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TOMOYO Linux Cross Reference
Linux/arch/alpha/lib/stxncpy.S

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Diff markup

Differences between /arch/alpha/lib/stxncpy.S (Architecture i386) and /arch/alpha/lib/stxncpy.S (Architecture alpha)


  1 /* SPDX-License-Identifier: GPL-2.0 */              1 /* SPDX-License-Identifier: GPL-2.0 */
  2 /*                                                  2 /*
  3  * arch/alpha/lib/stxncpy.S                         3  * arch/alpha/lib/stxncpy.S
  4  * Contributed by Richard Henderson (rth@tamu.      4  * Contributed by Richard Henderson (rth@tamu.edu)
  5  *                                                  5  *
  6  * Copy no more than COUNT bytes of the null-t      6  * Copy no more than COUNT bytes of the null-terminated string from
  7  * SRC to DST.                                      7  * SRC to DST.
  8  *                                                  8  *
  9  * This is an internal routine used by strncpy      9  * This is an internal routine used by strncpy, stpncpy, and strncat.
 10  * As such, it uses special linkage convention     10  * As such, it uses special linkage conventions to make implementation
 11  * of these public functions more efficient.       11  * of these public functions more efficient.
 12  *                                                 12  *
 13  * On input:                                       13  * On input:
 14  *      t9 = return address                        14  *      t9 = return address
 15  *      a0 = DST                                   15  *      a0 = DST
 16  *      a1 = SRC                                   16  *      a1 = SRC
 17  *      a2 = COUNT                                 17  *      a2 = COUNT
 18  *                                                 18  *
 19  * Furthermore, COUNT may not be zero.             19  * Furthermore, COUNT may not be zero.
 20  *                                                 20  *
 21  * On output:                                      21  * On output:
 22  *      t0  = last word written                    22  *      t0  = last word written
 23  *      t10 = bitmask (with one bit set) indic     23  *      t10 = bitmask (with one bit set) indicating the byte position of
 24  *            the end of the range specified b     24  *            the end of the range specified by COUNT
 25  *      t12 = bitmask (with one bit set) indic     25  *      t12 = bitmask (with one bit set) indicating the last byte written
 26  *      a0  = unaligned address of the last *w     26  *      a0  = unaligned address of the last *word* written
 27  *      a2  = the number of full words left in     27  *      a2  = the number of full words left in COUNT
 28  *                                                 28  *
 29  * Furthermore, v0, a3-a5, t11, and $at are un     29  * Furthermore, v0, a3-a5, t11, and $at are untouched.
 30  */                                                30  */
 31                                                    31 
 32 #include <asm/regdef.h>                            32 #include <asm/regdef.h>
 33                                                    33 
 34         .set noat                                  34         .set noat
 35         .set noreorder                             35         .set noreorder
 36                                                    36 
 37         .text                                      37         .text
 38                                                    38 
 39 /* There is a problem with either gdb (as of 4     39 /* There is a problem with either gdb (as of 4.16) or gas (as of 2.7) that
 40    doesn't like putting the entry point for a      40    doesn't like putting the entry point for a procedure somewhere in the
 41    middle of the procedure descriptor.  Work a     41    middle of the procedure descriptor.  Work around this by putting the
 42    aligned copy in its own procedure descripto     42    aligned copy in its own procedure descriptor */
 43                                                    43 
 44         .ent stxncpy_aligned                       44         .ent stxncpy_aligned
 45         .align 3                                   45         .align 3
 46 stxncpy_aligned:                                   46 stxncpy_aligned:
 47         .frame sp, 0, t9, 0                        47         .frame sp, 0, t9, 0
 48         .prologue 0                                48         .prologue 0
 49                                                    49 
 50         /* On entry to this basic block:           50         /* On entry to this basic block:
 51            t0 == the first destination word fo     51            t0 == the first destination word for masking back in
 52            t1 == the first source word.  */        52            t1 == the first source word.  */
 53                                                    53 
 54         /* Create the 1st output word and dete     54         /* Create the 1st output word and detect 0's in the 1st input word.  */
 55         lda     t2, -1          # e1    : buil     55         lda     t2, -1          # e1    : build a mask against false zero
 56         mskqh   t2, a1, t2      # e0    :   de     56         mskqh   t2, a1, t2      # e0    :   detection in the src word
 57         mskqh   t1, a1, t3      # e0    :          57         mskqh   t1, a1, t3      # e0    :
 58         ornot   t1, t2, t2      # .. e1 :          58         ornot   t1, t2, t2      # .. e1 :
 59         mskql   t0, a1, t0      # e0    : asse     59         mskql   t0, a1, t0      # e0    : assemble the first output word
 60         cmpbge  zero, t2, t8    # .. e1 : bits     60         cmpbge  zero, t2, t8    # .. e1 : bits set iff null found
 61         or      t0, t3, t0      # e0    :          61         or      t0, t3, t0      # e0    :
 62         beq     a2, $a_eoc      # .. e1 :          62         beq     a2, $a_eoc      # .. e1 :
 63         bne     t8, $a_eos      # .. e1 :          63         bne     t8, $a_eos      # .. e1 :
 64                                                    64 
 65         /* On entry to this basic block:           65         /* On entry to this basic block:
 66            t0 == a source word not containing      66            t0 == a source word not containing a null.  */
 67                                                    67 
 68 $a_loop:                                           68 $a_loop:
 69         stq_u   t0, 0(a0)       # e0    :          69         stq_u   t0, 0(a0)       # e0    :
 70         addq    a0, 8, a0       # .. e1 :          70         addq    a0, 8, a0       # .. e1 :
 71         ldq_u   t0, 0(a1)       # e0    :          71         ldq_u   t0, 0(a1)       # e0    :
 72         addq    a1, 8, a1       # .. e1 :          72         addq    a1, 8, a1       # .. e1 :
 73         subq    a2, 1, a2       # e0    :          73         subq    a2, 1, a2       # e0    :
 74         cmpbge  zero, t0, t8    # .. e1 (stall     74         cmpbge  zero, t0, t8    # .. e1 (stall)
 75         beq     a2, $a_eoc      # e1    :          75         beq     a2, $a_eoc      # e1    :
 76         beq     t8, $a_loop     # e1    :          76         beq     t8, $a_loop     # e1    :
 77                                                    77 
 78         /* Take care of the final (partial) wo     78         /* Take care of the final (partial) word store.  At this point
 79            the end-of-count bit is set in t8 i     79            the end-of-count bit is set in t8 iff it applies.
 80                                                    80 
 81            On entry to this basic block we hav     81            On entry to this basic block we have:
 82            t0 == the source word containing th     82            t0 == the source word containing the null
 83            t8 == the cmpbge mask that found it     83            t8 == the cmpbge mask that found it.  */
 84                                                    84 
 85 $a_eos:                                            85 $a_eos:
 86         negq    t8, t12         # e0    : find     86         negq    t8, t12         # e0    : find low bit set
 87         and     t8, t12, t12    # e1 (stall)       87         and     t8, t12, t12    # e1 (stall)
 88                                                    88 
 89         /* For the sake of the cache, don't re     89         /* For the sake of the cache, don't read a destination word
 90            if we're not going to need it.  */      90            if we're not going to need it.  */
 91         and     t12, 0x80, t6   # e0    :          91         and     t12, 0x80, t6   # e0    :
 92         bne     t6, 1f          # .. e1 (zdb)      92         bne     t6, 1f          # .. e1 (zdb)
 93                                                    93 
 94         /* We're doing a partial word store an     94         /* We're doing a partial word store and so need to combine
 95            our source and original destination     95            our source and original destination words.  */
 96         ldq_u   t1, 0(a0)       # e0    :          96         ldq_u   t1, 0(a0)       # e0    :
 97         subq    t12, 1, t6      # .. e1 :          97         subq    t12, 1, t6      # .. e1 :
 98         or      t12, t6, t8     # e0    :          98         or      t12, t6, t8     # e0    :
 99         unop                    #                  99         unop                    #
100         zapnot  t0, t8, t0      # e0    : clea    100         zapnot  t0, t8, t0      # e0    : clear src bytes > null
101         zap     t1, t8, t1      # .. e1 : clea    101         zap     t1, t8, t1      # .. e1 : clear dst bytes <= null
102         or      t0, t1, t0      # e1    :         102         or      t0, t1, t0      # e1    :
103                                                   103 
104 1:      stq_u   t0, 0(a0)       # e0    :         104 1:      stq_u   t0, 0(a0)       # e0    :
105         ret     (t9)            # e1    :         105         ret     (t9)            # e1    :
106                                                   106 
107         /* Add the end-of-count bit to the eos    107         /* Add the end-of-count bit to the eos detection bitmask.  */
108 $a_eoc:                                           108 $a_eoc:
109         or      t10, t8, t8                       109         or      t10, t8, t8
110         br      $a_eos                            110         br      $a_eos
111                                                   111 
112         .end stxncpy_aligned                      112         .end stxncpy_aligned
113                                                   113 
114         .align 3                                  114         .align 3
115         .ent __stxncpy                            115         .ent __stxncpy
116         .globl __stxncpy                          116         .globl __stxncpy
117 __stxncpy:                                        117 __stxncpy:
118         .frame sp, 0, t9, 0                       118         .frame sp, 0, t9, 0
119         .prologue 0                               119         .prologue 0
120                                                   120 
121         /* Are source and destination co-align    121         /* Are source and destination co-aligned?  */
122         xor     a0, a1, t1      # e0    :         122         xor     a0, a1, t1      # e0    :
123         and     a0, 7, t0       # .. e1 : find    123         and     a0, 7, t0       # .. e1 : find dest misalignment
124         and     t1, 7, t1       # e0    :         124         and     t1, 7, t1       # e0    :
125         addq    a2, t0, a2      # .. e1 : bias    125         addq    a2, t0, a2      # .. e1 : bias count by dest misalignment
126         subq    a2, 1, a2       # e0    :         126         subq    a2, 1, a2       # e0    :
127         and     a2, 7, t2       # e1    :         127         and     a2, 7, t2       # e1    :
128         srl     a2, 3, a2       # e0    : a2 =    128         srl     a2, 3, a2       # e0    : a2 = loop counter = (count - 1)/8
129         addq    zero, 1, t10    # .. e1 :         129         addq    zero, 1, t10    # .. e1 :
130         sll     t10, t2, t10    # e0    : t10     130         sll     t10, t2, t10    # e0    : t10 = bitmask of last count byte
131         bne     t1, $unaligned  # .. e1 :         131         bne     t1, $unaligned  # .. e1 :
132                                                   132 
133         /* We are co-aligned; take care of a p    133         /* We are co-aligned; take care of a partial first word.  */
134                                                   134 
135         ldq_u   t1, 0(a1)       # e0    : load    135         ldq_u   t1, 0(a1)       # e0    : load first src word
136         addq    a1, 8, a1       # .. e1 :         136         addq    a1, 8, a1       # .. e1 :
137                                                   137 
138         beq     t0, stxncpy_aligned     # avoi    138         beq     t0, stxncpy_aligned     # avoid loading dest word if not needed
139         ldq_u   t0, 0(a0)       # e0    :         139         ldq_u   t0, 0(a0)       # e0    :
140         br      stxncpy_aligned # .. e1 :         140         br      stxncpy_aligned # .. e1 :
141                                                   141 
142                                                   142 
143 /* The source and destination are not co-align    143 /* The source and destination are not co-aligned.  Align the destination
144    and cope.  We have to be very careful about    144    and cope.  We have to be very careful about not reading too much and
145    causing a SEGV.  */                            145    causing a SEGV.  */
146                                                   146 
147         .align 3                                  147         .align 3
148 $u_head:                                          148 $u_head:
149         /* We know just enough now to be able     149         /* We know just enough now to be able to assemble the first
150            full source word.  We can still fin    150            full source word.  We can still find a zero at the end of it
151            that prevents us from outputting th    151            that prevents us from outputting the whole thing.
152                                                   152 
153            On entry to this basic block:          153            On entry to this basic block:
154            t0 == the first dest word, unmasked    154            t0 == the first dest word, unmasked
155            t1 == the shifted low bits of the f    155            t1 == the shifted low bits of the first source word
156            t6 == bytemask that is -1 in dest w    156            t6 == bytemask that is -1 in dest word bytes */
157                                                   157 
158         ldq_u   t2, 8(a1)       # e0    : load    158         ldq_u   t2, 8(a1)       # e0    : load second src word
159         addq    a1, 8, a1       # .. e1 :         159         addq    a1, 8, a1       # .. e1 :
160         mskql   t0, a0, t0      # e0    : mask    160         mskql   t0, a0, t0      # e0    : mask trailing garbage in dst
161         extqh   t2, a1, t4      # e0    :         161         extqh   t2, a1, t4      # e0    :
162         or      t1, t4, t1      # e1    : firs    162         or      t1, t4, t1      # e1    : first aligned src word complete
163         mskqh   t1, a0, t1      # e0    : mask    163         mskqh   t1, a0, t1      # e0    : mask leading garbage in src
164         or      t0, t1, t0      # e0    : firs    164         or      t0, t1, t0      # e0    : first output word complete
165         or      t0, t6, t6      # e1    : mask    165         or      t0, t6, t6      # e1    : mask original data for zero test
166         cmpbge  zero, t6, t8    # e0    :         166         cmpbge  zero, t6, t8    # e0    :
167         beq     a2, $u_eocfin   # .. e1 :         167         beq     a2, $u_eocfin   # .. e1 :
168         lda     t6, -1          # e0    :         168         lda     t6, -1          # e0    :
169         bne     t8, $u_final    # .. e1 :         169         bne     t8, $u_final    # .. e1 :
170                                                   170 
171         mskql   t6, a1, t6      # e0    : mask    171         mskql   t6, a1, t6      # e0    : mask out bits already seen
172         nop                     # .. e1 :         172         nop                     # .. e1 :
173         stq_u   t0, 0(a0)       # e0    : stor    173         stq_u   t0, 0(a0)       # e0    : store first output word
174         or      t6, t2, t2      # .. e1 :         174         or      t6, t2, t2      # .. e1 :
175         cmpbge  zero, t2, t8    # e0    : find    175         cmpbge  zero, t2, t8    # e0    : find nulls in second partial
176         addq    a0, 8, a0       # .. e1 :         176         addq    a0, 8, a0       # .. e1 :
177         subq    a2, 1, a2       # e0    :         177         subq    a2, 1, a2       # e0    :
178         bne     t8, $u_late_head_exit   # .. e    178         bne     t8, $u_late_head_exit   # .. e1 :
179                                                   179 
180         /* Finally, we've got all the stupid l    180         /* Finally, we've got all the stupid leading edge cases taken care
181            of and we can set up to enter the m    181            of and we can set up to enter the main loop.  */
182                                                   182 
183         extql   t2, a1, t1      # e0    : posi    183         extql   t2, a1, t1      # e0    : position hi-bits of lo word
184         beq     a2, $u_eoc      # .. e1 :         184         beq     a2, $u_eoc      # .. e1 :
185         ldq_u   t2, 8(a1)       # e0    : read    185         ldq_u   t2, 8(a1)       # e0    : read next high-order source word
186         addq    a1, 8, a1       # .. e1 :         186         addq    a1, 8, a1       # .. e1 :
187         extqh   t2, a1, t0      # e0    : posi    187         extqh   t2, a1, t0      # e0    : position lo-bits of hi word (stall)
188         cmpbge  zero, t2, t8    # .. e1 :         188         cmpbge  zero, t2, t8    # .. e1 :
189         nop                     # e0    :         189         nop                     # e0    :
190         bne     t8, $u_eos      # .. e1 :         190         bne     t8, $u_eos      # .. e1 :
191                                                   191 
192         /* Unaligned copy main loop.  In order    192         /* Unaligned copy main loop.  In order to avoid reading too much,
193            the loop is structured to detect ze    193            the loop is structured to detect zeros in aligned source words.
194            This has, unfortunately, effectivel    194            This has, unfortunately, effectively pulled half of a loop
195            iteration out into the head and hal    195            iteration out into the head and half into the tail, but it does
196            prevent nastiness from accumulating    196            prevent nastiness from accumulating in the very thing we want
197            to run as fast as possible.            197            to run as fast as possible.
198                                                   198 
199            On entry to this basic block:          199            On entry to this basic block:
200            t0 == the shifted low-order bits fr    200            t0 == the shifted low-order bits from the current source word
201            t1 == the shifted high-order bits f    201            t1 == the shifted high-order bits from the previous source word
202            t2 == the unshifted current source     202            t2 == the unshifted current source word
203                                                   203 
204            We further know that t2 does not co    204            We further know that t2 does not contain a null terminator.  */
205                                                   205 
206         .align 3                                  206         .align 3
207 $u_loop:                                          207 $u_loop:
208         or      t0, t1, t0      # e0    : curr    208         or      t0, t1, t0      # e0    : current dst word now complete
209         subq    a2, 1, a2       # .. e1 : decr    209         subq    a2, 1, a2       # .. e1 : decrement word count
210         stq_u   t0, 0(a0)       # e0    : save    210         stq_u   t0, 0(a0)       # e0    : save the current word
211         addq    a0, 8, a0       # .. e1 :         211         addq    a0, 8, a0       # .. e1 :
212         extql   t2, a1, t1      # e0    : extr    212         extql   t2, a1, t1      # e0    : extract high bits for next time
213         beq     a2, $u_eoc      # .. e1 :         213         beq     a2, $u_eoc      # .. e1 :
214         ldq_u   t2, 8(a1)       # e0    : load    214         ldq_u   t2, 8(a1)       # e0    : load high word for next time
215         addq    a1, 8, a1       # .. e1 :         215         addq    a1, 8, a1       # .. e1 :
216         nop                     # e0    :         216         nop                     # e0    :
217         cmpbge  zero, t2, t8    # e1    : test    217         cmpbge  zero, t2, t8    # e1    : test new word for eos (stall)
218         extqh   t2, a1, t0      # e0    : extr    218         extqh   t2, a1, t0      # e0    : extract low bits for current word
219         beq     t8, $u_loop     # .. e1 :         219         beq     t8, $u_loop     # .. e1 :
220                                                   220 
221         /* We've found a zero somewhere in the    221         /* We've found a zero somewhere in the source word we just read.
222            If it resides in the lower half, we    222            If it resides in the lower half, we have one (probably partial)
223            word to write out, and if it reside    223            word to write out, and if it resides in the upper half, we
224            have one full and one partial word     224            have one full and one partial word left to write out.
225                                                   225 
226            On entry to this basic block:          226            On entry to this basic block:
227            t0 == the shifted low-order bits fr    227            t0 == the shifted low-order bits from the current source word
228            t1 == the shifted high-order bits f    228            t1 == the shifted high-order bits from the previous source word
229            t2 == the unshifted current source     229            t2 == the unshifted current source word.  */
230 $u_eos:                                           230 $u_eos:
231         or      t0, t1, t0      # e0    : firs    231         or      t0, t1, t0      # e0    : first (partial) source word complete
232         nop                     # .. e1 :         232         nop                     # .. e1 :
233         cmpbge  zero, t0, t8    # e0    : is t    233         cmpbge  zero, t0, t8    # e0    : is the null in this first bit?
234         bne     t8, $u_final    # .. e1 (zdb)     234         bne     t8, $u_final    # .. e1 (zdb)
235                                                   235 
236         stq_u   t0, 0(a0)       # e0    : the     236         stq_u   t0, 0(a0)       # e0    : the null was in the high-order bits
237         addq    a0, 8, a0       # .. e1 :         237         addq    a0, 8, a0       # .. e1 :
238         subq    a2, 1, a2       # e1    :         238         subq    a2, 1, a2       # e1    :
239                                                   239 
240 $u_late_head_exit:                                240 $u_late_head_exit:
241         extql   t2, a1, t0      # .. e0 :         241         extql   t2, a1, t0      # .. e0 :
242         cmpbge  zero, t0, t8    # e0    :         242         cmpbge  zero, t0, t8    # e0    :
243         or      t8, t10, t6     # e1    :         243         or      t8, t10, t6     # e1    :
244         cmoveq  a2, t6, t8      # e0    :         244         cmoveq  a2, t6, t8      # e0    :
245         nop                     # .. e1 :         245         nop                     # .. e1 :
246                                                   246 
247         /* Take care of a final (probably part    247         /* Take care of a final (probably partial) result word.
248            On entry to this basic block:          248            On entry to this basic block:
249            t0 == assembled source word            249            t0 == assembled source word
250            t8 == cmpbge mask that found the nu    250            t8 == cmpbge mask that found the null.  */
251 $u_final:                                         251 $u_final:
252         negq    t8, t6          # e0    : isol    252         negq    t8, t6          # e0    : isolate low bit set
253         and     t6, t8, t12     # e1    :         253         and     t6, t8, t12     # e1    :
254                                                   254 
255         and     t12, 0x80, t6   # e0    : avoi    255         and     t12, 0x80, t6   # e0    : avoid dest word load if we can
256         bne     t6, 1f          # .. e1 (zdb)     256         bne     t6, 1f          # .. e1 (zdb)
257                                                   257 
258         ldq_u   t1, 0(a0)       # e0    :         258         ldq_u   t1, 0(a0)       # e0    :
259         subq    t12, 1, t6      # .. e1 :         259         subq    t12, 1, t6      # .. e1 :
260         or      t6, t12, t8     # e0    :         260         or      t6, t12, t8     # e0    :
261         zapnot  t0, t8, t0      # .. e1 : kill    261         zapnot  t0, t8, t0      # .. e1 : kill source bytes > null
262         zap     t1, t8, t1      # e0    : kill    262         zap     t1, t8, t1      # e0    : kill dest bytes <= null
263         or      t0, t1, t0      # e1    :         263         or      t0, t1, t0      # e1    :
264                                                   264 
265 1:      stq_u   t0, 0(a0)       # e0    :         265 1:      stq_u   t0, 0(a0)       # e0    :
266         ret     (t9)            # .. e1 :         266         ret     (t9)            # .. e1 :
267                                                   267 
268         /* Got to end-of-count before end of s    268         /* Got to end-of-count before end of string.  
269            On entry to this basic block:          269            On entry to this basic block:
270            t1 == the shifted high-order bits f    270            t1 == the shifted high-order bits from the previous source word  */
271 $u_eoc:                                           271 $u_eoc:
272         and     a1, 7, t6       # e1    :         272         and     a1, 7, t6       # e1    :
273         sll     t10, t6, t6     # e0    :         273         sll     t10, t6, t6     # e0    :
274         and     t6, 0xff, t6    # e0    :         274         and     t6, 0xff, t6    # e0    :
275         bne     t6, 1f          # .. e1 :         275         bne     t6, 1f          # .. e1 :
276                                                   276 
277         ldq_u   t2, 8(a1)       # e0    : load    277         ldq_u   t2, 8(a1)       # e0    : load final src word
278         nop                     # .. e1 :         278         nop                     # .. e1 :
279         extqh   t2, a1, t0      # e0    : extr    279         extqh   t2, a1, t0      # e0    : extract low bits for last word
280         or      t1, t0, t1      # e1    :         280         or      t1, t0, t1      # e1    :
281                                                   281 
282 1:      cmpbge  zero, t1, t8                      282 1:      cmpbge  zero, t1, t8
283         mov     t1, t0                            283         mov     t1, t0
284                                                   284 
285 $u_eocfin:                      # end-of-count    285 $u_eocfin:                      # end-of-count, final word
286         or      t10, t8, t8                       286         or      t10, t8, t8
287         br      $u_final                          287         br      $u_final
288                                                   288 
289         /* Unaligned copy entry point.  */        289         /* Unaligned copy entry point.  */
290         .align 3                                  290         .align 3
291 $unaligned:                                       291 $unaligned:
292                                                   292 
293         ldq_u   t1, 0(a1)       # e0    : load    293         ldq_u   t1, 0(a1)       # e0    : load first source word
294                                                   294 
295         and     a0, 7, t4       # .. e1 : find    295         and     a0, 7, t4       # .. e1 : find dest misalignment
296         and     a1, 7, t5       # e0    : find    296         and     a1, 7, t5       # e0    : find src misalignment
297                                                   297 
298         /* Conditionally load the first destin    298         /* Conditionally load the first destination word and a bytemask
299            with 0xff indicating that the desti    299            with 0xff indicating that the destination byte is sacrosanct.  */
300                                                   300 
301         mov     zero, t0        # .. e1 :         301         mov     zero, t0        # .. e1 :
302         mov     zero, t6        # e0    :         302         mov     zero, t6        # e0    :
303         beq     t4, 1f          # .. e1 :         303         beq     t4, 1f          # .. e1 :
304         ldq_u   t0, 0(a0)       # e0    :         304         ldq_u   t0, 0(a0)       # e0    :
305         lda     t6, -1          # .. e1 :         305         lda     t6, -1          # .. e1 :
306         mskql   t6, a0, t6      # e0    :         306         mskql   t6, a0, t6      # e0    :
307         subq    a1, t4, a1      # .. e1 : sub     307         subq    a1, t4, a1      # .. e1 : sub dest misalignment from src addr
308                                                   308 
309         /* If source misalignment is larger th    309         /* If source misalignment is larger than dest misalignment, we need
310            extra startup checks to avoid SEGV.    310            extra startup checks to avoid SEGV.  */
311                                                   311 
312 1:      cmplt   t4, t5, t12     # e1    :         312 1:      cmplt   t4, t5, t12     # e1    :
313         extql   t1, a1, t1      # .. e0 : shif    313         extql   t1, a1, t1      # .. e0 : shift src into place
314         lda     t2, -1          # e0    : for     314         lda     t2, -1          # e0    : for creating masks later
315         beq     t12, $u_head    # .. e1 :         315         beq     t12, $u_head    # .. e1 :
316                                                   316 
317         extql   t2, a1, t2      # e0    :         317         extql   t2, a1, t2      # e0    :
318         cmpbge  zero, t1, t8    # .. e1 : is t    318         cmpbge  zero, t1, t8    # .. e1 : is there a zero?
319         andnot  t2, t6, t2      # e0    : dest    319         andnot  t2, t6, t2      # e0    : dest mask for a single word copy
320         or      t8, t10, t5     # .. e1 : test    320         or      t8, t10, t5     # .. e1 : test for end-of-count too
321         cmpbge  zero, t2, t3    # e0    :         321         cmpbge  zero, t2, t3    # e0    :
322         cmoveq  a2, t5, t8      # .. e1 :         322         cmoveq  a2, t5, t8      # .. e1 :
323         andnot  t8, t3, t8      # e0    :         323         andnot  t8, t3, t8      # e0    :
324         beq     t8, $u_head     # .. e1 (zdb)     324         beq     t8, $u_head     # .. e1 (zdb)
325                                                   325 
326         /* At this point we've found a zero in    326         /* At this point we've found a zero in the first partial word of
327            the source.  We need to isolate the    327            the source.  We need to isolate the valid source data and mask
328            it into the original destination da    328            it into the original destination data.  (Incidentally, we know
329            that we'll need at least one byte o    329            that we'll need at least one byte of that original dest word.) */
330                                                   330 
331         ldq_u   t0, 0(a0)       # e0    :         331         ldq_u   t0, 0(a0)       # e0    :
332         negq    t8, t6          # .. e1 : buil    332         negq    t8, t6          # .. e1 : build bitmask of bytes <= zero
333         mskqh   t1, t4, t1      # e0    :         333         mskqh   t1, t4, t1      # e0    :
334         and     t6, t8, t12     # .. e1 :         334         and     t6, t8, t12     # .. e1 :
335         subq    t12, 1, t6      # e0    :         335         subq    t12, 1, t6      # e0    :
336         or      t6, t12, t8     # e1    :         336         or      t6, t12, t8     # e1    :
337                                                   337 
338         zapnot  t2, t8, t2      # e0    : prep    338         zapnot  t2, t8, t2      # e0    : prepare source word; mirror changes
339         zapnot  t1, t8, t1      # .. e1 : to s    339         zapnot  t1, t8, t1      # .. e1 : to source validity mask
340                                                   340 
341         andnot  t0, t2, t0      # e0    : zero    341         andnot  t0, t2, t0      # e0    : zero place for source to reside
342         or      t0, t1, t0      # e1    : and     342         or      t0, t1, t0      # e1    : and put it there
343         stq_u   t0, 0(a0)       # e0    :         343         stq_u   t0, 0(a0)       # e0    :
344         ret     (t9)            # .. e1 :         344         ret     (t9)            # .. e1 :
345                                                   345 
346         .end __stxncpy                            346         .end __stxncpy
                                                      

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