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cpuswitch.S revision 1.33
      1  1.33  thorpej /*	$NetBSD: cpuswitch.S,v 1.33 2003/05/21 18:04:42 thorpej Exp $	*/
      2   1.1    chris 
      3   1.1    chris /*
      4  1.30      scw  * Copyright 2003 Wasabi Systems, Inc.
      5  1.30      scw  * All rights reserved.
      6  1.30      scw  *
      7  1.30      scw  * Written by Steve C. Woodford for Wasabi Systems, Inc.
      8  1.30      scw  *
      9  1.30      scw  * Redistribution and use in source and binary forms, with or without
     10  1.30      scw  * modification, are permitted provided that the following conditions
     11  1.30      scw  * are met:
     12  1.30      scw  * 1. Redistributions of source code must retain the above copyright
     13  1.30      scw  *    notice, this list of conditions and the following disclaimer.
     14  1.30      scw  * 2. Redistributions in binary form must reproduce the above copyright
     15  1.30      scw  *    notice, this list of conditions and the following disclaimer in the
     16  1.30      scw  *    documentation and/or other materials provided with the distribution.
     17  1.30      scw  * 3. All advertising materials mentioning features or use of this software
     18  1.30      scw  *    must display the following acknowledgement:
     19  1.30      scw  *      This product includes software developed for the NetBSD Project by
     20  1.30      scw  *      Wasabi Systems, Inc.
     21  1.30      scw  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
     22  1.30      scw  *    or promote products derived from this software without specific prior
     23  1.30      scw  *    written permission.
     24  1.30      scw  *
     25  1.30      scw  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
     26  1.30      scw  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     27  1.30      scw  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     28  1.30      scw  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
     29  1.30      scw  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     30  1.30      scw  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     31  1.30      scw  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     32  1.30      scw  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     33  1.30      scw  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     34  1.30      scw  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     35  1.30      scw  * POSSIBILITY OF SUCH DAMAGE.
     36  1.30      scw  */
     37  1.30      scw /*
     38   1.1    chris  * Copyright (c) 1994-1998 Mark Brinicombe.
     39   1.1    chris  * Copyright (c) 1994 Brini.
     40   1.1    chris  * All rights reserved.
     41   1.1    chris  *
     42   1.1    chris  * This code is derived from software written for Brini by Mark Brinicombe
     43   1.1    chris  *
     44   1.1    chris  * Redistribution and use in source and binary forms, with or without
     45   1.1    chris  * modification, are permitted provided that the following conditions
     46   1.1    chris  * are met:
     47   1.1    chris  * 1. Redistributions of source code must retain the above copyright
     48   1.1    chris  *    notice, this list of conditions and the following disclaimer.
     49   1.1    chris  * 2. Redistributions in binary form must reproduce the above copyright
     50   1.1    chris  *    notice, this list of conditions and the following disclaimer in the
     51   1.1    chris  *    documentation and/or other materials provided with the distribution.
     52   1.1    chris  * 3. All advertising materials mentioning features or use of this software
     53   1.1    chris  *    must display the following acknowledgement:
     54   1.1    chris  *	This product includes software developed by Brini.
     55   1.1    chris  * 4. The name of the company nor the name of the author may be used to
     56   1.1    chris  *    endorse or promote products derived from this software without specific
     57   1.1    chris  *    prior written permission.
     58   1.1    chris  *
     59   1.1    chris  * THIS SOFTWARE IS PROVIDED BY BRINI ``AS IS'' AND ANY EXPRESS OR IMPLIED
     60   1.1    chris  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
     61   1.1    chris  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     62   1.1    chris  * IN NO EVENT SHALL BRINI OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
     63   1.1    chris  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
     64   1.1    chris  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
     65   1.1    chris  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     66   1.1    chris  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
     67   1.1    chris  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
     68   1.1    chris  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     69   1.1    chris  * SUCH DAMAGE.
     70   1.1    chris  *
     71   1.1    chris  * RiscBSD kernel project
     72   1.1    chris  *
     73   1.1    chris  * cpuswitch.S
     74   1.1    chris  *
     75   1.1    chris  * cpu switching functions
     76   1.1    chris  *
     77   1.1    chris  * Created      : 15/10/94
     78   1.1    chris  */
     79   1.1    chris 
     80   1.1    chris #include "opt_armfpe.h"
     81  1.30      scw #include "opt_arm32_pmap.h"
     82  1.19    bjh21 #include "opt_multiprocessor.h"
     83   1.1    chris 
     84   1.1    chris #include "assym.h"
     85   1.1    chris #include <machine/param.h>
     86   1.1    chris #include <machine/cpu.h>
     87   1.1    chris #include <machine/frame.h>
     88   1.1    chris #include <machine/asm.h>
     89   1.1    chris 
     90   1.1    chris #undef IRQdisable
     91   1.1    chris #undef IRQenable
     92   1.1    chris 
     93   1.1    chris /*
     94   1.1    chris  * New experimental definitions of IRQdisable and IRQenable
     95   1.1    chris  * These keep FIQ's enabled since FIQ's are special.
     96   1.1    chris  */
     97   1.1    chris 
     98   1.1    chris #define IRQdisable \
     99  1.13  thorpej 	mrs	r14, cpsr ; \
    100   1.1    chris 	orr	r14, r14, #(I32_bit) ; \
    101  1.13  thorpej 	msr	cpsr_c, r14 ; \
    102   1.1    chris 
    103   1.1    chris #define IRQenable \
    104  1.13  thorpej 	mrs	r14, cpsr ; \
    105   1.1    chris 	bic	r14, r14, #(I32_bit) ; \
    106  1.13  thorpej 	msr	cpsr_c, r14 ; \
    107   1.1    chris 
    108  1.30      scw /*
    109  1.30      scw  * These are used for switching the translation table/DACR.
    110  1.30      scw  * Since the vector page can be invalid for a short time, we must
    111  1.30      scw  * disable both regular IRQs *and* FIQs.
    112  1.30      scw  *
    113  1.30      scw  * XXX: This is not necessary if the vector table is relocated.
    114  1.30      scw  */
    115  1.30      scw #define IRQdisableALL \
    116  1.30      scw 	mrs	r14, cpsr ; \
    117  1.30      scw 	orr	r14, r14, #(I32_bit | F32_bit) ; \
    118  1.30      scw 	msr	cpsr_c, r14
    119  1.30      scw 
    120  1.30      scw #define IRQenableALL \
    121  1.30      scw 	mrs	r14, cpsr ; \
    122  1.30      scw 	bic	r14, r14, #(I32_bit | F32_bit) ; \
    123  1.30      scw 	msr	cpsr_c, r14
    124  1.30      scw 
    125   1.1    chris 	.text
    126   1.1    chris 
    127  1.17  thorpej .Lwhichqs:
    128   1.1    chris 	.word	_C_LABEL(sched_whichqs)
    129   1.1    chris 
    130  1.17  thorpej .Lqs:
    131   1.1    chris 	.word	_C_LABEL(sched_qs)
    132   1.1    chris 
    133   1.1    chris /*
    134   1.1    chris  * cpuswitch()
    135   1.1    chris  *
    136   1.1    chris  * preforms a process context switch.
    137   1.1    chris  * This function has several entry points
    138   1.1    chris  */
    139   1.1    chris 
    140  1.19    bjh21 #ifdef MULTIPROCESSOR
    141  1.19    bjh21 .Lcpu_info_store:
    142  1.19    bjh21 	.word	_C_LABEL(cpu_info_store)
    143  1.29  thorpej .Lcurlwp:
    144  1.19    bjh21 	/* FIXME: This is bogus in the general case. */
    145  1.29  thorpej 	.word	_C_LABEL(cpu_info_store) + CI_CURLWP
    146  1.22    bjh21 
    147  1.22    bjh21 .Lcurpcb:
    148  1.22    bjh21 	.word	_C_LABEL(cpu_info_store) + CI_CURPCB
    149  1.19    bjh21 #else
    150  1.29  thorpej .Lcurlwp:
    151  1.29  thorpej 	.word	_C_LABEL(curlwp)
    152   1.1    chris 
    153  1.17  thorpej .Lcurpcb:
    154   1.1    chris 	.word	_C_LABEL(curpcb)
    155  1.22    bjh21 #endif
    156   1.1    chris 
    157  1.17  thorpej .Lwant_resched:
    158   1.1    chris 	.word	_C_LABEL(want_resched)
    159   1.1    chris 
    160  1.17  thorpej .Lcpufuncs:
    161   1.1    chris 	.word	_C_LABEL(cpufuncs)
    162   1.1    chris 
    163  1.22    bjh21 #ifndef MULTIPROCESSOR
    164   1.1    chris 	.data
    165   1.1    chris 	.global	_C_LABEL(curpcb)
    166   1.1    chris _C_LABEL(curpcb):
    167   1.1    chris 	.word	0x00000000
    168   1.1    chris 	.text
    169  1.22    bjh21 #endif
    170   1.1    chris 
    171  1.17  thorpej .Lblock_userspace_access:
    172   1.1    chris 	.word	_C_LABEL(block_userspace_access)
    173   1.1    chris 
    174  1.15  thorpej .Lcpu_do_powersave:
    175  1.15  thorpej 	.word	_C_LABEL(cpu_do_powersave)
    176  1.15  thorpej 
    177  1.30      scw .Lpmap_kernel_cstate:
    178  1.30      scw 	.word	(kernel_pmap_store + PMAP_CSTATE)
    179  1.30      scw 
    180  1.30      scw .Llast_cache_state_ptr:
    181  1.30      scw 	.word	_C_LABEL(pmap_cache_state)
    182  1.30      scw 
    183   1.1    chris /*
    184   1.1    chris  * Idle loop, exercised while waiting for a process to wake up.
    185  1.16  thorpej  *
    186  1.16  thorpej  * NOTE: When we jump back to .Lswitch_search, we must have a
    187  1.16  thorpej  * pointer to whichqs in r7, which is what it is when we arrive
    188  1.16  thorpej  * here.
    189   1.1    chris  */
    190   1.7    chris /* LINTSTUB: Ignore */
    191   1.4    chris ASENTRY_NP(idle)
    192  1.19    bjh21 #if defined(MULTIPROCESSOR) || defined(LOCKDEBUG)
    193   1.7    chris 	bl	_C_LABEL(sched_unlock_idle)
    194   1.7    chris #endif
    195  1.16  thorpej 	ldr	r3, .Lcpu_do_powersave
    196  1.16  thorpej 
    197   1.1    chris 	/* Enable interrupts */
    198   1.1    chris 	IRQenable
    199   1.1    chris 
    200  1.15  thorpej 	/* If we don't want to sleep, use a simpler loop. */
    201  1.16  thorpej 	ldr	r3, [r3]		/* r3 = cpu_do_powersave */
    202  1.15  thorpej 	teq	r3, #0
    203  1.16  thorpej 	bne	2f
    204  1.16  thorpej 
    205  1.16  thorpej 	/* Non-powersave idle. */
    206  1.16  thorpej 1:	/* should maybe do uvm pageidlezero stuff here */
    207  1.16  thorpej 	ldr	r3, [r7]		/* r3 = whichqs */
    208  1.16  thorpej 	teq	r3, #0x00000000
    209  1.16  thorpej 	bne	.Lswitch_search
    210  1.16  thorpej 	b	1b
    211  1.15  thorpej 
    212  1.16  thorpej 2:	/* Powersave idle. */
    213  1.17  thorpej 	ldr	r4, .Lcpufuncs
    214  1.16  thorpej 3:	ldr	r3, [r7]		/* r3 = whichqs */
    215  1.15  thorpej 	teq	r3, #0x00000000
    216  1.15  thorpej 	bne	.Lswitch_search
    217  1.15  thorpej 
    218  1.15  thorpej 	/* if saving power, don't want to pageidlezero */
    219   1.1    chris 	mov	r0, #0
    220  1.21    bjh21 	adr	lr, 3b
    221  1.15  thorpej 	ldr	pc, [r4, #(CF_SLEEP)]
    222  1.15  thorpej 	/* loops back around */
    223  1.15  thorpej 
    224   1.1    chris 
    225   1.1    chris /*
    226  1.29  thorpej  * Find a new lwp to run, save the current context and
    227   1.1    chris  * load the new context
    228  1.29  thorpej  *
    229  1.29  thorpej  * Arguments:
    230  1.29  thorpej  *	r0	'struct lwp *' of the current LWP
    231   1.1    chris  */
    232   1.1    chris 
    233   1.1    chris ENTRY(cpu_switch)
    234   1.1    chris /*
    235   1.1    chris  * Local register usage. Some of these registers are out of date.
    236  1.29  thorpej  * r1 = oldlwp
    237  1.29  thorpej  * r2 = spl level
    238   1.1    chris  * r3 = whichqs
    239   1.1    chris  * r4 = queue
    240   1.1    chris  * r5 = &qs[queue]
    241  1.29  thorpej  * r6 = newlwp
    242  1.28    bjh21  * r7 = scratch
    243   1.1    chris  */
    244  1.28    bjh21 	stmfd	sp!, {r4-r7, lr}
    245   1.1    chris 
    246   1.1    chris 	/*
    247  1.29  thorpej 	 * Indicate that there is no longer a valid process (curlwp = 0).
    248  1.29  thorpej 	 * Zero the current PCB pointer while we're at it.
    249   1.1    chris 	 */
    250  1.29  thorpej 	ldr	r7, .Lcurlwp
    251  1.28    bjh21 	ldr	r6, .Lcurpcb
    252  1.29  thorpej 	mov	r2, #0x00000000
    253  1.29  thorpej 	str	r2, [r7]		/* curproc = NULL */
    254  1.29  thorpej 	str	r2, [r6]		/* curpcb = NULL */
    255  1.28    bjh21 
    256  1.28    bjh21 	/* stash the old proc while we call functions */
    257  1.29  thorpej 	mov	r5, r0
    258   1.1    chris 
    259  1.19    bjh21 #if defined(MULTIPROCESSOR) || defined(LOCKDEBUG)
    260   1.7    chris 	/* release the sched_lock before handling interrupts */
    261   1.7    chris 	bl	_C_LABEL(sched_unlock_idle)
    262   1.7    chris #endif
    263   1.7    chris 
    264   1.7    chris 	/* Lower the spl level to spl0 and get the current spl level. */
    265   1.5  thorpej #ifdef __NEWINTR
    266   1.5  thorpej 	mov	r0, #(IPL_NONE)
    267   1.5  thorpej 	bl	_C_LABEL(_spllower)
    268   1.5  thorpej #else /* ! __NEWINTR */
    269   1.1    chris #ifdef spl0
    270   1.1    chris 	mov	r0, #(_SPL_0)
    271   1.1    chris 	bl	_C_LABEL(splx)
    272   1.1    chris #else
    273   1.1    chris 	bl	_C_LABEL(spl0)
    274   1.5  thorpej #endif /* spl0 */
    275   1.5  thorpej #endif /* __NEWINTR */
    276   1.1    chris 
    277   1.1    chris 	/* Push the old spl level onto the stack */
    278   1.1    chris 	str	r0, [sp, #-0x0004]!
    279   1.1    chris 
    280  1.29  thorpej 	/* First phase : find a new lwp */
    281   1.1    chris 
    282  1.17  thorpej 	ldr	r7, .Lwhichqs
    283  1.16  thorpej 
    284  1.29  thorpej 	/* rem: r5 = old lwp */
    285  1.16  thorpej 	/* rem: r7 = &whichqs */
    286   1.7    chris 
    287  1.14   briggs .Lswitch_search:
    288   1.1    chris 	IRQdisable
    289  1.19    bjh21 #if defined(MULTIPROCESSOR) || defined(LOCKDEBUG)
    290   1.7    chris 	bl	_C_LABEL(sched_lock_idle)
    291   1.7    chris #endif
    292   1.7    chris 
    293   1.1    chris 	/* Do we have any active queues  */
    294   1.1    chris 	ldr	r3, [r7]
    295   1.1    chris 
    296   1.1    chris 	/* If not we must idle until we do. */
    297   1.1    chris 	teq	r3, #0x00000000
    298   1.4    chris 	beq	_ASM_LABEL(idle)
    299   1.7    chris 
    300  1.28    bjh21 	/* put old proc back in r1 */
    301  1.28    bjh21 	mov	r1, r5
    302  1.28    bjh21 
    303  1.29  thorpej 	/* rem: r1 = old lwp */
    304   1.1    chris 	/* rem: r3 = whichqs */
    305   1.1    chris 	/* rem: interrupts are disabled */
    306   1.1    chris 
    307   1.1    chris 	/*
    308   1.1    chris 	 * We have found an active queue. Currently we do not know which queue
    309   1.1    chris 	 * is active just that one of them is.
    310   1.1    chris 	 */
    311   1.1    chris 	/* this is the ffs algorithm devised by d.seal and posted to
    312   1.1    chris 	 * comp.sys.arm on 16 Feb 1994.
    313   1.1    chris 	 */
    314   1.1    chris  	rsb	r5, r3, #0
    315   1.1    chris  	ands	r0, r3, r5
    316   1.1    chris 
    317  1.17  thorpej 	adr	r5, .Lcpu_switch_ffs_table
    318   1.1    chris 
    319   1.3    chris 				    /* X = R0 */
    320   1.3    chris 	orr	r4, r0, r0, lsl #4  /* r4 = X * 0x11 */
    321   1.3    chris 	orr	r4, r4, r4, lsl #6  /* r4 = X * 0x451 */
    322   1.3    chris 	rsb	r4, r4, r4, lsl #16 /* r4 = X * 0x0450fbaf */
    323   1.1    chris 
    324   1.1    chris 	/* used further down, saves SA stall */
    325  1.17  thorpej 	ldr	r6, .Lqs
    326   1.1    chris 
    327   1.3    chris 	/* now lookup in table indexed on top 6 bits of a4 */
    328   1.1    chris 	ldrb	r4, [ r5, r4, lsr #26 ]
    329   1.1    chris 
    330   1.1    chris 	/* rem: r0 = bit mask of chosen queue (1 << r4) */
    331  1.29  thorpej 	/* rem: r1 = old lwp */
    332   1.1    chris 	/* rem: r3 = whichqs */
    333   1.1    chris 	/* rem: r4 = queue number */
    334   1.1    chris 	/* rem: interrupts are disabled */
    335   1.1    chris 
    336   1.1    chris 	/* Get the address of the queue (&qs[queue]) */
    337   1.1    chris 	add	r5, r6, r4, lsl #3
    338   1.1    chris 
    339   1.1    chris 	/*
    340  1.29  thorpej 	 * Get the lwp from the queue and place the next process in
    341  1.29  thorpej 	 * the queue at the head. This basically unlinks the lwp at
    342   1.1    chris 	 * the head of the queue.
    343   1.1    chris 	 */
    344  1.29  thorpej 	ldr	r6, [r5, #(L_FORW)]
    345   1.1    chris 
    346  1.29  thorpej 	/* rem: r6 = new lwp */
    347  1.29  thorpej 	ldr	r7, [r6, #(L_FORW)]
    348  1.29  thorpej 	str	r7, [r5, #(L_FORW)]
    349   1.1    chris 
    350   1.1    chris 	/*
    351   1.1    chris 	 * Test to see if the queue is now empty. If the head of the queue
    352  1.29  thorpej 	 * points to the queue itself then there are no more lwps in
    353   1.1    chris 	 * the queue. We can therefore clear the queue not empty flag held
    354   1.1    chris 	 * in r3.
    355   1.1    chris 	 */
    356   1.1    chris 
    357   1.1    chris 	teq	r5, r7
    358   1.1    chris 	biceq	r3, r3, r0
    359   1.1    chris 
    360  1.28    bjh21 	/* rem: r0 = bit mask of chosen queue (1 << r4) - NOT NEEDED AN MORE */
    361  1.28    bjh21 
    362  1.29  thorpej 	/* Fix the back pointer for the lwp now at the head of the queue. */
    363  1.29  thorpej 	ldr	r0, [r6, #(L_BACK)]
    364  1.29  thorpej 	str	r0, [r7, #(L_BACK)]
    365   1.1    chris 
    366   1.1    chris 	/* Update the RAM copy of the queue not empty flags word. */
    367  1.17  thorpej 	ldr	r7, .Lwhichqs
    368   1.1    chris 	str	r3, [r7]
    369   1.1    chris 
    370  1.29  thorpej 	/* rem: r1 = old lwp */
    371   1.1    chris 	/* rem: r3 = whichqs - NOT NEEDED ANY MORE */
    372   1.1    chris 	/* rem: r4 = queue number - NOT NEEDED ANY MORE */
    373  1.29  thorpej 	/* rem: r6 = new lwp */
    374   1.1    chris 	/* rem: interrupts are disabled */
    375   1.1    chris 
    376   1.1    chris 	/* Clear the want_resched flag */
    377  1.28    bjh21 	ldr	r7, .Lwant_resched
    378   1.1    chris 	mov	r0, #0x00000000
    379  1.28    bjh21 	str	r0, [r7]
    380   1.1    chris 
    381   1.1    chris 	/*
    382  1.29  thorpej 	 * Clear the back pointer of the lwp we have removed from
    383  1.29  thorpej 	 * the head of the queue. The new lwp is isolated now.
    384   1.1    chris 	 */
    385  1.29  thorpej 	str	r0, [r6, #(L_BACK)]
    386   1.1    chris 
    387  1.19    bjh21 #if defined(MULTIPROCESSOR) || defined(LOCKDEBUG)
    388   1.7    chris 	/*
    389   1.7    chris 	 * unlock the sched_lock, but leave interrupts off, for now.
    390   1.7    chris 	 */
    391  1.28    bjh21 	mov	r7, r1
    392   1.7    chris 	bl	_C_LABEL(sched_unlock_idle)
    393  1.28    bjh21 	mov	r1, r7
    394   1.7    chris #endif
    395   1.7    chris 
    396  1.29  thorpej .Lswitch_resume:
    397  1.19    bjh21 #ifdef MULTIPROCESSOR
    398  1.19    bjh21 	/* XXX use curcpu() */
    399  1.19    bjh21 	ldr	r0, .Lcpu_info_store
    400  1.29  thorpej 	str	r0, [r6, #(L_CPU)]
    401  1.19    bjh21 #else
    402  1.29  thorpej 	/* l->l_cpu initialized in fork1() for single-processor */
    403  1.19    bjh21 #endif
    404   1.1    chris 
    405   1.1    chris 	/* Process is now on a processor. */
    406  1.29  thorpej 	mov	r0, #LSONPROC			/* l->l_stat = LSONPROC */
    407  1.29  thorpej 	str	r0, [r6, #(L_STAT)]
    408   1.1    chris 
    409  1.29  thorpej 	/* We have a new curlwp now so make a note it */
    410  1.29  thorpej 	ldr	r7, .Lcurlwp
    411   1.1    chris 	str	r6, [r7]
    412   1.1    chris 
    413   1.1    chris 	/* Hook in a new pcb */
    414  1.17  thorpej 	ldr	r7, .Lcurpcb
    415  1.29  thorpej 	ldr	r0, [r6, #(L_ADDR)]
    416   1.1    chris 	str	r0, [r7]
    417   1.1    chris 
    418   1.1    chris 	/* At this point we can allow IRQ's again. */
    419   1.1    chris 	IRQenable
    420   1.1    chris 
    421  1.29  thorpej 	/* rem: r1 = old lwp */
    422  1.29  thorpej 	/* rem: r4 = return value */
    423   1.1    chris 	/* rem: r6 = new process */
    424   1.4    chris 	/* rem: interrupts are enabled */
    425   1.1    chris 
    426   1.1    chris 	/*
    427   1.1    chris 	 * If the new process is the same as the process that called
    428   1.1    chris 	 * cpu_switch() then we do not need to save and restore any
    429   1.1    chris 	 * contexts. This means we can make a quick exit.
    430  1.29  thorpej 	 * The test is simple if curlwp on entry (now in r1) is the
    431   1.1    chris 	 * same as the proc removed from the queue we can jump to the exit.
    432   1.1    chris 	 */
    433  1.28    bjh21 	teq	r1, r6
    434  1.29  thorpej 	moveq	r4, #0x00000000		/* default to "didn't switch" */
    435  1.14   briggs 	beq	.Lswitch_return
    436   1.1    chris 
    437  1.29  thorpej 	/*
    438  1.29  thorpej 	 * At this point, we are guaranteed to be switching to
    439  1.29  thorpej 	 * a new lwp.
    440  1.29  thorpej 	 */
    441  1.29  thorpej 	mov	r4, #0x00000001
    442  1.29  thorpej 
    443  1.29  thorpej 	/* Remember the old lwp in r0 */
    444  1.28    bjh21 	mov	r0, r1
    445  1.28    bjh21 
    446   1.1    chris 	/*
    447  1.29  thorpej 	 * If the old lwp on entry to cpu_switch was zero then the
    448   1.1    chris 	 * process that called it was exiting. This means that we do
    449   1.1    chris 	 * not need to save the current context. Instead we can jump
    450   1.1    chris 	 * straight to restoring the context for the new process.
    451   1.1    chris 	 */
    452  1.28    bjh21 	teq	r0, #0x00000000
    453  1.14   briggs 	beq	.Lswitch_exited
    454   1.1    chris 
    455  1.29  thorpej 	/* rem: r0 = old lwp */
    456  1.29  thorpej 	/* rem: r4 = return value */
    457   1.1    chris 	/* rem: r6 = new process */
    458   1.4    chris 	/* rem: interrupts are enabled */
    459   1.1    chris 
    460   1.1    chris 	/* Stage two : Save old context */
    461   1.1    chris 
    462  1.29  thorpej 	/* Get the user structure for the old lwp. */
    463  1.29  thorpej 	ldr	r1, [r0, #(L_ADDR)]
    464   1.1    chris 
    465  1.29  thorpej 	/* Save all the registers in the old lwp's pcb */
    466  1.28    bjh21 	add	r7, r1, #(PCB_R8)
    467  1.28    bjh21 	stmia	r7, {r8-r13}
    468   1.1    chris 
    469   1.1    chris 	/*
    470  1.29  thorpej 	 * NOTE: We can now use r8-r13 until it is time to restore
    471  1.29  thorpej 	 * them for the new process.
    472  1.29  thorpej 	 */
    473  1.29  thorpej 
    474  1.29  thorpej 	/* Remember the old PCB. */
    475  1.29  thorpej 	mov	r8, r1
    476  1.29  thorpej 
    477  1.29  thorpej 	/* r1 now free! */
    478  1.29  thorpej 
    479  1.29  thorpej 	/* Get the user structure for the new process in r9 */
    480  1.29  thorpej 	ldr	r9, [r6, #(L_ADDR)]
    481  1.29  thorpej 
    482  1.29  thorpej 	/*
    483   1.1    chris 	 * This can be optimised... We know we want to go from SVC32
    484   1.1    chris 	 * mode to UND32 mode
    485   1.1    chris 	 */
    486  1.13  thorpej         mrs	r3, cpsr
    487   1.1    chris 	bic	r2, r3, #(PSR_MODE)
    488   1.1    chris 	orr	r2, r2, #(PSR_UND32_MODE | I32_bit)
    489  1.13  thorpej         msr	cpsr_c, r2
    490   1.1    chris 
    491  1.29  thorpej 	str	sp, [r8, #(PCB_UND_SP)]
    492   1.1    chris 
    493  1.13  thorpej         msr	cpsr_c, r3		/* Restore the old mode */
    494   1.1    chris 
    495  1.29  thorpej 	/* rem: r0 = old lwp */
    496  1.29  thorpej 	/* rem: r4 = return value */
    497   1.1    chris 	/* rem: r6 = new process */
    498  1.29  thorpej 	/* rem: r8 = old PCB */
    499  1.29  thorpej 	/* rem: r9 = new PCB */
    500   1.4    chris 	/* rem: interrupts are enabled */
    501   1.1    chris 
    502   1.1    chris 	/* What else needs to be saved  Only FPA stuff when that is supported */
    503   1.1    chris 
    504   1.1    chris 	/* Third phase : restore saved context */
    505   1.1    chris 
    506  1.29  thorpej 	/* rem: r0 = old lwp */
    507  1.29  thorpej 	/* rem: r4 = return value */
    508  1.29  thorpej 	/* rem: r6 = new lwp */
    509  1.29  thorpej 	/* rem: r8 = old PCB */
    510  1.29  thorpej 	/* rem: r9 = new PCB */
    511   1.9  thorpej 	/* rem: interrupts are enabled */
    512   1.9  thorpej 
    513   1.9  thorpej 	/*
    514  1.29  thorpej 	 * Get the new L1 table pointer into r11.  If we're switching to
    515  1.29  thorpej 	 * an LWP with the same address space as the outgoing one, we can
    516  1.29  thorpej 	 * skip the cache purge and the TTB load.
    517  1.29  thorpej 	 *
    518  1.29  thorpej 	 * To avoid data dep stalls that would happen anyway, we try
    519  1.29  thorpej 	 * and get some useful work done in the mean time.
    520  1.29  thorpej 	 */
    521  1.29  thorpej 	ldr	r10, [r8, #(PCB_PAGEDIR)]	/* r10 = old L1 */
    522  1.29  thorpej 	ldr	r11, [r9, #(PCB_PAGEDIR)]	/* r11 = new L1 */
    523  1.29  thorpej 
    524  1.30      scw 	ldr	r0, [r8, #(PCB_DACR)]		/* r0 = old DACR */
    525  1.30      scw 	ldr	r1, [r9, #(PCB_DACR)]		/* r1 = new DACR */
    526  1.30      scw 	ldr	r8, [r9, #(PCB_CSTATE)]		/* r8 = &new_pmap->pm_cstate */
    527  1.30      scw 	ldr	r5, .Llast_cache_state_ptr	/* Previous thread's cstate */
    528  1.30      scw 
    529  1.30      scw 	teq	r10, r11			/* Same L1? */
    530  1.30      scw 	ldr	r5, [r5]
    531  1.30      scw 	cmpeq	r0, r1				/* Same DACR? */
    532  1.30      scw 	beq	.Lcs_context_switched		/* yes! */
    533  1.30      scw 
    534  1.30      scw 	ldr	r3, .Lblock_userspace_access
    535  1.30      scw 	mov	r12, #0
    536  1.30      scw 	cmp	r5, #0				/* No last vm? (switch_exit) */
    537  1.30      scw 	beq	.Lcs_cache_purge_skipped	/* No, we can skip cache flsh */
    538  1.30      scw 
    539  1.30      scw 	mov	r2, #DOMAIN_CLIENT
    540  1.30      scw 	cmp	r1, r2, lsl #(PMAP_DOMAIN_KERNEL * 2) /* Sw to kernel thread? */
    541  1.30      scw 	beq	.Lcs_cache_purge_skipped	/* Yup. Don't flush cache */
    542  1.30      scw 
    543  1.30      scw 	cmp	r5, r8				/* Same userland VM space? */
    544  1.30      scw 	ldrneb	r12, [r5, #(CS_CACHE_ID)]	/* Last VM space cache state */
    545  1.30      scw 
    546  1.30      scw 	/*
    547  1.30      scw 	 * We're definately switching to a new userland VM space,
    548  1.30      scw 	 * and the previous userland VM space has yet to be flushed
    549  1.30      scw 	 * from the cache/tlb.
    550  1.30      scw 	 *
    551  1.30      scw 	 * r12 holds the previous VM space's cs_cache_id state
    552  1.30      scw 	 */
    553  1.30      scw 	tst	r12, #0xff			/* Test cs_cache_id */
    554  1.30      scw 	beq	.Lcs_cache_purge_skipped	/* VM space is not in cache */
    555  1.30      scw 
    556  1.30      scw 	/*
    557  1.30      scw 	 * Definately need to flush the cache.
    558  1.30      scw 	 * Mark the old VM space as NOT being resident in the cache.
    559  1.30      scw 	 */
    560  1.30      scw 	mov	r2, #0x00000000
    561  1.32    chris 	strb	r2, [r5, #(CS_CACHE_ID)]
    562  1.32    chris 	strb	r2, [r5, #(CS_CACHE_D)]
    563  1.30      scw 
    564  1.30      scw 	/*
    565  1.30      scw 	 * Don't allow user space access between the purge and the switch.
    566  1.30      scw 	 */
    567  1.30      scw 	mov	r2, #0x00000001
    568  1.30      scw 	str	r2, [r3]
    569  1.30      scw 
    570  1.30      scw 	stmfd	sp!, {r0-r3}
    571  1.30      scw 	ldr	r1, .Lcpufuncs
    572  1.30      scw 	mov	lr, pc
    573  1.30      scw 	ldr	pc, [r1, #CF_IDCACHE_WBINV_ALL]
    574  1.30      scw 	ldmfd	sp!, {r0-r3}
    575  1.30      scw 
    576  1.30      scw .Lcs_cache_purge_skipped:
    577  1.30      scw 	/* rem: r1 = new DACR */
    578  1.30      scw 	/* rem: r3 = &block_userspace_access */
    579  1.30      scw 	/* rem: r4 = return value */
    580  1.30      scw 	/* rem: r5 = &old_pmap->pm_cstate (or NULL) */
    581  1.30      scw 	/* rem: r6 = new lwp */
    582  1.30      scw 	/* rem: r8 = &new_pmap->pm_cstate */
    583  1.30      scw 	/* rem: r9 = new PCB */
    584  1.30      scw 	/* rem: r10 = old L1 */
    585  1.30      scw 	/* rem: r11 = new L1 */
    586  1.30      scw 
    587  1.30      scw 	mov	r2, #0x00000000
    588  1.30      scw 	ldr	r7, [r9, #(PCB_PL1VEC)]
    589  1.30      scw 
    590  1.30      scw 	/*
    591  1.30      scw 	 * At this point we need to kill IRQ's again.
    592  1.30      scw 	 *
    593  1.30      scw 	 * XXXSCW: Don't need to block FIQs if vectors have been relocated
    594  1.30      scw 	 */
    595  1.30      scw 	IRQdisableALL
    596  1.30      scw 
    597  1.30      scw 	/*
    598  1.30      scw 	 * Interrupts are disabled so we can allow user space accesses again
    599  1.30      scw 	 * as none will occur until interrupts are re-enabled after the
    600  1.30      scw 	 * switch.
    601  1.30      scw 	 */
    602  1.30      scw 	str	r2, [r3]
    603  1.30      scw 
    604  1.30      scw 	/*
    605  1.30      scw 	 * Ensure the vector table is accessible by fixing up the L1
    606  1.30      scw 	 */
    607  1.30      scw 	cmp	r7, #0			/* No need to fixup vector table? */
    608  1.30      scw 	ldrne	r2, [r7]		/* But if yes, fetch current value */
    609  1.30      scw 	ldrne	r0, [r9, #(PCB_L1VEC)]	/* Fetch new vector_page value */
    610  1.30      scw 	mcr	p15, 0, r1, c3, c0, 0	/* Update DACR for new context */
    611  1.30      scw 	cmpne	r2, r0			/* Stuffing the same value? */
    612  1.31  thorpej #ifndef PMAP_INCLUDE_PTE_SYNC
    613  1.30      scw 	strne	r0, [r7]		/* Nope, update it */
    614  1.30      scw #else
    615  1.30      scw 	beq	.Lcs_same_vector
    616  1.30      scw 	str	r0, [r7]		/* Otherwise, update it */
    617  1.30      scw 
    618  1.30      scw 	/*
    619  1.30      scw 	 * Need to sync the cache to make sure that last store is
    620  1.30      scw 	 * visible to the MMU.
    621  1.30      scw 	 */
    622  1.30      scw 	ldr	r2, .Lcpufuncs
    623  1.30      scw 	mov	r0, r7
    624  1.30      scw 	mov	r1, #4
    625  1.30      scw 	mov	lr, pc
    626  1.30      scw 	ldr	pc, [r2, #CF_DCACHE_WB_RANGE]
    627  1.30      scw 
    628  1.30      scw .Lcs_same_vector:
    629  1.33  thorpej #endif /* PMAP_INCLUDE_PTE_SYNC */
    630  1.30      scw 
    631  1.30      scw 	cmp	r10, r11		/* Switching to the same L1? */
    632  1.30      scw 	ldr	r10, .Lcpufuncs
    633  1.30      scw 	beq	.Lcs_same_l1		/* Yup. */
    634  1.30      scw 
    635  1.30      scw 	/*
    636  1.30      scw 	 * Do a full context switch, including full TLB flush.
    637  1.30      scw 	 */
    638  1.30      scw 	mov	r0, r11
    639  1.30      scw 	mov	lr, pc
    640  1.30      scw 	ldr	pc, [r10, #CF_CONTEXT_SWITCH]
    641  1.30      scw 
    642  1.30      scw 	/*
    643  1.30      scw 	 * Mark the old VM space as NOT being resident in the TLB
    644  1.30      scw 	 */
    645  1.30      scw 	mov	r2, #0x00000000
    646  1.30      scw 	cmp	r5, #0
    647  1.30      scw 	strneh	r2, [r5, #(CS_TLB_ID)]
    648  1.30      scw 	b	.Lcs_context_switched
    649  1.30      scw 
    650  1.30      scw 	/*
    651  1.30      scw 	 * We're switching to a different process in the same L1.
    652  1.30      scw 	 * In this situation, we only need to flush the TLB for the
    653  1.30      scw 	 * vector_page mapping, and even then only if r7 is non-NULL.
    654  1.30      scw 	 */
    655  1.30      scw .Lcs_same_l1:
    656  1.30      scw 	cmp	r7, #0
    657  1.30      scw 	movne	r0, #0			/* We *know* vector_page's VA is 0x0 */
    658  1.30      scw 	movne	lr, pc
    659  1.30      scw 	ldrne	pc, [r10, #CF_TLB_FLUSHID_SE]
    660  1.30      scw 
    661  1.30      scw .Lcs_context_switched:
    662  1.30      scw 	/* rem: r8 = &new_pmap->pm_cstate */
    663  1.30      scw 
    664  1.30      scw 	/* XXXSCW: Safe to re-enable FIQs here */
    665  1.30      scw 
    666  1.30      scw 	/*
    667  1.30      scw 	 * The new VM space is live in the cache and TLB.
    668  1.30      scw 	 * Update its cache/tlb state, and if it's not the kernel
    669  1.30      scw 	 * pmap, update the 'last cache state' pointer.
    670  1.30      scw 	 */
    671  1.30      scw 	mov	r2, #-1
    672  1.30      scw 	ldr	r5, .Lpmap_kernel_cstate
    673  1.30      scw 	ldr	r0, .Llast_cache_state_ptr
    674  1.30      scw 	str	r2, [r8, #(CS_ALL)]
    675  1.30      scw 	cmp	r5, r8
    676  1.30      scw 	strne	r8, [r0]
    677  1.30      scw 
    678  1.29  thorpej 	/* rem: r4 = return value */
    679  1.29  thorpej 	/* rem: r6 = new lwp */
    680  1.29  thorpej 	/* rem: r9 = new PCB */
    681  1.29  thorpej 
    682   1.1    chris 	/*
    683   1.1    chris 	 * This can be optimised... We know we want to go from SVC32
    684   1.1    chris 	 * mode to UND32 mode
    685   1.1    chris 	 */
    686  1.13  thorpej         mrs	r3, cpsr
    687   1.1    chris 	bic	r2, r3, #(PSR_MODE)
    688   1.1    chris 	orr	r2, r2, #(PSR_UND32_MODE)
    689  1.13  thorpej         msr	cpsr_c, r2
    690   1.1    chris 
    691  1.29  thorpej 	ldr	sp, [r9, #(PCB_UND_SP)]
    692   1.1    chris 
    693  1.13  thorpej         msr	cpsr_c, r3		/* Restore the old mode */
    694   1.1    chris 
    695  1.28    bjh21 	/* Restore all the save registers */
    696  1.29  thorpej 	add	r7, r9, #PCB_R8
    697  1.28    bjh21 	ldmia	r7, {r8-r13}
    698  1.28    bjh21 
    699  1.29  thorpej 	sub	r7, r7, #PCB_R8		/* restore PCB pointer */
    700  1.29  thorpej 
    701  1.29  thorpej 	ldr	r5, [r6, #(L_PROC)]	/* fetch the proc for below */
    702  1.29  thorpej 
    703  1.29  thorpej 	/* rem: r4 = return value */
    704  1.29  thorpej 	/* rem: r5 = new lwp's proc */
    705  1.29  thorpej 	/* rem: r6 = new lwp */
    706  1.29  thorpej 	/* rem: r7 = new pcb */
    707  1.18  thorpej 
    708   1.1    chris #ifdef ARMFPE
    709  1.29  thorpej 	add	r0, r7, #(USER_SIZE) & 0x00ff
    710   1.1    chris 	add	r0, r0, #(USER_SIZE) & 0xff00
    711   1.1    chris 	bl	_C_LABEL(arm_fpe_core_changecontext)
    712   1.1    chris #endif
    713   1.1    chris 
    714   1.1    chris 	/* We can enable interrupts again */
    715  1.30      scw 	IRQenableALL
    716   1.1    chris 
    717  1.29  thorpej 	/* rem: r4 = return value */
    718  1.29  thorpej 	/* rem: r5 = new lwp's proc */
    719  1.29  thorpej 	/* rem: r6 = new lwp */
    720  1.18  thorpej 	/* rem: r7 = new PCB */
    721  1.18  thorpej 
    722  1.18  thorpej 	/*
    723  1.18  thorpej 	 * Check for restartable atomic sequences (RAS).
    724  1.18  thorpej 	 */
    725  1.18  thorpej 
    726  1.29  thorpej 	ldr	r2, [r5, #(P_NRAS)]
    727  1.18  thorpej 	ldr	r4, [r7, #(PCB_TF)]	/* r4 = trapframe (used below) */
    728  1.18  thorpej 	teq	r2, #0			/* p->p_nras == 0? */
    729  1.18  thorpej 	bne	.Lswitch_do_ras		/* no, check for one */
    730  1.18  thorpej 
    731  1.14   briggs .Lswitch_return:
    732   1.1    chris 
    733   1.1    chris 	/* Get the spl level from the stack and update the current spl level */
    734   1.1    chris 	ldr	r0, [sp], #0x0004
    735   1.1    chris 	bl	_C_LABEL(splx)
    736   1.1    chris 
    737  1.29  thorpej 	/* cpu_switch returns 1 == switched, 0 == didn't switch */
    738  1.29  thorpej 	mov	r0, r4
    739   1.1    chris 
    740   1.1    chris 	/*
    741   1.1    chris 	 * Pull the registers that got pushed when either savectx() or
    742   1.1    chris 	 * cpu_switch() was called and return.
    743   1.1    chris 	 */
    744  1.28    bjh21 	ldmfd	sp!, {r4-r7, pc}
    745  1.18  thorpej 
    746  1.18  thorpej .Lswitch_do_ras:
    747  1.18  thorpej 	ldr	r1, [r4, #(TF_PC)]	/* second ras_lookup() arg */
    748  1.29  thorpej 	mov	r0, r5			/* first ras_lookup() arg */
    749  1.18  thorpej 	bl	_C_LABEL(ras_lookup)
    750  1.18  thorpej 	cmn	r0, #1			/* -1 means "not in a RAS" */
    751  1.18  thorpej 	strne	r0, [r4, #(TF_PC)]
    752  1.18  thorpej 	b	.Lswitch_return
    753   1.1    chris 
    754  1.14   briggs .Lswitch_exited:
    755   1.9  thorpej 	/*
    756  1.29  thorpej 	 * We skip the cache purge because switch_exit() already did it.
    757  1.29  thorpej 	 * Load up registers the way .Lcs_cache_purge_skipped expects.
    758  1.29  thorpej 	 * Userpsace access already blocked by switch_exit().
    759   1.9  thorpej 	 */
    760  1.29  thorpej 	ldr	r9, [r6, #(L_ADDR)]		/* r9 = new PCB */
    761  1.17  thorpej 	ldr	r3, .Lblock_userspace_access
    762  1.30      scw 	mrc	p15, 0, r10, c2, c0, 0		/* r10 = old L1 */
    763  1.30      scw 	mov	r5, #0				/* No previous cache state */
    764  1.30      scw 	ldr	r1, [r9, #(PCB_DACR)]		/* r1 = new DACR */
    765  1.30      scw 	ldr	r8, [r9, #(PCB_CSTATE)]		/* r8 = new cache state */
    766  1.29  thorpej 	ldr	r11, [r9, #(PCB_PAGEDIR)]	/* r11 = new L1 */
    767  1.14   briggs 	b	.Lcs_cache_purge_skipped
    768   1.9  thorpej 
    769   1.7    chris /*
    770  1.29  thorpej  * cpu_switchto(struct lwp *current, struct lwp *next)
    771  1.29  thorpej  * Switch to the specified next LWP
    772  1.29  thorpej  * Arguments:
    773  1.29  thorpej  *
    774  1.29  thorpej  *	r0	'struct lwp *' of the current LWP
    775  1.29  thorpej  *	r1	'struct lwp *' of the LWP to switch to
    776  1.29  thorpej  */
    777  1.29  thorpej ENTRY(cpu_switchto)
    778  1.29  thorpej 	stmfd	sp!, {r4-r7, lr}
    779  1.29  thorpej 
    780  1.29  thorpej 	/* Lower the spl level to spl0 and get the current spl level. */
    781  1.29  thorpej 	mov	r6, r0		/* save old lwp */
    782  1.29  thorpej 	mov	r5, r1		/* save new lwp */
    783  1.29  thorpej 
    784  1.29  thorpej #if defined(LOCKDEBUG)
    785  1.29  thorpej 	/* release the sched_lock before handling interrupts */
    786  1.29  thorpej 	bl	_C_LABEL(sched_unlock_idle)
    787  1.29  thorpej #endif
    788  1.29  thorpej 
    789  1.29  thorpej #ifdef __NEWINTR
    790  1.29  thorpej 	mov	r0, #(IPL_NONE)
    791  1.29  thorpej 	bl	_C_LABEL(_spllower)
    792  1.29  thorpej #else /* ! __NEWINTR */
    793  1.29  thorpej #ifdef spl0
    794  1.29  thorpej 	mov	r0, #(_SPL_0)
    795  1.29  thorpej 	bl	_C_LABEL(splx)
    796  1.29  thorpej #else
    797  1.29  thorpej 	bl	_C_LABEL(spl0)
    798  1.29  thorpej #endif /* spl0 */
    799  1.29  thorpej #endif /* __NEWINTR */
    800  1.29  thorpej 
    801  1.29  thorpej 	/* Push the old spl level onto the stack */
    802  1.29  thorpej 	str	r0, [sp, #-0x0004]!
    803  1.29  thorpej 
    804  1.29  thorpej 	IRQdisable
    805  1.29  thorpej #if defined(LOCKDEBUG)
    806  1.29  thorpej 	bl	_C_LABEL(sched_lock_idle)
    807  1.29  thorpej #endif
    808  1.29  thorpej 
    809  1.29  thorpej 	mov	r0, r6		/* restore old lwp */
    810  1.29  thorpej 	mov	r1, r5		/* restore new lwp */
    811  1.29  thorpej 
    812  1.29  thorpej 	/* rem: r0 = old lwp */
    813  1.29  thorpej 	/* rem: r1 = new lwp */
    814  1.29  thorpej 	/* rem: interrupts are disabled */
    815  1.29  thorpej 
    816  1.29  thorpej 	/*
    817  1.29  thorpej 	 * Okay, set up registers the way cpu_switch() wants them,
    818  1.29  thorpej 	 * and jump into the middle of it (where we bring up the
    819  1.29  thorpej 	 * new process).
    820  1.29  thorpej 	 */
    821  1.29  thorpej 	mov	r6, r1			/* r6 = new lwp */
    822  1.29  thorpej #if defined(LOCKDEBUG)
    823  1.29  thorpej 	mov	r5, r0			/* preserve old lwp */
    824  1.29  thorpej 	bl	_C_LABEL(sched_unlock_idle)
    825  1.29  thorpej 	mov	r1, r5			/* r1 = old lwp */
    826  1.29  thorpej #else
    827  1.29  thorpej 	mov	r1, r0			/* r1 = old lwp */
    828  1.29  thorpej #endif
    829  1.29  thorpej 	b	.Lswitch_resume
    830  1.29  thorpej 
    831  1.29  thorpej /*
    832  1.29  thorpej  * void switch_exit(struct lwp *l, struct lwp *l0, void (*exit)(struct lwp *));
    833  1.29  thorpej  * Switch to lwp0's saved context and deallocate the address space and kernel
    834  1.29  thorpej  * stack for l.  Then jump into cpu_switch(), as if we were in lwp0 all along.
    835   1.7    chris  */
    836   1.1    chris 
    837  1.29  thorpej /* LINTSTUB: Func: void switch_exit(struct lwp *l, struct lwp *l0, void (*)(struct lwp *)) */
    838   1.1    chris ENTRY(switch_exit)
    839   1.1    chris 	/*
    840  1.29  thorpej 	 * The process is going away, so we can use callee-saved
    841  1.29  thorpej 	 * registers here without having to save them.
    842   1.1    chris 	 */
    843   1.1    chris 
    844  1.29  thorpej 	mov	r4, r0
    845  1.29  thorpej 	ldr	r0, .Lcurlwp
    846  1.29  thorpej 
    847  1.29  thorpej 	mov	r5, r1
    848  1.29  thorpej 	ldr	r1, .Lblock_userspace_access
    849   1.1    chris 
    850  1.29  thorpej 	mov	r6, r2
    851  1.29  thorpej 
    852  1.29  thorpej 	/*
    853  1.29  thorpej 	 * r4 = lwp
    854  1.29  thorpej 	 * r5 = lwp0
    855  1.29  thorpej 	 * r6 = exit func
    856  1.29  thorpej 	 */
    857  1.29  thorpej 
    858  1.29  thorpej 	mov	r2, #0x00000000		/* curlwp = NULL */
    859   1.1    chris 	str	r2, [r0]
    860   1.1    chris 
    861  1.30      scw 	/*
    862  1.30      scw 	 * We're about to clear both the cache and the TLB.
    863  1.30      scw 	 * Make sure to zap the 'last cache state' pointer since the
    864  1.30      scw 	 * pmap might be about to go away. Also ensure the outgoing
    865  1.30      scw 	 * VM space's cache state is marked as NOT resident in the
    866  1.30      scw 	 * cache, and that lwp0's cache state IS resident.
    867  1.30      scw 	 */
    868  1.30      scw 	ldr	r7, [r4, #(L_ADDR)]		/* r7 = old lwp's PCB */
    869  1.30      scw 	ldr	r0, .Llast_cache_state_ptr	/* Last userland cache state */
    870  1.30      scw 	ldr	r9, [r7, #(PCB_CSTATE)]		/* Fetch cache state pointer */
    871  1.30      scw 	ldr	r3, [r5, #(L_ADDR)]		/* r3 = lwp0's PCB */
    872  1.30      scw 	str	r2, [r0]			/* No previous cache state */
    873  1.30      scw 	str	r2, [r9, #(CS_ALL)]		/* Zap old lwp's cache state */
    874  1.30      scw 	ldr	r3, [r3, #(PCB_CSTATE)]		/* lwp0's cache state */
    875  1.30      scw 	mov	r2, #-1
    876  1.30      scw 	str	r2, [r3, #(CS_ALL)]		/* lwp0 is in da cache! */
    877  1.30      scw 
    878   1.9  thorpej 	/*
    879   1.9  thorpej 	 * Don't allow user space access between the purge and the switch.
    880   1.9  thorpej 	 */
    881   1.9  thorpej 	mov	r2, #0x00000001
    882  1.29  thorpej 	str	r2, [r1]
    883   1.1    chris 
    884  1.30      scw 	/* Switch to lwp0 context */
    885  1.30      scw 
    886  1.30      scw 	ldr	r9, .Lcpufuncs
    887  1.30      scw 	mov	lr, pc
    888  1.30      scw 	ldr	pc, [r9, #CF_IDCACHE_WBINV_ALL]
    889  1.30      scw 
    890  1.30      scw 	ldr	r0, [r7, #(PCB_PL1VEC)]
    891  1.30      scw 	ldr	r1, [r7, #(PCB_DACR)]
    892  1.30      scw 
    893  1.30      scw 	/*
    894  1.30      scw 	 * r0 = Pointer to L1 slot for vector_page (or NULL)
    895  1.30      scw 	 * r1 = lwp0's DACR
    896  1.30      scw 	 * r4 = lwp we're switching from
    897  1.30      scw 	 * r5 = lwp0
    898  1.30      scw 	 * r6 = exit func
    899  1.30      scw 	 * r7 = lwp0's PCB
    900  1.30      scw 	 * r9 = cpufuncs
    901  1.30      scw 	 */
    902  1.30      scw 
    903  1.30      scw 	IRQdisableALL
    904  1.30      scw 
    905  1.30      scw 	/*
    906  1.30      scw 	 * Ensure the vector table is accessible by fixing up lwp0's L1
    907  1.30      scw 	 */
    908  1.30      scw 	cmp	r0, #0			/* No need to fixup vector table? */
    909  1.30      scw 	ldrne	r3, [r0]		/* But if yes, fetch current value */
    910  1.30      scw 	ldrne	r2, [r7, #(PCB_L1VEC)]	/* Fetch new vector_page value */
    911  1.30      scw 	mcr	p15, 0, r1, c3, c0, 0	/* Update DACR for lwp0's context */
    912  1.30      scw 	cmpne	r3, r2			/* Stuffing the same value? */
    913  1.30      scw 	strne	r2, [r0]		/* Store if not. */
    914  1.30      scw 
    915  1.31  thorpej #ifdef PMAP_INCLUDE_PTE_SYNC
    916  1.30      scw 	/*
    917  1.30      scw 	 * Need to sync the cache to make sure that last store is
    918  1.30      scw 	 * visible to the MMU.
    919  1.30      scw 	 */
    920  1.30      scw 	movne	r1, #4
    921  1.30      scw 	movne	lr, pc
    922  1.30      scw 	ldrne	pc, [r9, #CF_DCACHE_WB_RANGE]
    923  1.33  thorpej #endif /* PMAP_INCLUDE_PTE_SYNC */
    924  1.30      scw 
    925  1.30      scw 	/*
    926  1.30      scw 	 * Note: We don't do the same optimisation as cpu_switch() with
    927  1.30      scw 	 * respect to avoiding flushing the TLB if we're switching to
    928  1.30      scw 	 * the same L1 since this process' VM space may be about to go
    929  1.30      scw 	 * away, so we don't want *any* turds left in the TLB.
    930  1.30      scw 	 */
    931  1.30      scw 
    932  1.30      scw 	/* Switch the memory to the new process */
    933  1.30      scw 	ldr	r0, [r7, #(PCB_PAGEDIR)]
    934  1.30      scw 	mov	lr, pc
    935  1.30      scw 	ldr	pc, [r9, #CF_CONTEXT_SWITCH]
    936  1.30      scw 
    937  1.30      scw 	ldr	r0, .Lcurpcb
    938  1.30      scw 
    939  1.30      scw 	/* Restore all the save registers */
    940  1.30      scw 	add	r1, r7, #PCB_R8
    941  1.30      scw 	ldmia	r1, {r8-r13}
    942  1.30      scw 
    943  1.30      scw 	str	r7, [r0]	/* curpcb = lwp0's PCB */
    944  1.30      scw 
    945  1.30      scw 	IRQenableALL
    946   1.1    chris 
    947   1.1    chris 	/*
    948   1.1    chris 	 * Schedule the vmspace and stack to be freed.
    949   1.1    chris 	 */
    950  1.29  thorpej 	mov	r0, r4			/* {lwp_}exit2(l) */
    951  1.29  thorpej 	mov	lr, pc
    952  1.29  thorpej 	mov	pc, r6
    953   1.1    chris 
    954  1.17  thorpej 	ldr	r7, .Lwhichqs		/* r7 = &whichqs */
    955  1.29  thorpej 	mov	r5, #0x00000000		/* r5 = old lwp = NULL */
    956  1.14   briggs 	b	.Lswitch_search
    957   1.1    chris 
    958   1.7    chris /* LINTSTUB: Func: void savectx(struct pcb *pcb) */
    959   1.1    chris ENTRY(savectx)
    960   1.1    chris 	/*
    961   1.1    chris 	 * r0 = pcb
    962   1.1    chris 	 */
    963   1.1    chris 
    964   1.1    chris 	/* Push registers.*/
    965  1.28    bjh21 	stmfd	sp!, {r4-r7, lr}
    966   1.1    chris 
    967   1.1    chris 	/* Store all the registers in the process's pcb */
    968  1.28    bjh21 	add	r2, r0, #(PCB_R8)
    969  1.28    bjh21 	stmia	r2, {r8-r13}
    970   1.1    chris 
    971   1.1    chris 	/* Pull the regs of the stack */
    972  1.28    bjh21 	ldmfd	sp!, {r4-r7, pc}
    973   1.1    chris 
    974   1.1    chris ENTRY(proc_trampoline)
    975  1.19    bjh21 #ifdef MULTIPROCESSOR
    976  1.19    bjh21 	bl	_C_LABEL(proc_trampoline_mp)
    977  1.19    bjh21 #endif
    978   1.1    chris 	mov	r0, r5
    979   1.1    chris 	mov	r1, sp
    980  1.24    bjh21 	mov	lr, pc
    981   1.1    chris 	mov	pc, r4
    982   1.1    chris 
    983   1.1    chris 	/* Kill irq's */
    984  1.13  thorpej         mrs     r0, cpsr
    985   1.1    chris         orr     r0, r0, #(I32_bit)
    986  1.13  thorpej         msr     cpsr_c, r0
    987   1.1    chris 
    988   1.1    chris 	PULLFRAME
    989   1.1    chris 
    990   1.1    chris 	movs	pc, lr			/* Exit */
    991   1.1    chris 
    992  1.17  thorpej 	.type .Lcpu_switch_ffs_table, _ASM_TYPE_OBJECT;
    993  1.17  thorpej .Lcpu_switch_ffs_table:
    994   1.1    chris /* same as ffs table but all nums are -1 from that */
    995   1.1    chris /*               0   1   2   3   4   5   6   7           */
    996   1.1    chris 	.byte	 0,  0,  1, 12,  2,  6,  0, 13  /*  0- 7 */
    997   1.1    chris 	.byte	 3,  0,  7,  0,  0,  0,  0, 14  /*  8-15 */
    998   1.1    chris 	.byte	10,  4,  0,  0,  8,  0,  0, 25  /* 16-23 */
    999   1.1    chris 	.byte	 0,  0,  0,  0,  0, 21, 27, 15  /* 24-31 */
   1000   1.1    chris 	.byte	31, 11,  5,  0,  0,  0,  0,  0	/* 32-39 */
   1001   1.1    chris 	.byte	 9,  0,  0, 24,  0,  0, 20, 26  /* 40-47 */
   1002   1.1    chris 	.byte	30,  0,  0,  0,  0, 23,  0, 19  /* 48-55 */
   1003   1.1    chris 	.byte   29,  0, 22, 18, 28, 17, 16,  0  /* 56-63 */
   1004