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use NULL getmemid segop as a shorthand for ENODEV
Instead of forcing every segment driver to implement a dummy function to
return (hopefully) ENODEV, handle NULL getmemid segop function pointer as
"return ENODEV" shorthand.


  60  */
  61 static int      segnf_dup(struct seg *seg, struct seg *newseg);
  62 static int      segnf_unmap(struct seg *seg, caddr_t addr, size_t len);
  63 static void     segnf_free(struct seg *seg);
  64 static faultcode_t segnf_nomap(void);
  65 static int      segnf_setprot(struct seg *seg, caddr_t addr,
  66                     size_t len, uint_t prot);
  67 static int      segnf_checkprot(struct seg *seg, caddr_t addr,
  68                     size_t len, uint_t prot);
  69 static int      segnf_nop(void);
  70 static int      segnf_getprot(struct seg *seg, caddr_t addr,
  71                     size_t len, uint_t *protv);
  72 static u_offset_t segnf_getoffset(struct seg *seg, caddr_t addr);
  73 static int      segnf_gettype(struct seg *seg, caddr_t addr);
  74 static int      segnf_getvp(struct seg *seg, caddr_t addr, struct vnode **vpp);
  75 static void     segnf_dump(struct seg *seg);
  76 static int      segnf_pagelock(struct seg *seg, caddr_t addr, size_t len,
  77                     struct page ***ppp, enum lock_type type, enum seg_rw rw);
  78 static int      segnf_setpagesize(struct seg *seg, caddr_t addr, size_t len,
  79                     uint_t szc);
  80 static int      segnf_getmemid(struct seg *seg, caddr_t addr, memid_t *memidp);
  81 
  82 
  83 struct seg_ops segnf_ops = {
  84         .dup            = segnf_dup,
  85         .unmap          = segnf_unmap,
  86         .free           = segnf_free,
  87         .fault          = (faultcode_t (*)(struct hat *, struct seg *, caddr_t,
  88             size_t, enum fault_type, enum seg_rw))segnf_nomap,
  89         .faulta         = (faultcode_t (*)(struct seg *, caddr_t)) segnf_nomap,
  90         .setprot        = segnf_setprot,
  91         .checkprot      = segnf_checkprot,
  92         .sync           = (int (*)(struct seg *, caddr_t, size_t, int, uint_t))
  93                 segnf_nop,
  94         .incore         = (size_t (*)(struct seg *, caddr_t, size_t, char *))
  95                 segnf_nop,
  96         .lockop         = (int (*)(struct seg *, caddr_t, size_t, int, int,
  97             ulong_t *, size_t))segnf_nop,
  98         .getprot        = segnf_getprot,
  99         .getoffset      = segnf_getoffset,
 100         .gettype        = segnf_gettype,
 101         .getvp          = segnf_getvp,
 102         .advise         = (int (*)(struct seg *, caddr_t, size_t, uint_t))
 103                 segnf_nop,
 104         .dump           = segnf_dump,
 105         .pagelock       = segnf_pagelock,
 106         .setpagesize    = segnf_setpagesize,
 107         .getmemid       = segnf_getmemid,
 108 };
 109 
 110 /*
 111  * vnode and page for the page of zeros we use for the nf mappings.
 112  */
 113 static kmutex_t segnf_lock;
 114 static struct vnode nfvp;
 115 static struct page **nfpp;
 116 
 117 #define addr_to_vcolor(addr)                                            \
 118         (shm_alignment) ?                                               \
 119         ((int)(((uintptr_t)(addr) & (shm_alignment - 1)) >> PAGESHIFT)) : 0
 120 
 121 /*
 122  * We try to limit the number of Non-fault segments created.
 123  * Non fault segments are created to optimize sparc V9 code which uses
 124  * the sparc nonfaulting load ASI (ASI_PRIMARY_NOFAULT).
 125  *
 126  * There are several reasons why creating too many non-fault segments
 127  * could cause problems.


 447  */
 448 /* ARGSUSED */
 449 static void
 450 segnf_dump(struct seg *seg)
 451 {}
 452 
 453 /*ARGSUSED*/
 454 static int
 455 segnf_pagelock(struct seg *seg, caddr_t addr, size_t len,
 456     struct page ***ppp, enum lock_type type, enum seg_rw rw)
 457 {
 458         return (ENOTSUP);
 459 }
 460 
 461 /*ARGSUSED*/
 462 static int
 463 segnf_setpagesize(struct seg *seg, caddr_t addr, size_t len,
 464     uint_t szc)
 465 {
 466         return (ENOTSUP);
 467 }
 468 
 469 /*ARGSUSED*/
 470 static int
 471 segnf_getmemid(struct seg *seg, caddr_t addr, memid_t *memidp)
 472 {
 473         return (ENODEV);
 474 }



  60  */
  61 static int      segnf_dup(struct seg *seg, struct seg *newseg);
  62 static int      segnf_unmap(struct seg *seg, caddr_t addr, size_t len);
  63 static void     segnf_free(struct seg *seg);
  64 static faultcode_t segnf_nomap(void);
  65 static int      segnf_setprot(struct seg *seg, caddr_t addr,
  66                     size_t len, uint_t prot);
  67 static int      segnf_checkprot(struct seg *seg, caddr_t addr,
  68                     size_t len, uint_t prot);
  69 static int      segnf_nop(void);
  70 static int      segnf_getprot(struct seg *seg, caddr_t addr,
  71                     size_t len, uint_t *protv);
  72 static u_offset_t segnf_getoffset(struct seg *seg, caddr_t addr);
  73 static int      segnf_gettype(struct seg *seg, caddr_t addr);
  74 static int      segnf_getvp(struct seg *seg, caddr_t addr, struct vnode **vpp);
  75 static void     segnf_dump(struct seg *seg);
  76 static int      segnf_pagelock(struct seg *seg, caddr_t addr, size_t len,
  77                     struct page ***ppp, enum lock_type type, enum seg_rw rw);
  78 static int      segnf_setpagesize(struct seg *seg, caddr_t addr, size_t len,
  79                     uint_t szc);

  80 
  81 
  82 struct seg_ops segnf_ops = {
  83         .dup            = segnf_dup,
  84         .unmap          = segnf_unmap,
  85         .free           = segnf_free,
  86         .fault          = (faultcode_t (*)(struct hat *, struct seg *, caddr_t,
  87             size_t, enum fault_type, enum seg_rw))segnf_nomap,
  88         .faulta         = (faultcode_t (*)(struct seg *, caddr_t)) segnf_nomap,
  89         .setprot        = segnf_setprot,
  90         .checkprot      = segnf_checkprot,
  91         .sync           = (int (*)(struct seg *, caddr_t, size_t, int, uint_t))
  92                 segnf_nop,
  93         .incore         = (size_t (*)(struct seg *, caddr_t, size_t, char *))
  94                 segnf_nop,
  95         .lockop         = (int (*)(struct seg *, caddr_t, size_t, int, int,
  96             ulong_t *, size_t))segnf_nop,
  97         .getprot        = segnf_getprot,
  98         .getoffset      = segnf_getoffset,
  99         .gettype        = segnf_gettype,
 100         .getvp          = segnf_getvp,
 101         .advise         = (int (*)(struct seg *, caddr_t, size_t, uint_t))
 102                 segnf_nop,
 103         .dump           = segnf_dump,
 104         .pagelock       = segnf_pagelock,
 105         .setpagesize    = segnf_setpagesize,

 106 };
 107 
 108 /*
 109  * vnode and page for the page of zeros we use for the nf mappings.
 110  */
 111 static kmutex_t segnf_lock;
 112 static struct vnode nfvp;
 113 static struct page **nfpp;
 114 
 115 #define addr_to_vcolor(addr)                                            \
 116         (shm_alignment) ?                                               \
 117         ((int)(((uintptr_t)(addr) & (shm_alignment - 1)) >> PAGESHIFT)) : 0
 118 
 119 /*
 120  * We try to limit the number of Non-fault segments created.
 121  * Non fault segments are created to optimize sparc V9 code which uses
 122  * the sparc nonfaulting load ASI (ASI_PRIMARY_NOFAULT).
 123  *
 124  * There are several reasons why creating too many non-fault segments
 125  * could cause problems.


 445  */
 446 /* ARGSUSED */
 447 static void
 448 segnf_dump(struct seg *seg)
 449 {}
 450 
 451 /*ARGSUSED*/
 452 static int
 453 segnf_pagelock(struct seg *seg, caddr_t addr, size_t len,
 454     struct page ***ppp, enum lock_type type, enum seg_rw rw)
 455 {
 456         return (ENOTSUP);
 457 }
 458 
 459 /*ARGSUSED*/
 460 static int
 461 segnf_setpagesize(struct seg *seg, caddr_t addr, size_t len,
 462     uint_t szc)
 463 {
 464         return (ENOTSUP);







 465 }