bypasscache: do errors correctly

[openafs.git] / src / afs / afs_bypasscache.c

/*
 * COPYRIGHT  ©  2000
 * THE REGENTS OF THE UNIVERSITY OF MICHIGAN
 * ALL RIGHTS RESERVED
 *
 * Permission is granted to use, copy, create derivative works
 * and redistribute this software and such derivative works
 * for any purpose, so long as the name of The University of
 * Michigan is not used in any advertising or publicity
 * pertaining to the use of distribution of this software
 * without specific, written prior authorization.  If the
 * above copyright notice or any other identification of the
 * University of Michigan is included in any copy of any
 * portion of this software, then the disclaimer below must
 * also be included.
 *
 * THIS SOFTWARE IS PROVIDED AS IS, WITHOUT REPRESENTATION
 * FROM THE UNIVERSITY OF MICHIGAN AS TO ITS FITNESS FOR ANY
 * PURPOSE, AND WITHOUT WARRANTY BY THE UNIVERSITY O
 * MICHIGAN OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING
 * WITHOUT LIMITATION THE IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE
 * REGENTS OF THE UNIVERSITY OF MICHIGAN SHALL NOT BE LIABLE
 * FOR ANY DAMAGES, INCLUDING SPECIAL, INDIRECT, INCIDENTAL, OR
 * CONSEQUENTIAL DAMAGES, WITH RESPECT TO ANY CLAIM ARISING
 * OUT OF OR IN CONNECTION WITH THE USE OF THE SOFTWARE, EVEN
 * IF IT HAS BEEN OR IS HEREAFTER ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGES.
 */

 /*
 * Portions Copyright (c) 2008
 * The Linux Box Corporation
 * ALL RIGHTS RESERVED
 *
 * Permission is granted to use, copy, create derivative works
 * and redistribute this software and such derivative works
 * for any purpose, so long as the name of the Linux Box
 * Corporation is not used in any advertising or publicity
 * pertaining to the use or distribution of this software
 * without specific, written prior authorization.  If the
 * above copyright notice or any other identification of the
 * Linux Box Corporation is included in any copy of any
 * portion of this software, then the disclaimer below must
 * also be included.
 *
 * This software is provided as is, without representation
 * from the Linux Box Corporation as to its fitness for any
 * purpose, and without warranty by the Linux Box Corporation
 * of any kind, either express or implied, including
 * without limitation the implied warranties of
 * merchantability and fitness for a particular purpose.  The
 * Linux Box Corporation shall not be liable for any damages,
 * including special, indirect, incidental, or consequential
 * damages, with respect to any claim arising out of or in
 * connection with the use of the software, even if it has been
 * or is hereafter advised of the possibility of such damages.
 */


#include <afsconfig.h>
#include "afs/param.h"
#if defined(AFS_CACHE_BYPASS) || defined(UKERNEL)
#include "afs/afs_bypasscache.h"

/*
 * afs_bypasscache.c
 *
 */
#include "afs/sysincludes.h" /* Standard vendor system headers */
#include "afs/afsincludes.h" /* Afs-based standard headers */
#include "afs/afs_stats.h"   /* statistics */
#include "afs/nfsclient.h"
#include "rx/rx_globals.h"

#ifndef afs_min
#define afs_min(A,B) ((A)<(B)) ? (A) : (B)
#endif

/* conditional GLOCK macros */
#define COND_GLOCK(var) \
        do { \
                var = ISAFS_GLOCK(); \
                if(!var) \
                        RX_AFS_GLOCK(); \
        } while(0)

#define COND_RE_GUNLOCK(var) \
        do { \
                if(var) \
                        RX_AFS_GUNLOCK(); \
        } while(0)


/* conditional GUNLOCK macros */

#define COND_GUNLOCK(var) \
        do {    \
                var = ISAFS_GLOCK(); \
                if(var) \
                        RX_AFS_GUNLOCK(); \
        } while(0)

#define COND_RE_GLOCK(var) \
        do { \
                if(var) \
                        RX_AFS_GLOCK(); \
        } while(0)


int cache_bypass_strategy   =   NEVER_BYPASS_CACHE;
int cache_bypass_threshold  =   AFS_CACHE_BYPASS_DISABLED; /* file size > threshold triggers bypass */
int cache_bypass_prefetch = 1;  /* Should we do prefetching ? */

extern afs_rwlock_t afs_xcbhash;

/*
 * This is almost exactly like the PFlush() routine in afs_pioctl.c,
 * but that routine is static.  We are about to change a file from
 * normal caching to bypass it's caching.  Therefore, we want to
 * free up any cache space in use by the file, and throw out any
 * existing VM pages for the file.  We keep track of the number of
 * times we go back and forth from caching to bypass.
 */
void
afs_TransitionToBypass(struct vcache *avc,
                       afs_ucred_t *acred, int aflags)
{

    afs_int32 code;
    struct vrequest treq;
    int setDesire = 0;
    int setManual = 0;

    if (!avc)
        return;

    if (aflags & TRANSChangeDesiredBit)
        setDesire = 1;
    if (aflags & TRANSSetManualBit)
        setManual = 1;

#ifdef AFS_BOZONLOCK_ENV
    afs_BozonLock(&avc->pvnLock, avc);  /* Since afs_TryToSmush will do a pvn_vptrunc */
#else
    AFS_GLOCK();
#endif

    ObtainWriteLock(&avc->lock, 925);
    /*
     * Someone may have beat us to doing the transition - we had no lock
     * when we checked the flag earlier.  No cause to panic, just return.
     */
    if (avc->cachingStates & FCSBypass)
        goto done;

    /* If we never cached this, just change state */
    if (setDesire && (!(avc->cachingStates & FCSBypass))) {
        avc->cachingStates |= FCSBypass;
        goto done;
    }

    /* cg2v, try to store any chunks not written 20071204 */
    if (avc->execsOrWriters > 0) {
        code = afs_InitReq(&treq, acred);
        if (!code)
            code = afs_StoreAllSegments(avc, &treq, AFS_SYNC | AFS_LASTSTORE);
    }

#if 0
    /* also cg2v, don't dequeue the callback */
    ObtainWriteLock(&afs_xcbhash, 956);
    afs_DequeueCallback(avc);
    ReleaseWriteLock(&afs_xcbhash);
#endif
    avc->f.states &= ~(CStatd | CDirty);      /* next reference will re-stat */
    /* now find the disk cache entries */
    afs_TryToSmush(avc, acred, 1);
    osi_dnlc_purgedp(avc);
    if (avc->linkData && !(avc->f.states & CCore)) {
        afs_osi_Free(avc->linkData, strlen(avc->linkData) + 1);
        avc->linkData = NULL;
    }

    avc->cachingStates |= FCSBypass;    /* Set the bypass flag */
    if(setDesire)
        avc->cachingStates |= FCSDesireBypass;
    if(setManual)
        avc->cachingStates |= FCSManuallySet;
    avc->cachingTransitions++;

done:
    ReleaseWriteLock(&avc->lock);
#ifdef AFS_BOZONLOCK_ENV
    afs_BozonUnlock(&avc->pvnLock, avc);
#else
    AFS_GUNLOCK();
#endif
}

/*
 * This is almost exactly like the PFlush() routine in afs_pioctl.c,
 * but that routine is static.  We are about to change a file from
 * bypassing caching to normal caching.  Therefore, we want to
 * throw out any existing VM pages for the file.  We keep track of
 * the number of times we go back and forth from caching to bypass.
 */
void
afs_TransitionToCaching(struct vcache *avc,
                        afs_ucred_t *acred,
                        int aflags)
{
    int resetDesire = 0;
    int setManual = 0;

    if (!avc)
        return;

    if (aflags & TRANSChangeDesiredBit)
        resetDesire = 1;
    if (aflags & TRANSSetManualBit)
        setManual = 1;

#ifdef AFS_BOZONLOCK_ENV
    afs_BozonLock(&avc->pvnLock, avc);  /* Since afs_TryToSmush will do a pvn_vptrunc */
#else
    AFS_GLOCK();
#endif
    ObtainWriteLock(&avc->lock, 926);
    /*
     * Someone may have beat us to doing the transition - we had no lock
     * when we checked the flag earlier.  No cause to panic, just return.
     */
    if (!(avc->cachingStates & FCSBypass))
        goto done;

    /* Ok, we actually do need to flush */
    ObtainWriteLock(&afs_xcbhash, 957);
    afs_DequeueCallback(avc);
    avc->f.states &= ~(CStatd | CDirty);        /* next reference will re-stat cache entry */
    ReleaseWriteLock(&afs_xcbhash);
    /* now find the disk cache entries */
    afs_TryToSmush(avc, acred, 1);
    osi_dnlc_purgedp(avc);
    if (avc->linkData && !(avc->f.states & CCore)) {
        afs_osi_Free(avc->linkData, strlen(avc->linkData) + 1);
        avc->linkData = NULL;
    }

    avc->cachingStates &= ~(FCSBypass);    /* Reset the bypass flag */
    if (resetDesire)
        avc->cachingStates &= ~(FCSDesireBypass);
    if (setManual)
        avc->cachingStates |= FCSManuallySet;
    avc->cachingTransitions++;

done:
    ReleaseWriteLock(&avc->lock);
#ifdef AFS_BOZONLOCK_ENV
    afs_BozonUnlock(&avc->pvnLock, avc);
#else
    AFS_GUNLOCK();
#endif
}

/* In the case where there's an error in afs_NoCacheFetchProc or
 * afs_PrefetchNoCache, all of the pages they've been passed need
 * to be unlocked.
 */
#ifdef UKERNEL
typedef void * bypass_page_t;

#define copy_page(pp, pageoff, rxiov, iovno, iovoff, auio)      \
    do { \
        memcpy(((char *)pp) + pageoff,                 \
               ((char *)rxiov[iovno].iov_base) + iovoff,        \
               PAGE_CACHE_SIZE - pageoff);                      \
        auio->uio_resid -= (PAGE_CACHE_SIZE - pageoff);         \
    } while(0)

#define copy_pages(pp, pageoff, rxiov, iovno, iovoff, auio)     \
    do { \
        memcpy(((char *)pp) + pageoff,                          \
               ((char *)rxiov[iovno].iov_base) + iovoff,        \
               rxiov[iovno].iov_len - iovoff);                  \
        auio->uio_resid -= (rxiov[iovno].iov_len - iovoff);     \
    } while(0)

#define unlock_and_release_pages(auio)
#define release_full_page(pp)
#else
typedef struct page * bypass_page_t;

#define copy_page(pp, pageoff, rxiov, iovno, iovoff, auio)      \
    do { \
        char *address;                                          \
        address = kmap_atomic(pp, KM_USER0); \
        memcpy(address + pageoff, \
               (char *)(rxiov[iovno].iov_base) + iovoff,        \
               PAGE_CACHE_SIZE - pageoff); \
        kunmap_atomic(address, KM_USER0); \
    } while(0)

#define copy_pages(pp, pageoff, rxiov, iovno, iovoff, auio)     \
    do { \
        char *address; \
        address = kmap_atomic(pp, KM_USER0); \
        memcpy(address + pageoff, \
               (char *)(rxiov[iovno].iov_base) + iovoff,        \
               rxiov[iovno].iov_len - iovoff); \
        kunmap_atomic(address, KM_USER0); \
    } while(0)


#define unlock_and_release_pages(auio) \
    do { \
        struct iovec *ciov;     \
        bypass_page_t pp; \
        afs_int32 iovmax; \
        afs_int32 iovno = 0; \
        ciov = auio->uio_iov; \
        iovmax = auio->uio_iovcnt - 1;  \
        pp = (bypass_page_t) ciov->iov_base;    \
        while(1) { \
            if (pp) { \
                if (PageLocked(pp)) \
                    unlock_page(pp);    \
                put_page(pp); /* decrement refcount */ \
            } \
            iovno++; \
            if(iovno > iovmax) \
                break; \
            ciov = (auio->uio_iov + iovno);     \
            pp = (bypass_page_t) ciov->iov_base;        \
        } \
    } while(0)

#define release_full_page(pp) \
    do { \
        /* this is appropriate when no caller intends to unlock \
         * and release the page */ \
        SetPageUptodate(pp); \
        if(PageLocked(pp)) \
            unlock_page(pp); \
        else \
            afs_warn("afs_NoCacheFetchProc: page not locked!\n"); \
        put_page(pp); /* decrement refcount */ \
    } while(0)

#endif

/* no-cache prefetch routine */
static afs_int32
afs_NoCacheFetchProc(struct rx_call *acall,
                     struct vcache *avc,
                     struct uio *auio,
                     afs_int32 release_pages,
                     afs_int32 size)
{
    afs_int32 length;
    afs_int32 code;
    int moredata, iovno, iovoff, iovmax, result, locked;
    struct iovec *ciov;
    struct iovec *rxiov;
    int nio = 0;
    bypass_page_t pp;

    int curpage, bytes;
    int pageoff;

    rxiov = osi_AllocSmallSpace(sizeof(struct iovec) * RX_MAXIOVECS);
    ciov = auio->uio_iov;
    pp = (bypass_page_t) ciov->iov_base;
    iovmax = auio->uio_iovcnt - 1;
    iovno = iovoff = result = 0;

    do {
        COND_GUNLOCK(locked);
        code = rx_Read(acall, (char *)&length, sizeof(afs_int32));
        COND_RE_GLOCK(locked);
        if (code != sizeof(afs_int32)) {
            result = EIO;
            afs_warn("Preread error. code: %d instead of %d\n",
                code, (int)sizeof(afs_int32));
            unlock_and_release_pages(auio);
            goto done;
        } else
            length = ntohl(length);

        if (length > size) {
            result = EIO;
            afs_warn("Preread error. Got length %d, which is greater than size %d\n",
                     length, size);
            unlock_and_release_pages(auio);
            goto done;
        }

        /* If we get a 0 length reply, time to cleanup and return */
        if (length == 0) {
            unlock_and_release_pages(auio);
            result = 0;
            goto done;
        }

        /*
         * The fetch protocol is extended for the AFS/DFS translator
         * to allow multiple blocks of data, each with its own length,
         * to be returned. As long as the top bit is set, there are more
         * blocks expected.
         *
         * We do not do this for AFS file servers because they sometimes
         * return large negative numbers as the transfer size.
         */
        if (avc->f.states & CForeign) {
            moredata = length & 0x80000000;
            length &= ~0x80000000;
        } else {
            moredata = 0;
        }

        for (curpage = 0; curpage <= iovmax; curpage++) {
            pageoff = 0;
            /* properly, this should track uio_resid, not a fixed page size! */
            while (pageoff < PAGE_CACHE_SIZE) {
                /* If no more iovs, issue new read. */
                if (iovno >= nio) {
                    COND_GUNLOCK(locked);
                    bytes = rx_Readv(acall, rxiov, &nio, RX_MAXIOVECS, length);
                    COND_RE_GLOCK(locked);
                    if (bytes < 0) {
                        afs_warn("afs_NoCacheFetchProc: rx_Read error. Return code was %d\n", bytes);
                        result = bytes;
                        unlock_and_release_pages(auio);
                        goto done;
                    } else if (bytes == 0) {
                        /* we failed to read the full length */
                        result = EIO;
                        afs_warn("afs_NoCacheFetchProc: rx_Read returned zero. Aborting.\n");
                        unlock_and_release_pages(auio);
                        goto done;
                    }
                    size -= bytes;
                    length -= bytes;
                    iovno = 0;
                }
                pp = (bypass_page_t)auio->uio_iov[curpage].iov_base;
                if (pageoff + (rxiov[iovno].iov_len - iovoff) <= PAGE_CACHE_SIZE) {
                    /* Copy entire (or rest of) current iovec into current page */
                    if (pp)
                        copy_pages(pp, pageoff, rxiov, iovno, iovoff, auio);
                    pageoff += rxiov[iovno].iov_len - iovoff;
                    iovno++;
                    iovoff = 0;
                } else {
                    /* Copy only what's needed to fill current page */
                    if (pp)
                        copy_page(pp, pageoff, rxiov, iovno, iovoff, auio);
                    iovoff += PAGE_CACHE_SIZE - pageoff;
                    pageoff = PAGE_CACHE_SIZE;
                }

                /* we filled a page, or this is the last page.  conditionally release it */
                if (pp && ((pageoff == PAGE_CACHE_SIZE && release_pages)
                                || (length == 0 && iovno >= nio)))
                    release_full_page(pp);

                if (length == 0 && iovno >= nio)
                    goto done;
            }
        }
    } while (moredata);

done:
    osi_FreeSmallSpace(rxiov);
    return result;
}


/* dispatch a no-cache read request */
afs_int32
afs_ReadNoCache(struct vcache *avc,
                struct nocache_read_request *bparms,
                afs_ucred_t *acred)
{
    afs_int32 code;
    afs_int32 bcnt;
    struct brequest *breq;
    struct vrequest *areq;

    /* the reciever will free this */
    areq = osi_Alloc(sizeof(struct vrequest));

    if (avc && avc->vc_error) {
        code = EIO;
        afs_warn("afs_ReadNoCache VCache Error!\n");
        goto cleanup;
    }
    if ((code = afs_InitReq(areq, acred))) {
        afs_warn("afs_ReadNoCache afs_InitReq error!\n");
        goto cleanup;
    }

    AFS_GLOCK();
    code = afs_VerifyVCache(avc, areq);
    AFS_GUNLOCK();

    if (code) {
        code = afs_CheckCode(code, areq, 11);   /* failed to get it */
        afs_warn("afs_ReadNoCache Failed to verify VCache!\n");
        goto cleanup;
    }

    bparms->areq = areq;

    /* and queue this one */
    bcnt = 1;
    AFS_GLOCK();
    while(bcnt < 20) {
        breq = afs_BQueue(BOP_FETCH_NOCACHE, avc, B_DONTWAIT, 0, acred, 1, 1,
                          bparms, (void *)0, (void *)0);
        if(breq != 0) {
            code = 0;
            break;
        }
        afs_osi_Wait(10 * bcnt, 0, 0);
    }
    AFS_GUNLOCK();

    if(!breq) {
        code = EBUSY;
        goto cleanup;
    }

    return code;

cleanup:
    /* If there's a problem before we queue the request, we need to
     * do everything that would normally happen when the request was
     * processed, like unlocking the pages and freeing memory.
     */
    unlock_and_release_pages(bparms->auio);
    osi_Free(areq, sizeof(struct vrequest));
    osi_Free(bparms->auio->uio_iov,
             bparms->auio->uio_iovcnt * sizeof(struct iovec));
    osi_Free(bparms->auio, sizeof(struct uio));
    osi_Free(bparms, sizeof(struct nocache_read_request));
    return code;
}


/* Cannot have static linkage--called from BPrefetch (afs_daemons) */
afs_int32
afs_PrefetchNoCache(struct vcache *avc,
                    afs_ucred_t *acred,
                    struct nocache_read_request *bparms)
{
    struct uio *auio;
    struct iovec *iovecp;
    struct vrequest *areq;
    afs_int32 code = 0;
    struct rx_connection *rxconn;
#ifdef AFS_64BIT_CLIENT
    afs_int32 length_hi, bytes, locked;
#endif

    struct afs_conn *tc;
    struct rx_call *tcall;
    struct tlocal1 {
        struct AFSVolSync tsync;
        struct AFSFetchStatus OutStatus;
        struct AFSCallBack CallBack;
    };
    struct tlocal1 *tcallspec;

    auio = bparms->auio;
    areq = bparms->areq;
    iovecp = auio->uio_iov;

    tcallspec = (struct tlocal1 *) osi_Alloc(sizeof(struct tlocal1));
    do {
        tc = afs_Conn(&avc->f.fid, areq, SHARED_LOCK /* ignored */, &rxconn);
        if (tc) {
            avc->callback = tc->parent->srvr->server;
            tcall = rx_NewCall(rxconn);
#ifdef AFS_64BIT_CLIENT
            if (!afs_serverHasNo64Bit(tc)) {
                code = StartRXAFS_FetchData64(tcall,
                                              (struct AFSFid *) &avc->f.fid.Fid,
                                              auio->uio_offset,
                                              bparms->length);
                if (code == 0) {
                    COND_GUNLOCK(locked);
                    bytes = rx_Read(tcall, (char *)&length_hi,
                                    sizeof(afs_int32));
                    COND_RE_GLOCK(locked);

                    if (bytes != sizeof(afs_int32)) {
                        length_hi = 0;
                        code = rx_Error(tcall);
                        COND_GUNLOCK(locked);
                        code = rx_EndCall(tcall, code);
                        COND_RE_GLOCK(locked);
                        tcall = NULL;
                    }
                }
            } /* afs_serverHasNo64Bit */
            if (code == RXGEN_OPCODE || afs_serverHasNo64Bit(tc)) {
                if (auio->uio_offset > 0x7FFFFFFF) {
                    code = EFBIG;
                } else {
                    afs_int32 pos;
                    pos = auio->uio_offset;
                    COND_GUNLOCK(locked);
                    if (!tcall)
                        tcall = rx_NewCall(rxconn);
                    code = StartRXAFS_FetchData(tcall,
                                        (struct AFSFid *) &avc->f.fid.Fid,
                                        pos, bparms->length);
                    COND_RE_GLOCK(locked);
                }
                afs_serverSetNo64Bit(tc);
            }
#else
            code = StartRXAFS_FetchData(tcall,
                                        (struct AFSFid *) &avc->f.fid.Fid,
                                        auio->uio_offset, bparms->length);
#endif
            if (code == 0) {
                code = afs_NoCacheFetchProc(tcall, avc, auio,
                                            1 /* release_pages */,
                                            bparms->length);
            } else {
                afs_warn("BYPASS: StartRXAFS_FetchData failed: %d\n", code);
                unlock_and_release_pages(auio);
                goto done;
            }
            if (code == 0) {
                code = EndRXAFS_FetchData(tcall, &tcallspec->OutStatus,
                                          &tcallspec->CallBack,
                                          &tcallspec->tsync);
            } else {
                afs_warn("BYPASS: NoCacheFetchProc failed: %d\n", code);
            }
            code = rx_EndCall(tcall, code);
        } else {
            afs_warn("BYPASS: No connection.\n");
            code = -1;
            unlock_and_release_pages(auio);
            goto done;
        }
    } while (afs_Analyze(tc, rxconn, code, &avc->f.fid, areq,
                                                 AFS_STATS_FS_RPCIDX_FETCHDATA,
                                                 SHARED_LOCK,0));
done:
    /*
     * Copy appropriate fields into vcache
     */

    if (!code)
        afs_ProcessFS(avc, &tcallspec->OutStatus, areq);

    osi_Free(areq, sizeof(struct vrequest));
    osi_Free(tcallspec, sizeof(struct tlocal1));
    osi_Free(bparms, sizeof(struct nocache_read_request));
#ifndef UKERNEL
    /* in UKERNEL, the "pages" are passed in */
    osi_Free(iovecp, auio->uio_iovcnt * sizeof(struct iovec));
    osi_Free(auio, sizeof(struct uio));
#endif
    return code;
}
#endif