void putchar(int c) { if (c == '\n') iputchar('\r'); iputchar(c); }
/* thread the remove function */ static void *threadremove(void *targ){ TCMDB *mdb = ((TARGCOMBO *)targ)->mdb; TCNDB *ndb = ((TARGCOMBO *)targ)->ndb; int rnum = ((TARGCOMBO *)targ)->rnum; bool rnd = ((TARGCOMBO *)targ)->rnd; int id = ((TARGCOMBO *)targ)->id; double stime = tctime(); if(id == 0) iprintf("removing:\n"); int base = id * rnum; for(int i = 1; i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", base + (rnd ? myrand(i) : i)); if(ndb){ tcndbout(ndb, buf, len); } else { tcmdbout(mdb, buf, len); } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } if(id == 0) iprintf("time: %.3f\n", tctime() - stime); return NULL; }
/* visit a full record */ const char* visitfull(const char* kbuf, size_t ksiz, const char* vbuf, size_t vsiz, size_t* sp, void* opq) { VISARG* arg; const char* rv; arg = opq; arg->cnt++; rv = KCVISNOP; switch (arg->rnd ? myrand(7) : arg->cnt % 7) { case 0: { rv = arg->rbuf; *sp = arg->rnd ? (size_t)myrand(sizeof(arg->rbuf)) : sizeof(arg->rbuf) / (arg->cnt % 5 + 1); break; } case 1: { rv = KCVISREMOVE; break; } } if (arg->rnum > 250 && arg->cnt % (arg->rnum / 250) == 0) { iputchar('.'); if (arg->cnt == arg->rnum || arg->cnt % (arg->rnum / 10) == 0) iprintf(" (%08ld)\n", (long)arg->cnt); } return rv; }
/* thread the read function */ static void *threadread(void *targ){ TCFDB *fdb = ((TARGREAD *)targ)->fdb; int rnum = ((TARGREAD *)targ)->rnum; bool wb = ((TARGREAD *)targ)->wb; bool rnd = ((TARGREAD *)targ)->rnd; int id = ((TARGREAD *)targ)->id; bool err = false; int base = id * rnum; for(int i = 1; i <= rnum && !err; i++){ uint64_t kid = base + (rnd ? myrandnd(i) + 1 : i); int vsiz; if(wb){ char vbuf[RECBUFSIZ]; int vsiz = tcfdbget4(fdb, kid, vbuf, RECBUFSIZ); if(vsiz < 0 && (!rnd || tcfdbecode(fdb) != TCENOREC)){ eprint(fdb, __LINE__, "tcfdbget4"); err = true; } } else { char *vbuf = tcfdbget(fdb, kid, &vsiz); if(!vbuf && (!rnd || tcfdbecode(fdb) != TCENOREC)){ eprint(fdb, __LINE__, "tcfdbget"); err = true; } tcfree(vbuf); } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } return err ? "error" : NULL; }
/*------------------------------------------------------------------------ * ttyiin - handle interrupt-level input for a tty *------------------------------------------------------------------------ */ void ttyiin(struct devsw *pdev, unsigned char ch) { struct tty *ptty = (struct tty *)pdev->dvioblk; struct tchars *ptc; static unsigned char lastc; if (ch == '\n' && lastc == '\r') return; lastc = ch; if (ptty->tty_iflags & TIF_RAW) { iputchar(ptty, ch); if (scount(ptty->tty_isema) <= 0) signal(ptty->tty_isema); return; } if (ch == '\r') ch = '\n'; ptc = &ptty->tty_tchars; if (ch == ptc->tc_erase) { delchar(ptty); return; } else if (ch == ptc->tc_werase) { delword(ptty); return; } else if (ch == ptc->tc_reprint) { reprint(ptty); return; } else if (ch == ptc->tc_intr) { send(ptty->tty_cpid, INTRMSG); return; } else if (ch == ptc->tc_eof) { ptty->tty_iflags |= TIF_EOF; } else if (ch == ptc->tc_status) { x_ps(CONSOLE, CONSOLE, CONSOLE, 0); } iputchar(ptty, ch); if ((ptty->tty_iflags & (TIF_CBREAK|TIF_RAW)) || ch == ptty->tty_tchars.tc_eol || ch == ptty->tty_tchars.tc_eof) if (scount(ptty->tty_isema) <= 0) signal(ptty->tty_isema); }
/* perform read command */ static int procread(const char *path, bool mt, int omode, bool wb, bool rnd){ my_my_my_iprintf("<Reading Test>\n seed=%u path=%s mt=%d omode=%d wb=%d rnd=%d\n\n", g_randseed, path, mt, omode, wb, rnd); bool err = false; double stime = tctime(); TCFDB *fdb = tcfdbnew(); if(g_dbgfd >= 0) tcfdbsetdbgfd(fdb, g_dbgfd); if(mt && !tcfdbsetmutex(fdb)){ eprint(fdb, __LINE__, "tcfdbsetmutex"); err = true; } if(!tcfdbopen(fdb, path, FDBOREADER | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } int rnum = tcfdbrnum(fdb); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", rnd ? myrand(rnum) + 1 : i); int vsiz; if(wb){ char vbuf[RECBUFSIZ]; int vsiz = tcfdbget4(fdb, i, vbuf, RECBUFSIZ); if(vsiz < 0 && !(rnd && tcfdbecode(fdb) == TCENOREC)){ eprint(fdb, __LINE__, "tcfdbget4"); err = true; break; } } else { char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); if(!vbuf && !(rnd && tcfdbecode(fdb) == TCENOREC)){ eprint(fdb, __LINE__, "tcfdbget"); err = true; break; } tcfree(vbuf); } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("record number: %llu\n", (unsigned long long)tcfdbrnum(fdb)); my_my_my_iprintf("size: %llu\n", (unsigned long long)tcfdbfsiz(fdb)); mprint(fdb); sysprint(); if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } tcfdbdel(fdb); my_my_my_iprintf("time: %.3f\n", tctime() - stime); my_my_my_iprintf("%s\n\n", err ? "error" : "ok"); return err ? 1 : 0; }
/* perform write command */ static int procwrite(const char *path, int rnum, int width, int64_t limsiz, bool mt, int omode, bool rnd){ my_my_my_iprintf("<Writing Test>\n seed=%u path=%s rnum=%d width=%d limsiz=%lld mt=%d omode=%d" " rnd=%d\n\n", g_randseed, path, rnum, width, (long long)limsiz, mt, omode, rnd); bool err = false; double stime = tctime(); TCFDB *fdb = tcfdbnew(); if(g_dbgfd >= 0) tcfdbsetdbgfd(fdb, g_dbgfd); if(mt && !tcfdbsetmutex(fdb)){ eprint(fdb, __LINE__, "tcfdbsetmutex"); err = true; } if(!tcfdbtune(fdb, width, limsiz)){ eprint(fdb, __LINE__, "tcfdbtune"); err = true; } if(!rnd) omode |= FDBOTRUNC; if(!tcfdbopen(fdb, path, FDBOWRITER | FDBOCREAT | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } for(int i = 1; i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", rnd ? myrand(rnum) + 1 : i); if(!tcfdbput2(fdb, buf, len, buf, len)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("record number: %llu\n", (unsigned long long)tcfdbrnum(fdb)); my_my_my_iprintf("size: %llu\n", (unsigned long long)tcfdbfsiz(fdb)); mprint(fdb); sysprint(); if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } tcfdbdel(fdb); my_my_my_iprintf("time: %.3f\n", tctime() - stime); my_my_my_iprintf("%s\n\n", err ? "error" : "ok"); return err ? 1 : 0; }
/* thread the remove function */ static void *threadremove(void *targ){ TCADB *adb = ((TARGREMOVE *)targ)->adb; int rnum = ((TARGREMOVE *)targ)->rnum; int id = ((TARGREMOVE *)targ)->id; bool err = false; int base = id * rnum; for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", base + i + 1); if(!tcadbout(adb, kbuf, ksiz)){ eprint(adb, __LINE__, "tcadbout"); err = true; break; } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } return err ? "error" : NULL; }
/* thread the write function */ static void *threadwrite(void *targ){ TCFDB *fdb = ((TARGWRITE *)targ)->fdb; int rnum = ((TARGWRITE *)targ)->rnum; bool rnd = ((TARGWRITE *)targ)->rnd; int id = ((TARGWRITE *)targ)->id; bool err = false; int base = id * rnum; for(int i = 1; i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", base + (rnd ? myrand(i) + 1 : i)); if(!tcfdbput2(fdb, buf, len, buf, len)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; break; } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } return err ? "error" : NULL; }
/* thread the remove function */ static void *threadremove(void *targ){ TCFDB *fdb = ((TARGREMOVE *)targ)->fdb; int rnum = ((TARGREMOVE *)targ)->rnum; bool rnd = ((TARGREMOVE *)targ)->rnd; int id = ((TARGREMOVE *)targ)->id; bool err = false; int base = id * rnum; for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", base + (rnd ? myrand(i + 1) + 1 : i)); if(!tcfdbout2(fdb, kbuf, ksiz) && (!rnd || tcfdbecode(fdb) != TCENOREC)){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; break; } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } return err ? "error" : NULL; }
/* thread the read function */ static void *threadread(void *targ){ TCADB *adb = ((TARGREAD *)targ)->adb; int rnum = ((TARGREAD *)targ)->rnum; int id = ((TARGREAD *)targ)->id; bool err = false; int base = id * rnum; for(int i = 1; i <= rnum && !err; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", base + i + 1); int vsiz; char *vbuf = tcadbget(adb, kbuf, ksiz, &vsiz); if(!vbuf){ eprint(adb, __LINE__, "tcadbget"); err = true; } tcfree(vbuf); if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } return err ? "error" : NULL; }
/* thread the read function */ static void *threadread(void *targ){ TCMDB *mdb = ((TARGCOMBO *)targ)->mdb; TCNDB *ndb = ((TARGCOMBO *)targ)->ndb; int rnum = ((TARGCOMBO *)targ)->rnum; bool rnd = ((TARGCOMBO *)targ)->rnd; int id = ((TARGCOMBO *)targ)->id; double stime = tctime(); if(id == 0) iprintf("reading:\n"); int base = id * rnum; for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", base + (rnd ? myrand(i) : i)); int vsiz; char *vbuf = ndb ? tcndbget(ndb, kbuf, ksiz, &vsiz) : tcmdbget(mdb, kbuf, ksiz, &vsiz); if(vbuf) tcfree(vbuf); if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } if(id == 0) iprintf("time: %.3f\n", tctime() - stime); return NULL; }
/* perform misc command */ static int procmisc(const char *path, int rnum, bool mt, int omode){ my_my_my_iprintf("<Miscellaneous Test>\n seed=%u path=%s rnum=%d mt=%d omode=%d\n\n", g_randseed, path, rnum, mt, omode); bool err = false; double stime = tctime(); TCFDB *fdb = tcfdbnew(); if(g_dbgfd >= 0) tcfdbsetdbgfd(fdb, g_dbgfd); if(mt && !tcfdbsetmutex(fdb)){ eprint(fdb, __LINE__, "tcfdbsetmutex"); err = true; } if(!tcfdbtune(fdb, RECBUFSIZ, EXHEADSIZ + (RECBUFSIZ + sizeof(int)) * rnum)){ eprint(fdb, __LINE__, "tcfdbtune"); err = true; } if(!tcfdbopen(fdb, path, FDBOWRITER | FDBOCREAT | FDBOTRUNC | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } if(TCUSEPTHREAD){ TCFDB *fdbdup = tcfdbnew(); if(tcfdbopen(fdbdup, path, FDBOREADER)){ eprint(fdb, __LINE__, "(validation)"); err = true; } else if(tcfdbecode(fdbdup) != TCETHREAD){ eprint(fdb, __LINE__, "(validation)"); err = true; } tcfdbdel(fdbdup); } my_my_my_iprintf("writing:\n"); for(int i = 1; i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", i); if(!tcfdbputkeep2(fdb, buf, len, buf, len)){ eprint(fdb, __LINE__, "tcfdbputkeep"); err = true; break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("reading:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", i); int vsiz; char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); if(!vbuf){ eprint(fdb, __LINE__, "tcfdbget"); err = true; break; } else if(vsiz != ksiz || memcmp(vbuf, kbuf, vsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; tcfree(vbuf); break; } tcfree(vbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(tcfdbrnum(fdb) != rnum){ eprint(fdb, __LINE__, "(validation)"); err = true; } my_my_my_iprintf("random writing:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(rnum) + 1); char vbuf[RECBUFSIZ]; int vsiz = myrand(RECBUFSIZ); memset(vbuf, '*', vsiz); if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; break; } int rsiz; char *rbuf = tcfdbget2(fdb, kbuf, ksiz, &rsiz); if(!rbuf){ eprint(fdb, __LINE__, "tcfdbget"); err = true; break; } if(rsiz != vsiz || memcmp(rbuf, vbuf, rsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; tcfree(rbuf); break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } tcfree(rbuf); } my_my_my_iprintf("random erasing:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(rnum) + 1); if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout"); err = true; break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("writing:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "[%d]", i); char vbuf[RECBUFSIZ]; int vsiz = i % RECBUFSIZ; memset(vbuf, '*', vsiz); if(!tcfdbputkeep2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep"); err = true; break; } if(vsiz < 1){ char tbuf[PATH_MAX]; for(int j = 0; j < PATH_MAX; j++){ tbuf[j] = myrand(0x100); } if(!tcfdbput2(fdb, kbuf, ksiz, tbuf, PATH_MAX)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; break; } } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("erasing:\n"); for(int i = 1; i <= rnum; i++){ if(i % 2 == 1){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "[%d]", i); if(!tcfdbout2(fdb, kbuf, ksiz)){ eprint(fdb, __LINE__, "tcfdbout"); err = true; break; } if(tcfdbout2(fdb, kbuf, ksiz) || tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout"); err = true; break; } } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("random writing and reopening:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(rnum) + 1); int vsiz = myrand(RECBUFSIZ); char *vbuf = tcmalloc(vsiz + 1); memset(vbuf, '*', vsiz); switch(myrand(3)){ case 0: if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; } break; case 1: if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbputcat"); err = true; } break; case 2: if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout"); err = true; } break; } tcfree(vbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } if(!tcfdbopen(fdb, path, FDBOWRITER | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } my_my_my_iprintf("checking:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "[%d]", i); int vsiz; char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); if(vbuf){ tcfree(vbuf); } else if(tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget"); err = true; break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("writing:\n"); for(int i = 1; i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", i); if(!tcfdbput2(fdb, buf, len, buf, len)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("reading:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%08d", i); int vsiz; char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); if(!vbuf){ eprint(fdb, __LINE__, "tcfdbget"); err = true; break; } else if(vsiz != ksiz || memcmp(vbuf, kbuf, vsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; tcfree(vbuf); break; } tcfree(vbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("checking iterator:\n"); if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } char *kbuf; int ksiz; int inum = 0; for(int i = 1; (kbuf = tcfdbiternext2(fdb, &ksiz)) != NULL; i++, inum++){ int vsiz; char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); if(!vbuf){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; tcfree(kbuf); break; } tcfree(vbuf); tcfree(kbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(tcfdbecode(fdb) != TCENOREC || inum != tcfdbrnum(fdb)){ eprint(fdb, __LINE__, "(validation)"); err = true; } my_my_my_iprintf("iteration updating:\n"); if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } inum = 0; for(int i = 1; (kbuf = tcfdbiternext2(fdb, &ksiz)) != NULL; i++, inum++){ if(myrand(2) == 0){ if(!tcfdbputcat2(fdb, kbuf, ksiz, "0123456789", 10)){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; tcfree(kbuf); break; } } else { if(!tcfdbout2(fdb, kbuf, ksiz)){ eprint(fdb, __LINE__, "tcfdbout"); err = true; tcfree(kbuf); break; } } tcfree(kbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(tcfdbecode(fdb) != TCENOREC || inum < tcfdbrnum(fdb)){ eprint(fdb, __LINE__, "(validation)"); err = true; } if(myrand(10) == 0 && !tcfdbsync(fdb)){ eprint(fdb, __LINE__, "tcfdbsync"); err = true; } if(!tcfdbvanish(fdb)){ eprint(fdb, __LINE__, "tcfdbvanish"); err = true; } TCMAP *map = tcmapnew(); my_my_my_iprintf("random writing:\n"); for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(rnum) + 1); char vbuf[RECBUFSIZ]; int vsiz = sprintf(vbuf, "%d", myrand(rnum) + 1); switch(myrand(7)){ case 0: if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } tcmapput(map, kbuf, ksiz, vbuf, vsiz); break; case 1: if(!tcfdbputkeep2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep2"); err = true; } tcmapputkeep(map, kbuf, ksiz, vbuf, vsiz); break; case 2: if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; } tcmapputcat(map, kbuf, ksiz, vbuf, vsiz); break; case 3: if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } tcmapout(map, kbuf, ksiz); break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("checking transaction commit:\n"); if(!tcfdbtranbegin(fdb)){ eprint(fdb, __LINE__, "tcfdbtranbegin"); err = true; } for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(rnum) + 1); char vbuf[RECBUFSIZ]; int vsiz = sprintf(vbuf, "[%d]", myrand(rnum) + 1); switch(myrand(7)){ case 0: if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } tcmapput(map, kbuf, ksiz, vbuf, vsiz); break; case 1: if(!tcfdbputkeep2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep2"); err = true; } tcmapputkeep(map, kbuf, ksiz, vbuf, vsiz); break; case 2: if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; } tcmapputcat(map, kbuf, ksiz, vbuf, vsiz); break; case 3: if(tcfdbaddint(fdb, tcfdbkeytoid(kbuf, ksiz), 1) == INT_MIN && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbaddint"); err = true; } tcmapaddint(map, kbuf, ksiz, 1); break; case 4: if(isnan(tcfdbadddouble(fdb, tcfdbkeytoid(kbuf, ksiz), 1.0)) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbadddouble"); err = true; } tcmapadddouble(map, kbuf, ksiz, 1.0); break; case 5: if(myrand(2) == 0){ void *op = (void *)(intptr_t)(myrand(3) + 1); if(!tcfdbputproc(fdb, tcfdbkeytoid(kbuf, ksiz), vbuf, vsiz, pdprocfunc, op) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputproc"); err = true; } tcmapputproc(map, kbuf, ksiz, vbuf, vsiz, pdprocfunc, op); } else { vsiz = myrand(10); void *op = (void *)(intptr_t)(myrand(3) + 1); if(!tcfdbputproc(fdb, tcfdbkeytoid(kbuf, ksiz), NULL, vsiz, pdprocfunc, op) && tcfdbecode(fdb) != TCEKEEP && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbputproc"); err = true; } tcmapputproc(map, kbuf, ksiz, NULL, vsiz, pdprocfunc, op); } break; case 6: if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } tcmapout(map, kbuf, ksiz); break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(!tcfdbtrancommit(fdb)){ eprint(fdb, __LINE__, "tcfdbtrancommit"); err = true; } my_my_my_iprintf("checking transaction abort:\n"); uint64_t ornum = tcfdbrnum(fdb); uint64_t ofsiz = tcfdbfsiz(fdb); if(!tcfdbtranbegin(fdb)){ eprint(fdb, __LINE__, "tcfdbtranbegin"); err = true; } for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(rnum) + 1); char vbuf[RECBUFSIZ]; int vsiz = sprintf(vbuf, "[%d]", myrand(rnum) + 1); switch(myrand(7)){ case 0: if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } break; case 1: if(!tcfdbputkeep2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep2"); err = true; } break; case 2: if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; } break; case 3: if(tcfdbaddint(fdb, tcfdbkeytoid(kbuf, ksiz), 1) == INT_MIN && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbaddint"); err = true; } break; case 4: if(isnan(tcfdbadddouble(fdb, tcfdbkeytoid(kbuf, ksiz), 1.0)) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbadddouble"); err = true; } break; case 5: if(myrand(2) == 0){ void *op = (void *)(intptr_t)(myrand(3) + 1); if(!tcfdbputproc(fdb, tcfdbkeytoid(kbuf, ksiz), vbuf, vsiz, pdprocfunc, op) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputproc"); err = true; } } else { vsiz = myrand(10); void *op = (void *)(intptr_t)(myrand(3) + 1); if(!tcfdbputproc(fdb, tcfdbkeytoid(kbuf, ksiz), NULL, vsiz, pdprocfunc, op) && tcfdbecode(fdb) != TCEKEEP && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbputproc"); err = true; } } break; case 6: if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } break; } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(!tcfdbtranabort(fdb)){ eprint(fdb, __LINE__, "tcfdbtranabort"); err = true; } my_my_my_iprintf("checking consistency:\n"); if(tcfdbrnum(fdb) != ornum || tcfdbfsiz(fdb) != ofsiz || tcfdbrnum(fdb) != tcmaprnum(map)){ eprint(fdb, __LINE__, "(validation)"); err = true; } inum = 0; tcmapiterinit(map); const char *tkbuf; int tksiz; for(int i = 1; (tkbuf = tcmapiternext(map, &tksiz)) != NULL; i++, inum++){ int tvsiz; const char *tvbuf = tcmapiterval(tkbuf, &tvsiz); if(tvsiz > RECBUFSIZ) tvsiz = RECBUFSIZ; int rsiz; char *rbuf = tcfdbget2(fdb, tkbuf, tksiz, &rsiz); if(!rbuf || rsiz != tvsiz || memcmp(rbuf, tvbuf, rsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; tcfree(rbuf); break; } tcfree(rbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(rnum > 250) my_my_my_iprintf(" (%08d)\n", inum); inum = 0; if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } for(int i = 1; (kbuf = tcfdbiternext2(fdb, &ksiz)) != NULL; i++, inum++){ int vsiz; char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); int rsiz; const char *rbuf = tcmapget(map, kbuf, ksiz, &rsiz); if(rsiz > RECBUFSIZ) rsiz = RECBUFSIZ; if(!rbuf || rsiz != vsiz || memcmp(rbuf, vbuf, rsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; tcfree(vbuf); tcfree(kbuf); break; } tcfree(vbuf); tcfree(kbuf); if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } if(rnum > 250) my_my_my_iprintf(" (%08d)\n", inum); tcmapdel(map); if(!tcfdbvanish(fdb)){ eprint(fdb, __LINE__, "tcfdbvanish"); err = true; } if(rnum >= 100){ if(!tcfdbtranbegin(fdb)){ eprint(fdb, __LINE__, "tcfdbtranbegin"); err = true; } if(!tcfdbput3(fdb, "99", "hirabayashi")){ eprint(fdb, __LINE__, "tcfdbput3"); err = true; } for(int i = 0; i < 10; i++){ char buf[RECBUFSIZ]; int size = sprintf(buf, "%d", myrand(rnum) + 1); if(!tcfdbput2(fdb, buf, size, buf, size)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } } for(int i = myrand(3) + 1; i < PATH_MAX; i = i * 2 + myrand(3)){ char vbuf[i]; memset(vbuf, '@', i - 1); vbuf[i-1] = '\0'; if(!tcfdbput3(fdb, "99", vbuf)){ eprint(fdb, __LINE__, "tcfdbput3"); err = true; } } if(!tcfdbforeach(fdb, iterfunc, NULL)){ eprint(fdb, __LINE__, "tcfdbforeach"); err = true; } } my_my_my_iprintf("record number: %llu\n", (unsigned long long)tcfdbrnum(fdb)); my_my_my_iprintf("size: %llu\n", (unsigned long long)tcfdbfsiz(fdb)); mprint(fdb); sysprint(); if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } tcfdbdel(fdb); my_my_my_iprintf("time: %.3f\n", tctime() - stime); my_my_my_iprintf("%s\n\n", err ? "error" : "ok"); return err ? 1 : 0; }
/* perform rcat command */ static int procrcat(const char *path, int rnum, int width, int64_t limsiz, bool mt, int omode, int pnum, bool dai, bool dad, bool rl, bool ru){ my_my_my_iprintf("<Random Concatenating Test>\n" " seed=%u path=%s rnum=%d width=%d limsiz=%lld mt=%d omode=%d pnum=%d" " dai=%d dad=%d rl=%d ru=%d\n\n", g_randseed, path, rnum, width, (long long)limsiz, mt, omode, pnum, dai, dad, rl, ru); if(pnum < 1) pnum = rnum; bool err = false; double stime = tctime(); TCFDB *fdb = tcfdbnew(); if(g_dbgfd >= 0) tcfdbsetdbgfd(fdb, g_dbgfd); if(mt && !tcfdbsetmutex(fdb)){ eprint(fdb, __LINE__, "tcfdbsetmutex"); err = true; } if(!tcfdbtune(fdb, width, limsiz)){ eprint(fdb, __LINE__, "tcfdbtune"); err = true; } if(!tcfdbopen(fdb, path, FDBOWRITER | FDBOCREAT | FDBOTRUNC | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } for(int i = 1; i <= rnum; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", myrand(pnum) + 1); if(dai){ if(tcfdbaddint(fdb, tcfdbkeytoid(kbuf, ksiz), myrand(3)) == INT_MIN){ eprint(fdb, __LINE__, "tcfdbaddint"); err = true; break; } } else if(dad){ if(isnan(tcfdbadddouble(fdb, tcfdbkeytoid(kbuf, ksiz), myrand(30) / 10.0))){ eprint(fdb, __LINE__, "tcfdbadddouble"); err = true; break; } } else if(rl){ char vbuf[PATH_MAX]; int vsiz = myrand(PATH_MAX); for(int j = 0; j < vsiz; j++){ vbuf[j] = myrand(0x100); } if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbputcat"); err = true; break; } } else if(ru){ int id = myrand(pnum) + 1; switch(myrand(8)){ case 0: if(!tcfdbput(fdb, id, kbuf, ksiz)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; } break; case 1: if(!tcfdbputkeep(fdb, id, kbuf, ksiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep"); err = true; } break; case 2: if(!tcfdbout(fdb, id) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout"); err = true; } break; case 3: if(tcfdbaddint(fdb, id, 1) == INT_MIN && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbaddint"); err = true; } break; case 4: if(isnan(tcfdbadddouble(fdb, id, 1.0)) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbadddouble"); err = true; } break; case 5: if(myrand(2) == 0){ if(!tcfdbputproc(fdb, id, kbuf, ksiz, pdprocfunc, NULL) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputproc"); err = true; } } else { if(!tcfdbputproc(fdb, id, NULL, 0, pdprocfunc, NULL) && tcfdbecode(fdb) != TCEKEEP && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbputproc"); err = true; } } break; default: if(!tcfdbputcat(fdb, id, kbuf, ksiz)){ eprint(fdb, __LINE__, "tcfdbputcat"); err = true; } break; } if(err) break; } else { if(!tcfdbputcat2(fdb, kbuf, ksiz, kbuf, ksiz)){ eprint(fdb, __LINE__, "tcfdbputcat"); err = true; break; } } if(rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) my_my_my_iprintf(" (%08d)\n", i); } } my_my_my_iprintf("record number: %llu\n", (unsigned long long)tcfdbrnum(fdb)); my_my_my_iprintf("size: %llu\n", (unsigned long long)tcfdbfsiz(fdb)); mprint(fdb); sysprint(); if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } tcfdbdel(fdb); my_my_my_iprintf("time: %.3f\n", tctime() - stime); my_my_my_iprintf("%s\n\n", err ? "error" : "ok"); return err ? 1 : 0; }
/* thread the wicked function */ static void *threadwicked(void *targ){ TCFDB *fdb = ((TARGWICKED *)targ)->fdb; int rnum = ((TARGWICKED *)targ)->rnum; bool nc = ((TARGWICKED *)targ)->nc; int id = ((TARGWICKED *)targ)->id; TCMAP *map = ((TARGWICKED *)targ)->map; bool err = false; for(int i = 1; i <= rnum && !err; i++){ uint64_t kid = myrand(rnum * (id + 1)) + 1; char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%llu", (unsigned long long)kid); char vbuf[RECBUFSIZ]; int vsiz = myrand(RECBUFSIZ); memset(vbuf, '*', vsiz); vbuf[vsiz] = '\0'; char *rbuf; if(!nc) tcglobalmutexlock(); switch(myrand(16)){ case 0: if(id == 0) iputchar('0'); if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } if(!nc) tcmapput(map, kbuf, ksiz, vbuf, vsiz); break; case 1: if(id == 0) iputchar('1'); if(!tcfdbput3(fdb, kbuf, vbuf)){ eprint(fdb, __LINE__, "tcfdbput3"); err = true; } if(!nc) tcmapput2(map, kbuf, vbuf); break; case 2: if(id == 0) iputchar('2'); if(!tcfdbputkeep2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep2"); err = true; } if(!nc) tcmapputkeep(map, kbuf, ksiz, vbuf, vsiz); break; case 3: if(id == 0) iputchar('3'); if(!tcfdbputkeep3(fdb, kbuf, vbuf) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep3"); err = true; } if(!nc) tcmapputkeep2(map, kbuf, vbuf); break; case 4: if(id == 0) iputchar('4'); if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; } if(!nc) tcmapputcat(map, kbuf, ksiz, vbuf, vsiz); break; case 5: if(id == 0) iputchar('5'); if(!tcfdbputcat3(fdb, kbuf, vbuf)){ eprint(fdb, __LINE__, "tcfdbputcat3"); err = true; } if(!nc) tcmapputcat2(map, kbuf, vbuf); break; case 6: if(id == 0) iputchar('6'); if(myrand(2) == 0){ if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } if(!nc) tcmapout(map, kbuf, ksiz); } break; case 7: if(id == 0) iputchar('7'); if(myrand(2) == 0){ if(!tcfdbout3(fdb, kbuf) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout3"); err = true; } if(!nc) tcmapout2(map, kbuf); } break; case 8: if(id == 0) iputchar('8'); if(!(rbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz))){ if(tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; } rbuf = tcsprintf("[%d]", myrand(i + 1)); vsiz = strlen(rbuf); } vsiz += myrand(vsiz); if(myrand(3) == 0) vsiz += PATH_MAX; rbuf = tcrealloc(rbuf, vsiz + 1); for(int j = 0; j < vsiz; j++){ rbuf[j] = myrand(0x100); } if(!tcfdbput2(fdb, kbuf, ksiz, rbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } if(!nc) tcmapput(map, kbuf, ksiz, rbuf, vsiz); tcfree(rbuf); break; case 9: if(id == 0) iputchar('9'); if(!(rbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz)) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; } tcfree(rbuf); break; case 10: if(id == 0) iputchar('A'); if(!(rbuf = tcfdbget3(fdb, kbuf)) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbge3"); err = true; } tcfree(rbuf); break; case 11: if(id == 0) iputchar('B'); if(myrand(1) == 0) vsiz = 1; if((vsiz = tcfdbget4(fdb, kid, vbuf, vsiz)) < 0 && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget4"); err = true; } break; case 14: if(id == 0) iputchar('E'); if(myrand(rnum / 50) == 0){ if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } } for(int j = myrand(rnum) / 1000 + 1; j >= 0; j--){ if(tcfdbiternext(fdb) < 1){ int ecode = tcfdbecode(fdb); if(ecode != TCEINVALID && ecode != TCENOREC){ eprint(fdb, __LINE__, "tcfdbiternext"); err = true; } } } break; default: if(id == 0) iputchar('@'); if(tcfdbtranbegin(fdb)){ if(myrand(2) == 0){ if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput"); err = true; } if(!nc) tcmapput(map, kbuf, ksiz, vbuf, vsiz); } else { if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout"); err = true; } if(!nc) tcmapout(map, kbuf, ksiz); } if(nc && myrand(2) == 0){ if(!tcfdbtranabort(fdb)){ eprint(fdb, __LINE__, "tcfdbtranabort"); err = true; } } else { if(!tcfdbtrancommit(fdb)){ eprint(fdb, __LINE__, "tcfdbtrancommit"); err = true; } } } else { eprint(fdb, __LINE__, "tcfdbtranbegin"); err = true; } if(myrand(1000) == 0){ if(!tcfdbforeach(fdb, iterfunc, NULL)){ eprint(fdb, __LINE__, "tcfdbforeach"); err = true; } } if(myrand(10000) == 0) srand((unsigned int)(tctime() * 1000) % UINT_MAX); break; } if(!nc) tcglobalmutexunlock(); if(id == 0){ if(i % 50 == 0) iprintf(" (%08d)\n", i); if(id == 0 && i == rnum / 4){ if(!tcfdboptimize(fdb, RECBUFSIZ, -1) && tcfdbecode(fdb) != TCEINVALID){ eprint(fdb, __LINE__, "tcfdboptimize"); err = true; } if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } } } } return err ? "error" : NULL; }
/* perform order command */ static int32_t procorder(const char* path, int64_t rnum, int32_t rnd, int32_t etc, int32_t tran, int32_t oflags) { KCDB* db; KCCUR* cur, *paracur; int32_t err; char kbuf[RECBUFSIZ], *vbuf, wbuf[RECBUFSIZ], *corepath, *copypath, *snappath; size_t ksiz, vsiz, psiz; int32_t wsiz; int64_t i, cnt; double stime, etime; VISARG visarg; iprintf("<In-order Test>\n path=%s rnum=%ld rnd=%d etc=%d tran=%d oflags=%d\n\n", path, (long)rnum, rnd, etc, tran, oflags); err = FALSE; db = kcdbnew(); iprintf("opening the database:\n"); stime = kctime(); if (!kcdbopen(db, path, KCOWRITER | KCOCREATE | KCOTRUNCATE | oflags)) { dberrprint(db, __LINE__, "kcdbopen"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); iprintf("setting records:\n"); stime = kctime(); for (i = 1; !err && i <= rnum; i++) { if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } ksiz = sprintf(kbuf, "%08ld", (long)(rnd ? myrand(rnum) + 1 : i)); if (!kcdbset(db, kbuf, ksiz, kbuf, ksiz)) { dberrprint(db, __LINE__, "kcdbset"); err = TRUE; } if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (rnum > 250 && i % (rnum / 250) == 0) { iputchar('.'); if (i == rnum || i % (rnum / 10) == 0) iprintf(" (%08ld)\n", (long)i); } } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); if (etc) { iprintf("adding records:\n"); stime = kctime(); for (i = 1; !err && i <= rnum; i++) { if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } ksiz = sprintf(kbuf, "%08ld", (long)(rnd ? myrand(rnum) + 1 : i)); if (!kcdbadd(db, kbuf, ksiz, kbuf, ksiz) && kcdbecode(db) != KCEDUPREC) { dberrprint(db, __LINE__, "kcdbadd"); err = TRUE; } if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (rnum > 250 && i % (rnum / 250) == 0) { iputchar('.'); if (i == rnum || i % (rnum / 10) == 0) iprintf(" (%08ld)\n", (long)i); } } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); } if (etc) { iprintf("appending records:\n"); stime = kctime(); for (i = 1; !err && i <= rnum; i++) { if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } ksiz = sprintf(kbuf, "%08ld", (long)(rnd ? myrand(rnum) + 1 : i)); if (!kcdbappend(db, kbuf, ksiz, kbuf, ksiz)) { dberrprint(db, __LINE__, "kcdbadd"); err = TRUE; } if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (rnum > 250 && i % (rnum / 250) == 0) { iputchar('.'); if (i == rnum || i % (rnum / 10) == 0) iprintf(" (%08ld)\n", (long)i); } } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); } iprintf("getting records:\n"); stime = kctime(); for (i = 1; !err && i <= rnum; i++) { if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } ksiz = sprintf(kbuf, "%08ld", (long)(rnd ? myrand(rnum) + 1 : i)); vbuf = kcdbget(db, kbuf, ksiz, &vsiz); if (vbuf) { if (vsiz < ksiz || memcmp(vbuf, kbuf, ksiz)) { dberrprint(db, __LINE__, "kcdbget"); err = TRUE; } kcfree(vbuf); } else if (!rnd || kcdbecode(db) != KCENOREC) { dberrprint(db, __LINE__, "kcdbget"); err = TRUE; } if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (rnum > 250 && i % (rnum / 250) == 0) { iputchar('.'); if (i == rnum || i % (rnum / 10) == 0) iprintf(" (%08ld)\n", (long)i); } } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); if (etc) { iprintf("getting records with a buffer:\n"); stime = kctime(); for (i = 1; !err && i <= rnum; i++) { if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } ksiz = sprintf(kbuf, "%08ld", (long)(rnd ? myrand(rnum) + 1 : i)); wsiz = kcdbgetbuf(db, kbuf, ksiz, wbuf, sizeof(wbuf)); if (wsiz >= 0) { if (wsiz < (int32_t)ksiz || memcmp(wbuf, kbuf, ksiz)) { dberrprint(db, __LINE__, "kcdbgetbuf"); err = TRUE; } } else if (!rnd || kcdbecode(db) != KCENOREC) { dberrprint(db, __LINE__, "kcdbgetbuf"); err = TRUE; } if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (rnum > 250 && i % (rnum / 250) == 0) { iputchar('.'); if (i == rnum || i % (rnum / 10) == 0) iprintf(" (%08ld)\n", (long)i); } } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); } if (etc) { iprintf("traversing the database by the inner iterator:\n"); stime = kctime(); cnt = kcdbcount(db); visarg.rnum = rnum; visarg.rnd = rnd; visarg.cnt = 0; memset(visarg.rbuf, '+', sizeof(visarg.rbuf)); if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } if (!kcdbiterate(db, visitfull, &visarg, TRUE)) { dberrprint(db, __LINE__, "kcdbiterate"); err = TRUE; } if (rnd) iprintf(" (end)\n"); if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (visarg.cnt != cnt) { dberrprint(db, __LINE__, "kcdbiterate"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); } if (etc) { iprintf("traversing the database by the outer cursor:\n"); stime = kctime(); cnt = kcdbcount(db); visarg.rnum = rnum; visarg.rnd = rnd; visarg.cnt = 0; if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } cur = kcdbcursor(db); if (!kccurjump(cur) && kccurecode(cur) != KCENOREC) { dberrprint(db, __LINE__, "kccurjump"); err = TRUE; } paracur = kcdbcursor(db); while (!err && kccuraccept(cur, &visitfull, &visarg, TRUE, !rnd)) { if (rnd) { ksiz = sprintf(kbuf, "%08ld", (long)myrand(rnum)); switch (myrand(3)) { case 0: { if (!kcdbremove(db, kbuf, ksiz) && kcdbecode(db) != KCENOREC) { dberrprint(db, __LINE__, "kcdbremove"); err = TRUE; } break; } case 1: { if (!kccurjumpkey(paracur, kbuf, ksiz) && kccurecode(paracur) != KCENOREC) { dberrprint(db, __LINE__, "kccurjump"); err = TRUE; } break; } default: { if (!kccurstep(cur) && kccurecode(cur) != KCENOREC) { dberrprint(db, __LINE__, "kccurstep"); err = TRUE; } break; } } } } iprintf(" (end)\n"); kccurdel(paracur); kccurdel(cur); if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (!rnd && visarg.cnt != cnt) { dberrprint(db, __LINE__, "kccuraccept"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); } if (etc) { iprintf("synchronizing the database:\n"); stime = kctime(); if (!kcdbsync(db, FALSE, NULL, NULL)) { dberrprint(db, __LINE__, "kcdbsync"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); } if (etc) { corepath = kcdbpath(db); psiz = strlen(corepath); if (strstr(corepath, ".kch") || strstr(corepath, ".kct")) { copypath = kcmalloc(psiz + 256); sprintf(copypath, "%s.tmp", corepath); snappath = kcmalloc(psiz + 256); sprintf(snappath, "%s.kcss", corepath); } else { copypath = kcmalloc(256); sprintf(copypath, "kclangctest.tmp"); snappath = kcmalloc(256); sprintf(snappath, "kclangctest.kcss"); } iprintf("copying the database file:\n"); stime = kctime(); if (!kcdbcopy(db, copypath)) { dberrprint(db, __LINE__, "kcdbcopy"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); remove(copypath); iprintf("dumping records into snapshot:\n"); stime = kctime(); if (!kcdbdumpsnap(db, snappath)) { dberrprint(db, __LINE__, "kcdbdumpsnap"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); iprintf("loading records into snapshot:\n"); stime = kctime(); cnt = kcdbcount(db); if (rnd && myrand(2) == 0 && !kcdbclear(db)) { dberrprint(db, __LINE__, "kcdbclear"); err = TRUE; } if (!kcdbloadsnap(db, snappath) || kcdbcount(db) != cnt) { dberrprint(db, __LINE__, "kcdbloadsnap"); err = TRUE; } etime = kctime(); dbmetaprint(db, FALSE); iprintf("time: %.3f\n", etime - stime); remove(snappath); kcfree(copypath); kcfree(snappath); kcfree(corepath); } iprintf("removing records:\n"); stime = kctime(); for (i = 1; !err && i <= rnum; i++) { if (tran && !kcdbbegintran(db, FALSE)) { dberrprint(db, __LINE__, "kcdbbegintran"); err = TRUE; } ksiz = sprintf(kbuf, "%08ld", (long)(rnd ? myrand(rnum) + 1 : i)); if (!kcdbremove(db, kbuf, ksiz) && ((!rnd && !etc) || kcdbecode(db) != KCENOREC)) { dberrprint(db, __LINE__, "kcdbremove"); err = TRUE; } if (tran && !kcdbendtran(db, TRUE)) { dberrprint(db, __LINE__, "kcdbendtran"); err = TRUE; } if (rnum > 250 && i % (rnum / 250) == 0) { iputchar('.'); if (i == rnum || i % (rnum / 10) == 0) iprintf(" (%08ld)\n", (long)i); } } etime = kctime(); dbmetaprint(db, TRUE); iprintf("time: %.3f\n", etime - stime); iprintf("closing the database:\n"); stime = kctime(); if (!kcdbclose(db)) { dberrprint(db, __LINE__, "kcdbclose"); err = TRUE; } etime = kctime(); iprintf("time: %.3f\n", etime - stime); iprintf("%s\n\n", err ? "error" : "ok"); kcdbdel(db); return err ? 1 : 0; }
/* perform wicked command */ static int procwicked(const char *path, int tnum, int rnum, int omode, bool nc){ iprintf("<Writing Test>\n seed=%u path=%s tnum=%d rnum=%d omode=%d nc=%d\n\n", g_randseed, path, tnum, rnum, omode, nc); bool err = false; double stime = tctime(); TCFDB *fdb = tcfdbnew(); if(g_dbgfd >= 0) tcfdbsetdbgfd(fdb, g_dbgfd); if(!tcfdbsetmutex(fdb)){ eprint(fdb, __LINE__, "tcfdbsetmutex"); err = true; } if(!tcfdbtune(fdb, RECBUFSIZ * 2, EXHEADSIZ + (RECBUFSIZ * 2 + sizeof(int)) * rnum * tnum)){ eprint(fdb, __LINE__, "tcfdbtune"); err = true; } if(!tcfdbopen(fdb, path, FDBOWRITER | FDBOCREAT | FDBOTRUNC | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } TARGWICKED targs[tnum]; pthread_t threads[tnum]; TCMAP *map = tcmapnew(); if(tnum == 1){ targs[0].fdb = fdb; targs[0].rnum = rnum; targs[0].nc = nc; targs[0].id = 0; targs[0].map = map; if(threadwicked(targs) != NULL) err = true; } else { for(int i = 0; i < tnum; i++){ targs[i].fdb = fdb; targs[i].rnum = rnum; targs[i].nc = nc; targs[i].id = i; targs[i].map = map; if(pthread_create(threads + i, NULL, threadwicked, targs + i) != 0){ eprint(fdb, __LINE__, "pthread_create"); targs[i].id = -1; err = true; } } for(int i = 0; i < tnum; i++){ if(targs[i].id == -1) continue; void *rv; if(pthread_join(threads[i], &rv) != 0){ eprint(fdb, __LINE__, "pthread_join"); err = true; } else if(rv){ err = true; } } } if(!nc){ if(!tcfdbsync(fdb)){ eprint(fdb, __LINE__, "tcfdbsync"); err = true; } if(tcfdbrnum(fdb) != tcmaprnum(map)){ eprint(fdb, __LINE__, "(validation)"); err = true; } int end = rnum * tnum; for(int i = 1; i <= end && !err; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", i); int vsiz; const char *vbuf = tcmapget(map, kbuf, ksiz, &vsiz); int rsiz; char *rbuf = tcfdbget2(fdb, kbuf, ksiz, &rsiz); if(vbuf){ iputchar('.'); if(vsiz > tcfdbwidth(fdb)) vsiz = tcfdbwidth(fdb); if(!rbuf){ eprint(fdb, __LINE__, "tcfdbget"); err = true; } else if(rsiz != vsiz || memcmp(rbuf, vbuf, rsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; } } else { iputchar('*'); if(rbuf || tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "(validation)"); err = true; } } tcfree(rbuf); if(i % 50 == 0) iprintf(" (%08d)\n", i); } if(rnum % 50 > 0) iprintf(" (%08d)\n", rnum); } tcmapdel(map); iprintf("record number: %llu\n", (unsigned long long)tcfdbrnum(fdb)); iprintf("size: %llu\n", (unsigned long long)tcfdbfsiz(fdb)); mprint(fdb); sysprint(); if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } tcfdbdel(fdb); iprintf("time: %.3f\n", tctime() - stime); iprintf("%s\n\n", err ? "error" : "ok"); return err ? 1 : 0; }
/* thread the typical function */ static void *threadtypical(void *targ){ TCFDB *fdb = ((TARGTYPICAL *)targ)->fdb; int rnum = ((TARGTYPICAL *)targ)->rnum; bool nc = ((TARGTYPICAL *)targ)->nc; int rratio = ((TARGTYPICAL *)targ)->rratio; int id = ((TARGTYPICAL *)targ)->id; bool err = false; TCMAP *map = (!nc && id == 0) ? tcmapnew2(rnum + 1) : NULL; int base = id * rnum; int mrange = tclmax(50 + rratio, 100); int width = tcfdbwidth(fdb); for(int i = 1; !err && i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", base + myrandnd(i) + 1); int rnd = myrand(mrange); if(rnd < 10){ if(!tcfdbput2(fdb, buf, len, buf, len)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } if(map) tcmapput(map, buf, len, buf, len); } else if(rnd < 15){ if(!tcfdbputkeep2(fdb, buf, len, buf, len) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep2"); err = true; } if(map) tcmapputkeep(map, buf, len, buf, len); } else if(rnd < 20){ if(!tcfdbputcat2(fdb, buf, len, buf, len)){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; } if(map) tcmapputcat(map, buf, len, buf, len); } else if(rnd < 25){ if(!tcfdbout2(fdb, buf, len) && tcfdbecode(fdb) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout"); err = true; } if(map) tcmapout(map, buf, len); } else if(rnd < 26){ if(myrand(10) == 0 && !tcfdbiterinit(fdb) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } for(int j = 0; !err && j < 10; j++){ if(tcfdbiternext(fdb) < 1 && tcfdbecode(fdb) != TCEINVALID && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbiternext"); err = true; } } } else { int vsiz; char *vbuf = tcfdbget2(fdb, buf, len, &vsiz); if(vbuf){ if(map){ int msiz = 0; const char *mbuf = tcmapget(map, buf, len, &msiz); if(msiz > width) msiz = width; if(!mbuf || msiz != vsiz || memcmp(mbuf, vbuf, vsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; } } tcfree(vbuf); } else { if(tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget"); err = true; } if(map && tcmapget(map, buf, len, &vsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; } } } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } if(map){ tcmapiterinit(map); int ksiz; const char *kbuf; while(!err && (kbuf = tcmapiternext(map, &ksiz)) != NULL){ int vsiz; char *vbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz); if(vbuf){ int msiz = 0; const char *mbuf = tcmapget(map, kbuf, ksiz, &msiz); if(msiz > width) msiz = width; if(!mbuf || msiz != vsiz || memcmp(mbuf, vbuf, vsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; } tcfree(vbuf); } else { eprint(fdb, __LINE__, "(validation)"); err = true; } } tcmapdel(map); } return err ? "error" : NULL; }
/* thread the typical function */ static void *threadtypical(void *targ){ TCMDB *mdb = ((TARGTYPICAL *)targ)->mdb; TCNDB *ndb = ((TARGCOMBO *)targ)->ndb; int rnum = ((TARGTYPICAL *)targ)->rnum; bool nc = ((TARGTYPICAL *)targ)->nc; int rratio = ((TARGTYPICAL *)targ)->rratio; int id = ((TARGTYPICAL *)targ)->id; bool err = false; TCMAP *map = (!nc && id == 0) ? tcmapnew2(rnum + 1) : NULL; int base = id * rnum; int mrange = tclmax(50 + rratio, 100); for(int i = 1; !err && i <= rnum; i++){ char buf[RECBUFSIZ]; int len = sprintf(buf, "%08d", base + myrandnd(i)); int rnd = myrand(mrange); if(rnd < 10){ if(ndb){ tcndbput(ndb, buf, len, buf, len); } else { tcmdbput(mdb, buf, len, buf, len); } if(map) tcmapput(map, buf, len, buf, len); } else if(rnd < 15){ if(ndb){ tcndbputkeep(ndb, buf, len, buf, len); } else { tcmdbputkeep(mdb, buf, len, buf, len); } if(map) tcmapputkeep(map, buf, len, buf, len); } else if(rnd < 20){ if(ndb){ tcndbputcat(ndb, buf, len, buf, len); } else { tcmdbputcat(mdb, buf, len, buf, len); } if(map) tcmapputcat(map, buf, len, buf, len); } else if(rnd < 30){ if(ndb){ tcndbout(ndb, buf, len); } else { tcmdbout(mdb, buf, len); } if(map) tcmapout(map, buf, len); } else if(rnd < 31){ if(myrand(10) == 0) tcmdbiterinit(mdb); for(int j = 0; !err && j < 10; j++){ int ksiz; char *kbuf = ndb ? tcndbiternext(ndb, &ksiz) : tcmdbiternext(mdb, &ksiz); if(kbuf) tcfree(kbuf); } } else { int vsiz; char *vbuf = ndb ? tcndbget(ndb, buf, len, &vsiz) : tcmdbget(mdb, buf, len, &vsiz); if(vbuf){ if(map){ int msiz; const char *mbuf = tcmapget(map, buf, len, &msiz); if(msiz != vsiz || memcmp(mbuf, vbuf, vsiz)){ eprint(__LINE__, "(validation)"); err = true; } } tcfree(vbuf); } else { if(map && tcmapget(map, buf, len, &vsiz)){ eprint(__LINE__, "(validation)"); err = true; } } } if(id == 0 && rnum > 250 && i % (rnum / 250) == 0){ iputchar('.'); if(i == rnum || i % (rnum / 10) == 0) iprintf(" (%08d)\n", i); } } if(map){ tcmapiterinit(map); int ksiz; const char *kbuf; while(!err && (kbuf = tcmapiternext(map, &ksiz)) != NULL){ int vsiz; char *vbuf = ndb ? tcndbget(ndb, kbuf, ksiz, &vsiz) : tcmdbget(mdb, kbuf, ksiz, &vsiz); if(vbuf){ int msiz; const char *mbuf = tcmapget(map, kbuf, ksiz, &msiz); if(!mbuf || msiz != vsiz || memcmp(mbuf, vbuf, vsiz)){ eprint(__LINE__, "(validation)"); err = true; } tcfree(vbuf); } else { eprint(__LINE__, "(validation)"); err = true; } } tcmapdel(map); } return err ? "error" : NULL; }
/* perform wicked command */ static int procwicked(const char *path, int rnum, bool mt, int omode){ my_my_my_iprintf("<Wicked Writing Test>\n seed=%u path=%s rnum=%d mt=%d omode=%d\n\n", g_randseed, path, rnum, mt, omode); bool err = false; double stime = tctime(); TCFDB *fdb = tcfdbnew(); if(g_dbgfd >= 0) tcfdbsetdbgfd(fdb, g_dbgfd); if(mt && !tcfdbsetmutex(fdb)){ eprint(fdb, __LINE__, "tcfdbsetmutex"); err = true; } if(!tcfdbtune(fdb, RECBUFSIZ * 2, EXHEADSIZ + (RECBUFSIZ * 2 + sizeof(int)) * rnum)){ eprint(fdb, __LINE__, "tcfdbtune"); err = true; } if(!tcfdbopen(fdb, path, FDBOWRITER | FDBOCREAT | FDBOTRUNC | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } TCMAP *map = tcmapnew2(rnum / 5); for(int i = 1; i <= rnum && !err; i++){ uint64_t id = myrand(rnum) + 1; char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%llu", (unsigned long long)id); char vbuf[RECBUFSIZ]; int vsiz = myrand(RECBUFSIZ); memset(vbuf, '*', vsiz); vbuf[vsiz] = '\0'; char *rbuf; switch(myrand(16)){ case 0: iputchar('0'); if(!tcfdbput2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } tcmapput(map, kbuf, ksiz, vbuf, vsiz); break; case 1: iputchar('1'); if(!tcfdbput3(fdb, kbuf, vbuf)){ eprint(fdb, __LINE__, "tcfdbput3"); err = true; } tcmapput2(map, kbuf, vbuf); break; case 2: iputchar('2'); if(!tcfdbputkeep2(fdb, kbuf, ksiz, vbuf, vsiz) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep2"); err = true; } tcmapputkeep(map, kbuf, ksiz, vbuf, vsiz); break; case 3: iputchar('3'); if(!tcfdbputkeep3(fdb, kbuf, vbuf) && tcfdbecode(fdb) != TCEKEEP){ eprint(fdb, __LINE__, "tcfdbputkeep3"); err = true; } tcmapputkeep2(map, kbuf, vbuf); break; case 4: iputchar('4'); if(!tcfdbputcat2(fdb, kbuf, ksiz, vbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbputcat2"); err = true; } tcmapputcat(map, kbuf, ksiz, vbuf, vsiz); break; case 5: iputchar('5'); if(!tcfdbputcat3(fdb, kbuf, vbuf)){ eprint(fdb, __LINE__, "tcfdbputcat3"); err = true; } tcmapputcat2(map, kbuf, vbuf); break; case 6: iputchar('6'); if(myrand(10) == 0){ if(!tcfdbout2(fdb, kbuf, ksiz) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } tcmapout(map, kbuf, ksiz); } break; case 7: iputchar('7'); if(myrand(10) == 0){ if(!tcfdbout3(fdb, kbuf) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout3"); err = true; } tcmapout2(map, kbuf); } break; case 8: iputchar('8'); if(!(rbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz))){ if(tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; } rbuf = tcsprintf("[%d]", myrand(i + 1)); vsiz = strlen(rbuf); } vsiz += myrand(vsiz); rbuf = tcrealloc(rbuf, vsiz + 1); for(int j = 0; j < vsiz; j++){ rbuf[j] = myrand(0x100); } if(!tcfdbput2(fdb, kbuf, ksiz, rbuf, vsiz)){ eprint(fdb, __LINE__, "tcfdbput2"); err = true; } tcmapput(map, kbuf, ksiz, rbuf, vsiz); tcfree(rbuf); break; case 9: iputchar('9'); if(!(rbuf = tcfdbget2(fdb, kbuf, ksiz, &vsiz)) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; } tcfree(rbuf); break; case 10: iputchar('A'); if(!(rbuf = tcfdbget3(fdb, kbuf)) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget3"); err = true; } tcfree(rbuf); break; case 11: iputchar('B'); if(myrand(1) == 0) vsiz = 1; if((vsiz = tcfdbget4(fdb, id, vbuf, vsiz)) < 0 && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbget4"); err = true; } break; case 12: iputchar('C'); if(myrand(rnum / 128) == 0){ if(myrand(2) == 0){ if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } } else { if(!tcfdbiterinit2(fdb, myrand(rnum) + 1) && tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbiterinit2"); err = true; } } } for(int j = myrand(rnum) / 1000 + 1; j >= 0; j--){ if(tcfdbiternext(fdb) < 0){ int ecode = tcfdbecode(fdb); if(ecode != TCEINVALID && ecode != TCENOREC){ eprint(fdb, __LINE__, "tcfdbiternext"); err = true; } } } break; default: iputchar('@'); if(myrand(10000) == 0) srand((unsigned int)(tctime() * 1000) % UINT_MAX); if(myrand(rnum / 16 + 1) == 0){ int cnt = myrand(30); for(int j = 0; j < rnum && !err; j++){ ksiz = sprintf(kbuf, "%d", i + j); if(tcfdbout2(fdb, kbuf, ksiz)){ cnt--; } else if(tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } tcmapout(map, kbuf, ksiz); if(cnt < 0) break; } } break; } if(i % 50 == 0) my_my_my_iprintf(" (%08d)\n", i); if(i == rnum / 2){ if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } if(!tcfdbopen(fdb, path, FDBOWRITER | omode)){ eprint(fdb, __LINE__, "tcfdbopen"); err = true; } } else if(i == rnum / 4){ char *npath = tcsprintf("%s-tmp", path); if(!tcfdbcopy(fdb, npath)){ eprint(fdb, __LINE__, "tcfdbcopy"); err = true; } TCFDB *nfdb = tcfdbnew(); if(!tcfdbopen(nfdb, npath, FDBOREADER | omode)){ eprint(nfdb, __LINE__, "tcfdbopen"); err = true; } tcfdbdel(nfdb); unlink(npath); tcfree(npath); if(!tcfdboptimize(fdb, RECBUFSIZ, -1)){ eprint(fdb, __LINE__, "tcfdboptimize"); err = true; } if(!tcfdbiterinit(fdb)){ eprint(fdb, __LINE__, "tcfdbiterinit"); err = true; } } else if(i == rnum / 8){ if(!tcfdbtranbegin(fdb)){ eprint(fdb, __LINE__, "tcfdbtranbegin"); err = true; } } else if(i == rnum / 8 + rnum / 16){ if(!tcfdbtrancommit(fdb)){ eprint(fdb, __LINE__, "tcfdbtrancommit"); err = true; } } } if(rnum % 50 > 0) my_my_my_iprintf(" (%08d)\n", rnum); if(!tcfdbsync(fdb)){ eprint(fdb, __LINE__, "tcfdbsync"); err = true; } if(tcfdbrnum(fdb) != tcmaprnum(map)){ eprint(fdb, __LINE__, "(validation)"); err = true; } for(int i = 1; i <= rnum && !err; i++){ char kbuf[RECBUFSIZ]; int ksiz = sprintf(kbuf, "%d", i); int vsiz; const char *vbuf = tcmapget(map, kbuf, ksiz, &vsiz); int rsiz; char *rbuf = tcfdbget2(fdb, kbuf, ksiz, &rsiz); if(vbuf){ iputchar('.'); if(vsiz > RECBUFSIZ) vsiz = RECBUFSIZ; if(!rbuf){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; } else if(rsiz != vsiz || memcmp(rbuf, vbuf, rsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; } } else { iputchar('*'); if(rbuf || tcfdbecode(fdb) != TCENOREC){ eprint(fdb, __LINE__, "(validation)"); err = true; } } tcfree(rbuf); if(i % 50 == 0) my_my_my_iprintf(" (%08d)\n", i); } if(rnum % 50 > 0) my_my_my_iprintf(" (%08d)\n", rnum); tcmapiterinit(map); int ksiz; const char *kbuf; for(int i = 1; (kbuf = tcmapiternext(map, &ksiz)) != NULL; i++){ iputchar('+'); int vsiz; const char *vbuf = tcmapiterval(kbuf, &vsiz); if(vsiz > tcfdbwidth(fdb)) vsiz = tcfdbwidth(fdb); int rsiz; char *rbuf = tcfdbget2(fdb, kbuf, ksiz, &rsiz); if(!rbuf){ eprint(fdb, __LINE__, "tcfdbget2"); err = true; } else if(rsiz != vsiz || memcmp(rbuf, vbuf, rsiz)){ eprint(fdb, __LINE__, "(validation)"); err = true; } tcfree(rbuf); if(!tcfdbout2(fdb, kbuf, ksiz)){ eprint(fdb, __LINE__, "tcfdbout2"); err = true; } if(i % 50 == 0) my_my_my_iprintf(" (%08d)\n", i); } int mrnum = tcmaprnum(map); if(mrnum % 50 > 0) my_my_my_iprintf(" (%08d)\n", mrnum); if(tcfdbrnum(fdb) != 0){ eprint(fdb, __LINE__, "(validation)"); err = true; } my_my_my_iprintf("record number: %llu\n", (unsigned long long)tcfdbrnum(fdb)); my_my_my_iprintf("size: %llu\n", (unsigned long long)tcfdbfsiz(fdb)); mprint(fdb); sysprint(); tcmapdel(map); if(!tcfdbclose(fdb)){ eprint(fdb, __LINE__, "tcfdbclose"); err = true; } tcfdbdel(fdb); my_my_my_iprintf("time: %.3f\n", tctime() - stime); my_my_my_iprintf("%s\n\n", err ? "error" : "ok"); return err ? 1 : 0; }