ref: 5f7a6b7ea3c4ae1b51beffe3309e9b6b0491e71f
dir: /sys/src/cmd/cwfs/main.c/
/* cached-worm file server */ #include "all.h" #include "io.h" Map *devmap; Biobuf bin; int chatty = 0; int sfd = -1; void machinit(void) { active.exiting = 0; } void panic(char *fmt, ...) { int n; va_list arg; char buf[PRINTSIZE]; va_start(arg, fmt); n = vseprint(buf, buf + sizeof buf, fmt, arg) - buf; va_end(arg); buf[n] = '\0'; fprint(2, "panic: %s\n", buf); exit(); } int okay(char *quest) { char *ln; print("okay to %s? ", quest); if ((ln = Brdline(&bin, '\n')) == nil) return 0; ln[Blinelen(&bin)-1] = '\0'; if (isascii(*ln) && isupper(*ln)) *ln = tolower(*ln); return *ln == 'y'; } static void mapinit(char *mapfile) { int nf; char *ln; char *fields[2]; Biobuf *bp; Map *map; if (mapfile == nil) return; bp = Bopen(mapfile, OREAD); if (bp == nil) sysfatal("can't read %s", mapfile); devmap = nil; while((ln = Brdline(bp, '\n')) != nil) { ln[Blinelen(bp)-1] = '\0'; if(*ln == '\0' || *ln == '#') continue; nf = tokenize(ln, fields, nelem(fields)); if(nf != 2) continue; if(testconfig(fields[0]) != 0) { print("bad `from' device %s in %s\n", fields[0], mapfile); continue; } map = ialloc(sizeof(Map), 0); map->from = strdup(fields[0]); map->to = strdup(fields[1]); map->fdev = iconfig(fields[0]); map->tdev = nil; if(access(map->to, AEXIST) < 0) { /* * map->to isn't an existing file, so it had better be * a config string for a device. */ if(testconfig(fields[1]) == 0) map->tdev = iconfig(fields[1]); } /* else map->to is the replacement file name */ map->next = devmap; devmap = map; } Bterm(bp); } static void confinit(void) { conf.nmach = 1; conf.nuid = 1000; conf.nserve = 15; /* tunable */ conf.nfile = 30000; conf.nlgmsg = 100; conf.nsmmsg = 500; localconfinit(); conf.nwpath = conf.nfile*8; conf.gidspace = conf.nuid*3; cons.flags = 0; if (conf.devmap) mapinit(conf.devmap); } static int srvfd(char *s, int mode, int sfd) { int fd; char buf[32]; fd = create(s, ORCLOSE|OWRITE, mode); if(fd < 0){ remove(s); fd = create(s, ORCLOSE|OWRITE, mode); if(fd < 0) panic(s); } sprint(buf, "%d", sfd); if(write(fd, buf, strlen(buf)) != strlen(buf)) panic("srv write"); return sfd; } static void postservice(char *name) { char buf[3*NAMELEN]; int p[2]; if(name == nil || *name == 0) panic("no service name"); /* serve 9p for -s */ if(sfd >= 0){ srvchan(sfd, "stdio"); sfd = -1; } /* post 9p service */ if(pipe(p) < 0) panic("can't make a pipe"); snprint(buf, sizeof(buf), "#s/%s", name); srvfd(buf, 0666, p[0]); close(p[0]); srvchan(p[1], buf); /* post cmd service */ if(pipe(p) < 0) panic("can't make a pipe"); snprint(buf, sizeof(buf), "#s/%s.cmd", name); srvfd(buf, 0660, p[0]); close(p[0]); /* use it as stdin */ dup(p[1], 0); close(p[1]); } /* * compute BUFSIZE*(NDBLOCK+INDPERBUF+INDPERBUF²+INDPERBUF³+INDPERBUF⁴) * while watching for overflow; in that case, return 0. */ static uvlong adduvlongov(uvlong a, uvlong b) { uvlong r = a + b; if (r < a || r < b) return 0; return r; } static uvlong muluvlongov(uvlong a, uvlong b) { uvlong r = a * b; if (a != 0 && r/a != b || r < a || r < b) return 0; return r; } static uvlong maxsize(void) { int i; uvlong max = NDBLOCK, ind = 1; for (i = 0; i < NIBLOCK; i++) { ind = muluvlongov(ind, INDPERBUF); /* power of INDPERBUF */ if (ind == 0) return 0; max = adduvlongov(max, ind); if (max == 0) return 0; } return muluvlongov(max, BUFSIZE); } enum { INDPERBUF² = ((uvlong)INDPERBUF*INDPERBUF), INDPERBUF⁴ = ((uvlong)INDPERBUF²*INDPERBUF²), }; static void printsizes(void) { uvlong max = maxsize(); print("\tblock size = %d; ", RBUFSIZE); if (max == 0) print("max file size exceeds 2⁶⁴ bytes\n"); else { uvlong offlim = 1ULL << (sizeof(Off)*8 - 1); if (max >= offlim) max = offlim - 1; print("max file size = %,llud\n", (Wideoff)max); } if (INDPERBUF²/INDPERBUF != INDPERBUF) print("overflow computing INDPERBUF²\n"); if (INDPERBUF⁴/INDPERBUF² != INDPERBUF²) print("overflow computing INDPERBUF⁴\n"); print("\tINDPERBUF = %d, INDPERBUF^4 = %,lld, ", INDPERBUF, (Wideoff)INDPERBUF⁴); print("CEPERBK = %d\n", CEPERBK); print("\tsizeofs: Dentry = %d, Cache = %d\n", sizeof(Dentry), sizeof(Cache)); } void usage(void) { fprint(2, "usage: %s [ -csC ] [-n service] [ -a ann-str ] [ -m dev-map ] [-f config-dev ]\n", argv0); exits("usage"); } void main(int argc, char **argv) { int i, nets = 0; char *ann, *sname = nil; rfork(RFNOTEG); formatinit(); machinit(); conf.confdev = "/dev/sdC0/fscache"; conf.newcache = 0; ARGBEGIN{ case 'a': /* announce on this net */ ann = EARGF(usage()); if (nets >= Maxnets) { fprint(2, "%s: too many networks to announce: %s\n", argv0, ann); exits("too many nets"); } annstrs[nets++] = ann; break; case 'n': sname = EARGF(usage()); break; case 's': dup(0, -1); sfd = dup(1, -1); close(0); if(open("/dev/cons", OREAD) < 0) open("#c/cons", OREAD); close(1); if(open("/dev/cons", OWRITE) < 0) open("#c/cons", OWRITE); break; case 'C': /* use new, faster cache layout */ conf.newcache = 1; break; case 'c': conf.configfirst++; break; case 'f': /* device / partition / file */ conf.confdev = EARGF(usage()); break; case 'm': /* name device-map file */ conf.devmap = EARGF(usage()); break; case 'd': chatty++; break; default: usage(); break; }ARGEND if(argc != 0) usage(); Binit(&bin, 0, OREAD); confinit(); if(chatty){ print("\nPlan 9 %d-bit cached-worm file server with %d-deep indir blks\n", sizeof(Off)*8 - 1, NIBLOCK); printsizes(); } qlock(&reflock); qunlock(&reflock); serveq = newqueue(1000, "9P service"); /* tunable */ raheadq = newqueue(1000, "readahead"); /* tunable */ mbinit(); netinit(); scsiinit(); files = ialloc((uintptr)conf.nfile * sizeof(*files), 0); for(i=0; i < conf.nfile; i++) { qlock(&files[i]); qunlock(&files[i]); } wpaths = ialloc((uintptr)conf.nwpath * sizeof(*wpaths), 0); uid = ialloc((uintptr)conf.nuid * sizeof(*uid), 0); gidspace = ialloc((uintptr)conf.gidspace * sizeof(*gidspace), 0); iobufinit(); arginit(); boottime = time(nil); sysinit(); srvinit(); /* * post filedescriptors to /srv */ postservice(sname != nil ? sname : service); /* * processes to read the console */ consserve(); /* * Ethernet i/o processes */ netstart(); /* * read ahead processes */ newproc(rahead, 0, "rah"); /* * server processes */ for(i=0; i < conf.nserve; i++) newproc(serve, 0, "srv"); /* * worm "dump" copy process */ newproc(wormcopy, 0, "wcp"); /* * "sync" copy process */ newproc(synccopy, 0, "scp"); /* success */ exits(nil); } /* * read ahead processes. * read message from q and then * read the device. */ int rbcmp(void *va, void *vb) { Rabuf *ra, *rb; ra = *(Rabuf**)va; rb = *(Rabuf**)vb; if(rb == 0) return 1; if(ra == 0) return -1; if(ra->dev > rb->dev) return 1; if(ra->dev < rb->dev) return -1; if(ra->addr > rb->addr) return 1; if(ra->addr < rb->addr) return -1; return 0; } void rahead(void *) { Rabuf *rb[50]; Iobuf *p; int i, n; for (;;) { rb[0] = fs_recv(raheadq, 0); for(n = 1; n < nelem(rb); n++) { if(raheadq->count <= 0) break; rb[n] = fs_recv(raheadq, 0); } qsort(rb, n, sizeof rb[0], rbcmp); for(i = 0; i < n; i++) { if(rb[i] == 0) continue; p = getbuf(rb[i]->dev, rb[i]->addr, Brd); if(p) putbuf(p); lock(&rabuflock); rb[i]->link = rabuffree; rabuffree = rb[i]; unlock(&rabuflock); } } } /* * main filesystem server loop. * entered by many processes. * they wait for message buffers and * then process them. */ void serve(void *) { int i; Chan *cp; Msgbuf *mb; for (;;) { qlock(&reflock); /* read 9P request from a network input process */ mb = fs_recv(serveq, 0); /* fs kernel sets chan in /sys/src/fs/ip/il.c:/^getchan */ cp = mb->chan; if (cp == nil) panic("serve: nil mb->chan"); rlock(&cp->reflock); qunlock(&reflock); rlock(&mainlock); if (mb->data == nil) panic("serve: nil mb->data"); if(cp->protocol != nil){ /* process the request, generate an answer and reply */ cp->protocol(mb); } else { /* do we recognise the protocol in this packet? */ for(i = 0; fsprotocol[i] != nil; i++) if(fsprotocol[i](mb) != 0) { cp->protocol = fsprotocol[i]; break; } if(cp->protocol == nil && (chatty > 1)){ fprint(2, "no protocol for message\n"); hexdump(mb->data, 12); } } mbfree(mb); runlock(&mainlock); runlock(&cp->reflock); } } void exit(void) { lock(&active); active.exiting = 1; unlock(&active); fprint(2, "halted at %T.\n", time(nil)); postnote(PNGROUP, getpid(), "die"); exits(nil); } enum { DUMPTIME = 5, /* 5 am */ WEEKMASK = 0, /* every day (1=sun, 2=mon, 4=tue, etc.) */ }; /* * calculate the next dump time. * minimum delay is 100 minutes. */ Timet nextdump(Timet t) { Timet nddate = nextime(t+MINUTE(100), DUMPTIME, WEEKMASK); if(!conf.nodump && chatty) fprint(2, "next dump at %T\n", nddate); return nddate; } /* * process to copy dump blocks from * cache to worm. it runs flat out when * it gets work, but only looks for * work every 10 seconds. */ void wormcopy(void *) { int f, dorecalc = 1; Timet dt, t = 0, nddate = 0, ntoytime = 0; Filsys *fs; for (;;) { if (dorecalc) { dorecalc = 0; t = time(nil); nddate = nextdump(t); /* chatters */ ntoytime = time(nil); } dt = time(nil) - t; if(dt < 0 || dt > MINUTE(100)) { dorecalc = 1; continue; } t += dt; f = 0; if(t > ntoytime) ntoytime = time(nil) + HOUR(1); else if(t > nddate) { if(!conf.nodump) { fprint(2, "automatic dump %T\n", t); for(fs=filsys; fs->name; fs++) if(fs->dev->type == Devcw) cfsdump(fs); } dorecalc = 1; } else { rlock(&mainlock); for(fs=filsys; fs->name; fs++) if(fs->dev->type == Devcw) f |= dumpblock(fs->dev); runlock(&mainlock); if(!f) delay(10000); wormprobe(); } } } /* * process to synch blocks * it puts out a block/cache-line every second * it waits 10 seconds if caught up. * in both cases, it takes about 10 seconds * to get up-to-date. */ void synccopy(void *) { int f; for (;;) { rlock(&mainlock); f = syncblock(); runlock(&mainlock); if(!f) delay(10000); else delay(1000); } } Devsize inqsize(char *file) { int nf; char *ln, *end, *data; char *fields[4]; Devsize rv = -1; Biobuf *bp; data = malloc(strlen(file) + 5 + 1); strcpy(data, file); end = strstr(data, "/data"); if (end == nil) strcat(data, "/ctl"); else strcpy(end, "/ctl"); bp = Bopen(data, OREAD); if (bp) { while (rv < 0 && (ln = Brdline(bp, '\n')) != nil) { ln[Blinelen(bp)-1] = '\0'; nf = tokenize(ln, fields, nelem(fields)); if (nf == 3 && strcmp(fields[0], "geometry") == 0) rv = atoi(fields[2]); } Bterm(bp); } free(data); return rv; }