Annotation of libwww/Library/src/HTFilter.c, revision 2.20
2.1 frystyk 1: /*
2: ** BEFORE AND AFTER FILTERS
3: **
4: ** (c) COPYRIGHT MIT 1995.
5: ** Please first read the full copyright statement in the file COPYRIGH.
2.20 ! frystyk 6: ** @(#) $Id: HTFilter.c,v 2.19 1997/02/16 17:49:13 frystyk Exp $
2.1 frystyk 7: **
8: ** This module implrments a set of default filters that can be registerd
9: ** as BEFORE and AFTER filters to the Net manager
10: ** Authors
11: ** HFN Henrik Frystyk, frystyk@w.org
12: ** History
13: ** Jul 4, 96 Written
14: */
15:
16: /* Library include files */
17: #include "WWWLib.h"
18: #include "WWWCache.h"
19: #include "WWWHTTP.h"
20: #include "HTLog.h"
21: #include "HTAccess.h"
2.10 frystyk 22: #include "HTProxy.h"
23: #include "HTRules.h"
2.1 frystyk 24: #include "HTFilter.h" /* Implemented here */
25:
26: /* ------------------------------------------------------------------------- */
27:
28: /*
29: ** Proxy and Gateway BEFORE filter
30: ** -------------------------------
31: ** Checks for registerd proxy servers or gateways and sees whether this
32: ** request should be redirected to a proxy or a gateway. Proxies have
33: ** higher priority than gateways so we look for them first!
34: ** For HTTP/1.0 and HTTP/1.1 we may only send a full URL (including the
35: ** host portion) to proxy servers. Therefore, we tell the Library whether
36: ** to use the full URL or the traditional HTTP one without the host part.
37: */
2.15 frystyk 38: PUBLIC int HTProxyFilter (HTRequest * request, void * param, int mode)
2.1 frystyk 39: {
40: HTParentAnchor * anchor = HTRequest_anchor(request);
2.2 frystyk 41: char * addr = HTAnchor_physical(anchor);
2.1 frystyk 42: char * physical = NULL;
43: if ((physical = HTProxy_find(addr))) {
2.6 frystyk 44: HTRequest_setFullURI(request, YES); /* For now */
2.5 frystyk 45: HTRequest_setProxy(request, physical);
2.8 frystyk 46: HT_FREE(physical);
2.6 frystyk 47: #if 0
48: /* Don't paste the URLs together anymore */
2.1 frystyk 49: StrAllocCat(physical, addr);
2.5 frystyk 50: HTAnchor_setPhysical(anchor, physical);
2.6 frystyk 51: #endif
2.1 frystyk 52: } else if ((physical = HTGateway_find(addr))) {
53: /*
54: ** A gateway URL is crated by chopping off any leading "/" to make the
55: ** host into part of path
56: */
57: char * path =
58: HTParse(addr, "", PARSE_HOST + PARSE_PATH + PARSE_PUNCTUATION);
59: char * gatewayed = HTParse(path+1, physical, PARSE_ALL);
60: HTAnchor_setPhysical(anchor, gatewayed);
61: HT_FREE(path);
62: HT_FREE(gatewayed);
63: HTRequest_setFullURI(request, NO);
2.6 frystyk 64: HTRequest_deleteProxy(request);
2.1 frystyk 65: } else {
2.6 frystyk 66: HTRequest_setFullURI(request, NO); /* For now */
67: HTRequest_deleteProxy(request);
2.1 frystyk 68: }
69: return HT_OK;
70: }
71:
72: /*
73: ** Rule Translation BEFORE Filter
74: ** ------------------------------
75: ** If we have a set of rules loaded (see the Rule manager) then check
76: ** before each request whether how that should be translated. The trick
77: ** is that a parent anchor has a "address" which is the part from the URL
78: ** we used when we created the anchor. However, it also have a "physical
79: ** address" which is the place we are actually going to look for the
2.2 frystyk 80: ** resource. Hence this filter translates the physical address
81: ** (if any translations are found)
2.1 frystyk 82: */
2.15 frystyk 83: PUBLIC int HTRuleFilter (HTRequest * request, void * param, int mode)
2.1 frystyk 84: {
85: HTList * list = HTRule_global();
86: HTParentAnchor * anchor = HTRequest_anchor(request);
2.2 frystyk 87: char * addr = HTAnchor_physical(anchor);
2.1 frystyk 88: char * physical = HTRule_translate(list, addr, NO);
89: if (!physical) {
90: HTRequest_addError(request, ERR_FATAL, NO, HTERR_FORBIDDEN,
91: NULL, 0, "HTRuleFilter");
92: return HT_ERROR;
93: }
94: HTAnchor_setPhysical(anchor, physical);
95: HT_FREE(physical);
96: return HT_OK;
97: }
98:
99: /*
100: ** Cache Validation BEFORE Filter
101: ** ------------------------------
102: ** Check the cache mode to see if we can use an already loaded version
103: ** of this document. If so and our copy is valid then we don't have
104: ** to go out and get it unless we are forced to
2.3 frystyk 105: ** We only check the cache in caseof a GET request. Otherwise, we go
106: ** directly to the source.
2.1 frystyk 107: */
2.15 frystyk 108: PUBLIC int HTCacheFilter (HTRequest * request, void * param, int mode)
2.1 frystyk 109: {
110: HTParentAnchor * anchor = HTRequest_anchor(request);
2.12 frystyk 111: HTCache * cache = NULL;
2.15 frystyk 112: HTReload reload = HTRequest_reloadMode(request);
2.3 frystyk 113: HTMethod method = HTRequest_method(request);
2.12 frystyk 114: HTDisconnectedMode disconnect = HTCacheMode_disconnected();
115: BOOL validate = NO;
2.3 frystyk 116:
117: /*
2.12 frystyk 118: ** If the cache is disabled all together then it won't help looking, huh?
2.3 frystyk 119: */
2.12 frystyk 120: if (!HTCacheMode_enabled()) return HT_OK;
121: if (CACHE_TRACE) HTTrace("Cachefilter. Checking persistent cache\n");
2.3 frystyk 122:
2.1 frystyk 123: /*
2.12 frystyk 124: ** Now check the cache...
2.1 frystyk 125: */
2.12 frystyk 126: if (method != METHOD_GET) {
127: if (CACHE_TRACE) HTTrace("Cachefilter. We only check GET methods\n");
2.15 frystyk 128: } else if (reload == HT_CACHE_FLUSH) {
2.12 frystyk 129: /*
130: ** If the mode if "Force Reload" then don't even bother to check the
131: ** cache - we flush everything we know abut this document anyway.
2.1 frystyk 132: ** Add the appropriate request headers. We use both the "pragma"
133: ** and the "cache-control" headers in order to be
2.12 frystyk 134: ** backwards compatible with HTTP/1.0
2.1 frystyk 135: */
2.12 frystyk 136: validate = YES;
2.1 frystyk 137: HTRequest_addGnHd(request, HT_G_PRAGMA_NO_CACHE);
2.11 frystyk 138: HTRequest_addCacheControl(request, "no-cache", "");
2.1 frystyk 139:
140: /*
2.15 frystyk 141: ** We also flush the information in the anchor as we don't want to
142: ** inherit any "old" values
2.1 frystyk 143: */
144: HTAnchor_clearHeader(anchor);
145:
2.12 frystyk 146: } else {
147: /*
148: ** Check the persistent cache manager. If we have a cache hit then
149: ** continue to see if the reload mode requires us to do a validation
150: ** check. This filter assumes that we can get the cached version
151: ** through one of our protocol modules (for example the file module)
152: */
153: cache = HTCache_find(anchor);
2.1 frystyk 154: if (cache) {
2.20 ! frystyk 155: HTReload cache_mode = HTCache_isFresh(cache, request);
! 156: if (cache_mode == HT_CACHE_ERROR) cache = NULL;
! 157: reload = HTMAX(reload, cache_mode);
2.15 frystyk 158: HTRequest_setReloadMode(request, reload);
2.12 frystyk 159:
160: /*
161: ** Now check the mode and add the right headers for the validation
162: ** If we are to validate a cache entry then we get a lock
163: ** on it so that not other requests can steal it.
164: */
2.15 frystyk 165: if (reload == HT_CACHE_RANGE_VALIDATE) {
166: /*
167: ** If we were asked to range validate the cached object then
168: ** use the etag or the last modified for cache validation
169: */
170: validate = YES;
171: HTCache_getLock(cache, request);
172: HTRequest_addRqHd(request, HT_C_IF_RANGE);
173: } else if (reload == HT_CACHE_END_VALIDATE) {
2.12 frystyk 174: /*
175: ** If we were asked to end-to-end validate the cached object
176: ** then use a max-age=0 cache control directive
177: */
178: validate = YES;
179: HTCache_getLock(cache, request);
180: HTRequest_addCacheControl(request, "max-age", "0");
2.15 frystyk 181: } else if (reload == HT_CACHE_VALIDATE) {
2.11 frystyk 182: /*
2.12 frystyk 183: ** If we were asked to validate the cached object then
2.11 frystyk 184: ** use the etag or the last modified for cache validation
2.15 frystyk 185: ** We use both If-None-Match or If-Modified-Since.
2.11 frystyk 186: */
2.12 frystyk 187: validate = YES;
188: HTCache_getLock(cache, request);
2.11 frystyk 189: HTRequest_addRqHd(request, HT_C_IF_NONE_MATCH | HT_C_IMS);
2.20 ! frystyk 190: } else if (cache) {
2.12 frystyk 191: /*
192: ** The entity does not require any validation at all. We
2.15 frystyk 193: ** can just go ahead and get it from the cache. In case we
194: ** have a fresh subpart of the entity, then we issue a
195: ** conditional GET request with the range set by the cache
196: ** manager. Issuing the conditional range request is
197: ** equivalent to a validation as we have to go out on the
198: ** net. This may have an effect if running in disconnected
199: ** mode. We disable all BEFORE filters as they don't make
200: ** sense while loading the cache entry.
2.12 frystyk 201: */
2.15 frystyk 202: {
203: char * name = HTCache_name(cache);
204: HTAnchor_setPhysical(anchor, name);
205: HTCache_addHit(cache);
206: HT_FREE(name);
207: }
2.11 frystyk 208: }
209: }
2.12 frystyk 210: }
211:
212: /*
213: ** If we are in disconnected mode and we are to validate an entry
214: ** then check whether what mode of disconnected mode we're in. If
215: ** we are to use our own cache then return a "504 Gateway Timeout"
216: */
217: if ((!cache || validate) && disconnect != HT_DISCONNECT_NONE) {
218: if (disconnect == HT_DISCONNECT_EXTERNAL)
219: HTRequest_addCacheControl(request, "only-if-cached", "");
220: else {
221: HTRequest_addError(request, ERR_FATAL, NO,
222: HTERR_GATE_TIMEOUT, "Disconnected Cache Mode",
223: 0, "HTCacheFilter");
224: return HT_ERROR;
225: }
2.11 frystyk 226: }
227: return HT_OK;
228: }
229:
230: /*
2.16 frystyk 231: ** A small BEFORE filter that just finds a cache entry unconditionally
232: ** and loads the entry. All freshness and any other constraints are
233: ** ignored.
234: */
235: PUBLIC int HTCacheLoadFilter (HTRequest * request, void * param, int mode)
236: {
237: HTParentAnchor * anchor = HTRequest_anchor(request);
238: HTCache * cache = HTCache_find(anchor);
239: if (cache) {
240: char * name = HTCache_name(cache);
241: HTAnchor_setPhysical(anchor, name);
242: HTCache_addHit(cache);
243: HT_FREE(name);
244:
245: /*
246: ** Start request directly from the cache. As with the redirection
247: ** filter we reuse the same request object which means that we must
248: ** keep this around until the cache load request has terminated
249: ** In the case of a
250: */
251: {
252: HTLoad(request, NO);
253: return HT_ERROR;
254: }
255: }
256: return HT_OK;
257: }
258:
259: /*
2.15 frystyk 260: ** Check the Memory Cache (History list) BEFORE filter
261: ** ---------------------------------------------------
2.11 frystyk 262: ** Check if document is already loaded. The user can define whether
263: ** the history list should follow normal expiration or work as a
264: ** traditional history list where expired documents are not updated.
265: ** We don't check for anything but existence proof of a document
266: ** associated with the anchor as the definition is left to the application
267: */
2.15 frystyk 268: PUBLIC int HTMemoryCacheFilter (HTRequest * request, void * param, int mode)
2.11 frystyk 269: {
270: HTReload validation = HTRequest_reloadMode(request);
271: HTParentAnchor * anchor = HTRequest_anchor(request);
272: void * document = HTAnchor_document(anchor);
2.1 frystyk 273:
2.11 frystyk 274: /*
2.14 frystyk 275: ** We only check the memory cache if it's a GET method
276: */
277: if (HTRequest_method(request) != METHOD_GET) {
278: if (CACHE_TRACE) HTTrace("Mem Cache... We only check GET methods\n");
279: return HT_OK;
280: }
281:
282: /*
2.11 frystyk 283: ** If we are asked to flush the persistent cache then there is no reason
284: ** to do anything here - we're flushing it anyway. Also if no document
285: ** then just exit from this filter.
286: */
287: if (!document || validation > HT_CACHE_FLUSH_MEM) {
288: if (CACHE_TRACE) HTTrace("Mem Cache... No fresh document...\n");
289: return HT_OK;
290: }
2.1 frystyk 291:
2.11 frystyk 292: /*
293: ** If we have a document object associated with this anchor then we also
294: ** have the object in the history list. Depending on what the user asked,
295: ** we can add a cache validator
296: */
2.14 frystyk 297: #if 0
2.11 frystyk 298: if (document) {
299: if (validation != HT_CACHE_FLUSH_MEM) {
2.14 frystyk 300: HTExpiresMode expires = HTCacheMode_expires();
2.11 frystyk 301: if (CACHE_TRACE)
302: HTTrace("Mem Cache... Document already in memory\n");
303: if (expires != HT_EXPIRES_IGNORE) {
304:
305: /*
306: ** Ask the cache manager if this object has expired. Also
307: ** check if we should care about expiration or not.
308: */
309: if (!HTCache_isValid(anchor)) {
310: if (expires == HT_EXPIRES_NOTIFY) {
311:
312: /*
313: ** See if we have a function registered for outputting errors.
314: ** If so then call it and present the message to the user
315: */
316: HTAlertCallback * cbf = HTAlert_find(HT_A_MESSAGE);
317: if (cbf)
318: (*cbf)(request, HT_A_MESSAGE, HTERR_CACHE_EXPIRED,
319: NULL, HTRequest_error(request), NULL);
320: } else {
321: if (CACHE_TRACE) HTTrace("Mem Cache... Expired - autoreload\n");
322: HTRequest_addRqHd(request, HT_C_IF_NONE_MATCH | HT_C_IMS);
323: return HT_OK; /* Must go get it */
324: }
325: }
2.1 frystyk 326: }
327: }
2.14 frystyk 328: return HT_LOADED; /* Got it! */
329: }
330: return HT_OK;
331: #endif
332: if (document && validation != HT_CACHE_FLUSH_MEM) {
333: if (CACHE_TRACE) HTTrace("Mem Cache... Document already in memory\n");
334: return HT_LOADED;
2.1 frystyk 335: }
336: return HT_OK;
337: }
338:
339: /*
2.15 frystyk 340: ** Cache Update AFTER filter
341: ** -------------------------
342: ** On our way out we catch the metainformation and stores it in
343: ** our persistent store. If we have a cache validation (a 304
344: ** response then we use the new metainformation and merges it with
345: ** the existing information already captured in the cache.
346: */
347: PUBLIC int HTCacheUpdateFilter (HTRequest * request, HTResponse * response,
348: void * param, int status)
349: {
350: HTParentAnchor * anchor = HTRequest_anchor(request);
351: HTCache * cache = HTCache_find(anchor);
2.17 frystyk 352: if (cache) {
2.15 frystyk 353:
2.17 frystyk 354: /*
355: ** It may in fact be that the information in the 304 response
356: ** told us that we can't cache the entity anymore. If this is the
357: ** case then flush it now. Otherwise prepare for a cache read
358: */
359: if (CACHE_TRACE) HTTrace("Cache....... Merging metainformation\n");
360: if (HTResponse_isCachable(response) == NO) {
361: HTCache_remove(cache);
362: } else {
363: char * name = HTCache_name(cache);
364: HTAnchor_setPhysical(anchor, name);
365: HTCache_addHit(cache);
366: HT_FREE(name);
367: HTCache_updateMeta(cache, request, response);
368: }
2.15 frystyk 369:
2.17 frystyk 370: /*
371: ** Start request directly from the cache. As with the redirection filter
372: ** we reuse the same request object which means that we must
373: ** keep this around until the cache load request has terminated
374: ** In the case of a
375: */
2.19 frystyk 376: #define SINGLE_CACHE_LOAD
377: #ifdef SINGLE_CACHE_LOAD
2.17 frystyk 378: {
379: static BOOL done = NO;
380: if (!done) {
381: HTLoad(request, YES);
382: done = YES;
383: return HT_ERROR;
384: }
385: }
386: #else
387: HTLoad(request, YES);
2.15 frystyk 388: return HT_ERROR;
2.19 frystyk 389: #endif /* SINGLE_CACHE_LOAD */
2.15 frystyk 390: }
2.17 frystyk 391: return HT_OK;
2.15 frystyk 392: }
393:
394: /*
2.1 frystyk 395: ** Error and Information AFTER filter
396: ** ----------------------------------
397: ** It checks the status code from a request and generates an
398: ** error/information message if required.
399: */
2.15 frystyk 400: PUBLIC int HTInfoFilter (HTRequest * request, HTResponse * response,
401: void * param, int status)
2.1 frystyk 402: {
403: HTParentAnchor * anchor = HTRequest_anchor(request);
404: char * uri = HTAnchor_address((HTAnchor*) anchor);
405: switch (status) {
406: case HT_RETRY:
407: if (PROT_TRACE)
408: HTTrace("Load End.... NOT AVAILABLE, RETRY AT %ld\n",
2.15 frystyk 409: HTResponse_retryTime(response));
2.1 frystyk 410: break;
411:
2.7 frystyk 412: case HT_NO_DATA:
413: {
414: /*
415: ** The document was empty
416: */
417: HTAlertCallback *cbf = HTAlert_find(HT_A_MESSAGE);
418: if (cbf) (*cbf)(request, HT_A_MESSAGE, HT_MSG_NULL, NULL,
419: HTRequest_error(request), NULL);
420: if (PROT_TRACE)
421: HTTrace("Load End.... EMPTY: No content `%s\'\n",
422: uri ? uri : "<UNKNOWN>");
423: break;
424: }
2.3 frystyk 425:
426: case HT_LOADED:
2.16 frystyk 427: if (PROT_TRACE) HTTrace("Load End.... OK: `%s\'\n", uri);
428: break;
429:
430: default:
2.3 frystyk 431: {
432: /*
2.16 frystyk 433: ** See if we have a function registered for outputting errors.
434: ** If so then call it and present the message to the user
2.3 frystyk 435: */
436: HTAlertCallback *cbf = HTAlert_find(HT_A_MESSAGE);
437: if (cbf) (*cbf)(request, HT_A_MESSAGE, HT_MSG_NULL, NULL,
438: HTRequest_error(request), NULL);
2.1 frystyk 439: if (PROT_TRACE)
440: HTTrace("Load End.... Request ended with code %d\n", status);
441: break;
442: }
2.16 frystyk 443: }
2.1 frystyk 444: HT_FREE(uri);
445: return HT_OK;
446: }
447:
448: /*
449: ** Redirection AFTER filter
450: ** ------------------------
451: ** The redirection handler only handles redirections
452: ** on the GET or HEAD method (or any other safe method)
453: */
2.15 frystyk 454: PUBLIC int HTRedirectFilter (HTRequest * request, HTResponse * response,
455: void * param, int status)
2.1 frystyk 456: {
457: HTMethod method = HTRequest_method(request);
2.15 frystyk 458: HTAnchor * new_anchor = HTResponse_redirection(response);
2.7 frystyk 459: if (!new_anchor) {
460: if (PROT_TRACE) HTTrace("Redirection. No destination\n");
461: return HT_OK;
462: }
463:
2.1 frystyk 464: /*
465: ** Only do redirect on GET and HEAD
466: */
2.7 frystyk 467: if (!HTMethod_isSafe(method)) {
2.4 frystyk 468: HTAlertCallback * prompt = HTAlert_find(HT_A_CONFIRM);
469: if (prompt) {
470: if ((*prompt)(request, HT_A_CONFIRM, HT_MSG_REDIRECTION,
471: NULL, NULL, NULL) != YES)
472: return HT_ERROR;
473: }
2.1 frystyk 474: }
475:
476: /*
477: ** Start new request with the redirect anchor found in the headers.
478: ** Note that we reuse the same request object which means that we must
479: ** keep this around until the redirected request has terminated. It also
480: ** allows us in an easy way to keep track of the number of redirections
481: ** so that we can detect endless loops.
482: */
2.4 frystyk 483: if (HTRequest_doRetry(request)) {
2.1 frystyk 484: HTLoadAnchor(new_anchor, request);
2.9 frystyk 485: } else {
486: HTRequest_addError(request, ERR_FATAL, NO, HTERR_MAX_REDIRECT,
487: NULL, 0, "HTRedirectFilter");
488: }
489:
490: /*
491: ** By returning HT_ERROR we make sure that this is the last handler to be
492: ** called. We do this as we don't want any other filter to delete the
493: ** request object now when we have just started a new one ourselves
494: */
495: return HT_ERROR;
496: }
497:
498: /*
2.15 frystyk 499: ** Retry through Proxy AFTER Filter
500: ** --------------------------------
2.9 frystyk 501: ** This filter handles a 305 Use Proxy response and retries the request
502: ** through the proxy
503: */
2.15 frystyk 504: PUBLIC int HTUseProxyFilter (HTRequest * request, HTResponse * response,
505: void * param, int status)
2.9 frystyk 506: {
2.20 ! frystyk 507: HTAlertCallback * cbf = HTAlert_find(HT_A_CONFIRM);
2.15 frystyk 508: HTAnchor * proxy_anchor = HTResponse_redirection(response);
2.9 frystyk 509: if (!proxy_anchor) {
510: if (PROT_TRACE) HTTrace("Use Proxy... No proxy location\n");
511: return HT_OK;
512: }
513:
514: /*
515: ** Add the proxy to the list. Assume HTTP access method only!
2.20 ! frystyk 516: ** Because evil servers may rediret the client to an untrusted
! 517: ** proxy, we can only accept redirects for this particular
! 518: ** server. Also, we do not know whether this is for HTTP or all
! 519: ** other requests as well
2.9 frystyk 520: */
2.20 ! frystyk 521: if ((cbf && (*cbf)(request, HT_A_CONFIRM, HT_MSG_PROXY, NULL,NULL,NULL))) {
2.9 frystyk 522: char * addr = HTAnchor_address(proxy_anchor);
523: HTProxy_add("http", addr);
524: HT_FREE(addr);
525:
2.20 ! frystyk 526: /*
! 527: ** Start new request through the proxy if we haven't reached the max
! 528: ** number of redirections for this request
! 529: */
! 530: if (HTRequest_doRetry(request)) {
! 531: HTLoadAnchor(proxy_anchor, request);
! 532: } else {
! 533: HTRequest_addError(request, ERR_FATAL, NO, HTERR_MAX_REDIRECT,
! 534: NULL, 0, "HTRedirectFilter");
! 535: }
! 536:
! 537: /*
! 538: ** By returning HT_ERROR we make sure that this is the last handler to be
! 539: ** called. We do this as we don't want any other filter to delete the
! 540: ** request object now when we have just started a new one ourselves
! 541: */
! 542: return HT_ERROR;
! 543:
2.1 frystyk 544: } else {
2.20 ! frystyk 545: HTRequest_addError(request, ERR_FATAL, NO, HTERR_NO_AUTO_PROXY,
! 546: NULL, 0, "HTUseProxyFilter");
! 547: return HT_OK;
2.1 frystyk 548: }
549: }
550:
551: /*
552: ** Client side authentication BEFORE filter
553: ** ----------------------------------------
554: ** The filter generates the credentials required to access a document
555: ** Getting the credentials may involve asking the user
556: */
2.15 frystyk 557: PUBLIC int HTCredentialsFilter (HTRequest * request, void * param, int mode)
2.1 frystyk 558: {
559: /*
560: ** Ask the authentication module to call the right credentials generator
561: ** that understands this scheme
562: */
2.15 frystyk 563: if (HTAA_beforeFilter(request, param, mode) == HT_OK) {
2.1 frystyk 564: if (PROT_TRACE) HTTrace("Credentials. verified\n");
565: return HT_OK;
566: } else {
567: HTRequest_addError(request, ERR_FATAL, NO, HTERR_UNAUTHORIZED,
568: NULL, 0, "HTCredentialsFilter");
569: return HT_ERROR;
570: }
571: }
572:
573: /*
574: ** Client side authentication AFTER filter
575: ** ---------------------------------------
576: ** The client side authentication filter uses the
577: ** user dialog messages registered in the HTAlert module.
578: ** By default these are the ones used by the line mode browser but you can
579: ** just register something else.
580: */
2.15 frystyk 581: PUBLIC int HTAuthFilter (HTRequest * request, HTResponse * response,
582: void * param, int status)
2.1 frystyk 583: {
584: /*
585: ** Ask the authentication module to call the right challenge parser
586: ** that understands this scheme
587: */
2.15 frystyk 588: if (HTAA_afterFilter(request, response, param, status) == HT_OK) {
2.1 frystyk 589:
590: /*
591: ** Start request with new credentials. As with the redirection filter
592: ** we reuse the same request object which means that we must
593: ** keep this around until the redirected request has terminated
594: */
595: HTLoad(request, NO);
596:
597: /*
598: ** We return HT_ERROR to make sure that this is the last handler to be
599: ** called. We do this as we don't want any other filter to delete the
600: ** request object now when we have just started a new one ourselves
601: */
602: return HT_ERROR;
603: }
604: return HT_OK;
605: }
606:
607: /*
608: ** Request Loggin AFTER filter
609: ** ---------------------------
610: ** Default Logging filter using the log manager provided by HTLog.c
611: */
2.15 frystyk 612: PUBLIC int HTLogFilter (HTRequest * request, HTResponse * response,
613: void * param, int status)
2.1 frystyk 614: {
615: if (request) {
616: if (HTLog_isOpen()) HTLog_add(request, status);
617: return HT_OK;
618: }
619: return HT_ERROR;
620: }
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