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1a0c09c4 MW |
1 | /// -*- mode: asm; asm-comment-char: ?/ -*- |
2 | /// | |
3 | /// Fancy SIMD implementation of Salsa20 | |
4 | /// | |
5 | /// (c) 2015 Straylight/Edgeware | |
6 | /// | |
7 | ||
8 | ///----- Licensing notice --------------------------------------------------- | |
9 | /// | |
10 | /// This file is part of Catacomb. | |
11 | /// | |
12 | /// Catacomb is free software; you can redistribute it and/or modify | |
13 | /// it under the terms of the GNU Library General Public License as | |
14 | /// published by the Free Software Foundation; either version 2 of the | |
15 | /// License, or (at your option) any later version. | |
16 | /// | |
17 | /// Catacomb is distributed in the hope that it will be useful, | |
18 | /// but WITHOUT ANY WARRANTY; without even the implied warranty of | |
19 | /// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
20 | /// GNU Library General Public License for more details. | |
21 | /// | |
22 | /// You should have received a copy of the GNU Library General Public | |
23 | /// License along with Catacomb; if not, write to the Free | |
24 | /// Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, | |
25 | /// MA 02111-1307, USA. | |
26 | ||
27 | ///-------------------------------------------------------------------------- | |
28 | /// General definitions. | |
29 | ||
898f32b3 MW |
30 | // Preprocessor hacks. |
31 | #define STRINGY(x) _STRINGY(x, y) | |
32 | #define _STRINGY(x) #x | |
33 | #define GLUE(x, y) _GLUE(x, y) | |
34 | #define _GLUE(x, y) x##y | |
35 | #define _EMPTY | |
36 | ||
f8e509a9 MW |
37 | // Some useful variables. |
38 | .L$_subsec = 0 | |
39 | ||
40 | // Literal pools done the hard way. | |
41 | #define _LIT .text .L$_subsec + 1 | |
42 | #define _ENDLIT .text .L$_subsec | |
6c54cbd3 | 43 | #define _LTORG .L$_subsec = .L$_subsec + 2; .text .L$_subsec |
f8e509a9 | 44 | |
645fcce0 MW |
45 | // ELF section types. |
46 | #if __ELF__ | |
47 | # if CPUFAM_ARMEL | |
48 | # define _SECTTY(ty) %ty | |
49 | # else | |
50 | # define _SECTTY(ty) @ty | |
51 | # endif | |
52 | #endif | |
53 | ||
54 | // Section selection. | |
55 | #define TEXT .text .L$_subsec | |
56 | #if ABI_WIN | |
57 | # define RODATA .section .rdata, "dr" | |
58 | #elif __ELF__ | |
59 | # define RODATA .section .rodata, "a", _SECTTY(progbits) | |
60 | #else | |
61 | # define RODATA TEXT | |
62 | #endif | |
63 | #define DATA .data | |
64 | ||
1a517bb3 MW |
65 | // Announcing an internal function. |
66 | #define INTFUNC(name) \ | |
1a0c09c4 | 67 | TYPE_FUNC(name); \ |
8a1aa284 | 68 | .macro ENDFUNC; _ENDFUNC(name); .endm; \ |
0923a413 | 69 | .L$_prologue_p = 0; .L$_frameptr_p = 0; \ |
1a0c09c4 | 70 | FUNC_PREHOOK(name); \ |
1a517bb3 | 71 | name: \ |
1a0c09c4 MW |
72 | FUNC_POSTHOOK(name) |
73 | ||
1a517bb3 MW |
74 | // Announcing an external function. |
75 | #define FUNC(name) \ | |
76 | .globl F(name); \ | |
77 | INTFUNC(F(name)) | |
78 | ||
1a0c09c4 MW |
79 | // Marking the end of a function. |
80 | #define _ENDFUNC(name) \ | |
0923a413 MW |
81 | .if ~ .L$_prologue_p; .error "Missing `endprologue'"; .endif; \ |
82 | .if .L$_frameptr_p; .purgem dropfp; .endif; \ | |
1a0c09c4 MW |
83 | .purgem ENDFUNC; \ |
84 | SIZE_OBJ(name); \ | |
f8e509a9 | 85 | ENDFUNC_HOOK(name); \ |
6c54cbd3 | 86 | _LTORG |
1a0c09c4 | 87 | |
8ae4c946 MW |
88 | // Make a helper function, if necessary. |
89 | #define AUXFN(name) \ | |
90 | .ifndef .L$_auxfn_def.name; \ | |
91 | .text 7128; \ | |
92 | .macro _ENDAUXFN; _ENDAUXFN_TAIL(name); .endm; \ | |
93 | FUNC_PREHOOK(name); \ | |
94 | name: | |
95 | #define _ENDAUXFN_TAIL(name) \ | |
96 | .purgem _ENDAUXFN; \ | |
97 | .text .L$_subsec; \ | |
98 | .L$_auxfn_def.name = 1 | |
99 | #define ENDAUXFN _ENDAUXFN; .endif | |
100 | ||
1a0c09c4 MW |
101 | ///-------------------------------------------------------------------------- |
102 | /// ELF-specific hacking. | |
103 | ||
104 | #if __ELF__ | |
105 | ||
106 | #if __PIC__ || __PIE__ | |
107 | # define WANT_PIC 1 | |
108 | #endif | |
109 | ||
110 | #define TYPE_FUNC(name) .type name, STT_FUNC | |
111 | ||
112 | #define SIZE_OBJ(name) .size name, . - name | |
113 | ||
114 | #endif | |
115 | ||
116 | ///-------------------------------------------------------------------------- | |
0f23f75f MW |
117 | /// Windows-specific hacking. |
118 | ||
119 | #if ABI_WIN | |
1a0c09c4 MW |
120 | |
121 | #if CPUFAM_X86 | |
0f23f75f MW |
122 | # define F(name) _##name |
123 | #endif | |
124 | ||
125 | #endif | |
126 | ||
127 | ///-------------------------------------------------------------------------- | |
128 | /// x86- and amd64-specific hacking. | |
129 | /// | |
130 | /// It's (slightly) easier to deal with both of these in one go. | |
131 | ||
132 | #if CPUFAM_X86 || CPUFAM_AMD64 | |
1a0c09c4 | 133 | |
2cb17e02 MW |
134 | // Word size. |
135 | #if CPUFAM_X86 | |
136 | # define WORDSZ 4 | |
137 | #endif | |
138 | #if CPUFAM_AMD64 | |
139 | # define WORDSZ 8 | |
140 | #endif | |
141 | ||
1a0c09c4 MW |
142 | // Set the function hooks. |
143 | #define FUNC_PREHOOK(_) .balign 16 | |
144 | ||
f71dd54d MW |
145 | // On Windows, arrange to install stack-unwinding data. |
146 | #if CPUFAM_AMD64 && ABI_WIN | |
147 | # define FUNC_POSTHOOK(name) .seh_proc name | |
148 | # define ENDFUNC_HOOK(_) .seh_endproc | |
149 | // Procedures are expected to invoke `.seh_setframe' if necessary, and | |
150 | // `.seh_pushreg' and friends, and `.seh_endprologue'. | |
151 | #endif | |
152 | ||
0923a413 MW |
153 | #if __ELF__ |
154 | # define FUNC_POSTHOOK(_) .cfi_startproc | |
155 | # define ENDFUNC_HOOK(_) .cfi_endproc | |
156 | #endif | |
157 | ||
1a0c09c4 MW |
158 | // Don't use the wretched AT&T syntax. It's festooned with pointless |
159 | // punctuation, and all of the data movement is backwards. Ugh! | |
160 | .intel_syntax noprefix | |
161 | ||
162 | // Call external subroutine at ADDR, possibly via PLT. | |
8a1aa284 | 163 | .macro callext addr |
1a0c09c4 MW |
164 | #if WANT_PIC |
165 | call \addr@PLT | |
166 | #else | |
167 | call \addr | |
168 | #endif | |
8a1aa284 | 169 | .endm |
1a0c09c4 MW |
170 | |
171 | // Do I need to arrange a spare GOT register? | |
172 | #if WANT_PIC && CPUFAM_X86 | |
173 | # define NEED_GOT 1 | |
174 | #endif | |
175 | #define GOTREG ebx // Not needed in AMD64 so don't care. | |
176 | ||
177 | // Maybe load GOT address into GOT. | |
8a1aa284 | 178 | .macro ldgot got=GOTREG |
0f23f75f | 179 | #if WANT_PIC && CPUFAM_X86 |
8ae4c946 | 180 | AUXFN(_ldgot.\got) |
1a0c09c4 MW |
181 | mov \got, [esp] |
182 | ret | |
8ae4c946 MW |
183 | ENDAUXFN |
184 | call _ldgot.\got | |
185 | add \got, offset _GLOBAL_OFFSET_TABLE_ | |
1a0c09c4 | 186 | #endif |
8a1aa284 | 187 | .endm |
1a0c09c4 MW |
188 | |
189 | // Load address of external symbol ADDR into REG, maybe using GOT. | |
8a1aa284 | 190 | .macro leaext reg, addr, got=GOTREG |
1a0c09c4 | 191 | #if WANT_PIC |
0f23f75f | 192 | # if CPUFAM_X86 |
1a0c09c4 | 193 | mov \reg, [\got + \addr@GOT] |
0f23f75f MW |
194 | # endif |
195 | # if CPUFAM_AMD64 | |
196 | mov \reg, \addr@GOTPCREL[rip] | |
197 | # endif | |
1a0c09c4 | 198 | #else |
0f23f75f | 199 | # if CPUFAM_X86 |
1a0c09c4 | 200 | mov \reg, offset \addr |
0f23f75f MW |
201 | # endif |
202 | # if CPUFAM_AMD64 | |
203 | lea \reg, \addr[rip] | |
204 | # endif | |
1a0c09c4 | 205 | #endif |
8a1aa284 | 206 | .endm |
1a0c09c4 MW |
207 | |
208 | // Address expression (possibly using a base register, and a displacement) | |
209 | // referring to ADDR, which is within our module, maybe using GOT. | |
210 | #define INTADDR(...) INTADDR__0(__VA_ARGS__, GOTREG, dummy) | |
211 | #define INTADDR__0(addr, got, ...) INTADDR__1(addr, got) | |
0f23f75f MW |
212 | #if CPUFAM_AMD64 |
213 | # define INTADDR__1(addr, got) addr + rip | |
214 | #elif WANT_PIC | |
1a0c09c4 MW |
215 | # define INTADDR__1(addr, got) got + addr@GOTOFF |
216 | #else | |
217 | # define INTADDR__1(addr, got) addr | |
218 | #endif | |
219 | ||
a13b5730 MW |
220 | // Permutations for SIMD instructions. SHUF(D, C, B, A) is an immediate, |
221 | // suitable for use in `pshufd' or `shufpd', which copies element D | |
222 | // (0 <= D < 4) of the source to element 3 of the destination, element C to | |
223 | // element 2, element B to element 1, and element A to element 0. | |
224 | #define SHUF(d, c, b, a) (64*(d) + 16*(c) + 4*(b) + (a)) | |
225 | ||
43ea7558 MW |
226 | // Map register names to their individual pieces. |
227 | ||
228 | // Apply decoration decor to (internal) register name reg of type ty. | |
229 | // | |
230 | // See `R_...' for internal register names. Decorations are as follows. | |
231 | // | |
232 | // b low byte (e.g., `al', `r8b') | |
233 | // h high byte (e.g., `ah') | |
234 | // w word (e.g., `ax', `r8w') | |
235 | // d doubleword (e.g., `eax', `r8d') | |
236 | // q quadword (e.g., `rax', `r8') | |
237 | // r whole register (doubleword on x86, quadword on amd64) | |
238 | // | |
239 | // And types are as follows. | |
240 | // | |
241 | // abcd the four traditional registers `a', `b', `c', `d' | |
242 | // xp the four pointer registers `si', `di', `bp', `sp' | |
243 | // ip the instruction pointer `ip' | |
244 | // rn the AMD64 numbered registers `r8'--`r15' | |
245 | #define _DECOR(ty, decor, reg) _DECOR_##ty##_##decor(reg) | |
246 | ||
247 | // Internal macros: _DECOR_ty_decor(reg) applies decoration decor to | |
248 | // (internal) register name reg of type ty. | |
249 | ||
250 | #define _DECOR_abcd_b(reg) reg##l | |
251 | #define _DECOR_abcd_h(reg) reg##h | |
252 | #define _DECOR_abcd_w(reg) reg##x | |
253 | #define _DECOR_abcd_d(reg) e##reg##x | |
254 | #if CPUFAM_AMD64 | |
255 | # define _DECOR_abcd_q(reg) r##reg##x | |
256 | #endif | |
257 | ||
258 | #define _DECOR_xp_b(reg) reg##l | |
259 | #define _DECOR_xp_w(reg) reg | |
260 | #define _DECOR_xp_d(reg) e##reg | |
261 | #if CPUFAM_AMD64 | |
262 | # define _DECOR_xp_q(reg) r##reg | |
263 | #endif | |
264 | ||
265 | #define _DECOR_ip_w(reg) reg | |
266 | #define _DECOR_ip_d(reg) e##reg | |
267 | #if CPUFAM_AMD64 | |
268 | # define _DECOR_ip_q(reg) r##reg | |
269 | #endif | |
270 | ||
271 | #if CPUFAM_AMD64 | |
272 | # define _DECOR_rn_b(reg) reg##b | |
273 | # define _DECOR_rn_w(reg) reg##w | |
274 | # define _DECOR_rn_d(reg) reg##d | |
275 | # define _DECOR_rn_q(reg) reg | |
276 | # define _DECOR_rn_r(reg) reg | |
277 | #endif | |
278 | ||
279 | #if CPUFAM_X86 | |
280 | # define _DECOR_abcd_r(reg) e##reg##x | |
281 | # define _DECOR_xp_r(reg) e##reg | |
282 | # define _DECOR_ip_r(reg) e##reg | |
283 | #endif | |
284 | #if CPUFAM_AMD64 | |
285 | # define _DECOR_abcd_r(reg) r##reg##x | |
286 | # define _DECOR_xp_r(reg) r##reg | |
287 | # define _DECOR_ip_r(reg) r##reg | |
288 | #endif | |
289 | ||
290 | #define _DECOR_mem_b(addr) byte ptr addr | |
291 | #define _DECOR_mem_w(addr) word ptr addr | |
292 | #define _DECOR_mem_d(addr) dword ptr addr | |
293 | #if CPUFAM_AMD64 | |
294 | # define _DECOR_mem_q(addr) qword ptr addr | |
295 | #endif | |
296 | ||
297 | // R_r(decor) applies decoration decor to register r, which is an internal | |
298 | // register name. The internal register names are: `ip', `a', `b', `c', `d', | |
299 | // `si', `di', `bp', `sp', `r8'--`r15'. | |
300 | #define R_ip(decor) _DECOR(ip, decor, ip) | |
301 | #define R_a(decor) _DECOR(abcd, decor, a) | |
302 | #define R_b(decor) _DECOR(abcd, decor, b) | |
303 | #define R_c(decor) _DECOR(abcd, decor, c) | |
304 | #define R_d(decor) _DECOR(abcd, decor, d) | |
305 | #define R_si(decor) _DECOR(xp, decor, si) | |
306 | #define R_di(decor) _DECOR(xp, decor, di) | |
307 | #define R_bp(decor) _DECOR(xp, decor, bp) | |
308 | #define R_sp(decor) _DECOR(xp, decor, sp) | |
309 | #if CPUFAM_AMD64 | |
310 | # define R_r8(decor) _DECOR(rn, decor, r8) | |
311 | # define R_r9(decor) _DECOR(rn, decor, r9) | |
312 | # define R_r10(decor) _DECOR(rn, decor, r10) | |
313 | # define R_r11(decor) _DECOR(rn, decor, r11) | |
314 | # define R_r12(decor) _DECOR(rn, decor, r12) | |
315 | # define R_r13(decor) _DECOR(rn, decor, r13) | |
316 | # define R_r14(decor) _DECOR(rn, decor, r14) | |
317 | # define R_r15(decor) _DECOR(rn, decor, r15) | |
318 | #endif | |
319 | ||
320 | // Refer to an in-memory datum of the type implied by decor residing at | |
321 | // address addr (which should supply its own square-brackets). | |
322 | #define MEM(decor, addr) _DECOR(mem, decor, addr) | |
323 | ||
324 | // Applies decoration decor to assembler-level register name reg. | |
325 | #define _REGFORM(reg, decor) _GLUE(_REGFORM_, reg)(decor) | |
326 | ||
327 | // Internal macros: _REGFORM_r(decor) applies decoration decor to an | |
328 | // assembler-level register name, in place of any decoration that register | |
329 | // name has already. | |
330 | ||
331 | #define _REGFORM_ip(decor) R_ip(decor) | |
332 | #define _REGFORM_eip(decor) R_ip(decor) | |
333 | ||
334 | #define _REGFORM_a(decor) R_a(decor) | |
335 | #define _REGFORM_al(decor) R_a(decor) | |
336 | #define _REGFORM_ah(decor) R_a(decor) | |
337 | #define _REGFORM_ax(decor) R_a(decor) | |
338 | #define _REGFORM_eax(decor) R_a(decor) | |
339 | ||
340 | #define _REGFORM_b(decor) R_b(decor) | |
341 | #define _REGFORM_bl(decor) R_b(decor) | |
342 | #define _REGFORM_bh(decor) R_b(decor) | |
343 | #define _REGFORM_bx(decor) R_b(decor) | |
344 | #define _REGFORM_ebx(decor) R_b(decor) | |
345 | ||
346 | #define _REGFORM_c(decor) R_c(decor) | |
347 | #define _REGFORM_cl(decor) R_c(decor) | |
348 | #define _REGFORM_ch(decor) R_c(decor) | |
349 | #define _REGFORM_cx(decor) R_c(decor) | |
350 | #define _REGFORM_ecx(decor) R_c(decor) | |
351 | ||
352 | #define _REGFORM_d(decor) R_d(decor) | |
353 | #define _REGFORM_dl(decor) R_d(decor) | |
354 | #define _REGFORM_dh(decor) R_d(decor) | |
355 | #define _REGFORM_dx(decor) R_d(decor) | |
356 | #define _REGFORM_edx(decor) R_d(decor) | |
357 | ||
358 | #define _REGFORM_si(decor) R_si(decor) | |
359 | #define _REGFORM_sil(decor) R_si(decor) | |
360 | #define _REGFORM_esi(decor) R_si(decor) | |
361 | ||
362 | #define _REGFORM_di(decor) R_di(decor) | |
363 | #define _REGFORM_dil(decor) R_di(decor) | |
364 | #define _REGFORM_edi(decor) R_di(decor) | |
365 | ||
366 | #define _REGFORM_bp(decor) R_bp(decor) | |
367 | #define _REGFORM_bpl(decor) R_bp(decor) | |
368 | #define _REGFORM_ebp(decor) R_bp(decor) | |
369 | ||
370 | #define _REGFORM_sp(decor) R_sp(decor) | |
371 | #define _REGFORM_spl(decor) R_sp(decor) | |
372 | #define _REGFORM_esp(decor) R_sp(decor) | |
373 | ||
374 | #if CPUFAM_AMD64 | |
375 | ||
376 | # define _REGFORM_rip(decor) R_ip(decor) | |
377 | # define _REGFORM_rsp(decor) R_sp(decor) | |
378 | # define _REGFORM_rbp(decor) R_bp(decor) | |
379 | # define _REGFORM_rdi(decor) R_di(decor) | |
380 | # define _REGFORM_rsi(decor) R_si(decor) | |
381 | # define _REGFORM_rdx(decor) R_d(decor) | |
382 | # define _REGFORM_rcx(decor) R_c(decor) | |
383 | # define _REGFORM_rbx(decor) R_b(decor) | |
384 | # define _REGFORM_rax(decor) R_a(decor) | |
385 | ||
386 | # define _REGFORM_r8(decor) R_r8(decor) | |
387 | # define _REGFORM_r8b(decor) R_r8(decor) | |
388 | # define _REGFORM_r8w(decor) R_r8(decor) | |
389 | # define _REGFORM_r8d(decor) R_r8(decor) | |
390 | ||
391 | # define _REGFORM_r9(decor) R_r9(decor) | |
392 | # define _REGFORM_r9b(decor) R_r9(decor) | |
393 | # define _REGFORM_r9w(decor) R_r9(decor) | |
394 | # define _REGFORM_r9d(decor) R_r9(decor) | |
395 | ||
396 | # define _REGFORM_r10(decor) R_r10(decor) | |
397 | # define _REGFORM_r10b(decor) R_r10(decor) | |
398 | # define _REGFORM_r10w(decor) R_r10(decor) | |
399 | # define _REGFORM_r10d(decor) R_r10(decor) | |
400 | ||
401 | # define _REGFORM_r11(decor) R_r11(decor) | |
402 | # define _REGFORM_r11b(decor) R_r11(decor) | |
403 | # define _REGFORM_r11w(decor) R_r11(decor) | |
404 | # define _REGFORM_r11d(decor) R_r11(decor) | |
405 | ||
406 | # define _REGFORM_r12(decor) R_r12(decor) | |
407 | # define _REGFORM_r12b(decor) R_r12(decor) | |
408 | # define _REGFORM_r12w(decor) R_r12(decor) | |
409 | # define _REGFORM_r12d(decor) R_r12(decor) | |
410 | ||
411 | # define _REGFORM_r13(decor) R_r13(decor) | |
412 | # define _REGFORM_r13b(decor) R_r13(decor) | |
413 | # define _REGFORM_r13w(decor) R_r13(decor) | |
414 | # define _REGFORM_r13d(decor) R_r13(decor) | |
415 | ||
416 | # define _REGFORM_r14(decor) R_r14(decor) | |
417 | # define _REGFORM_r14b(decor) R_r14(decor) | |
418 | # define _REGFORM_r14w(decor) R_r14(decor) | |
419 | # define _REGFORM_r14d(decor) R_r14(decor) | |
420 | ||
421 | # define _REGFORM_r15(decor) R_r15(decor) | |
422 | # define _REGFORM_r15b(decor) R_r15(decor) | |
423 | # define _REGFORM_r15w(decor) R_r15(decor) | |
424 | # define _REGFORM_r15d(decor) R_r15(decor) | |
425 | ||
426 | #endif | |
427 | ||
428 | // Macros for converting register names. | |
429 | #define BYTE(reg) _REGFORM(reg, b) | |
430 | #define HIBYTE(reg) _REGFORM(reg, h) | |
431 | #define WORD(reg) _REGFORM(reg, w) | |
432 | #define DWORD(reg) _REGFORM(reg, d) | |
433 | #if CPUFAM_AMD64 | |
434 | # define QWORD(reg) _REGFORM(reg, q) | |
435 | #endif | |
436 | #define WHOLE(reg) _REGFORM(reg, r) | |
437 | ||
0923a413 MW |
438 | // Stack management and unwinding. |
439 | .macro setfp fp, offset = 0 | |
440 | .if \offset == 0 | |
441 | mov \fp, R_sp(r) | |
442 | #if __ELF__ | |
443 | .cfi_def_cfa_register \fp | |
444 | #endif | |
445 | #if ABI_WIN && CPUFAM_AMD64 | |
446 | .seh_setframe \fp, 0 | |
447 | #endif | |
448 | .else | |
449 | lea \fp, [R_sp(r) + \offset] | |
450 | #if __ELF__ | |
451 | .cfi_def_cfa_register \fp | |
452 | .cfi_adjust_cfa_offset -\offset | |
453 | #endif | |
454 | #if ABI_WIN && CPUFAM_AMD64 | |
455 | .seh_setframe \fp, \offset | |
456 | #endif | |
457 | .endif | |
458 | .L$_frameptr_p = -1 | |
459 | .macro dropfp; _dropfp \fp, \offset; .endm | |
460 | .endm | |
461 | ||
462 | .macro _dropfp fp, offset = 0 | |
463 | .if \offset == 0 | |
464 | mov R_sp(r), \fp | |
465 | #if __ELF__ | |
466 | .cfi_def_cfa_register R_sp(r) | |
467 | #endif | |
468 | .else | |
469 | lea R_sp(r), [\fp - \offset] | |
470 | #if __ELF__ | |
471 | .cfi_def_cfa_register R_sp(r) | |
472 | .cfi_adjust_cfa_offset +\offset | |
473 | #endif | |
474 | .endif | |
475 | .L$_frameptr_p = 0 | |
476 | .purgem dropfp | |
477 | .endm | |
478 | ||
479 | .macro stalloc n | |
480 | sub R_sp(r), \n | |
481 | #if __ELF__ | |
482 | .cfi_adjust_cfa_offset +\n | |
483 | #endif | |
484 | #if ABI_WIN && CPUFAM_AMD64 | |
485 | .seh_stackalloc \n | |
486 | #endif | |
487 | .endm | |
488 | ||
489 | .macro stfree n | |
490 | add R_sp(r), \n | |
491 | #if __ELF__ | |
492 | .cfi_adjust_cfa_offset -\n | |
493 | #endif | |
494 | .endm | |
495 | ||
496 | .macro pushreg r | |
497 | push \r | |
498 | #if __ELF__ | |
499 | .cfi_adjust_cfa_offset +WORDSZ | |
500 | .cfi_rel_offset \r, 0 | |
501 | #endif | |
502 | #if ABI_WIN && CPUFAM_AMD64 | |
503 | .seh_pushreg \r | |
504 | #endif | |
505 | .endm | |
506 | ||
507 | .macro popreg r | |
508 | pop \r | |
509 | #if __ELF__ | |
510 | .cfi_adjust_cfa_offset -WORDSZ | |
511 | .cfi_restore \r | |
512 | #endif | |
513 | .endm | |
514 | ||
515 | .macro savexmm r, offset | |
516 | movdqa [R_sp(r) + \offset], \r | |
517 | #if ABI_WIN && CPUFAM_AMD64 | |
518 | .seh_savexmm \r, \offset | |
519 | #endif | |
520 | .endm | |
521 | ||
522 | .macro rstrxmm r, offset | |
523 | movdqa \r, [R_sp(r) + \offset] | |
524 | .endm | |
525 | ||
526 | .macro endprologue | |
527 | #if ABI_WIN && CPUFAM_AMD64 | |
528 | .seh_endprologue | |
529 | #endif | |
530 | .L$_prologue_p = -1 | |
531 | .endm | |
532 | ||
1a0c09c4 MW |
533 | #endif |
534 | ||
17de5b2e MW |
535 | #if CPUFAM_X86 |
536 | ||
537 | .macro _reg.0 | |
538 | // Stash GP registers and establish temporary stack frame. | |
539 | pushfd | |
540 | push eax | |
541 | push ecx | |
542 | push edx | |
543 | push ebp | |
544 | mov ebp, esp | |
545 | and esp, ~15 | |
546 | sub esp, 512 | |
547 | fxsave [esp] | |
548 | .endm | |
549 | ||
550 | .macro _reg.1 | |
551 | .endm | |
552 | ||
553 | .macro _reg.2 | |
554 | .endm | |
555 | ||
556 | .macro _reg.3 fmt | |
557 | // Print FMT and the other established arguments. | |
558 | lea eax, .L$_reg$msg.\@ | |
559 | push eax | |
560 | call printf | |
561 | jmp .L$_reg$cont.\@ | |
562 | .L$_reg$msg.\@: | |
563 | .ascii ";; \fmt\n\0" | |
564 | .L$_reg$cont.\@: | |
565 | mov eax, ebp | |
566 | and eax, ~15 | |
567 | sub eax, 512 | |
568 | fxrstor [eax] | |
569 | mov esp, ebp | |
570 | pop ebp | |
571 | pop edx | |
572 | pop ecx | |
573 | pop eax | |
574 | popfd | |
575 | .endm | |
576 | ||
577 | .macro msg msg | |
578 | _reg.0 | |
579 | _reg.1 | |
580 | _reg.2 | |
581 | _reg.3 "\msg" | |
582 | .endm | |
583 | ||
584 | .macro reg r, msg | |
585 | _reg.0 | |
586 | .ifeqs "\r", "esp" | |
587 | lea eax, [ebp + 20] | |
588 | push eax | |
589 | .else | |
590 | .ifeqs "\r", "ebp" | |
591 | push [ebp] | |
592 | .else | |
593 | push \r | |
594 | .endif | |
595 | .endif | |
596 | _reg.1 | |
597 | _reg.2 | |
598 | _reg.3 "\msg: \r = %08x" | |
599 | .endm | |
600 | ||
601 | .macro xmmreg r, msg | |
602 | _reg.0 | |
603 | _reg.1 | |
604 | _reg.2 | |
605 | movdqu xmm0, \r | |
606 | pshufd xmm0, xmm0, 0x1b | |
607 | sub esp, 16 | |
608 | movdqa [esp], xmm0 | |
609 | _reg.3 "\msg: \r = %08x %08x %08x %08x" | |
610 | .endm | |
611 | ||
612 | .macro mmreg r, msg | |
613 | _reg.0 | |
614 | _reg.1 | |
615 | _reg.2 | |
616 | pshufw \r, \r, 0x4e | |
617 | sub esp, 8 | |
618 | movq [esp], \r | |
619 | _reg.3 "\msg: \r = %08x %08x" | |
620 | .endm | |
621 | ||
622 | .macro freg i, msg | |
623 | _reg.0 | |
624 | _reg.1 | |
625 | _reg.2 | |
626 | finit | |
627 | fldt [esp + 32 + 16*\i] | |
628 | sub esp, 12 | |
629 | fstpt [esp] | |
630 | _reg.3 "\msg: st(\i) = %.20Lg" | |
631 | .endm | |
632 | ||
633 | .macro fxreg i, msg | |
634 | _reg.0 | |
635 | _reg.1 | |
636 | _reg.2 | |
637 | finit | |
638 | fldt [esp + 32 + 16*\i] | |
639 | sub esp, 12 | |
640 | fstpt [esp] | |
641 | _reg.3 "\msg: st(\i) = %La" | |
642 | .endm | |
643 | ||
644 | #endif | |
645 | ||
1a0c09c4 | 646 | ///-------------------------------------------------------------------------- |
61bd904b MW |
647 | /// ARM-specific hacking. |
648 | ||
59d86860 | 649 | #if CPUFAM_ARMEL |
61bd904b | 650 | |
9f6eb05d MW |
651 | // ARM/Thumb mode things. Use ARM by default. |
652 | #define ARM .arm; .L$_pcoff = 8 | |
653 | #define THUMB .thumb; .L$_pcoff = 4 | |
654 | ARM | |
655 | ||
61bd904b | 656 | // Set the function hooks. |
0923a413 MW |
657 | #define FUNC_PREHOOK(_) .balign 4; .fnstart |
658 | #define ENDFUNC_HOOK(_) .fnend; .ltorg | |
61bd904b MW |
659 | |
660 | // Call external subroutine at ADDR, possibly via PLT. | |
8a1aa284 | 661 | .macro callext addr, cond= |
61bd904b MW |
662 | #if WANT_PIC |
663 | bl\cond \addr(PLT) | |
664 | #else | |
665 | bl\cond \addr | |
666 | #endif | |
8a1aa284 | 667 | .endm |
61bd904b MW |
668 | |
669 | // Do I need to arrange a spare GOT register? | |
670 | #if WANT_PIC | |
671 | # define NEED_GOT 1 | |
672 | #endif | |
673 | #define GOTREG r9 | |
674 | ||
675 | // Maybe load GOT address into GOT. | |
8a1aa284 | 676 | .macro ldgot cond=, got=GOTREG |
61bd904b | 677 | #if WANT_PIC |
adca2a18 MW |
678 | ldr\cond \got, .L$_ldgot$\@ |
679 | .L$_ldgot_pc$\@: | |
2d03a881 | 680 | add\cond \got, pc, \got |
8a1aa284 | 681 | _LIT |
adca2a18 MW |
682 | .balign 4 |
683 | .L$_ldgot$\@: | |
9f6eb05d | 684 | .word _GLOBAL_OFFSET_TABLE_ - .L$_ldgot_pc$\@ - .L$_pcoff |
8a1aa284 | 685 | _ENDLIT |
61bd904b | 686 | #endif |
8a1aa284 | 687 | .endm |
61bd904b MW |
688 | |
689 | // Load address of external symbol ADDR into REG, maybe using GOT. | |
8a1aa284 | 690 | .macro leaext reg, addr, cond=, got=GOTREG |
61bd904b | 691 | #if WANT_PIC |
adca2a18 | 692 | ldr\cond \reg, .L$_leaext$\@ |
2d03a881 | 693 | ldr\cond \reg, [\got, \reg] |
8a1aa284 | 694 | _LIT |
adca2a18 MW |
695 | .balign 4 |
696 | .L$_leaext$\@: | |
697 | .word \addr(GOT) | |
8a1aa284 | 698 | _ENDLIT |
61bd904b | 699 | #else |
2d03a881 | 700 | ldr\cond \reg, =\addr |
61bd904b | 701 | #endif |
8a1aa284 | 702 | .endm |
61bd904b | 703 | |
0c53ac58 | 704 | // Load address of external symbol ADDR into REG directly. |
8a1aa284 | 705 | .macro leaextq reg, addr, cond= |
0c53ac58 MW |
706 | #if WANT_PIC |
707 | ldr\cond \reg, .L$_leaextq$\@ | |
708 | .L$_leaextq_pc$\@: | |
9f6eb05d | 709 | .if .L$_pcoff == 8 |
0c53ac58 | 710 | ldr\cond \reg, [pc, \reg] |
9f6eb05d MW |
711 | .else |
712 | add\cond \reg, pc | |
713 | ldr\cond \reg, [\reg] | |
714 | .endif | |
8a1aa284 | 715 | _LIT |
0c53ac58 MW |
716 | .balign 4 |
717 | .L$_leaextq$\@: | |
9f6eb05d | 718 | .word \addr(GOT_PREL) + (. - .L$_leaextq_pc$\@ - .L$_pcoff) |
8a1aa284 | 719 | _ENDLIT |
0c53ac58 MW |
720 | #else |
721 | ldr\cond \reg, =\addr | |
722 | #endif | |
8a1aa284 | 723 | .endm |
0c53ac58 | 724 | |
43ea7558 MW |
725 | // Apply decoration decor to register name reg. |
726 | #define _REGFORM(reg, decor) _GLUE(_REGFORM_, reg)(decor) | |
727 | ||
728 | // Internal macros: `_REGFORM_r(decor)' applies decoration decor to register | |
729 | // name r. | |
730 | ||
731 | #define _REGFORM_s0(decor) _DECOR(s, decor, 0) | |
732 | #define _REGFORM_s1(decor) _DECOR(s, decor, 1) | |
733 | #define _REGFORM_s2(decor) _DECOR(s, decor, 2) | |
734 | #define _REGFORM_s3(decor) _DECOR(s, decor, 3) | |
735 | #define _REGFORM_s4(decor) _DECOR(s, decor, 4) | |
736 | #define _REGFORM_s5(decor) _DECOR(s, decor, 5) | |
737 | #define _REGFORM_s6(decor) _DECOR(s, decor, 6) | |
738 | #define _REGFORM_s7(decor) _DECOR(s, decor, 7) | |
739 | #define _REGFORM_s8(decor) _DECOR(s, decor, 8) | |
740 | #define _REGFORM_s9(decor) _DECOR(s, decor, 9) | |
741 | #define _REGFORM_s10(decor) _DECOR(s, decor, 10) | |
742 | #define _REGFORM_s11(decor) _DECOR(s, decor, 11) | |
743 | #define _REGFORM_s12(decor) _DECOR(s, decor, 12) | |
744 | #define _REGFORM_s13(decor) _DECOR(s, decor, 13) | |
745 | #define _REGFORM_s14(decor) _DECOR(s, decor, 14) | |
746 | #define _REGFORM_s15(decor) _DECOR(s, decor, 15) | |
747 | #define _REGFORM_s16(decor) _DECOR(s, decor, 16) | |
748 | #define _REGFORM_s17(decor) _DECOR(s, decor, 17) | |
749 | #define _REGFORM_s18(decor) _DECOR(s, decor, 18) | |
750 | #define _REGFORM_s19(decor) _DECOR(s, decor, 19) | |
751 | #define _REGFORM_s20(decor) _DECOR(s, decor, 20) | |
752 | #define _REGFORM_s21(decor) _DECOR(s, decor, 21) | |
753 | #define _REGFORM_s22(decor) _DECOR(s, decor, 22) | |
754 | #define _REGFORM_s23(decor) _DECOR(s, decor, 23) | |
755 | #define _REGFORM_s24(decor) _DECOR(s, decor, 24) | |
756 | #define _REGFORM_s25(decor) _DECOR(s, decor, 25) | |
757 | #define _REGFORM_s26(decor) _DECOR(s, decor, 26) | |
758 | #define _REGFORM_s27(decor) _DECOR(s, decor, 27) | |
759 | #define _REGFORM_s28(decor) _DECOR(s, decor, 28) | |
760 | #define _REGFORM_s29(decor) _DECOR(s, decor, 29) | |
761 | #define _REGFORM_s30(decor) _DECOR(s, decor, 30) | |
762 | #define _REGFORM_s31(decor) _DECOR(s, decor, 31) | |
763 | ||
764 | #define _REGFORM_d0(decor) _DECOR(d, decor, 0) | |
765 | #define _REGFORM_d1(decor) _DECOR(d, decor, 1) | |
766 | #define _REGFORM_d2(decor) _DECOR(d, decor, 2) | |
767 | #define _REGFORM_d3(decor) _DECOR(d, decor, 3) | |
768 | #define _REGFORM_d4(decor) _DECOR(d, decor, 4) | |
769 | #define _REGFORM_d5(decor) _DECOR(d, decor, 5) | |
770 | #define _REGFORM_d6(decor) _DECOR(d, decor, 6) | |
771 | #define _REGFORM_d7(decor) _DECOR(d, decor, 7) | |
772 | #define _REGFORM_d8(decor) _DECOR(d, decor, 8) | |
773 | #define _REGFORM_d9(decor) _DECOR(d, decor, 9) | |
774 | #define _REGFORM_d10(decor) _DECOR(d, decor, 10) | |
775 | #define _REGFORM_d11(decor) _DECOR(d, decor, 11) | |
776 | #define _REGFORM_d12(decor) _DECOR(d, decor, 12) | |
777 | #define _REGFORM_d13(decor) _DECOR(d, decor, 13) | |
778 | #define _REGFORM_d14(decor) _DECOR(d, decor, 14) | |
779 | #define _REGFORM_d15(decor) _DECOR(d, decor, 15) | |
780 | #define _REGFORM_d16(decor) _DECOR(d, decor, 16) | |
781 | #define _REGFORM_d17(decor) _DECOR(d, decor, 17) | |
782 | #define _REGFORM_d18(decor) _DECOR(d, decor, 18) | |
783 | #define _REGFORM_d19(decor) _DECOR(d, decor, 19) | |
784 | #define _REGFORM_d20(decor) _DECOR(d, decor, 20) | |
785 | #define _REGFORM_d21(decor) _DECOR(d, decor, 21) | |
786 | #define _REGFORM_d22(decor) _DECOR(d, decor, 22) | |
787 | #define _REGFORM_d23(decor) _DECOR(d, decor, 23) | |
788 | #define _REGFORM_d24(decor) _DECOR(d, decor, 24) | |
789 | #define _REGFORM_d25(decor) _DECOR(d, decor, 25) | |
790 | #define _REGFORM_d26(decor) _DECOR(d, decor, 26) | |
791 | #define _REGFORM_d27(decor) _DECOR(d, decor, 27) | |
792 | #define _REGFORM_d28(decor) _DECOR(d, decor, 28) | |
793 | #define _REGFORM_d29(decor) _DECOR(d, decor, 29) | |
794 | #define _REGFORM_d30(decor) _DECOR(d, decor, 30) | |
795 | #define _REGFORM_d31(decor) _DECOR(d, decor, 31) | |
796 | ||
797 | #define _REGFORM_q0(decor) _DECOR(q, decor, 0) | |
798 | #define _REGFORM_q1(decor) _DECOR(q, decor, 1) | |
799 | #define _REGFORM_q2(decor) _DECOR(q, decor, 2) | |
800 | #define _REGFORM_q3(decor) _DECOR(q, decor, 3) | |
801 | #define _REGFORM_q4(decor) _DECOR(q, decor, 4) | |
802 | #define _REGFORM_q5(decor) _DECOR(q, decor, 5) | |
803 | #define _REGFORM_q6(decor) _DECOR(q, decor, 6) | |
804 | #define _REGFORM_q7(decor) _DECOR(q, decor, 7) | |
805 | #define _REGFORM_q8(decor) _DECOR(q, decor, 8) | |
806 | #define _REGFORM_q9(decor) _DECOR(q, decor, 9) | |
807 | #define _REGFORM_q10(decor) _DECOR(q, decor, 10) | |
808 | #define _REGFORM_q11(decor) _DECOR(q, decor, 11) | |
809 | #define _REGFORM_q12(decor) _DECOR(q, decor, 12) | |
810 | #define _REGFORM_q13(decor) _DECOR(q, decor, 13) | |
811 | #define _REGFORM_q14(decor) _DECOR(q, decor, 14) | |
812 | #define _REGFORM_q15(decor) _DECOR(q, decor, 15) | |
813 | ||
814 | // `_LOPART(n)' and `_HIPART(n)' return the numbers of the register halves of | |
815 | // register n, i.e., 2*n and 2*n + 1 respectively. | |
816 | #define _LOPART(n) _GLUE(_LOPART_, n) | |
817 | #define _HIPART(n) _GLUE(_HIPART_, n) | |
818 | ||
819 | // Internal macros: `_LOPART_n' and `_HIPART_n' return the numbers of the | |
820 | // register halves of register n, i.e., 2*n and 2*n + 1 respectively. | |
821 | ||
822 | #define _LOPART_0 0 | |
823 | #define _HIPART_0 1 | |
824 | #define _LOPART_1 2 | |
825 | #define _HIPART_1 3 | |
826 | #define _LOPART_2 4 | |
827 | #define _HIPART_2 5 | |
828 | #define _LOPART_3 6 | |
829 | #define _HIPART_3 7 | |
830 | #define _LOPART_4 8 | |
831 | #define _HIPART_4 9 | |
832 | #define _LOPART_5 10 | |
833 | #define _HIPART_5 11 | |
834 | #define _LOPART_6 12 | |
835 | #define _HIPART_6 13 | |
836 | #define _LOPART_7 14 | |
837 | #define _HIPART_7 15 | |
838 | #define _LOPART_8 16 | |
839 | #define _HIPART_8 17 | |
840 | #define _LOPART_9 18 | |
841 | #define _HIPART_9 19 | |
842 | #define _LOPART_10 20 | |
843 | #define _HIPART_10 21 | |
844 | #define _LOPART_11 22 | |
845 | #define _HIPART_11 23 | |
846 | #define _LOPART_12 24 | |
847 | #define _HIPART_12 25 | |
848 | #define _LOPART_13 26 | |
849 | #define _HIPART_13 27 | |
850 | #define _LOPART_14 28 | |
851 | #define _HIPART_14 29 | |
852 | #define _LOPART_15 30 | |
853 | #define _HIPART_15 31 | |
854 | ||
855 | // Return the register number of the pair containing register n, i.e., | |
856 | // floor(n/2). | |
857 | #define _PAIR(n) _GLUE(_PAIR_, n) | |
858 | ||
859 | // Internal macros: `_PAIR_n' returns the register number of the pair | |
860 | // containing register n, i.e., floor(n/2). | |
861 | #define _PAIR_0 0 | |
862 | #define _PAIR_1 0 | |
863 | #define _PAIR_2 1 | |
864 | #define _PAIR_3 1 | |
865 | #define _PAIR_4 2 | |
866 | #define _PAIR_5 2 | |
867 | #define _PAIR_6 3 | |
868 | #define _PAIR_7 3 | |
869 | #define _PAIR_8 4 | |
870 | #define _PAIR_9 4 | |
871 | #define _PAIR_10 5 | |
872 | #define _PAIR_11 5 | |
873 | #define _PAIR_12 6 | |
874 | #define _PAIR_13 6 | |
875 | #define _PAIR_14 7 | |
876 | #define _PAIR_15 7 | |
877 | #define _PAIR_16 8 | |
878 | #define _PAIR_17 8 | |
879 | #define _PAIR_18 9 | |
880 | #define _PAIR_19 9 | |
881 | #define _PAIR_20 10 | |
882 | #define _PAIR_21 10 | |
883 | #define _PAIR_22 11 | |
884 | #define _PAIR_23 11 | |
885 | #define _PAIR_24 12 | |
886 | #define _PAIR_25 12 | |
887 | #define _PAIR_26 13 | |
888 | #define _PAIR_27 13 | |
889 | #define _PAIR_28 14 | |
890 | #define _PAIR_29 14 | |
891 | #define _PAIR_30 15 | |
892 | #define _PAIR_31 15 | |
893 | ||
894 | // Apply decoration decor to register number n of type ty. Decorations are | |
895 | // as follows. | |
896 | // | |
897 | // decor types meaning | |
898 | // Q s, d the NEON qN register containing this one | |
899 | // D s the NEON dN register containing this one | |
900 | // D0 q the low 64-bit half of this one | |
901 | // D1 q the high 64-bit half of this one | |
902 | // S0 d, q the first 32-bit piece of this one | |
903 | // S1 d, q the second 32-bit piece of this one | |
904 | // S2 q the third 32-bit piece of this one | |
905 | // S3 q the fourth 32-bit piece of this one | |
906 | // Bn q the nth byte of this register, as a scalar | |
907 | // Hn q the nth halfword of this register, as a scalar | |
908 | // Wn q the nth word of this register, as a scalar | |
909 | #define _DECOR(ty, decor, n) _DECOR_##ty##_##decor(n) | |
910 | ||
911 | // Internal macros: `_DECOR_ty_decor(n)' applies decoration decor to register | |
912 | // number n of type ty. | |
913 | ||
914 | #define _DECOR_s_Q(n) GLUE(q, _PAIR(_PAIR(n))) | |
915 | #define _DECOR_s_D(n) GLUE(d, _PAIR(n)) | |
916 | ||
917 | #define _DECOR_d_Q(n) GLUE(q, _PAIR(n)) | |
918 | #define _DECOR_d_S0(n) GLUE(s, _LOPART(n)) | |
919 | #define _DECOR_d_S1(n) GLUE(s, _LOPART(n)) | |
920 | ||
921 | #define _DECOR_q_D0(n) GLUE(d, _LOPART(n)) | |
922 | #define _DECOR_q_D1(n) GLUE(d, _HIPART(n)) | |
923 | #define _DECOR_q_S0(n) GLUE(s, _LOPART(_LOPART(n))) | |
924 | #define _DECOR_q_S1(n) GLUE(s, _HIPART(_LOPART(n))) | |
925 | #define _DECOR_q_S2(n) GLUE(s, _LOPART(_HIPART(n))) | |
926 | #define _DECOR_q_S3(n) GLUE(s, _HIPART(_HIPART(n))) | |
927 | #define _DECOR_q_W0(n) GLUE(d, _LOPART(n))[0] | |
928 | #define _DECOR_q_W1(n) GLUE(d, _LOPART(n))[1] | |
929 | #define _DECOR_q_W2(n) GLUE(d, _HIPART(n))[0] | |
930 | #define _DECOR_q_W3(n) GLUE(d, _HIPART(n))[1] | |
931 | #define _DECOR_q_H0(n) GLUE(d, _LOPART(n))[0] | |
932 | #define _DECOR_q_H1(n) GLUE(d, _LOPART(n))[1] | |
933 | #define _DECOR_q_H2(n) GLUE(d, _LOPART(n))[2] | |
934 | #define _DECOR_q_H3(n) GLUE(d, _LOPART(n))[3] | |
935 | #define _DECOR_q_H4(n) GLUE(d, _HIPART(n))[0] | |
936 | #define _DECOR_q_H5(n) GLUE(d, _HIPART(n))[1] | |
937 | #define _DECOR_q_H6(n) GLUE(d, _HIPART(n))[2] | |
938 | #define _DECOR_q_H7(n) GLUE(d, _HIPART(n))[3] | |
939 | #define _DECOR_q_B0(n) GLUE(d, _LOPART(n))[0] | |
940 | #define _DECOR_q_B1(n) GLUE(d, _LOPART(n))[1] | |
941 | #define _DECOR_q_B2(n) GLUE(d, _LOPART(n))[2] | |
942 | #define _DECOR_q_B3(n) GLUE(d, _LOPART(n))[3] | |
943 | #define _DECOR_q_B4(n) GLUE(d, _LOPART(n))[4] | |
944 | #define _DECOR_q_B5(n) GLUE(d, _LOPART(n))[5] | |
945 | #define _DECOR_q_B6(n) GLUE(d, _LOPART(n))[6] | |
946 | #define _DECOR_q_B7(n) GLUE(d, _LOPART(n))[7] | |
947 | #define _DECOR_q_B8(n) GLUE(d, _HIPART(n))[0] | |
948 | #define _DECOR_q_B9(n) GLUE(d, _HIPART(n))[1] | |
949 | #define _DECOR_q_B10(n) GLUE(d, _HIPART(n))[2] | |
950 | #define _DECOR_q_B11(n) GLUE(d, _HIPART(n))[3] | |
951 | #define _DECOR_q_B12(n) GLUE(d, _HIPART(n))[4] | |
952 | #define _DECOR_q_B13(n) GLUE(d, _HIPART(n))[5] | |
953 | #define _DECOR_q_B14(n) GLUE(d, _HIPART(n))[6] | |
954 | #define _DECOR_q_B15(n) GLUE(d, _HIPART(n))[7] | |
955 | ||
956 | // Macros for navigating the NEON register hierarchy. | |
957 | #define S0(reg) _REGFORM(reg, S0) | |
958 | #define S1(reg) _REGFORM(reg, S1) | |
959 | #define S2(reg) _REGFORM(reg, S2) | |
960 | #define S3(reg) _REGFORM(reg, S3) | |
961 | #define D(reg) _REGFORM(reg, D) | |
962 | #define D0(reg) _REGFORM(reg, D0) | |
963 | #define D1(reg) _REGFORM(reg, D1) | |
964 | #define Q(reg) _REGFORM(reg, Q) | |
965 | ||
966 | // Macros for indexing quadword registers. | |
967 | #define QB(reg, i) _REGFORM(reg, B##i) | |
968 | #define QH(reg, i) _REGFORM(reg, H##i) | |
969 | #define QW(reg, i) _REGFORM(reg, W##i) | |
970 | ||
971 | // Macros for converting vldm/vstm ranges. | |
972 | #define QQ(qlo, qhi) D0(qlo)-D1(qhi) | |
973 | ||
0923a413 MW |
974 | // Stack management and unwinding. |
975 | .macro setfp fp, offset = 0 | |
976 | .if \offset == 0 | |
977 | mov \fp, sp | |
978 | .setfp \fp, sp | |
979 | .else | |
980 | add \fp, sp, #\offset | |
981 | .setfp \fp, sp, #\offset | |
982 | .endif | |
983 | .macro dropfp; _dropfp \fp, \offset; .endm | |
984 | .L$_frameptr_p = -1 | |
985 | .endm | |
986 | ||
987 | .macro _dropfp fp, offset = 0 | |
988 | .if \offset == 0 | |
989 | mov sp, \fp | |
990 | .else | |
991 | sub sp, \fp, #\offset | |
992 | .endif | |
993 | .purgem dropfp | |
994 | .L$_frameptr_p = 0 | |
995 | .endm | |
996 | ||
997 | .macro stalloc n | |
998 | sub sp, sp, #\n | |
999 | .pad #\n | |
1000 | .endm | |
1001 | ||
1002 | .macro stfree n | |
1003 | add sp, sp, #\n | |
1004 | .pad #-\n | |
1005 | .endm | |
1006 | ||
1007 | .macro pushreg rr:vararg | |
1008 | stmfd sp!, {\rr} | |
1009 | .save {\rr} | |
1010 | .endm | |
1011 | ||
1012 | .macro popreg rr:vararg | |
1013 | ldmfd sp!, {\rr} | |
1014 | .endm | |
1015 | ||
1016 | .macro pushvfp rr:vararg | |
1017 | vstmdb sp!, {\rr} | |
1018 | .vsave {\rr} | |
1019 | .endm | |
1020 | ||
1021 | .macro popvfp rr:vararg | |
1022 | vldmia sp!, {\rr} | |
1023 | .endm | |
1024 | ||
1025 | .macro endprologue | |
1026 | .endm | |
1027 | ||
1028 | // No need for prologue markers on ARM. | |
1029 | #define FUNC_POSTHOOK(_) .L$_prologue_p = -1 | |
1030 | ||
61bd904b MW |
1031 | #endif |
1032 | ||
1033 | ///-------------------------------------------------------------------------- | |
1a0c09c4 MW |
1034 | /// Final stuff. |
1035 | ||
1036 | // Default values for the various hooks. | |
1037 | #ifndef FUNC_PREHOOK | |
1e5664a6 | 1038 | # define FUNC_PREHOOK(_) |
1a0c09c4 MW |
1039 | #endif |
1040 | #ifndef FUNC_POSTHOOK | |
1e5664a6 | 1041 | # define FUNC_POSTHOOK(_) |
1a0c09c4 MW |
1042 | #endif |
1043 | #ifndef ENDFUNC_HOOK | |
1e5664a6 | 1044 | # define ENDFUNC_HOOK(_) |
1a0c09c4 MW |
1045 | #endif |
1046 | ||
1047 | #ifndef F | |
1048 | # define F(name) name | |
1049 | #endif | |
1050 | ||
1051 | #ifndef TYPE_FUNC | |
1052 | # define TYPE_FUNC(name) | |
1053 | #endif | |
1054 | ||
1055 | #ifndef SIZE_OBJ | |
1056 | # define SIZE_OBJ(name) | |
1057 | #endif | |
1058 | ||
91c8af7d | 1059 | #if __ELF__ && !defined(WANT_EXECUTABLE_STACK) |
1aa5bfa8 MW |
1060 | .pushsection .note.GNU-stack, "", _SECTTY(progbits) |
1061 | .popsection | |
1062 | #endif | |
1063 | ||
1a0c09c4 | 1064 | ///----- That's all, folks -------------------------------------------------- |