Mercurial > notdcc
view srvrlib/db.h @ 4:d329bb5c36d0
Changes making it compile the new upstream release
| author | Peter Gervai <grin@grin.hu> |
|---|---|
| date | Tue, 10 Mar 2009 14:57:12 +0100 |
| parents | c7f6b056b673 |
| children |
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/* Distributed Checksum Clearinghouse database definitions * * Copyright (c) 2008 by Rhyolite Software, LLC * * This agreement is not applicable to any entity which sells anti-spam * solutions to others or provides an anti-spam solution as part of a * security solution sold to other entities, or to a private network * which employs the DCC or uses data provided by operation of the DCC * but does not provide corresponding data to other users. * * Permission to use, copy, modify, and distribute this software without * changes for any purpose with or without fee is hereby granted, provided * that the above copyright notice and this permission notice appear in all * copies and any distributed versions or copies are either unchanged * or not called anything similar to "DCC" or "Distributed Checksum * Clearinghouse". * * Parties not eligible to receive a license under this agreement can * obtain a commercial license to use DCC by contacting Rhyolite Software * at sales@rhyolite.com. * * A commercial license would be for Distributed Checksum and Reputation * Clearinghouse software. That software includes additional features. This * free license for Distributed ChecksumClearinghouse Software does not in any * way grant permision to use Distributed Checksum and Reputation Clearinghouse * software * * THE SOFTWARE IS PROVIDED "AS IS" AND RHYOLITE SOFTWARE, LLC DISCLAIMS ALL * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL RHYOLITE SOFTWARE, LLC * BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES * OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, * ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. * * Rhyolite Software DCC 1.3.103-1.139 $Revision$ */ #ifndef DB_H #define DB_H #include "srvr_defs.h" #include <math.h> extern u_char grey_on; #define DB_DCC_NAME "dcc_db" #define DB_GREY_NAME "grey_db" #define DB_HASH_SUFFIX ".hash" #define DB_LOCK_SUFFIX ".lock" #define WHITELIST_NM(g) ((g) ? "grey_whitelist" : "whitelist") #define DB_VERSION3_STR "DCC checksum database version 3" #define DB_VERSION4_STR "DCC checksum database version 4" #define DB_VERSION5_STR "DCC checksum database version 5" /* tighten DB_EX_SEC in the next version */ #define DB_VERSION_STR DB_VERSION5_STR #define HASH_MAGIC_STR "DCC hash 6" /* hash table indeces are only 32 bits */ #define MAX_HASH_ENTRIES 0xffffffff #define MIN_CLEAN_HASH_ENTRIES 1024 /* run dbclean at this size */ #define MIN_HASH_ENTRIES (8*MIN_CLEAN_HASH_ENTRIES) #define DEF_HASH_ENTRIES (6*1024*1024) #define MIN_HASH_DIVISOR ((MIN_HASH_ENTRIES*7)/8) #define DB_CP3(x,v) do {u_int32_t _v = v; (x)[0] = _v>>16; \ (x)[1] = _v>>8; (x)[2] = _v;} while (0) #define DB_CP4(x,v) do {u_int32_t _v = v; (x)[0] = _v>>24; \ (x)[1] = _v>>16; (x)[2] = _v>>8; (x)[3] = _v;} while (0) #define DB_EX3(x) ((((u_int32_t)(x)[0])<<16) + ((x)[1]<<8) + (x)[2]) #define DB_EX4(x) ((((u_int32_t)(x)[0])<<24) + (((u_int32_t)(x)[1])<<16) \ + ((x)[2]<<8) + (x)[3]) /* the least significant byte should be tested first */ #define DB_ZERO3(x) ((x)[2] == 0 && (x)[1] == 0 && (x)[0] == 0) #define DB_ZERO4(x) ((x)[3] == 0 && (x)[2] == 0 && (x)[1] == 0 && (x)[0] == 0) /* a single checksum in a database record */ typedef u_char DB_TGTS[3]; /* a compressed count */ typedef u_int64_t DB_PTR; /* database record offset */ typedef u_int32_t DB_PTR_C; /* compressed by DB_PTR_CP() */ typedef struct { DB_PTR_C prev; /* previous record for this checksum */ DB_TGTS tgts; /* accumulated reported targets */ DCC_CK_TYPE_B type_fgs; # define DB_CK_FG_OBS 0x80 /* obsolete report of a checksum */ /* # define DB_CK_ 0x40 once used */ # define DB_CK_MASK 0x0f # define DB_CK_OBS(ck) ((ck)->type_fgs & DB_CK_FG_OBS) # define DB_CK_TYPE(ck) ((DCC_CK_TYPES)((ck)->type_fgs & DB_CK_MASK)) DCC_SUM sum; } DB_RCD_CK; #define DB_TGTS_CK_SET(ck,v) DB_CP3((ck)->tgts,v) #define DB_TGTS_CK(ck) DB_EX3((ck)->tgts) /* shape of a checksum database entry */ typedef struct { DCC_TS ts; /* original server's creation date */ DCC_SRVR_ID srvr_id_auth; /* initial server & client auth bit */ # define DB_RCD_ID(r) ((r)->srvr_id_auth & ~DCC_SRVR_ID_AUTH) DB_TGTS tgts_del; /* # target addresses or delete flag */ u_char fgs_num_cks; /* # of cksums | flags */ # define DB_RCD_FG_TRIM 0x80 /* some checksums deleted */ # define DB_RCD_FG_SUMRY 0x40 /* fake summary record */ # define DB_RCD_FG_DELAY 0x20 /* delayed for fake summary */ # define DB_RCD_TRIMMED(r) ((r)->fgs_num_cks & DB_RCD_FG_TRIM) # define DB_RCD_SUMRY(r) ((r)->fgs_num_cks & DB_RCD_FG_SUMRY) # define DB_RCD_DELAY(r) ((r)->fgs_num_cks & DB_RCD_FG_DELAY) # define DB_NUM_CKS(r) ((r)->fgs_num_cks & DB_CK_MASK) DB_RCD_CK cks[DCC_DIM_CKS]; } DB_RCD; #define DB_RCD_HDR_LEN (ISZ(DB_RCD) - ISZ(DB_RCD_CK)*DCC_DIM_CKS) #define DB_RCD_LEN(r) (DB_RCD_HDR_LEN + DB_NUM_CKS(r) * ISZ(DB_RCD_CK)) #define DB_RCD_LEN_MAX sizeof(DB_RCD) #define DB_TGTS_RCD_SET(r,v) DB_CP3((r)->tgts_del,v) #define DB_TGTS_RCD_RAW(r) DB_EX3((r)->tgts_del) static inline DCC_TGTS DB_TGTS_RCD(const DB_RCD *r) { DCC_TGTS e = DB_TGTS_RCD_RAW(r); return e == DCC_TGTS_DEL ? 0 : e; } /* this allows database of up to 48 GBytes */ #define DB_PTR_MULT ((DB_PTR)12) /* gcd of all sizes of DB_RCD */ #define DB_PTR_CP(v) ((u_int32_t)((v) / DB_PTR_MULT)) #define DB_PTR_EX(x) ((x) * DB_PTR_MULT) /* The kludge to speed conversion of database addresses to page numbers * and offsets on 32-bit systems */ #define DB_PTR_SHIFT 8 #ifdef HAVE_64BIT_LONG #define DB_PTR2PG_NUM(p,s) ((p) / (s)) #else #define DB_PTR2PG_NUM(p,s) ((u_int32_t)((p) >> DB_PTR_SHIFT) \ / (s >> DB_PTR_SHIFT)) #endif #define DB_PTR_NULL 0 #define DB_PTR_BASE ISZ(DB_HDR) #define DB_PTR_MAX DB_PTR_EX((((DB_PTR)1)<<(sizeof(DB_PTR_C)*8)) -1) #define DB_PTR_BAD (DB_PTR_MAX+1) #define DB_PTR_IS_BAD(l) ((l) < DB_PTR_BASE || (l) >= DB_PTR_MAX) typedef DCC_TS DB_SN; /* database serial number */ /* non-spam expiration */ #define DB_EXPIRE_SECS_DEF (24*60*60) #define DB_EXPIRE_SECS_MAX DCC_MAX_SECS #define DB_EXPIRE_SECS_MIN (60*60) #define DB_EXPIRE_SECS_DEF_MIN (2*60*60) /* spam expiration */ #define DB_EXPIRE_SPAMSECS_DEF (30*24*60*60) #define DB_EXPIRE_SPAMSECS_DEF_MIN (1*24*60*60) #define DB_EXPIRE_REP_SECS_DEF DB_EXPIRE_SECS_DEF #define DB_EXPIRE_REP_SPAMSECS_DEF DB_EXPIRE_SPAMSECS_DEF /* keep server-ID declarations a week longer than reputations so that they * will be first to be flooded */ #define DB_EXPIRE_SRVR_ID_SECS (DB_EXPIRE_REP_SPAMSECS_DEF+7*24*60*60) /* re-announce spam this often */ #define DCC_OLD_SPAM_SECS (DB_EXPIRE_SPAMSECS_DEF_MIN/2) /* seconds to greylist or delay new mail messages * RFC 2821 says SMTP clients should wait at least 30 minutes to retry, * but 15 minutes seems more common than 30 minutes. Many retry after * only 5 minutes, and some after only 1 (one!) second. However, * many of those that retry after a few seconds keep trying for a minute * or two. */ #define DEF_GREY_EMBARGO 270 #define MAX_GREY_EMBARGO (24*60*60) #define DEF_GREY_WINDOW (7*24*60*60) /* wait as long as this */ #define MAX_GREY_WINDOW (10*24*60*60) #define DEF_GREY_WHITE (63*24*60*60) /* remember this long */ #define MAX_GREY_WHITE DB_EXPIRE_SECS_MAX typedef struct { DCC_TS all; DCC_TS spam; } DB_EX_TS_TYPE; typedef DB_EX_TS_TYPE DB_EX_TS[DCC_DIM_CKS]; typedef DCC_TS DB_SPAM_EX_TS[DCC_DIM_CKS]; typedef struct { DCC_TGTS unused; int32_t all; /* allsecs */ int32_t spam; /* spamsecs */ } DB_EX_SEC; typedef DB_EX_SEC DB_EX_SECS[DCC_DIM_CKS]; #define DCC_CK_OK_GREY_CLNT(t) ((t) > DCC_CK_INVALID \ && t <= DCC_CK_G_TRIPLE_R_BULK) #define DCC_CK_OK_GREY_FLOD(t) ((t) == DCC_CK_BODY \ || ((t) >= DCC_CK_G_MSG_R_TOTAL \ && (t) <= DCC_CK_FLOD_PATH) \ || ((t) == DCC_CK_IP && grey_weak_ip)) #define DEF_FLOD_THOLDS(g,t) ((g) ? 1 \ : t == DCC_CK_SRVR_ID ? 1 : BULK_THRESHOLD) #define DCC_CK_OK_DCC_CLNT(g,t) ((t) > DCC_CK_INVALID \ && (t) <= DCC_CK_G_TRIPLE_R_BULK \ && ((g)|| (t) <= DCC_CK_FUZ2)) #define DCC_CK_OK_DB(g,t) ((t) > DCC_CK_INVALID && t <= DCC_CK_TYPE_LAST \ && ((g) || ((t) != DCC_CK_G_MSG_R_TOTAL \ && (t) != DCC_CK_G_TRIPLE_R_BULK))) #define DCC_CK_OK_FLOD(g,t) ((g) ? DCC_CK_OK_GREY_FLOD(t) \ : ((t) > DCC_CK_INVALID \ && ((t) <= DCC_CK_FUZ2 \ || (t) == DCC_CK_FLOD_PATH \ || (t) == DCC_CK_SRVR_ID))) typedef u_int32_t DB_NOKEEP_CKS; /* bitmask of ignored checksums */ #define DB_SET_NOKEEP(map,t) ((map) |= (1<<(t))) #define DB_RESET_NOKEEP(map,t) ((map) &= ~(1<<(t))) #define DB_TEST_NOKEEP(map,t) ((map) & (1<<(t))) /* relative fuzziness of checksums */ #define DCC_CK_FUZ_LVL_NO 1 /* least fuzzy */ #define DCC_CK_FUZ_LVL1 2 /* somewhat fuzzy */ #define DCC_CK_FUZ_LVL2 3 /* fuzzier */ #define DCC_CK_FUZ_LVL3 4 /* reputations */ #define DCC_CK_FUZ_LVL_REP DCC_CK_FUZ_LVL3 extern const u_char *db_ck_fuzziness; typedef DB_PTR DB_HOFF; /* byte offset into hash table */ typedef u_int32_t DB_HADDR; /* index of a hash table entry */ typedef u_char DB_HADDR_C[4]; /* compressed hash chain link */ #define DB_HADDR_CP(x,v) DB_CP4(x,v) #define DB_HADDR_EX(x) DB_EX4(x) #define DB_HADDR_NULL 0 /* no-answer from hashing & linking */ #define DB_HADDR_C_NULL(x) DB_ZERO4(x) #define DB_HADDR_INVALID(h) ((h) < DB_HADDR_BASE || (h) >= db_hash_len) #define DB_HADDR_C_INVALID(h) DB_HADDR_INVALID(DB_HADDR_EX(h)) typedef u_char DB_PTR_HC[4]; #define DB_HPTR_CP(x,v) {u_int32_t _v = DB_PTR_CP(v); \ (x)[0] = _v>>24; (x)[1] = _v>>16; (x)[2] = _v>>8; (x)[3] = _v;} #define DB_HPTR_EX(x) DB_PTR_EX(((x)[0]<<24) + ((x)[1]<<16) \ + ((x)[2]<<8) + (x)[3]) /* shape of the magic string that starts a database */ typedef char DB_VERSION_BUF[64]; typedef struct { DB_VERSION_BUF version; /* see DB_VERSION_STR */ DB_PTR db_csize; /* size of database contents in bytes */ u_int32_t pagesize; /* size of 1 DB buffer */ DB_SN sn; /* creation or expiration serial # */ time_t cleared; /* when created */ time_t cleaned; /* real instead of repair cleaning */ time_t cleaned_cron; /* cleaned by cron */ DB_SPAM_EX_TS ex_spam; /* recent expiration timestamps */ DB_SPAM_EX_TS ex_all; /* recent expiration timestamps */ DB_EX_SECS ex_secs; /* recent expiration thresholds */ DB_NOKEEP_CKS nokeep_cks; /* ignore these checksums */ u_int flags; # define DB_PARM_FG_GREY 0x01 /* greylist database */ # define DB_PARM_FG_CLEARED 0x02 /* new file */ # define DB_PARM_EXP_SET 0x04 /* have explicit expiration durations */ DB_PTR old_db_csize; /* size at last cleaning */ DB_PTR db_added; /* bytes previously added to database */ DB_HADDR hash_used; /* recent of entries used */ DB_HADDR old_hash_used; /* entries used at last cleaning */ DB_HADDR hash_added; /* entries added */ time_t rate_secs; /* denominator of rates */ # define DB_MIN_RATE_SECS (12*60*60) # define DB_MAX_RATE_SECS (14*24*60*60) time_t last_rate_sec; DB_HADDR old_kept_cks; /* reported checksums at cleaning */ } DB_PARMS; typedef union { DB_PARMS p; char c[256*3]; } DB_HDR; #ifdef DB_VERSION4_STR typedef struct { DB_VERSION_BUF version; DB_PTR db_csize; u_int32_t pagesize; DB_SN sn; time_t cleared; time_t cleaned; time_t cleaned_cron; DB_SPAM_EX_TS ex_spam; DB_EX_SECS ex_secs; DB_NOKEEP_CKS nokeep_cks; u_int flags; DB_PTR old_db_csize; DB_PTR db_added; DB_HADDR hash_used; DB_HADDR old_hash_used; DB_HADDR hash_added; time_t rate_secs; time_t last_rate_sec; DB_HADDR old_kept_cks; } DB_V4_PARMS; #endif #ifdef DB_VERSION3_STR typedef struct { DB_VERSION_BUF version; DB_PTR db_csize; u_int32_t pagesize; DB_SN sn; DB_SPAM_EX_TS ex_spam; DB_EX_SECS ex_secs; DB_NOKEEP_CKS nokeep_cks; DCC_TGTS unused[DCC_DIM_CKS]; u_int flags; # define DB_PARM_V3_FG_GREY 0x01 # define DB_PARM_V3_FG_SELF_CLEAN 0x02 # define DB_PARM_V3_FG_SELF_CLEAN2 0x04 # define DB_PARM_V3_FG_CLEARED 0x08 DB_PTR old_db_csize; DB_PTR db_added; DB_HADDR hash_used; DB_HADDR old_hash_used; DB_HADDR hash_added; time_t rate_secs; time_t last_rate_sec; DB_HADDR old_kept_cks; } DB_V3_PARMS; #endif /* shape of a database hash table entry */ typedef struct { DB_HADDR_C fwd, bak; /* hash collision chain */ u_char hv_type[2]; /* checksum type + some hash bits */ # define HE_TYPE(e) ((DCC_CK_TYPES)((e)->hv_type[0] & 0xf)) # define HE_IS_FREE(e) ((e)->hv_type[0] == 0) # define HE_MERGE(e,t,s) ((e)->hv_type[0] = ((((s)[0])<<4)+t), \ (e)->hv_type[1] = (s)[1]) # define HE_CMP(e,t,s) ((e)->hv_type[1] == (s)[1] \ && (e)->hv_type[0] ==(u_char)((((s)[0])<<4)+t)) DB_PTR_HC rcd; /* record for this hash table entry */ } HASH_ENTRY; typedef union { HASH_ENTRY h[8]; /* this must be larger than following */ struct { char magic[16]; u_int flags; # define HASH_CTL_FG_CLEAN 0x01 /* consistent */ # define HASH_CTL_FG_NOSYNC 0x02 /* pushed to stable storage */ DB_HADDR free_fwd; /* hash table internal free list */ DB_HADDR free_bak; # define FREE_HADDR_END 1 DB_HADDR len; /* size of file in entries */ DB_HADDR used; /* entries actually used */ DB_HADDR divisor; /* hash modulus */ DB_PTR db_csize; /* size of the database file */ time_t synced; } s; } HASH_CTL; #define DB_HADDR_BASE ((DB_HADDR)((sizeof(HASH_CTL)+sizeof(HASH_ENTRY)-1) \ / sizeof(HASH_ENTRY))) #define HADDR2LEN(l) ((int)((l)-DB_HADDR_BASE)) /* offset to length */ /* control a block of mapped memory */ typedef u_int16_t DB_PG_NUM; typedef u_int32_t DB_PG_OFF; typedef enum { DB_BUF_TYPE_FREE = 0, DB_BUF_TYPE_HASH, DB_BUF_TYPE_DB } DB_BUF_TYPE; #ifdef HAVE_64BIT_LONG typedef u_int64_t DB_BUF_FM; #else typedef u_int32_t DB_BUF_FM; #endif #define DB_BUF_NUM_PARTS (8*ISZ(DB_BUF_FM)) #define PART2BIT(part) (((DB_BUF_FM)1) << (part)) typedef struct db_buf { struct db_buf *fwd, *bak, **hash; struct db_buf *older, *newer; union { void *v; HASH_ENTRY *h; char *c; } buf; DB_PG_NUM pg_num; int lock_cnt; DB_BUF_TYPE buf_type; DB_BUF_FM flush; DB_BUF_FM flush_urgent; struct { char *lo, *hi; } ranges[DB_BUF_NUM_PARTS]; u_char flags; # define DB_BUF_FG_USE_WRITE 0x01 /* use write() */ # define DB_BUF_FG_EXTENSION 0x02 /* new page in file */ } DB_BUF; /* context for searching for or adding a record */ typedef struct { union { /* pointer to data in buffer */ void *v; HASH_ENTRY *h; char *c; DB_RCD *r; DB_PARMS *parms; HASH_CTL *vals; } d; union { /* database address */ DB_HADDR haddr; DB_PTR rptr; } s; DB_BUF *b; } DB_STATE; /* see db_close() before changing this */ typedef struct { DB_STATE rcd; /* must be first */ DB_STATE rcd2; DB_STATE sumrcd; DB_STATE hash; DB_STATE free; DB_STATE tmp; DB_STATE db_parms; DB_STATE hash_ctl; /* hash control info; must be last */ } DB_STATES; extern DB_STATES db_sts; extern int db_failed_line; extern const char *db_failed_file; #define DB_ERROR_MSG(s) db_error_msg(__LINE__,__FILE__, "%s", s) #define DB_ERROR_MSG2(s1,s2) db_error_msg(__LINE__,__FILE__, "%s: %s", s1,s2) extern struct timeval db_time; #define DB_IS_TIME(tgt,lim) DCC_IS_TIME(db_time.tv_sec,tgt,lim) #define DB_ADJ_TIMER(tgt,lim,new) DCC_ADJ_TIMER(db_time.tv_sec,tgt,lim,new) extern u_char db_minimum_map; /* this is dccd & dbclean is running */ extern int db_fd, db_hash_fd; extern DCC_PATH db_nm, db_hash_nm; extern struct timeval db_locked; /* 0 or when database was locked */ extern int db_debug; extern DB_SN db_sn; extern DB_HOFF db_hash_fsize; /* size of hash table file */ extern DB_HADDR db_hash_len; /* # of hash table entries */ extern DB_HADDR db_hash_divisor; /* modulus */ extern DB_HADDR db_hash_used; /* # of hash table entries in use */ extern u_int db_hash_page_len; /* # of HASH_ENTRY's per buffer */ extern DB_HADDR db_max_hash_entries; /* max size of hash table */ extern DB_PTR db_fsize; /* size of database file */ extern DB_PTR db_csize; /* size of database contents in bytes */ extern const DB_VERSION_BUF db_version_buf; extern DB_PARMS db_parms; extern DCC_TGTS db_tholds[DCC_DIM_CKS]; extern u_int db_pagesize; /* size of 1 DB buffer */ extern u_int db_page_max; /* only padding after this */ extern char db_window_size_str[]; /* size of mmap() window */ typedef struct { u_int db_mmaps; u_int hash_mmaps; u_int adds; /* reports added */ } DB_STATS; extern DB_STATS db_stats; /* If the two files were smaller than the typical mmap() limit of a fraction * of a GByte, they could be mmap()'ed directly. They are often too large. * * Use a modest pool of buffers to map the DB hash table and the database * itself. * Each access to the files could be with a single, common buffer, * but that would involve many more mmap() system calls. * Most of the DB hash table is expected to fit in the application's memory. * * Use the same modest pool of buffers to map the database itself. * References to the database have a lot of locality, so the commonly used * checksums and counts should remain in memory. * * Common operating system limits on the number of mapped segments are * below 256 and so that is a bound on DB_BUF_MAX */ #define DB_BUF_MAX 128 /* maximum # of buffers */ #define DB_BUF_PARTS_MAX (DB_BUF_MAX*DB_BUF_NUM_PARTS) /* enough buffers so max simultaneous pointers can be satisfied */ #define DB_BUF_MIN (sizeof(DB_STATES)/sizeof(DB_STATE) + 2) extern int db_buf_total; /* total # of db buffers */ extern DB_PTR db_max_rss; /* maximum db resident set size */ extern DB_PTR db_max_byte; extern time_t db_need_flush_secs; #define DB_NEED_FLUSH_SECS 5 #define DB_STALE_SECS (30*60) /* limit on buffer staleness */ #define DB_FLUSHES (DB_STALE_SECS / DB_NEED_FLUSH_SECS) #define DB_PARTS_PER_FLUSH ((DB_BUF_PARTS_MAX + DB_FLUSHES-1) / DB_FLUSHES) #define DB_URGENT_NEED_FLUSH_SECS 120 /* fix configure script if this changes */ #define DB_MIN_MIN_MBYTE 32 #define DB_DEF_MIN_MBYTE 64 /* a reasonable tiny default */ #define DB_PAD_MBYTE 128 /* RAM for rate limiting blocks etc */ #define DB_PAD_BYTE (DB_PAD_MBYTE*1024*1024) #define DB_MAX_2G_MBYTE (2048-DB_PAD_MBYTE) /* <2 GByte on 32 bit machines */ /* the database cannot exceed 48 GBytes because of DB_PTR_CP */ #define MAX_MAX_DB_MBYTE (48*1024) /* fix INSTALL.html if those change */ /* srvr/db.c */ extern void db_failure(int, const char *, int, DCC_EMSG, const char *, ...) PATTRIB(5,6); extern void db_error_msg(int, const char *, const char *, ...) PATTRIB(3,4); extern void db_set_flush(DB_STATE *, u_char, u_int); #define SET_FLUSH_RCD(st,u) db_set_flush(st,u, DB_RCD_LEN((st)->d.r)) #define SET_FLUSH_RCD_HDR(st,u) db_set_flush(st,u, DB_RCD_HDR_LEN) #define SET_FLUSH_HE(st) db_set_flush(st, 0, sizeof(HASH_ENTRY)) #define SET_FLUSH_HCTL(u) db_set_flush(&db_sts.hash_ctl,u, sizeof(HASH_CTL)) extern void rel_db_states(void); extern u_char db_unload(DCC_EMSG, u_char); extern u_char db_flush_db(DCC_EMSG); extern u_char make_clean(u_char); extern u_char db_close(int); extern void db_stop(void); extern u_char lock_dbclean(DCC_EMSG, const char *); extern void unlock_dbclean(void); extern u_int db_get_pagesize(u_int, u_int); extern u_char db_buf_init(u_int, u_int); typedef u_char DB_OPEN_MODES; # define DB_OPEN_RDONLY 0x01 # define DB_OPEN_LOCK_WAIT 0x02 /* wait to get lock */ # define DB_OPEN_LOCK_NOWAIT 0x04 /* get lock but don't wait */ # define DB_OPEN_MMAP_WRITE 0x08 /* use write() instead of mmap() */ # define DB_OPEN_MMAP_WRITE_NOSYNC 0x10 /* if no mmap(NOSYNC) */ extern u_char db_open(DCC_EMSG, int, const char *, DB_HADDR, DB_OPEN_MODES); extern u_char db_flush_parms(DCC_EMSG ); #define DB_IS_LOCKED() (db_locked.tv_sec != 0) extern int db_lock(void); extern u_char db_unlock(void); extern void db_flush_needed(void); extern DCC_TGTS db_sum_ck(DCC_TGTS, DCC_TGTS, DCC_CK_TYPES); extern const char *db_ptr2str(DB_PTR); extern const char *size2str(char *, u_int, double, u_char); extern double db_add_rate(const DB_PARMS *, u_char); extern DB_NOKEEP_CKS def_nokeep_cks(void); extern void set_db_tholds(DB_NOKEEP_CKS); extern u_char db_map_rcd(DCC_EMSG, DB_STATE *, DB_PTR, int *); extern DB_RCD_CK *db_find_ck(DCC_EMSG, DB_RCD *, DB_PTR, DCC_CK_TYPES); extern DB_RCD_CK *db_map_rcd_ck(DCC_EMSG, DB_STATE *, DB_PTR, DCC_CK_TYPES); extern DB_HADDR get_db_hash_divisor(DB_HADDR); extern DB_HADDR db_hash(DCC_CK_TYPES, const DCC_SUM); typedef enum { DB_FOUND_SYSERR=0, /* fatal error */ DB_FOUND_LATER, /* out of specified hash table range */ DB_FOUND_IT, DB_FOUND_EMPTY, /* home slot empty */ DB_FOUND_CHAIN, /* not in chain--have last entry */ DB_FOUND_INTRUDER /* intruder in home slot */ } DB_FOUND; extern DB_FOUND db_lookup(DCC_EMSG, DCC_CK_TYPES, const DCC_SUM, DB_HADDR, DB_HADDR, DB_STATE *, DB_STATE *, DB_RCD_CK **); extern u_char db_link_rcd(DCC_EMSG, DB_HADDR, DB_HADDR); extern DB_PTR db_add_rcd(DCC_EMSG, const DB_RCD *); #endif /* DB_H */