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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libffi/] [src/] [pa/] [hpux32.S] - Blame information for rev 761

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1 732 jeremybenn
/* -----------------------------------------------------------------------
2
   hpux32.S - Copyright (c) 2006 Free Software Foundation, Inc.
3
                        (c) 2008 Red Hat, Inc.
4
   based on src/pa/linux.S
5
 
6
   HP-UX PA Foreign Function Interface
7
 
8
   Permission is hereby granted, free of charge, to any person obtaining
9
   a copy of this software and associated documentation files (the
10
   ``Software''), to deal in the Software without restriction, including
11
   without limitation the rights to use, copy, modify, merge, publish,
12
   distribute, sublicense, and/or sell copies of the Software, and to
13
   permit persons to whom the Software is furnished to do so, subject to
14
   the following conditions:
15
 
16
   The above copyright notice and this permission notice shall be included
17
   in all copies or substantial portions of the Software.
18
 
19
   THE SOFTWARE IS PROVIDED ``AS IS'', WITHOUT WARRANTY OF ANY KIND, EXPRESS
20
   OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
21
   MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
22
   IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR
23
   OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
24
   ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
25
   OTHER DEALINGS IN THE SOFTWARE.
26
   ----------------------------------------------------------------------- */
27
 
28
#define LIBFFI_ASM
29
#include 
30
#include 
31
 
32
        .LEVEL 1.1
33
        .SPACE  $PRIVATE$
34
        .IMPORT $global$,DATA
35
        .IMPORT $$dyncall,MILLICODE
36
        .SUBSPA $DATA$
37
        .align  4
38
 
39
        /* void ffi_call_pa32(void (*)(char *, extended_cif *),
40
                               extended_cif *ecif,
41
                               unsigned bytes,
42
                               unsigned flags,
43
                               unsigned *rvalue,
44
                               void (*fn)(void));
45
         */
46
 
47
        .export ffi_call_pa32,ENTRY,PRIV_LEV=3
48
        .import ffi_prep_args_pa32,CODE
49
 
50
        .SPACE  $TEXT$
51
        .SUBSPA $CODE$
52
        .align  4
53
 
54
L$FB1
55
ffi_call_pa32
56
        .proc
57
        .callinfo       FRAME=64,CALLS,SAVE_RP,SAVE_SP,ENTRY_GR=4
58
        .entry
59
        stw     %rp, -20(%sp)
60
        copy    %r3, %r1
61
L$CFI11
62
        copy    %sp, %r3
63
L$CFI12
64
 
65
        /* Setup the stack for calling prep_args...
66
           We want the stack to look like this:
67
 
68
           [ Previous stack                            ] <- %r3
69
 
70
           [ 64-bytes register save area               ] <- %r4
71
 
72
           [ Stack space for actual call, passed as    ] <- %arg0
73
           [     arg0 to ffi_prep_args_pa32           ]
74
 
75
           [ Stack for calling prep_args               ] <- %sp
76
         */
77
 
78
        stwm    %r1, 64(%sp)
79
        stw     %r4, 12(%r3)
80
L$CFI13
81
        copy    %sp, %r4
82
 
83
        addl    %arg2, %r4, %arg0       ; arg stack
84
        stw     %arg3, -48(%r3)         ; save flags we need it later
85
 
86
        /* Call prep_args:
87
           %arg0(stack) -- set up above
88
           %arg1(ecif)  -- same as incoming param
89
           %arg2(bytes) -- same as incoming param */
90
        bl      ffi_prep_args_pa32,%r2
91
        ldo     64(%arg0), %sp
92
        ldo     -64(%sp), %sp
93
 
94
        /* now %sp should point where %arg0 was pointing.  */
95
 
96
        /* Load the arguments that should be passed in registers
97
           The fp args are loaded by the prep_args function.  */
98
        ldw     -36(%sp), %arg0
99
        ldw     -40(%sp), %arg1
100
        ldw     -44(%sp), %arg2
101
        ldw     -48(%sp), %arg3
102
 
103
        /* in case the function is going to return a structure
104
           we need to give it a place to put the result.  */
105
        ldw     -52(%r3), %ret0         ; %ret0 <- rvalue
106
        ldw     -56(%r3), %r22          ; %r22 <- function to call
107
        bl      $$dyncall, %r31         ; Call the user function
108
        copy    %r31, %rp
109
 
110
        /* Prepare to store the result; we need to recover flags and rvalue.  */
111
        ldw     -48(%r3), %r21          ; r21 <- flags
112
        ldw     -52(%r3), %r20          ; r20 <- rvalue
113
 
114
        /* Store the result according to the return type.  The most
115
           likely types should come first.  */
116
 
117
L$checkint
118
        comib,<>,n FFI_TYPE_INT, %r21, L$checkint8
119
        b       L$done
120
        stw     %ret0, 0(%r20)
121
 
122
L$checkint8
123
        comib,<>,n FFI_TYPE_UINT8, %r21, L$checkint16
124
        b       L$done
125
        stb     %ret0, 0(%r20)
126
 
127
L$checkint16
128
        comib,<>,n FFI_TYPE_UINT16, %r21, L$checkdbl
129
        b       L$done
130
        sth     %ret0, 0(%r20)
131
 
132
L$checkdbl
133
        comib,<>,n FFI_TYPE_DOUBLE, %r21, L$checkfloat
134
        b       L$done
135
        fstd    %fr4,0(%r20)
136
 
137
L$checkfloat
138
        comib,<>,n FFI_TYPE_FLOAT, %r21, L$checkll
139
        b       L$done
140
        fstw    %fr4L,0(%r20)
141
 
142
L$checkll
143
        comib,<>,n FFI_TYPE_UINT64, %r21, L$checksmst2
144
        stw     %ret0, 0(%r20)
145
        b       L$done
146
        stw     %ret1, 4(%r20)
147
 
148
L$checksmst2
149
        comib,<>,n FFI_TYPE_SMALL_STRUCT2, %r21, L$checksmst3
150
        /* 2-byte structs are returned in ret0 as ????xxyy.  */
151
        extru   %ret0, 23, 8, %r22
152
        stbs,ma %r22, 1(%r20)
153
        b       L$done
154
        stb     %ret0, 0(%r20)
155
 
156
L$checksmst3
157
        comib,<>,n FFI_TYPE_SMALL_STRUCT3, %r21, L$checksmst4
158
        /* 3-byte structs are returned in ret0 as ??xxyyzz.  */
159
        extru   %ret0, 15, 8, %r22
160
        stbs,ma %r22, 1(%r20)
161
        extru   %ret0, 23, 8, %r22
162
        stbs,ma %r22, 1(%r20)
163
        b       L$done
164
        stb     %ret0, 0(%r20)
165
 
166
L$checksmst4
167
        comib,<>,n FFI_TYPE_SMALL_STRUCT4, %r21, L$checksmst5
168
        /* 4-byte structs are returned in ret0 as wwxxyyzz.  */
169
        extru   %ret0, 7, 8, %r22
170
        stbs,ma %r22, 1(%r20)
171
        extru   %ret0, 15, 8, %r22
172
        stbs,ma %r22, 1(%r20)
173
        extru   %ret0, 23, 8, %r22
174
        stbs,ma %r22, 1(%r20)
175
        b       L$done
176
        stb     %ret0, 0(%r20)
177
 
178
L$checksmst5
179
        comib,<>,n FFI_TYPE_SMALL_STRUCT5, %r21, L$checksmst6
180
        /* 5 byte values are returned right justified:
181
              ret0     ret1
182
           5: ??????aa bbccddee */
183
        stbs,ma %ret0, 1(%r20)
184
        extru   %ret1, 7, 8, %r22
185
        stbs,ma %r22, 1(%r20)
186
        extru   %ret1, 15, 8, %r22
187
        stbs,ma %r22, 1(%r20)
188
        extru   %ret1, 23, 8, %r22
189
        stbs,ma %r22, 1(%r20)
190
        b       L$done
191
        stb     %ret1, 0(%r20)
192
 
193
L$checksmst6
194
        comib,<>,n FFI_TYPE_SMALL_STRUCT6, %r21, L$checksmst7
195
        /* 6 byte values are returned right justified:
196
              ret0     ret1
197
           6: ????aabb ccddeeff */
198
        extru   %ret0, 23, 8, %r22
199
        stbs,ma %r22, 1(%r20)
200
        stbs,ma %ret0, 1(%r20)
201
        extru   %ret1, 7, 8, %r22
202
        stbs,ma %r22, 1(%r20)
203
        extru   %ret1, 15, 8, %r22
204
        stbs,ma %r22, 1(%r20)
205
        extru   %ret1, 23, 8, %r22
206
        stbs,ma %r22, 1(%r20)
207
        b       L$done
208
        stb     %ret1, 0(%r20)
209
 
210
L$checksmst7
211
        comib,<>,n FFI_TYPE_SMALL_STRUCT7, %r21, L$checksmst8
212
        /* 7 byte values are returned right justified:
213
              ret0     ret1
214
           7: ??aabbcc ddeeffgg */
215
        extru   %ret0, 15, 8, %r22
216
        stbs,ma %r22, 1(%r20)
217
        extru   %ret0, 23, 8, %r22
218
        stbs,ma %r22, 1(%r20)
219
        stbs,ma %ret0, 1(%r20)
220
        extru   %ret1, 7, 8, %r22
221
        stbs,ma %r22, 1(%r20)
222
        extru   %ret1, 15, 8, %r22
223
        stbs,ma %r22, 1(%r20)
224
        extru   %ret1, 23, 8, %r22
225
        stbs,ma %r22, 1(%r20)
226
        b       L$done
227
        stb     %ret1, 0(%r20)
228
 
229
L$checksmst8
230
        comib,<>,n FFI_TYPE_SMALL_STRUCT8, %r21, L$done
231
        /* 8 byte values are returned right justified:
232
              ret0     ret1
233
           8: aabbccdd eeffgghh */
234
        extru   %ret0, 7, 8, %r22
235
        stbs,ma %r22, 1(%r20)
236
        extru   %ret0, 15, 8, %r22
237
        stbs,ma %r22, 1(%r20)
238
        extru   %ret0, 23, 8, %r22
239
        stbs,ma %r22, 1(%r20)
240
        stbs,ma %ret0, 1(%r20)
241
        extru   %ret1, 7, 8, %r22
242
        stbs,ma %r22, 1(%r20)
243
        extru   %ret1, 15, 8, %r22
244
        stbs,ma %r22, 1(%r20)
245
        extru   %ret1, 23, 8, %r22
246
        stbs,ma %r22, 1(%r20)
247
        stb     %ret1, 0(%r20)
248
 
249
L$done
250
        /* all done, return */
251
        copy    %r4, %sp        ; pop arg stack
252
        ldw     12(%r3), %r4
253
        ldwm    -64(%sp), %r3   ; .. and pop stack
254
        ldw     -20(%sp), %rp
255
        bv      %r0(%rp)
256
        nop
257
        .exit
258
        .procend
259
L$FE1
260
 
261
        /* void ffi_closure_pa32(void);
262
           Called with closure argument in %r21 */
263
 
264
        .SPACE $TEXT$
265
        .SUBSPA $CODE$
266
        .export ffi_closure_pa32,ENTRY,PRIV_LEV=3,RTNVAL=GR
267
        .import ffi_closure_inner_pa32,CODE
268
        .align 4
269
L$FB2
270
ffi_closure_pa32
271
        .proc
272
        .callinfo FRAME=64,CALLS,SAVE_RP,SAVE_SP,ENTRY_GR=3
273
        .entry
274
 
275
        stw     %rp, -20(%sp)
276
        copy    %r3, %r1
277
L$CFI21
278
        copy    %sp, %r3
279
L$CFI22
280
        stwm    %r1, 64(%sp)
281
 
282
        /* Put arguments onto the stack and call ffi_closure_inner.  */
283
        stw     %arg0, -36(%r3)
284
        stw     %arg1, -40(%r3)
285
        stw     %arg2, -44(%r3)
286
        stw     %arg3, -48(%r3)
287
 
288
        copy    %r21, %arg0
289
        bl      ffi_closure_inner_pa32, %r2
290
        copy    %r3, %arg1
291
        ldwm    -64(%sp), %r3
292
        ldw     -20(%sp), %rp
293
        ldw     -36(%sp), %ret0
294
        bv      %r0(%rp)
295
        ldw     -40(%sp), %ret1
296
        .exit
297
        .procend
298
L$FE2:
299
 
300
        .SPACE $PRIVATE$
301
        .SUBSPA $DATA$
302
 
303
        .align 4
304
        .EXPORT _GLOBAL__F_ffi_call_pa32,DATA
305
_GLOBAL__F_ffi_call_pa32
306
L$frame1:
307
        .word   L$ECIE1-L$SCIE1 ;# Length of Common Information Entry
308
L$SCIE1:
309
        .word   0x0     ;# CIE Identifier Tag
310
        .byte   0x1     ;# CIE Version
311
        .ascii "\0"     ;# CIE Augmentation
312
        .uleb128 0x1    ;# CIE Code Alignment Factor
313
        .sleb128 4      ;# CIE Data Alignment Factor
314
        .byte   0x2     ;# CIE RA Column
315
        .byte   0xc     ;# DW_CFA_def_cfa
316
        .uleb128 0x1e
317
        .uleb128 0x0
318
        .align 4
319
L$ECIE1:
320
L$SFDE1:
321
        .word   L$EFDE1-L$ASFDE1        ;# FDE Length
322
L$ASFDE1:
323
        .word   L$ASFDE1-L$frame1       ;# FDE CIE offset
324
        .word   L$FB1   ;# FDE initial location
325
        .word   L$FE1-L$FB1     ;# FDE address range
326
 
327
        .byte   0x4     ;# DW_CFA_advance_loc4
328
        .word   L$CFI11-L$FB1
329
        .byte   0x83    ;# DW_CFA_offset, column 0x3
330
        .uleb128 0x0
331
        .byte   0x11    ;# DW_CFA_offset_extended_sf; save r2 at [r30-20]
332
        .uleb128 0x2
333
        .sleb128 -5
334
 
335
        .byte   0x4     ;# DW_CFA_advance_loc4
336
        .word   L$CFI12-L$CFI11
337
        .byte   0xd     ;# DW_CFA_def_cfa_register = r3
338
        .uleb128 0x3
339
 
340
        .byte   0x4     ;# DW_CFA_advance_loc4
341
        .word   L$CFI13-L$CFI12
342
        .byte   0x84    ;# DW_CFA_offset, column 0x4
343
        .uleb128 0x3
344
 
345
        .align 4
346
L$EFDE1:
347
 
348
L$SFDE2:
349
        .word   L$EFDE2-L$ASFDE2        ;# FDE Length
350
L$ASFDE2:
351
        .word   L$ASFDE2-L$frame1       ;# FDE CIE offset
352
        .word   L$FB2   ;# FDE initial location
353
        .word   L$FE2-L$FB2     ;# FDE address range
354
        .byte   0x4     ;# DW_CFA_advance_loc4
355
        .word   L$CFI21-L$FB2
356
        .byte   0x83    ;# DW_CFA_offset, column 0x3
357
        .uleb128 0x0
358
        .byte   0x11    ;# DW_CFA_offset_extended_sf
359
        .uleb128 0x2
360
        .sleb128 -5
361
 
362
        .byte   0x4     ;# DW_CFA_advance_loc4
363
        .word   L$CFI22-L$CFI21
364
        .byte   0xd     ;# DW_CFA_def_cfa_register = r3
365
        .uleb128 0x3
366
 
367
        .align 4
368
L$EFDE2:

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