Why Gemfury?
Push, build, and install
RubyGems
npm packages
Python packages
Maven artifacts
PHP packages
Go Modules
Debian packages
RPM packages
NuGet packages
Repository URL to install this package:
|
Version:
3.2.0 ▾
|
{* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*}
(**
* @file http_config.h
* @brief Apache Configuration
*
* @defgroup APACHE_CORE_CONFIG Configuration
* @ingroup APACHE_CORE
* @{
*)
{$ifndef APACHE_HTTP_CONFIG_H}
{$define APACHE_HTTP_CONFIG_H}
//#include "util_cfgtree.h"
//#include "ap_config.h"
//#include "apr_tables.h"
{*
* The central data structures around here...
*}
{* Command dispatch structures... *}
{fpc -> moved const sections up here}
(**
* @defgroup ConfigDirectives Allowed locations for configuration directives.
*
* The allowed locations for a configuration directive are the union of
* those indicated by each set bit in the req_override mask.
*
* @{
*)
const
OR_NONE = 0; {**< *.conf is not available anywhere in this override *}
OR_LIMIT = 1; {**< *.conf inside <Directory> or <Location>
and .htaccess when AllowOverride Limit *}
OR_OPTIONS = 2; {**< *.conf anywhere
and .htaccess when AllowOverride Options *}
OR_FILEINFO = 4; {**< *.conf anywhere
and .htaccess when AllowOverride FileInfo *}
OR_AUTHCFG = 8; {**< *.conf inside <Directory> or <Location>
and .htaccess when AllowOverride AuthConfig *}
OR_INDEXES = 16; {**< *.conf anywhere
and .htaccess when AllowOverride Indexes *}
OR_UNSET = 32; {**< bit to indicate that AllowOverride has not been set *}
ACCESS_CONF = 64; {**< *.conf inside <Directory> or <Location> *}
RSRC_CONF = 128; {**< *.conf outside <Directory> or <Location> *}
EXEC_ON_READ = 256; {**< force directive to execute a command
which would modify the configuration (like including another
file, or IFModule *}
{* Flags to determine whether syntax errors in .htaccess should be
* treated as nonfatal (log and ignore errors)
*}
NONFATAL_OVERRIDE = 512; {* Violation of AllowOverride rule *}
NONFATAL_UNKNOWN = 1024;{* Unrecognised directive *}
NONFATAL_ALL = (NONFATAL_OVERRIDE or NONFATAL_UNKNOWN);
{** this directive can be placed anywhere *}
OR_ALL = (OR_LIMIT or OR_OPTIONS or OR_FILEINFO or OR_AUTHCFG or OR_INDEXES);
(** @} *)
{**
* This can be returned by a function if they don't wish to handle
* a command. Make it something not likely someone will actually use
* as an error code.
*}
DECLINE_CMD = '\a\b';
{**
* How the directives arguments should be parsed.
* @remark Note that for all of these except RAW_ARGS, the config routine is
* passed a freshly allocated string which can be modified or stored
* or whatever...
*}
type
cmd_how = (
RAW_ARGS, {**< cmd_func parses command line itself *}
TAKE1, {**< one argument only *}
TAKE2, {**< two arguments only *}
ITERATE, {**< one argument, occuring multiple times
* (e.g., IndexIgnore)
*}
ITERATE2, {**< two arguments, 2nd occurs multiple times
* (e.g., AddIcon)
*}
FLAG, {**< One of 'On' or 'Off' *}
NO_ARGS, {**< No args at all, e.g. </Directory> *}
TAKE12, {**< one or two arguments *}
TAKE3, {**< three arguments only *}
TAKE23, {**< two or three arguments *}
TAKE123, {**< one, two or three arguments *}
TAKE13, {**< one or three arguments *}
TAKE_ARGV {**< an argc and argv are passed *}
);
{**
* This structure is passed to a command which is being invoked,
* to carry a large variety of miscellaneous data which is all of
* use to *somebody*...
*}
// typedef struct cmd_parms_struct cmd_parms;
Pcmd_parms = ^cmd_parms_struct;
//#if defined(AP_HAVE_DESIGNATED_INITIALIZER) || defined(DOXYGEN)
tnoargsfunc = function(parms: Pcmd_parms; mconfig: pointer): Pchar; cdecl;
trawargsfunc = function(parms: Pcmd_parms; mconfig: pointer; args: Pchar): Pchar; cdecl;
ttakeargvfunc = function(parms: Pcmd_parms; mconfig: pointer; argc: longint; argv: PPchar): Pchar; cdecl;
ttake1func = function(parms: Pcmd_parms; mconfig: pointer; w: Pchar): Pchar; cdecl;
ttake2func = function(parms: Pcmd_parms; mconfig: pointer; w, w2: Pchar): Pchar; cdecl;
ttake3func = function(parms: Pcmd_parms; mconfig: pointer; w, w2, w3: Pchar): Pchar; cdecl;
tflagfunc = function(parms: Pcmd_parms; mconfig: pointer; on_: longint): Pchar; cdecl;
{**
* All the types of functions that can be used in directives
* @internal
*}
cmd_func = record
case longint of
{** function to call for a no-args *}
0 : ( no_args : tnoargsfunc);
{** function to call for a raw-args *}
1 : ( raw_args : trawargsfunc);
{** function to call for a argv/argc *}
2 : ( take_argv : ttakeargvfunc);
{** function to call for a take1 *}
3 : ( take1 : ttake1func);
{** function to call for a take2 *}
4 : ( take2 : ttake2func);
{** function to call for a take3 *}
5 : ( take3 : ttake3func);
{** function to call for a flag *}
6 : ( flag : tflagfunc);
end;
Pcmd_func = ^cmd_func;
(*
/** This configuration directive does not take any arguments */
# define AP_NO_ARGS func.no_args
/** This configuration directive will handle its own parsing of arguments*/
# define AP_RAW_ARGS func.raw_args
/** This configuration directive will handle its own parsing of arguments*/
# define AP_TAKE_ARGV func.take_argv
/** This configuration directive takes 1 argument*/
# define AP_TAKE1 func.take1
/** This configuration directive takes 2 arguments */
# define AP_TAKE2 func.take2
/** This configuration directive takes 3 arguments */
# define AP_TAKE3 func.take3
/** This configuration directive takes a flag (on/off) as a argument*/
# define AP_FLAG func.flag
/** mechanism for declaring a directive with no arguments */
# define AP_INIT_NO_ARGS(directive, func, mconfig, where, help) \
{ directive, { .no_args=func }, mconfig, where, RAW_ARGS, help }
/** mechanism for declaring a directive with raw argument parsing */
# define AP_INIT_RAW_ARGS(directive, func, mconfig, where, help) \
{ directive, { .raw_args=func }, mconfig, where, RAW_ARGS, help }
/** mechanism for declaring a directive with raw argument parsing */
# define AP_INIT_TAKE_ARGV(directive, func, mconfig, where, help) \
{ directive, { .take_argv=func }, mconfig, where, TAKE_ARGV, help }
/** mechanism for declaring a directive which takes 1 argument */
# define AP_INIT_TAKE1(directive, func, mconfig, where, help) \
{ directive, { .take1=func }, mconfig, where, TAKE1, help }
/** mechanism for declaring a directive which takes multiple arguments */
# define AP_INIT_ITERATE(directive, func, mconfig, where, help) \
{ directive, { .take1=func }, mconfig, where, ITERATE, help }
/** mechanism for declaring a directive which takes 2 arguments */
# define AP_INIT_TAKE2(directive, func, mconfig, where, help) \
{ directive, { .take2=func }, mconfig, where, TAKE2, help }
/** mechanism for declaring a directive which takes 1 or 2 arguments */
# define AP_INIT_TAKE12(directive, func, mconfig, where, help) \
{ directive, { .take2=func }, mconfig, where, TAKE12, help }
/** mechanism for declaring a directive which takes multiple 2 arguments */
# define AP_INIT_ITERATE2(directive, func, mconfig, where, help) \
{ directive, { .take2=func }, mconfig, where, ITERATE2, help }
/** mechanism for declaring a directive which takes 1 or 3 arguments */
# define AP_INIT_TAKE13(directive, func, mconfig, where, help) \
{ directive, { .take3=func }, mconfig, where, TAKE13, help }
/** mechanism for declaring a directive which takes 2 or 3 arguments */
# define AP_INIT_TAKE23(directive, func, mconfig, where, help) \
{ directive, { .take3=func }, mconfig, where, TAKE23, help }
/** mechanism for declaring a directive which takes 1 to 3 arguments */
# define AP_INIT_TAKE123(directive, func, mconfig, where, help) \
{ directive, { .take3=func }, mconfig, where, TAKE123, help }
/** mechanism for declaring a directive which takes 3 arguments */
# define AP_INIT_TAKE3(directive, func, mconfig, where, help) \
{ directive, { .take3=func }, mconfig, where, TAKE3, help }
/** mechanism for declaring a directive which takes a flag (on/off) argument */
# define AP_INIT_FLAG(directive, func, mconfig, where, help) \
{ directive, { .flag=func }, mconfig, where, FLAG, help }
#else /* AP_HAVE_DESIGNATED_INITIALIZER */
typedef const char *( *cmd_func) ();
# define AP_NO_ARGS func
# define AP_RAW_ARGS func
# define AP_TAKE_ARGV func
# define AP_TAKE1 func
# define AP_TAKE2 func
# define AP_TAKE3 func
# define AP_FLAG func
# define AP_INIT_NO_ARGS(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, RAW_ARGS, help }
# define AP_INIT_RAW_ARGS(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, RAW_ARGS, help }
# define AP_INIT_TAKE_ARGV(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE_ARGV, help }
# define AP_INIT_TAKE1(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE1, help }
# define AP_INIT_ITERATE(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, ITERATE, help }
# define AP_INIT_TAKE2(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE2, help }
# define AP_INIT_TAKE12(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE12, help }
# define AP_INIT_ITERATE2(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, ITERATE2, help }
# define AP_INIT_TAKE13(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE13, help }
# define AP_INIT_TAKE23(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE23, help }
# define AP_INIT_TAKE123(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE123, help }
# define AP_INIT_TAKE3(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, TAKE3, help }
# define AP_INIT_FLAG(directive, func, mconfig, where, help) \
{ directive, func, mconfig, where, FLAG, help }
#endif /* AP_HAVE_DESIGNATED_INITIALIZER */
*)
{**
* The command record structure. Each modules can define a table of these
* to define the directives it will implement.
*}
command_struct = record
{** Name of this command *}
name: PChar;
{** The function to be called when this directive is parsed *}
func: cmd_func;
{** Extra data, for functions which implement multiple commands... *}
cmd_data: Pointer;
{** What overrides need to be allowed to enable this command. *}
req_override: Integer;
{** What the command expects as arguments *}
args_how: cmd_how;
{** 'usage' message, in case of syntax errors *}
errmsg: PChar;
end;
command_rec = command_struct;
Pcommand_rec = ^command_rec;
{** Common structure for reading of config files / passwd files etc. *}
Pap_configfile_t = ^ap_configfile_t;
PPap_configfile_t = ^Pap_configfile_t;
ap_configfile_t = record
{**< an apr_file_getc()-like function *}
getch : function (ch:Pchar; param:pointer):apr_status_t;cdecl;
{**< an apr_file_gets()-like function *}
getstr : function (buf:pointer; bufsiz:apr_size_t; param:pointer):apr_status_t;cdecl;
{**< a close handler function *}
close : function (param:pointer):apr_status_t;cdecl;
{**< the argument passed to getch/getstr/close *}
param : pointer;
{**< the filename / description *}
name : Pchar;
{**< current line number, starting at 1 *}
line_number : dword;
end;
{**
* This structure is passed to a command which is being invoked,
* to carry a large variety of miscellaneous data which is all of
* use to *somebody*...
*}
cmd_parms_struct = record
{** Argument to command from cmd_table *}
info : pointer;
{** Which allow-override bits are set *}
override_ : longint;
{** Which allow-override-opts bits are set *}
override_opts : longint;
{** Table of directives allowed per AllowOverrideList *}
override_list : Papr_table_t;
{** Which methods are <Limit>ed *}
limited : apr_int64_t;
{** methods which are limited *}
limited_xmethods : Papr_array_header_t;
{** methods which are xlimited *}
xlimited : Pap_method_list_t;
{** Config file structure. *}
config_file : Pap_configfile_t;
{** the directive specifying this command *}
directive : Pap_directive_t;
{** Pool to allocate new storage in *}
pool : Papr_pool_t;
{** Pool for scratch memory; persists during configuration, but
* wiped before the first request is served... *}
temp_pool : Papr_pool_t;
{** Server_rec being configured for *}
server : Pserver_rec;
{** If configuring for a directory, pathname of that directory.
* NOPE! That's what it meant previous to the existence of <Files>,
* <Location> and regex matching. Now the only usefulness that can be
* derived from this field is whether a command is being called in a
* server context (path == NULL) or being called in a dir context
* (path != NULL). *}
path : Pchar;
{** configuration command *}
cmd : Pcommand_rec;
{** per_dir_config vector passed to handle_command *}
context : Pap_conf_vector_t;
{** directive with syntax error *}
err_directive : Pap_directive_t;
end;
{**
* Module structures. Just about everything is dispatched through
* these, directly or indirectly (through the command and handler
* tables).
*}
Pmodule_struct = ^module_struct;
module_struct = record
{** API version, *not* module version; check that module is
* compatible with this version of the server.
*}
version : longint;
{** API minor version. Provides API feature milestones. Not checked
* during module init *}
minor_version : longint;
{** Index to this modules structures in config vectors. *}
module_index : longint;
{** The name of the module's C file *}
name : Pchar;
{** The handle for the DSO. Internal use only *}
dynamic_load_handle : pointer;
{** A pointer to the next module in the list
* @var module_struct *next
*}
next : Pmodule_struct;
{** Magic Cookie to identify a module structure; It's mainly
* important for the DSO facility (see also mod_so). *}
magic : dword;
{** Function to allow MPMs to re-write command line arguments. This
* hook is only available to MPMs.
* @param The process that the server is running in.
*}
rewrite_args : procedure (process:Pprocess_rec);cdecl;
{** Function to allow all modules to create per directory configuration
* structures.
* @param p The pool to use for all allocations.
* @param dir The directory currently being processed.
* @return The per-directory structure created
*}
create_dir_config : function (p:Papr_pool_t; dir:Pchar):pointer;cdecl;
{** Function to allow all modules to merge the per directory configuration
* structures for two directories.
* @param p The pool to use for all allocations.
* @param base_conf The directory structure created for the parent directory.
* @param new_conf The directory structure currently being processed.
* @return The new per-directory structure created
*}
merge_dir_config : function (p:Papr_pool_t; base_conf:pointer; new_conf:pointer):pointer;cdecl;
{** Function to allow all modules to create per server configuration
* structures.
* @param p The pool to use for all allocations.
* @param s The server currently being processed.
* @return The per-server structure created
*}
create_server_config : function (p:Papr_pool_t; s:Pserver_rec):pointer;cdecl;
{** Function to allow all modules to merge the per server configuration
* structures for two servers.
* @param p The pool to use for all allocations.
* @param base_conf The directory structure created for the parent directory.
* @param new_conf The directory structure currently being processed.
* @return The new per-directory structure created
*}
merge_server_config : function (p:Papr_pool_t; base_conf:pointer; new_conf:pointer):pointer;cdecl;
{** A command_rec table that describes all of the directives this module
* defines. *}
cmds : Pcommand_rec;
{** A hook to allow modules to hook other points in the request processing.
* In this function, modules should call the ap_hook_*() functions to
* register an interest in a specific step in processing the current
* request.
* @param p the pool to use for all allocations
*}
register_hooks : procedure (p:Papr_pool_t);cdecl;
end;
module = module_struct;
Pmodule = ^module;
PPmodule = ^Pmodule;
{**
* The APLOG_USE_MODULE macro is used choose which module a file belongs to.
* This is necessary to allow per-module loglevel configuration.
*
* APLOG_USE_MODULE indirectly sets APLOG_MODULE_INDEX and APLOG_MARK.
*
* If a module should be backward compatible with versions before 2.3.6,
* APLOG_USE_MODULE needs to be enclosed in a ifdef APLOG_USE_MODULE block.
*
* @param foo name of the module symbol of the current module, without the
* trailing "_module" part
* @see APLOG_MARK
*}
{#define APLOG_USE_MODULE(foo) \
extern module AP_MODULE_DECLARE_DATA foo##_module; \
static int * const aplog_module_index = &(foo##_module.module_index)
/**
* AP_DECLARE_MODULE is a convenience macro that combines a call of
* APLOG_USE_MODULE with the definition of the module symbol.
*
* If a module should be backward compatible with versions before 2.3.6,
* APLOG_USE_MODULE should be used explicitly instead of AP_DECLARE_MODULE.
*/
#define AP_DECLARE_MODULE(foo) \
APLOG_USE_MODULE(foo); \
module AP_MODULE_DECLARE_DATA foo##_module
}
(**
* @defgroup ModuleInit Module structure initializers
*
* Initializer for the first few module slots, which are only
* really set up once we start running. Note that the first two slots
* provide a version check; this should allow us to deal with changes to
* the API. The major number should reflect changes to the API handler table
* itself or removal of functionality. The minor number should reflect
* additions of functionality to the existing API. (the server can detect
* an old-format module, and either handle it back-compatibly, or at least
* signal an error). See src/include/ap_mmn.h for MMN version history.
* @{
*)
{** The one used in Apache 1.3, which will deliberately cause an error *}
//#define STANDARD_MODULE_STUFF this_module_needs_to_be_ported_to_apache_2_0
{** Use this in all standard modules *}
(*#define STANDARD20_MODULE_STUFF MODULE_MAGIC_NUMBER_MAJOR, \
MODULE_MAGIC_NUMBER_MINOR, \
-1, \
__FILE__, \
NULL, \
NULL, \
MODULE_MAGIC_COOKIE, \
NULL /* rewrite args spot */*)
procedure STANDARD20_MODULE_STUFF(var mod_: module);
{** Use this only in MPMs *}
(*#define MPM20_MODULE_STUFF MODULE_MAGIC_NUMBER_MAJOR, \
MODULE_MAGIC_NUMBER_MINOR, \
-1, \
__FILE__, \
NULL, \
NULL, \
MODULE_MAGIC_COOKIE*)
procedure MPM20_MODULE_STUFF(var mod_: module);
(** @} *)
{* CONFIGURATION VECTOR FUNCTIONS *}
{** configuration vector structure *}
//typedef struct ap_conf_vector_t ap_conf_vector_t;
{ Moved to httpd.pas}
// ap_conf_vector_t = record end;
// Pap_conf_vector_t = ^ap_conf_vector_t;
// PPap_conf_vector_t = ^Pap_conf_vector_t;
{**
* Generic accessors for other modules to get at their own module-specific
* data
* @param cv The vector in which the modules configuration is stored.
* usually r->per_dir_config or s->module_config
* @param m The module to get the data for.
* @return The module-specific data
*}
//AP_DECLARE(void *) ap_get_module_config(const ap_conf_vector_t *cv,
// const module *m);
{not found in httpd binary libraries, ignored}
{**
* Generic accessors for other modules to set at their own module-specific
* data
* @param cv The vector in which the modules configuration is stored.
* usually r->per_dir_config or s->module_config
* @param m The module to set the data for.
* @param val The module-specific data to set
*}
//AP_DECLARE(void) ap_set_module_config(ap_conf_vector_t *cv, const module *m,
// void *val);
//{$ifndef AP_DEBUG}
//
//function ap_get_module_config(v: Pap_conf_vector_t; m: Pmodule): Pap_conf_vector_t;
//
//procedure ap_set_module_config(v: Pap_conf_vector_t; m: Pmodule; val: Pap_conf_vector_t);
//
//{$endif} {* AP_DEBUG *}
{**
* Generic accessor for modules to get the module-specific loglevel
* @param s The server from which to get the loglevel.
* @param index The module_index of the module to get the loglevel for.
* @return The module-specific loglevel
*}
//AP_DECLARE(int) ap_get_server_module_loglevel(const server_rec *s, int index);
{**
* Generic accessor for modules the module-specific loglevel
* @param c The connection from which to get the loglevel.
* @param index The module_index of the module to get the loglevel for.
* @return The module-specific loglevel
*}
//AP_DECLARE(int) ap_get_conn_module_loglevel(const conn_rec *c, int index);
{**
* Generic accessor for modules the module-specific loglevel
* @param c The connection from which to get the loglevel.
* @param s The server from which to get the loglevel if c does not have a
* specific loglevel configuration.
* @param index The module_index of the module to get the loglevel for.
* @return The module-specific loglevel
*}
//AP_DECLARE(int) ap_get_conn_server_module_loglevel(const conn_rec *c,
// const server_rec *s,
// int index);
{**
* Generic accessor for modules to get the module-specific loglevel
* @param r The request from which to get the loglevel.
* @param index The module_index of the module to get the loglevel for.
* @return The module-specific loglevel
*}
//AP_DECLARE(int) ap_get_request_module_loglevel(const request_rec *r, int index);
{**
* Accessor to set module-specific loglevel
* @param p A pool
* @param l The ap_logconf struct to modify.
* @param index The module_index of the module to set the loglevel for.
* @param level The new log level
*}
procedure ap_set_module_loglevel(p: Papr_pool_t; l: Pap_logconf;
index, level: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_set_module_loglevel' + LibSuff16;
{
#if !defined(AP_DEBUG)
#define ap_get_conn_logconf(c) \
((c)->log ? (c)->log : \
&(c)->base_server->log)
#define ap_get_conn_server_logconf(c,s) \
( ( (c)->log != &(c)->base_server->log && (c)->log != NULL ) ? \
(c)->log : \
&(s)->log )
#define ap_get_request_logconf(r) \
((r)->log ? (r)->log : \
(r)->connection->log ? (r)->connection->log : \
&(r)->server->log)
#define ap_get_module_loglevel(l,i) \
(((i) < 0 || (l)->module_levels == NULL || (l)->module_levels[i] < 0) ? \
(l)->level : \
(l)->module_levels[i])
#define ap_get_server_module_loglevel(s,i) \
(ap_get_module_loglevel(&(s)->log,i))
#define ap_get_conn_module_loglevel(c,i) \
(ap_get_module_loglevel(ap_get_conn_logconf(c),i))
#define ap_get_conn_server_module_loglevel(c,s,i) \
(ap_get_module_loglevel(ap_get_conn_server_logconf(c,s),i))
#define ap_get_request_module_loglevel(r,i) \
(ap_get_module_loglevel(ap_get_request_logconf(r),i))
#endif /* AP_DEBUG */
}
{**
* Set all module-specific loglevels to val
* @param l The log config for which to set the loglevels.
* @param val the value to set all loglevels to
*}
procedure ap_reset_module_loglevels(l: Pap_logconf; val: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_reset_module_loglevels' + LibSuff8;
{**
* Generic command handling function for strings
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive
* @return An error string or NULL on success
*}
//AP_DECLARE_NONSTD(const char *) ap_set_string_slot(cmd_parms *cmd,
// void *struct_ptr,
// const char *arg);
function ap_set_string_slot(cmd: Pcmd_parms;
struct_ptr: Pointer;
const arg: PChar): PChar; cdecl;
external LibHTTPD name 'ap_set_string_slot';
{**
* Generic command handling function for integers
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive
* @return An error string or NULL on success
*}
//AP_DECLARE_NONSTD(const char *) ap_set_int_slot(cmd_parms *cmd,
// void *struct_ptr,
// const char *arg);
function ap_set_int_slot(cmd: Pcmd_parms; struct_ptr: Pointer; const arg: PChar): PChar; cdecl;
external LibHTTPD name 'ap_set_int_slot';
{**
* Parsing function for log level
* @param str The string to parse
* @param val The parsed log level
* @return An error string or NULL on success
*}
function ap_parse_log_level(const str: PChar; val: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_parse_log_level' + LibSuff8;
{**
* Return true if the specified method is limited by being listed in
* a <Limit> container, or by *not* being listed in a <LimitExcept>
* container.
*
* @param method Pointer to a string specifying the method to check.
* @param cmd Pointer to the cmd_parms structure passed to the
* directive handler.
* @return 0 if the method is not limited in the current scope
*}
function ap_method_is_limited(cmd: Pcmd_parms; const method: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_method_is_limited' + LibSuff8;
{**
* Generic command handling function for strings, always sets the value
* to a lowercase string
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive
* @return An error string or NULL on success
*}
//AP_DECLARE_NONSTD(const char *) ap_set_string_slot_lower(cmd_parms *cmd,
// void *struct_ptr,
// const char *arg);
function ap_set_string_slot_lower(cmd: Pcmd_parms;
struct_ptr: Pointer;
const arg: PChar): PChar; cdecl;
external LibHTTPD name 'ap_set_string_slot_lower';
{**
* Generic command handling function for flags stored in an int
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive (either 1 or 0)
* @return An error string or NULL on success
*}
//AP_DECLARE_NONSTD(const char *) ap_set_flag_slot(cmd_parms *cmd,
// void *struct_ptr,
// int arg);
function ap_set_flag_slot(cmd: Pcmd_parms;
struct_ptr: Pointer;
const arg: PChar): PChar; cdecl;
external LibHTTPD name 'ap_set_flag_slot';
{**
* Generic command handling function for flags stored in a char
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive (either 1 or 0)
* @return An error string or NULL on success
*}
//AP_DECLARE_NONSTD(const char *) ap_set_flag_slot_char(cmd_parms *cmd,
// void *struct_ptr,
// int arg);
function ap_set_flag_slot_char(cmd: Pcmd_parms;
struct_ptr: Pointer;
arg: Integer): PChar; cdecl;
external LibHTTPD name 'ap_set_flag_slot_char';
{**
* Generic command handling function for files
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive
* @return An error string or NULL on success
*}
//AP_DECLARE_NONSTD(const char *) ap_set_file_slot(cmd_parms *cmd,
// void *struct_ptr,
// const char *arg);
function ap_set_file_slot(cmd: Pcmd_parms; struct_ptr: Pointer; const arg: PChar): PChar; cdecl;
external LibHTTPD name 'ap_set_file_slot';
{**
* Generic command handling function to respond with cmd->help as an error
* @param cmd The command parameters for this directive
* @param struct_ptr pointer into a given type
* @param arg The argument to the directive
* @return The cmd->help value as the error string
* @note This allows simple declarations such as:
* @code
* AP_INIT_RAW_ARGS("Foo", ap_set_deprecated, NULL, OR_ALL,
* "The Foo directive is no longer supported, use Bar"),
* @endcode
*}
//AP_DECLARE_NONSTD(const char *) ap_set_deprecated(cmd_parms *cmd,
// void *struct_ptr,
// const char *arg);
function ap_set_deprecated(cmd: Pcmd_parms;
struct_ptr: Pointer;
const arg: PChar): PChar; cdecl;
external LibHTTPD name 'ap_set_deprecated';
{**
* For modules which need to read config files, open logs, etc. this returns
* the canonical form of fname made absolute to ap_server_root.
* @param p pool to allocate data from
* @param fname The file name
*}
function ap_server_root_relative(p: Papr_pool_t; const fname: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_server_root_relative' + LibSuff8;
{**
* Compute the name of a run-time file (e.g., shared memory "file") relative
* to the appropriate run-time directory. Absolute paths are returned as-is.
* The run-time directory is configured via the DefaultRuntimeDir directive or
* at build time.
*}
function ap_runtime_dir_relative(p: Papr_pool_t; const fname: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_runtime_dir_relative' + LibSuff8;
{* Finally, the hook for dynamically loading modules in... *}
{**
* Add a module to the server
* @param m The module structure of the module to add
* @param p The pool of the same lifetime as the module
* @param s The module's symbol name (used for logging)
*}
function ap_add_module(m: Pmodule; p: Papr_pool_t; s: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_add_module' + LibSuff12;
{**
* Remove a module from the server. There are some caveats:
* when the module is removed, its slot is lost so all the current
* per-dir and per-server configurations are invalid. So we should
* only ever call this function when you are invalidating almost
* all our current data. I.e. when doing a restart.
* @param m the module structure of the module to remove
*}
procedure ap_remove_module(m: Pmodule);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_remove_module' + LibSuff4;
{**
* Add a module to the chained modules list and the list of loaded modules
* @param mod The module structure of the module to add
* @param p The pool with the same lifetime as the module
* @param s The module's symbol name (used for logging)
*}
function ap_add_loaded_module(mod_: Pmodule; p: Papr_pool_t; s: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_add_loaded_module' + LibSuff12;
{**
* Remove a module fromthe chained modules list and the list of loaded modules
* @param mod the module structure of the module to remove
*}
procedure ap_remove_loaded_module(m: Pmodule);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_remove_loaded_module' + LibSuff4;
{**
* Find the name of the specified module
* @param m The module to get the name for
* @return the name of the module
*}
function ap_find_module_name(m: Pmodule): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_module_name' + LibSuff4;
{**
* Find the short name of the module identified by the specified module index
* @param module_index The module index to get the name for
* @return the name of the module, NULL if not found
*}
function ap_find_module_short_name(module_index: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_module_short_name' + LibSuff4;
{**
* Find a module based on the name of the module
* @param name the name of the module
* @return the module structure if found, NULL otherwise
*}
function ap_find_linked_module(const name: PChar): Pmodule;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_linked_module' + LibSuff4;
{**
* Open a ap_configfile_t as apr_file_t
* @param ret_cfg open ap_configfile_t struct pointer
* @param p The pool to allocate the structure from
* @param name the name of the file to open
*}
function ap_pcfg_openfile(ret_cfg: PPap_configfile_t;
p: Papr_pool_t; const name: PChar): apr_status_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pcfg_openfile' + LibSuff12;
{**
* Allocate a ap_configfile_t handle with user defined functions and params
* @param p The pool to allocate from
* @param descr The name of the file
* @param param The argument passed to getch/getstr/close
* @param getc_func The getch function
* @param gets_func The getstr function
* @param close_func The close function
*}
//AP_DECLARE(ap_configfile_t *) ap_pcfg_open_custom(apr_pool_t *p,
// const char *descr,
// void *param,
// apr_status_t (*getc_func) (char *ch, void *param),
// apr_status_t (*gets_func) (void *buf, apr_size_t bufsiz, void *param),
// apr_status_t (*close_func) (void *param));
type
getc_func_t = function (ch: PChar; param: Pointer): apr_status_t;
gets_func_t = function (buf: Pointer; bufsiz: apr_size_t; param: Pointer): apr_status_t;
close_func_t = function (param: Pointer): apr_status_t;
function ap_pcfg_open_custom(p: Papr_pool_t;
const descr: PChar;
param: Pointer;
getc_func: getc_func_t;
gets_func: gets_func_t;
close_func: close_func_t): Pap_configfile_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pcfg_open_custom' + LibSuff24;
{**
* Read one line from open ap_configfile_t, strip leading and trailing
* whitespace, increase line number
* @param buf place to store the line read
* @param bufsize size of the buffer
* @param cfp File to read from
* @return error status, APR_ENOSPC if bufsize is too small for the line
*}
function ap_cfg_getline(buf: PChar; bufsize: apr_size_t; cfp: Pap_configfile_t): apr_status_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_cfg_getline' + LibSuff12;
{**
* Read one char from open configfile_t, increase line number upon LF
* @param ch place to store the char read
* @param cfp The file to read from
* @return error status
*}
function ap_cfg_getc(ch: PChar; cfp: Pap_configfile_t): apr_status_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_cfg_getc' + LibSuff8;
{**
* Detach from open ap_configfile_t, calling the close handler
* @param cfp The file to close
* @return 1 on sucess, 0 on failure
*}
function ap_cfg_closefile(cfp: Pap_configfile_t): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_cfg_closefile' + LibSuff4;
{**
* Convert a return value from ap_cfg_getline or ap_cfg_getc to a user friendly
* string.
* @param p The pool to allocate the string from
* @param cfp The config file
* @param rc The return value to convert
* @return The error string, NULL if rc == APR_SUCCESS
*}
function ap_pcfg_strerror(p: Papr_pool_t; cfp: Pap_configfile_t;
rc: apr_status_t): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pcfg_strerror' + LibSuff12;
{**
* Read all data between the current <foo> and the matching </foo>. All
* of this data is forgotten immediately.
* @param cmd The cmd_parms to pass to the directives inside the container
* @param directive The directive name to read until
* @return Error string on failure, NULL on success
* @note If cmd->pool == cmd->temp_pool, ap_soak_end_container() will assume
* .htaccess context and use a lower maximum line length.
*}
function ap_soak_end_container(cmd: Pcmd_parms; directive: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_soak_end_container' + LibSuff8;
{**
* Read all data between the current <foo> and the matching </foo> and build
* a config tree from it
* @param p pool to allocate from
* @param temp_pool Temporary pool to allocate from
* @param parms The cmd_parms to pass to all directives read
* @param current The current node in the tree
* @param curr_parent The current parent node
* @param orig_directive The directive to read until hit.
* @return Error string on failure, NULL on success
* @note If p == temp_pool, ap_build_cont_config() will assume .htaccess
* context and use a lower maximum line length.
*}
function ap_build_cont_config(p,
temp_pool: Papr_pool_t;
parms: Pcmd_parms;
current,
curr_parent: PPap_directive_t;
orig_directive: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_build_cont_config' + LibSuff24;
{**
* Build a config tree from a config file
* @param parms The cmd_parms to pass to all of the directives in the file
* @param conf_pool The pconf pool
* @param temp_pool The temporary pool
* @param conftree Place to store the root node of the config tree
* @return Error string on erro, NULL otherwise
* @note If conf_pool == temp_pool, ap_build_config() will assume .htaccess
* context and use a lower maximum line length.
*}
function ap_build_config(parms: Pcmd_parms;
conf_pool,
temp_pool: Papr_pool_t;
conftree: PPap_directive_t): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_build_config' + LibSuff16;
{**
* Walk a config tree and setup the server's internal structures
* @param conftree The config tree to walk
* @param parms The cmd_parms to pass to all functions
* @param section_vector The per-section config vector.
* @return Error string on error, NULL otherwise
*}
function ap_walk_config(conftree: Pap_directive_t;
parms: Pcmd_parms;
section_vector: Pap_conf_vector_t): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_walk_config' + LibSuff12;
(**
* @defgroup ap_check_cmd_context Check command context
* @{
*)
{**
* Check the context a command is used in.
* @param cmd The command to check
* @param forbidden Where the command is forbidden.
* @return Error string on error, NULL on success
*}
function ap_check_cmd_context(cmd: Pcmd_parms;
forbidden: dword): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_check_cmd_context' + LibSuff8;
const
NOT_IN_VIRTUALHOST = $01;{**< Forbidden in <VirtualHost> *}
NOT_IN_LIMIT = $02;{**< Forbidden in <Limit> *}
NOT_IN_DIRECTORY = $04;{**< Forbidden in <Directory> *}
NOT_IN_LOCATION = $08;{**< Forbidden in <Location> *}
NOT_IN_FILES = $10;{**< Forbidden in <Files> *}
NOT_IN_HTACCESS = $20;{**< Forbidden in .htaccess files *}
{** Forbidden in <Directory>/<Location>/<Files>*}
NOT_IN_DIR_LOC_FILE = (NOT_IN_DIRECTORY or NOT_IN_LOCATION or NOT_IN_FILES);
{** Forbidden in <VirtualHost>/<Limit>/<Directory>/<Location>/<Files> *}
GLOBAL_ONLY = (NOT_IN_VIRTUALHOST or NOT_IN_LIMIT or NOT_IN_DIR_LOC_FILE);
(** @} *)
{**
* @brief This structure is used to assign symbol names to module pointers
*}
type
ap_module_symbol_t = record
name: PChar;
modp: Pmodule;
end;
{**
* The topmost module in the list
* @var module *ap_top_module
*}
//AP_DECLARE_DATA extern module *ap_top_module;
{**
* Array of all statically linked modules
* @var module *ap_prelinked_modules[]
*}
//AP_DECLARE_DATA extern module *ap_prelinked_modules[];
{**
* Array of all statically linked modulenames (symbols)
* @var ap_module_symbol_t ap_prelinked_module_symbols[]
*}
//AP_DECLARE_DATA extern ap_module_symbol_t ap_prelinked_module_symbols[];
{**
* Array of all preloaded modules
* @var module *ap_preloaded_modules[]
*}
//AP_DECLARE_DATA extern module *ap_preloaded_modules[];
{**
* Array of all loaded modules
* @var module **ap_loaded_modules
*}
//AP_DECLARE_DATA extern module **ap_loaded_modules;
{* For mod_so.c... *}
{** Run a single module's two create_config hooks
* @param p the pool to allocate from
* @param s The server to configure for.
* @param m The module to configure
*}
procedure ap_single_module_configure(p: Papr_pool_t; s: Pserver_rec;
m: Pmodule);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_single_module_configure' + LibSuff12;
{* For http_main.c... *}
{**
* Add all of the prelinked modules into the loaded module list
* @param process The process that is currently running the server
*}
function ap_setup_prelinked_modules(process: Pprocess_rec): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_setup_prelinked_modules' + LibSuff4;
{**
* Show the preloaded configuration directives, the help string explaining
* the directive arguments, in what module they are handled, and in
* what parts of the configuration they are allowed. Used for httpd -h.
*}
procedure ap_show_directives;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_show_directives' + LibSuff0;
{**
* Show the preloaded module names. Used for httpd -l.
*}
procedure ap_show_modules;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_show_modules' + LibSuff0;
{**
* Show the MPM name. Used in reporting modules such as mod_info to
* provide extra information to the user
*}
function ap_show_mpm: PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_show_mpm' + LibSuff0;
{**
* Read all config files and setup the server
* @param process The process running the server
* @param temp_pool A pool to allocate temporary data from.
* @param config_name The name of the config file
* @param conftree Place to store the root of the config tree
* @return The setup server_rec list.
*}
function ap_read_config(process: Pprocess_rec;
temp_pool: Papr_pool_t;
const config_name: PChar;
conftree: PPap_directive_t): Pserver_rec;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_read_config' + LibSuff16;
{**
* Run all rewrite args hooks for loaded modules
* @param process The process currently running the server
*}
procedure ap_run_rewrite_args(process: Pprocess_rec);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_rewrite_args' + LibSuff4;
{**
* Run the register hooks function for a specified module
* @param m The module to run the register hooks function fo
* @param p The pool valid for the lifetime of the module
*}
procedure ap_register_hooks(m: Pmodule; p: Papr_pool_t);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_register_hooks' + LibSuff8;
{**
* Setup all virtual hosts
* @param p The pool to allocate from
* @param main_server The head of the server_rec list
*}
procedure ap_fixup_virtual_hosts(p: Papr_pool_t;
main_server: Pserver_rec);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_fixup_virtual_hosts' + LibSuff8;
{**
* Reserve some modules slots for modules loaded by other means than
* EXEC_ON_READ directives.
* Relevant modules should call this in the pre_config stage.
* @param count The number of slots to reserve.
*}
procedure ap_reserve_module_slots(count: Longint);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_reserve_module_slots' + LibSuff4;
{**
* Reserve some modules slots for modules loaded by a specific
* non-EXEC_ON_READ config directive.
* This counts how often the given directive is used in the config and calls
* ap_reserve_module_slots() accordingly.
* @param directive The name of the directive
*}
procedure ap_reserve_module_slots_directive(const directive: PChar);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_reserve_module_slots_directive' + LibSuff4;
{* For http_request.c... *}
{**
* Setup the config vector for a request_rec
* @param p The pool to allocate the config vector from
* @return The config vector
*}
function ap_create_request_config(p: Papr_pool_t): Pap_conf_vector_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_create_request_config' + LibSuff4;
{**
* Setup the config vector for per dir module configs
* @param p The pool to allocate the config vector from
* @return The config vector
*}
//AP_CORE_DECLARE(ap_conf_vector_t *) ap_create_per_dir_config(apr_pool_t *p);
function ap_create_per_dir_config(p: Papr_pool_t): Pap_conf_vector_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_create_per_dir_config' + LibSuff4;
{**
* Run all of the modules merge per dir config functions
* @param p The pool to pass to the merge functions
* @param base The base directory config structure
* @param new_conf The new directory config structure
*}
function ap_merge_per_dir_configs(p: Papr_pool_t;
base,
new_conf: Pap_conf_vector_t): Pap_conf_vector_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_merge_per_dir_configs' + LibSuff12;
{**
* Allocate new ap_logconf and make (deep) copy of old ap_logconf
* @param p The pool to alloc from
* @param old The ap_logconf to copy (may be NULL)
* @return The new ap_logconf struct
*}
function ap_new_log_config(p: Papr_pool_t;
const old: Pap_logconf): Pap_logconf;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_new_log_config' + LibSuff8;
{**
* Merge old ap_logconf into new ap_logconf.
* old and new must have the same life time.
* @param old_conf The ap_logconf to merge from
* @param new_conf The ap_logconf to merge into
*}
procedure ap_merge_log_config(const old_conf: Pap_logconf;
new_conf: Pap_logconf);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_merge_log_config' + LibSuff8;
{* For http_connection.c... *}
{**
* Setup the config vector for a connection_rec
* @param p The pool to allocate the config vector from
* @return The config vector
*}
function ap_create_conn_config(p: Papr_pool_t): Pap_conf_vector_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_create_conn_config' + LibSuff4;
{* For http_core.c... (<Directory> command and virtual hosts) *}
{**
* parse an htaccess file
* @param result htaccess_result
* @param r The request currently being served
* @param override Which overrides are active
* @param override_opts Which allow-override-opts bits are set
* @param override_list Table of directives allowed for override
* @param path The path to the htaccess file
* @param access_name The list of possible names for .htaccess files
* int The status of the current request
*}
function ap_parse_htaccess(result_: PPap_conf_vector_t;
r: Prequest_rec;
override_: Longint;
override_opts: Longint;
override_list: Papr_table_t;
const path: PChar;
const access_name: PChar): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_parse_htaccess' + LibSuff28;
{**
* Setup a virtual host
* @param p The pool to allocate all memory from
* @param hostname The hostname of the virtual hsot
* @param main_server The main server for this Apache configuration
* @param ps Place to store the new server_rec
* return Error string on error, NULL on success
*}
function ap_init_virtual_host(p: Papr_pool_t;
const hostname: PChar;
main_server: Pserver_rec;
ps: PPserver_rec): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_init_virtual_host' + LibSuff16;
{**
* Process a config file for Apache
* @param s The server rec to use for the command parms
* @param fname The name of the config file
* @param conftree The root node of the created config tree
* @param p Pool for general allocation
* @param ptemp Pool for temporary allocation
*}
function ap_process_resource_config(s: Pserver_rec;
const fname: PChar;
conftree: PPap_directive_t;
p, ptemp: Papr_pool_t): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_process_resource_config' + LibSuff20;
{**
* Process all matching files as Apache configs
* @param s The server rec to use for the command parms
* @param fname The filename pattern of the config file
* @param conftree The root node of the created config tree
* @param p Pool for general allocation
* @param ptemp Pool for temporary allocation
* @param optional Whether a no-match wildcard is allowed
* @see apr_fnmatch for pattern handling
*}
function ap_process_fnmatch_configs(s: Pserver_rec;
const fname: PChar;
conftree: PPap_directive_t;
p, ptemp: Papr_pool_t;
optional: Longint): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_process_fnmatch_configs' + LibSuff24;
{**
* Process all directives in the config tree
* @param s The server rec to use in the command parms
* @param conftree The config tree to process
* @param p The pool for general allocation
* @param ptemp The pool for temporary allocations
* @return OK if no problems
*}
function ap_process_config_tree(s: Pserver_rec;
conftree: Pap_directive_t;
p, ptemp: Papr_pool_t): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_process_config_tree' + LibSuff16;
{**
* Store data which will be retained across unload/load of modules
* @param key The unique key associated with this module's retained data
* @param size in bytes of the retained data (to be allocated)
* @return Address of new retained data structure, initially cleared
*}
function ap_retained_data_create(const key: Pchar; size: apr_size_t): Pointer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_retained_data_create' + LibSuff8;
{**
* Retrieve data which was stored by ap_retained_data_create()
* @param key The unique key associated with this module's retained data
* @return Address of previously retained data structure, or NULL if not yet saved
*}
function ap_retained_data_get(const key: Pchar): Pointer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_retained_data_get' + LibSuff4;
{* Module-method dispatchers, also for http_request.c *}
{**
* Run the handler phase of each module until a module accepts the
* responsibility of serving the request
* @param r The current request
* @return The status of the current request
*}
function ap_invoke_handler(r: Prequest_rec): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_invoke_handler' + LibSuff4;
{* for mod_perl *}
{**
* Find a given directive in a command_rec table
* @param name The directive to search for
* @param cmds The table to search
* @return The directive definition of the specified directive
*}
function ap_find_command(const name: PChar;
const cmds: Pcommand_rec): Pcommand_rec;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_command' + LibSuff8;
{**
* Find a given directive in a list of modules.
* @param cmd_name The directive to search for
* @param mod Pointer to the first module in the linked list; will be set to
* the module providing cmd_name
* @return The directive definition of the specified directive.
* *mod will be changed to point to the module containing the
* directive.
*}
function ap_find_command_in_modules(const cmd_name: PChar;
mod_: PPmodule): Pcommand_rec;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_command_in_modules' + LibSuff8;
{**
* Ask a module to create per-server and per-section (dir/loc/file) configs
* (if it hasn't happened already). The results are stored in the server's
* config, and the specified per-section config vector.
* @param server The server to operate upon.
* @param section_vector The per-section config vector.
* @param section Which section to create a config for.
* @param mod The module which is defining the config data.
* @param pconf A pool for all configuration allocations.
* @return The (new) per-section config data.
*}
function ap_set_config_vectors(server: Pserver_rec;
section_vector: Pap_conf_vector_t;
const section: PChar;
mod_: Pmodule;
pconf: Papr_pool_t): Pointer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_set_config_vectors' + LibSuff20;
{* Hooks *}
{**
* Run the header parser functions for each module
* @param r The current request
* @return OK or DECLINED
*}
//AP_DECLARE_HOOK(int,header_parser,(request_rec *r))
(*macro expanded:
typedef
int ap_HOOK_header_parser_t (request_rec *r);
void ap_hook_header_parser(ap_HOOK_header_parser_t *pf,
const char * const *aszPre,
const char * const *aszSucc,
int nOrder);
int ap_run_header_parser (request_rec *r);
apr_array_header_t * ap_hook_get_header_parser(void);
struct ap_LINK_header_parser_t {
ap_HOOK_header_parser_t *pFunc;
const char *szName;
const char * const *aszPredecessors;
const char * const *aszSuccessors;
int nOrder;
} ap_LINK_header_parser_t;
*)
type
ap_HOOK_header_parser_t = function(r: Prequest_rec): Longint; cdecl;
procedure ap_hook_header_parser(pf: ap_HOOK_header_parser_t;
const aszPre: PPChar;
const aszSucc: PPChar;
nOrder: Longint);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_header_parser' + LibSuff16;
function ap_run_header_parser(r: Prequest_rec): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_header_parser' + LibSuff4;
function ap_hook_get_header_parser: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_header_parser' + LibSuff0;
{rest of macro is ignored (struct ap_LINK_header_parser_t)}
{**
* Run the pre_config function for each module
* @param pconf The config pool
* @param plog The logging streams pool
* @param ptemp The temporary pool
* @return OK or DECLINED on success anything else is a error
*}
//AP_DECLARE_HOOK(int,pre_config,(apr_pool_t *pconf,apr_pool_t *plog,
// apr_pool_t *ptemp))
(*macro expanded:
typedef
int ap_HOOK_pre_config_t (apr_pool_t *pconf,apr_pool_t *plog, apr_pool_t *ptemp);
void ap_hook_pre_config(ap_HOOK_pre_config_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
int ap_run_pre_config (apr_pool_t *pconf,apr_pool_t *plog, apr_pool_t *ptemp);
apr_array_header_t * ap_hook_get_pre_config(void);
struct ap_LINK_pre_config_t { ap_HOOK_pre_config_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_pre_config_t;
*)
type
ap_HOOK_pre_config_t = function(pconf, plog, ptemp: Papr_pool_t): Longint; cdecl;
procedure ap_hook_pre_config(pf: ap_HOOK_pre_config_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Longint);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_pre_config' + LibSuff16;
function ap_run_pre_config(pconf, plog, ptemp: Papr_pool_t): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_pre_config' + LibSuff12;
function ap_hook_get_pre_config: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_pre_config' + LibSuff0;
{rest of macro is ignored}
{**
* Run the check_config function for each module
* @param pconf The config pool
* @param plog The logging streams pool
* @param ptemp The temporary pool
* @param s the server to operate upon
* @return OK or DECLINED on success anything else is a error
*}
//AP_DECLARE_HOOK(int,check_config,(apr_pool_t *pconf, apr_pool_t *plog,
// apr_pool_t *ptemp, server_rec *s))
(*macro expanded:
int ap_HOOK_check_config_t (apr_pool_t *pconf, apr_pool_t *plog, apr_pool_t *ptemp, server_rec *s);
void ap_hook_check_config(ap_HOOK_check_config_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
int ap_run_check_config (apr_pool_t *pconf, apr_pool_t *plog, apr_pool_t *ptemp, server_rec *s);
apr_array_header_t * ap_hook_get_check_config(void);
struct ap_LINK_check_config_t { ap_HOOK_check_config_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_check_config_t;
*)
type
ap_HOOK_check_config_t = function(pconf, plog, ptemp: Papr_pool_t; s: Pserver_rec): Longint; cdecl;
procedure ap_hook_check_config(pf: ap_HOOK_check_config_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Longint);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_check_config' + LibSuff16;
function ap_run_check_config(pconf, plog, ptemp: Papr_pool_t; s: Pserver_rec): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_check_config' + LibSuff16;
function ap_hook_get_check_config: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_check_config' + LibSuff0;
{rest of macro is ignored}
{**
* Run the test_config function for each module; this hook is run
* only if the server was invoked to test the configuration syntax.
* @param pconf The config pool
* @param s The list of server_recs
* @note To avoid reordering problems due to different buffering, hook
* functions should only apr_file_*() to print to stdout/stderr and
* not simple printf()/fprintf().
*
*}
//AP_DECLARE_HOOK(void,test_config,(apr_pool_t *pconf, server_rec *s))
(*macro expanded:
void ap_HOOK_test_config_t (apr_pool_t *pconf, server_rec *s);
void ap_hook_test_config(ap_HOOK_test_config_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
void ap_run_test_config (apr_pool_t *pconf, server_rec *s);
apr_array_header_t * ap_hook_get_test_config(void);
typedef struct ap_LINK_test_config_t { ap_HOOK_test_config_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_test_config_t;
*)
type
ap_HOOK_test_config_t = procedure(pconf: Papr_pool_t; s: Pserver_rec); cdecl;
procedure ap_hook_test_config(pf: ap_HOOK_test_config_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_test_config' + LibSuff16;
procedure ap_run_test_config(pconf: Papr_pool_t; s: Pserver_rec);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_test_config' + LibSuff8;
function ap_hook_get_test_config: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_test_config' + LibSuff0;
{rest of macro is ignored}
{**
* Run the post_config function for each module
* @param pconf The config pool
* @param plog The logging streams pool
* @param ptemp The temporary pool
* @param s The list of server_recs
* @return OK or DECLINED on success anything else is a error
*}
//AP_DECLARE_HOOK(int,post_config,(apr_pool_t *pconf,apr_pool_t *plog,
// apr_pool_t *ptemp,server_rec *s))
(*macro expanded:
int ap_HOOK_post_config_t (apr_pool_t *pconf,apr_pool_t *plog, apr_pool_t *ptemp,server_rec *s);
void ap_hook_post_config(ap_HOOK_post_config_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
int ap_run_post_config (apr_pool_t *pconf,apr_pool_t *plog, apr_pool_t *ptemp,server_rec *s);
apr_array_header_t * ap_hook_get_post_config(void);
struct ap_LINK_post_config_t { ap_HOOK_post_config_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_post_config_t;
*)
type
ap_HOOK_post_config_t = function(pconf, plog, ptemp: Papr_pool_t; s: Pserver_rec): Longint; cdecl;
procedure ap_hook_post_config(pf: ap_HOOK_post_config_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_post_config' + LibSuff16;
function ap_run_post_config(pconf, plog, ptemp: Papr_pool_t; s: Pserver_rec): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_post_config' + LibSuff16;
function ap_hook_get_post_config: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_post_config' + LibSuff0;
{rest of macro is ignored}
{**
* Run the open_logs functions for each module
* @param pconf The config pool
* @param plog The logging streams pool
* @param ptemp The temporary pool
* @param s The list of server_recs
* @return OK or DECLINED on success anything else is a error
*}
//AP_DECLARE_HOOK(int,open_logs,(apr_pool_t *pconf,apr_pool_t *plog,
// apr_pool_t *ptemp,server_rec *s))
(*macro expanded:
int ap_HOOK_open_logs_t (apr_pool_t *pconf,apr_pool_t *plog, apr_pool_t *ptemp,server_rec *s);
void ap_hook_open_logs(ap_HOOK_open_logs_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
int ap_run_open_logs (apr_pool_t *pconf,apr_pool_t *plog, apr_pool_t *ptemp,server_rec *s);
apr_array_header_t * ap_hook_get_open_logs(void);
struct ap_LINK_open_logs_t { ap_HOOK_open_logs_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_open_logs_t;
*)
type
ap_HOOK_open_logs_t = function(pconf, plog, ptemp: Papr_pool_t; s: Pserver_rec): Longint; cdecl;
procedure ap_hook_open_logs(pf: ap_HOOK_open_logs_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_open_logs' + LibSuff16;
function ap_run_open_logs(pconf, plog, ptemp: Papr_pool_t; s: Pserver_rec): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_open_logs' + LibSuff16;
function ap_hook_get_open_logs: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_open_logs' + LibSuff0;
{rest of macro is ignored}
{**
* Run the child_init functions for each module
* @param pchild The child pool
* @param s The list of server_recs in this server
*}
//AP_DECLARE_HOOK(void,child_init,(apr_pool_t *pchild, server_rec *s))
(*macro expanded:
void ap_HOOK_child_init_t (apr_pool_t *pchild, server_rec *s);
void ap_hook_child_init(ap_HOOK_child_init_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
void ap_run_child_init (apr_pool_t *pchild, server_rec *s);
apr_array_header_t * ap_hook_get_child_init(void);
struct ap_LINK_child_init_t { ap_HOOK_child_init_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_child_init_t;
*)
type
ap_HOOK_child_init_t = procedure(pchild: Papr_pool_t; s: Pserver_rec); cdecl;
procedure ap_hook_child_init(pf: ap_HOOK_child_init_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_child_init' + LibSuff16;
procedure ap_run_child_init(pchild: Papr_pool_t; s: Pserver_rec);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_child_init' + LibSuff8;
function ap_hook_get_child_init: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_child_init' + LibSuff0;
{rest of macro is ignored}
{**
* Run the handler functions for each module
* @param r The request_rec
* @remark non-wildcard handlers should HOOK_MIDDLE, wildcard HOOK_LAST
*}
//AP_DECLARE_HOOK(int,handler,(request_rec *r))
(*macro expanded:
int ap_HOOK_handler_t (request_rec *r);
void ap_hook_handler(ap_HOOK_handler_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
int ap_run_handler (request_rec *r);
apr_array_header_t * ap_hook_get_handler(void);
struct ap_LINK_handler_t { ap_HOOK_handler_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_handler_t;
*)
type
ap_HOOK_handler_t = function(r: Prequest_rec): Longint; cdecl;
procedure ap_hook_handler(pf: ap_HOOK_handler_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_handler' + LibSuff16;
function ap_run_handler(r: Prequest_rec): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_handler' + LibSuff4;
function ap_hook_get_handler: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_handler' + LibSuff0;
{rest of macro is ignored}
{**
* Run the quick handler functions for each module. The quick_handler
* is run before any other requests hooks are called (location_walk,
* directory_walk, access checking, et. al.). This hook was added
* to provide a quick way to serve content from a URI keyed cache.
*
* @param r The request_rec
* @param lookup_uri Controls whether the caller actually wants content or not.
* lookup is set when the quick_handler is called out of
* ap_sub_req_lookup_uri()
*}
//AP_DECLARE_HOOK(int,quick_handler,(request_rec *r, int lookup_uri))
(*macro expanded:
int ap_HOOK_quick_handler_t (request_rec *r, int lookup_uri);
void ap_hook_quick_handler(ap_HOOK_quick_handler_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
int ap_run_quick_handler (request_rec *r, int lookup_uri);
apr_array_header_t * ap_hook_get_quick_handler(void);
struct ap_LINK_quick_handler_t { ap_HOOK_quick_handler_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_quick_handler_t;
*)
type
ap_HOOK_quick_handler_t = function(r: Prequest_rec; lookup_uri: Longint): Longint; cdecl;
procedure ap_hook_quick_handler(pf: ap_HOOK_quick_handler_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_quick_handler' + LibSuff16;
function ap_run_quick_handler(r: Prequest_rec; lookup_uri: Longint): Longint;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_quick_handler' + LibSuff8;
function ap_hook_get_quick_handler: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_quick_handler' + LibSuff0;
{rest of macro is ignored}
{**
* Retrieve the optional functions for each module.
* This is run immediately before the server starts. Optional functions should
* be registered during the hook registration phase.
*}
//AP_DECLARE_HOOK(void,optional_fn_retrieve,(void))
(*macro expanded:
void ap_HOOK_optional_fn_retrieve_t (void);
void ap_hook_optional_fn_retrieve(ap_HOOK_optional_fn_retrieve_t *pf, const char * const *aszPre, const char * const *aszSucc, int nOrder);
void ap_run_optional_fn_retrieve (void);
apr_array_header_t * ap_hook_get_optional_fn_retrieve(void);
struct ap_LINK_optional_fn_retrieve_t { ap_HOOK_optional_fn_retrieve_t *pFunc; const char *szName; const char * const *aszPredecessors; const char * const *aszSuccessors; int nOrder; } ap_LINK_optional_fn_retrieve_t;
*)
type
ap_HOOK_optional_fn_retrieve_t = procedure; cdecl;
procedure ap_hook_optional_fn_retrieve(pf: ap_HOOK_optional_fn_retrieve_t; const aszPre: PPChar; const aszSucc: PPChar; nOrder: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_optional_fn_retrieve' + LibSuff16;
procedure ap_run_optional_fn_retrieve;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_run_optional_fn_retrieve' + LibSuff0;
function ap_hook_get_optional_fn_retrieve: Papr_array_header_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_hook_get_optional_fn_retrieve' + LibSuff0;
{rest of macro is ignored}
{**
* A generic pool cleanup that will reset a pointer to NULL. For use with
* apr_pool_cleanup_register.
* @param data The address of the pointer
* @return APR_SUCCESS
*}
//AP_DECLARE_NONSTD(apr_status_t) ap_pool_cleanup_set_null(void *data);
function ap_pool_cleanup_set_null(data: Pointer): apr_status_t; cdecl;
external LibHTTPD name LibNamePrefix + 'ap_pool_cleanup_set_null';
{$endif} {* !APACHE_HTTP_CONFIG_H *}
(** @} *)