block: move dif_prepare/dif_complete functions to block layer
Currently these functions are implemented in the scsi layer, but their actual place should be the block layer since T10-PI is a general data integrity feature that is used in the nvme protocol as well. Also, use the tuple size from the integrity profile since it may vary between integrity types. Suggested-by: Christoph Hellwig <hch@lst.de> Reviewed-by: Martin K. Petersen <martin.petersen@oracle.com> Signed-off-by: Max Gurtovoy <maxg@mellanox.com> Signed-off-by: Jens Axboe <axboe@kernel.dk>
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ddd0bc7569
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5 changed files with 118 additions and 125 deletions
110
block/t10-pi.c
110
block/t10-pi.c
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@ -184,3 +184,113 @@ const struct blk_integrity_profile t10_pi_type3_ip = {
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.verify_fn = t10_pi_type3_verify_ip,
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};
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EXPORT_SYMBOL(t10_pi_type3_ip);
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/**
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* t10_pi_prepare - prepare PI prior submitting request to device
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* @rq: request with PI that should be prepared
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* @protection_type: PI type (Type 1/Type 2/Type 3)
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*
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* For Type 1/Type 2, the virtual start sector is the one that was
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* originally submitted by the block layer for the ref_tag usage. Due to
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* partitioning, MD/DM cloning, etc. the actual physical start sector is
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* likely to be different. Remap protection information to match the
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* physical LBA.
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*
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* Type 3 does not have a reference tag so no remapping is required.
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*/
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void t10_pi_prepare(struct request *rq, u8 protection_type)
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{
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const int tuple_sz = rq->q->integrity.tuple_size;
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u32 ref_tag = t10_pi_ref_tag(rq);
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struct bio *bio;
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if (protection_type == T10_PI_TYPE3_PROTECTION)
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return;
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__rq_for_each_bio(bio, rq) {
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struct bio_integrity_payload *bip = bio_integrity(bio);
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u32 virt = bip_get_seed(bip) & 0xffffffff;
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struct bio_vec iv;
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struct bvec_iter iter;
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/* Already remapped? */
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if (bip->bip_flags & BIP_MAPPED_INTEGRITY)
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break;
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bip_for_each_vec(iv, bip, iter) {
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void *p, *pmap;
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unsigned int j;
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pmap = kmap_atomic(iv.bv_page);
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p = pmap + iv.bv_offset;
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for (j = 0; j < iv.bv_len; j += tuple_sz) {
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struct t10_pi_tuple *pi = p;
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if (be32_to_cpu(pi->ref_tag) == virt)
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pi->ref_tag = cpu_to_be32(ref_tag);
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virt++;
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ref_tag++;
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p += tuple_sz;
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}
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kunmap_atomic(pmap);
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}
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bip->bip_flags |= BIP_MAPPED_INTEGRITY;
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}
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}
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EXPORT_SYMBOL(t10_pi_prepare);
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/**
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* t10_pi_complete - prepare PI prior returning request to the block layer
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* @rq: request with PI that should be prepared
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* @protection_type: PI type (Type 1/Type 2/Type 3)
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* @intervals: total elements to prepare
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*
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* For Type 1/Type 2, the virtual start sector is the one that was
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* originally submitted by the block layer for the ref_tag usage. Due to
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* partitioning, MD/DM cloning, etc. the actual physical start sector is
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* likely to be different. Since the physical start sector was submitted
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* to the device, we should remap it back to virtual values expected by the
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* block layer.
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*
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* Type 3 does not have a reference tag so no remapping is required.
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*/
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void t10_pi_complete(struct request *rq, u8 protection_type,
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unsigned int intervals)
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{
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const int tuple_sz = rq->q->integrity.tuple_size;
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u32 ref_tag = t10_pi_ref_tag(rq);
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struct bio *bio;
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if (protection_type == T10_PI_TYPE3_PROTECTION)
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return;
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__rq_for_each_bio(bio, rq) {
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struct bio_integrity_payload *bip = bio_integrity(bio);
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u32 virt = bip_get_seed(bip) & 0xffffffff;
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struct bio_vec iv;
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struct bvec_iter iter;
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bip_for_each_vec(iv, bip, iter) {
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void *p, *pmap;
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unsigned int j;
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pmap = kmap_atomic(iv.bv_page);
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p = pmap + iv.bv_offset;
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for (j = 0; j < iv.bv_len && intervals; j += tuple_sz) {
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struct t10_pi_tuple *pi = p;
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if (be32_to_cpu(pi->ref_tag) == ref_tag)
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pi->ref_tag = cpu_to_be32(virt);
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virt++;
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ref_tag++;
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intervals--;
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p += tuple_sz;
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}
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kunmap_atomic(pmap);
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}
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}
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}
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EXPORT_SYMBOL(t10_pi_complete);
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@ -1119,7 +1119,7 @@ static int sd_setup_read_write_cmnd(struct scsi_cmnd *SCpnt)
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SCpnt->cmnd[0] = WRITE_6;
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if (blk_integrity_rq(rq))
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sd_dif_prepare(SCpnt);
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t10_pi_prepare(SCpnt->request, sdkp->protection_type);
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} else if (rq_data_dir(rq) == READ) {
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SCpnt->cmnd[0] = READ_6;
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@ -2047,8 +2047,10 @@ static int sd_done(struct scsi_cmnd *SCpnt)
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"sd_done: completed %d of %d bytes\n",
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good_bytes, scsi_bufflen(SCpnt)));
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if (rq_data_dir(SCpnt->request) == READ && scsi_prot_sg_count(SCpnt))
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sd_dif_complete(SCpnt, good_bytes);
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if (rq_data_dir(SCpnt->request) == READ && scsi_prot_sg_count(SCpnt) &&
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good_bytes)
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t10_pi_complete(SCpnt->request, sdkp->protection_type,
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good_bytes / scsi_prot_interval(SCpnt));
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return good_bytes;
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}
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@ -254,21 +254,12 @@ static inline unsigned int sd_prot_flag_mask(unsigned int prot_op)
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#ifdef CONFIG_BLK_DEV_INTEGRITY
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extern void sd_dif_config_host(struct scsi_disk *);
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extern void sd_dif_prepare(struct scsi_cmnd *scmd);
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extern void sd_dif_complete(struct scsi_cmnd *, unsigned int);
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#else /* CONFIG_BLK_DEV_INTEGRITY */
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static inline void sd_dif_config_host(struct scsi_disk *disk)
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{
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}
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static inline int sd_dif_prepare(struct scsi_cmnd *scmd)
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{
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return 0;
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}
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static inline void sd_dif_complete(struct scsi_cmnd *cmd, unsigned int a)
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{
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}
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#endif /* CONFIG_BLK_DEV_INTEGRITY */
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@ -95,116 +95,3 @@ out:
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blk_integrity_register(disk, &bi);
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}
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/*
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* The virtual start sector is the one that was originally submitted
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* by the block layer. Due to partitioning, MD/DM cloning, etc. the
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* actual physical start sector is likely to be different. Remap
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* protection information to match the physical LBA.
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*
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* From a protocol perspective there's a slight difference between
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* Type 1 and 2. The latter uses 32-byte CDBs exclusively, and the
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* reference tag is seeded in the CDB. This gives us the potential to
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* avoid virt->phys remapping during write. However, at read time we
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* don't know whether the virt sector is the same as when we wrote it
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* (we could be reading from real disk as opposed to MD/DM device. So
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* we always remap Type 2 making it identical to Type 1.
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*
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* Type 3 does not have a reference tag so no remapping is required.
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*/
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void sd_dif_prepare(struct scsi_cmnd *scmd)
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{
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const int tuple_sz = sizeof(struct t10_pi_tuple);
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struct bio *bio;
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struct scsi_disk *sdkp;
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struct t10_pi_tuple *pi;
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u32 phys, virt;
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sdkp = scsi_disk(scmd->request->rq_disk);
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if (sdkp->protection_type == T10_PI_TYPE3_PROTECTION)
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return;
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phys = t10_pi_ref_tag(scmd->request);
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__rq_for_each_bio(bio, scmd->request) {
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struct bio_integrity_payload *bip = bio_integrity(bio);
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struct bio_vec iv;
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struct bvec_iter iter;
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unsigned int j;
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/* Already remapped? */
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if (bip->bip_flags & BIP_MAPPED_INTEGRITY)
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break;
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virt = bip_get_seed(bip) & 0xffffffff;
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bip_for_each_vec(iv, bip, iter) {
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pi = kmap_atomic(iv.bv_page) + iv.bv_offset;
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for (j = 0; j < iv.bv_len; j += tuple_sz, pi++) {
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if (be32_to_cpu(pi->ref_tag) == virt)
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pi->ref_tag = cpu_to_be32(phys);
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virt++;
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phys++;
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}
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kunmap_atomic(pi);
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}
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bip->bip_flags |= BIP_MAPPED_INTEGRITY;
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}
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}
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/*
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* Remap physical sector values in the reference tag to the virtual
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* values expected by the block layer.
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*/
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void sd_dif_complete(struct scsi_cmnd *scmd, unsigned int good_bytes)
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{
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const int tuple_sz = sizeof(struct t10_pi_tuple);
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struct scsi_disk *sdkp;
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struct bio *bio;
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struct t10_pi_tuple *pi;
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unsigned int j, intervals;
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u32 phys, virt;
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sdkp = scsi_disk(scmd->request->rq_disk);
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if (sdkp->protection_type == T10_PI_TYPE3_PROTECTION || good_bytes == 0)
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return;
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intervals = good_bytes / scsi_prot_interval(scmd);
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phys = t10_pi_ref_tag(scmd->request);
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__rq_for_each_bio(bio, scmd->request) {
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struct bio_integrity_payload *bip = bio_integrity(bio);
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struct bio_vec iv;
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struct bvec_iter iter;
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virt = bip_get_seed(bip) & 0xffffffff;
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bip_for_each_vec(iv, bip, iter) {
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pi = kmap_atomic(iv.bv_page) + iv.bv_offset;
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for (j = 0; j < iv.bv_len; j += tuple_sz, pi++) {
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if (intervals == 0) {
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kunmap_atomic(pi);
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return;
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}
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if (be32_to_cpu(pi->ref_tag) == phys)
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pi->ref_tag = cpu_to_be32(virt);
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virt++;
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phys++;
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intervals--;
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}
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kunmap_atomic(pi);
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}
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}
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}
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@ -51,5 +51,8 @@ extern const struct blk_integrity_profile t10_pi_type1_crc;
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extern const struct blk_integrity_profile t10_pi_type1_ip;
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extern const struct blk_integrity_profile t10_pi_type3_crc;
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extern const struct blk_integrity_profile t10_pi_type3_ip;
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extern void t10_pi_prepare(struct request *rq, u8 protection_type);
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extern void t10_pi_complete(struct request *rq, u8 protection_type,
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unsigned int intervals);
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#endif
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