ref: 3071c38b16cda2e1b5947ea28f64e4fd182250db
dir: /dump.c/
#include <u.h> #include <libc.h> #include <bio.h> #include <avl.h> #include <fcall.h> #include <ctype.h> #include "dat.h" #include "fns.h" char spc[128]; static int showkey(Fmt *fmt, Key *k) { int n; /* * dent: pqid[8] qid[8] -- a directory entry key. * ptr: off[8] hash[8] -- a key for an Dir block. * dir: fixed statbuf header, user ids */ if(k->nk == 0) return fmtprint(fmt, "\"\""); switch(k->k[0]){ case Kdat: /* qid[8] off[8] => ptr[16]: pointer to data page */ n = fmtprint(fmt, "dat qid:%llx off:%llx", GBIT64(k->k+1), GBIT64(k->k+9)); break; case Kent: /* pqid[8] name[n] => dir[n]: serialized Dir */ n = fmtprint(fmt, "ent dir:%llx, name:\"%.*s\")", GBIT64(k->k+1), k->nk-11, k->k+11); break; case Klabel: /* name[n] => tree[24]: snapshot ref */ n = fmtprint(fmt, "label name:\"%.*s\"", k->nk-1, k->k+1); break; case Ksnap: /* name[n] => tree[24]: snapshot root */ n = fmtprint(fmt, "snap id:\"%llx\"", GBIT64(k->k+1)); break; case Ksuper: /* qid[8] => pqid[8]: parent dir */ n = fmtprint(fmt, "up dir:%llx", GBIT64(k->k+1)); break; default: n = fmtprint(fmt, "%.*H", k->nk, k->k); break; } return n; } static int showval(Fmt *fmt, Kvp *v, int op, int flg) { int n, ws; char *p; Tree t; Xdir d; n = 0; if(flg){ assert(v->nv == Ptrsz+2); n = fmtprint(fmt, "(%B,%d)", unpackbp(v->v, v->nv), GBIT16(v->v+Ptrsz)); return n; } if(op == Odelete || op == Oclearb){ n = fmtprint(fmt, "delete"); return n; } switch(v->k[0]){ case Kdat: /* qid[8] off[8] => ptr[16]: pointer to data page */ switch(op){ case Odelete: case Oclearb: n = 0; break; case Onop: case Oinsert: n = fmtprint(fmt, "ptr:%B", unpackbp(v->v, v->nv)); break; } break; case Kent: /* pqid[8] name[n] => dir[n]: serialized Dir */ switch(op){ case Onop: case Oinsert: if(kv2dir(v, &d) == -1) n = fmtprint(fmt, "bad dir"); else n = fmtprint(fmt, "[qid=(%lld,%lud,%d), %o, t=%lld,%lld, l=%lld]", d.qid.path, d.qid.vers, d.qid.type, d.mode, d.atime, d.mtime, d.length); break; case Odelete: n = fmtprint(fmt, "delete"); break; case Owstat: p = v->v; ws = *p++; if(ws & Owsize){ n += fmtprint(fmt, "size:%llx ", GBIT64(p)); p += 8; } if(ws & Owmode){ n += fmtprint(fmt, "mode:%o ", GBIT32(p)); p += 4; } if(ws & Owmtime){ n += fmtprint(fmt, "mtime:%llx ", GBIT64(p)); p += 8; } if(ws & Owatime){ n += fmtprint(fmt, "mtime:%llx ", GBIT64(p)); p += 8; } if(ws & Owuid){ n += fmtprint(fmt, "uid:%d ", GBIT32(p)); p += 4; } if(ws & Owgid){ n += fmtprint(fmt, "gid:%d ", GBIT32(p)); p += 4; } if(ws & Owmuid){ n += fmtprint(fmt, "muid:%d ", GBIT32(p)); p += 4; } if(p != v->v + v->nv){ fprint(2, "v->nv: %d, sz=%d\n", v->nv, (int)(p - v->v)); abort(); } break; } break; case Ksnap: /* name[n] => dent[16] ptr[16]: snapshot root */ if(unpacktree(&t, v->v, v->nv) == nil) return fmtprint(fmt, "corrupt tree"); n = fmtprint(fmt, "ref: %d, ht: %d, bp: %B, prev=%lld", t.ref, t.ht, t.bp, t.dead[0].prev); break; case Klabel: n = fmtprint(fmt, "snap id:\"%llx\"", GBIT64(v->v+1)); break; case Ksuper: /* qid[8] => pqid[8]: parent dir */ n = fmtprint(fmt, "super dir:%llx, name:\"%.*s\")", GBIT64(v->v+1), v->nv-11, v->v+11); break; default: n = fmtprint(fmt, "%.*H", v->nk, v->k); break; } return n; } int Bconv(Fmt *fmt) { Bptr bp; bp = va_arg(fmt->args, Bptr); return fmtprint(fmt, "(%llx,%.16llux,%llx)", bp.addr, bp.hash, bp.gen); } int Mconv(Fmt *fmt) { char *opname[Nmsgtype] = { [Oinsert] "Oinsert", [Odelete] "Odelete", [Oclearb] "Oclearb", [Owstat] "Owstat", }; Msg *m; int f, n; f = (fmt->flags & FmtSharp) != 0; m = va_arg(fmt->args, Msg*); if(m == nil) return fmtprint(fmt, "Msg{nil}"); n = fmtprint(fmt, "Msg(%s, ", opname[m->op]); n += showkey(fmt, m); n += fmtprint(fmt, ") => ("); n += showval(fmt, m, m->op, f); n += fmtprint(fmt, ")"); return n; } int Pconv(Fmt *fmt) { Kvp *kv; int f, n; f = (fmt->flags & FmtSharp) != 0; kv = va_arg(fmt->args, Kvp*); if(kv == nil) return fmtprint(fmt, "Kvp{nil}"); n = fmtprint(fmt, "Kvp("); n += showkey(fmt, kv); n += fmtprint(fmt, ") => ("); n += showval(fmt, kv, Onop, f); n += fmtprint(fmt, ")"); return n; } int Kconv(Fmt *fmt) { Key *k; int n; k = va_arg(fmt->args, Key*); if(k == nil) return fmtprint(fmt, "Key{nil}"); n = fmtprint(fmt, "Key("); n += showkey(fmt, k); n += fmtprint(fmt, ")"); return n; } int Rconv(Fmt *fmt) { Arange *r; r = va_arg(fmt->args, Arange*); if(r == nil) return fmtprint(fmt, "<Arange:nil>"); else return fmtprint(fmt, "Arange(%lld+%lld)", r->off, r->len); } int Qconv(Fmt *fmt) { Qid q; q = va_arg(fmt->args, Qid); return fmtprint(fmt, "(%llx %ld %d)", q.path, q.vers, q.type); } static void rshowblk(int fd, Blk *b, int indent, int recurse) { Blk *c; int i; Bptr bp; Kvp kv; Msg m; if(indent > sizeof(spc)/4) indent = sizeof(spc)/4; if(b == nil){ fprint(fd, "NIL\n"); return; } fprint(fd, "%.*s[BLK]|{%B}\n", 4*indent, spc, b->bp); if(b->type == Tpivot){ for(i = 0; i < b->nbuf; i++){ getmsg(b, i, &m); fprint(fd, "%.*s[%03d]|%M\n", 4*indent, spc, i, &m); } } for(i = 0; i < b->nval; i++){ getval(b, i, &kv); if(b->type == Tpivot){ fprint(fd, "%.*s[%03d]|%#P\n", 4*indent, spc, i, &kv); bp = unpackbp(kv.v, kv.nv); if((c = getblk(bp, 0)) == nil) sysfatal("failed load: %r"); if(recurse) rshowblk(fd, c, indent + 1, 1); putblk(c); }else{ fprint(fd, "%.*s[%03d]|%P\n", 4*indent, spc, i, &kv); } } } void showblk(int fd, Blk *b, char *m, int recurse) { fprint(fd, "=== %s\n", m); rshowblk(fd, b, 0, recurse); } void showtree(int fd, char **ap, int na) { char *name; Tree *t; Blk *b; int h; name = "main"; memset(&t, 0, sizeof(t)); if(na == 1) name = ap[0]; if(strcmp(name, "dump") == 0) t = &fs->snap; else if((t = openlabel(name)) == nil){ fprint(fd, "open %s: %r\n", name); return; } b = getroot(t, &h); fprint(fd, "=== [%s] %B @%d\n", name, t->bp, t->ht); rshowblk(fd, b, 0, 1); putblk(b); } void showbp(int fd, Bptr bp, int recurse) { Blk *b; b = getblk(bp, GBnochk); rshowblk(fd, b, 0, recurse); putblk(b); } static void showdeadbp(Bptr bp, void *p) { fprint(*(int*)p, "\t\t\t%B\n", bp); } void showtreeroot(int fd, Tree *t) { Dlist *dl; int i; fprint(fd, "\tgen:\t%lld\n", t->gen); fprint(fd, "\tref:\t%d\n", t->ref); fprint(fd, "\tht:\t%d\n", t->ht); fprint(fd, "\tbp:\t%B\n", t->bp); for(i = 0; i < Ndead; i++){ dl = &t->dead[i]; fprint(fd, " deadlist[%d]:\n", i); fprint(fd, " prev: %llx\n", dl->prev); fprint(fd, " fhead: %B\n", dl->head); if(dl->ins != nil) fprint(fd, " open: %B\n", dl->ins->bp); fprint(fd, " dead[%d]: (%B)\n", i, dl->head); scandead(&t->dead[i], 0, showdeadbp, &fd); } } void showsnap(int fd, char **ap, int na) { char *e, pfx[Snapsz]; int sz, done; Mount *mnt; vlong id; Scan *s; Tree t; if((s = mallocz(sizeof(Scan), 1)) == nil){ fprint(fd, "no memory\n"); return; } pfx[0] = Ksnap; sz = 1; if(na != 0){ sz = Snapsz; id = atoll(ap[0]); PBIT64(pfx+1, id); } if((e = btscan(&fs->snap, s, pfx, sz)) != nil){ fprint(fd, "scan: %s\n", e); btdone(s); return; } while(1){ if((e = btnext(s, &s->kv, &done)) != nil){ fprint(fd, "scan: %s\n", e); break; } if(done) break; fprint(fd, "snap: %P\n", &s->kv); if(unpacktree(&t, s->kv.v, s->kv.nv) == nil){ fprint(fd, "unpack: garbled tree\n"); break; } showtreeroot(fd, &t); } qlock(&fs->snaplk); for(mnt = fs->mounts; mnt != nil; mnt = mnt->next){ fprint(fd, "open: %s\n", mnt->name); showtreeroot(fd, mnt->root); } qunlock(&fs->snaplk); } void showcache(int fd, char**, int) { Bucket *bkt; Blk *b; int i; for(i = 0; i < fs->cmax; i++){ bkt = &fs->cache[i]; lock(bkt); if(bkt->b != nil) fprint(fd, "bkt%d\n", i); for(b = bkt->b; b != nil; b = b->hnext) if(b->ref != 1) fprint(fd, "\t%p[ref=%ld, t=%d] => %B\n", b, b->ref, b->type, b->bp); unlock(bkt); } } void showpath(int fd, Path *p, int np) { #define A(b) (b ? b->bp.addr : -1) int i; char *op[] = { [POmod] = "POmod", [POrot] = "POrot", [POsplit] = "POsplit", [POmerge] = "POmerge", }; fprint(fd, "path:\n"); for(i = 0; i < np; i++){ fprint(fd, "\t[%d] ==>\n" "\t\t%s: b(%p)=%llx [%s]\n" "\t\tnl(%p)=%llx, nr(%p)=%llx\n" "\t\tidx=%d, midx=%d\n" "\t\tpullsz=%d, npull=%d, \n" "\t\tclear=(%d. %d)\n", i, op[p[i].op], p[i].b, A(p[i].b), (p[i].b == nil) ? "nil" : (p[i].b->type == Tleaf ? "leaf" : "pivot"), p[i].nl, A(p[i].nl), p[i].nr, A(p[i].nr), p[i].idx, p[i].midx, p[i].pullsz, p[i].npull, p[i].lo, p[i].hi); } #undef A } void showfree(int fd, char **, int) { Arange *r; int i; for(i = 0; i < fs->narena; i++){ fprint(fd, "arena %d:\n", i); for(r = (Arange*)avlmin(fs->arenas[i].free); r != nil; r = (Arange*)avlnext(r)) fprint(fd, "\t%llx+%llx\n", r->off, r->len); } } void initshow(void) { int i; memset(spc, ' ', sizeof(spc)); for(i = 0; i < sizeof(spc); i += 4) spc[i] = '|'; }