++
%% ssl_ciphers(ConfigDB)++
%% ssl_password(ConfigDB)++
%% ssl_verify_depth(ConfigDB)++
%% ssl_ca_certificate_file(ConfigDB)}
%% end;
%% ip_comm ->
%% ip_comm
%% end.
get_config(Address, Port) ->
Tab = httpd_util:make_name("httpd_conf", Address, Port),
Properties = ets:tab2list(Tab),
MimeTab = proplists:get_value(mime_types, Properties),
NewProperties = proplists:delete(mime_types, Properties),
[{mime_types, ets:tab2list(MimeTab)} | NewProperties].
get_config(Address, Port, Properties) ->
Tab = httpd_util:make_name("httpd_conf", Address, Port),
Config =
lists:map(fun(Prop) -> {Prop, httpd_util:lookup(Tab, Prop)} end,
Properties),
[{Proporty, Value} || {Proporty, Value} <- Config, Value =/= undefined].
lookup(Tab, Key) ->
httpd_util:lookup(Tab, Key).
lookup(Tab, Key, Default) when is_atom(Key) ->
httpd_util:lookup(Tab, Key, Default);
lookup(Address, Port, Key) when is_integer(Port) ->
Tab = table(Address, Port),
lookup(Tab, Key).
lookup(Address, Port, Key, Default) when is_integer(Port) ->
Tab = table(Address, Port),
lookup(Tab, Key, Default).
table(Address, Port) ->
httpd_util:make_name("httpd_conf", Address, Port).
lookup_socket_type(ConfigDB) ->
case httpd_util:lookup(ConfigDB, socket_type, ip_comm) of
ip_comm ->
ip_comm;
{Tag, Conf} ->
{Tag, Conf};
SSL when (SSL =:= ssl) orelse (SSL =:= essl) ->
SSLTag =
if
(SSL =:= ssl) ->
?HTTP_DEFAULT_SSL_KIND;
true ->
SSL
end,
case ssl_certificate_file(ConfigDB) of
undefined ->
Reason = "Directive SSLCertificateFile "
"not found in the config file",
throw({error, Reason});
SSLCertificateFile ->
{SSLTag, SSLCertificateFile ++ ssl_config(ConfigDB)}
end
end.
ssl_config(ConfigDB) ->
ssl_certificate_key_file(ConfigDB) ++
ssl_verify_client(ConfigDB) ++
ssl_ciphers(ConfigDB) ++
ssl_password(ConfigDB) ++
ssl_verify_depth(ConfigDB) ++
ssl_ca_certificate_file(ConfigDB) ++
ssl_log_level(ConfigDB).
%%%========================================================================
%%% Internal functions
%%%========================================================================
%%% Phase 1 Load:
bootstrap([]) ->
{ok, ?DEFAULT_MODS};
bootstrap([Line|Config]) ->
case Line of
"Modules " ++ Modules ->
{ok, ModuleList} = inets_regexp:split(Modules," "),
TheMods = [list_to_atom(X) || X <- ModuleList],
case verify_modules(TheMods) of
ok ->
{ok, TheMods};
{error, Reason} ->
{error, Reason}
end;
_ ->
bootstrap(Config)
end.
load_config(Config, Modules) ->
%% Create default contexts for all modules
Contexts = lists:duplicate(length(Modules), []),
load_config(Config, Modules, Contexts, []).
load_config([], _Modules, _Contexts, ConfigList) ->
?hdrv("config loaded", []),
{ok, ConfigList};
load_config([Line|Config], Modules, Contexts, ConfigList) ->
?hdrt("load config", [{config_line, Line}]),
case load_traverse(Line, Contexts, Modules, [], ConfigList, no) of
{ok, NewContexts, NewConfigList} ->
load_config(Config, Modules, NewContexts, NewConfigList);
{error, Reason} ->
{error, Reason}
end.
%% This loads the config file into each module specified by Modules
%% Each module has its own context that is passed to and (optionally)
%% returned by the modules load function. The module can also return
%% a ConfigEntry, which will be added to the global configuration
%% list.
%% All configuration directives are guaranteed to be passed to all
%% modules. Each module only implements the function clauses of
%% the load function for the configuration directives it supports,
%% it's ok if an apply returns {'EXIT', {function_clause, ..}}.
load_traverse(Line, [], [], _NewContexts, _ConfigList, no) ->
{error, ?NICE("Configuration directive not recognized: "++Line)};
load_traverse(_Line, [], [], NewContexts, ConfigList, yes) ->
{ok, lists:reverse(NewContexts), ConfigList};
load_traverse(Line, [Context|Contexts], [Module|Modules], NewContexts,
ConfigList, State) ->
?hdrt("load config traverse",
[{context, Context}, {httpd_module, Module}, {state, State}]),
case catch apply(Module, load, [Line, Context]) of
{'EXIT', {function_clause, _FC}} ->
?hdrt("does not handle load config",
[{config_line, Line}, {fc, _FC}]),
load_traverse(Line, Contexts, Modules,
[Context|NewContexts], ConfigList, State);
{'EXIT', {undef, _}} ->
?hdrt("does not implement load", []),
load_traverse(Line, Contexts, Modules,
[Context|NewContexts], ConfigList, yes);
{'EXIT', Reason} ->
error_logger:error_report({'EXIT', Reason}),
load_traverse(Line, Contexts, Modules,
[Context|NewContexts], ConfigList, State);
ok ->
?hdrt("line processed", []),
load_traverse(Line, Contexts, Modules,
[Context|NewContexts], ConfigList, yes);
{ok, NewContext} ->
?hdrt("line processed", [{new_context, NewContext}]),
load_traverse(Line, Contexts, Modules,
[NewContext|NewContexts], ConfigList, yes);
{ok, NewContext, ConfigEntry} when is_tuple(ConfigEntry) ->
?hdrt("line processed",
[{new_context, NewContext}, {config_entry, ConfigEntry}]),
load_traverse(Line, Contexts,
Modules, [NewContext|NewContexts],
[ConfigEntry|ConfigList], yes);
{ok, NewContext, ConfigEntry} when is_list(ConfigEntry) ->
?hdrt("line processed",
[{new_context, NewContext}, {config_entry, ConfigEntry}]),
load_traverse(Line, Contexts, Modules, [NewContext|NewContexts],
lists:append(ConfigEntry, ConfigList), yes);
{error, Reason} ->
?hdrv("line processing failed", [{reason, Reason}]),
{error, Reason}
end.
%% Verifies that all specified modules are available.
verify_modules([]) ->
ok;
verify_modules([Mod|Rest]) ->
case code:which(Mod) of
non_existing ->
{error, ?NICE(atom_to_list(Mod)++" does not exist")};
_Path ->
verify_modules(Rest)
end.
%% Reads the entire configuration file and returns list of strings or
%% and error.
read_config_file(FileName) ->
case file:open(FileName, [read]) of
{ok, Stream} ->
read_config_file(Stream, []);
{error, _Reason} ->
{error, ?NICE("Cannot open "++FileName)}
end.
read_config_file(Stream, SoFar) ->
case io:get_line(Stream, []) of
eof ->
file:close(Stream),
{ok, lists:reverse(SoFar)};
{error, Reason} ->
file:close(Stream),
{error, Reason};
[$#|_Rest] ->
%% Ignore commented lines for efficiency later ..
read_config_file(Stream, SoFar);
Line ->
{ok, NewLine, _}=inets_regexp:sub(clean(Line),"[\t\r\f ]"," "),
case NewLine of
[] ->
%% Also ignore empty lines ..
read_config_file(Stream, SoFar);
_Other ->
read_config_file(Stream, [NewLine|SoFar])
end
end.
parse_mime_types(Stream,MimeTypesList) ->
Line=
case io:get_line(Stream,'') of
eof ->
eof;
String ->
clean(String)
end,
parse_mime_types(Stream, MimeTypesList, Line).
parse_mime_types(Stream, MimeTypesList, eof) ->
file:close(Stream),
{ok, MimeTypesList};
parse_mime_types(Stream, MimeTypesList, "") ->
parse_mime_types(Stream, MimeTypesList);
parse_mime_types(Stream, MimeTypesList, [$#|_]) ->
parse_mime_types(Stream, MimeTypesList);
parse_mime_types(Stream, MimeTypesList, Line) ->
case inets_regexp:split(Line, " ") of
{ok, [NewMimeType|Suffixes]} ->
parse_mime_types(Stream,
lists:append(suffixes(NewMimeType,Suffixes),
MimeTypesList));
{ok, _} ->
{error, ?NICE(Line)}
end.
suffixes(_MimeType,[]) ->
[];
suffixes(MimeType,[Suffix|Rest]) ->
[{Suffix,MimeType}|suffixes(MimeType,Rest)].
%% Phase 2: store
store(ConfigDB, _ConfigList, _Modules, []) ->
{ok, ConfigDB};
store(ConfigDB, ConfigList, Modules, [ConfigListEntry|Rest]) ->
?hdrt("store", [{entry, ConfigListEntry}]),
case store_traverse(ConfigListEntry, ConfigList, Modules) of
{ok, ConfigDBEntry} when is_tuple(ConfigDBEntry) ->
ets:insert(ConfigDB, ConfigDBEntry),
store(ConfigDB, ConfigList, Modules, Rest);
{ok, ConfigDBEntry} when is_list(ConfigDBEntry) ->
lists:foreach(fun(Entry) ->
ets:insert(ConfigDB,Entry)
end,ConfigDBEntry),
store(ConfigDB, ConfigList, Modules, Rest);
{error, Reason} ->
{error,Reason}
end.
store_traverse(_ConfigListEntry, _ConfigList,[]) ->
{error, ?NICE("Unable to store configuration...")};
store_traverse(ConfigListEntry, ConfigList, [Module|Rest]) ->
?hdrt("store traverse",
[{httpd_module, Module}, {entry, ConfigListEntry}]),
case catch apply(Module, store, [ConfigListEntry, ConfigList]) of
{'EXIT',{function_clause,_}} ->
?hdrt("does not handle store config", []),
store_traverse(ConfigListEntry,ConfigList,Rest);
{'EXIT',{undef, _}} ->
?hdrt("does not implement store", []),
store_traverse(ConfigListEntry,ConfigList,Rest);
{'EXIT', Reason} ->
error_logger:error_report({'EXIT',Reason}),
store_traverse(ConfigListEntry,ConfigList,Rest);
Result ->
?hdrt("config entry processed", [{result, Result}]),
Result
end.
store_mime_types(Name,MimeTypesList) ->
%% Make sure that the ets table is not duplicated
%% when reloading configuration
catch ets:delete(Name),
MimeTypesDB = ets:new(Name, [named_table, set, protected]),
store_mime_types1(MimeTypesDB, MimeTypesList).
store_mime_types1(MimeTypesDB,[]) ->
{ok, MimeTypesDB};
store_mime_types1(MimeTypesDB,[Type|Rest]) ->
ets:insert(MimeTypesDB, Type),
store_mime_types1(MimeTypesDB, Rest).
%% Phase 3: remove
remove_traverse(_ConfigDB,[]) ->
ok;
remove_traverse(ConfigDB,[Module|Rest]) ->
case (catch apply(Module,remove,[ConfigDB])) of
{'EXIT',{undef,_}} ->
remove_traverse(ConfigDB,Rest);
{'EXIT',{function_clause,_}} ->
remove_traverse(ConfigDB,Rest);
{'EXIT',Reason} ->
error_logger:error_report({'EXIT',Reason}),
remove_traverse(ConfigDB,Rest);
{error,Reason} ->
error_logger:error_report(Reason),
remove_traverse(ConfigDB,Rest);
_ ->
remove_traverse(ConfigDB,Rest)
end.
ssl_certificate_file(ConfigDB) ->
case httpd_util:lookup(ConfigDB,ssl_certificate_file) of
undefined ->
undefined;
SSLCertificateFile ->
[{certfile,SSLCertificateFile}]
end.
ssl_certificate_key_file(ConfigDB) ->
case httpd_util:lookup(ConfigDB,ssl_certificate_key_file) of
undefined ->
[];
SSLCertificateKeyFile ->
[{keyfile,SSLCertificateKeyFile}]
end.
ssl_log_level(ConfigDB) ->
case httpd_util:lookup(ConfigDB,ssl_log_alert) of
undefined ->
[];
SSLLogLevel ->
[{log_alert,SSLLogLevel}]
end.
ssl_verify_client(ConfigDB) ->
case httpd_util:lookup(ConfigDB,ssl_verify_client) of
undefined ->
[];
SSLVerifyClient ->
[{verify,SSLVerifyClient}]
end.
ssl_ciphers(ConfigDB) ->
case httpd_util:lookup(ConfigDB,ssl_ciphers) of
undefined ->
[];
Ciphers ->
[{ciphers, Ciphers}]
end.
ssl_password(ConfigDB) ->
case httpd_util:lookup(ConfigDB,ssl_password_callback_module) of
undefined ->
[];
Module ->
case httpd_util:lookup(ConfigDB,
ssl_password_callback_function) of
undefined ->
[];
Function ->
Args = case httpd_util:lookup(ConfigDB,
ssl_password_callback_arguments) of
undefined ->
[];
Arguments ->
[Arguments]
end,
case catch apply(Module, Function, Args) of
Password when is_list(Password) ->
[{password, Password}];
Error ->
error_report(ssl_password,Module,Function,Error),
[]
end
end
end.
ssl_verify_depth(ConfigDB) ->
case httpd_util:lookup(ConfigDB, ssl_verify_client_depth) of
undefined ->
[];
Depth ->
[{depth, Depth}]
end.
ssl_ca_certificate_file(ConfigDB) ->
case httpd_util:lookup(ConfigDB, ssl_ca_certificate_file) of
undefined ->
[];
File ->
[{cacertfile, File}]
end.
plain_server_tokens() ->
[prod, major, minor, minimum, os, full].
error_report(Where,M,F,Error) ->
error_logger:error_report([{?MODULE, Where},
{apply, {M, F, []}}, Error]).