ref: 333ae58f37c2c8f79f7d7078283a30e42c4d7a27
dir: /9fid.c/
#include "stdinc.h" #include "9.h" static struct { QLock lock; Fid* free; int nfree; int inuse; } fbox; static void fidLock(Fid* fid, int flags) { if(flags & FidFWlock){ wlock(&fid->lock); fid->flags = flags; } else rlock(&fid->lock); /* * Callers of file* routines are expected to lock fsys->fs->elk * before making any calls in order to make sure the epoch doesn't * change underfoot. With the exception of Tversion and Tattach, * that implies all 9P functions need to lock on entry and unlock * on exit. Fortunately, the general case is the 9P functions do * fidGet on entry and fidPut on exit, so this is a convenient place * to do the locking. * No fsys->fs->elk lock is required if the fid is being created * (Tauth, Tattach and Twalk). FidFCreate is always accompanied by * FidFWlock so the setting and testing of FidFCreate here and in * fidUnlock below is always done under fid->lock. * A side effect is that fidFree is called with the fid locked, and * must call fidUnlock only after it has disposed of any File * resources still held. */ if(!(flags & FidFCreate)) fsysFsRlock(fid->fsys); } static void fidUnlock(Fid* fid) { if(!(fid->flags & FidFCreate)) fsysFsRUnlock(fid->fsys); if(fid->flags & FidFWlock){ fid->flags = 0; wunlock(&fid->lock); return; } runlock(&fid->lock); } static Fid* fidAlloc(void) { Fid *fid; qlock(&fbox.lock); if(fbox.nfree > 0){ fid = fbox.free; fbox.free = fid->hash; fbox.nfree--; } else{ fid = vtmallocz(sizeof(Fid)); } fbox.inuse++; qunlock(&fbox.lock); fid->con = nil; fid->fidno = NOFID; fid->ref = 0; fid->flags = 0; fid->open = FidOCreate; assert(fid->fsys == nil); assert(fid->file == nil); fid->qid = (Qid){0, 0, 0}; assert(fid->uid == nil); assert(fid->uname == nil); assert(fid->db == nil); assert(fid->excl == nil); assert(fid->rpc == nil); assert(fid->cuname == nil); fid->hash = fid->next = fid->prev = nil; return fid; } static void fidFree(Fid* fid) { if(fid->file != nil){ fileDecRef(fid->file); fid->file = nil; } if(fid->db != nil){ dirBufFree(fid->db); fid->db = nil; } fidUnlock(fid); if(fid->uid != nil){ vtfree(fid->uid); fid->uid = nil; } if(fid->uname != nil){ vtfree(fid->uname); fid->uname = nil; } if(fid->excl != nil) exclFree(fid); if(fid->rpc != nil){ close(fid->rpc->afd); auth_freerpc(fid->rpc); fid->rpc = nil; } if(fid->fsys != nil){ fsysPut(fid->fsys); fid->fsys = nil; } if(fid->cuname != nil){ vtfree(fid->cuname); fid->cuname = nil; } qlock(&fbox.lock); fbox.inuse--; if(fbox.nfree < 10){ fid->hash = fbox.free; fbox.free = fid; fbox.nfree++; } else{ vtfree(fid); } qunlock(&fbox.lock); } static void fidUnHash(Fid* fid) { Fid *fp, **hash; assert(fid->ref == 0); hash = &fid->con->fidhash[fid->fidno % NFidHash]; for(fp = *hash; fp != nil; fp = fp->hash){ if(fp == fid){ *hash = fp->hash; break; } hash = &fp->hash; } assert(fp == fid); if(fid->prev != nil) fid->prev->next = fid->next; else fid->con->fhead = fid->next; if(fid->next != nil) fid->next->prev = fid->prev; else fid->con->ftail = fid->prev; fid->prev = fid->next = nil; fid->con->nfid--; } Fid* fidGet(Con* con, u32int fidno, int flags) { Fid *fid, **hash; if(fidno == NOFID) return nil; hash = &con->fidhash[fidno % NFidHash]; qlock(&con->fidlock); for(fid = *hash; fid != nil; fid = fid->hash){ if(fid->fidno != fidno) continue; /* * Already in use is an error * when called from attach, clone or walk. */ if(flags & FidFCreate){ qunlock(&con->fidlock); werrstr("%s: fid 0x%ud in use", argv0, fidno); return nil; } fid->ref++; qunlock(&con->fidlock); fidLock(fid, flags); if((fid->open & FidOCreate) || fid->fidno == NOFID){ fidPut(fid); werrstr("%s: fid invalid", argv0); return nil; } return fid; } if((flags & FidFCreate) && (fid = fidAlloc()) != nil){ assert(flags & FidFWlock); fid->con = con; fid->fidno = fidno; fid->ref = 1; fid->hash = *hash; *hash = fid; if(con->ftail != nil){ fid->prev = con->ftail; con->ftail->next = fid; } else{ con->fhead = fid; fid->prev = nil; } con->ftail = fid; fid->next = nil; con->nfid++; qunlock(&con->fidlock); /* * The FidOCreate flag is used to prevent any * accidental access to the Fid between unlocking the * hash and acquiring the Fid lock for return. */ fidLock(fid, flags); fid->open &= ~FidOCreate; return fid; } qunlock(&con->fidlock); werrstr("%s: fid not found", argv0); return nil; } void fidPut(Fid* fid) { qlock(&fid->con->fidlock); assert(fid->ref > 0); fid->ref--; qunlock(&fid->con->fidlock); if(fid->ref == 0 && fid->fidno == NOFID){ fidFree(fid); return; } fidUnlock(fid); } void fidClunk(Fid* fid) { assert(fid->flags & FidFWlock); qlock(&fid->con->fidlock); assert(fid->ref > 0); fid->ref--; fidUnHash(fid); fid->fidno = NOFID; qunlock(&fid->con->fidlock); if(fid->ref > 0){ /* not reached - fidUnHash requires ref == 0 */ fidUnlock(fid); return; } fidFree(fid); } void fidClunkAll(Con* con) { Fid *fid; u32int fidno; qlock(&con->fidlock); while(con->fhead != nil){ fidno = con->fhead->fidno; qunlock(&con->fidlock); if((fid = fidGet(con, fidno, FidFWlock)) != nil) fidClunk(fid); qlock(&con->fidlock); } qunlock(&con->fidlock); } void fidInit(void) { }