blob: de1158396daa70f59fc29c9a874f74ea911397d7 [file] [log] [blame]
Achin Gupta4f6ad662013-10-25 09:08:21 +01001/*
Varun Wadekar17425d32019-01-10 15:46:34 -08002 * Copyright (c) 2013-2019, ARM Limited and Contributors. All rights reserved.
Achin Gupta4f6ad662013-10-25 09:08:21 +01003 *
dp-armfa3cf0b2017-05-03 09:38:09 +01004 * SPDX-License-Identifier: BSD-3-Clause
Achin Gupta4f6ad662013-10-25 09:08:21 +01005 */
6
Dan Handley2bd4ef22014-04-09 13:14:54 +01007#include <arch.h>
Andrew Thoelke38bde412014-03-18 13:46:55 +00008#include <asm_macros.S>
Soby Mathew041f62a2014-07-14 16:58:03 +01009#include <assert_macros.S>
Varun Wadekar17425d32019-01-10 15:46:34 -080010#include <common/bl_common.h>
Antonio Nino Diaze0f90632018-12-14 00:18:21 +000011#include <lib/xlat_tables/xlat_tables_defs.h>
Achin Gupta4a826dd2013-11-25 14:00:56 +000012
Antonio Nino Diaz13344de2018-11-23 13:54:41 +000013#if !ERROR_DEPRECATED
Achin Gupta4f6ad662013-10-25 09:08:21 +010014 .globl get_afflvl_shift
15 .globl mpidr_mask_lower_afflvls
Achin Gupta4f6ad662013-10-25 09:08:21 +010016 .globl eret
Antonio Nino Diaz13344de2018-11-23 13:54:41 +000017#endif /* ERROR_DEPRECATED */
Achin Gupta4f6ad662013-10-25 09:08:21 +010018 .globl smc
19
Douglas Raillard21362a92016-12-02 13:51:54 +000020 .globl zero_normalmem
21 .globl zeromem
Sandrine Bailleux65f546a2013-11-28 09:43:06 +000022 .globl memcpy16
Achin Gupta4f6ad662013-10-25 09:08:21 +010023
Antonio Nino Diaz4613d5f2017-10-05 15:19:42 +010024 .globl disable_mmu_el1
Andrew Thoelke438c63a2014-04-28 12:06:18 +010025 .globl disable_mmu_el3
Antonio Nino Diaz4613d5f2017-10-05 15:19:42 +010026 .globl disable_mmu_icache_el1
Andrew Thoelke438c63a2014-04-28 12:06:18 +010027 .globl disable_mmu_icache_el3
Soby Mathew4e28c202018-10-14 08:09:22 +010028 .globl fixup_gdt_reloc
Andrew Thoelke3f78dc32014-06-02 15:44:43 +010029#if SUPPORT_VFP
30 .globl enable_vfp
31#endif
32
Antonio Nino Diaz13344de2018-11-23 13:54:41 +000033#if !ERROR_DEPRECATED
Andrew Thoelke38bde412014-03-18 13:46:55 +000034func get_afflvl_shift
Achin Gupta4f6ad662013-10-25 09:08:21 +010035 cmp x0, #3
36 cinc x0, x0, eq
37 mov x1, #MPIDR_AFFLVL_SHIFT
38 lsl x0, x0, x1
39 ret
Kévin Petita877c252015-03-24 14:03:57 +000040endfunc get_afflvl_shift
Achin Gupta4f6ad662013-10-25 09:08:21 +010041
Andrew Thoelke38bde412014-03-18 13:46:55 +000042func mpidr_mask_lower_afflvls
Achin Gupta4f6ad662013-10-25 09:08:21 +010043 cmp x1, #3
44 cinc x1, x1, eq
45 mov x2, #MPIDR_AFFLVL_SHIFT
46 lsl x2, x1, x2
47 lsr x0, x0, x2
48 lsl x0, x0, x2
49 ret
Kévin Petita877c252015-03-24 14:03:57 +000050endfunc mpidr_mask_lower_afflvls
Achin Gupta4f6ad662013-10-25 09:08:21 +010051
Achin Gupta4f6ad662013-10-25 09:08:21 +010052
Andrew Thoelke38bde412014-03-18 13:46:55 +000053func eret
Achin Gupta4f6ad662013-10-25 09:08:21 +010054 eret
Kévin Petita877c252015-03-24 14:03:57 +000055endfunc eret
Antonio Nino Diaz13344de2018-11-23 13:54:41 +000056#endif /* ERROR_DEPRECATED */
Achin Gupta4f6ad662013-10-25 09:08:21 +010057
Andrew Thoelke38bde412014-03-18 13:46:55 +000058func smc
Achin Gupta4f6ad662013-10-25 09:08:21 +010059 smc #0
Kévin Petita877c252015-03-24 14:03:57 +000060endfunc smc
Sandrine Bailleux65f546a2013-11-28 09:43:06 +000061
62/* -----------------------------------------------------------------------
Douglas Raillard21362a92016-12-02 13:51:54 +000063 * void zero_normalmem(void *mem, unsigned int length);
64 *
65 * Initialise a region in normal memory to 0. This functions complies with the
66 * AAPCS and can be called from C code.
67 *
68 * NOTE: MMU must be enabled when using this function as it can only operate on
69 * normal memory. It is intended to be mainly used from C code when MMU
70 * is usually enabled.
71 * -----------------------------------------------------------------------
72 */
73.equ zero_normalmem, zeromem_dczva
74
75/* -----------------------------------------------------------------------
76 * void zeromem(void *mem, unsigned int length);
77 *
78 * Initialise a region of device memory to 0. This functions complies with the
79 * AAPCS and can be called from C code.
80 *
81 * NOTE: When data caches and MMU are enabled, zero_normalmem can usually be
82 * used instead for faster zeroing.
83 *
84 * -----------------------------------------------------------------------
85 */
86func zeromem
87 /* x2 is the address past the last zeroed address */
88 add x2, x0, x1
89 /*
90 * Uses the fallback path that does not use DC ZVA instruction and
91 * therefore does not need enabled MMU
92 */
93 b .Lzeromem_dczva_fallback_entry
94endfunc zeromem
95
96/* -----------------------------------------------------------------------
97 * void zeromem_dczva(void *mem, unsigned int length);
98 *
99 * Fill a region of normal memory of size "length" in bytes with null bytes.
100 * MMU must be enabled and the memory be of
101 * normal type. This is because this function internally uses the DC ZVA
102 * instruction, which generates an Alignment fault if used on any type of
103 * Device memory (see section D3.4.9 of the ARMv8 ARM, issue k). When the MMU
104 * is disabled, all memory behaves like Device-nGnRnE memory (see section
105 * D4.2.8), hence the requirement on the MMU being enabled.
106 * NOTE: The code assumes that the block size as defined in DCZID_EL0
107 * register is at least 16 bytes.
108 *
109 * -----------------------------------------------------------------------
110 */
111func zeromem_dczva
112
113 /*
114 * The function consists of a series of loops that zero memory one byte
115 * at a time, 16 bytes at a time or using the DC ZVA instruction to
116 * zero aligned block of bytes, which is assumed to be more than 16.
117 * In the case where the DC ZVA instruction cannot be used or if the
118 * first 16 bytes loop would overflow, there is fallback path that does
119 * not use DC ZVA.
120 * Note: The fallback path is also used by the zeromem function that
121 * branches to it directly.
122 *
123 * +---------+ zeromem_dczva
124 * | entry |
125 * +----+----+
126 * |
127 * v
128 * +---------+
129 * | checks |>o-------+ (If any check fails, fallback)
130 * +----+----+ |
131 * | |---------------+
132 * v | Fallback path |
133 * +------+------+ |---------------+
134 * | 1 byte loop | |
135 * +------+------+ .Lzeromem_dczva_initial_1byte_aligned_end
136 * | |
137 * v |
138 * +-------+-------+ |
139 * | 16 bytes loop | |
140 * +-------+-------+ |
141 * | |
142 * v |
143 * +------+------+ .Lzeromem_dczva_blocksize_aligned
144 * | DC ZVA loop | |
145 * +------+------+ |
146 * +--------+ | |
147 * | | | |
148 * | v v |
149 * | +-------+-------+ .Lzeromem_dczva_final_16bytes_aligned
150 * | | 16 bytes loop | |
151 * | +-------+-------+ |
152 * | | |
153 * | v |
154 * | +------+------+ .Lzeromem_dczva_final_1byte_aligned
155 * | | 1 byte loop | |
156 * | +-------------+ |
157 * | | |
158 * | v |
159 * | +---+--+ |
160 * | | exit | |
161 * | +------+ |
162 * | |
163 * | +--------------+ +------------------+ zeromem
164 * | | +----------------| zeromem function |
165 * | | | +------------------+
166 * | v v
167 * | +-------------+ .Lzeromem_dczva_fallback_entry
168 * | | 1 byte loop |
169 * | +------+------+
170 * | |
171 * +-----------+
172 */
173
174 /*
175 * Readable names for registers
176 *
177 * Registers x0, x1 and x2 are also set by zeromem which
178 * branches into the fallback path directly, so cursor, length and
179 * stop_address should not be retargeted to other registers.
180 */
181 cursor .req x0 /* Start address and then current address */
182 length .req x1 /* Length in bytes of the region to zero out */
183 /* Reusing x1 as length is never used after block_mask is set */
184 block_mask .req x1 /* Bitmask of the block size read in DCZID_EL0 */
185 stop_address .req x2 /* Address past the last zeroed byte */
186 block_size .req x3 /* Size of a block in bytes as read in DCZID_EL0 */
187 tmp1 .req x4
188 tmp2 .req x5
189
Antonio Nino Diaz7c65c1e2017-04-20 09:58:28 +0100190#if ENABLE_ASSERTIONS
Douglas Raillard21362a92016-12-02 13:51:54 +0000191 /*
192 * Check for M bit (MMU enabled) of the current SCTLR_EL(1|3)
193 * register value and panic if the MMU is disabled.
194 */
Masahiro Yamadaffe92542018-02-01 13:17:29 +0900195#if defined(IMAGE_BL1) || defined(IMAGE_BL31) || (defined(IMAGE_BL2) && BL2_AT_EL3)
Douglas Raillard21362a92016-12-02 13:51:54 +0000196 mrs tmp1, sctlr_el3
197#else
198 mrs tmp1, sctlr_el1
Soby Mathew041f62a2014-07-14 16:58:03 +0100199#endif
Douglas Raillard21362a92016-12-02 13:51:54 +0000200
201 tst tmp1, #SCTLR_M_BIT
202 ASM_ASSERT(ne)
Antonio Nino Diaz7c65c1e2017-04-20 09:58:28 +0100203#endif /* ENABLE_ASSERTIONS */
Douglas Raillard21362a92016-12-02 13:51:54 +0000204
205 /* stop_address is the address past the last to zero */
206 add stop_address, cursor, length
207
208 /*
209 * Get block_size = (log2(<block size>) >> 2) (see encoding of
210 * dczid_el0 reg)
211 */
212 mrs block_size, dczid_el0
213
214 /*
215 * Select the 4 lowest bits and convert the extracted log2(<block size
216 * in words>) to <block size in bytes>
217 */
218 ubfx block_size, block_size, #0, #4
219 mov tmp2, #(1 << 2)
220 lsl block_size, tmp2, block_size
221
Antonio Nino Diaz7c65c1e2017-04-20 09:58:28 +0100222#if ENABLE_ASSERTIONS
Douglas Raillard21362a92016-12-02 13:51:54 +0000223 /*
224 * Assumes block size is at least 16 bytes to avoid manual realignment
225 * of the cursor at the end of the DCZVA loop.
226 */
227 cmp block_size, #16
228 ASM_ASSERT(hs)
229#endif
230 /*
231 * Not worth doing all the setup for a region less than a block and
232 * protects against zeroing a whole block when the area to zero is
233 * smaller than that. Also, as it is assumed that the block size is at
234 * least 16 bytes, this also protects the initial aligning loops from
235 * trying to zero 16 bytes when length is less than 16.
236 */
237 cmp length, block_size
238 b.lo .Lzeromem_dczva_fallback_entry
239
240 /*
241 * Calculate the bitmask of the block alignment. It will never
242 * underflow as the block size is between 4 bytes and 2kB.
243 * block_mask = block_size - 1
244 */
245 sub block_mask, block_size, #1
246
247 /*
248 * length alias should not be used after this point unless it is
249 * defined as a register other than block_mask's.
250 */
251 .unreq length
252
253 /*
254 * If the start address is already aligned to zero block size, go
255 * straight to the cache zeroing loop. This is safe because at this
256 * point, the length cannot be smaller than a block size.
257 */
258 tst cursor, block_mask
259 b.eq .Lzeromem_dczva_blocksize_aligned
260
261 /*
262 * Calculate the first block-size-aligned address. It is assumed that
263 * the zero block size is at least 16 bytes. This address is the last
264 * address of this initial loop.
265 */
266 orr tmp1, cursor, block_mask
267 add tmp1, tmp1, #1
268
269 /*
270 * If the addition overflows, skip the cache zeroing loops. This is
271 * quite unlikely however.
272 */
273 cbz tmp1, .Lzeromem_dczva_fallback_entry
274
275 /*
276 * If the first block-size-aligned address is past the last address,
277 * fallback to the simpler code.
278 */
279 cmp tmp1, stop_address
280 b.hi .Lzeromem_dczva_fallback_entry
281
282 /*
283 * If the start address is already aligned to 16 bytes, skip this loop.
284 * It is safe to do this because tmp1 (the stop address of the initial
285 * 16 bytes loop) will never be greater than the final stop address.
286 */
287 tst cursor, #0xf
288 b.eq .Lzeromem_dczva_initial_1byte_aligned_end
289
290 /* Calculate the next address aligned to 16 bytes */
291 orr tmp2, cursor, #0xf
292 add tmp2, tmp2, #1
293 /* If it overflows, fallback to the simple path (unlikely) */
294 cbz tmp2, .Lzeromem_dczva_fallback_entry
295 /*
296 * Next aligned address cannot be after the stop address because the
297 * length cannot be smaller than 16 at this point.
298 */
299
300 /* First loop: zero byte per byte */
3011:
302 strb wzr, [cursor], #1
303 cmp cursor, tmp2
304 b.ne 1b
305.Lzeromem_dczva_initial_1byte_aligned_end:
306
307 /*
308 * Second loop: we need to zero 16 bytes at a time from cursor to tmp1
309 * before being able to use the code that deals with block-size-aligned
310 * addresses.
311 */
312 cmp cursor, tmp1
313 b.hs 2f
3141:
315 stp xzr, xzr, [cursor], #16
316 cmp cursor, tmp1
317 b.lo 1b
3182:
319
320 /*
321 * Third loop: zero a block at a time using DC ZVA cache block zeroing
322 * instruction.
323 */
324.Lzeromem_dczva_blocksize_aligned:
325 /*
326 * Calculate the last block-size-aligned address. If the result equals
327 * to the start address, the loop will exit immediately.
328 */
329 bic tmp1, stop_address, block_mask
330
331 cmp cursor, tmp1
332 b.hs 2f
3331:
334 /* Zero the block containing the cursor */
335 dc zva, cursor
336 /* Increment the cursor by the size of a block */
337 add cursor, cursor, block_size
338 cmp cursor, tmp1
339 b.lo 1b
3402:
341
342 /*
343 * Fourth loop: zero 16 bytes at a time and then byte per byte the
344 * remaining area
345 */
346.Lzeromem_dczva_final_16bytes_aligned:
347 /*
348 * Calculate the last 16 bytes aligned address. It is assumed that the
349 * block size will never be smaller than 16 bytes so that the current
350 * cursor is aligned to at least 16 bytes boundary.
351 */
352 bic tmp1, stop_address, #15
353
354 cmp cursor, tmp1
355 b.hs 2f
3561:
357 stp xzr, xzr, [cursor], #16
358 cmp cursor, tmp1
359 b.lo 1b
3602:
361
362 /* Fifth and final loop: zero byte per byte */
363.Lzeromem_dczva_final_1byte_aligned:
364 cmp cursor, stop_address
365 b.eq 2f
3661:
367 strb wzr, [cursor], #1
368 cmp cursor, stop_address
369 b.ne 1b
3702:
Kévin Petita877c252015-03-24 14:03:57 +0000371 ret
Douglas Raillard21362a92016-12-02 13:51:54 +0000372
373 /* Fallback for unaligned start addresses */
374.Lzeromem_dczva_fallback_entry:
375 /*
376 * If the start address is already aligned to 16 bytes, skip this loop.
377 */
378 tst cursor, #0xf
379 b.eq .Lzeromem_dczva_final_16bytes_aligned
380
381 /* Calculate the next address aligned to 16 bytes */
382 orr tmp1, cursor, #15
383 add tmp1, tmp1, #1
384 /* If it overflows, fallback to byte per byte zeroing */
385 cbz tmp1, .Lzeromem_dczva_final_1byte_aligned
386 /* If the next aligned address is after the stop address, fall back */
387 cmp tmp1, stop_address
388 b.hs .Lzeromem_dczva_final_1byte_aligned
389
390 /* Fallback entry loop: zero byte per byte */
3911:
392 strb wzr, [cursor], #1
393 cmp cursor, tmp1
394 b.ne 1b
395
396 b .Lzeromem_dczva_final_16bytes_aligned
Sandrine Bailleux65f546a2013-11-28 09:43:06 +0000397
Douglas Raillard21362a92016-12-02 13:51:54 +0000398 .unreq cursor
399 /*
400 * length is already unreq'ed to reuse the register for another
401 * variable.
402 */
403 .unreq stop_address
404 .unreq block_size
405 .unreq block_mask
406 .unreq tmp1
407 .unreq tmp2
408endfunc zeromem_dczva
Sandrine Bailleux65f546a2013-11-28 09:43:06 +0000409
410/* --------------------------------------------------------------------------
411 * void memcpy16(void *dest, const void *src, unsigned int length)
412 *
413 * Copy length bytes from memory area src to memory area dest.
414 * The memory areas should not overlap.
415 * Destination and source addresses must be 16-byte aligned.
416 * --------------------------------------------------------------------------
417 */
Andrew Thoelke38bde412014-03-18 13:46:55 +0000418func memcpy16
Antonio Nino Diaz7c65c1e2017-04-20 09:58:28 +0100419#if ENABLE_ASSERTIONS
Soby Mathew041f62a2014-07-14 16:58:03 +0100420 orr x3, x0, x1
421 tst x3, #0xf
422 ASM_ASSERT(eq)
423#endif
Sandrine Bailleux65f546a2013-11-28 09:43:06 +0000424/* copy 16 bytes at a time */
425m_loop16:
426 cmp x2, #16
Douglas Raillard861be8e2016-12-02 13:56:06 +0000427 b.lo m_loop1
Sandrine Bailleux65f546a2013-11-28 09:43:06 +0000428 ldp x3, x4, [x1], #16
429 stp x3, x4, [x0], #16
430 sub x2, x2, #16
431 b m_loop16
432/* copy byte per byte */
433m_loop1:
434 cbz x2, m_end
435 ldrb w3, [x1], #1
436 strb w3, [x0], #1
437 subs x2, x2, #1
438 b.ne m_loop1
Kévin Petita877c252015-03-24 14:03:57 +0000439m_end:
440 ret
441endfunc memcpy16
Andrew Thoelke438c63a2014-04-28 12:06:18 +0100442
443/* ---------------------------------------------------------------------------
444 * Disable the MMU at EL3
Andrew Thoelke438c63a2014-04-28 12:06:18 +0100445 * ---------------------------------------------------------------------------
446 */
447
448func disable_mmu_el3
449 mov x1, #(SCTLR_M_BIT | SCTLR_C_BIT)
Antonio Nino Diaz4613d5f2017-10-05 15:19:42 +0100450do_disable_mmu_el3:
Andrew Thoelke438c63a2014-04-28 12:06:18 +0100451 mrs x0, sctlr_el3
452 bic x0, x0, x1
453 msr sctlr_el3, x0
Antonio Nino Diaz4613d5f2017-10-05 15:19:42 +0100454 isb /* ensure MMU is off */
Achin Guptae9c4a642015-09-11 16:03:13 +0100455 dsb sy
456 ret
Kévin Petita877c252015-03-24 14:03:57 +0000457endfunc disable_mmu_el3
Andrew Thoelke438c63a2014-04-28 12:06:18 +0100458
459
460func disable_mmu_icache_el3
461 mov x1, #(SCTLR_M_BIT | SCTLR_C_BIT | SCTLR_I_BIT)
Antonio Nino Diaz4613d5f2017-10-05 15:19:42 +0100462 b do_disable_mmu_el3
Kévin Petita877c252015-03-24 14:03:57 +0000463endfunc disable_mmu_icache_el3
Andrew Thoelke438c63a2014-04-28 12:06:18 +0100464
Andrew Thoelke3f78dc32014-06-02 15:44:43 +0100465/* ---------------------------------------------------------------------------
Antonio Nino Diaz4613d5f2017-10-05 15:19:42 +0100466 * Disable the MMU at EL1
467 * ---------------------------------------------------------------------------
468 */
469
470func disable_mmu_el1
471 mov x1, #(SCTLR_M_BIT | SCTLR_C_BIT)
472do_disable_mmu_el1:
473 mrs x0, sctlr_el1
474 bic x0, x0, x1
475 msr sctlr_el1, x0
476 isb /* ensure MMU is off */
477 dsb sy
478 ret
479endfunc disable_mmu_el1
480
481
482func disable_mmu_icache_el1
483 mov x1, #(SCTLR_M_BIT | SCTLR_C_BIT | SCTLR_I_BIT)
484 b do_disable_mmu_el1
485endfunc disable_mmu_icache_el1
486
487/* ---------------------------------------------------------------------------
Andrew Thoelke3f78dc32014-06-02 15:44:43 +0100488 * Enable the use of VFP at EL3
489 * ---------------------------------------------------------------------------
490 */
491#if SUPPORT_VFP
492func enable_vfp
493 mrs x0, cpacr_el1
494 orr x0, x0, #CPACR_VFP_BITS
495 msr cpacr_el1, x0
496 mrs x0, cptr_el3
497 mov x1, #AARCH64_CPTR_TFP
498 bic x0, x0, x1
499 msr cptr_el3, x0
500 isb
501 ret
Kévin Petita877c252015-03-24 14:03:57 +0000502endfunc enable_vfp
Andrew Thoelke3f78dc32014-06-02 15:44:43 +0100503#endif
Soby Mathew4e28c202018-10-14 08:09:22 +0100504
505/* ---------------------------------------------------------------------------
506 * Helper to fixup Global Descriptor table (GDT) and dynamic relocations
507 * (.rela.dyn) at runtime.
508 *
509 * This function is meant to be used when the firmware is compiled with -fpie
510 * and linked with -pie options. We rely on the linker script exporting
511 * appropriate markers for start and end of the section. For GOT, we
512 * expect __GOT_START__ and __GOT_END__. Similarly for .rela.dyn, we expect
513 * __RELA_START__ and __RELA_END__.
514 *
515 * The function takes the limits of the memory to apply fixups to as
516 * arguments (which is usually the limits of the relocable BL image).
517 * x0 - the start of the fixup region
518 * x1 - the limit of the fixup region
519 * These addresses have to be page (4KB aligned).
520 * ---------------------------------------------------------------------------
521 */
522func fixup_gdt_reloc
523 mov x6, x0
524 mov x7, x1
525
526 /* Test if the limits are 4K aligned */
527#if ENABLE_ASSERTIONS
528 orr x0, x0, x1
529 tst x0, #(PAGE_SIZE - 1)
530 ASM_ASSERT(eq)
531#endif
532 /*
533 * Calculate the offset based on return address in x30.
534 * Assume that this funtion is called within a page of the start of
535 * of fixup region.
536 */
537 and x2, x30, #~(PAGE_SIZE - 1)
538 sub x0, x2, x6 /* Diff(S) = Current Address - Compiled Address */
539
540 adrp x1, __GOT_START__
541 add x1, x1, :lo12:__GOT_START__
542 adrp x2, __GOT_END__
543 add x2, x2, :lo12:__GOT_END__
544
545 /*
546 * GOT is an array of 64_bit addresses which must be fixed up as
547 * new_addr = old_addr + Diff(S).
548 * The new_addr is the address currently the binary is executing from
549 * and old_addr is the address at compile time.
550 */
5511:
552 ldr x3, [x1]
553 /* Skip adding offset if address is < lower limit */
554 cmp x3, x6
555 b.lo 2f
556 /* Skip adding offset if address is >= upper limit */
557 cmp x3, x7
558 b.ge 2f
559 add x3, x3, x0
560 str x3, [x1]
5612:
562 add x1, x1, #8
563 cmp x1, x2
564 b.lo 1b
565
566 /* Starting dynamic relocations. Use adrp/adr to get RELA_START and END */
567 adrp x1, __RELA_START__
568 add x1, x1, :lo12:__RELA_START__
569 adrp x2, __RELA_END__
570 add x2, x2, :lo12:__RELA_END__
571 /*
572 * According to ELF-64 specification, the RELA data structure is as
573 * follows:
574 * typedef struct
575 * {
576 * Elf64_Addr r_offset;
577 * Elf64_Xword r_info;
578 * Elf64_Sxword r_addend;
579 * } Elf64_Rela;
580 *
581 * r_offset is address of reference
582 * r_info is symbol index and type of relocation (in this case
583 * 0x403 which corresponds to R_AARCH64_RELATIV).
584 * r_addend is constant part of expression.
585 *
586 * Size of Elf64_Rela structure is 24 bytes.
587 */
5881:
589 /* Assert that the relocation type is R_AARCH64_RELATIV */
590#if ENABLE_ASSERTIONS
591 ldr x3, [x1, #8]
592 cmp x3, #0x403
593 ASM_ASSERT(eq)
594#endif
595 ldr x3, [x1] /* r_offset */
596 add x3, x0, x3
597 ldr x4, [x1, #16] /* r_addend */
598
599 /* Skip adding offset if r_addend is < lower limit */
600 cmp x4, x6
601 b.lo 2f
602 /* Skip adding offset if r_addend entry is >= upper limit */
603 cmp x4, x7
604 b.ge 2f
605
606 add x4, x0, x4 /* Diff(S) + r_addend */
607 str x4, [x3]
608
6092: add x1, x1, #24
610 cmp x1, x2
611 b.lo 1b
612
613 ret
614endfunc fixup_gdt_reloc