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/*  align_h.s   1.1 - 95/12/04
 *
 *  This file contains the assembly code for the PowerPC 403
 *  alignment exception handler for RTEMS.
 *
 *  Based upon IBM provided code with the following release:
 *
 *  This source code has been made available to you by IBM on an AS-IS
 *  basis.  Anyone receiving this source is licensed under IBM
 *  copyrights to use it in any way he or she deems fit, including
 *  copying it, modifying it, compiling it, and redistributing it either
 *  with or without modifications.  No license under IBM patents or
 *  patent applications is to be implied by the copyright license.
 *
 *  Any user of this software should understand that IBM cannot provide
 *  technical support for this software and will not be responsible for
 *  any consequences resulting from the use of this software.
 *
 *  Any person who transfers this source code or any derivative work
 *  must include the IBM copyright notice, this paragraph, and the
 *  preceding two paragraphs in the transferred software.
 *
 *      COPYRIGHT   I B M   CORPORATION 1995
 *      LICENSED MATERIAL  -  PROGRAM PROPERTY OF I B M
 *
 * Modifications:
 *
 *  Author:     Andrew Bray 
 *
 *  COPYRIGHT (c) 1995 by i-cubed ltd.
 *
 *  To anyone who acknowledges that this file is provided "AS IS"
 *  without any express or implied warranty:
 *      permission to use, copy, modify, and distribute this file
 *      for any purpose is hereby granted without fee, provided that
 *      the above copyright notice and this notice appears in all
 *      copies, and that the name of i-cubed limited not be used in
 *      advertising or publicity pertaining to distribution of the
 *      software without specific, written prior permission.
 *      i-cubed limited makes no representations about the suitability
 *      of this software for any purpose.
 *
 *  align_h.S,v 1.3 1999/11/09 03:37:40 joel Exp
 */
 
#include "asm.h"
#define ALIGN_REGS 0x0140
 
 
.set    CACHE_SIZE,16           # cache line size of 32 bytes
.set    CACHE_SIZE_L2,4         # cache line size, log 2
 
.set    Open_gpr0,0
.set    Open_gpr1,4
.set    Open_gpr2,8
.set    Open_gpr3,12
.set    Open_gpr4,16
.set    Open_gpr5,20
.set    Open_gpr6,24
.set    Open_gpr7,28
.set    Open_gpr8,32
.set    Open_gpr9,36
.set    Open_gpr10,40
.set    Open_gpr11,44
.set    Open_gpr12,48
.set    Open_gpr13,52
.set    Open_gpr14,56
.set    Open_gpr15,60
.set    Open_gpr16,64
.set    Open_gpr17,68
.set    Open_gpr18,72
.set    Open_gpr19,76
.set    Open_gpr20,80
.set    Open_gpr21,84
.set    Open_gpr22,88
.set    Open_gpr23,92
.set    Open_gpr24,96
.set    Open_gpr25,100
.set    Open_gpr26,104
.set    Open_gpr27,108
.set    Open_gpr28,112
.set    Open_gpr29,116
.set    Open_gpr30,120
.set    Open_gpr31,124
.set    Open_xer,128
.set    Open_lr,132
.set    Open_ctr,136
.set    Open_cr,140
.set    Open_srr2,144
.set    Open_srr3,148
.set    Open_srr0,152
.set    Open_srr1,156
 
 
/*
 *  This code makes several assumptions for processing efficiency
 *  *  General purpose registers are continuous in the image, beginning with
 *     Open_gpr0
 *  *  Hash table is highly dependent on opcodes - opcode changes *will*
 *     require rework of the instruction decode mechanism.
 */
 
        .text
        .globl  align_h
 
        .align  CACHE_SIZE_L2
align_h:
        /*-----------------------------------------------------------------------
         * Store GPRs in Open Reg save area
         * Set up r2 as base reg, r1 pointing to Open Reg save area
         *----------------------------------------------------------------------*/
        stmw    r0,ALIGN_REGS(r0)
        li      r1,ALIGN_REGS
        /*-----------------------------------------------------------------------
         * Store special purpose registers in reg save area
         *----------------------------------------------------------------------*/
        mfxer   r7
        mflr    r8
        mfcr    r9
        mfctr   r10
        stw     r7,Open_xer(r1)
        stw     r8,Open_lr(r1)
        stw     r9,Open_cr(r1)
        stw     r10,Open_ctr(r1)
        mfspr   r7, srr2                /* SRR 2 */
        mfspr   r8, srr3                /* SRR 3 */
        mfspr   r9, srr0                /* SRR 0 */
        mfspr   r10, srr1               /* SRR 1 */
        stw     r7,Open_srr2(r1)
        stw     r8,Open_srr3(r1)
        stw     r9,Open_srr0(r1)
        stw     r10,Open_srr1(r1)
 
/*      Set up common registers */
        mfspr   r5, dear                /* DEAR: R5 is data exception address */
        lwz     r9,Open_srr0(r1)        /* get faulting instruction */
        addi    r7,r9,4                 /* bump instruction */
        stw     r7,Open_srr0(r1)        /* restore to image */
        lwz     r9, 0(r9)               /* retrieve actual instruction */
        rlwinm  r6,r9,18,25,29          /* r6 is RA * 4 field from instruction */
        rlwinm  r7,r9,6,26,31           /* r7 is primary opcode */
        bl      ref_point               /* establish addressibility */
ref_point:
        mflr    r11                     /* r11 is the anchor point for ref_point */
        addi    r10, r7, -31            /* r10 = r7 - 31 */
        rlwinm  r10,r10,2,2,31          /* r10 *= 4 */
        add     r10, r10, r11           /* r10 += anchor point */
        lwz     r10, primary_jt-ref_point(r10)
        mtlr    r10
        rlwinm  r8,r9,13,25,29          /* r8 is RD * 4 */
        la      r7,Open_gpr0(r1)        /* r7 is address of GPR 0 in list */
        blr
primary_jt:
        .long   xform
        .long   lwz
        .long   lwzu
        .long   0
        .long   0
        .long   stw
        .long   stwu
        .long   0
        .long   0
        .long   lhz
        .long   lhzu
        .long   lha
        .long   lhau
        .long   sth
        .long   sthu
        .long   lmw
        .long   stmw
/*
 *   handlers
 */
/*
 * xform instructions require an additional decode.  Fortunately, a relatively
 * simple hash step breaks the instructions out with no collisions
 */
xform:
        rlwinm  r7,r9,31,22,31          /* r7 is secondary opcode */
        rlwinm  r10,r7,27,5,31          /* r10 = r7 >> 5 */
        add     r10,r7,r10              /* r10 = r7 + r10 */
        rlwinm  r10,r10,2,25,29         /* r10 = (r10 & 0x1F) * 4 */
        add     r10,r10,r11             /* r10 += anchor point */
        lwz     r10, secondary_ht-ref_point(r10)
        mtlr    r10
        la      r7,Open_gpr0(r1)        /* r7 is address of GPR 0 in list */
        rlwinm  r8,r9,13,25,29          /* r8 is RD * 4 */
        blrl
 
secondary_ht:
        .long   lhzux                   /* b 0  0x137 */
        .long   lhax                    /* b 1  0x157 */
        .long   lhaux                   /* b 2  0x177 */
        .long   sthx                    /* b 3  0x197 */
        .long   sthux                   /* b 4  0x1b7 */
        .long   0                       /* b 5 */
        .long   lwbrx                   /* b 6  0x216 */
        .long   0                       /* b 7 */
        .long   0                       /* b 8 */
        .long   0                       /* b 9 */
        .long   stwbrx                  /* b A  0x296 */
        .long   0                       /* b B */
        .long   0                       /* b C */
        .long   0                       /* b D */
        .long   lhbrx                   /* b E   0x316 */
        .long   0                       /* b F */
        .long   0                       /* b 10 */
        .long   0                       /* b 11 */
        .long   sthbrx                  /* b 12  0x396 */
        .long   0                       /* b 13 */
        .long   lwarx                   /* b 14  0x014 */
        .long   dcbz                    /* b 15  0x3f6 */
        .long   0                       /* b 16 */
        .long   lwzx                    /* b 17  0x017 */
        .long   lwzux                   /* b 18  0x037 */
        .long   0                       /* b 19 */
        .long   stwcx                   /* b 1A  0x096 */
        .long   stwx                    /* b 1B  0x097 */
        .long   stwux                   /* b 1C  0x0B7 */
        .long   0                       /* b 1D */
        .long   0                       /* b 1E */
        .long   lhzx                    /* b 1F 0x117 */
 
/*
 * for all handlers
 *       r4 - Addressability to interrupt context
 *       r5 - DEAR address (faulting data address)
 *       r6 - RA field * 4
 *       r7 - Address of GPR 0 in image
 *       r8 - RD field * 4
 *       r9 - Failing instruction
 */
 
/*       Load halfword algebraic with update */
lhau:
/*       Load halfword algebraic with update indexed */
lhaux:
        stwx    r5,r7,r6                /* update RA with effective addr */
 
/*       Load halfword algebraic */
lha:
/*       Load halfword algebraic indexed */
lhax:
        lswi    r10,r5,2                /* load two bytes into r10 */
        srawi   r10,r10,16              /* shift right 2 bytes, extending sign */
        stwx    r10,r7,r8               /* update reg image */
        b       align_complete          /* return */
 
/*       Load Half Word Byte-Reversed Indexed */
lhbrx:
        lswi    r10,r5,2                /* load two bytes from DEAR into r10 */
        rlwinm  r10,r10,0,0,15          /* mask off lower 2 bytes */
        stwbrx  r10,r7,r8               /* store reversed in reg image */
        b       align_complete          /* return */
 
/*       Load Half Word and Zero with Update */
lhzu:
/*       Load Half Word and Zero with Update Indexed */
lhzux:
        stwx    r5,r7,r6                /* update RA with effective addr */
 
/*       Load Half Word and Zero */
lhz:
/*       Load Half Word and Zero Indexed */
lhzx:
        lswi    r10,r5,2                /* load two bytes from DEAR into r10 */
        rlwinm  r10,r10,16,16,31        /* shift right 2 bytes, with zero fill */
        stwx    r10,r7,r8               /* update reg image */
        b       align_complete          /* return */
 
/*
 *       Load Multiple Word
 */
lmw:
        lwzx    r9,r6,r7                /* R9 contains saved value of RA */
        addi    r10,r7,32*4             /* r10 points to r31 in image  + 4 */
        rlwinm  r8,r8,30,2,31           /* r8 >>= 2  (recovers RT) */
        subfic  r8,r8,32                /* r8 is reg count to load */
        mtctr   r8                      /* load counter */
        addi    r8,r8,-1                /* r8-- */
        rlwinm  r8,r8,2,2,31            /* r8 *= 4 */
        add     r5,r5,r8                /* update DEAR to point to last reg */
lwmloop:
        lswi    r11,r5,4                /* load r11 with 4 bytes from DEAR */
        stwu    r11,-4(r10)             /* load image and decrement pointer */
        addi    r5,r5,-4                /* decrement effective address */
        bdnz    lwmloop
        stwx    r9,r6,r7                /* restore RA (in case it was trashed) */
        b       align_complete          /* return */
 
/*
 *       Load Word and Reserve Indexed
 */
lwarx:
        lswi    r10,r5,4                /* load four bytes from DEAR into r10 */
        stwx    r10,r7,r8               /* update reg image */
        rlwinm  r5,r5,0,0,29            /* Word align address */
        lwarx   r10,0,r5                /* Set reservation */
        b       align_complete          /* return */
 
/*
 *       Load Word Byte-Reversed Indexed
 */
lwbrx:
        lswi    r10,r5,4                /* load four bytes from DEAR into r10 */
        stwbrx  r10,r7,r8               /* store reversed in reg image */
        b       align_complete          /* return */
 
/*       Load Word and Zero with Update */
lwzu:
/*       Load Word and Zero with Update Indexed */
lwzux:
        stwx    r5,r7,r6                /* update RA with effective addr */
 
/*       Load Word and Zero */
lwz:
/*       Load Word and Zero Indexed */
lwzx:
        lswi    r10,r5,4                /* load four bytes from DEAR into r10 */
        stwx    r10,r7,r8               /* update reg image */
        b       align_complete          /* return */
 
/*    Store instructions */
 
/* */
/*       Store Half Word and Update */
sthu:
/*       Store Half Word and Update Indexed */
sthux:
        stwx    r5,r7,r6                /* Update RA with effective address */
 
/*       Store Half Word */
sth:
/*       Store Half Word Indexed */
sthx:
        lwzx    r10,r8,r7               /* retrieve source register value */
        rlwinm  r10,r10,16,0,15         /* move two bytes to high end of reg */
        stswi   r10,r5,2                /* store bytes to DEAR address */
        b       align_complete          /* return */
 
/* */
/*       Store Half Word Byte-Reversed Indexed */
sthbrx:
        lwbrx   r10,r8,r7               /* retrieve src reg value byte reversed */
        stswi   r10,r5,2                /* move two bytes to DEAR address */
        b       align_complete          /* return */
 
/* */
/*       Store Multiple Word */
stmw:
        addi    r10,r7,32*4             /* r10 points to r31 in image  + 4 */
        rlwinm  r8,r8,30,2,31           /* r8 >>= 2  (recovers RT) */
        subfic  r8,r8,32                /* r8 is reg count to load */
        mtctr   r8                      /* load counter */
        addi    r8,r8,-1                /* r8-- */
        rlwinm  r8,r8,2,2,31            /* r8 *= 4 */
        add     r5,r5,r8                /* update DEAR to point to last reg */
stmloop:
        lwzu    r11,-4(r10)             /* get register value */
        stswi   r11,r5,4                /* output to DEAR address */
        addi    r5,r5,-4                /* decrement effective address */
        bdnz    stmloop
        b       align_complete          /* return */
 
/* */
/*       Store Word and Update */
stwu:
/*       Store Word and Update Indexed */
stwux:
        stwx    r5,r7,r6                /* Update RA with effective address */
 
/*       Store Word */
stw:
/*       Store Word Indexed */
stwx:
        lwzx    r10,r8,r7               /* retrieve source register value */
        stswi   r10,r5,4                /* store bytes to DEAR address */
        b       align_complete          /* return */
 
/* */
/*       Store Word Byte-Reversed Indexed */
stwbrx:
        lwbrx   r10,r8,r7               /* retrieve src reg value byte reversed */
        stswi   r10,r5,4                /* move two bytes to DEAR address */
        b       align_complete          /* return */
 
/* */
/*       Store Word Conditional Indexed */
stwcx:
        rlwinm  r10,r5,0,0,29           /* r10 = word aligned DEAR */
        lwz     r11,0(r10)              /* save original value of store */
        stwcx.  r11,r0,r10              /* attempt store to address */
        bne     stwcx_moveon            /* store failed, move on */
        stw     r11,0(r10)              /* repair damage */
        lwzx    r9,r7,r8                /* get register value */
        stswi   r10,r5,4                /* store bytes to DEAR address */
stwcx_moveon:
        mfcr    r11                     /* get condition reg */
        lwz     r9,Open_cr(r1)          /* get condition reg image */
        rlwimi  r9,r11,0,0,2            /* insert 3 CR bits into cr image */
        lwz     r11,Open_xer(r1)        /* get XER reg */
        rlwimi  r9,r11,29,2,2           /* insert XER SO bit into cr image */
        stw     r9,Open_cr(r1)          /* store cr image */
        b       align_complete          /* return */
 
/* */
/*       Data Cache Block Zero */
dcbz:
        rlwinm  r5,r5,0,0,31-CACHE_SIZE_L2
                                        /* get address to nearest Cache line */
        addi    r5,r5,-4                /* adjust by a word */
        addi    r10,r0,CACHE_SIZE/4     /* set counter value */
        mtctr   r10
        addi    r11,r0,0                /* r11 = 0 */
dcbz_loop:
        stwu    r11,4(r5)               /* store a word and update EA */
        bdnz    dcbz_loop
        b       align_complete          /* return */
 
align_complete:
        /*-----------------------------------------------------------------------
         * Restore regs and return from the interrupt
         *----------------------------------------------------------------------*/
        lmw     r24,Open_xer+ALIGN_REGS(r0)
        mtxer   r24
        mtlr    r25
        mtctr   r26
        mtcrf   0xFF, r27
        mtspr   srr2, r28               /* SRR 2 */
        mtspr   srr3, r29               /* SRR 3 */
        mtspr   srr0, r30               /* SRR 0 */
        mtspr   srr1, r31               /* SRR 1 */
        lmw     r1,Open_gpr1+ALIGN_REGS(r0)
        lwz     r0,Open_gpr0+ALIGN_REGS(r0)
        rfi

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[/] [or1k/] [trunk/] [rtems-20020807/] [c/] [src/] [lib/] [libcpu/] [powerpc/] [ppc403/] [vectors/] [align_h.S] - Blame information for rev 1765

Line No.	Rev	Author	Line
1	1026	ivang	`/* align_h.s 1.1 - 95/12/04`
2			`*`
3			`* This file contains the assembly code for the PowerPC 403`
4			`* alignment exception handler for RTEMS.`
5			`*`
6			`* Based upon IBM provided code with the following release:`
7			`*`
8			`* This source code has been made available to you by IBM on an AS-IS`
9			`* basis. Anyone receiving this source is licensed under IBM`
10			`* copyrights to use it in any way he or she deems fit, including`
11			`* copying it, modifying it, compiling it, and redistributing it either`
12			`* with or without modifications. No license under IBM patents or`
13			`* patent applications is to be implied by the copyright license.`
14			`*`
15			`* Any user of this software should understand that IBM cannot provide`
16			`* technical support for this software and will not be responsible for`
17			`* any consequences resulting from the use of this software.`
18			`*`
19			`* Any person who transfers this source code or any derivative work`
20			`* must include the IBM copyright notice, this paragraph, and the`
21			`* preceding two paragraphs in the transferred software.`
22			`*`
23			`* COPYRIGHT I B M CORPORATION 1995`
24			`* LICENSED MATERIAL - PROGRAM PROPERTY OF I B M`
25			`*`
26			`* Modifications:`
27			`*`
28			`* Author: Andrew Bray`
29			`*`
30			`* COPYRIGHT (c) 1995 by i-cubed ltd.`
31			`*`
32			`* To anyone who acknowledges that this file is provided "AS IS"`
33			`* without any express or implied warranty:`
34			`* permission to use, copy, modify, and distribute this file`
35			`* for any purpose is hereby granted without fee, provided that`
36			`* the above copyright notice and this notice appears in all`
37			`* copies, and that the name of i-cubed limited not be used in`
38			`* advertising or publicity pertaining to distribution of the`
39			`* software without specific, written prior permission.`
40			`* i-cubed limited makes no representations about the suitability`
41			`* of this software for any purpose.`
42			`*`
43			`* align_h.S,v 1.3 1999/11/09 03:37:40 joel Exp`
44			`*/`
45
46			`#include "asm.h"`
47			`#define ALIGN_REGS 0x0140`
48
49
50			`.set CACHE_SIZE,16 # cache line size of 32 bytes`
51			`.set CACHE_SIZE_L2,4 # cache line size, log 2`
52
53			`.set Open_gpr0,0`
54			`.set Open_gpr1,4`
55			`.set Open_gpr2,8`
56			`.set Open_gpr3,12`
57			`.set Open_gpr4,16`
58			`.set Open_gpr5,20`
59			`.set Open_gpr6,24`
60			`.set Open_gpr7,28`
61			`.set Open_gpr8,32`
62			`.set Open_gpr9,36`
63			`.set Open_gpr10,40`
64			`.set Open_gpr11,44`
65			`.set Open_gpr12,48`
66			`.set Open_gpr13,52`
67			`.set Open_gpr14,56`
68			`.set Open_gpr15,60`
69			`.set Open_gpr16,64`
70			`.set Open_gpr17,68`
71			`.set Open_gpr18,72`
72			`.set Open_gpr19,76`
73			`.set Open_gpr20,80`
74			`.set Open_gpr21,84`
75			`.set Open_gpr22,88`
76			`.set Open_gpr23,92`
77			`.set Open_gpr24,96`
78			`.set Open_gpr25,100`
79			`.set Open_gpr26,104`
80			`.set Open_gpr27,108`
81			`.set Open_gpr28,112`
82			`.set Open_gpr29,116`
83			`.set Open_gpr30,120`
84			`.set Open_gpr31,124`
85			`.set Open_xer,128`
86			`.set Open_lr,132`
87			`.set Open_ctr,136`
88			`.set Open_cr,140`
89			`.set Open_srr2,144`
90			`.set Open_srr3,148`
91			`.set Open_srr0,152`
92			`.set Open_srr1,156`
93
94
95			`/*`
96			`* This code makes several assumptions for processing efficiency`
97			`* * General purpose registers are continuous in the image, beginning with`
98			`* Open_gpr0`
99			`* * Hash table is highly dependent on opcodes - opcode changes will`
100			`* require rework of the instruction decode mechanism.`
101			`*/`
102
103			`.text`
104			`.globl align_h`
105
106			`.align CACHE_SIZE_L2`
107			`align_h:`
108			`/*-----------------------------------------------------------------------`
109			`* Store GPRs in Open Reg save area`
110			`* Set up r2 as base reg, r1 pointing to Open Reg save area`
111			`----------------------------------------------------------------------/`
112			`stmw r0,ALIGN_REGS(r0)`
113			`li r1,ALIGN_REGS`
114			`/*-----------------------------------------------------------------------`
115			`* Store special purpose registers in reg save area`
116			`----------------------------------------------------------------------/`
117			`mfxer r7`
118			`mflr r8`
119			`mfcr r9`
120			`mfctr r10`
121			`stw r7,Open_xer(r1)`
122			`stw r8,Open_lr(r1)`
123			`stw r9,Open_cr(r1)`
124			`stw r10,Open_ctr(r1)`
125			`mfspr r7, srr2 /* SRR 2 */`
126			`mfspr r8, srr3 /* SRR 3 */`
127			`mfspr r9, srr0 /* SRR 0 */`
128			`mfspr r10, srr1 /* SRR 1 */`
129			`stw r7,Open_srr2(r1)`
130			`stw r8,Open_srr3(r1)`
131			`stw r9,Open_srr0(r1)`
132			`stw r10,Open_srr1(r1)`
133
134			`/* Set up common registers */`
135			`mfspr r5, dear /* DEAR: R5 is data exception address */`
136			`lwz r9,Open_srr0(r1) /* get faulting instruction */`
137			`addi r7,r9,4 /* bump instruction */`
138			`stw r7,Open_srr0(r1) /* restore to image */`
139			`lwz r9, 0(r9) /* retrieve actual instruction */`
140			`rlwinm r6,r9,18,25,29 /* r6 is RA * 4 field from instruction */`
141			`rlwinm r7,r9,6,26,31 /* r7 is primary opcode */`
142			`bl ref_point /* establish addressibility */`
143			`ref_point:`
144			`mflr r11 /* r11 is the anchor point for ref_point */`
145			`addi r10, r7, -31 /* r10 = r7 - 31 */`
146			`rlwinm r10,r10,2,2,31 /* r10 = 4 /`
147			`add r10, r10, r11 /* r10 += anchor point */`
148			`lwz r10, primary_jt-ref_point(r10)`
149			`mtlr r10`
150			`rlwinm r8,r9,13,25,29 /* r8 is RD * 4 */`
151			`la r7,Open_gpr0(r1) /* r7 is address of GPR 0 in list */`
152			`blr`
153			`primary_jt:`
154			`.long xform`
155			`.long lwz`
156			`.long lwzu`
157			`.long 0`
158			`.long 0`
159			`.long stw`
160			`.long stwu`
161			`.long 0`
162			`.long 0`
163			`.long lhz`
164			`.long lhzu`
165			`.long lha`
166			`.long lhau`
167			`.long sth`
168			`.long sthu`
169			`.long lmw`
170			`.long stmw`
171			`/*`
172			`* handlers`
173			`*/`
174			`/*`
175			`* xform instructions require an additional decode. Fortunately, a relatively`
176			`* simple hash step breaks the instructions out with no collisions`
177			`*/`
178			`xform:`
179			`rlwinm r7,r9,31,22,31 /* r7 is secondary opcode */`
180			`rlwinm r10,r7,27,5,31 /* r10 = r7 >> 5 */`
181			`add r10,r7,r10 /* r10 = r7 + r10 */`
182			`rlwinm r10,r10,2,25,29 /* r10 = (r10 & 0x1F) * 4 */`
183			`add r10,r10,r11 /* r10 += anchor point */`
184			`lwz r10, secondary_ht-ref_point(r10)`
185			`mtlr r10`
186			`la r7,Open_gpr0(r1) /* r7 is address of GPR 0 in list */`
187			`rlwinm r8,r9,13,25,29 /* r8 is RD * 4 */`
188			`blrl`
189
190			`secondary_ht:`
191			`.long lhzux /* b 0 0x137 */`
192			`.long lhax /* b 1 0x157 */`
193			`.long lhaux /* b 2 0x177 */`
194			`.long sthx /* b 3 0x197 */`
195			`.long sthux /* b 4 0x1b7 */`
196			`.long 0 /* b 5 */`
197			`.long lwbrx /* b 6 0x216 */`
198			`.long 0 /* b 7 */`
199			`.long 0 /* b 8 */`
200			`.long 0 /* b 9 */`
201			`.long stwbrx /* b A 0x296 */`
202			`.long 0 /* b B */`
203			`.long 0 /* b C */`
204			`.long 0 /* b D */`
205			`.long lhbrx /* b E 0x316 */`
206			`.long 0 /* b F */`
207			`.long 0 /* b 10 */`
208			`.long 0 /* b 11 */`
209			`.long sthbrx /* b 12 0x396 */`
210			`.long 0 /* b 13 */`
211			`.long lwarx /* b 14 0x014 */`
212			`.long dcbz /* b 15 0x3f6 */`
213			`.long 0 /* b 16 */`
214			`.long lwzx /* b 17 0x017 */`
215			`.long lwzux /* b 18 0x037 */`
216			`.long 0 /* b 19 */`
217			`.long stwcx /* b 1A 0x096 */`
218			`.long stwx /* b 1B 0x097 */`
219			`.long stwux /* b 1C 0x0B7 */`
220			`.long 0 /* b 1D */`
221			`.long 0 /* b 1E */`
222			`.long lhzx /* b 1F 0x117 */`
223
224			`/*`
225			`* for all handlers`
226			`* r4 - Addressability to interrupt context`
227			`* r5 - DEAR address (faulting data address)`
228			`* r6 - RA field * 4`
229			`* r7 - Address of GPR 0 in image`
230			`* r8 - RD field * 4`
231			`* r9 - Failing instruction`
232			`*/`
233
234			`/* Load halfword algebraic with update */`
235			`lhau:`
236			`/* Load halfword algebraic with update indexed */`
237			`lhaux:`
238			`stwx r5,r7,r6 /* update RA with effective addr */`
239
240			`/* Load halfword algebraic */`
241			`lha:`
242			`/* Load halfword algebraic indexed */`
243			`lhax:`
244			`lswi r10,r5,2 /* load two bytes into r10 */`
245			`srawi r10,r10,16 /* shift right 2 bytes, extending sign */`
246			`stwx r10,r7,r8 /* update reg image */`
247			`b align_complete /* return */`
248
249			`/* Load Half Word Byte-Reversed Indexed */`
250			`lhbrx:`
251			`lswi r10,r5,2 /* load two bytes from DEAR into r10 */`
252			`rlwinm r10,r10,0,0,15 /* mask off lower 2 bytes */`
253			`stwbrx r10,r7,r8 /* store reversed in reg image */`
254			`b align_complete /* return */`
255
256			`/* Load Half Word and Zero with Update */`
257			`lhzu:`
258			`/* Load Half Word and Zero with Update Indexed */`
259			`lhzux:`
260			`stwx r5,r7,r6 /* update RA with effective addr */`
261
262			`/* Load Half Word and Zero */`
263			`lhz:`
264			`/* Load Half Word and Zero Indexed */`
265			`lhzx:`
266			`lswi r10,r5,2 /* load two bytes from DEAR into r10 */`
267			`rlwinm r10,r10,16,16,31 /* shift right 2 bytes, with zero fill */`
268			`stwx r10,r7,r8 /* update reg image */`
269			`b align_complete /* return */`
270
271			`/*`
272			`* Load Multiple Word`
273			`*/`
274			`lmw:`
275			`lwzx r9,r6,r7 /* R9 contains saved value of RA */`
276			`addi r10,r7,324 / r10 points to r31 in image + 4 */`
277			`rlwinm r8,r8,30,2,31 /* r8 >>= 2 (recovers RT) */`
278			`subfic r8,r8,32 /* r8 is reg count to load */`
279			`mtctr r8 /* load counter */`
280			`addi r8,r8,-1 /* r8-- */`
281			`rlwinm r8,r8,2,2,31 /* r8 = 4 /`
282			`add r5,r5,r8 /* update DEAR to point to last reg */`
283			`lwmloop:`
284			`lswi r11,r5,4 /* load r11 with 4 bytes from DEAR */`
285			`stwu r11,-4(r10) /* load image and decrement pointer */`
286			`addi r5,r5,-4 /* decrement effective address */`
287			`bdnz lwmloop`
288			`stwx r9,r6,r7 /* restore RA (in case it was trashed) */`
289			`b align_complete /* return */`
290
291			`/*`
292			`* Load Word and Reserve Indexed`
293			`*/`
294			`lwarx:`
295			`lswi r10,r5,4 /* load four bytes from DEAR into r10 */`
296			`stwx r10,r7,r8 /* update reg image */`
297			`rlwinm r5,r5,0,0,29 /* Word align address */`
298			`lwarx r10,0,r5 /* Set reservation */`
299			`b align_complete /* return */`
300
301			`/*`
302			`* Load Word Byte-Reversed Indexed`
303			`*/`
304			`lwbrx:`
305			`lswi r10,r5,4 /* load four bytes from DEAR into r10 */`
306			`stwbrx r10,r7,r8 /* store reversed in reg image */`
307			`b align_complete /* return */`
308
309			`/* Load Word and Zero with Update */`
310			`lwzu:`
311			`/* Load Word and Zero with Update Indexed */`
312			`lwzux:`
313			`stwx r5,r7,r6 /* update RA with effective addr */`
314
315			`/* Load Word and Zero */`
316			`lwz:`
317			`/* Load Word and Zero Indexed */`
318			`lwzx:`
319			`lswi r10,r5,4 /* load four bytes from DEAR into r10 */`
320			`stwx r10,r7,r8 /* update reg image */`
321			`b align_complete /* return */`
322
323			`/* Store instructions */`
324
325			`/* */`
326			`/* Store Half Word and Update */`
327			`sthu:`
328			`/* Store Half Word and Update Indexed */`
329			`sthux:`
330			`stwx r5,r7,r6 /* Update RA with effective address */`
331
332			`/* Store Half Word */`
333			`sth:`
334			`/* Store Half Word Indexed */`
335			`sthx:`
336			`lwzx r10,r8,r7 /* retrieve source register value */`
337			`rlwinm r10,r10,16,0,15 /* move two bytes to high end of reg */`
338			`stswi r10,r5,2 /* store bytes to DEAR address */`
339			`b align_complete /* return */`
340
341			`/* */`
342			`/* Store Half Word Byte-Reversed Indexed */`
343			`sthbrx:`
344			`lwbrx r10,r8,r7 /* retrieve src reg value byte reversed */`
345			`stswi r10,r5,2 /* move two bytes to DEAR address */`
346			`b align_complete /* return */`
347
348			`/* */`
349			`/* Store Multiple Word */`
350			`stmw:`
351			`addi r10,r7,324 / r10 points to r31 in image + 4 */`
352			`rlwinm r8,r8,30,2,31 /* r8 >>= 2 (recovers RT) */`
353			`subfic r8,r8,32 /* r8 is reg count to load */`
354			`mtctr r8 /* load counter */`
355			`addi r8,r8,-1 /* r8-- */`
356			`rlwinm r8,r8,2,2,31 /* r8 = 4 /`
357			`add r5,r5,r8 /* update DEAR to point to last reg */`
358			`stmloop:`
359			`lwzu r11,-4(r10) /* get register value */`
360			`stswi r11,r5,4 /* output to DEAR address */`
361			`addi r5,r5,-4 /* decrement effective address */`
362			`bdnz stmloop`
363			`b align_complete /* return */`
364
365			`/* */`
366			`/* Store Word and Update */`
367			`stwu:`
368			`/* Store Word and Update Indexed */`
369			`stwux:`
370			`stwx r5,r7,r6 /* Update RA with effective address */`
371
372			`/* Store Word */`
373			`stw:`
374			`/* Store Word Indexed */`
375			`stwx:`
376			`lwzx r10,r8,r7 /* retrieve source register value */`
377			`stswi r10,r5,4 /* store bytes to DEAR address */`
378			`b align_complete /* return */`
379
380			`/* */`
381			`/* Store Word Byte-Reversed Indexed */`
382			`stwbrx:`
383			`lwbrx r10,r8,r7 /* retrieve src reg value byte reversed */`
384			`stswi r10,r5,4 /* move two bytes to DEAR address */`
385			`b align_complete /* return */`
386
387			`/* */`
388			`/* Store Word Conditional Indexed */`
389			`stwcx:`
390			`rlwinm r10,r5,0,0,29 /* r10 = word aligned DEAR */`
391			`lwz r11,0(r10) /* save original value of store */`
392			`stwcx. r11,r0,r10 /* attempt store to address */`
393			`bne stwcx_moveon /* store failed, move on */`
394			`stw r11,0(r10) /* repair damage */`
395			`lwzx r9,r7,r8 /* get register value */`
396			`stswi r10,r5,4 /* store bytes to DEAR address */`
397			`stwcx_moveon:`
398			`mfcr r11 /* get condition reg */`
399			`lwz r9,Open_cr(r1) /* get condition reg image */`
400			`rlwimi r9,r11,0,0,2 /* insert 3 CR bits into cr image */`
401			`lwz r11,Open_xer(r1) /* get XER reg */`
402			`rlwimi r9,r11,29,2,2 /* insert XER SO bit into cr image */`
403			`stw r9,Open_cr(r1) /* store cr image */`
404			`b align_complete /* return */`
405
406			`/* */`
407			`/* Data Cache Block Zero */`
408			`dcbz:`
409			`rlwinm r5,r5,0,0,31-CACHE_SIZE_L2`
410			`/* get address to nearest Cache line */`
411			`addi r5,r5,-4 /* adjust by a word */`
412			`addi r10,r0,CACHE_SIZE/4 /* set counter value */`
413			`mtctr r10`
414			`addi r11,r0,0 /* r11 = 0 */`
415			`dcbz_loop:`
416			`stwu r11,4(r5) /* store a word and update EA */`
417			`bdnz dcbz_loop`
418			`b align_complete /* return */`
419
420			`align_complete:`
421			`/*-----------------------------------------------------------------------`
422			`* Restore regs and return from the interrupt`
423			`----------------------------------------------------------------------/`
424			`lmw r24,Open_xer+ALIGN_REGS(r0)`
425			`mtxer r24`
426			`mtlr r25`
427			`mtctr r26`
428			`mtcrf 0xFF, r27`
429			`mtspr srr2, r28 /* SRR 2 */`
430			`mtspr srr3, r29 /* SRR 3 */`
431			`mtspr srr0, r30 /* SRR 0 */`
432			`mtspr srr1, r31 /* SRR 1 */`
433			`lmw r1,Open_gpr1+ALIGN_REGS(r0)`
434			`lwz r0,Open_gpr0+ALIGN_REGS(r0)`
435			`rfi`