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Version:
3.2.0 ▾
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{
* @file httpd.h
* @brief HTTP Daemon routines
}
{ XXX - We need to push more stuff to other .h files, or even .c files, to
* make this file smaller
}
// Headers in which EVERYONE has an interest...
{$include ap_config.inc}
{$include ap_mmn.inc}
{$include ap_release.inc}
{#include "apr_general.h"}
{#include "apr_time.h"
#include "apr_network_io.h"}
{$ifdef windows}
{$include apr\apr_buckets.inc}
{$else}
{$include apr/apr_buckets.inc}
{$endif}
{#include "os.h"}
{$include pcreposix.inc}
// Note: util_uri.h is also included, see below
{ ----------------------------- config dir ------------------------------ }
{ Define this to be the default server home dir. Most things later in this
* file with a relative pathname will have this added.
}
const
{$ifdef OS2}
{ Set default for OS/2 file system }
HTTPD_ROOT = '/os2httpd';
{$else}{$ifdef WINDOWS}
{ Set default for Windows file system }
HTTPD_ROOT = '/apache';
{$else}{$ifdef BEOS}
{ Set the default for BeOS }
HTTPD_ROOT = '/boot/home/apache';
{$else}{$ifdef NETWARE}
{ Set the default for NetWare }
HTTPD_ROOT = '/apache';
{$else}
HTTPD_ROOT = '/usr/local/apache';
{$endif}
{$endif}
{$endif}
{$endif}
{
* --------- You shouldn't have to edit anything below this line ----------
*
* Any modifications to any defaults not defined above should be done in the
* respective configuration file.
*
}
const
{ Default location of documents. Can be overridden by the DocumentRoot
* directive.
}
DOCUMENT_LOCATION = HTTPD_ROOT + '/htdocs';
// Maximum number of dynamically loaded modules
DYNAMIC_MODULE_LIMIT = 64;
// Default administrator's address
DEFAULT_ADMIN = '[no address given]';
// The name of the log files
{$if defined(OS2) or defined(WINDOWS)}
DEFAULT_ERRORLOG = 'logs/error.log';
{$else}
DEFAULT_ERRORLOG = 'logs/error_log';
{$endif}
{ Define this to be what your per-directory security files are called }
DEFAULT_ACCESS_FNAME = '.htaccess';
{ The name of the server config file }
SERVER_CONFIG_FILE = 'conf/httpd.conf';
{ Whether we should enable rfc1413 identity checking }
DEFAULT_RFC1413 = 0;
{ The default path for CGI scripts if none is currently set }
DEFAULT_PATH = '/bin:/usr/bin:/usr/ucb:/usr/bsd:/usr/local/bin';
{ The path to the suExec wrapper, can be overridden in Configuration }
SUEXEC_BIN = HTTPD_ROOT + '/bin/suexec';
{ The timeout for waiting for messages }
DEFAULT_TIMEOUT = 300 ;
{ The timeout for waiting for keepalive timeout until next request }
DEFAULT_KEEPALIVE_TIMEOUT = 15;
{ The number of requests to entertain per connection }
DEFAULT_KEEPALIVE = 100;
{ Limits on the size of various request items. These limits primarily
* exist to prevent simple denial-of-service attacks on a server based
* on misuse of the protocol. The recommended values will depend on the
* nature of the server resources -- CGI scripts and database backends
* might require large values, but most servers could get by with much
* smaller limits than we use below. The request message body size can
* be limited by the per-dir config directive LimitRequestBody.
*
* Internal buffer sizes are two bytes more than the DEFAULT_LIMIT_REQUEST_LINE
* and DEFAULT_LIMIT_REQUEST_FIELDSIZE below, which explains the 8190.
* These two limits can be lowered (but not raised) by the server config
* directives LimitRequestLine and LimitRequestFieldsize, respectively.
*
* DEFAULT_LIMIT_REQUEST_FIELDS can be modified or disabled (set = 0) by
* the server config directive LimitRequestFields.
}
DEFAULT_LIMIT_REQUEST_LINE = 8190;
DEFAULT_LIMIT_REQUEST_FIELDSIZE = 8190;
DEFAULT_LIMIT_REQUEST_FIELDS = 100;
{
* The default default character set name to add if AddDefaultCharset is
* enabled. Overridden with AddDefaultCharsetName.
}
DEFAULT_ADD_DEFAULT_CHARSET_NAME = 'iso-8859-1';
{ default HTTP Server protocol }
AP_SERVER_PROTOCOL = 'HTTP/1.1';
{ ------------------ stuff that modules are allowed to look at ----------- }
AP_DEFAULT_INDEX = 'index.html';
{
* Define this to be what type you'd like returned for files with unknown
* suffixes.
* @warning MUST be all lower case.
}
DEFAULT_CONTENT_TYPE = 'text/plain';
{ The name of the MIME types file }
AP_TYPES_CONFIG_FILE = 'conf/mime.types';
{
* Define the HTML doctype strings centrally.
}
{ HTML 2.0 Doctype }
DOCTYPE_HTML_2_0 = '<!DOCTYPE HTML PUBLIC "-//IETF//' +
'DTD HTML 2.0//EN">' + LineEnding;
{ HTML 3.2 Doctype }
DOCTYPE_HTML_3_2 = '<!DOCTYPE HTML PUBLIC "-//W3C//' +
'DTD HTML 3.2 Final//EN">' + LineEnding;
{ HTML 4.0 Strict Doctype }
DOCTYPE_HTML_4_0S = '<!DOCTYPE HTML PUBLIC "-//W3C//' +
'DTD HTML 4.0//EN"' + LineEnding +
'"http://www.w3.org/TR/REC-html40/strict.dtd">' + LineEnding;
{ HTML 4.0 Transitional Doctype }
DOCTYPE_HTML_4_0T = '<!DOCTYPE HTML PUBLIC "-//W3C//' +
'DTD HTML 4.0 Transitional//EN"' + LineEnding +
'"http://www.w3.org/TR/REC-html40/loose.dtd">' + LineEnding;
{ HTML 4.0 Frameset Doctype }
DOCTYPE_HTML_4_0F = '<!DOCTYPE HTML PUBLIC "-//W3C//' +
'DTD HTML 4.0 Frameset//EN"' + LineEnding +
'"http://www.w3.org/TR/REC-html40/frameset.dtd">' + LineEnding;
{ XHTML 1.0 Strict Doctype }
DOCTYPE_XHTML_1_0S = '<!DOCTYPE html PUBLIC "-//W3C//' +
'DTD XHTML 1.0 Strict//EN"' + LineEnding +
'"http://www.w3.org/TR/xhtml1/DTD/' +
'xhtml1-strict.dtd\">' + LineEnding;
{ XHTML 1.0 Transitional Doctype }
DOCTYPE_XHTML_1_0T = '<!DOCTYPE html PUBLIC "-//W3C//' +
'DTD XHTML 1.0 Transitional//EN"' + LineEnding +
'"http://www.w3.org/TR/xhtml1/DTD/' +
'xhtml1-transitional.dtd">' + LineEnding;
{ XHTML 1.0 Frameset Doctype }
DOCTYPE_XHTML_1_0F = '<!DOCTYPE html PUBLIC "-//W3C//' +
'DTD XHTML 1.0 Frameset//EN"' + LineEnding +
'"http://www.w3.org/TR/xhtml1/DTD/' +
'xhtml1-frameset.dtd">' + LineEnding;
{ Internal representation for a HTTP protocol number, e.g., HTTP/1.1 }
function HTTP_VERSION(major, minor: Integer): Integer;
{ Major part of HTTP protocol }
function HTTP_VERSION_MAJOR(number: Integer): Integer;
{ Minor part of HTTP protocol }
function HTTP_VERSION_MINOR(number: Integer): Integer;
{ -------------- Port number for server running standalone --------------- }
const
{ default HTTP Port }
DEFAULT_HTTP_PORT = 80;
{ default HTTPS Port }
DEFAULT_HTTPS_PORT = 443;
{
* Check whether @a port is the default port for the request @a r.
* @param port The port number
* @param r The request
* @see #ap_default_port
}
//#define ap_is_default_port(port,r) ((port) == ap_default_port(r))
{
* Get the default port for a request (which depends on the scheme).
* @param r The request
}
//#define ap_default_port(r) ap_run_default_port(r)
{
* Get the scheme for a request.
* @param r The request
* @bug This should be called ap_http_scheme!
}
//#define ap_http_method(r) ap_run_http_method(r)
{ The default string lengths }
// MAX_STRING_LEN = HUGE_STRING_LEN;
HUGE_STRING_LEN = 8192;
{ The size of the server's internal read-write buffers }
AP_IOBUFSIZE = 8192;
{ The max number of regex captures that can be expanded by ap_pregsub }
AP_MAX_REG_MATCH = 10;
{
* APR_HAS_LARGE_FILES introduces the problem of spliting sendfile into
* mutiple buckets, no greater than MAX(apr_size_t), and more granular
* than that in case the brigade code/filters attempt to read it directly.
* ### 16mb is an invention, no idea if it is reasonable.
}
AP_MAX_SENDFILE = 16777216; { 2^24 }
{
* Special Apache error codes. These are basically used
* in http_main.c so we can keep track of various errors.
*
}
{ a normal exit }
APEXIT_OK = $0;
{ A fatal error arising during the server's init sequence }
APEXIT_INIT = $2;
{ The child died during its init sequence }
APEXIT_CHILDINIT = $3;
{
* The child exited due to a resource shortage.
* The parent should limit the rate of forking until
* the situation is resolved.
}
APEXIT_CHILDSICK = $7;
{
* A fatal error, resulting in the whole server aborting.
* If a child exits with this error, the parent process
* considers this a server-wide fatal error and aborts.
}
APEXIT_CHILDFATAL = $f;
{
* Stuff marked #AP_DECLARE is part of the API, and intended for use
* by modules. Its purpose is to allow us to add attributes that
* particular platforms or compilers require to every exported function.
}
// define AP_DECLARE(type) type
{
* Stuff marked #AP_DECLARE_NONSTD is part of the API, and intended for
* use by modules. The difference between #AP_DECLARE and
* #AP_DECLARE_NONSTD is that the latter is required for any functions
* which use varargs or are used via indirect function call. This
* is to accomodate the two calling conventions in windows dlls.
}
//# define AP_DECLARE_NONSTD(type) type
{$define AP_DECLARE_DATA}
//# define AP_MODULE_DECLARE(type) type
//# define AP_MODULE_DECLARE_NONSTD(type) type
{$define AP_MODULE_DECLARE_DATA}
{
* @internal
* modules should not used functions marked AP_CORE_DECLARE
}
// AP_CORE_DECLARE = AP_DECLARE;
{
* @internal
* modules should not used functions marked AP_CORE_DECLARE_NONSTD
}
// AP_CORE_DECLARE_NONSTD = AP_DECLARE_NONSTD;
{
* The numeric version information is broken out into fields within this
* structure.
}
type
ap_version_t = record
major: Integer; {< major number }
minor: Integer; {< minor number }
patch: Integer; {< patch number }
add_string: PChar; {< additional string like "-dev" }
end;
Pap_version_t = ^ap_version_t;
{
* Return httpd's version information in a numeric form.
*
* @param version Pointer to a version structure for returning the version
* information.
}
procedure ap_get_server_revision(version: Pap_version_t);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_get_server_revision' + LibSuff4;
{
* Get the server version string
* @return The server version string
}
function ap_get_server_version: PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_get_server_version' + LibSuff0;
{
* Add a component to the version string
* @param pconf The pool to allocate the component from
* @param component The string to add
}
procedure ap_add_version_component(pconf: Papr_pool_t; const component: PChar);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_add_version_component' + LibSuff8;
{
* Get the date a time that the server was built
* @return The server build time string
}
function ap_get_server_built: PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_get_server_built' + LibSuff0;
const
DECLINED = -1; {< Module declines to handle }
DONE = -2; {< Module has served the response completely
* - it's safe to die() with no more output
}
OK = 0; {< Module has handled this stage. }
{
* @defgroup HTTP_Status HTTP Status Codes
* @
* The size of the static array in http_protocol.c for storing
* all of the potential response status-lines (a sparse table).
* A future version should dynamically generate the apr_table_t at startup.
}
RESPONSE_CODES = 57;
HTTP_CONTINUE = 100;
HTTP_SWITCHING_PROTOCOLS = 101;
HTTP_PROCESSING = 102;
HTTP_OK = 200;
HTTP_CREATED = 201;
HTTP_ACCEPTED = 202;
HTTP_NON_AUTHORITATIVE = 203;
HTTP_NO_CONTENT = 204;
HTTP_RESET_CONTENT = 205;
HTTP_PARTIAL_CONTENT = 206;
HTTP_MULTI_STATUS = 207;
HTTP_MULTIPLE_CHOICES = 300;
HTTP_MOVED_PERMANENTLY = 301;
HTTP_MOVED_TEMPORARILY = 302;
HTTP_SEE_OTHER = 303;
HTTP_NOT_MODIFIED = 304;
HTTP_USE_PROXY = 305;
HTTP_TEMPORARY_REDIRECT = 307;
HTTP_BAD_REQUEST = 400;
HTTP_UNAUTHORIZED = 401;
HTTP_PAYMENT_REQUIRED = 402;
HTTP_FORBIDDEN = 403;
HTTP_NOT_FOUND = 404;
HTTP_METHOD_NOT_ALLOWED = 405;
HTTP_NOT_ACCEPTABLE = 406;
HTTP_PROXY_AUTHENTICATION_REQUIRED = 407;
HTTP_REQUEST_TIME_OUT = 408;
HTTP_CONFLICT = 409;
HTTP_GONE = 410;
HTTP_LENGTH_REQUIRED = 411;
HTTP_PRECONDITION_FAILED = 412;
HTTP_REQUEST_ENTITY_TOO_LARGE = 413;
HTTP_REQUEST_URI_TOO_LARGE = 414;
HTTP_UNSUPPORTED_MEDIA_TYPE = 415;
HTTP_RANGE_NOT_SATISFIABLE = 416;
HTTP_EXPECTATION_FAILED = 417;
HTTP_UNPROCESSABLE_ENTITY = 422;
HTTP_LOCKED = 423;
HTTP_FAILED_DEPENDENCY = 424;
HTTP_UPGRADE_REQUIRED = 426;
HTTP_INTERNAL_SERVER_ERROR = 500;
HTTP_NOT_IMPLEMENTED = 501;
HTTP_BAD_GATEWAY = 502;
HTTP_SERVICE_UNAVAILABLE = 503;
HTTP_GATEWAY_TIME_OUT = 504;
HTTP_VERSION_NOT_SUPPORTED = 505;
HTTP_VARIANT_ALSO_VARIES = 506;
_INSUFFICIENT_STORAGE = 507;
HTTP_NOT_EXTENDED = 510;
{ is the status code informational }
//#define ap_is_HTTP_INFO(x) (((x) >= 100)&&((x) < 200))
{ is the status code OK ?}
//#define ap_is_HTTP_SUCCESS(x) (((x) >= 200)&&((x) < 300))
{ is the status code a redirect }
//#define ap_is_HTTP_REDIRECT(x) (((x) >= 300)&&((x) < 400))
{ is the status code a error (client or server) }
//#define ap_is_HTTP_ERROR(x) (((x) >= 400)&&((x) < 600))
{ is the status code a client error }
//#define ap_is_HTTP_CLIENT_ERROR(x) (((x) >= 400)&&((x) < 500))
{ is the status code a server error }
//#define ap_is_HTTP_SERVER_ERROR(x) (((x) >= 500)&&((x) < 600))
{ should the status code drop the connection }
{#define ap_status_drops_connection(x) \
(((x) == HTTP_BAD_REQUEST) || \
((x) == HTTP_REQUEST_TIME_OUT) || \
((x) == HTTP_LENGTH_REQUIRED) || \
((x) == HTTP_REQUEST_ENTITY_TOO_LARGE) || \
((x) == HTTP_REQUEST_URI_TOO_LARGE) || \
((x) == HTTP_INTERNAL_SERVER_ERROR) || \
((x) == HTTP_SERVICE_UNAVAILABLE) || \
((x) == HTTP_NOT_IMPLEMENTED))}
{
* @defgroup Methods List of Methods recognized by the server
* @
* Methods recognized (but not necessarily handled) by the server.
* These constants are used in bit shifting masks of size int, so it is
* unsafe to have more methods than bits in an int. HEAD == M_GET.
* This list must be tracked by the list in http_protocol.c in routine
* ap_method_name_of().
}
const
M_GET = 0; // RFC 2616: HTTP
M_PUT = 1; // :
M_POST = 2;
M_DELETE = 3;
M_CONNECT = 4;
M_OPTIONS = 5;
M_TRACE = 6; // RFC 2616: HTTP }
M_PATCH = 7; // no rfc(!) ### remove this one? }
M_PROPFIND = 8; // RFC 2518: WebDAV }
M_PROPPATCH = 9; // : }
M_MKCOL = 10;
M_COPY = 11;
M_MOVE = 12;
M_LOCK = 13;
M_UNLOCK = 14; // RFC 2518: WebDAV }
M_VERSION_CONTROL = 15; // RFC 3253: WebDAV Versioning }
M_CHECKOUT = 16; // : }
M_UNCHECKOUT = 17;
M_CHECKIN = 18;
M_UPDATE = 19;
M_LABEL = 20;
M_REPORT = 21;
M_MKWORKSPACE = 22;
M_MKACTIVITY = 23;
M_BASELINE_CONTROL = 24;
M_MERGE = 25;
M_INVALID = 26; // RFC 3253: WebDAV Versioning }
{
* METHODS needs to be equal to the number of bits
* we are using for limit masks.
}
METHODS = 64;
{
* The method mask bit to shift for anding with a bitmask.
}
AP_METHOD_BIT = apr_int64_t(1);
{
* Structure for handling HTTP methods. Methods known to the server are
* accessed via a bitmask shortcut; extension methods are handled by
* an array.
}
type
ap_method_list_t = record
{ The bitmask used for known methods }
method_mask: apr_int64_t;
{ the array used for extension methods }
// method_list: ^apr_array_header_t;
end;
{
* @defgroup module_magic Module Magic mime types
* @
}
{ Magic for mod_cgi[d] }
const
CGI_MAGIC_TYPE = 'application/x-httpd-cgi';
{ Magic for mod_include }
INCLUDES_MAGIC_TYPE = 'text/x-server-parsed-html';
{ Magic for mod_include }
INCLUDES_MAGIC_TYPE3 = 'text/x-server-parsed-html3';
{ Magic for mod_dir }
DIR_MAGIC_TYPE = 'httpd/unix-directory';
{ Just in case your linefeed isn't the one the other end is expecting. }
{ linefeed }
LF = 10;
{ carrige return }
CR = 13;
{ carrige return /Line Feed Combo }
CRLF = #015#012;
{
* @defgroup values_request_rec_body Possible values for request_rec.read_body
* @
* Possible values for request_rec.read_body (set by handling module):
}
{ Send 413 error if message has any body }
REQUEST_NO_BODY = 0;
{ Send 411 error if body without Content-Length }
REQUEST_CHUNKED_ERROR = 1;
{ If chunked, remove the chunks for me. }
REQUEST_CHUNKED_DECHUNK = 2;
{
* @defgroup values_request_rec_used_path_info Possible values for request_rec.used_path_info
* @
* Possible values for request_rec.used_path_info:
}
{ Accept the path_info from the request }
AP_REQ_ACCEPT_PATH_INFO = 0;
{ Return a 404 error if path_info was given }
AP_REQ_REJECT_PATH_INFO = 1;
{ Module may chose to use the given path_info }
AP_REQ_DEFAULT_PATH_INFO = 2;
{ @}
{
* Things which may vary per file-lookup WITHIN a request ---
* e.g., state of MIME config. Basically, the name of an object, info
* about the object, and any other info we may ahve which may need to
* change as we go poking around looking for it (e.g., overridden by
* .htaccess files).
*
* Note how the default state of almost all these things is properly
* zero, so that allocating it with pcalloc does the right thing without
* a whole lot of hairy initialization... so long as we are willing to
* make the (fairly) portable assumption that the bit pattern of a NULL
* pointer is, in fact, zero.
}
{
* This represents the result of calling htaccess; these are cached for
* each request.
}
type
Phtaccess_result = ^htaccess_result;
htaccess_result = record
{ the directory to which this applies }
dir: PChar;
{ the overrides allowed for the .htaccess file }
override_: Integer;
{ the configuration directives }
htaccess: Pap_conf_vector_t;
{ the next one, or NULL if no more; N.B. never change this }
next: Phtaccess_result;
end;
{ The following four types define a hierarchy of activities, so that
* given a request_rec r you can write r->connection->server->process
* to get to the process_rec. While this reduces substantially the
* number of arguments that various hooks require beware that in
* threaded versions of the server you must consider multiplexing
* issues. }
{ ### would be nice to not include this from httpd.h ... }
{ This comes after we have defined the request_rec type }
//#include "apr_uri.h"
type
{ Forward declarations of pointer to record types}
Pconn_rec = ^conn_rec;
Prequest_rec = ^request_rec;
Pserver_rec = ^server_rec;
PPserver_rec = ^Pserver_rec;
Pserver_addr_rec = ^server_addr_rec;
Pprocess_rec = ^process_rec;
{ A structure that represents one process }
process_rec = record
{ Global pool. Cleared upon normal exit }
pool: Papr_pool_t;
{ Configuration pool. Cleared upon restart }
pconf: Papr_pool_t;
{ Number of command line arguments passed to the program }
argc: Integer;
{ The command line arguments }
argv: PChar;
{ The program name used to execute the program }
short_name: PChar;
end;
{ A structure that represents the current request }
request_rec = record
{ The pool associated with the request }
pool: Papr_pool_t;
{ The connection to the client }
connection: Pconn_rec;
{ The virtual host for this request }
server: Pserver_rec;
{ Pointer to the redirected request if this is an external redirect }
next: Prequest_rec;
{ Pointer to the previous request if this is an internal redirect }
prev: Prequest_rec;
{ Pointer to the main request if this is a sub-request
* (see http_request.h) }
main: Prequest_rec;
{ Info about the request itself... we begin with stuff that only
* protocol.c should ever touch...
}
{ First line of request }
the_request: PChar;
{ HTTP/0.9, "simple" request (e.g. GET /foo\n w/no headers) }
assbackwards: Integer;
{ A proxy request (calculated during post_read_request/translate_name)
* possible values PROXYREQ_NONE, PROXYREQ_PROXY, PROXYREQ_REVERSE,
* PROXYREQ_RESPONSE
}
proxyreq: Integer;
{ HEAD request, as opposed to GET }
header_only: Integer;
{ Protocol string, as given to us, or HTTP/0.9 }
protocol: PChar;
{ Protocol version number of protocol; 1.1 = 1001 }
proto_num: Integer;
{ Host, as set by full URI or Host: }
hostname: PChar;
{ Time when the request started }
request_time: apr_time_t;
{ Status line, if set by script }
status_line: PChar;
{ Status line }
status: Integer;
{ Request method, two ways; also, protocol, etc.. Outside of protocol.c,
* look, but don't touch.
}
{ Request method (eg. GET, HEAD, POST, etc.) }
method: PChar;
{ M_GET, M_POST, etc. }
method_number: Integer;
{
* 'allowed' is a bitvector of the allowed methods.
*
* A handler must ensure that the request method is one that
* it is capable of handling. Generally modules should DECLINE
* any request methods they do not handle. Prior to aborting the
* handler like this the handler should set r->allowed to the list
* of methods that it is willing to handle. This bitvector is used
* to construct the "Allow:" header required for OPTIONS requests,
* and HTTP_METHOD_NOT_ALLOWED and HTTP_NOT_IMPLEMENTED status codes.
*
* Since the default_handler deals with OPTIONS, all modules can
* usually decline to deal with OPTIONS. TRACE is always allowed,
* modules don't need to set it explicitly.
*
* Since the default_handler will always handle a GET, a
* module which does *not* implement GET should probably return
* HTTP_METHOD_NOT_ALLOWED. Unfortunately this means that a Script GET
* handler can't be installed by mod_actions.
}
allowed: apr_int64_t;
{ Array of extension methods }
allowed_xmethods: Papr_array_header_t;
{ List of allowed methods }
allowed_methods: Pap_method_list_t;
{ byte count in stream is for body }
sent_bodyct: apr_off_t;
{ body byte count, for easy access }
bytes_sent: apr_off_t;
{ Last modified time of the requested resource }
mtime: apr_time_t;
{ HTTP/1.1 connection-level features }
{ sending chunked transfer-coding }
chunked: Integer;
{ The Range: header }
range: PChar;
{ The "real" content length }
clength: apr_off_t;
{ Remaining bytes left to read from the request body }
remaining: apr_off_t;
{ Number of bytes that have been read from the request body }
read_length: apr_off_t;
{ Method for reading the request body
* (eg. REQUEST_CHUNKED_ERROR, REQUEST_NO_BODY,
* REQUEST_CHUNKED_DECHUNK, etc...) }
read_body: Integer;
{ reading chunked transfer-coding }
read_chunked: Integer;
{ is client waiting for a 100 response? }
expecting_100: Cardinal;
{ MIME header environments, in and out. Also, an array containing
* environment variables to be passed to subprocesses, so people can
* write modules to add to that environment.
*
* The difference between headers_out and err_headers_out is that the
* latter are printed even on error, and persist across internal redirects
* (so the headers printed for ErrorDocument handlers will have them).
*
* The 'notes' apr_table_t is for notes from one module to another, with no
* other set purpose in mind...
}
{ MIME header environment from the request }
headers_in: Papr_table_t;
{ MIME header environment for the response }
headers_out: Papr_table_t;
{ MIME header environment for the response, printed even on errors and
* persist across internal redirects }
err_headers_out: Papr_table_t;
{ Array of environment variables to be used for sub processes }
subprocess_env: Papr_table_t;
{ Notes from one module to another }
notes: Papr_table_t;
{ content_type, handler, content_encoding, and all content_languages
* MUST be lowercased strings. They may be pointers to static strings;
* they should not be modified in place.
}
{ The content-type for the current request }
content_type: PChar; // Break these out --- we dispatch on 'em
{ The handler string that we use to call a handler function }
handler: PChar; // What we *really* dispatch on
{ How to encode the data }
content_encoding: PChar;
{ Array of strings representing the content languages }
content_languages: Papr_array_header_t;
{ variant list validator (if negotiated) }
vlist_validator: PChar;
{ If an authentication check was made, this gets set to the user name. }
user: PChar;
{ If an authentication check was made, this gets set to the auth type. }
ap_auth_type: PChar;
{ This response can not be cached }
no_cache: Integer;
{ There is no local copy of this response }
no_local_copy: Integer;
{ What object is being requested (either directly, or via include
* or content-negotiation mapping).
}
{ The URI without any parsing performed }
unparsed_uri: PChar;
{ The path portion of the URI }
uri: PChar;
{ The filename on disk corresponding to this response }
filename: PChar;
{ XXX: What does this mean? Please define "canonicalize" -aaron }
{ The true filename, we canonicalize r->filename if these don't match }
canonical_filename: PChar;
{ The PATH_INFO extracted from this request }
path_info: PChar;
{ The QUERY_ARGS extracted from this request }
args: PChar;
{ finfo.protection (st_mode) set to zero if no such file }
finfo: apr_finfo_t;
{ A struct containing the components of URI }
parsed_uri: apr_uri_t;
{
* Flag for the handler to accept or reject path_info on
* the current request. All modules should respect the
* AP_REQ_ACCEPT_PATH_INFO and AP_REQ_REJECT_PATH_INFO
* values, while AP_REQ_DEFAULT_PATH_INFO indicates they
* may follow existing conventions. This is set to the
* user's preference upon HOOK_VERY_FIRST of the fixups.
}
used_path_info: Integer;
{ Various other config info which may change with .htaccess files
* These are config vectors, with one void* pointer for each module
* (the thing pointed to being the module's business).
}
{ Options set in config files, etc.}
per_dir_config: Pap_conf_vector_t;
{ Notes on *this* request }
request_config: Pap_conf_vector_t;
{
* A linked list of the .htaccess configuration directives
* accessed by this request.
* N.B. always add to the head of the list, _never_ to the end.
* that way, a sub request's list can (temporarily) point to a parent's list
}
htaccess: Phtaccess_result;
{ A list of output filters to be used for this request }
output_filters: Pap_filter_t;
{ A list of input filters to be used for this request }
input_filters: Pap_filter_t;
{ A list of protocol level output filters to be used for this
* request }
proto_output_filters: Pap_filter_t;
{ A list of protocol level input filters to be used for this
* request }
proto_input_filters: Pap_filter_t;
{ A flag to determine if the eos bucket has been sent yet }
eos_sent: Integer;
{ Things placed at the end of the record to avoid breaking binary
* compatibility. It would be nice to remember to reorder the entire
* record to improve 64bit alignment the next time we need to break
* binary compatibility for some other reason.
}
end;
{
* @defgroup ProxyReq Proxy request types
*
* Possible values of request_rec->proxyreq. A request could be normal,
* proxied or reverse proxied. Normally proxied and reverse proxied are
* grouped together as just "proxied", but sometimes it's necessary to
* tell the difference between the two, such as for authentication.
}
ap_conn_keepalive_e = (AP_CONN_UNKNOWN, AP_CONN_CLOSE, AP_CONN_KEEPALIVE);
{ Structure to store things which are per connection }
conn_rec = record
{ Pool associated with this connection }
pool: Papr_pool_t;
{ Physical vhost this conn came in on }
base_server: Pserver_rec;
{ used by http_vhost.c }
vhost_lookup_data: Pointer;
{ Information about the connection itself }
{ local address }
local_addr: Papr_sockaddr_t;
{ remote address }
remote_addr: Papr_sockaddr_t;
{ Client's IP address }
remote_ip: PChar;
{ Client's DNS name, if known. NULL if DNS hasn't been checked,
* "" if it has and no address was found. N.B. Only access this though
* get_remote_host() }
remote_host: PChar;
{ Only ever set if doing rfc1413 lookups. N.B. Only access this through
* get_remote_logname() }
remote_logname: PChar;
{ Are we still talking? }
flags: Cardinal;
(* Useless bitset variables to make the code obscure
Are we still talking?
unsigned aborted:1;
Are we going to keep the connection alive for another request?
* @see ap_conn_keepalive_e
signed int keepalive:2;
have we done double-reverse DNS? -1 yes/failure, 0 not yet,
* 1 yes/success
signed int double_reverse:2;
*)
{ How many times have we used it? }
keepalives: Integer;
{ server IP address }
local_ip: PChar;
{ used for ap_get_server_name when UseCanonicalName is set to DNS
* (ignores setting of HostnameLookups) }
local_host: PChar;
{ ID of this connection; unique at any point in time }
id: Integer; // long
{ Config vector containing pointers to connections per-server
* config structures. }
conn_config: Pap_conf_vector_t;
{ Notes on *this* connection: send note from one module to
* another. must remain valid for all requests on this conn }
notes: Papr_table_t;
{ A list of input filters to be used for this connection }
input_filters: Pap_filter_t;
{ A list of output filters to be used for this connection }
output_filters: Pap_filter_t;
{ handle to scoreboard information for this connection }
sbh: Pointer;
{ The bucket allocator to use for all bucket/brigade creations }
bucket_alloc: Papr_bucket_alloc_t;
end;
{ Per-vhost config... }
{ A structure to be used for Per-vhost config }
server_addr_rec = record
{ The next server in the list }
next: Pserver_addr_rec;
{ The bound address, for this server }
host_addr: Papr_sockaddr_t;
{ The bound port, for this server }
host_port: apr_port_t;
{ The name given in <VirtualHost> }
virthost: PChar;
end;
{ A structure to store information for each virtual server }
server_rec = record
{ The process this server is running in }
process: Pprocess_rec;
{ The next server in the list }
next: Pserver_rec;
{ The name of the server }
defn_name: PChar;
{ The line of the config file that the server was defined on }
defn_line_number: Integer;
{ Contact information }
{ The admin's contact information }
server_admin: PChar;
{ The server hostname }
server_hostname: PChar;
{ for redirects, etc. }
port: apr_port_t;
{ Log files --- note that transfer log is now in the modules... }
{ The name of the error log }
error_fname: PChar;
{ A file descriptor that references the error log }
error_log: Papr_file_t;
{ The log level for this server }
loglevel: Integer;
{ Module-specific configuration for server, and defaults... }
{ true if this is the virtual server }
is_virtual: Integer;
{ Config vector containing pointers to modules' per-server config
* structures. }
module_config: Pap_conf_vector_t;
{ MIME type info, etc., before we start checking per-directory info }
lookup_defaults: Pap_conf_vector_t;
{ Transaction handling }
{ I haven't got a clue }
addrs: Pserver_addr_rec;
{ Timeout, as an apr interval, before we give up }
timeout: apr_interval_time_t;
{ The apr interval we will wait for another request }
keep_alive_timeout: apr_interval_time_t;
{ Maximum requests per connection }
keep_alive_max: Integer;
{ Use persistent connections? }
keep_alive: Integer;
{ Pathname for ServerPath }
path: PChar;
{ Length of path }
pathlen: Integer;
{ Normal names for ServerAlias servers }
names: Papr_array_header_t;
{ Wildcarded names for ServerAlias servers }
wild_names: Papr_array_header_t;
{ limit on size of the HTTP request line }
limit_req_line: Integer;
{ limit on size of any request header field }
limit_req_fieldsize: Integer;
{ limit on number of request header fields }
limit_req_fields: Integer;
end;
type
core_output_filter_ctx = record
b: Papr_bucket_brigade;
deferred_write_pool: Papr_pool_t; { subpool of c->pool used for resources
* which may outlive the request }
end;
core_filter_ctx = record
b: Papr_bucket_brigade;
tmpbb: Papr_bucket_brigade;
end; // core_ctx_t
core_ctx_t = core_filter_ctx;
Pcore_ctx_t = ^core_ctx_t;
type
core_net_rec = record
{ Connection to the client }
client_socket: Papr_socket_t;
{ connection record }
c: Pconn_rec;
out_ctx: Pcore_output_filter_ctx_t;
in_ctx: Pcore_ctx_t;
end; // core_net_rec;
Pcore_net_rec = ^core_net_rec;
{
The constants are on the bottom because the structures need to be on the same type block
}
const
PROXYREQ_NONE = 0; {< No proxy }
PROXYREQ_PROXY = 1; {< Standard proxy }
PROXYREQ_REVERSE = 2; {< Reverse proxy }
PROXYREQ_RESPONSE = 3; {< Origin response }
{
* The address 255.255.255.255, when used as a virtualhost address,
* will become the "default" server when the ip doesn't match other vhosts.
}
const DEFAULT_VHOST_ADDR = $ffffffff;//ul
{
* Examine a field value (such as a media-/content-type) string and return
* it sans any parameters; e.g., strip off any ';charset=foo' and the like.
* @param p Pool to allocate memory from
* @param intype The field to examine
* @return A copy of the field minus any parameters
}
function ap_field_noparam(p: Papr_pool_t; const intype: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_field_noparam' + LibSuff8;
{
* Convert a time from an integer into a string in a specified format
* @param p The pool to allocate memory from
* @param t The time to convert
* @param fmt The format to use for the conversion
* @param gmt Convert the time for GMT?
* @return The string that represents the specified time
}
function ap_ht_time(p: Papr_pool_t; t: apr_time_t; const fmt: PChar; gmt: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_ht_time' + LibSuff20;
{ String handling. The *_nc variants allow you to use non-const char **s as
arguments (unfortunately C won't automatically convert a char ** to a const
char **) }
{
* Get the characters until the first occurance of a specified character
* @param p The pool to allocate memory from
* @param line The string to get the characters from
* @param stop The character to stop at
* @return A copy of the characters up to the first stop character
}
function ap_getword(p: Papr_pool_t; const line: PPChar; stop: Char): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword' + LibSuff12;
{
* Get the characters until the first occurance of a specified character
* @param p The pool to allocate memory from
* @param line The string to get the characters from
* @param stop The character to stop at
* @return A copy of the characters up to the first stop character
* @note This is the same as ap_getword(), except it doesn't use const char **.
}
function ap_getword_nc(p: Papr_pool_t; const line: PPChar; stop: Char): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_nc' + LibSuff12;
{
* Get the first word from a given string. A word is defined as all characters
* up to the first whitespace.
* @param p The pool to allocate memory from
* @param line The string to traverse
* @return The first word in the line
}
function ap_getword_white(p: Papr_pool_t; const line: PPChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_white' + LibSuff8;
{
* Get the first word from a given string. A word is defined as all characters
* up to the first whitespace.
* @param p The pool to allocate memory from
* @param line The string to traverse
* @return The first word in the line
* @note The same as ap_getword_white(), except it doesn't use const char **.
}
function ap_getword_white_nc(p: Papr_pool_t; const line: PPChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_white_nc' + LibSuff8;
{
* Get all characters from the first occurance of @a stop to the first '\0'
* @param p The pool to allocate memory from
* @param line The line to traverse
* @param stop The character to start at
* @return A copy of all caracters after the first occurance of the specified
* character
}
function ap_getword_nulls(p: Papr_pool_t; const line: PPChar; stop: Char): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_nulls' + LibSuff12;
{
* Get all characters from the first occurance of @a stop to the first '\0'
* @param p The pool to allocate memory from
* @param line The line to traverse
* @param stop The character to start at
* @return A copy of all caracters after the first occurance of the specified
* character
* @note The same as ap_getword_nulls(), except it doesn't use const char **.
}
function ap_getword_nulls_nc(p: Papr_pool_t; const line: PPChar; stop: Char): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_nulls_nc' + LibSuff12;
{
* Get the second word in the string paying attention to quoting
* @param p The pool to allocate from
* @param line The line to traverse
* @return A copy of the string
}
function ap_getword_conf(p: Papr_pool_t; const line: PPChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_conf' + LibSuff8;
{
* Get the second word in the string paying attention to quoting
* @param p The pool to allocate from
* @param line The line to traverse
* @return A copy of the string
* @note The same as ap_getword_conf(), except it doesn't use const char **.
}
function ap_getword_conf_nc(p: Papr_pool_t; const line: PPChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getword_conf_nc' + LibSuff8;
{
* Check a string for any $ENV environment variable construct and replace
* each them by the value of that environment variable, if it exists. If the
* environment value does not exist, leave the $ENV construct alone; it
* means something else.
* @param p The pool to allocate from
* @param word The string to check
* @return The string with the replaced environment variables
}
function ap_resolve_env(p: Papr_pool_t; const word_: PChar; accept_white: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_resolve_env' + LibSuff8;
{
* Size an HTTP header field list item, as separated by a comma.
* @param field The field to size
* @param len The length of the field
* @return The return value is a pointer to the beginning of the non-empty
* list item within the original string (or NULL if there is none) and the
* address of field is shifted to the next non-comma, non-whitespace
* character. len is the length of the item excluding any beginning whitespace.
}
function ap_size_list_item(const field: PPChar; len: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_size_list_item' + LibSuff8;
{
* Retrieve an HTTP header field list item, as separated by a comma,
* while stripping insignificant whitespace and lowercasing anything not in
* a quoted string or comment.
* @param p The pool to allocate from
* @param field The field to retrieve
* @return The return value is a new string containing the converted list
* item (or NULL if none) and the address pointed to by field is
* shifted to the next non-comma, non-whitespace.
}
function ap_get_list_item(p: Papr_pool_t; const field: PPChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_get_list_item' + LibSuff8;
{
* Find an item in canonical form (lowercase, no extra spaces) within
* an HTTP field value list.
* @param p The pool to allocate from
* @param line The field value list to search
* @param tok The token to search for
* @return 1 if found, 0 if not found.
}
function ap_find_list_item(p: Papr_pool_t; const line, tok: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_list_item' + LibSuff12;
{
* Retrieve a token, spacing over it and returning a pointer to
* the first non-white byte afterwards. Note that these tokens
* are delimited by semis and commas and can also be delimited
* by whitespace at the caller's option.
* @param p The pool to allocate from
* @param accept_line The line to retrieve the token from
* @param accept_white Is it delimited by whitespace
* @return the first non-white byte after the token
}
function ap_get_token(p: Papr_pool_t; const accept_line: PPChar; accept_white: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_get_token' + LibSuff12;
{
* Find http tokens, see the definition of token from RFC2068
* @param p The pool to allocate from
* @param line The line to find the token
* @param tok The token to find
* @return 1 if the token is found, 0 otherwise
}
function ap_find_token(p: Papr_pool_t; const line, tok: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_token' + LibSuff12;
{
* find http tokens from the end of the line
* @param p The pool to allocate from
* @param line The line to find the token
* @param tok The token to find
* @return 1 if the token is found, 0 otherwise
}
function ap_find_last_token(p: Papr_pool_t; const line, tok: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_find_last_token' + LibSuff12;
{
* Check for an Absolute URI syntax
* @param u The string to check
* @return 1 if URI, 0 otherwise
}
function ap_is_url(const u: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_is_url' + LibSuff4;
{
* Unescape a URL
* @param url The url to unescape
* @return 0 on success, non-zero otherwise
}
function ap_unescape_url(url: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_unescape_url' + LibSuff4;
{
* Unescape a URL, but leaving %2f (slashes) escaped
* @param url The url to unescape
* @return 0 on success, non-zero otherwise
}
function ap_unescape_url_keep2f(url: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_unescape_url_keep2f' + LibSuff4;
{
* Convert all double slashes to single slashes
* @param name The string to convert
}
procedure ap_no2slash(name: PChar);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_no2slash' + LibSuff4;
{
* Remove all ./ and xx/../ substrings from a file name. Also remove
* any leading ../ or /../ substrings.
* @param name the file name to parse
}
procedure ap_getparents(name: PChar);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_getparents' + LibSuff4;
{
* Escape a path segment, as defined in RFC 1808
* @param p The pool to allocate from
* @param s The path to convert
* @return The converted URL
}
function ap_escape_path_segment(p: Papr_pool_t; const s: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_escape_path_segment' + LibSuff8;
{
* convert an OS path to a URL in an OS dependant way.
* @param p The pool to allocate from
* @param path The path to convert
* @param partial if set, assume that the path will be appended to something
* with a '/' in it (and thus does not prefix "./")
* @return The converted URL
}
function ap_os_escape_path(p: Papr_pool_t; const path: PChar; partial: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_os_escape_path' + LibSuff12;
{ @see ap_os_escape_path }
function ap_escape_uri(p: Papr_pool_t; const path: PChar): PChar;
{
* Escape an html string
* @param p The pool to allocate from
* @param s The html to escape
* @return The escaped string
}
function ap_escape_html(p: Papr_pool_t; const s: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_escape_html' + LibSuff8;
{
* Escape a string for logging
* @param p The pool to allocate from
* @param str The string to escape
* @return The escaped string
}
function ap_escape_logitem(p: Papr_pool_t; const str: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_escape_logitem' + LibSuff8;
{
* Escape a string for logging into the error log (without a pool)
* @param dest The buffer to write to
* @param source The string to escape
* @param buflen The buffer size for the escaped string (including \0)
* @return The len of the escaped string (always < maxlen)
}
function ap_escape_errorlog_item(dest, source: PChar;
buflen: apr_size_t): apr_size_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_escape_errorlog_item' + LibSuff12;
{
* Construct a full hostname
* @param p The pool to allocate from
* @param hostname The hostname of the server
* @param port The port the server is running on
* @param r The current request
* @return The server's hostname
}
function ap_construct_server(p: Papr_pool_t; const hostname: PChar;
port: Papr_port_t; const r: Prequest_rec): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_construct_server' + LibSuff16;
{
* Escape a shell command
* @param p The pool to allocate from
* @param s The command to escape
* @return The escaped shell command
}
function ap_escape_shell_cmd(p: Papr_pool_t; const s: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_escape_shell_cmd' + LibSuff8;
{
* Count the number of directories in a path
* @param path The path to count
* @return The number of directories
}
function ap_count_dirs(const path: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_count_dirs' + LibSuff4;
{
* Copy at most @a n leading directories of @a s into @a d. @a d
* should be at least as large as @a s plus 1 extra byte
*
* @param d The location to copy to
* @param s The location to copy from
* @param n The number of directories to copy
* @return value is the ever useful pointer to the trailing \0 of d
* @note on platforms with drive letters, n = 0 returns the "/" root,
* whereas n = 1 returns the "d:/" root. On all other platforms, n = 0
* returns the empty string. }
function ap_make_dirstr_prefix(const d, s: PChar; n: Integer): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_make_dirstr_prefix' + LibSuff12;
{
* Return the parent directory name (including trailing /) of the file
* @a s
* @param p The pool to allocate from
* @param s The file to get the parent of
* @return A copy of the file's parent directory
}
function ap_make_dirstr_parent(p: Papr_pool_t; const s: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_make_dirstr_parent' + LibSuff8;
{
* Given a directory and filename, create a single path from them. This
* function is smart enough to ensure that there is a sinlge '/' between the
* directory and file names
* @param a The pool to allocate from
* @param dir The directory name
* @param f The filename
* @return A copy of the full path
* @tip Never consider using this function if you are dealing with filesystem
* names that need to remain canonical, unless you are merging an apr_dir_read
* path and returned filename. Otherwise, the result is not canonical.
}
function ap_make_full_path(a: Papr_pool_t; const dir, f: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_make_full_path' + LibSuff12;
{
* Test if the given path has an an absolute path.
* @param p The pool to allocate from
* @param dir The directory name
* @tip The converse is not necessarily true, some OS's (Win32/OS2/Netware) have
* multiple forms of absolute paths. This only reports if the path is absolute
* in a canonical sense.
}
function ap_os_is_path_absolute(p: Papr_pool_t; const dir: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_os_is_path_absolute' + LibSuff8;
{
* Does the provided string contain wildcard characters? This is useful
* for determining if the string should be passed to strcmp_match or to strcmp.
* The only wildcard characters recognized are '?' and '*'
* @param str The string to check
* @return 1 if the string has wildcards, 0 otherwise
}
function ap_is_matchexp(const str: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_is_matchexp' + LibSuff4;
{
* Determine if a string matches a patterm containing the wildcards '?' or '*'
* @param str The string to check
* @param expected The pattern to match against
* @return 1 if the two strings match, 0 otherwise
}
function ap_strcmp_match(const str, expected: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_strcmp_match' + LibSuff8;
{
* Determine if a string matches a patterm containing the wildcards '?' or '*',
* ignoring case
* @param str The string to check
* @param expected The pattern to match against
* @return 1 if the two strings match, 0 otherwise
}
function ap_strcasecmp_match(const str, expected: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_strcasecmp_match' + LibSuff8;
{
* Find the first occurrence of the substring s2 in s1, regardless of case
* @param s1 The string to search
* @param s2 The substring to search for
* @return A pointer to the beginning of the substring
* @remark See apr_strmatch() for a faster alternative
}
function ap_strcasestr(const s1, s2: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_strcasestr' + LibSuff8;
{
* Return a pointer to the location inside of bigstring immediately after prefix
* @param bigstring The input string
* @param prefix The prefix to strip away
* @return A pointer relative to bigstring after prefix
}
function ap_stripprefix(const bigstring, prefix: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_stripprefix' + LibSuff8;
{
* Decode a base64 encoded string into memory allocated from a pool
* @param p The pool to allocate from
* @param bufcoded The encoded string
* @return The decoded string
}
function ap_pbase64decode(p: Papr_pool_t; const bufcoded: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pbase64decode' + LibSuff8;
{
* Encode a string into memory allocated from a pool in base 64 format
* @param p The pool to allocate from
* @param strin The plaintext string
* @return The encoded string
}
function ap_pbase64encode(p: Papr_pool_t; string_: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pbase64encode' + LibSuff8;
{
* Compile a regular expression to be used later
* @param p The pool to allocate from
* @param pattern the regular expression to compile
* @param cflags The bitwise or of one or more of the following:
* @li #REG_EXTENDED - Use POSIX extended Regular Expressions
* @li #REG_ICASE - Ignore case
* @li #REG_NOSUB - Support for substring addressing of matches
* not required
* @li #REG_NEWLINE - Match-any-character operators don't match new-line
* @return The compiled regular expression
}
function ap_pregcomp(p: Papr_pool_t; const pattern: PChar; cflags: Integer): Pregex_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pregcomp' + LibSuff12;
{
* Free the memory associated with a compiled regular expression
* @param p The pool the regex was allocated from
* @param reg The regular expression to free
}
procedure ap_pregfree(p: Papr_pool_t; reg: Pregex_t);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pregfree' + LibSuff8;
{
* Match a null-terminated string against a pre-compiled regex.
* @param preg The pre-compiled regex
* @param string The string to match
* @param nmatch Provide information regarding the location of any matches
* @param pmatch Provide information regarding the location of any matches
* @param eflags Bitwise or of any of:
* @li #REG_NOTBOL - match-beginning-of-line operator always
* fails to match
* @li #REG_NOTEOL - match-end-of-line operator always fails to match
* @return 0 for successful match, #REG_NOMATCH otherwise
}
function ap_regexec(preg: Pregex_t; const string_: PChar;
nmatch: size_t; pmatch: array of regmatch_t; eflags: Integer): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_regexec' + LibSuff20;
{
* Return the error code returned by regcomp or regexec into error messages
* @param errcode the error code returned by regexec or regcomp
* @param preg The precompiled regex
* @param errbuf A buffer to store the error in
* @param errbuf_size The size of the buffer
}
function ap_regerror(errcode: Integer; preg: Pregex_t;
errbuf: PChar; errbuf_size: size_t): size_t;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_regerror' + LibSuff16;
{
* After performing a successful regex match, you may use this function to
* perform a series of string substitutions based on subexpressions that were
* matched during the call to ap_regexec
* @param p The pool to allocate from
* @param input An arbitrary string containing $1 through $9. These are
* replaced with the corresponding matched sub-expressions
* @param source The string that was originally matched to the regex
* @param nmatch the nmatch returned from ap_pregex
* @param pmatch the pmatch array returned from ap_pregex
}
function ap_pregsub(p: Papr_pool_t; const input, source: PChar;
nmatch: size_t; pmatch: array of regmatch_t): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_pregsub' + LibSuff20;
{
* We want to downcase the type/subtype for comparison purposes
* but nothing else because ;parameter=foo values are case sensitive.
* @param s The content-type to convert to lowercase
}
procedure ap_content_type_tolower(s: PChar);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_content_type_tolower' + LibSuff4;
{
* convert a string to all lowercase
* @param s The string to convert to lowercase
}
procedure ap_str_tolower(s: PChar);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_str_tolower' + LibSuff4;
{
* Search a string from left to right for the first occurrence of a
* specific character
* @param str The string to search
* @param c The character to search for
* @return The index of the first occurrence of c in str
}
function ap_ind(str: PChar; c: Char): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_ind' + LibSuff8;
{
* Search a string from right to left for the first occurrence of a
* specific character
* @param str The string to search
* @param c The character to search for
* @return The index of the first occurrence of c in str
}
function ap_rind(str: PChar; c: Char): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_rind' + LibSuff8;
{
* Given a string, replace any bare " with \" .
* @param p The pool to allocate memory from
* @param instring The string to search for "
* @return A copy of the string with escaped quotes
}
function ap_escape_quotes(p: Papr_pool_t; const instring: PChar): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_escape_quotes' + LibSuff8;
{ Misc system hackery }
{
* Given the name of an object in the file system determine if it is a directory
* @param p The pool to allocate from
* @param name The name of the object to check
* @return 1 if it is a directory, 0 otherwise
}
function ap_is_rdirectory(p: Papr_pool_t; const name: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_is_rdirectory' + LibSuff8;
{
* Given the name of an object in the file system determine if it is a directory - this version is symlink aware
* @param p The pool to allocate from
* @param name The name of the object to check
* @return 1 if it is a directory, 0 otherwise
}
function ap_is_directory(p: Papr_pool_t; const name: PChar): Integer;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_is_directory' + LibSuff8;
{#ifdef _OSD_POSIX
extern const char *os_set_account(apr_pool_t *p, const char *account);
extern int os_init_job_environment(server_rec *s, const char *user_name, int one_process);
#endif} { _OSD_POSIX }
{
* Determine the local host name for the current machine
* @param p The pool to allocate from
* @return A copy of the local host name
}
//char *ap_get_local_host(apr_pool_t *p);
{
* Log an assertion to the error log
* @param szExp The assertion that failed
* @param szFile The file the assertion is in
* @param nLine The line the assertion is defined on
}
procedure ap_log_assert(szExp, szFile: PChar; nLine: Integer);
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_log_assert' + LibSuff12;
{ @internal }
//#define ap_assert(exp) ((exp) ? (void)0 : ap_log_assert(#exp,__FILE__,__LINE__))
{
* Redefine assert() to something more useful for an Apache...
*
* Use ap_assert() if the condition should always be checked.
* Use AP_DEBUG_ASSERT() if the condition should only be checked when AP_DEBUG
* is defined.
}
{#ifdef AP_DEBUG
#define AP_DEBUG_ASSERT(exp) ap_assert(exp)
#else
#define AP_DEBUG_ASSERT(exp) ((void)0)
#endif}
{
* @defgroup stopsignal flags which indicate places where the sever should stop for debugging.
* @
* A set of flags which indicate places where the server should raise(SIGSTOP).
* This is useful for debugging, because you can then attach to that process
* with gdb and continue. This is important in cases where one_process
* debugging isn't possible.
}
{ stop on a Detach }
// SIGSTOP_DETACH = 1;
{ stop making a child process }
// SIGSTOP_MAKE_CHILD = 2;
{ stop spawning a child process }
// SIGSTOP_SPAWN_CHILD = 4;
{ stop spawning a child process with a piped log }
// SIGSTOP_PIPED_LOG_SPAWN = 8;
{ stop spawning a CGI child process }
// SIGSTOP_CGI_CHILD = 16;
{ Macro to get GDB started }
{#ifdef DEBUG_SIGSTOP
extern int raise_sigstop_flags;
#define RAISE_SIGSTOP(x) do begin
if (raise_sigstop_flags & SIGSTOP_##x) raise(SIGSTOP);\
end while (0)
#else
#define RAISE_SIGSTOP(x)
#endif }
{
* Get HTML describing the address and (optionally) admin of the server.
* @param prefix Text which is prepended to the return value
* @param r The request_rec
* @return HTML describing the server, allocated in @a r's pool.
}
function ap_psignature(prefix: PChar; r: Prequest_rec): PChar;
{$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF}
external LibHTTPD name LibNamePrefix + 'ap_psignature' + LibSuff8;
{const
AP_NORESTART = APR_OS_START_USEERR + 1;}