Home | History | Annotate | Line # | Download | only in powerpc
rtld_start.S revision 1.14.2.1 
      1  1.14.2.1   bouyer /*	$NetBSD: rtld_start.S,v 1.14.2.1 2011/02/17 11:59:24 bouyer Exp $	*/
      2       1.1   tsubai 
      3       1.1   tsubai /*-
      4       1.1   tsubai  * Copyright (C) 1998	Tsubai Masanari
      5      1.11  mycroft  * Portions copyright 2002 Charles M. Hannum <root (at) ihack.net>
      6       1.1   tsubai  * All rights reserved.
      7       1.1   tsubai  *
      8       1.1   tsubai  * Redistribution and use in source and binary forms, with or without
      9       1.1   tsubai  * modification, are permitted provided that the following conditions
     10       1.1   tsubai  * are met:
     11       1.1   tsubai  * 1. Redistributions of source code must retain the above copyright
     12       1.1   tsubai  *    notice, this list of conditions and the following disclaimer.
     13       1.1   tsubai  * 2. Redistributions in binary form must reproduce the above copyright
     14       1.1   tsubai  *    notice, this list of conditions and the following disclaimer in the
     15       1.1   tsubai  *    documentation and/or other materials provided with the distribution.
     16       1.1   tsubai  * 3. The name of the author may not be used to endorse or promote products
     17       1.1   tsubai  *    derived from this software without specific prior written permission.
     18       1.1   tsubai  *
     19       1.1   tsubai  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     20       1.1   tsubai  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     21       1.1   tsubai  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     22       1.1   tsubai  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     23       1.1   tsubai  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     24       1.1   tsubai  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     25       1.1   tsubai  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     26       1.1   tsubai  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     27       1.1   tsubai  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
     28       1.1   tsubai  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     29       1.1   tsubai  */
     30       1.1   tsubai 
     31       1.1   tsubai #include <machine/asm.h>
     32       1.1   tsubai 
     33       1.1   tsubai 	.globl	_rtld_start
     34       1.1   tsubai 	.globl	_rtld
     35       1.1   tsubai 
     36       1.1   tsubai 	.text
     37       1.1   tsubai 
     38       1.1   tsubai _rtld_start:
     39      1.12     matt 	stwu	%r1,-48(%r1)
     40      1.12     matt 	stw	%r3,12(%r1)		# argc
     41      1.12     matt 	stw	%r4,16(%r1)		# argv
     42      1.12     matt 	stw	%r5,20(%r1)		# envp
     43      1.12     matt /*	stw	%r6,24(%r1)		# obj		(always 0) */
     44      1.12     matt /*	stw	%r7,28(%r1)		# cleanup	(always 0) */
     45      1.12     matt 	stw	%r8,32(%r1)		# ps_strings
     46       1.1   tsubai 
     47      1.14     matt 	bcl	20,31,1f
     48      1.14     matt 1:	mflr	%r30
     49      1.14     matt 	mr	%r3,%r30		# save for _DYNAMIC
     50      1.14     matt 	addis	%r30,%r30,_GLOBAL_OFFSET_TABLE_-1b@ha
     51      1.14     matt 	addi	%r30,%r30,_GLOBAL_OFFSET_TABLE_-1b@l
     52      1.14     matt 	addis	%r3,%r3,_DYNAMIC-1b@ha	# get _DYNAMIC actual address
     53      1.14     matt 	addi	%r3,%r3,_DYNAMIC-1b@l
     54      1.14     matt 	lwz	%r28,0(%r30)		# get base-relative &_DYNAMIC
     55      1.14     matt 	sub	%r28,%r3,%r28		# r28 = relocbase
     56      1.13  thorpej 	mr	%r4,%r28		# r4 = relocbase
     57      1.14     matt 	bl	_rtld_relocate_nonplt_self
     58       1.1   tsubai 
     59      1.12     matt 	lwz	%r3,16(%r1)
     60      1.12     matt 	addi	%r3,%r3,-12		# sp = &argv[-3]	/* XXX */
     61      1.13  thorpej 	mr	%r4,%r28		# r4 = relocbase
     62      1.14     matt 	bl	_rtld			# _start = _rtld(sp, relocbase)
     63      1.12     matt 	mtlr	%r3
     64       1.1   tsubai 
     65      1.12     matt 	lwz	%r3,12(%r1)		# argc
     66      1.12     matt 	lwz	%r4,16(%r1)		# argv
     67      1.12     matt 	lwz	%r5,20(%r1)		# envp
     68      1.12     matt 	lwz	%r6,-8(%r4)		# obj = sp[1] (== argv[-2])
     69      1.12     matt 	lwz	%r7,-12(%r4)		# cleanup = sp[0] (== argv[-3])
     70      1.12     matt 	lwz	%r8,32(%r1)		# ps_strings
     71       1.1   tsubai 
     72      1.12     matt 	addi	%r1,%r1,48
     73       1.1   tsubai 	blrl		# _start(argc, argv, envp, obj, cleanup, ps_strings)
     74       1.1   tsubai 
     75      1.12     matt 	li	%r0,1			# _exit()
     76       1.1   tsubai 	sc
     77       1.1   tsubai 
     78      1.14     matt END(_rtld_start)
     79       1.1   tsubai 
     80      1.10  mycroft 	.globl	_rtld_bind
     81       1.1   tsubai 
     82      1.14     matt /*
     83      1.14     matt  * secure-plt expects %r11 to be the offset to the rela entry.
     84      1.14     matt  * bss-plt expects %r11 to be index of the rela entry.
     85      1.14     matt  * So for bss-plt, we multiply the index by 12 to get the offset.
     86      1.14     matt  */
     87      1.14     matt ENTRY_NOPROFILE(_rtld_bind_secureplt_start)
     88      1.12     matt 	stwu	%r1,-160(%r1)
     89  1.14.2.1   bouyer 	stw	%r0,20(%r1)
     90  1.14.2.1   bouyer 
     91  1.14.2.1   bouyer 	/*
     92  1.14.2.1   bouyer 	 * Instead of division which is costly we will use multiplicative
     93  1.14.2.1   bouyer 	 * inverse.  a / n = ((a * inv(n)) >> 32)
     94  1.14.2.1   bouyer 	 * where inv(n) = (0x100000000 + n - 1) / n
     95  1.14.2.1   bouyer 	 */
     96  1.14.2.1   bouyer 	mr	%r0,%r11
     97  1.14.2.1   bouyer 	lis	%r11,0x10000000b/12@h	# load multiplicative inverse of 12
     98  1.14.2.1   bouyer 	ori	%r11,%r11,0x10000000b/12@l
     99  1.14.2.1   bouyer 	mulhwu	%r11,%r11,%r0		# get high half of multiplication
    100  1.14.2.1   bouyer 
    101  1.14.2.1   bouyer 	b	1f
    102  1.14.2.1   bouyer ENTRY_NOPROFILE(_rtld_bind_bssplt_start)
    103  1.14.2.1   bouyer 	stwu	%r1,-160(%r1)
    104       1.4  mycroft 
    105      1.12     matt 	stw	%r0,20(%r1)
    106  1.14.2.1   bouyer 1:
    107      1.12     matt 	mflr	%r0
    108      1.12     matt 	stw	%r0,16(%r1)		# save lr
    109      1.12     matt 	mfcr	%r0
    110      1.12     matt 	stw	%r0,12(%r1)		# save cr
    111      1.12     matt 	stmw	%r3,24(%r1)		# save r3-r31
    112       1.1   tsubai 
    113      1.12     matt 	mr	%r3,%r12		# obj
    114      1.12     matt 	mr	%r4,%r11		# reloff
    115      1.14     matt 	bl	_rtld_bind		# _rtld_bind(obj, reloff)
    116      1.12     matt 	mtctr	%r3
    117       1.1   tsubai 
    118      1.12     matt 	lmw	%r3,24(%r1)		# load r3-r31
    119      1.12     matt 	lwz	%r0,12(%r1)		# restore cr
    120      1.12     matt 	mtcr	%r0
    121      1.12     matt 	lwz	%r0,16(%r1)		# restore lr
    122      1.12     matt 	mtlr	%r0
    123      1.12     matt 	lwz	%r0,20(%r1)
    124       1.4  mycroft 
    125      1.12     matt 	addi	%r1,%r1,160
    126       1.1   tsubai 	bctr
    127      1.14     matt END(_rtld_bind_start)
    128       1.1   tsubai 
    129       1.1   tsubai 	.globl	_rtld_powerpc_pltcall
    130       1.1   tsubai 	.globl	_rtld_powerpc_pltresolve
    131       1.1   tsubai 
    132       1.1   tsubai _rtld_powerpc_pltcall:
    133      1.12     matt 	slwi	%r11,%r11,2
    134      1.12     matt 	addis	%r11,%r11,0		# addis	11,11,jmptab@ha
    135      1.12     matt 	lwz	%r11,0(%r11)		# lwz	11,jmptab@l(11)
    136      1.12     matt 	mtctr	%r11
    137       1.1   tsubai 	bctr
    138       1.1   tsubai 
    139       1.1   tsubai _rtld_powerpc_pltresolve:
    140      1.14     matt 	lis	%r12,0			# lis	12,_rtld_bind_bssplt_start@ha
    141      1.14     matt 	addi	%r12,%r12,0		# addi	12,12,_rtld_bind_bssplt_start@l
    142      1.12     matt 	mtctr	%r12
    143      1.12     matt 	lis	%r12,0			# lis	12,obj@ha
    144      1.12     matt 	addi	%r12,%r12,0		# addi	12,12,obj@l
    145       1.1   tsubai 	bctr
    146