ref: 6701679f3a011dc45a96343fc9c703999be72491
dir: /sys/src/9/port/devfs.c/
/* * File system devices. * Follows device config in Ken's file server. * Builds mirrors, concatenations, interleavings, and partitions * of devices out of other (inner) devices. * It is ok if inner devices are provided by this driver. * * Built files are grouped on different directories * (called trees, and used to represent disks). * The "#k/fs" tree is always available and never goes away. * Configuration changes happen only while no I/O is in progress. * * Default sector size is one byte unless changed by the "disk" ctl. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" #include "../port/sd.h" #include <libsec.h> enum { Fnone, Fmirror, /* mirror of others */ Fcat, /* catenation of others */ Finter, /* interleaving of others */ Fpart, /* part of other */ Fclear, /* start over */ Fdel, /* delete a configure device */ Fdisk, /* set default tree and sector sz*/ Fcrypt, /* encrypted device */ Sectorsz = 1, Blksize = 8*1024, /* for Finter only */ Cryptsectsz = 512, /* for Fcrypt only */ Incr = 5, /* Increments for the dev array */ /* * All qids are decorated with the tree number. * #k/fs is tree number 0, is automatically added and * its first qid is for the ctl file. It never goes away. */ Qtop = 0, /* #k */ Qdir, /* directory (#k/fs) */ Qctl, /* ctl, only for #k/fs/ctl */ Qfirst, /* first qid assigned for device */ Iswrite = 0, Isread, Optional = 0, Mustexist, /* tunable parameters */ Maxconf = 4*1024, /* max length for config */ Ndevs = 32, /* max. inner devs per command */ Ntrees = 128, /* max. number of trees */ Maxretries = 3, /* max. retries of i/o errors */ Retrypause = 5000, /* ms. to pause between retries */ }; typedef struct Inner Inner; typedef struct Fsdev Fsdev; typedef struct Tree Tree; typedef struct Key Key; struct Inner { char *iname; /* inner device name */ vlong isize; /* size of inner device */ Chan *idev; /* inner device */ }; struct Fsdev { Ref; /* one per Chan doing I/O */ int gone; /* true if removed */ int vers; /* qid version for this device */ int type; /* Fnone, Fmirror, ... */ char *name; /* name for this fsdev */ Tree* tree; /* where the device is kept */ vlong size; /* min(inner[X].isize) */ vlong start; /* start address (for Fpart) */ uint ndevs; /* number of inner devices */ Inner *inner[Ndevs]; /* inner devices */ Key *key; /* crypt key */ }; struct Tree { char *name; /* name for #k/<name> */ Fsdev **devs; /* devices in dir. */ uint ndevs; /* number of devices */ uint nadevs; /* number of allocated devices in devs */ }; struct Key { AESstate tweak, ecb; }; #define dprint if(debug)print extern Dev fsdevtab; /* forward */ static RWlock lck; /* r: use devices; w: change config */ static Tree fstree; /* The main "fs" tree. Never goes away */ static Tree *trees[Ntrees]; /* internal representation of config */ static int ntrees; /* max number of trees */ static int qidvers; static char *disk; /* default tree name used */ static char *source; /* default inner device used */ static int sectorsz = Sectorsz; /* default sector size */ static char confstr[Maxconf]; /* textual configuration */ static int debug; static char cfgstr[] = "fsdev:\n"; static Qid tqid = {Qtop, 0, QTDIR}; static Qid cqid = {Qctl, 0, 0}; static char* tnames[] = { [Fmirror] "mirror", [Fcat] "cat", [Finter] "inter", [Fpart] "part", [Fcrypt] "crypt", }; static Cmdtab configs[] = { Fmirror,"mirror", 0, Fcat, "cat", 0, Finter, "inter", 0, Fpart, "part", 0, Fclear, "clear", 1, Fdel, "del", 2, Fdisk, "disk", 0, Fcrypt, "crypt", 0, }; static char Egone[] = "device is gone"; /* file has been removed */ static char* seprintdev(char *s, char *e, Fsdev *mp) { int i; if(mp == nil) return seprint(s, e, "<null Fsdev>"); if(mp->type < 0 || mp->type >= nelem(tnames) || tnames[mp->type] == nil) return seprint(s, e, "bad device type %d\n", mp->type); s = strecpy(s, e, tnames[mp->type]); if(mp->tree != &fstree) s = seprint(s, e, " %s/%s", mp->tree->name, mp->name); else s = seprint(s, e, " %s", mp->name); for(i = 0; i < mp->ndevs; i++) s = seprint(s, e, " %s", mp->inner[i]->iname); switch(mp->type){ case Fmirror: case Fcat: case Finter: case Fcrypt: s = strecpy(s, e, "\n"); break; case Fpart: s = seprint(s, e, " %ulld %ulld\n", mp->start, mp->size); break; default: panic("#k: seprintdev bug"); } return s; } static vlong mkpath(int tree, int devno) { return (tree&0xFFFF)<<16 | devno&0xFFFF; } static int path2treeno(int q) { return q>>16 & 0xFFFF; } static int path2devno(int q) { return q & 0xFFFF; } static Tree* gettree(int i, int mustexist) { dprint("gettree %d\n", i); if(i < 0) panic("#k: bug: bad tree index %d in gettree", i); if(i >= ntrees || trees[i] == nil) if(mustexist) error(Enonexist); else return nil; return trees[i]; } static Fsdev* getdev(Tree *t, int i, int mustexist) { dprint("getdev %d\n", i); if(i < 0) panic("#k: bug: bad dev index %d in getdev", i); if(i >= t->nadevs || t->devs[i] == nil) if(mustexist) error(Enonexist); else return nil; return t->devs[i]; } static Fsdev* path2dev(int q) { Tree *t; dprint("path2dev %ux\n", q); t = gettree(path2treeno(q), Mustexist); return getdev(t, path2devno(q) - Qfirst, Mustexist); } static Tree* treealloc(char *name) { int i; Tree *t; dprint("treealloc %s\n", name); for(i = 0; i < nelem(trees); i++) if(trees[i] == nil) break; if(i == nelem(trees)) return nil; t = trees[i] = mallocz(sizeof(Tree), 1); if(t == nil) error(Enomem); if(i == ntrees) ntrees++; kstrdup(&t->name, name); return t; } static Tree* lookuptree(char *name) { int i; dprint("lookuptree %s\n", name); for(i = 0; i < ntrees; i++) if(trees[i] != nil && strcmp(trees[i]->name, name) == 0) return trees[i]; return nil; } static Fsdev* devalloc(Tree *t, char *name) { int i, ndevs; Fsdev *mp, **devs; dprint("devalloc %s %s\n", t->name, name); mp = mallocz(sizeof(Fsdev), 1); if(mp == nil) return nil; for(i = 0; i < t->nadevs; i++) if(t->devs[i] == nil) break; if(i >= t->nadevs){ if(t->nadevs % Incr == 0){ ndevs = t->nadevs + Incr; devs = realloc(t->devs, ndevs * sizeof(Fsdev*)); if(devs == nil){ free(mp); return nil; } t->devs = devs; } t->devs[t->nadevs] = nil; t->nadevs++; } kstrdup(&mp->name, name); mp->vers = ++qidvers; mp->tree = t; t->devs[i] = mp; t->ndevs++; return mp; } static void deltree(Tree *t) { int i; dprint("deltree %s\n", t->name); for(i = 0; i < ntrees; i++) if(trees[i] == t){ if(i > 0){ /* "fs" never goes away */ free(t->name); free(t->devs); free(t); trees[i] = nil; } return; } panic("#k: deltree: bug: tree not found"); } /* * A device is gone and we know that all its users are gone. * A tree is gone when all its devices are gone ("fs" is never gone). * Must close devices outside locks, so we could nest our own devices. */ static void mdeldev(Fsdev *mp) { int i; Inner *in; Tree *t; dprint("deldev %s gone %d ref %uld\n", mp->name, mp->gone, mp->ref); mp->gone = 1; mp->vers = ++qidvers; wlock(&lck); t = mp->tree; for(i = 0; i < t->nadevs; i++) if(t->devs[i] == mp){ t->devs[i] = nil; t->ndevs--; if(t->ndevs == 0) deltree(t); break; } wunlock(&lck); secfree(mp->key); free(mp->name); for(i = 0; i < mp->ndevs; i++){ in = mp->inner[i]; if(in->idev != nil) cclose(in->idev); free(in->iname); free(in); } free(mp); } /* * Delete one or all devices in one or all trees. */ static void mdelctl(char *tname, char *dname) { int i, alldevs, alltrees, some; Fsdev *mp; Tree *t; dprint("delctl %s\n", dname); alldevs = strcmp(dname, "*") == 0; alltrees = strcmp(tname, "*") == 0; some = 0; Again: wlock(&lck); for(i = 0; i < ntrees; i++){ t = trees[i]; if(t == nil) continue; if(alltrees == 0 && strcmp(t->name, tname) != 0) continue; for(i = 0; i < t->nadevs; i++){ mp = t->devs[i]; if(t->devs[i] == nil) continue; if(alldevs == 0 && strcmp(mp->name, dname) != 0) continue; /* * Careful: must close outside locks and that * may change the file tree we are looking at. */ some++; mp->gone = 1; if(mp->ref == 0){ incref(mp); /* keep it there */ wunlock(&lck); mdeldev(mp); goto Again; /* tree can change */ } } } wunlock(&lck); if(some == 0 && alltrees == 0) error(Enonexist); } static void setdsize(Fsdev* mp, vlong *ilen) { int i; vlong inlen; Inner *in; dprint("setdsize %s\n", mp->name); for (i = 0; i < mp->ndevs; i++){ in = mp->inner[i]; in->isize = ilen[i]; inlen = in->isize; switch(mp->type){ case Finter: /* truncate to multiple of Blksize */ inlen &= ~(Blksize-1); in->isize = inlen; /* fall through */ case Fmirror: /* use size of smallest inner device */ if (mp->size == 0 || mp->size > inlen) mp->size = inlen; break; case Fcat: mp->size += inlen; break; case Fpart: if(mp->start > inlen) error("partition starts after device end"); if(inlen < mp->start + mp->size){ print("#k: %s: partition truncated from " "%lld to %lld bytes\n", mp->name, mp->size, inlen - mp->start); mp->size = inlen - mp->start; } break; case Fcrypt: if(mp->start > inlen) error("crypt starts after device end"); mp->size = (inlen - mp->start) & ~((vlong)Cryptsectsz-1); break; } } if(mp->type == Finter) mp->size *= mp->ndevs; } static void validdevname(Tree *t, char *dname) { int i; for(i = 0; i < t->nadevs; i++) if(t->devs[i] != nil && strcmp(t->devs[i]->name, dname) == 0) error(Eexist); } static void parseconfig(char *a, long n, Cmdbuf **cbp, Cmdtab **ctp) { Cmdbuf *cb; Cmdtab *ct; *cbp = cb = parsecmd(a, n); *ctp = ct = lookupcmd(cb, configs, nelem(configs)); cb->f++; /* skip command */ cb->nf--; switch(ct->index){ case Fmirror: case Fcat: case Finter: if(cb->nf < 2) error("too few arguments for ctl"); if(cb->nf - 1 > Ndevs) error("too many devices in ctl"); break; case Fdisk: if(cb->nf < 1 || cb->nf > 3) error("ctl usage: disk name [sz dev]"); break; case Fpart: if(cb->nf != 4 && (cb->nf != 3 || source == nil)) error("ctl usage: part new [file] off len"); break; case Fcrypt: if(cb->nf != 3) error("ctl usage: crypt newname device keyhex"); break; } } static void parsename(char *name, char *disk, char **tree, char **dev) { char *slash; slash = strchr(name, '/'); if(slash == nil){ if(disk != nil) *tree = disk; else *tree = "fs"; *dev = name; }else{ *tree = name; *slash++ = 0; *dev = slash; } validname(*tree, 0); validname(*dev, 0); } static vlong getlen(Chan *c) { uchar buf[128]; /* old DIRLEN plus a little should be plenty */ Dir d; long l; l = devtab[c->type]->stat(c, buf, sizeof buf); convM2D(buf, l, &d, nil); return d.length; } /* * Process a single line of configuration, * often of the form "cmd newname idev0 idev1". * locking is tricky, because we need a write lock to * add/remove devices yet adding/removing them may lead * to calls to this driver that require a read lock (when * inner devices are also provided by us). */ static void mconfig(char* a, long n) { int i; vlong size, start; vlong *ilen; char *tname, *dname, *fakef[4]; uchar key[2*256/8]; int keylen; Chan **idev; Cmdbuf *cb; Cmdtab *ct; Fsdev *mp; Inner *inprv; Tree *t; /* ignore comments & empty lines */ if (*a == '\0' || *a == '#' || *a == '\n') return; dprint("mconfig\n"); size = 0; start = 0; mp = nil; cb = nil; idev = nil; ilen = nil; keylen = 0; if(waserror()){ free(cb); nexterror(); } parseconfig(a, n, &cb, &ct); switch (ct->index) { case Fdisk: kstrdup(&disk, cb->f[0]); if(cb->nf >= 2) sectorsz = strtoul(cb->f[1], 0, 0); else sectorsz = Sectorsz; if(cb->nf == 3) kstrdup(&source, cb->f[2]); else{ free(source); source = nil; } poperror(); free(cb); return; case Fclear: poperror(); free(cb); mdelctl("*", "*"); /* del everything */ return; case Fcrypt: if(cb->nf >= 4) { start = strtoul(cb->f[3], 0, 0); cb->nf = 3; } else start = 64*1024; /* cryptsetup header */ keylen = dec16(key, sizeof(key), cb->f[2], strlen(cb->f[2])); switch(keylen){ default: error("bad hexkey"); case 2*128/8: case 2*256/8: break; } cb->nf -= 1; break; case Fpart: if(cb->nf == 3){ /* * got a request in the format of sd(3), * pretend we got one in our format. * later we change end to be len. */ fakef[0] = cb->f[0]; fakef[1] = source; fakef[2] = cb->f[1]; fakef[3] = cb->f[2]; cb->f = fakef; cb->nf = 4; } start = strtoll(cb->f[2], nil, 10); size = strtoll(cb->f[3], nil, 10); if(cb->f == fakef) size -= start; /* it was end */ cb->nf -= 2; break; } parsename(cb->f[0], disk, &tname, &dname); for(i = 1; i < cb->nf; i++) validname(cb->f[i], 1); if(ct->index == Fdel){ mdelctl(tname, dname); poperror(); free(cb); return; } /* * Open all inner devices while we have only a read lock. */ poperror(); rlock(&lck); if(waserror()){ runlock(&lck); Fail: for(i = 1; i < cb->nf; i++) if(idev != nil && idev[i-1] != nil) cclose(idev[i-1]); if(mp != nil) mdeldev(mp); free(idev); free(ilen); free(cb); nexterror(); } idev = smalloc(sizeof(Chan*) * Ndevs); ilen = smalloc(sizeof(vlong) * Ndevs); for(i = 1; i < cb->nf; i++){ idev[i-1] = namec(cb->f[i], Aopen, ORDWR, 0); ilen[i-1] = getlen(idev[i-1]); } poperror(); runlock(&lck); /* * Get a write lock and add the device if we can. */ wlock(&lck); if(waserror()){ wunlock(&lck); goto Fail; } t = lookuptree(tname); if(t != nil) validdevname(t, dname); else{ t = treealloc(tname); if(t == nil) error("no more trees"); } mp = devalloc(t, dname); if(mp == nil){ if(t->ndevs == 0) /* it was created for us */ deltree(t); /* but we will not mdeldev() */ error(Enomem); } mp->type = ct->index; if(mp->type == Fpart){ mp->start = start * sectorsz; mp->size = size * sectorsz; } if(mp->type == Fcrypt) { Key *k = secalloc(sizeof(Key)); setupAESstate(&k->tweak, &key[0], keylen/2, nil); setupAESstate(&k->ecb, &key[keylen/2], keylen/2, nil); memset(key, 0, sizeof(key)); mp->key = k; mp->start = start; } for(i = 1; i < cb->nf; i++){ inprv = mp->inner[i-1] = mallocz(sizeof(Inner), 1); if(inprv == nil) error(Enomem); mp->ndevs++; kstrdup(&inprv->iname, cb->f[i]); inprv->idev = idev[i-1]; idev[i-1] = nil; } setdsize(mp, ilen); poperror(); wunlock(&lck); free(idev); free(ilen); free(cb); } static void rdconf(void) { int mustrd; char *c, *e, *p, *s; Chan *cc; static int configed; /* only read config file once */ if (configed) return; configed = 1; dprint("rdconf\n"); /* add the std "fs" tree */ trees[0] = &fstree; ntrees++; fstree.name = "fs"; /* identify the config file */ s = getconf("fsconfig"); if (s == nil){ mustrd = 0; s = "/dev/sdC0/fscfg"; } else mustrd = 1; if(waserror()){ if(!mustrd) return; nexterror(); } /* read it */ cc = namec(s, Aopen, OREAD, 0); if(waserror()){ cclose(cc); nexterror(); } devtab[cc->type]->read(cc, confstr, sizeof confstr, 0); poperror(); cclose(cc); /* validate, copy and erase config; mconfig will repopulate confstr */ if (strncmp(confstr, cfgstr, sizeof cfgstr - 1) != 0) error("bad #k config, first line must be: 'fsdev:\\n'"); c = nil; kstrdup(&c, confstr + sizeof cfgstr - 1); if(waserror()){ free(c); nexterror(); } memset(confstr, 0, sizeof confstr); /* process config copy one line at a time */ for (p = c; p != nil && *p != '\0'; p = e){ e = strchr(p, '\n'); if (e == nil) e = p + strlen(p); else e++; mconfig(p, e - p); } poperror(); free(c); poperror(); /* mustrd */ } static int mgen(Chan *c, char*, Dirtab*, int, int i, Dir *dp) { int treeno; Fsdev *mp; Qid qid; Tree *t; dprint("mgen %#ullx %d\n", c->qid.path, i); qid.type = QTDIR; qid.vers = 0; if(c->qid.path == Qtop){ if(i == DEVDOTDOT){ devdir(c, tqid, "#k", 0, eve, 0775, dp); return 1; } t = gettree(i, Optional); if(t == nil){ dprint("no\n"); return -1; } qid.path = mkpath(i, Qdir); devdir(c, qid, t->name, 0, eve, 0775, dp); return 1; } treeno = path2treeno(c->qid.path); t = gettree(treeno, Optional); if(t == nil){ dprint("no\n"); return -1; } if((c->qid.type & QTDIR) != 0){ if(i == DEVDOTDOT){ devdir(c, tqid, "#k", 0, eve, 0775, dp); return 1; } if(treeno == 0){ /* take care of #k/fs/ctl */ if(i == 0){ devdir(c, cqid, "ctl", 0, eve, 0664, dp); return 1; } i--; } mp = getdev(t, i, Optional); if(mp == nil){ dprint("no\n"); return -1; } qid.type = QTFILE; qid.vers = mp->vers; qid.path = mkpath(treeno, Qfirst+i); devdir(c, qid, mp->name, mp->size, eve, 0664, dp); return 1; } if(i == DEVDOTDOT){ qid.path = mkpath(treeno, Qdir); devdir(c, qid, t->name, 0, eve, 0775, dp); return 1; } dprint("no\n"); return -1; } static Chan* mattach(char *spec) { dprint("mattach\n"); return devattach(fsdevtab.dc, spec); } static Walkqid* mwalk(Chan *c, Chan *nc, char **name, int nname) { Walkqid *wq; rdconf(); dprint("mwalk %llux\n", c->qid.path); rlock(&lck); if(waserror()){ runlock(&lck); nexterror(); } wq = devwalk(c, nc, name, nname, 0, 0, mgen); poperror(); runlock(&lck); return wq; } static int mstat(Chan *c, uchar *db, int n) { int p; Dir d; Fsdev *mp; Qid q; Tree *t; dprint("mstat %llux\n", c->qid.path); rlock(&lck); if(waserror()){ runlock(&lck); nexterror(); } p = c->qid.path; memset(&d, 0, sizeof d); switch(p){ case Qtop: devdir(c, tqid, "#k", 0, eve, 0775, &d); break; case Qctl: devdir(c, cqid, "ctl", 0, eve, 0664, &d); break; default: t = gettree(path2treeno(p), Mustexist); if(c->qid.type & QTDIR) devdir(c, c->qid, t->name, 0, eve, 0775, &d); else{ mp = getdev(t, path2devno(p) - Qfirst, Mustexist); q = c->qid; q.vers = mp->vers; devdir(c, q, mp->name, mp->size, eve, 0664, &d); } } n = convD2M(&d, db, n); if (n == 0) error(Ebadarg); poperror(); runlock(&lck); return n; } static Chan* mopen(Chan *c, int omode) { int q; Fsdev *mp; dprint("mopen %llux\n", c->qid.path); if((c->qid.type & QTDIR) && omode != OREAD) error(Eperm); if(c->qid.path != Qctl && (c->qid.type&QTDIR) == 0){ rlock(&lck); if(waserror()){ runlock(&lck); nexterror(); } q = c->qid.path; mp = path2dev(q); if(mp->gone) error(Egone); incref(mp); poperror(); runlock(&lck); } /* * Our mgen does not return the info for the qid * but only for its children. Don't use devopen here. */ c->offset = 0; c->mode = openmode(omode); c->flag |= COPEN; return c; } static void mclose(Chan *c) { int mustdel, q; Fsdev *mp; dprint("mclose %llux\n", c->qid.path); if(c->qid.type & QTDIR || !(c->flag & COPEN)) return; rlock(&lck); if(waserror()){ runlock(&lck); nexterror(); } mustdel = 0; mp = nil; q = c->qid.path; if(q == Qctl){ free(disk); disk = nil; /* restore defaults */ free(source); source = nil; sectorsz = Sectorsz; }else{ mp = path2dev(q); if(mp->gone != 0 && mp->ref == 1) mustdel = 1; else decref(mp); } poperror(); runlock(&lck); if(mustdel) mdeldev(mp); } static long io(Fsdev *mp, Inner *in, int isread, void *a, long l, vlong off) { long wl; Chan *mc; mc = in->idev; if(mc == nil) error(Egone); if (waserror()) { print("#k: %s: byte %,lld count %ld (of #k/%s): %s error: %s\n", in->iname, off, l, mp->name, (isread? "read": "write"), (up && up->errstr? up->errstr: "")); nexterror(); } if (isread) wl = devtab[mc->type]->read(mc, a, l, off); else wl = devtab[mc->type]->write(mc, a, l, off); poperror(); return wl; } static long cryptio(Fsdev *mp, int isread, uchar *a, long n, vlong off) { long l, m, o, nb; uchar *b; if((((ulong)off|n) & (Cryptsectsz-1))) error(Ebadarg); if(isread){ l = io(mp, mp->inner[0], Isread, a, n, off); if(l > 0){ l &= ~(Cryptsectsz-1); for(o=0; o<l; o+=Cryptsectsz) aes_xts_decrypt(&mp->key->tweak, &mp->key->ecb, off+o, a+o, a+o, Cryptsectsz); } return l; } nb = n < SDmaxio ? n : SDmaxio; while((b = sdmalloc(nb)) == nil){ if(!waserror()){ resrcwait("no memory for cryptio"); poperror(); } } if(waserror()) { sdfree(b); nexterror(); } for(l = 0; (m = n - l) > 0; l += m){ if(m > nb) m = nb; for(o=0; o<m; o+=Cryptsectsz) aes_xts_encrypt(&mp->key->tweak, &mp->key->ecb, off+o, a+o, b+o, Cryptsectsz); if(io(mp, mp->inner[0], Iswrite, b, m, off) != m) error(Eio); off += m; a += m; } sdfree(b); poperror(); return l; } /* NB: a transfer could span multiple inner devices */ static long catio(Fsdev *mp, int isread, void *a, long n, vlong off) { int i; long l, res; Inner *in; if(debug) print("catio %d %p %ld %lld\n", isread, a, n, off); res = n; for (i = 0; n > 0 && i < mp->ndevs; i++){ in = mp->inner[i]; if (off >= in->isize){ off -= in->isize; continue; /* not there yet */ } if (off + n > in->isize) l = in->isize - off; else l = n; if(debug) print("\tdev %d %p %ld %lld\n", i, a, l, off); if (io(mp, in, isread, a, l, off) != l) error(Eio); a = (char*)a + l; off = 0; n -= l; } if(debug) print("\tres %ld\n", res - n); return res - n; } static long interio(Fsdev *mp, int isread, void *a, long n, vlong off) { int i; long boff, res, l, wl, wsz; vlong woff, blk, mblk; blk = off / Blksize; boff = off % Blksize; wsz = Blksize - boff; res = n; while(n > 0){ mblk = blk / mp->ndevs; i = blk % mp->ndevs; woff = mblk*Blksize + boff; if (n > wsz) l = wsz; else l = n; wl = io(mp, mp->inner[i], isread, a, l, woff); if (wl != l) error(Eio); blk++; boff = 0; wsz = Blksize; a = (char*)a + l; n -= l; } return res; } static char* seprintconf(char *s, char *e) { int i, j; Tree *t; *s = 0; for(i = 0; i < ntrees; i++){ t = trees[i]; if(t != nil) for(j = 0; j < t->nadevs; j++) if(t->devs[j] != nil) s = seprintdev(s, e, t->devs[j]); } return s; } static long mread(Chan *c, void *a, long n, vlong off) { int i, retry; long l, res; Fsdev *mp; Tree *t; dprint("mread %llux\n", c->qid.path); rlock(&lck); if(waserror()){ runlock(&lck); nexterror(); } res = -1; if(c->qid.type & QTDIR){ res = devdirread(c, a, n, 0, 0, mgen); goto Done; } if(c->qid.path == Qctl){ seprintconf(confstr, confstr + sizeof(confstr)); res = readstr((long)off, a, n, confstr); goto Done; } t = gettree(path2treeno(c->qid.path), Mustexist); mp = getdev(t, path2devno(c->qid.path) - Qfirst, Mustexist); if(off >= mp->size){ res = 0; goto Done; } if(off + n > mp->size) n = mp->size - off; if(n == 0){ res = 0; goto Done; } switch(mp->type){ case Fcat: res = catio(mp, Isread, a, n, off); break; case Finter: res = interio(mp, Isread, a, n, off); break; case Fpart: res = io(mp, mp->inner[0], Isread, a, n, mp->start + off); break; case Fmirror: retry = 0; do { if (retry > 0) { print("#k/%s: retry %d read for byte %,lld " "count %ld: %s\n", mp->name, retry, off, n, (up && up->errstr? up->errstr: "")); /* * pause before retrying in case it's due to * a transient bus or controller problem. */ tsleep(&up->sleep, return0, 0, Retrypause); } for (i = 0; i < mp->ndevs; i++){ if (waserror()) continue; l = io(mp, mp->inner[i], Isread, a, n, off); poperror(); if (l >= 0){ res = l; break; /* read a good copy */ } } } while (i == mp->ndevs && ++retry <= Maxretries); if (retry > Maxretries) { /* no mirror had a good copy of the block */ print("#k/%s: byte %,lld count %ld: CAN'T READ " "from mirror: %s\n", mp->name, off, n, (up && up->errstr? up->errstr: "")); error(Eio); } else if (retry > 0) print("#k/%s: byte %,lld count %ld: retry read OK " "from mirror: %s\n", mp->name, off, n, (up && up->errstr? up->errstr: "")); break; case Fcrypt: res = cryptio(mp, Isread, a, n, mp->start + off); break; } Done: poperror(); runlock(&lck); return res; } static long mwrite(Chan *c, void *a, long n, vlong off) { int i, allbad, anybad, retry; long l, res; Fsdev *mp; Tree *t; dprint("mwrite %llux\n", c->qid.path); if (c->qid.type & QTDIR) error(Eisdir); if (c->qid.path == Qctl){ mconfig(a, n); return n; } rlock(&lck); if(waserror()){ runlock(&lck); nexterror(); } t = gettree(path2treeno(c->qid.path), Mustexist); mp = getdev(t, path2devno(c->qid.path) - Qfirst, Mustexist); if(off >= mp->size){ res = 0; goto Done; } if(off + n > mp->size) n = mp->size - off; if(n == 0){ res = 0; goto Done; } res = n; switch(mp->type){ case Fcat: res = catio(mp, Iswrite, a, n, off); break; case Finter: res = interio(mp, Iswrite, a, n, off); break; case Fpart: res = io(mp, mp->inner[0], Iswrite, a, n, mp->start + off); if (res != n) error(Eio); break; case Fmirror: retry = 0; do { if (retry > 0) { print("#k/%s: retry %d write for byte %,lld " "count %ld: %s\n", mp->name, retry, off, n, (up && up->errstr? up->errstr: "")); /* * pause before retrying in case it's due to * a transient bus or controller problem. */ tsleep(&up->sleep, return0, 0, Retrypause); } allbad = 1; anybad = 0; for (i = mp->ndevs - 1; i >= 0; i--){ if (waserror()) { anybad = 1; continue; } l = io(mp, mp->inner[i], Iswrite, a, n, off); poperror(); if (l == n) allbad = 0; /* wrote a good copy */ else anybad = 1; } } while (anybad && ++retry <= Maxretries); if (allbad) { /* no mirror took a good copy of the block */ print("#k/%s: byte %,lld count %ld: CAN'T WRITE " "to mirror: %s\n", mp->name, off, n, (up && up->errstr? up->errstr: "")); error(Eio); } else if (retry > 0) print("#k/%s: byte %,lld count %ld: retry wrote OK " "to mirror: %s\n", mp->name, off, n, (up && up->errstr? up->errstr: "")); break; case Fcrypt: res = cryptio(mp, Iswrite, a, n, mp->start + off); break; } Done: poperror(); runlock(&lck); return res; } Dev fsdevtab = { 'k', "fs", devreset, devinit, devshutdown, mattach, mwalk, mstat, mopen, devcreate, mclose, mread, devbread, mwrite, devbwrite, devremove, devwstat, devpower, devconfig, };