ref: f75b4fddb3bc6d242f65ac478b53bb62c75c9760
dir: /sys/src/cmd/venti/srv/venti.c/
#ifdef PLAN9PORT #include <u.h> #include <signal.h> #endif #include "stdinc.h" #include <bio.h> #include "dat.h" #include "fns.h" #include "whack.h" typedef struct Allocs Allocs; struct Allocs { u32int mem; u32int bcmem; u32int icmem; u32int stfree; /* free memory at start */ uint mempcnt; }; int debug; int nofork; int mainstacksize = 256*1024; VtSrv *ventisrv; static void ventiserver(void*); static ulong freemem(void) { int nf, pgsize = 0; uvlong size, userpgs = 0, userused = 0; char *ln, *sl; char *fields[2]; Biobuf *bp; size = 64*1024*1024; bp = Bopen("#c/swap", OREAD); if (bp != nil) { while ((ln = Brdline(bp, '\n')) != nil) { ln[Blinelen(bp)-1] = '\0'; nf = tokenize(ln, fields, nelem(fields)); if (nf != 2) continue; if (strcmp(fields[1], "pagesize") == 0) pgsize = atoi(fields[0]); else if (strcmp(fields[1], "user") == 0) { sl = strchr(fields[0], '/'); if (sl == nil) continue; userpgs = atoll(sl+1); userused = atoll(fields[0]); } } Bterm(bp); if (pgsize > 0 && userpgs > 0 && userused > 0) size = (userpgs - userused) * pgsize; } /* cap it to keep the size within 32 bits */ if (size >= 3840UL * 1024 * 1024) size = 3840UL * 1024 * 1024; return size; } static void allocminima(Allocs *all) /* enforce minima for sanity */ { if (all->icmem < 6 * 1024 * 1024) all->icmem = 6 * 1024 * 1024; if (all->mem < 1024 * 1024 || all->mem == Unspecified) /* lumps */ all->mem = 1024 * 1024; if (all->bcmem < 2 * 1024 * 1024) all->bcmem = 2 * 1024 * 1024; } /* automatic memory allocations sizing per venti(8) guidelines */ static Allocs allocbypcnt(u32int mempcnt, u32int stfree) { u32int avail; vlong blmsize; Allocs all; static u32int free; all.mem = Unspecified; all.bcmem = all.icmem = 0; all.mempcnt = mempcnt; all.stfree = stfree; if (free == 0) free = freemem(); blmsize = stfree - free; if (blmsize <= 0) blmsize = 0; avail = ((vlong)stfree * mempcnt) / 100; if (blmsize >= avail || (avail -= blmsize) <= (1 + 2 + 6) * 1024 * 1024) fprint(2, "%s: bloom filter bigger than mem pcnt; " "resorting to minimum values (9MB total)\n", argv0); else { if (avail >= 3840UL * 1024 * 1024) avail = 3840UL * 1024 * 1024; /* sanity */ avail /= 2; all.icmem = avail; avail /= 3; all.mem = avail; all.bcmem = 2 * avail; } return all; } /* * we compute default values for allocations, * which can be overridden by (in order): * configuration file parameters, * command-line options other than -m, and -m. */ static Allocs sizeallocs(Allocs opt, Config *cfg) { Allocs all; /* work out sane defaults */ all = allocbypcnt(20, opt.stfree); /* config file parameters override */ if (cfg->mem && cfg->mem != Unspecified) all.mem = cfg->mem; if (cfg->bcmem) all.bcmem = cfg->bcmem; if (cfg->icmem) all.icmem = cfg->icmem; /* command-line options override */ if (opt.mem && opt.mem != Unspecified) all.mem = opt.mem; if (opt.bcmem) all.bcmem = opt.bcmem; if (opt.icmem) all.icmem = opt.icmem; /* automatic memory sizing? */ if(opt.mempcnt > 0) all = allocbypcnt(opt.mempcnt, opt.stfree); allocminima(&all); return all; } void usage(void) { fprint(2, "usage: venti [-Ldrsw] [-a ventiaddr] [-c config] " "[-h httpaddr] [-m %%mem] [-B blockcachesize] [-C cachesize] [-I icachesize] " "[-W webroot]\n"); threadexitsall("usage"); } void threadmain(int argc, char *argv[]) { char *configfile, *haddr, *vaddr, *webroot; u32int mem, icmem, bcmem, minbcmem, mempcnt, stfree; Allocs allocs; Config config; traceinit(); threadsetname("main"); mempcnt = 0; vaddr = nil; haddr = nil; configfile = nil; webroot = nil; mem = Unspecified; icmem = 0; bcmem = 0; ARGBEGIN{ case 'a': vaddr = EARGF(usage()); break; case 'B': bcmem = unittoull(EARGF(usage())); break; case 'c': configfile = EARGF(usage()); break; case 'C': mem = unittoull(EARGF(usage())); break; case 'D': settrace(EARGF(usage())); break; case 'd': debug = 1; nofork = 1; break; case 'h': haddr = EARGF(usage()); break; case 'm': mempcnt = atoi(EARGF(usage())); if (mempcnt <= 0 || mempcnt >= 100) usage(); break; case 'I': icmem = unittoull(EARGF(usage())); break; case 'L': ventilogging = 1; break; case 'r': readonly = 1; break; case 's': nofork = 1; break; case 'w': /* compatibility with old venti */ queuewrites = 1; break; case 'W': webroot = EARGF(usage()); break; default: usage(); }ARGEND if(argc) usage(); if(!nofork) rfork(RFNOTEG); #ifdef PLAN9PORT { /* sigh - needed to avoid signals when writing to hungup networks */ struct sigaction sa; memset(&sa, 0, sizeof sa); sa.sa_handler = SIG_IGN; sigaction(SIGPIPE, &sa, nil); } #endif ventifmtinstall(); trace(TraceQuiet, "venti started"); fprint(2, "%T venti: "); if(configfile == nil) configfile = "venti.conf"; /* remember free memory before initventi & loadbloom, for auto-sizing */ stfree = freemem(); fprint(2, "conf..."); if(initventi(configfile, &config) < 0) sysfatal("can't init server: %r"); /* * load bloom filter */ if(mainindex->bloom && loadbloom(mainindex->bloom) < 0) sysfatal("can't load bloom filter: %r"); /* * size memory allocations; assumes bloom filter is loaded */ allocs = sizeallocs((Allocs){mem, bcmem, icmem, stfree, mempcnt}, &config); mem = allocs.mem; bcmem = allocs.bcmem; icmem = allocs.icmem; fprint(2, "%s: mem %,ud bcmem %,ud icmem %,ud...", argv0, mem, bcmem, icmem); /* * default other configuration-file parameters */ if(haddr == nil) haddr = config.haddr; if(vaddr == nil) vaddr = config.vaddr; if(vaddr == nil) vaddr = "tcp!*!venti"; if(webroot == nil) webroot = config.webroot; if(queuewrites == 0) queuewrites = config.queuewrites; if(haddr){ fprint(2, "httpd %s...", haddr); if(httpdinit(haddr, webroot) < 0) fprint(2, "warning: can't start http server: %r"); } fprint(2, "init..."); /* * lump cache */ if(0) fprint(2, "initialize %d bytes of lump cache for %d lumps\n", mem, mem / (8 * 1024)); initlumpcache(mem, mem / (8 * 1024)); /* * index cache */ initicache(icmem); initicachewrite(); /* * block cache: need a block for every arena and every process */ minbcmem = maxblocksize * (mainindex->narenas + mainindex->nsects*4 + 16); if(bcmem < minbcmem) bcmem = minbcmem; if(0) fprint(2, "initialize %d bytes of disk block cache\n", bcmem); initdcache(bcmem); if(mainindex->bloom) startbloomproc(mainindex->bloom); fprint(2, "sync..."); if(!readonly && syncindex(mainindex) < 0) sysfatal("can't sync server: %r"); if(!readonly && queuewrites){ fprint(2, "queue..."); if(initlumpqueues(mainindex->nsects) < 0){ fprint(2, "can't initialize lump queues," " disabling write queueing: %r"); queuewrites = 0; } } if(initarenasum() < 0) fprint(2, "warning: can't initialize arena summing process: %r"); fprint(2, "announce %s...", vaddr); ventisrv = vtlisten(vaddr); if(ventisrv == nil) sysfatal("can't announce %s: %r", vaddr); fprint(2, "serving.\n"); if(nofork) ventiserver(nil); else vtproc(ventiserver, nil); threadexits(nil); } static void vtrerror(VtReq *r, char *error) { r->rx.msgtype = VtRerror; r->rx.error = estrdup(error); } static void ventiserver(void *v) { Packet *p; VtReq *r; char err[ERRMAX]; uint ms; int cached, ok; USED(v); threadsetname("ventiserver"); trace(TraceWork, "start"); while((r = vtgetreq(ventisrv)) != nil){ trace(TraceWork, "finish"); trace(TraceWork, "start request %F", &r->tx); trace(TraceRpc, "<- %F", &r->tx); r->rx.msgtype = r->tx.msgtype+1; addstat(StatRpcTotal, 1); if(0) print("req (arenas[0]=%p sects[0]=%p) %F\n", mainindex->arenas[0], mainindex->sects[0], &r->tx); switch(r->tx.msgtype){ default: vtrerror(r, "unknown request"); break; case VtTread: ms = msec(); r->rx.data = readlump(r->tx.score, r->tx.blocktype, r->tx.count, &cached); ms = msec() - ms; addstat2(StatRpcRead, 1, StatRpcReadTime, ms); if(r->rx.data == nil){ addstat(StatRpcReadFail, 1); rerrstr(err, sizeof err); vtrerror(r, err); }else{ addstat(StatRpcReadBytes, packetsize(r->rx.data)); addstat(StatRpcReadOk, 1); if(cached) addstat2(StatRpcReadCached, 1, StatRpcReadCachedTime, ms); else addstat2(StatRpcReadUncached, 1, StatRpcReadUncachedTime, ms); } break; case VtTwrite: if(readonly){ vtrerror(r, "read only"); break; } p = r->tx.data; r->tx.data = nil; addstat(StatRpcWriteBytes, packetsize(p)); ms = msec(); ok = writelump(p, r->rx.score, r->tx.blocktype, 0, ms); ms = msec() - ms; addstat2(StatRpcWrite, 1, StatRpcWriteTime, ms); if(ok < 0){ addstat(StatRpcWriteFail, 1); rerrstr(err, sizeof err); vtrerror(r, err); } break; case VtTsync: flushqueue(); flushdcache(); break; } trace(TraceRpc, "-> %F", &r->rx); vtrespond(r); trace(TraceWork, "start"); } flushdcache(); flushicache(); threadexitsall(0); }