/* * $Id: protos.h,v 1.547.2.13 2010/03/07 16:00:07 hno Exp $ * * * SQUID Web Proxy Cache http://www.squid-cache.org/ * ---------------------------------------------------------- * * Squid is the result of efforts by numerous individuals from * the Internet community; see the CONTRIBUTORS file for full * details. Many organizations have provided support for Squid's * development; see the SPONSORS file for full details. Squid is * Copyrighted (C) 2001 by the Regents of the University of * California; see the COPYRIGHT file for full details. Squid * incorporates software developed and/or copyrighted by other * sources; see the CREDITS file for full details. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA. * */ #ifndef SQUID_PROTOS_H #define SQUID_PROTOS_H extern void accessLogLog(AccessLogEntry *, aclCheck_t * checklist); extern void accessLogRotate(void); extern void accessLogClose(void); extern void accessLogInit(void); extern const char *accessLogTime(time_t); extern int accessLogParseLogFormat(logformat_token ** fmt, char *def); extern void accessLogDumpLogFormat(StoreEntry * entry, const char *name, logformat * definitions); extern void accessLogFreeLogFormat(logformat_token ** fmt); extern void hierarchyNote(HierarchyLogEntry *, hier_code, const char *); #if FORW_VIA_DB extern void fvdbCountVia(const char *key); extern void fvdbCountForw(const char *key); #endif #if HEADERS_LOG extern void headersLog(int cs, int pq, method_t m, void *data); #endif char *log_quote(const char *header); /* acl.c */ extern aclCheck_t *aclChecklistCreate(const struct _acl_access *, request_t *, const char *ident); void aclChecklistCacheInit(aclCheck_t * checklist); extern void aclNBCheck(aclCheck_t *, PF *, void *); extern int aclCheckFast(const struct _acl_access *A, aclCheck_t *); int aclCheckFastRequest(const acl_access * A, request_t * request); extern void aclChecklistFree(aclCheck_t *); extern int aclMatchAclList(const acl_list * list, aclCheck_t * checklist); extern void aclDestroyAccessList(struct _acl_access **list); extern void aclDestroyAcls(acl **); extern void aclDestroyAclList(acl_list **); extern void aclParseAccessLine(struct _acl_access **); extern void aclParseAclList(acl_list **); extern void aclParseAclLine(acl **); extern int aclIsProxyAuth(const char *name); extern err_type aclGetDenyInfoPage(acl_deny_info_list ** head, const char *name, int redirect_allowed); extern void aclParseDenyInfoLine(struct _acl_deny_info_list **); extern void aclDestroyDenyInfoList(struct _acl_deny_info_list **); extern void aclDestroyRegexList(struct _relist *data); extern int aclMatchRegex(relist * data, const char *word); extern void aclParseRegexList(void *curlist); extern const char *aclTypeToStr(squid_acl); extern wordlist *aclDumpGeneric(const acl *); extern int aclPurgeMethodInUse(acl_access *); extern void aclCacheMatchFlush(dlink_list * cache); extern int aclAuthenticated(aclCheck_t * checklist); /* * cache_cf.c */ extern int parseConfigFile(const char *file_name); extern void intlistDestroy(intlist **); extern int intlistFind(intlist * list, int i); extern const char *wordlistAdd(wordlist **, const char *); extern void wordlistAddWl(wordlist **, wordlist *); extern void wordlistJoin(wordlist **, wordlist **); extern wordlist *wordlistDup(const wordlist *); extern void wordlistDestroy(wordlist **); extern void configFreeMemory(void); extern void wordlistCat(const wordlist *, MemBuf * mb); extern void allocate_new_swapdir(cacheSwap *); extern void self_destruct(void); extern int GetInteger(void); extern int xatoi(const char *); extern unsigned short xatos(const char *); /* extra functions from cache_cf.c useful for lib modules */ extern void parse_int(int *var); extern void parse_onoff(int *var); extern void parse_eol(char *volatile *var); extern void parse_wordlist(wordlist ** list); extern void requirePathnameExists(const char *name, const char *path); extern void parse_time_t(time_t * var); extern void parse_cachedir_options(SwapDir * sd, struct cache_dir_option *options, int reconfiguring); extern void dump_cachedir_options(StoreEntry * e, struct cache_dir_option *options, SwapDir * sd); extern void parse_sockaddr_in_list_token(sockaddr_in_list **, char *); /* * cbdata.c */ extern void cbdataInit(void); #if CBDATA_DEBUG extern void *cbdataInternalAllocDbg(cbdata_type type, int, const char *); extern void cbdataLockDbg(const void *p, const char *, int); extern void cbdataUnlockDbg(const void *p, const char *, int); #else extern void *cbdataInternalAlloc(cbdata_type type); extern void cbdataLock(const void *p); extern void cbdataUnlock(const void *p); #endif /* Note: Allocations is done using the cbdataAlloc macro */ extern void *cbdataInternalFree(void *p); extern int cbdataValid(const void *p); extern void cbdataInitType(cbdata_type type, const char *label, int size, FREE * free_func); extern cbdata_type cbdataAddType(cbdata_type type, const char *label, int size, FREE * free_func); extern int cbdataLocked(const void *p); extern void clientdbInit(void); extern void clientdbUpdate(struct in_addr, log_type, protocol_t, squid_off_t); extern int clientdbCutoffDenied(struct in_addr); extern void clientdbDump(StoreEntry *); extern void clientdbFreeMemory(void); extern int clientdbEstablished(struct in_addr, int); extern char *clientConstructTraceEcho(clientHttpRequest *); extern int checkNegativeHit(StoreEntry *); extern void clientOpenListenSockets(void); extern void clientHttpConnectionsClose(void); extern int isTcpHit(log_type); extern void clientPinConnection(ConnStateData * conn, int fd, const request_t * request, peer * peer, int auth); extern int clientGetPinnedInfo(const ConnStateData * conn, const request_t * request, peer ** peer); extern int clientGetPinnedConnection(ConnStateData * conn, const request_t * request, const peer * peer, int *auth); extern void clientReassignDelaypools(void); extern int commSetNonBlocking(int fd); extern int commUnsetNonBlocking(int fd); extern void commSetCloseOnExec(int fd); extern void commSetTcpKeepalive(int fd, int idle, int interval, int timeout); extern int commSetTos(int fd, int tos); extern int commSetSocketPriority(int fd, int prio); extern int commSetIPOption(int fd, uint8_t option, void *value, size_t size); extern int comm_accept(int fd, struct sockaddr_in *, struct sockaddr_in *); extern void comm_close(int fd); extern void comm_reset_close(int fd); #if LINGERING_CLOSE extern void comm_lingering_close(int fd); #endif extern void commConnectStart(int fd, const char *, u_short, CNCB *, void *); extern int comm_connect_addr(int sock, const struct sockaddr_in *); extern void comm_init(void); extern int comm_listen(int sock); extern int comm_open(int, int, struct in_addr, u_short port, int, const char *note); extern int comm_openex(int, int, struct in_addr, u_short, int, unsigned char TOS, const char *); extern int comm_fdopen(int, int, struct in_addr, u_short, int, const char *); extern int comm_fdopenex(int, int, struct in_addr, u_short, int, unsigned char, const char *); extern u_short comm_local_port(int fd); extern void commDeferFD(int fd); extern void commResumeFD(int fd); extern void commSetSelect(int, unsigned int, PF *, void *, time_t); extern void commRemoveSlow(int fd); extern void comm_add_close_handler(int fd, PF *, void *); extern void comm_remove_close_handler(int fd, PF *, void *); extern int comm_udp_sendto(int, const struct sockaddr_in *, int, const void *, int); extern void comm_write(int fd, const char *buf, int size, CWCB * handler, void *handler_data, FREE *); extern void comm_write_mbuf(int fd, MemBuf mb, CWCB * handler, void *handler_data); extern void comm_write_header(int fd, const char *buf, int size, const char *header, size_t header_size, CWCB * handler, void *handler_data, FREE *); extern void comm_write_mbuf_header(int fd, MemBuf mb, const char *header, size_t header_size, CWCB * handler, void *handler_data); extern void commCallCloseHandlers(int fd); extern int commSetTimeout(int fd, int, PF *, void *); extern void commSetDefer(int fd, DEFER * func, void *); extern int ignoreErrno(int); extern void commCloseAllSockets(void); /* * comm_select.c */ extern void comm_select_init(void); extern void comm_select_postinit(void); extern void comm_select_shutdown(void); extern int comm_select(int); extern void commUpdateEvents(int fd); extern void commSetEvents(int fd, int need_read, int need_write); extern void commClose(int fd); extern void commOpen(int fd); extern void commUpdateReadHandler(int, PF *, void *); extern void commUpdateWriteHandler(int, PF *, void *); extern void comm_quick_poll_required(void); extern void comm_select_status(StoreEntry *); extern void packerToStoreInit(Packer * p, StoreEntry * e); extern void packerToMemInit(Packer * p, MemBuf * mb); extern void packerClean(Packer * p); extern void packerAppend(Packer * p, const char *buf, int size); #if STDC_HEADERS extern void packerPrintf(Packer * p, const char *fmt,...) PRINTF_FORMAT_ARG2; #else extern void packerPrintf(); #endif /* see debug.c for info on context-based debugging */ extern Ctx ctx_enter(const char *descr); extern void ctx_exit(Ctx ctx); extern void _db_set_syslog(const char *facility); extern void _db_init(const char *logfile, const char *options); extern void _db_rotate_log(void); #if STDC_HEADERS extern void _db_print(const char *,...) PRINTF_FORMAT_ARG1; #else extern void _db_print(); #endif extern int debug_log_flush(void); extern void xassert(const char *, const char *, int); /* packs, then prints an object using debug() */ extern void debugObj(int section, int level, const char *label, void *obj, ObjPackMethod pm); /* disk.c */ extern int file_open(const char *path, int mode); extern void file_close(int fd); extern void file_write(int, off_t, void *, size_t len, DWCB *, void *, FREE *); extern void file_write_mbuf(int fd, off_t, MemBuf mb, DWCB * handler, void *handler_data); extern void file_read(int, char *, size_t, off_t, DRCB *, void *); extern void disk_init(void); /* dns.s */ extern void dnsShutdown(void); extern void dnsInit(void); extern void dnsSubmit(const char *lookup, HLPCB * callback, void *data); /* dns_internal.c */ extern void idnsInit(void); extern void idnsShutdown(void); extern void idnsALookup(const char *, IDNSCB *, void *); extern void idnsPTRLookup(const struct in_addr, IDNSCB *, void *); extern void eventAdd(const char *name, EVH * func, void *arg, double when, int); extern void eventAddIsh(const char *name, EVH * func, void *arg, double delta_ish, int); extern void eventRun(void); extern int eventNextTime(void); extern void eventDelete(EVH * func, void *arg); extern void eventInit(void); extern void eventCleanup(void); extern void eventFreeMemory(void); extern int eventFind(EVH *, void *); extern void fd_init(void); extern void fd_close(int fd); extern void fd_open(int fd, unsigned int type, const char *); extern void fd_note(int fd, const char *); extern void fd_note_static(int fd, const char *); extern void fd_bytes(int fd, int len, unsigned int type); extern void fdFreeMemory(void); extern void fdDumpOpen(void); extern int fdNFree(void); extern int fdUsageHigh(void); extern void fdAdjustReserved(void); extern fileMap *file_map_create(void); extern int file_map_allocate(fileMap *, int); extern int file_map_bit_set(fileMap *, int); extern int file_map_bit_test(fileMap *, int); extern void file_map_bit_reset(fileMap *, int); extern void filemapFreeMemory(fileMap *); extern void fqdncache_nbgethostbyaddr(struct in_addr, FQDNH *, void *); extern const char *fqdncache_gethostbyaddr(struct in_addr, int flags); extern void fqdncache_init(void); extern void fqdnStats(StoreEntry *); extern void fqdncacheReleaseInvalid(const char *); extern const char *fqdnFromAddr(struct in_addr); extern int fqdncacheQueueDrain(void); extern void fqdncacheFreeMemory(void); extern void fqdncache_restart(void); extern EVH fqdncache_purgelru; extern void fqdncacheAddEntryFromHosts(char *addr, wordlist * hostnames); extern void ftpStart(FwdState *); extern char *ftpUrlWith2f(const request_t *); extern void gopherStart(FwdState *); extern int gopherCachable(const request_t *); extern void whoisStart(FwdState *); /* http.c */ extern int httpCachable(method_t); extern void httpStart(FwdState *); extern int httpBuildRequestPrefix(request_t * request, request_t * orig_request, StoreEntry * entry, MemBuf * mb, http_state_flags); extern void httpAnonInitModule(void); extern int httpAnonHdrAllowed(http_hdr_type hdr_id); extern int httpAnonHdrDenied(http_hdr_type hdr_id); extern void httpBuildRequestHeader(request_t *, request_t *, StoreEntry *, HttpHeader *, http_state_flags); extern void httpBuildVersion(http_version_t * version, unsigned int major, unsigned int minor); extern const char *httpMakeVaryMark(request_t * request, HttpReply * reply); /* Http Status Line */ /* init/clean */ extern void httpStatusLineInit(HttpStatusLine * sline); extern void httpStatusLineClean(HttpStatusLine * sline); /* set/get values */ extern void httpStatusLineSet(HttpStatusLine * sline, http_version_t version, http_status status, const char *reason); extern const char *httpStatusLineReason(const HttpStatusLine * sline); /* parse/pack */ /* parse a 0-terminating buffer and fill internal structires; returns true on success */ extern int httpStatusLineParse(HttpStatusLine * sline, const char *start, const char *end); /* pack fields using Packer */ extern void httpStatusLinePackInto(const HttpStatusLine * sline, Packer * p); extern const char *httpStatusString(http_status status); /* Http Body */ /* init/clean */ extern void httpBodyInit(HttpBody * body); extern void httpBodyClean(HttpBody * body); /* get body ptr (always use this) */ extern const char *httpBodyPtr(const HttpBody * body); /* set body, does not clone mb so you should not reuse it */ extern void httpBodySet(HttpBody * body, MemBuf * mb); /* pack */ extern void httpBodyPackInto(const HttpBody * body, Packer * p); /* Http Cache Control Header Field */ extern void httpHdrCcInitModule(void); extern void httpHdrCcCleanModule(void); extern HttpHdrCc *httpHdrCcCreate(void); extern HttpHdrCc *httpHdrCcParseCreate(const String * str); extern void httpHdrCcDestroy(HttpHdrCc * cc); extern HttpHdrCc *httpHdrCcDup(const HttpHdrCc * cc); extern void httpHdrCcPackInto(const HttpHdrCc * cc, Packer * p); extern void httpHdrCcJoinWith(HttpHdrCc * cc, const HttpHdrCc * new_cc); extern void httpHdrCcSetMaxAge(HttpHdrCc * cc, int max_age); extern void httpHdrCcSetSMaxAge(HttpHdrCc * cc, int s_maxage); extern void httpHdrCcUpdateStats(const HttpHdrCc * cc, StatHist * hist); extern void httpHdrCcStatDumper(StoreEntry * sentry, int idx, double val, double size, int count); /* Http Range Header Field */ extern HttpHdrRange *httpHdrRangeParseCreate(const String * range_spec); /* returns true if ranges are valid; inits HttpHdrRange */ extern int httpHdrRangeParseInit(HttpHdrRange * range, const String * range_spec); extern void httpHdrRangeDestroy(HttpHdrRange * range); extern HttpHdrRange *httpHdrRangeDup(const HttpHdrRange * range); extern void httpHdrRangePackInto(const HttpHdrRange * range, Packer * p); /* iterate through specs */ extern HttpHdrRangeSpec *httpHdrRangeGetSpec(const HttpHdrRange * range, HttpHdrRangePos * pos); /* adjust specs after the length is known */ extern int httpHdrRangeCanonize(HttpHdrRange *, squid_off_t); /* other */ extern String httpHdrRangeBoundaryStr(clientHttpRequest * http); extern int httpHdrRangeIsComplex(const HttpHdrRange * range); extern int httpHdrRangeWillBeComplex(const HttpHdrRange * range); extern squid_off_t httpHdrRangeFirstOffset(const HttpHdrRange * range); extern squid_off_t httpHdrRangeLowestOffset(const HttpHdrRange * range, squid_off_t); extern int httpHdrRangeOffsetLimit(HttpHdrRange *); /* Http Content Range Header Field */ extern HttpHdrContRange *httpHdrContRangeCreate(void); extern HttpHdrContRange *httpHdrContRangeParseCreate(const char *crange_spec); /* returns true if range is valid; inits HttpHdrContRange */ extern int httpHdrContRangeParseInit(HttpHdrContRange * crange, const char *crange_spec); extern void httpHdrContRangeDestroy(HttpHdrContRange * crange); extern HttpHdrContRange *httpHdrContRangeDup(const HttpHdrContRange * crange); extern void httpHdrContRangePackInto(const HttpHdrContRange * crange, Packer * p); /* inits with given spec */ extern void httpHdrContRangeSet(HttpHdrContRange *, HttpHdrRangeSpec, squid_off_t); /* Http Header Tools */ extern HttpHeaderFieldInfo *httpHeaderBuildFieldsInfo(const HttpHeaderFieldAttrs * attrs, int count); extern void httpHeaderDestroyFieldsInfo(HttpHeaderFieldInfo * info, int count); extern int httpHeaderIdByName(const char *name, int name_len, const HttpHeaderFieldInfo * attrs, int end); extern int httpHeaderIdByNameDef(const char *name, int name_len); extern const char *httpHeaderNameById(int id); extern void httpHeaderMaskInit(HttpHeaderMask * mask, int value); extern void httpHeaderCalcMask(HttpHeaderMask * mask, const http_hdr_type * enums, int count); extern int httpHeaderHasConnDir(const HttpHeader * hdr, const char *directive); extern void httpHeaderAddContRange(HttpHeader *, HttpHdrRangeSpec, squid_off_t); extern void strListAdd(String * str, const char *item, char del); extern void strListAddUnique(String * str, const char *item, char del); extern int strListIsMember(const String * str, const char *item, char del); extern int strIsSubstr(const String * list, const char *s); extern int strListGetItem(const String * str, char del, const char **item, int *ilen, const char **pos); extern const char *getStringPrefix(const char *str, const char *end); extern int httpHeaderParseInt(const char *start, int *val); extern int httpHeaderParseSize(const char *start, squid_off_t * sz); extern int httpHeaderParseQuotedString(const char *start, String * val); extern int httpHeaderReset(HttpHeader * hdr); extern void httpHeaderAddClone(HttpHeader * hdr, const HttpHeaderEntry * e); #if STDC_HEADERS extern void httpHeaderPutStrf(HttpHeader * hdr, http_hdr_type id, const char *fmt,...) PRINTF_FORMAT_ARG3; #else extern void httpHeaderPutStrf(); #endif /* Http Header */ extern void httpHeaderInitModule(void); extern void httpHeaderCleanModule(void); /* init/clean */ extern void httpHeaderInit(HttpHeader * hdr, http_hdr_owner_type owner); extern void httpHeaderClean(HttpHeader * hdr); /* append/update */ extern void httpHeaderAppend(HttpHeader * dest, const HttpHeader * src); extern void httpHeaderUpdate(HttpHeader * old, const HttpHeader * fresh, const HttpHeaderMask * denied_mask); /* parse/pack */ extern int httpHeaderParse(HttpHeader * hdr, const char *header_start, const char *header_end); extern void httpHeaderPackInto(const HttpHeader * hdr, Packer * p); /* field manipulation */ extern int httpHeaderHas(const HttpHeader * hdr, http_hdr_type type); extern void httpHeaderPutInt(HttpHeader * hdr, http_hdr_type type, int number); extern void httpHeaderPutSize(HttpHeader * hdr, http_hdr_type type, squid_off_t number); extern void httpHeaderPutTime(HttpHeader * hdr, http_hdr_type type, time_t htime); extern void httpHeaderInsertTime(HttpHeader * hdr, int pos, http_hdr_type type, time_t htime); extern void httpHeaderPutStr(HttpHeader * hdr, http_hdr_type type, const char *str); extern void httpHeaderPutAuth(HttpHeader * hdr, const char *auth_scheme, const char *realm); extern void httpHeaderPutCc(HttpHeader * hdr, const HttpHdrCc * cc); extern void httpHeaderPutContRange(HttpHeader * hdr, const HttpHdrContRange * cr); extern void httpHeaderPutRange(HttpHeader * hdr, const HttpHdrRange * range); extern void httpHeaderPutExt(HttpHeader * hdr, const char *name, const char *value); extern int httpHeaderGetInt(const HttpHeader * hdr, http_hdr_type id); extern squid_off_t httpHeaderGetSize(const HttpHeader * hdr, http_hdr_type id); extern time_t httpHeaderGetTime(const HttpHeader * hdr, http_hdr_type id); extern TimeOrTag httpHeaderGetTimeOrTag(const HttpHeader * hdr, http_hdr_type id); extern HttpHdrCc *httpHeaderGetCc(const HttpHeader * hdr); extern HttpHdrRange *httpHeaderGetRange(const HttpHeader * hdr); extern HttpHdrContRange *httpHeaderGetContRange(const HttpHeader * hdr); extern const char *httpHeaderGetStr(const HttpHeader * hdr, http_hdr_type id); extern const char *httpHeaderGetLastStr(const HttpHeader * hdr, http_hdr_type id); extern const char *httpHeaderGetAuth(const HttpHeader * hdr, http_hdr_type id, const char *auth_scheme); extern String httpHeaderGetList(const HttpHeader * hdr, http_hdr_type id); extern String httpHeaderGetStrOrList(const HttpHeader * hdr, http_hdr_type id); extern String httpHeaderGetByName(const HttpHeader * hdr, const char *name); extern String httpHeaderGetListMember(const HttpHeader * hdr, http_hdr_type id, const char *member, const char separator); extern String httpHeaderGetByNameListMember(const HttpHeader * hdr, const char *name, const char *member, const char separator); extern int httpHeaderDelByName(HttpHeader * hdr, const char *name); extern int httpHeaderDelById(HttpHeader * hdr, http_hdr_type id); extern void httpHeaderDelAt(HttpHeader * hdr, HttpHeaderPos pos); extern void httpHeaderRefreshMask(HttpHeader * hdr); /* avoid using these low level routines */ extern HttpHeaderEntry *httpHeaderGetEntry(const HttpHeader * hdr, HttpHeaderPos * pos); extern HttpHeaderEntry *httpHeaderFindEntry(const HttpHeader * hdr, http_hdr_type id); extern void httpHeaderAddEntry(HttpHeader * hdr, HttpHeaderEntry * e); extern void httpHeaderInsertEntry(HttpHeader * hdr, HttpHeaderEntry * e, int pos); extern HttpHeaderEntry *httpHeaderEntryClone(const HttpHeaderEntry * e); extern void httpHeaderEntryPackInto(const HttpHeaderEntry * e, Packer * p); /* store report about current header usage and other stats */ extern void httpHeaderStoreReport(StoreEntry * e); extern void httpHdrMangleList(HttpHeader *, request_t *); /* Http Msg (currently in HttpReply.c @?@ ) */ extern int httpMsgIsPersistent(http_version_t http_ver, const HttpHeader * hdr); extern int httpMsgIsolateHeaders(const char **parse_start, int l, const char **blk_start, const char **blk_end); /* Http Reply */ extern void httpReplyInitModule(void); /* create/destroy */ extern HttpReply *httpReplyCreate(void); extern void httpReplyDestroy(HttpReply * rep); /* reset: clean, then init */ extern void httpReplyReset(HttpReply * rep); /* parse returns -1,0,+1 on error,need-more-data,success */ extern int httpReplyParse(HttpReply * rep, const char *buf, size_t); extern void httpReplyPackInto(const HttpReply * rep, Packer * p); /* ez-routines */ /* mem-pack: returns a ready to use mem buffer with a packed reply */ extern MemBuf httpReplyPack(const HttpReply * rep); /* swap: create swap-based packer, pack, destroy packer and absorbs the reply if not the same as the object reply */ extern void httpReplySwapOut(HttpReply * rep, StoreEntry * e); /* set commonly used info with one call */ extern void httpReplySetHeaders(HttpReply * rep, http_status status, const char *reason, const char *ctype, squid_off_t clen, time_t lmt, time_t expires); /* do everything in one call: init, set, pack, clean, return MemBuf */ extern MemBuf httpPackedReply(http_version_t ver, http_status status, const char *ctype, squid_off_t clen, time_t lmt, time_t expires); /* construct 304 reply and pack it into MemBuf, return MemBuf */ extern MemBuf httpPacked304Reply(const HttpReply * rep, int http11); /* update when 304 reply is received for a cached object */ extern void httpReplyUpdateOnNotModified(HttpReply * rep, HttpReply * freshRep); /* header manipulation */ extern int httpReplyContentLen(const HttpReply * rep); extern const char *httpReplyContentType(const HttpReply * rep); extern time_t httpReplyExpires(const HttpReply * rep); extern int httpReplyHasCc(const HttpReply * rep, http_hdr_cc_type type); extern void httpRedirectReply(HttpReply *, http_status, const char *); extern squid_off_t httpReplyBodySize(method_t, const HttpReply *); extern HttpReply *httpReplyClone(HttpReply * src); /* Http Request */ extern request_t *requestCreate(method_t, protocol_t, const char *urlpath); extern void requestDestroy(request_t *); extern request_t *requestLink(request_t *); extern void requestUnlink(request_t *); extern void httpRequestSwapOut(const request_t * req, StoreEntry * e); extern void httpRequestPackDebug(request_t * req, Packer * p); extern int httpRequestPrefixLen(const request_t * req); extern int httpRequestHdrAllowed(const HttpHeaderEntry * e, String * strConnection); extern int httpRequestHdrAllowedByName(http_hdr_type id); extern void requestRegisterBody(request_t * request, BODY_HANDLER * reader, void *cbdata); extern void requestUnregisterBody(request_t * request, BODY_HANDLER * reader, void *cbdata); extern void requestReadBody(request_t * request, char *buf, size_t size, CBCB * callback, void *cbdata); extern void requestAbortBody(request_t * request); extern void icmpOpen(void); extern void icmpClose(void); extern void icmpSourcePing(struct in_addr to, const icp_common_t *, const char *url); extern void icmpDomainPing(struct in_addr to, const char *domain); extern void *icpCreateMessage(icp_opcode opcode, int flags, const char *url, int reqnum, int pad); extern int icpUdpSend(int, const struct sockaddr_in *, icp_common_t *, log_type, int); extern PF icpHandleUdp; extern PF icpUdpSendQueue; extern PF httpAccept; #ifdef SQUID_SNMP extern PF snmpHandleUdp; extern void snmpInit(void); extern void snmpConnectionOpen(void); extern void snmpConnectionShutdown(void); extern void snmpConnectionClose(void); extern void snmpDebugOid(int lvl, oid * Name, snint Len); extern void addr2oid(struct in_addr addr, oid * Dest); extern struct in_addr *oid2addr(oid * id); extern struct in_addr *client_entry(struct in_addr *current); extern variable_list *snmp_basicFn(variable_list *, snint *); extern variable_list *snmp_confFn(variable_list *, snint *); extern variable_list *snmp_sysFn(variable_list *, snint *); extern variable_list *snmp_prfSysFn(variable_list *, snint *); extern variable_list *snmp_prfProtoFn(variable_list *, snint *); extern variable_list *snmp_prfPeerFn(variable_list *, snint *); extern variable_list *snmp_netIpFn(variable_list *, snint *); extern variable_list *snmp_netFqdnFn(variable_list *, snint *); #if USE_DNSSERVERS extern variable_list *snmp_netDnsFn(variable_list *, snint *); #else extern variable_list *snmp_netIdnsFn(variable_list *, snint *); #endif extern variable_list *snmp_meshPtblFn(variable_list *, snint *); extern variable_list *snmp_meshCtblFn(variable_list *, snint *); #endif /* SQUID_SNMP */ #if USE_WCCP extern void wccpInit(void); extern void wccpConnectionOpen(void); extern void wccpConnectionClose(void); #endif /* USE_WCCP */ #if USE_WCCPv2 extern void wccp2Init(void); extern void wccp2ConnectionOpen(void); extern void wccp2ConnectionClose(void); #endif /* USE_WCCPv2 */ extern void icpHandleIcpV3(int, struct sockaddr_in, char *, int); extern int icpCheckUdpHit(StoreEntry *, request_t * request); extern void icpConnectionsOpen(void); extern void icpConnectionShutdown(void); extern void icpConnectionClose(void); extern int icpSetCacheKey(const cache_key * key); extern const cache_key *icpGetCacheKey(const char *url, int reqnum); extern void ipcache_nbgethostbyname(const char *name, IPH * handler, void *handlerData); extern EVH ipcache_purgelru; extern const ipcache_addrs *ipcache_gethostbyname(const char *, int flags); extern void ipcacheInvalidate(const char *); extern void ipcacheInvalidateNegative(const char *); extern void ipcache_init(void); extern void stat_ipcache_get(StoreEntry *); extern void ipcacheCycleAddr(const char *name, ipcache_addrs *); extern void ipcacheMarkBadAddr(const char *name, struct in_addr); extern void ipcacheMarkGoodAddr(const char *name, struct in_addr); extern void ipcacheFreeMemory(void); extern ipcache_addrs *ipcacheCheckNumeric(const char *name); extern void ipcache_restart(void); extern int ipcacheAddEntryFromHosts(const char *name, const char *ipaddr); /* MemBuf */ /* init with specific sizes */ extern void memBufInit(MemBuf * mb, mb_size_t szInit, mb_size_t szMax); /* init with defaults */ extern void memBufDefInit(MemBuf * mb); /* cleans mb; last function to call if you do not give .buf away */ extern void memBufClean(MemBuf * mb); /* resets mb preserving (or initializing if needed) memory buffer */ extern void memBufReset(MemBuf * mb); /* unfirtunate hack to test if the buffer has been Init()ialized */ extern int memBufIsNull(MemBuf * mb); /* calls memcpy, appends exactly size bytes, extends buffer if needed */ extern void memBufAppend(MemBuf * mb, const void *buf, int size); /* calls snprintf, extends buffer if needed */ #if STDC_HEADERS extern void memBufPrintf(MemBuf * mb, const char *fmt,...) PRINTF_FORMAT_ARG2; #else extern void memBufPrintf(); #endif /* vprintf for other printf()'s to use */ extern void memBufVPrintf(MemBuf * mb, const char *fmt, va_list ap); /* returns free() function to be used, _freezes_ the object! */ extern FREE *memBufFreeFunc(MemBuf * mb); /* puts report on MemBuf _module_ usage into mb */ extern void memBufReport(MemBuf * mb); extern char *mime_get_header(const char *mime, const char *header); extern char *mime_get_header_field(const char *mime, const char *name, const char *prefix); extern size_t headersEnd(const char *, size_t); extern const char *mime_get_auth(const char *hdr, const char *auth_scheme, const char **auth_field); extern void mimeInit(char *filename); extern void mimeFreeMemory(void); extern char *mimeGetContentEncoding(const char *fn); extern char *mimeGetContentType(const char *fn); extern char *mimeGetIcon(const char *fn); extern const char *mimeGetIconURL(const char *fn); extern char mimeGetTransferMode(const char *fn); extern int mimeGetDownloadOption(const char *fn); extern int mimeGetViewOption(const char *fn); extern int mcastSetTtl(int, int); extern IPH mcastJoinGroups; /* Labels for hierachical log file */ /* put them all here for easier reference when writing a logfile analyzer */ extern peer *getFirstPeer(void); extern peer *getFirstUpParent(request_t *); extern peer *getNextPeer(peer *); extern peer *getSingleParent(request_t *); extern int neighborsCount(request_t *); extern int neighborsUdpPing(request_t *, StoreEntry *, IRCB * callback, void *data, int *exprep, int *timeout); extern void neighborAddAcl(const char *, const char *); extern void neighborsUdpAck(const cache_key *, icp_common_t *, const struct sockaddr_in *); extern void neighborAdd(const char *, const char *, int, int, int, int, int); extern void neighbors_init(void); extern peer *peerFindByName(const char *); extern peer *peerFindByNameAndPort(const char *, unsigned short); extern peer *getDefaultParent(request_t * request); extern peer *getRoundRobinParent(request_t * request); extern void peerClearRRStart(void); extern void peerClearRR(void); extern peer *getAnyParent(request_t * request); extern lookup_t peerDigestLookup(peer * p, request_t * request); extern peer *neighborsDigestSelect(request_t * request); extern void peerNoteDigestLookup(request_t * request, peer * p, lookup_t lookup); extern void peerNoteDigestGone(peer * p); extern int neighborUp(const peer * e); extern CBDUNL peerDestroy; extern const char *neighborTypeStr(const peer * e); extern peer_t neighborType(const peer *, const request_t *); extern void peerConnectFailed(peer *); extern void peerConnectSucceded(peer *); extern void dump_peer_options(StoreEntry *, peer *); extern int peerHTTPOkay(const peer *, request_t *); extern peer *whichPeer(const struct sockaddr_in *from); #if USE_HTCP extern void neighborsHtcpReply(const cache_key *, htcpReplyData *, const struct sockaddr_in *); #endif extern void peerAddFwdServer(FwdServer ** FS, peer * p, hier_code code); extern int peerAllowedToUse(const peer *, request_t *); extern void netdbInit(void); extern void netdbHandlePingReply(const struct sockaddr_in *from, int hops, int rtt); extern void netdbPingSite(const char *hostname); extern int netdbHops(struct in_addr); extern void netdbFreeMemory(void); extern int netdbHostHops(const char *host); extern int netdbHostRtt(const char *host); extern void netdbUpdatePeer(request_t *, peer * e, int rtt, int hops); extern void netdbDeleteAddrNetwork(struct in_addr addr); extern void netdbBinaryExchange(StoreEntry *); extern EVH netdbExchangeStart; extern void netdbExchangeUpdatePeer(struct in_addr, peer *, double, double); extern peer *netdbClosestParent(request_t *); extern void netdbHostData(const char *host, int *samp, int *rtt, int *hops); extern void cachemgrStart(int fd, request_t * request, StoreEntry * entry); extern void cachemgrRegister(const char *, const char *, OBJH *, int, int); extern void cachemgrInit(void); extern void peerSelect(request_t *, StoreEntry *, PSC *, void *data); extern void peerSelectInit(void); /* peer_digest.c */ extern PeerDigest *peerDigestCreate(peer * p); extern void peerDigestNeeded(PeerDigest * pd); extern void peerDigestNotePeerGone(PeerDigest * pd); extern void peerDigestStatsReport(const PeerDigest * pd, StoreEntry * e); /* forward.c */ extern void fwdStart(int, StoreEntry *, request_t *); extern void fwdStartPeer(peer *, StoreEntry *, request_t *); extern DEFER fwdCheckDeferRead; extern void fwdFail(FwdState *, ErrorState *); extern void fwdUnregister(int fd, FwdState *); extern void fwdComplete(FwdState * fwdState); extern void fwdInit(void); extern int fwdReforwardableStatus(http_status s); extern void fwdServersFree(FwdServer ** FS); #if WIP_FWD_LOG extern void fwdUninit(void); extern void fwdLogRotate(void); extern void fwdStatus(FwdState *, http_status); #endif struct in_addr getOutgoingAddr(request_t * request); unsigned long getOutgoingTOS(request_t * request); extern void urnStart(request_t *, StoreEntry *); extern void redirectStart(clientHttpRequest *, RH *, void *); extern void redirectInit(void); extern void redirectShutdown(void); extern void storeurlStart(clientHttpRequest *, RH *, void *); extern void storeurlInit(void); extern void storeurlShutdown(void); extern void locationRewriteStart(HttpReply *, clientHttpRequest *, RH *, void *); extern void locationRewriteInit(void); extern void locationRewriteShutdown(void); /* auth_modules.c */ extern void authSchemeSetup(void); /* authenticate.c */ extern void authenticateAuthUserMerge(auth_user_t *, auth_user_t *); extern auth_user_t *authenticateAuthUserNew(const char *); extern int authenticateAuthSchemeId(const char *typestr); extern void authenticateStart(auth_user_request_t *, RH *, void *); extern void authenticateSchemeInit(void); extern void authenticateConfigure(authConfig *); extern void authenticateInit(authConfig *); extern void authenticateShutdown(void); extern void authenticateFixHeader(HttpReply *, auth_user_request_t *, request_t *, int, int); extern void authenticateAddTrailer(HttpReply *, auth_user_request_t *, request_t *, int); extern auth_acl_t authenticateTryToAuthenticateAndSetAuthUser(auth_user_request_t **, http_hdr_type, request_t *, ConnStateData *, struct in_addr); extern void authenticateAuthUserUnlock(auth_user_t * auth_user); extern void authenticateAuthUserLock(auth_user_t * auth_user); extern void authenticateAuthUserRequestUnlock(auth_user_request_t *); extern void authenticateAuthUserRequestLock(auth_user_request_t *); extern char *authenticateAuthUserRequestMessage(auth_user_request_t *); extern int authenticateAuthUserInuse(auth_user_t * auth_user); extern void authenticateAuthUserRequestRemoveIp(auth_user_request_t *, struct in_addr); extern void authenticateAuthUserRequestClearIp(auth_user_request_t *); extern int authenticateAuthUserRequestIPCount(auth_user_request_t *); extern int authenticateDirection(auth_user_request_t *); extern FREE authenticateFreeProxyAuthUser; extern void authenticateFreeProxyAuthUserACLResults(void *data); extern void authenticateProxyUserCacheCleanup(void *); extern void authenticateInitUserCache(void); extern int authenticateActiveSchemeCount(void); extern int authenticateSchemeCount(void); extern void authenticateUserNameCacheAdd(auth_user_t * auth_user); extern int authenticateCheckAuthUserIP(struct in_addr request_src_addr, auth_user_request_t * auth_user); extern int authenticateUserAuthenticated(auth_user_request_t *); extern void authenticateUserCacheRestart(void); extern char *authenticateUserUsername(auth_user_t *); extern char *authenticateUserRequestUsername(auth_user_request_t *); extern int authenticateValidateUser(auth_user_request_t *); extern void authenticateOnCloseConnection(ConnStateData * conn); extern void authSchemeAdd(const char *type, AUTHSSETUP * setup); extern void refreshAddToList(const char *, int, time_t, int, time_t); extern int refreshIsCachable(const StoreEntry *); extern int refreshCheckHTTP(const StoreEntry *, request_t *); extern int refreshCheckHTTPStale(const StoreEntry *, request_t *); extern int refreshCheckStaleOK(const StoreEntry *, request_t *); extern int refreshCheckICP(const StoreEntry *, request_t *); extern int refreshCheckHTCP(const StoreEntry *, request_t *); extern int refreshCheckDigest(const StoreEntry *, time_t delta); extern refresh_cc refreshCC(const StoreEntry *, request_t *); extern time_t getMaxAge(const char *url); extern void refreshInit(void); extern const refresh_t *refreshLimits(const char *url); extern void serverConnectionsClose(void); extern void shut_down(int); extern void rotate_logs(int); extern void reconfigure(int); extern void start_announce(void *unused); extern void sslStart(clientHttpRequest *, squid_off_t *, int *); /* ident.c */ #if USE_IDENT extern void identStart(struct sockaddr_in *me, struct sockaddr_in *my_peer, IDCB * callback, void *cbdata); extern void identInit(void); #endif extern void statInit(void); extern void statFreeMemory(void); extern double median_svc_get(int, int); extern void pconnHistCount(int, int); extern int stat5minClientRequests(void); extern double stat5minCPUUsage(void); extern const char *storeEntryFlags(const StoreEntry *); extern double statRequestHitRatio(int minutes); extern double statRequestHitMemoryRatio(int minutes); extern double statRequestHitDiskRatio(int minutes); extern double statByteHitRatio(int minutes); extern int storeEntryLocked(const StoreEntry *); /* StatHist */ extern void statHistClean(StatHist * H); extern void statHistCount(StatHist * H, double val); extern void statHistCopy(StatHist * Dest, const StatHist * Orig); extern void statHistSafeCopy(StatHist * Dest, const StatHist * Orig); extern double statHistDeltaMedian(const StatHist * A, const StatHist * B); extern void statHistDump(const StatHist * H, StoreEntry * sentry, StatHistBinDumper * bd); extern void statHistLogInit(StatHist * H, int capacity, double min, double max); extern void statHistEnumInit(StatHist * H, int last_enum); extern void statHistIntInit(StatHist * H, int n); extern StatHistBinDumper statHistEnumDumper; extern StatHistBinDumper statHistIntDumper; /* MemMeter */ extern void memMeterSyncHWater(MemMeter * m); #define memMeterCheckHWater(m) { if ((m).hwater_level < (m).level) memMeterSyncHWater(&(m)); } #define memMeterInc(m) { (m).level++; memMeterCheckHWater(m); } #define memMeterDec(m) { (m).level--; } #define memMeterAdd(m, sz) { (m).level += (sz); memMeterCheckHWater(m); } #define memMeterDel(m, sz) { (m).level -= (sz); } /* mem */ extern void memInit(void); extern void memClean(void); extern void memInitModule(void); extern void memCleanModule(void); extern void memConfigure(void); extern void *memAllocate(mem_type); extern void *memAllocString(size_t net_size, size_t * gross_size); extern void *memAllocBuf(size_t net_size, size_t * gross_size); extern void *memReallocBuf(void *buf, size_t net_size, size_t * gross_size); extern void memFree(void *, int type); extern void memFree4K(void *); extern void memFree8K(void *); extern void memFreeString(size_t size, void *); extern void memFreeBuf(size_t size, void *); extern FREE *memFreeBufFunc(size_t size); extern int memInUse(mem_type); extern size_t memTotalAllocated(void); extern void memDataInit(mem_type, const char *, size_t, int); extern void memCheckInit(void); /* MemPool */ extern MemPool *memPoolCreate(const char *label, size_t obj_size); extern void memPoolDestroy(MemPool * pool); extern void memPoolNonZero(MemPool * p); extern void *memPoolAlloc(MemPool * pool); extern void memPoolFree(MemPool * pool, void *obj); extern int memPoolWasUsed(const MemPool * pool); extern int memPoolInUseCount(const MemPool * pool); extern size_t memPoolInUseSize(const MemPool * pool); extern int memPoolUsedCount(const MemPool * pool); /* Mem */ extern void memReport(StoreEntry * e); extern squid_off_t stmemFreeDataUpto(mem_hdr *, squid_off_t); extern void stmemAppend(mem_hdr *, const char *, int); extern ssize_t stmemCopy(const mem_hdr *, squid_off_t, char *, size_t); extern void stmemFree(mem_hdr *); extern void stmemFreeData(mem_hdr *); extern void stmemNodeFree(void *); extern char *stmemNodeGet(mem_node *); /* ----------------------------------------------------------------- */ /* * store.c */ extern StoreEntry *new_StoreEntry(int, const char *); extern void storeEntrySetStoreUrl(StoreEntry * e, const char *store_url); extern StoreEntry *storeGet(const cache_key *); extern StoreEntry *storeGetPublic(const char *uri, const method_t method); extern StoreEntry *storeGetPublicByRequest(request_t * request); extern StoreEntry *storeGetPublicByRequestMethod(request_t * request, const method_t method); extern StoreEntry *storeCreateEntry(const char *, request_flags, method_t); extern void storeSetPublicKey(StoreEntry *); extern void storeComplete(StoreEntry *); extern void storeRequestFailed(StoreEntry *, ErrorState * err); extern void storeInit(void); extern void storeAbort(StoreEntry *); extern void storeAppend(StoreEntry *, const char *, int); extern void storeLockObjectDebug(StoreEntry *, const char *file, const int line); extern void storeRelease(StoreEntry *); extern int storeUnlockObjectDebug(StoreEntry *, const char *file, const int line); extern const char *storeLookupUrl(const StoreEntry * e); #define storeLockObject(a) storeLockObjectDebug(a, __FILE__, __LINE__); #define storeUnlockObject(a) storeUnlockObjectDebug(a, __FILE__, __LINE__); extern EVH storeMaintainSwapSpace; extern void storeExpireNow(StoreEntry *); extern void storeReleaseRequest(StoreEntry *); extern void storeConfigure(void); extern void storeNegativeCache(StoreEntry *); extern void storeFreeMemory(void); extern int expiresMoreThan(time_t, time_t); extern int storeEntryValidToSend(StoreEntry *); extern void storeTimestampsSet(StoreEntry *); extern void storeRegisterAbort(StoreEntry * e, STABH * cb, void *); extern void storeUnregisterAbort(StoreEntry * e); extern void storeMemObjectDump(MemObject * mem); extern void storeEntryDump(const StoreEntry * e, int debug_lvl); extern const char *storeUrl(const StoreEntry *); extern void storeCreateMemObject(StoreEntry *, const char *); extern void storeCopyNotModifiedReplyHeaders(MemObject * O, MemObject * N); extern void storeBuffer(StoreEntry *); extern void storeBufferFlush(StoreEntry *); extern void storeHashInsert(StoreEntry * e, const cache_key *); extern void storeSetMemStatus(StoreEntry * e, int); #if STDC_HEADERS extern void storeAppendPrintf(StoreEntry *, const char *,...) PRINTF_FORMAT_ARG2; #else extern void storeAppendPrintf(); #endif extern void storeAppendVPrintf(StoreEntry *, const char *, va_list ap); extern int storeCheckCachable(StoreEntry * e); extern void storeSetPrivateKey(StoreEntry *); extern squid_off_t objectLen(const StoreEntry * e); extern squid_off_t contentLen(const StoreEntry * e); extern HttpReply *storeEntryReply(StoreEntry *); extern int storeTooManyDiskFilesOpen(void); extern void storeEntryReset(StoreEntry *); extern void storeHeapPositionUpdate(StoreEntry *, SwapDir *); extern void storeSwapFileNumberSet(StoreEntry * e, sfileno filn); extern void storeFsInit(void); extern void storeFsDone(void); extern void storeFsAdd(const char *, STSETUP *); extern void storeReplAdd(const char *, REMOVALPOLICYCREATE *); void storeDeferRead(StoreEntry *, int fd); void storeResumeRead(StoreEntry *); void storeResetDefer(StoreEntry *); extern int memHaveHeaders(const MemObject * mem); extern void storeUpdate(StoreEntry * e, request_t *); /* store_modules.c */ extern void storeFsSetup(void); /* repl_modules.c */ extern void storeReplSetup(void); /* store_io.c */ extern storeIOState *storeCreate(StoreEntry *, STFNCB *, STIOCB *, void *); extern storeIOState *storeOpen(StoreEntry *, STFNCB *, STIOCB *, void *); extern void storeClose(storeIOState *); extern void storeRead(storeIOState *, char *, size_t, squid_off_t, STRCB *, void *); extern void storeWrite(storeIOState *, char *, size_t, FREE *); extern void storeUnlink(StoreEntry *); extern void storeRecycle(StoreEntry *); extern squid_off_t storeOffset(storeIOState *); /* * store_log.c */ extern void storeLog(int tag, const StoreEntry * e); extern void storeLogRotate(void); extern void storeLogClose(void); extern void storeLogOpen(void); /* * store_key_*.c */ extern cache_key *storeKeyDup(const cache_key *); extern cache_key *storeKeyCopy(cache_key *, const cache_key *); extern void storeKeyFree(const cache_key *); extern const cache_key *storeKeyScan(const char *); extern const char *storeKeyText(const cache_key *); extern const cache_key *storeKeyPublic(const char *, const method_t); extern const cache_key *storeKeyPublicByRequest(request_t *); extern const cache_key *storeKeyPublicByRequestMethod(request_t *, const method_t); extern const cache_key *storeKeyPrivate(const char *, method_t, int); extern int storeKeyHashBuckets(int); extern int storeKeyNull(const cache_key *); extern void storeKeyInit(void); extern HASHHASH storeKeyHashHash; extern HASHCMP storeKeyHashCmp; /* * store_digest.c */ extern void storeDigestInit(void); extern void storeDigestNoteStoreReady(void); extern void storeDigestScheduleRebuild(void); extern void storeDigestDel(const StoreEntry * entry); extern void storeDigestReport(StoreEntry *); /* * store_dir.c */ extern OBJH storeDirStats; extern char *storeDirSwapLogFile(int, const char *); extern char *storeSwapDir(int); extern char *storeSwapFullPath(int, char *); extern char *storeSwapSubSubDir(int, char *); extern const char *storeSwapPath(int); extern int storeDirWriteCleanLogs(int reopen); extern STDIRSELECT *storeDirSelectSwapDir; extern void storeCreateSwapDirectories(void); extern void storeDirCloseSwapLogs(void); extern void storeDirCloseTmpSwapLog(int dirn); extern void storeDirConfigure(void); extern void storeDirDiskFull(sdirno); extern void storeDirInit(void); extern void storeDirOpenSwapLogs(void); extern void storeDirSwapLog(const StoreEntry *, int op); extern void storeDirUpdateSwapSize(SwapDir *, squid_off_t size, int sign); extern void storeDirSync(void); extern void storeDirCallback(void); extern void storeDirLRUDelete(StoreEntry *); extern void storeDirLRUAdd(StoreEntry *); extern int storeDirGetBlkSize(const char *path, int *blksize); #ifdef HAVE_STATVFS extern int storeDirGetUFSStats(const char *, fsblkcnt_t *, fsblkcnt_t *, fsfilcnt_t *, fsfilcnt_t *); #else extern int storeDirGetUFSStats(const char *, int *, int *, int *, int *); #endif /* * store_swapmeta.c */ extern char *storeSwapMetaPack(tlv * tlv_list, int *length); extern tlv *storeSwapMetaBuild(StoreEntry * e); extern tlv *storeSwapMetaUnpack(const char *buf, int *hdrlen); extern void storeSwapTLVFree(tlv * n); /* * store_rebuild.c */ extern void storeRebuildStart(void); extern void storeRebuildComplete(struct _store_rebuild_data *); extern void storeRebuildProgress(int sd_index, int total, int sofar); /* * store_swapin.c */ extern void storeSwapInStart(store_client *); /* * store_swapout.c */ extern void storeSwapOut(StoreEntry * e); extern void storeSwapOutFileClose(StoreEntry * e); extern int /* swapout_able */ storeSwapOutMaintainMemObject(StoreEntry * e); extern squid_off_t storeSwapOutObjectBytesOnDisk(const MemObject * mem); /* * store_client.c */ extern store_client *storeClientRegister(StoreEntry * e, void *data); extern void storeClientCopy(store_client *, StoreEntry *, squid_off_t, squid_off_t, size_t, char *, STCB *, void *); extern void storeClientCopyHeaders(store_client *, StoreEntry *, STHCB *, void *); extern int storeClientCopyPending(store_client *, StoreEntry * e, void *data); extern int storeClientUnregister(store_client * sc, StoreEntry * e, void *data); extern squid_off_t storeLowestMemReaderOffset(const StoreEntry * entry); extern void InvokeHandlers(StoreEntry * e); extern int storePendingNClients(const StoreEntry * e); extern const char *getMyHostname(void); extern const char *uniqueHostname(void); extern void safeunlink(const char *path, int quiet); extern void death(int sig); extern void fatal(const char *message); #if STDC_HEADERS extern void fatalf(const char *fmt,...) PRINTF_FORMAT_ARG1; #else extern void fatalf(); #endif extern void fatal_dump(const char *message); extern void sigusr2_handle(int sig); extern void sig_child(int sig); extern void enableCoredumps(void); extern void leave_suid(void); extern void enter_suid(void); extern void no_suid(void); extern void writePidFile(void); extern void setSocketShutdownLifetimes(int); extern void setMaxFD(void); extern void setSystemLimits(void); extern time_t getCurrentTime(void); extern int percent(int, int); extern double dpercent(double, double); extern void squid_signal(int sig, SIGHDLR *, int flags); extern pid_t readPidFile(void); extern struct in_addr inaddrFromHostent(const struct hostent *hp); extern int intAverage(int, int, int, int); extern double doubleAverage(double, double, int, int); extern void debug_trap(const char *); extern void logsFlush(void); extern const char *checkNullString(const char *p); extern void squid_getrusage(struct rusage *r); extern double rusage_cputime(struct rusage *r); extern int rusage_maxrss(struct rusage *r); extern int rusage_pagefaults(struct rusage *r); extern void releaseServerSockets(void); extern void PrintRusage(void); extern void dumpMallocStats(void); #if USE_UNLINKD extern void unlinkdInit(void); extern void unlinkdClose(void); extern void unlinkdUnlink(const char *); #endif extern char *url_convert_hex(char *org_url, int allocate); extern char *url_escape(const char *url); extern protocol_t urlParseProtocol(const char *); extern method_t urlParseMethod(const char *, int len); extern void urlInitialize(void); extern request_t *urlParse(method_t, char *); extern const char *urlCanonical(request_t *); extern char *urlRInternal(const char *host, u_short port, const char *dir, const char *name); extern char *urlInternal(const char *dir, const char *name); extern int matchDomainName(const char *host, const char *domain); extern int urlCheckRequest(const request_t *); extern int urlDefaultPort(protocol_t p); extern char *urlCanonicalClean(const request_t *); extern char *urlHostname(const char *url); extern void parse_extension_method(rms_t(*foo)[]); extern void free_extension_method(rms_t(*foo)[]); extern void dump_extension_method(StoreEntry * entry, const char *name, rms_t * methods); extern void useragentOpenLog(void); extern void useragentRotateLog(void); extern void logUserAgent(const char *, const char *); extern void useragentLogClose(void); extern void refererOpenLog(void); extern void refererRotateLog(void); extern void logReferer(const char *, const char *, const char *); extern void refererCloseLog(void); extern peer_t parseNeighborType(const char *s); extern void errorInitialize(void); extern void errorClean(void); extern HttpReply *errorBuildReply(ErrorState * err); extern void errorSend(int fd, ErrorState *); extern void errorAppendEntry(StoreEntry *, ErrorState *); extern void errorStateFree(ErrorState * err); extern int errorReservePageId(const char *page_name); extern ErrorState *errorCon(err_type type, http_status, request_t * request); extern int errorPageId(const char *page_name); extern void pconnPush(int, const char *host, u_short port, const char *domain, struct in_addr *client_address, u_short client_port); extern int pconnPop(const char *host, u_short port, const char *domain, struct in_addr *client_address, u_short client_port, int *idle); extern void pconnInit(void); extern int asnMatchIp(void *, struct in_addr); extern void asnInit(void); extern void asnFreeMemory(void); /* tools.c */ extern void dlinkAdd(void *data, dlink_node *, dlink_list *); extern void dlinkAddTail(void *data, dlink_node *, dlink_list *); extern void dlinkDelete(dlink_node * m, dlink_list * list); extern void dlinkNodeDelete(dlink_node * m); extern dlink_node *dlinkNodeNew(void); extern void kb_incr(kb_t *, squid_off_t); extern double gb_to_double(const gb_t *); extern const char *gb_to_str(const gb_t *); extern void gb_flush(gb_t *); /* internal, do not use this */ extern int stringHasWhitespace(const char *); extern int stringHasCntl(const char *); extern void linklistPush(link_list **, void *); extern void *linklistShift(link_list **); extern int xrename(const char *from, const char *to); extern int isPowTen(int); extern void parseEtcHosts(void); extern int getMyPort(void); extern int parse_sockaddr(char *s, struct sockaddr_in *addr); char *strwordtok(char *buf, char **t); void strwordquote(MemBuf * mb, const char *str); void setUmask(mode_t mask); int xusleep(unsigned int usec); void keepCapabilities(void); #if USE_HTCP extern void htcpInit(void); extern void htcpQuery(StoreEntry * e, request_t * req, peer * p); extern void htcpSocketShutdown(void); extern void htcpSocketClose(void); #endif /* String */ #define strLen(s) ((/* const */ int)(s).len) #define strBuf(s) ((const char*)(s).buf) #define strChr(s,ch) ((const char*)strchr(strBuf(s), (ch))) #define strRChr(s,ch) ((const char*)strrchr(strBuf(s), (ch))) #define strStr(s,str) ((const char*)strstr(strBuf(s), (str))) #define strCmp(s,str) strcmp(strBuf(s), (str)) #define strNCmp(s,str,n) strncmp(strBuf(s), (str), (n)) #define strCaseCmp(s,str) strcasecmp(strBuf(s), (str)) #define strNCaseCmp(s,str,n) strncasecmp(strBuf(s), (str), (n)) #define strSet(s,ptr,ch) (s).buf[ptr-(s).buf] = (ch) #define strCut(s,pos) (((s).len = pos) , ((s).buf[pos] = '\0')) #define strCutPtr(s,ptr) (((s).len = (ptr)-(s).buf) , ((s).buf[(s).len] = '\0')) #define strCat(s,str) stringAppend(&(s), (str), strlen(str)) extern void stringInit(String * s, const char *str); extern void stringLimitInit(String * s, const char *str, int len); extern String stringDup(const String * s); extern void stringClean(String * s); extern void stringReset(String * s, const char *str); extern void stringAppend(String * s, const char *buf, int len); /* extern void stringAppendf(String *s, const char *fmt, ...) PRINTF_FORMAT_ARG2; */ /* * ipc.c */ extern pid_t ipcCreate(int type, const char *prog, const char *const args[], const char *name, int *rfd, int *wfd, void **hIpc); /* CacheDigest */ extern CacheDigest *cacheDigestCreate(int capacity, int bpe); extern void cacheDigestDestroy(CacheDigest * cd); extern CacheDigest *cacheDigestClone(const CacheDigest * cd); extern void cacheDigestClear(CacheDigest * cd); extern void cacheDigestChangeCap(CacheDigest * cd, int new_cap); extern int cacheDigestTest(const CacheDigest * cd, const cache_key * key); extern void cacheDigestAdd(CacheDigest * cd, const cache_key * key); extern void cacheDigestDel(CacheDigest * cd, const cache_key * key); extern size_t cacheDigestCalcMaskSize(int cap, int bpe); extern int cacheDigestBitUtil(const CacheDigest * cd); extern void cacheDigestGuessStatsUpdate(cd_guess_stats * stats, int real_hit, int guess_hit); extern void cacheDigestGuessStatsReport(const cd_guess_stats * stats, StoreEntry * sentry, const char *label); extern void cacheDigestReport(CacheDigest * cd, const char *label, StoreEntry * e); extern void internalStart(request_t *, StoreEntry *); extern int internalCheck(const char *urlpath); extern int internalStaticCheck(const char *urlpath); extern char *internalLocalUri(const char *dir, const char *name); extern char *internalStoreUri(const char *dir, const char *name); extern char *internalRemoteUri(const char *, u_short, const char *, const char *); extern const char *internalHostname(void); extern int internalHostnameIs(const char *); #if USE_CARP extern void carpInit(void); extern peer *carpSelectParent(request_t *); #endif extern void peerUserHashInit(void); extern peer *peerUserHashSelectParent(request_t *); extern void peerSourceHashInit(void); extern peer *peerSourceHashSelectParent(request_t *); #if DELAY_POOLS extern void delayPoolsInit(void); extern void delayInitDelayData(unsigned short pools); extern void delayFreeDelayData(unsigned short pools); extern void delayCreateDelayPool(unsigned short pool, u_char class); extern void delayInitDelayPool(unsigned short pool, u_char class, delaySpecSet * rates); extern void delayFreeDelayPool(unsigned short pool); extern void delayPoolsReconfigure(void); extern void delaySetNoDelay(int fd); extern void delayClearNoDelay(int fd); extern int delayIsNoDelay(int fd); extern delay_id delayClient(clientHttpRequest *); extern EVH delayPoolsUpdate; extern int delayBytesWanted(delay_id d, int min, int max); extern void delayBytesIn(delay_id, int qty); extern int delayMostBytesWanted(const MemObject * mem, int max); extern delay_id delayMostBytesAllowed(const MemObject * mem, size_t * bytes); extern void delaySetStoreClient(store_client * sc, delay_id delay_id); extern void delayRegisterDelayIdPtr(delay_id * loc); extern void delayUnregisterDelayIdPtr(delay_id * loc); #endif /* helper.c */ extern void helperOpenServers(helper * hlp); extern void helperStatefulOpenServers(statefulhelper * hlp); extern void helperSubmit(helper * hlp, const char *buf, HLPCB * callback, void *data); extern void helperStatefulSubmit(statefulhelper * hlp, const char *buf, HLPSCB * callback, void *data, helper_stateful_server * lastserver); extern void helperStats(StoreEntry * sentry, helper * hlp); extern void helperStatefulStats(StoreEntry * sentry, statefulhelper * hlp); extern void helperShutdown(helper * hlp); extern void helperStatefulShutdown(statefulhelper * hlp); extern helper *helperCreate(const char *); extern statefulhelper *helperStatefulCreate(const char *); extern void helperFree(helper *); extern void helperStatefulFree(statefulhelper *); extern void helperStatefulReset(helper_stateful_server * srv); extern void helperStatefulReleaseServer(helper_stateful_server * srv); extern void *helperStatefulServerGetData(helper_stateful_server * srv); extern helper_stateful_server *helperStatefulGetServer(statefulhelper *); #if USE_LEAKFINDER extern void leakInit(void); extern void *leakAddFL(void *, const char *, int); extern void *leakTouchFL(void *, const char *, int); extern void *leakFreeFL(void *, const char *, int); #endif /* logfile.c */ extern Logfile *logfileOpen(const char *path, size_t bufsz, int); extern void logfileClose(Logfile * lf); extern void logfileRotate(Logfile * lf); extern void logfileWrite(Logfile * lf, char *buf, size_t len); extern void logfileFlush(Logfile * lf); extern void logfileLineStart(Logfile * lf); extern void logfileLineEnd(Logfile * lf); #if STDC_HEADERS extern void logfilePrintf(Logfile * lf, const char *fmt,...) PRINTF_FORMAT_ARG2; #else extern void logfilePrintf(va_alist); #endif /* * Removal Policies */ extern RemovalPolicy *createRemovalPolicy(RemovalPolicySettings * settings); /* * prototypes for system functions missing from system includes */ #ifdef _SQUID_SOLARIS_ extern int getrusage(int, struct rusage *); extern int getpagesize(void); extern int gethostname(char *, int); #endif #if URL_CHECKSUM_DEBUG extern unsigned int url_checksum(const char *url); #endif /* * hack to allow snmp access to the statistics counters */ extern StatCounters *snmpStatGet(int); /* Cygwin & native Windows Port */ /* win32.c */ #ifdef _SQUID_WIN32_ extern int WIN32_Subsystem_Init(int *, char ***); extern void WIN32_sendSignal(int); extern void WIN32_Abort(int); extern void WIN32_Exit(void); extern void WIN32_SetServiceCommandLine(void); extern void WIN32_InstallService(void); extern void WIN32_RemoveService(void); extern int WIN32_pipe(int[2]); extern int WIN32_getrusage(int, struct rusage *); extern void WIN32_ExceptionHandlerInit(void); extern int SquidMain(int, char **); #ifdef _SQUID_MSWIN_ extern DWORD WIN32_IpAddrChangeMonitorInit(); #endif #endif /* external_acl.c */ extern void parse_externalAclHelper(external_acl **); extern void dump_externalAclHelper(StoreEntry * sentry, const char *name, const external_acl *); extern void free_externalAclHelper(external_acl **); extern void aclParseExternal(void *curlist, const char *name); extern void aclDestroyExternal(void **curlust); extern int aclMatchExternal(void *dataptr, aclCheck_t * ch); extern wordlist *aclDumpExternal(void *dataptr); typedef void EAH(void *data, void *result); extern void externalAclLookup(aclCheck_t * ch, void *acl_data, EAH * handler, void *data); extern void externalAclConfigure(void); extern void externalAclInit(void); extern void externalAclShutdown(void); extern int externalAclRequiresAuth(void *acl_data); extern char *strtokFile(void); const char *externalAclMessage(external_acl_entry * entry); /* refresh_check.c */ extern void parse_refreshCheckHelper(refresh_check_helper **); extern void dump_refreshCheckHelper(StoreEntry * sentry, const char *name, const refresh_check_helper *); extern void free_refreshCheckHelper(refresh_check_helper **); extern void refreshCheckSubmit(StoreEntry * entry, REFRESHCHECK * callback, void *data); extern void refreshCheckInit(void); extern void refreshCheckConfigure(void); extern void refreshCheckShutdown(void); #if USE_WCCPv2 extern void parse_wccp2_service(void *v); extern void free_wccp2_service(void *v); extern void dump_wccp2_service(StoreEntry * e, const char *label, void *v); extern int check_null_wccp2_service(void *v); extern void parse_wccp2_service_info(void *v); extern void free_wccp2_service_info(void *v); extern void dump_wccp2_service_info(StoreEntry * e, const char *label, void *v); #endif /* peer_monitor.c */ extern void peerMonitorInit(void); extern void peerMonitorNow(peer *); /* errormap.c */ extern void errorMapInit(void); extern int errorMapStart(const errormap * map, request_t * req, HttpReply * reply, const char *aclname, ERRMAPCB * callback, void *data); /* ETag support */ void storeLocateVaryDone(VaryData * data); void storeLocateVary(StoreEntry * e, int offset, const char *vary_data, String accept_encoding, STLVCB * callback, void *cbdata); void storeAddVary(const char *store_url, const char *url, const method_t method, const cache_key * key, const char *etag, const char *vary, const char *vary_headers, const char *accept_encoding); /* New HTTP message parsing support */ extern void HttpMsgBufInit(HttpMsgBuf * hmsg, const char *buf, size_t size); extern void httpMsgBufDone(HttpMsgBuf * hmsg); extern int httpMsgParseRequestLine(HttpMsgBuf * hmsg); extern int httpMsgParseRequestHeader(request_t * req, HttpMsgBuf * hmsg); extern int httpMsgFindHeadersEnd(HttpMsgBuf * hmsg); extern const char *xinet_ntoa(const struct in_addr addr); /* client_side.c */ extern aclCheck_t *clientAclChecklistCreate(const acl_access * acl, const clientHttpRequest * http); extern void clientInterpretRequestHeaders(clientHttpRequest * http); extern void clientAccessCheck2(void *data); extern void clientFinishRewriteStuff(clientHttpRequest * http); /* client_side_redirect.c */ extern void clientRedirectAccessCheckDone(int answer, void *data); extern void clientRedirectStart(clientHttpRequest * http); extern void clientRedirectDone(void *data, char *result); /* client_side_storeurl_rewrite.c */ extern void clientStoreURLRewriteAccessCheckDone(int answer, void *data); extern void clientStoreURLRewriteStart(clientHttpRequest * http); extern void clientStoreURLRewriteDone(void *data, char *result); #endif /* SQUID_PROTOS_H */