2358 lines
74 KiB
ArmAsm
2358 lines
74 KiB
ArmAsm
/*
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* Copyright (c) 2003, 2004, 2005
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* The Regents of The University of Michigan
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* All Rights Reserved
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*
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* This code is part of the M5 simulator, developed by Nathan Binkert,
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* Erik Hallnor, Steve Raasch, and Steve Reinhardt, with contributions
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* from Ron Dreslinski, Dave Greene, Lisa Hsu, Ali Saidi, and Andrew
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* Schultz.
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*
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* Permission is granted to use, copy, create derivative works and
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* redistribute this software and such derivative works for any
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* purpose, so long as the copyright notice above, this grant of
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* permission, and the disclaimer below appear in all copies made; and
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* so long as the name of The University of Michigan is not used in
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* any advertising or publicity pertaining to the use or distribution
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* of this software without specific, written prior authorization.
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*
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* THIS SOFTWARE IS PROVIDED AS IS, WITHOUT REPRESENTATION FROM THE
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* UNIVERSITY OF MICHIGAN AS TO ITS FITNESS FOR ANY PURPOSE, AND
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* WITHOUT WARRANTY BY THE UNIVERSITY OF MICHIGAN OF ANY KIND, EITHER
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* EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE. THE REGENTS OF THE UNIVERSITY OF MICHIGAN SHALL NOT BE
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* LIABLE FOR ANY DAMAGES, INCLUDING DIRECT, SPECIAL, INDIRECT,
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* INCIDENTAL, OR CONSEQUENTIAL DAMAGES, WITH RESPECT TO ANY CLAIM
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* ARISING OUT OF OR IN CONNECTION WITH THE USE OF THE SOFTWARE, EVEN
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* IF IT HAS BEEN OR IS HEREAFTER ADVISED OF THE POSSIBILITY OF SUCH
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* DAMAGES.
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*/
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/*
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* Copyright 1993 Hewlett-Packard Development Company, L.P.
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*
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* Permission is hereby granted, free of charge, to any person
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* obtaining a copy of this software and associated documentation
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* files (the "Software"), to deal in the Software without
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* restriction, including without limitation the rights to use, copy,
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* modify, merge, publish, distribute, sublicense, and/or sell copies
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* of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be
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* included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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#define max_cpuid 1
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#define hw_rei_spe hw_rei
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#include "ev5_defs.h"
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#include "ev5_impure.h"
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#include "ev5_alpha_defs.h"
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#include "ev5_paldef.h"
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#include "ev5_osfalpha_defs.h"
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#include "fromHudsonMacros.h"
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#include "fromHudsonOsf.h"
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#include "dc21164FromGasSources.h"
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#include "cserve.h"
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#include "tlaser.h"
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#define pt_entInt pt_entint
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#define pt_entArith pt_entarith
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#define mchk_size ((mchk_cpu_base + 7 + 8) &0xfff8)
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#define mchk_flag CNS_Q_FLAG
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#define mchk_sys_base 56
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#define mchk_cpu_base (CNS_Q_LD_LOCK + 8)
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#define mchk_offsets CNS_Q_EXC_ADDR
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#define mchk_mchk_code 8
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#define mchk_ic_perr_stat CNS_Q_ICPERR_STAT
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#define mchk_dc_perr_stat CNS_Q_DCPERR_STAT
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#define mchk_sc_addr CNS_Q_SC_ADDR
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#define mchk_sc_stat CNS_Q_SC_STAT
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#define mchk_ei_addr CNS_Q_EI_ADDR
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#define mchk_bc_tag_addr CNS_Q_BC_TAG_ADDR
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#define mchk_fill_syn CNS_Q_FILL_SYN
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#define mchk_ei_stat CNS_Q_EI_STAT
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#define mchk_exc_addr CNS_Q_EXC_ADDR
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#define mchk_ld_lock CNS_Q_LD_LOCK
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#define osfpcb_q_Ksp pcb_q_ksp
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#define pal_impure_common_size ((0x200 + 7) & 0xfff8)
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#if defined(BIG_TSUNAMI)
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#define MAXPROC 0x3f
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#define IPIQ_addr 0x800
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#define IPIQ_shift 0
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#define IPIR_addr 0x840
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#define IPIR_shift 0
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#define RTC_addr 0x880
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#define RTC_shift 0
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#define DIR_addr 0xa2
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#elif defined(TSUNAMI)
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#define MAXPROC 0x3
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#define IPIQ_addr 0x080
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#define IPIQ_shift 12
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#define IPIR_addr 0x080
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#define IPIR_shift 8
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#define RTC_addr 0x080
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#define RTC_shift 4
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#define DIR_addr 0xa0
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#elif defined(TLASER)
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#define MAXPROC 0xf
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#else
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#error Must define BIG_TSUNAMI, TSUNAMI, or TLASER
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#endif
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#define ALIGN_BLOCK \
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.align 5
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#define ALIGN_BRANCH \
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.align 3
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#define EXPORT(_x) \
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.align 5; \
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.globl _x; \
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_x:
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// XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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// XXX the following is 'made up'
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// XXX bugnion
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// XXX bugnion not sure how to align 'quad'
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#define ALIGN_QUAD \
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.align 3
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#define ALIGN_128 \
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.align 7
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#define GET_IMPURE(_r) mfpr _r,pt_impure
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#define GET_ADDR(_r1,_off,_r2) lda _r1,_off(_r2)
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#define BIT(_x) (1<<(_x))
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// System specific code - beh model version
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//
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//
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// Entry points
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// SYS_CFLUSH - Cache flush
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// SYS_CSERVE - Console service
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// SYS_WRIPIR - interprocessor interrupts
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// SYS_HALT_INTERRUPT - Halt interrupt
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// SYS_PASSIVE_RELEASE - Interrupt, passive release
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// SYS_INTERRUPT - Interrupt
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// SYS_RESET - Reset
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// SYS_ENTER_CONSOLE
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//
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//
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// Macro to read TLINTRSUMx
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//
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// Based on the CPU_NUMBER, read either the TLINTRSUM0 or TLINTRSUM1 register
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//
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// Assumed register usage:
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// rsum TLINTRSUMx contents
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// raddr node space address
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// scratch scratch register
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//
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#define Read_TLINTRSUMx(_rsum, _raddr, _scratch) \
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nop; \
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mfpr _scratch, pt_whami; /* Get our whami (VID) */ \
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extbl _scratch, 1, _scratch; /* shift down to bit 0 */ \
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lda _raddr, 0xff88(zero); /* Get base node space address bits */ \
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sll _raddr, 24, _raddr; /* Shift up to proper position */ \
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srl _scratch, 1, _rsum; /* Shift off the cpu number */ \
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sll _rsum, 22, _rsum; /* Get our node offset */ \
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addq _raddr, _rsum, _raddr; /* Get our base node space address */ \
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blbs _scratch, 1f; \
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lda _raddr, 0x1180(_raddr); \
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br r31, 2f; \
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1: lda _raddr, 0x11c0(_raddr); \
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2: ldl_p _rsum, 0(_raddr) /* read the right tlintrsum reg */
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//
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// Macro to write TLINTRSUMx
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//
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// Based on the CPU_NUMBER, write either the TLINTRSUM0 or TLINTRSUM1 register
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//
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// Assumed register usage:
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// rsum TLINTRSUMx write data
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// raddr node space address
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// scratch scratch register
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//
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#define Write_TLINTRSUMx(_rsum,_raddr,_whami) \
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nop; \
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mfpr _whami, pt_whami; /* Get our whami (VID) */ \
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extbl _whami, 1, _whami; /* shift down to bit 0 */ \
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lda _raddr, 0xff88(zero); /* Get base node space address bits */ \
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sll _raddr, 24, _raddr; /* Shift up to proper position */ \
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blbs _whami, 1f; \
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lda _raddr, 0x1180(_raddr); \
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br zero, 2f; \
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1: lda _raddr, 0x11c0(_raddr); \
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2: srl _whami, 1, _whami; /* Get our node offset */ \
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addq _raddr, _whami, _raddr; /* Get our base node space address */ \
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mb; \
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stq_p _rsum, 0(_raddr); /* write the right tlintrsum reg */ \
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ldq_p _rsum, 0(_raddr); /* dummy read to tlintrsum */ \
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bis _rsum, _rsum, _rsum /* needed to complete the ldqp above */
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//
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// Macro to determine highest priority TIOP Node ID from interrupt pending mask
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//
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// Assumed register usage:
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// rmask - TLINTRSUMx contents, shifted to isolate IOx bits
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// rid - TLSB Node ID of highest TIOP
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//
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#define Intr_Find_TIOP(_rmask,_rid) \
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srl _rmask,3,_rid; /* check IOP8 */ \
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blbc _rid,1f; /* not IOP8 */ \
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lda _rid,8(zero); /* IOP8 */ \
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br zero,6f; \
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1: srl _rmask,3,_rid; /* check IOP7 */ \
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blbc _rid, 2f; /* not IOP7 */ \
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lda _rid, 7(r31); /* IOP7 */ \
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br r31, 6f; \
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2: srl _rmask, 2, _rid; /* check IOP6 */ \
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blbc _rid, 3f; /* not IOP6 */ \
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lda _rid, 6(r31); /* IOP6 */ \
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br r31, 6f; \
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3: srl _rmask, 1, _rid; /* check IOP5 */ \
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blbc _rid, 4f; /* not IOP5 */ \
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lda _rid, 5(r31); /* IOP5 */ \
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br r31, 6f; \
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4: srl _rmask, 0, _rid; /* check IOP4 */ \
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blbc _rid, 5f; /* not IOP4 */ \
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lda r14, 4(r31); /* IOP4 */ \
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br r31, 6f; \
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5: lda r14, 0(r31); /* passive release */ \
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6:
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//
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// Macro to calculate base node space address for given node id
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//
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// Assumed register usage:
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// rid - TLSB node id
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// raddr - base node space address
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#define Get_TLSB_Node_Address(_rid,_raddr) \
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sll _rid, 22, _rid; \
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lda _raddr, 0xff88(zero); \
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sll _raddr, 24, _raddr; \
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addq _raddr, _rid, _raddr
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#define OSFmchk_TLEPstore_1(_rlog,_rs,_rs1,_nodebase,_tlepreg) \
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lda _rs1, tlep_##_tlepreg(zero); \
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or _rs1, _nodebase, _rs1; \
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ldl_p _rs1, 0(_rs1); \
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stl_p _rs, mchk_##_tlepreg(_rlog) /* store in frame */
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#define OSFmchk_TLEPstore(_tlepreg) \
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OSFmchk_TLEPstore_1(r14,r8,r4,r13,_tlepreg)
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#define OSFcrd_TLEPstore_1(_rlog,_rs,_rs1,_nodebase,_tlepreg) \
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lda _rs1, tlep_##_tlepreg(zero); \
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or _rs1, _nodebase, _rs1; \
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ldl_p _rs1, 0(_rs1); \
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stl_p _rs, mchk_crd_##_tlepreg(_rlog)
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#define OSFcrd_TLEPstore_tlsb_1(_rlog,_rs,_rs1,_nodebase,_tlepreg) \
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lda _rs1, tlsb_##_tlepreg(zero); \
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or _rs1, _nodebase, _rs1; \
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ldl_p _rs1, 0(_rs1); \
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stl_p _rs,mchk_crd_##_tlepreg(_rlog)
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#define OSFcrd_TLEPstore_tlsb_clr_1(_rlog,_rs,_rs1,_nodebase,_tlepreg) \
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lda _rs1,tlsb_##_tlepreg(zero); \
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or _rs1, _nodebase,_rs1; \
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ldl_p _rs1, 0(_rs1); \
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stl_p _rs, mchk_crd_##_tlepreg(_rlog); \
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stl_p _rs, 0(_rs1)
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#define OSFcrd_TLEPstore(_tlepreg) \
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OSFcrd_TLEPstore_1(r14,r8,r4,r13,_tlepreg)
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#define OSFcrd_TLEPstore_tlsb(_tlepreg) \
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OSFcrd_TLEPstore_tlsb_1(r14,r8,r4,r13,_tlepreg)
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#define OSFcrd_TLEPstore_tlsb_clr(_tlepreg) \
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OSFcrd_TLEPstore_tlsb_clr_1(r14,r8,r4,r13,_tlepreg)
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#define save_pcia_intr(_irq) \
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and r13, 0xf, r25; /* isolate low 4 bits */ \
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addq r14, 4, r14; /* format the TIOP Node id field */ \
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sll r14, 4, r14; /* shift the TIOP Node id */ \
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or r14, r25, r10; /* merge Node id/hose/HPC */ \
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mfpr r14, pt14; /* get saved value */ \
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extbl r14, _irq, r25; /* confirm none outstanding */ \
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bne r25, sys_machine_check_while_in_pal; \
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insbl r10, _irq, r10; /* align new info */ \
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or r14, r10, r14; /* merge info */ \
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mtpr r14, pt14; /* save it */ \
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bic r13, 0xf, r13 /* clear low 4 bits of vector */
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// wripir - PALcode for wripir instruction
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// R16 has the processor number.
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//
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ALIGN_BLOCK
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EXPORT(sys_wripir)
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//
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// Convert the processor number to a CPU mask
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//
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and r16, MAXPROC, r14 // mask the top stuff: MAXPROC+1 CPUs supported
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bis r31, 0x1, r16 // get a one
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sll r16, r14, r14 // shift the bit to the right place
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#if defined(TSUNAMI) || defined(BIG_TSUNAMI)
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sll r14,IPIQ_shift,r14
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#endif
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//
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// Build the Broadcast Space base address
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//
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#if defined(TSUNAMI) || defined(BIG_TSUNAMI)
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lda r16,0xf01(r31)
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sll r16,32,r16
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ldah r13,0xa0(r31)
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sll r13,8,r13
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bis r16,r13,r16
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lda r16,IPIQ_addr(r16)
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#elif defined(TLASER)
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lda r13, 0xff8e(r31) // Load the upper address bits
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sll r13, 24, r13 // shift them to the top
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#endif
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//
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// Send out the IP Intr
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//
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#if defined(TSUNAMI) || defined(BIG_TSUNAMI)
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stq_p r14, 0(r16) // Tsunami MISC Register
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#elif defined(TLASER)
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stq_p r14, 0x40(r13) // Write to TLIPINTR reg
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#endif
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wmb // Push out the store
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hw_rei
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// cflush - PALcode for CFLUSH instruction
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//
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// SYS_CFLUSH
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// Entry:
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// R16 - contains the PFN of the page to be flushed
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//
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// Function:
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// Flush all Dstream caches of 1 entire page
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//
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//
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ALIGN_BLOCK
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EXPORT(sys_cflush)
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// #convert pfn to addr, and clean off <63:20>
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// #sll r16, <page_offset_size_bits>+<63-20>>, r12
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sll r16, page_offset_size_bits+(63-20),r12
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// #ldah r13,<<1@22>+32768>@-16(r31)// + xxx<31:16>
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// # stolen from srcmax code. XXX bugnion
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lda r13, 0x10(r31) // assume 16Mbytes of cache
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sll r13, 20, r13 // convert to bytes
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srl r12, 63-20, r12 // shift back to normal position
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xor r12, r13, r12 // xor addr<18>
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or r31, 8192/(32*8), r13 // get count of loads
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nop
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cflush_loop:
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subq r13, 1, r13 // decr counter
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mfpr r25, ev5__intid // Fetch level of interruptor
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ldq_p r31, 32*0(r12) // do a load
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ldq_p r31, 32*1(r12) // do next load
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ldq_p r31, 32*2(r12) // do next load
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ldq_p r31, 32*3(r12) // do next load
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ldq_p r31, 32*4(r12) // do next load
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ldq_p r31, 32*5(r12) // do next load
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ldq_p r31, 32*6(r12) // do next load
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ldq_p r31, 32*7(r12) // do next load
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mfpr r14, ev5__ipl // Fetch current level
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lda r12, (32*8)(r12) // skip to next cache block addr
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cmple r25, r14, r25 // R25 = 1 if intid .less than or eql ipl
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beq r25, 1f // if any int's pending, re-queue CFLUSH -- need to check for hlt interrupt???
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bne r13, cflush_loop // loop till done
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hw_rei // back to user
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ALIGN_BRANCH
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1: // Here if interrupted
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mfpr r12, exc_addr
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subq r12, 4, r12 // Backup PC to point to CFLUSH
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mtpr r12, exc_addr
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nop
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mfpr r31, pt0 // Pad exc_addr write
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hw_rei
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ALIGN_BLOCK
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//
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// sys_cserve - PALcode for CSERVE instruction
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//
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// Function:
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// Various functions for private use of console software
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//
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// option selector in r0
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// arguments in r16....
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//
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//
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// r0 = 0 unknown
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//
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// r0 = 1 ldq_p
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// r0 = 2 stq_p
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// args, are as for normal STQ_P/LDQ_P in VMS PAL
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//
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// r0 = 3 dump_tb's
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// r16 = detination PA to dump tb's to.
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//
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// r0<0> = 1, success
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// r0<0> = 0, failure, or option not supported
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// r0<63:1> = (generally 0, but may be function dependent)
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// r0 - load data on ldq_p
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//
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//
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EXPORT(sys_cserve)
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/* taken from scrmax */
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cmpeq r18, CSERVE_K_RD_IMPURE, r0
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bne r0, Sys_Cserve_Rd_Impure
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cmpeq r18, CSERVE_K_JTOPAL, r0
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bne r0, Sys_Cserve_Jtopal
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call_pal 0
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or r31, r31, r0
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hw_rei // and back we go
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Sys_Cserve_Rd_Impure:
|
|
mfpr r0, pt_impure // Get base of impure scratch area.
|
|
hw_rei
|
|
|
|
ALIGN_BRANCH
|
|
|
|
Sys_Cserve_Jtopal:
|
|
bic a0, 3, t8 // Clear out low 2 bits of address
|
|
bis t8, 1, t8 // Or in PAL mode bit
|
|
mtpr t8,exc_addr
|
|
hw_rei
|
|
|
|
// ldq_p
|
|
ALIGN_QUAD
|
|
1:
|
|
ldq_p r0,0(r17) // get the data
|
|
nop // pad palshadow write
|
|
|
|
hw_rei // and back we go
|
|
|
|
|
|
// stq_p
|
|
ALIGN_QUAD
|
|
2:
|
|
stq_p r18, 0(r17) // store the data
|
|
lda r0,17(r31) // bogus
|
|
hw_rei // and back we go
|
|
|
|
|
|
ALIGN_QUAD
|
|
csrv_callback:
|
|
ldq r16, 0(r17) // restore r16
|
|
ldq r17, 8(r17) // restore r17
|
|
lda r0, hlt_c_callback(r31)
|
|
br r31, sys_enter_console
|
|
|
|
|
|
csrv_identify:
|
|
mfpr r0, pal_base
|
|
ldq_p r0, 8(r0)
|
|
hw_rei
|
|
|
|
|
|
// dump tb's
|
|
ALIGN_QUAD
|
|
0:
|
|
// DTB PTEs - 64 entries
|
|
addq r31, 64, r0 // initialize loop counter
|
|
nop
|
|
|
|
1: mfpr r12, ev5__dtb_pte_temp // read out next pte to temp
|
|
mfpr r12, ev5__dtb_pte // read out next pte to reg file
|
|
|
|
subq r0, 1, r0 // decrement loop counter
|
|
nop // Pad - no Mbox instr in cycle after mfpr
|
|
|
|
stq_p r12, 0(r16) // store out PTE
|
|
addq r16, 8 ,r16 // increment pointer
|
|
|
|
bne r0, 1b
|
|
|
|
ALIGN_BRANCH
|
|
// ITB PTEs - 48 entries
|
|
addq r31, 48, r0 // initialize loop counter
|
|
nop
|
|
|
|
2: mfpr r12, ev5__itb_pte_temp // read out next pte to temp
|
|
mfpr r12, ev5__itb_pte // read out next pte to reg file
|
|
|
|
subq r0, 1, r0 // decrement loop counter
|
|
nop //
|
|
|
|
stq_p r12, 0(r16) // store out PTE
|
|
addq r16, 8 ,r16 // increment pointer
|
|
|
|
bne r0, 2b
|
|
or r31, 1, r0 // set success
|
|
|
|
hw_rei // and back we go
|
|
|
|
|
|
//
|
|
// SYS_INTERRUPT - Interrupt processing code
|
|
//
|
|
// Current state:
|
|
// Stack is pushed
|
|
// ps, sp and gp are updated
|
|
// r12, r14 - available
|
|
// r13 - INTID (new EV5 IPL)
|
|
// r25 - ISR
|
|
// r16, r17, r18 - available
|
|
//
|
|
//
|
|
EXPORT(sys_interrupt)
|
|
cmpeq r13, 31, r12 // Check for level 31 interrupt
|
|
bne r12, sys_int_mchk_or_crd // machine check or crd
|
|
|
|
cmpeq r13, 30, r12 // Check for level 30 interrupt
|
|
bne r12, sys_int_powerfail // powerfail
|
|
|
|
cmpeq r13, 29, r12 // Check for level 29 interrupt
|
|
bne r12, sys_int_perf_cnt // performance counters
|
|
|
|
cmpeq r13, 23, r12 // Check for level 23 interrupt
|
|
bne r12, sys_int_23 // IPI in Tsunami
|
|
|
|
cmpeq r13, 22, r12 // Check for level 22 interrupt
|
|
bne r12, sys_int_22 // timer interrupt
|
|
|
|
cmpeq r13, 21, r12 // Check for level 21 interrupt
|
|
bne r12, sys_int_21 // I/O
|
|
|
|
cmpeq r13, 20, r12 // Check for level 20 interrupt
|
|
bne r12, sys_int_20 // system error interrupt
|
|
// (might be corrected)
|
|
|
|
mfpr r14, exc_addr // ooops, something is wrong
|
|
br r31, pal_pal_bug_check_from_int
|
|
|
|
|
|
//
|
|
//sys_int_2*
|
|
// Routines to handle device interrupts at IPL 23-20.
|
|
// System specific method to ack/clear the interrupt, detect passive
|
|
// release, detect interprocessor (22), interval clock (22), corrected
|
|
// system error (20)
|
|
//
|
|
// Current state:
|
|
// Stack is pushed
|
|
// ps, sp and gp are updated
|
|
// r12, r14 - available
|
|
// r13 - INTID (new EV5 IPL)
|
|
// r25 - ISR
|
|
//
|
|
// On exit:
|
|
// Interrupt has been ack'd/cleared
|
|
// a0/r16 - signals IO device interrupt
|
|
// a1/r17 - contains interrupt vector
|
|
// exit to ent_int address
|
|
//
|
|
//
|
|
|
|
#if defined(TSUNAMI) || defined(BIG_TSUNAMI)
|
|
ALIGN_BRANCH
|
|
sys_int_23:
|
|
or r31,0,r16 // IPI interrupt A0 = 0
|
|
lda r12,0xf01(r31) // build up an address for the MISC register
|
|
sll r12,16,r12
|
|
lda r12,0xa000(r12)
|
|
sll r12,16,r12
|
|
lda r12,IPIR_addr(r12)
|
|
|
|
mfpr r10, pt_whami // get CPU ID
|
|
extbl r10, 1, r10 // Isolate just whami bits
|
|
or r31,0x1,r14 // load r14 with bit to clear
|
|
sll r14,r10,r14 // left shift by CPU ID
|
|
sll r14,IPIR_shift,r14
|
|
stq_p r14, 0(r12) // clear the ipi interrupt
|
|
|
|
br r31, pal_post_interrupt // Notify the OS
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_int_22:
|
|
or r31,1,r16 // a0 means it is a clock interrupt
|
|
lda r12,0xf01(r31) // build up an address for the MISC register
|
|
sll r12,16,r12
|
|
lda r12,0xa000(r12)
|
|
sll r12,16,r12
|
|
lda r12,RTC_addr(r12)
|
|
|
|
mfpr r10, pt_whami // get CPU ID
|
|
extbl r10, 1, r10 // Isolate just whami bits
|
|
or r31,0x1,r14 // load r14 with bit to clear
|
|
sll r14,r10,r14 // left shift by CPU ID
|
|
sll r14,RTC_shift,r14 // put the bits in the right position
|
|
stq_p r14, 0(r12) // clear the rtc interrupt
|
|
|
|
br r31, pal_post_interrupt // Tell the OS
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_int_20:
|
|
Read_TLINTRSUMx(r13,r10,r14) // read the right TLINTRSUMx
|
|
srl r13, 12, r13 // shift down to examine IPL15
|
|
|
|
Intr_Find_TIOP(r13,r14)
|
|
beq r14, 1f
|
|
|
|
Get_TLSB_Node_Address(r14,r10)
|
|
lda r10, 0xa40(r10) // Get base TLILID address
|
|
|
|
ldl_p r13, 0(r10) // Read the TLILID register
|
|
bne r13, pal_post_dev_interrupt
|
|
beq r13, 1f
|
|
|
|
and r13, 0x3, r10 // check for PCIA bits
|
|
beq r10, pal_post_dev_interrupt // done if nothing set
|
|
save_pcia_intr(1)
|
|
br r31, pal_post_dev_interrupt //
|
|
|
|
1: lda r16, osfint_c_passrel(r31) // passive release
|
|
br r31, pal_post_interrupt //
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_int_21:
|
|
|
|
lda r12,0xf01(r31) // calculate DIRn address
|
|
sll r12,32,r12
|
|
ldah r13,DIR_addr(r31)
|
|
sll r13,8,r13
|
|
bis r12,r13,r12
|
|
|
|
mfpr r13, pt_whami // get CPU ID
|
|
extbl r13, 1, r13 // Isolate just whami bits
|
|
|
|
#ifdef BIG_TSUNAMI
|
|
sll r13,4,r13
|
|
or r12,r13,r12
|
|
#else
|
|
lda r12,0x0080(r12)
|
|
and r13,0x1,r14 // grab LSB and shift left 6
|
|
sll r14,6,r14
|
|
and r13,0x2,r10 // grabl LSB+1 and shift left 9
|
|
sll r10,9,r10
|
|
|
|
mskbl r12,0,r12 // calculate DIRn address
|
|
lda r13,0x280(r31)
|
|
bis r12,r13,r12
|
|
or r12,r14,r12
|
|
or r12,r10,r12
|
|
#endif
|
|
|
|
ldq_p r13, 0(r12) // read DIRn
|
|
|
|
or r31,1,r14 // set bit 55 (ISA Interrupt)
|
|
sll r14,55,r14
|
|
|
|
and r13, r14, r14 // check if bit 55 is set
|
|
lda r16,0x900(r31) // load offset for normal into r13
|
|
beq r14, normal_int // if not compute the vector normally
|
|
|
|
lda r16,0x800(r31) // replace with offset for pic
|
|
lda r12,0xf01(r31) // build an addr to access PIC
|
|
sll r12,32,r12 // at f01fc000000
|
|
ldah r13,0xfc(r31)
|
|
sll r13,8,r13
|
|
bis r12,r13,r12
|
|
ldq_p r13,0x0020(r12) // read PIC1 ISR for interrupting dev
|
|
|
|
normal_int:
|
|
//ctlz r13,r14 // count the number of leading zeros
|
|
// EV5 doesn't have ctlz, but we do, so lets use it
|
|
.byte 0x4e
|
|
.byte 0x06
|
|
.byte 0xed
|
|
.byte 0x73
|
|
lda r10,63(r31)
|
|
subq r10,r14,r17 // subtract from
|
|
|
|
lda r13,0x10(r31)
|
|
mulq r17,r13,r17 // compute 0x900 + (0x10 * Highest DIRn-bit)
|
|
addq r17,r16,r17
|
|
|
|
or r31,3,r16 // a0 means it is a I/O interrupt
|
|
|
|
br r31, pal_post_interrupt
|
|
|
|
#elif defined(TLASER)
|
|
ALIGN_BRANCH
|
|
sys_int_23:
|
|
Read_TLINTRSUMx(r13,r10,r14) // read the right TLINTRSUMx
|
|
srl r13, 22, r13 // shift down to examine IPL17
|
|
|
|
Intr_Find_TIOP(r13,r14)
|
|
beq r14, 1f
|
|
|
|
Get_TLSB_Node_Address(r14,r10)
|
|
lda r10, 0xac0(r10) // Get base TLILID address
|
|
|
|
ldl_p r13, 0(r10) // Read the TLILID register
|
|
bne r13, pal_post_dev_interrupt
|
|
|
|
1: lda r16, osfint_c_passrel(r31) // passive release
|
|
br r31, pal_post_interrupt //
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_int_22:
|
|
Read_TLINTRSUMx(r13,r10,r14) // read the right TLINTRSUMx
|
|
srl r13, 6, r14 // check the Intim bit
|
|
|
|
blbs r14, tlep_intim // go service Intim
|
|
srl r13, 5, r14 // check the IP Int bit
|
|
|
|
blbs r14, tlep_ipint // go service IP Int
|
|
srl r13, 17, r13 // shift down to examine IPL16
|
|
|
|
Intr_Find_TIOP(r13,r14)
|
|
beq r14, 1f
|
|
|
|
Get_TLSB_Node_Address(r14,r10)
|
|
lda r10, 0xa80(r10) // Get base TLILID address
|
|
|
|
ldl_p r13, 0(r10) // Read the TLILID register
|
|
bne r13, pal_post_dev_interrupt
|
|
beq r13, 1f
|
|
|
|
and r13, 0x3, r10 // check for PCIA bits
|
|
beq r10, pal_post_dev_interrupt // done if nothing set
|
|
save_pcia_intr(2)
|
|
br r31, pal_post_dev_interrupt //
|
|
|
|
1: lda r16, osfint_c_passrel(r31) // passive release
|
|
br r31, pal_post_interrupt //
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_int_21:
|
|
Read_TLINTRSUMx(r13,r10,r14) // read the right TLINTRSUMx
|
|
srl r13, 12, r13 // shift down to examine IPL15
|
|
|
|
Intr_Find_TIOP(r13,r14)
|
|
beq r14, 1f
|
|
|
|
Get_TLSB_Node_Address(r14,r10)
|
|
lda r10, 0xa40(r10) // Get base TLILID address
|
|
|
|
ldl_p r13, 0(r10) // Read the TLILID register
|
|
bne r13, pal_post_dev_interrupt
|
|
beq r13, 1f
|
|
|
|
and r13, 0x3, r10 // check for PCIA bits
|
|
beq r10, pal_post_dev_interrupt // done if nothing set
|
|
save_pcia_intr(1)
|
|
br r31, pal_post_dev_interrupt //
|
|
|
|
1: lda r16, osfint_c_passrel(r31) // passive release
|
|
br r31, pal_post_interrupt //
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_int_20:
|
|
lda r13, 1(r31) // Duart0 bit
|
|
Write_TLINTRSUMx(r13,r10,r14) // clear the duart0 bit
|
|
|
|
Read_TLINTRSUMx(r13,r10,r14) // read the right TLINTRSUMx
|
|
blbs r13, tlep_uart0 // go service UART int
|
|
|
|
srl r13, 7, r13 // shift down to examine IPL14
|
|
Intr_Find_TIOP(r13,r14)
|
|
|
|
beq r14, tlep_ecc // Branch if not IPL14
|
|
Get_TLSB_Node_Address(r14,r10)
|
|
|
|
lda r10, 0xa00(r10) // Get base TLILID0 address
|
|
ldl_p r13, 0(r10) // Read the TLILID register
|
|
|
|
bne r13, pal_post_dev_interrupt
|
|
beq r13, 1f
|
|
|
|
and r13, 0x3, r10 // check for PCIA bits
|
|
beq r10, pal_post_dev_interrupt // done if nothing set
|
|
save_pcia_intr(0)
|
|
br r31, pal_post_dev_interrupt //
|
|
1: lda r16, osfint_c_passrel(r31) // passive release
|
|
br r31, pal_post_interrupt //
|
|
|
|
|
|
ALIGN_BRANCH
|
|
tlep_intim:
|
|
lda r13, 0xffb(r31) // get upper GBUS address bits
|
|
sll r13, 28, r13 // shift up to top
|
|
|
|
lda r13, (0x300)(r13) // full CSRC address (tlep watch csrc offset)
|
|
ldq_p r13, 0(r13) // read CSRC
|
|
|
|
lda r13, 0x40(r31) // load Intim bit
|
|
Write_TLINTRSUMx(r13,r10,r14) // clear the Intim bit
|
|
|
|
lda r16, osfint_c_clk(r31) // passive release
|
|
br r31, pal_post_interrupt // Build the stack frame
|
|
|
|
|
|
ALIGN_BRANCH
|
|
tlep_ipint:
|
|
lda r13, 0x20(r31) // load IP Int bit
|
|
Write_TLINTRSUMx(r13,r10,r14) // clear the IP Int bit
|
|
|
|
lda r16, osfint_c_ip(r31) // passive release
|
|
br r31, pal_post_interrupt // Build the stack frame
|
|
|
|
|
|
ALIGN_BRANCH
|
|
tlep_uart0:
|
|
lda r13, 0xffa(r31) // get upper GBUS address bits
|
|
sll r13, 28, r13 // shift up to top
|
|
|
|
ldl_p r14, 0x80(r13) // zero pointer register
|
|
lda r14, 3(r31) // index to RR3
|
|
|
|
stl_p r14, 0x80(r13) // write pointer register
|
|
mb
|
|
|
|
mb
|
|
ldl_p r14, 0x80(r13) // read RR3
|
|
|
|
srl r14, 5, r10 // is it Channel A RX?
|
|
blbs r10, uart0_rx
|
|
|
|
srl r14, 4, r10 // is it Channel A TX?
|
|
blbs r10, uart0_tx
|
|
|
|
srl r14, 2, r10 // is it Channel B RX?
|
|
blbs r10, uart1_rx
|
|
|
|
srl r14, 1, r10 // is it Channel B TX?
|
|
blbs r10, uart1_tx
|
|
|
|
lda r8, 0(r31) // passive release
|
|
br r31, clear_duart0_int // clear tlintrsum and post
|
|
|
|
|
|
ALIGN_BRANCH
|
|
uart0_rx:
|
|
lda r8, 0x680(r31) // UART0 RX vector
|
|
br r31, clear_duart0_int // clear tlintrsum and post
|
|
|
|
|
|
ALIGN_BRANCH
|
|
uart0_tx:
|
|
lda r14, 0x28(r31) // Reset TX Int Pending code
|
|
mb
|
|
stl_p r14, 0x80(r13) // write Channel A WR0
|
|
mb
|
|
|
|
lda r8, 0x6c0(r31) // UART0 TX vector
|
|
br r31, clear_duart0_int // clear tlintrsum and post
|
|
|
|
|
|
ALIGN_BRANCH
|
|
uart1_rx:
|
|
lda r8, 0x690(r31) // UART1 RX vector
|
|
br r31, clear_duart0_int // clear tlintrsum and post
|
|
|
|
|
|
ALIGN_BRANCH
|
|
uart1_tx:
|
|
lda r14, 0x28(r31) // Reset TX Int Pending code
|
|
stl_p r14, 0(r13) // write Channel B WR0
|
|
|
|
lda r8, 0x6d0(r31) // UART1 TX vector
|
|
br r31, clear_duart0_int // clear tlintrsum and post
|
|
|
|
|
|
ALIGN_BRANCH
|
|
clear_duart0_int:
|
|
lda r13, 1(r31) // load duart0 bit
|
|
Write_TLINTRSUMx(r13,r10,r14) // clear the duart0 bit
|
|
|
|
beq r8, 1f
|
|
or r8, r31, r13 // move vector to r13
|
|
br r31, pal_post_dev_interrupt // Build the stack frame
|
|
1: nop
|
|
nop
|
|
hw_rei
|
|
// lda r16, osfint_c_passrel(r31) // passive release
|
|
// br r31, pal_post_interrupt //
|
|
|
|
|
|
ALIGN_BRANCH
|
|
tlep_ecc:
|
|
mfpr r14, pt_whami // get our node id
|
|
extbl r14, 1, r14 // shift to bit 0
|
|
|
|
srl r14, 1, r14 // shift off cpu number
|
|
Get_TLSB_Node_Address(r14,r10) // compute our nodespace address
|
|
|
|
ldl_p r13, 0x40(r10) // read our TLBER WAS tlsb_tlber_offset
|
|
srl r13, 17, r13 // shift down the CWDE/CRDE bits
|
|
|
|
and r13, 3, r13 // mask the CWDE/CRDE bits
|
|
beq r13, 1f
|
|
|
|
ornot r31, r31, r12 // set flag
|
|
lda r9, mchk_c_sys_ecc(r31) // System Correctable error MCHK code
|
|
br r31, sys_merge_sys_corr // jump to CRD logout frame code
|
|
|
|
1: lda r16, osfint_c_passrel(r31) // passive release
|
|
|
|
#endif // if TSUNAMI || BIG_TSUNAMI elif TLASER
|
|
|
|
ALIGN_BRANCH
|
|
pal_post_dev_interrupt:
|
|
or r13, r31, r17 // move vector to a1
|
|
or r31, osfint_c_dev, r16 // a0 signals IO device interrupt
|
|
|
|
pal_post_interrupt:
|
|
mfpr r12, pt_entint
|
|
|
|
mtpr r12, exc_addr
|
|
|
|
nop
|
|
nop
|
|
|
|
hw_rei_spe
|
|
|
|
|
|
//
|
|
// sys_passive_release
|
|
// Just pretend the interrupt never occurred.
|
|
//
|
|
|
|
EXPORT(sys_passive_release)
|
|
mtpr r11, ev5__dtb_cm // Restore Mbox current mode for ps
|
|
nop
|
|
|
|
mfpr r31, pt0 // Pad write to dtb_cm
|
|
hw_rei
|
|
|
|
//
|
|
// sys_int_powerfail
|
|
// A powerfail interrupt has been detected. The stack has been pushed.
|
|
// IPL and PS are updated as well.
|
|
//
|
|
// I'm not sure what to do here, I'm treating it as an IO device interrupt
|
|
//
|
|
//
|
|
|
|
ALIGN_BLOCK
|
|
sys_int_powerfail:
|
|
lda r12, 0xffc4(r31) // get GBUS_MISCR address bits
|
|
sll r12, 24, r12 // shift to proper position
|
|
ldq_p r12, 0(r12) // read GBUS_MISCR
|
|
srl r12, 5, r12 // isolate bit <5>
|
|
blbc r12, 1f // if clear, no missed mchk
|
|
|
|
// Missed a CFAIL mchk
|
|
lda r13, 0xffc7(r31) // get GBUS$SERNUM address bits
|
|
sll r13, 24, r13 // shift to proper position
|
|
lda r14, 0x40(r31) // get bit <6> mask
|
|
ldq_p r12, 0(r13) // read GBUS$SERNUM
|
|
or r12, r14, r14 // set bit <6>
|
|
stq_p r14, 0(r13) // clear GBUS$SERNUM<6>
|
|
mb
|
|
mb
|
|
|
|
1: br r31, sys_int_mchk // do a machine check
|
|
|
|
lda r17, scb_v_pwrfail(r31) // a1 to interrupt vector
|
|
mfpr r25, pt_entint
|
|
|
|
lda r16, osfint_c_dev(r31) // a0 to device code
|
|
mtpr r25, exc_addr
|
|
|
|
nop // pad exc_addr write
|
|
nop
|
|
|
|
hw_rei_spe
|
|
|
|
//
|
|
// sys_halt_interrupt
|
|
// A halt interrupt has been detected. Pass control to the console.
|
|
//
|
|
//
|
|
//
|
|
EXPORT(sys_halt_interrupt)
|
|
|
|
ldah r13, 0x1800(r31) // load Halt/^PHalt bits
|
|
Write_TLINTRSUMx(r13,r10,r14) // clear the ^PHalt bits
|
|
|
|
mtpr r11, dtb_cm // Restore Mbox current mode
|
|
nop
|
|
nop
|
|
mtpr r0, pt0
|
|
lda r0, hlt_c_hw_halt(r31) // set halt code to hw halt
|
|
br r31, sys_enter_console // enter the console
|
|
|
|
|
|
|
|
//
|
|
// sys_int_mchk_or_crd
|
|
//
|
|
// Current state:
|
|
// Stack is pushed
|
|
// ps, sp and gp are updated
|
|
// r12
|
|
// r13 - INTID (new EV5 IPL)
|
|
// r14 - exc_addr
|
|
// r25 - ISR
|
|
// r16, r17, r18 - available
|
|
//
|
|
//
|
|
ALIGN_BLOCK
|
|
sys_int_mchk_or_crd:
|
|
srl r25, isr_v_mck, r12
|
|
blbs r12, sys_int_mchk
|
|
//
|
|
// Not a Machine check interrupt, so must be an Internal CRD interrupt
|
|
//
|
|
|
|
mb //Clear out Cbox prior to reading IPRs
|
|
srl r25, isr_v_crd, r13 //Check for CRD
|
|
blbc r13, pal_pal_bug_check_from_int //If CRD not set, shouldn't be here!!!
|
|
|
|
lda r9, 1(r31)
|
|
sll r9, hwint_clr_v_crdc, r9 // get ack bit for crd
|
|
mtpr r9, ev5__hwint_clr // ack the crd interrupt
|
|
|
|
or r31, r31, r12 // clear flag
|
|
lda r9, mchk_c_ecc_c(r31) // Correctable error MCHK code
|
|
|
|
sys_merge_sys_corr:
|
|
ldah r14, 0xfff0(r31)
|
|
mtpr r0, pt0 // save r0 for scratch
|
|
zap r14, 0xE0, r14 // Get Cbox IPR base
|
|
mtpr r1, pt1 // save r0 for scratch
|
|
|
|
ldq_p r0, ei_addr(r14) // EI_ADDR IPR
|
|
ldq_p r10, fill_syn(r14) // FILL_SYN IPR
|
|
bis r0, r10, r31 // Touch lds to make sure they complete before doing scrub
|
|
|
|
blbs r12, 1f // no scrubbing for IRQ0 case
|
|
// XXX bugnion pvc_jsr crd_scrub_mem, bsr=1
|
|
bsr r13, sys_crd_scrub_mem // and go scrub
|
|
|
|
// ld/st pair in scrub routine will have finished due
|
|
// to ibox stall of stx_c. Don't need another mb.
|
|
ldq_p r8, ei_stat(r14) // EI_STAT, unlock EI_ADDR, BC_TAG_ADDR, FILL_SYN
|
|
or r8, r31, r12 // Must only be executed once in this flow, and must
|
|
br r31, 2f // be after the scrub routine.
|
|
|
|
1: ldq_p r8, ei_stat(r14) // EI_STAT, unlock EI_ADDR, BC_TAG_ADDR, FILL_SYN
|
|
// For IRQ0 CRD case only - meaningless data.
|
|
|
|
2: mfpr r13, pt_mces // Get MCES
|
|
srl r12, ei_stat_v_ei_es, r14 // Isolate EI_STAT:EI_ES
|
|
blbc r14, 6f // branch if 630
|
|
srl r13, mces_v_dsc, r14 // check if 620 reporting disabled
|
|
blbc r14, 5f // branch if enabled
|
|
or r13, r31, r14 // don't set SCE if disabled
|
|
br r31, 8f // continue
|
|
5: bis r13, BIT(mces_v_sce), r14 // Set MCES<SCE> bit
|
|
br r31, 8f
|
|
|
|
6: srl r13, mces_v_dpc, r14 // check if 630 reporting disabled
|
|
blbc r14, 7f // branch if enabled
|
|
or r13, r31, r14 // don't set PCE if disabled
|
|
br r31, 8f // continue
|
|
7: bis r13, BIT(mces_v_pce), r14 // Set MCES<PCE> bit
|
|
|
|
// Setup SCB if dpc is not set
|
|
8: mtpr r14, pt_mces // Store updated MCES
|
|
srl r13, mces_v_sce, r1 // Get SCE
|
|
srl r13, mces_v_pce, r14 // Get PCE
|
|
or r1, r14, r1 // SCE OR PCE, since they share
|
|
// the CRD logout frame
|
|
// Get base of the logout area.
|
|
GET_IMPURE(r14) // addr of per-cpu impure area
|
|
GET_ADDR(r14,(pal_logout_area+mchk_crd_base),r14)
|
|
|
|
blbc r1, sys_crd_write_logout_frame // If pce/sce not set, build the frame
|
|
|
|
// Set the 2nd error flag in the logout area:
|
|
|
|
lda r1, 3(r31) // Set retry and 2nd error flags
|
|
sll r1, 30, r1 // Move to bits 31:30 of logout frame flag longword
|
|
stl_p r1, mchk_crd_flag+4(r14) // store flag longword
|
|
br sys_crd_ack
|
|
|
|
sys_crd_write_logout_frame:
|
|
// should only be here if neither the pce or sce bits are set
|
|
|
|
//
|
|
// Write the mchk code to the logout area
|
|
//
|
|
stq_p r9, mchk_crd_mchk_code(r14)
|
|
|
|
|
|
//
|
|
// Write the first 2 quadwords of the logout area:
|
|
//
|
|
lda r1, 1(r31) // Set retry flag
|
|
sll r1, 63, r9 // Move retry flag to bit 63
|
|
lda r1, mchk_crd_size(r9) // Combine retry flag and frame size
|
|
stq_p r1, mchk_crd_flag(r14) // store flag/frame size
|
|
|
|
//
|
|
// Write error IPRs already fetched to the logout area
|
|
//
|
|
stq_p r0, mchk_crd_ei_addr(r14)
|
|
stq_p r10, mchk_crd_fill_syn(r14)
|
|
stq_p r8, mchk_crd_ei_stat(r14)
|
|
stq_p r25, mchk_crd_isr(r14)
|
|
//
|
|
// Log system specific info here
|
|
//
|
|
crd_storeTLEP_:
|
|
lda r1, 0xffc4(r31) // Get GBUS$MISCR address
|
|
sll r1, 24, r1
|
|
ldq_p r1, 0(r1) // Read GBUS$MISCR
|
|
sll r1, 16, r1 // shift up to proper field
|
|
mfpr r10, pt_whami // get our node id
|
|
extbl r10, 1, r10 // shift to bit 0
|
|
or r1, r10, r1 // merge MISCR and WHAMI
|
|
stl_p r1, mchk_crd_whami(r14) // write to crd logout area
|
|
srl r10, 1, r10 // shift off cpu number
|
|
|
|
Get_TLSB_Node_Address(r10,r0) // compute our nodespace address
|
|
|
|
OSFcrd_TLEPstore_tlsb(tldev)
|
|
OSFcrd_TLEPstore_tlsb_clr(tlber)
|
|
OSFcrd_TLEPstore_tlsb_clr(tlesr0)
|
|
OSFcrd_TLEPstore_tlsb_clr(tlesr1)
|
|
OSFcrd_TLEPstore_tlsb_clr(tlesr2)
|
|
OSFcrd_TLEPstore_tlsb_clr(tlesr3)
|
|
|
|
sys_crd_ack:
|
|
mfpr r0, pt0 // restore r0
|
|
mfpr r1, pt1 // restore r1
|
|
|
|
srl r12, ei_stat_v_ei_es, r12
|
|
blbc r12, 5f
|
|
srl r13, mces_v_dsc, r10 // logging enabled?
|
|
br r31, 6f
|
|
5: srl r13, mces_v_dpc, r10 // logging enabled?
|
|
6: blbc r10, sys_crd_post_interrupt // logging enabled -- report it
|
|
|
|
// logging not enabled
|
|
// Get base of the logout area.
|
|
GET_IMPURE(r13) // addr of per-cpu impure area
|
|
GET_ADDR(r13,(pal_logout_area+mchk_crd_base),r13)
|
|
ldl_p r10, mchk_crd_rsvd(r13) // bump counter
|
|
addl r10, 1, r10
|
|
stl_p r10, mchk_crd_rsvd(r13)
|
|
mb
|
|
br r31, sys_crd_dismiss_interrupt // just return
|
|
|
|
//
|
|
// The stack is pushed. Load up a0,a1,a2 and vector via entInt
|
|
//
|
|
//
|
|
|
|
ALIGN_BRANCH
|
|
sys_crd_post_interrupt:
|
|
lda r16, osfint_c_mchk(r31) // flag as mchk/crd in a0
|
|
lda r17, scb_v_proc_corr_err(r31) // a1 <- interrupt vector
|
|
|
|
blbc r12, 1f
|
|
lda r17, scb_v_sys_corr_err(r31) // a1 <- interrupt vector
|
|
|
|
1: subq r31, 1, r18 // get a -1
|
|
mfpr r25, pt_entInt
|
|
|
|
srl r18, 42, r18 // shift off low bits of kseg addr
|
|
mtpr r25, exc_addr // load interrupt vector
|
|
|
|
sll r18, 42, r18 // shift back into position
|
|
or r14, r18, r18 // EV4 algorithm - pass pointer to mchk frame as kseg address
|
|
|
|
hw_rei_spe // done
|
|
|
|
|
|
//
|
|
// The stack is pushed. Need to back out of it all.
|
|
//
|
|
|
|
sys_crd_dismiss_interrupt:
|
|
br r31, Call_Pal_Rti
|
|
|
|
|
|
// sys_crd_scrub_mem
|
|
//
|
|
// r0 = addr of cache block
|
|
//
|
|
ALIGN_BLOCK // align for branch target
|
|
sys_crd_scrub_mem:
|
|
// now find error in memory, and attempt to scrub that cache block
|
|
// This routine just scrubs the failing octaword
|
|
// Only need to "touch" one quadword per octaword to accomplish the scrub
|
|
srl r0, 39, r8 // get high bit of bad pa
|
|
blbs r8, 1f // don't attempt fixup on IO space addrs
|
|
nop // needed to align the ldq_pl to octaword boundary
|
|
nop // "
|
|
|
|
ldq_p r8, 0(r0) // attempt to read the bad memory
|
|
// location
|
|
// (Note bits 63:40,3:0 of ei_addr
|
|
// are set to 1, but as long as
|
|
// we are doing a phys ref, should
|
|
// be ok)
|
|
nop // Needed to keep the Ibox from swapping the ldq_p into E1
|
|
|
|
stq_p r8, 0(r0) // Store it back if it is still there.
|
|
// If store fails, location already
|
|
// scrubbed by someone else
|
|
|
|
nop // needed to align the ldq_p to octaword boundary
|
|
|
|
lda r8, 0x20(r31) // flip bit 5 to touch next hexaword
|
|
xor r8, r0, r0
|
|
nop // needed to align the ldq_p to octaword boundary
|
|
nop // "
|
|
|
|
ldq_p r8, 0(r0) // attempt to read the bad memory
|
|
// location
|
|
// (Note bits 63:40,3:0 of ei_addr
|
|
// are set to 1, but as long as
|
|
// we are doing a phys ref, should
|
|
// be ok)
|
|
nop // Needed to keep the Ibox from swapping the ldq_p into E1
|
|
|
|
stq_p r8, 0(r0) // Store it back if it is still there.
|
|
// If store fails, location already
|
|
// scrubbed by someone else
|
|
|
|
lda r8, 0x20(r31) // restore r0 to original address
|
|
xor r8, r0, r0
|
|
|
|
//at this point, ei_stat could be locked due to a new corr error on the ld,
|
|
//so read ei_stat to unlock AFTER this routine.
|
|
|
|
// XXX bugnion pvc$jsr crd_scrub_mem, bsr=1, dest=1
|
|
1: ret r31, (r13) // and back we go
|
|
|
|
|
|
//
|
|
// sys_int_mchk - MCHK Interrupt code
|
|
//
|
|
// Machine check interrupt from the system. Setup and join the
|
|
// regular machine check flow.
|
|
// On exit:
|
|
// pt0 - saved r0
|
|
// pt1 - saved r1
|
|
// pt4 - saved r4
|
|
// pt5 - saved r5
|
|
// pt6 - saved r6
|
|
// pt10 - saved exc_addr
|
|
// pt_misc<47:32> - mchk code
|
|
// pt_misc<31:16> - scb vector
|
|
// r14 - base of Cbox IPRs in IO space
|
|
// MCES<mchk> is set
|
|
//
|
|
ALIGN_BLOCK
|
|
sys_int_mchk:
|
|
lda r14, mchk_c_sys_hrd_error(r31)
|
|
mfpr r12, exc_addr
|
|
|
|
addq r14, 1, r14 // Flag as interrupt
|
|
nop
|
|
|
|
sll r14, 32, r14 // Move mchk code to position
|
|
mtpr r12, pt10 // Stash exc_addr
|
|
|
|
mfpr r12, pt_misc // Get MCES and scratch
|
|
mtpr r0, pt0 // Stash for scratch
|
|
|
|
zap r12, 0x3c, r12 // Clear scratch
|
|
blbs r12, sys_double_machine_check // MCHK halt if double machine check
|
|
|
|
or r12, r14, r12 // Combine mchk code
|
|
lda r14, scb_v_sysmchk(r31) // Get SCB vector
|
|
|
|
sll r14, 16, r14 // Move SCBv to position
|
|
or r12, r14, r14 // Combine SCBv
|
|
|
|
bis r14, BIT(mces_v_mchk), r14 // Set MCES<MCHK> bit
|
|
mtpr r14, pt_misc // Save mchk code!scbv!whami!mces
|
|
|
|
ldah r14, 0xfff0(r31)
|
|
mtpr r1, pt1 // Stash for scratch
|
|
|
|
zap r14, 0xE0, r14 // Get Cbox IPR base
|
|
mtpr r4, pt4
|
|
|
|
mtpr r5, pt5
|
|
|
|
mtpr r6, pt6
|
|
br r31, sys_mchk_collect_iprs // Join common machine check flow
|
|
|
|
|
|
//
|
|
// sys_int_perf_cnt - Performance counter interrupt code
|
|
//
|
|
// A performance counter interrupt has been detected. The stack
|
|
// has been pushed. IPL and PS are updated as well.
|
|
//
|
|
// on exit to interrupt entry point ENTINT::
|
|
// a0 = osfint$c_perf
|
|
// a1 = scb$v_perfmon (650)
|
|
// a2 = 0 if performance counter 0 fired
|
|
// a2 = 1 if performance counter 1 fired
|
|
// a2 = 2 if performance counter 2 fired
|
|
// (if more than one counter overflowed, an interrupt will be
|
|
// generated for each counter that overflows)
|
|
//
|
|
//
|
|
//
|
|
ALIGN_BLOCK
|
|
sys_int_perf_cnt: // Performance counter interrupt
|
|
lda r17, scb_v_perfmon(r31) // a1 to interrupt vector
|
|
mfpr r25, pt_entint
|
|
|
|
lda r16, osfint_c_perf(r31) // a0 to perf counter code
|
|
mtpr r25, exc_addr
|
|
|
|
//isolate which perf ctr fired, load code in a2, and ack
|
|
mfpr r25, isr
|
|
or r31, r31, r18 // assume interrupt was pc0
|
|
|
|
srl r25, isr_v_pc1, r25 // isolate
|
|
cmovlbs r25, 1, r18 // if pc1 set, load 1 into r14
|
|
|
|
srl r25, 1, r25 // get pc2
|
|
cmovlbs r25, 2, r18 // if pc2 set, load 2 into r14
|
|
|
|
lda r25, 1(r31) // get a one
|
|
sll r25, r18, r25
|
|
|
|
sll r25, hwint_clr_v_pc0c, r25 // ack only the perf counter that generated the interrupt
|
|
mtpr r25, hwint_clr
|
|
|
|
hw_rei_spe
|
|
|
|
|
|
|
|
//
|
|
// sys_reset - System specific RESET code
|
|
// On entry:
|
|
// r1 = pal_base +8
|
|
//
|
|
// Entry state on trap:
|
|
// r0 = whami
|
|
// r2 = base of scratch area
|
|
// r3 = halt code
|
|
// and the following 3 if init_cbox is enabled:
|
|
// r5 = sc_ctl
|
|
// r6 = bc_ctl
|
|
// r7 = bc_cnfg
|
|
//
|
|
// Entry state on switch:
|
|
// r17 - new PC
|
|
// r18 - new PCBB
|
|
// r19 - new VPTB
|
|
//
|
|
|
|
ALIGN_BLOCK
|
|
.globl sys_reset
|
|
sys_reset:
|
|
// mtpr r31, ic_flush_ctl // do not flush the icache - done by hardware before SROM load
|
|
mtpr r31, itb_ia // clear the ITB
|
|
mtpr r31, dtb_ia // clear the DTB
|
|
|
|
lda r1, -8(r1) // point to start of code
|
|
mtpr r1, pal_base // initialize PAL_BASE
|
|
|
|
// Interrupts
|
|
mtpr r31, astrr // stop ASTs
|
|
mtpr r31, aster // stop ASTs
|
|
mtpr r31, sirr // clear software interrupts
|
|
|
|
mtpr r0, pt1 // r0 is whami (unless we entered via swp)
|
|
|
|
ldah r1,(BIT(icsr_v_sde-16)|BIT(icsr_v_fpe-16)|BIT(icsr_v_spe-16+1))(zero)
|
|
|
|
bis r31, 1, r0
|
|
sll r0, icsr_v_crde, r0 // A 1 in iscr<corr_read_enable>
|
|
or r0, r1, r1 // Set the bit
|
|
|
|
mtpr r1, icsr // ICSR - Shadows enabled, Floating point enable,
|
|
// super page enabled, correct read per assembly option
|
|
|
|
// Mbox/Dcache init
|
|
lda r1,BIT(mcsr_v_sp1)(zero)
|
|
|
|
mtpr r1, mcsr // MCSR - Super page enabled
|
|
lda r1, BIT(dc_mode_v_dc_ena)(r31)
|
|
ALIGN_BRANCH
|
|
// mtpr r1, dc_mode // turn Dcache on
|
|
nop
|
|
|
|
mfpr r31, pt0 // No Mbox instr in 1,2,3,4
|
|
mfpr r31, pt0
|
|
mfpr r31, pt0
|
|
mfpr r31, pt0
|
|
mtpr r31, dc_flush // flush Dcache
|
|
|
|
// build PS (IPL=7,CM=K,VMM=0,SW=0)
|
|
lda r11, 0x7(r31) // Set shadow copy of PS - kern mode, IPL=7
|
|
lda r1, 0x1F(r31)
|
|
mtpr r1, ipl // set internal <ipl>=1F
|
|
mtpr r31, ev5__ps // set new ps<cm>=0, Ibox copy
|
|
mtpr r31, dtb_cm // set new ps<cm>=0, Mbox copy
|
|
|
|
// Create the PALtemp pt_intmask
|
|
// MAP:
|
|
// OSF IPL EV5 internal IPL(hex) note
|
|
// 0 0
|
|
// 1 1
|
|
// 2 2
|
|
// 3 14 device
|
|
// 4 15 device
|
|
// 5 16 device
|
|
// 6 1E device,performance counter, powerfail
|
|
// 7 1F
|
|
//
|
|
|
|
ldah r1, 0x1f1E(r31) // Create upper lw of int_mask
|
|
lda r1, 0x1615(r1)
|
|
|
|
sll r1, 32, r1
|
|
ldah r1, 0x1402(r1) // Create lower lw of int_mask
|
|
|
|
lda r1, 0x0100(r1)
|
|
mtpr r1, pt_intmask // Stash in PALtemp
|
|
|
|
// Unlock a bunch of chip internal IPRs
|
|
mtpr r31, exc_sum // clear out exeception summary and exc_mask
|
|
mfpr r31, va // unlock va, mmstat
|
|
lda r8,(BIT(icperr_stat_v_dpe)|BIT(icperr_stat_v_tpe)|BIT(icperr_stat_v_tmr))(zero)
|
|
|
|
mtpr r8, icperr_stat // Clear Icache parity error & timeout status
|
|
lda r8,(BIT(dcperr_stat_v_lock)|BIT(dcperr_stat_v_seo))(r31)
|
|
|
|
mtpr r8, dcperr_stat // Clear Dcache parity error status
|
|
|
|
rc r0 // clear intr_flag
|
|
mtpr r31, pt_trap
|
|
|
|
mfpr r0, pt_misc
|
|
srl r0, pt_misc_v_switch, r1
|
|
blbs r1, sys_reset_switch // see if we got here from swppal
|
|
|
|
// Rest of the "real" reset flow
|
|
// ASN
|
|
mtpr r31, dtb_asn
|
|
mtpr r31, itb_asn
|
|
|
|
lda r1, 0x67(r31)
|
|
sll r1, hwint_clr_v_pc0c, r1
|
|
mtpr r1, hwint_clr // Clear hardware interrupt requests
|
|
|
|
lda r1, BIT(mces_v_dpc)(r31) // 1 in disable processor correctable error
|
|
mfpr r0, pt1 // get whami
|
|
insbl r0, 1, r0 // isolate whami in correct pt_misc position
|
|
or r0, r1, r1 // combine whami and mces
|
|
mtpr r1, pt_misc // store whami and mces, swap bit clear
|
|
|
|
zapnot r3, 1, r0 // isolate halt code
|
|
mtpr r0, pt0 // save entry type
|
|
|
|
// Cycle counter
|
|
or r31, 1, r9 // get a one
|
|
sll r9, 32, r9 // shift to <32>
|
|
mtpr r31, cc // clear Cycle Counter
|
|
mtpr r9, cc_ctl // clear and enable the Cycle Counter
|
|
mtpr r31, pt_scc // clear System Cycle Counter
|
|
|
|
|
|
// Misc PALtemps
|
|
mtpr r31, maf_mode // no mbox instructions for 3 cycles
|
|
or r31, 1, r1 // get bogus scbb value
|
|
mtpr r1, pt_scbb // load scbb
|
|
mtpr r31, pt_prbr // clear out prbr
|
|
#if defined(TSUNAMI) || defined(BIG_TSUNAMI)
|
|
// yes, this is ugly, but you figure out a better
|
|
// way to get the address of the kludge_initial_pcbb
|
|
// in r1 with an uncooperative assembler --ali
|
|
br r1, kludge_getpcb_addr
|
|
br r31, kludge_initial_pcbb
|
|
kludge_getpcb_addr:
|
|
ldq_p r19, 0(r1)
|
|
sll r19, 44, r19
|
|
srl r19, 44, r19
|
|
mulq r19,4,r19
|
|
addq r19, r1, r1
|
|
addq r1,4,r1
|
|
#elif defined(TLASER)
|
|
// or zero,kludge_initial_pcbb,r1
|
|
GET_ADDR(r1, (kludge_initial_pcbb-pal_base), r1)
|
|
#endif
|
|
mtpr r1, pt_pcbb // load pcbb
|
|
lda r1, 2(r31) // get a two
|
|
sll r1, 32, r1 // gen up upper bits
|
|
mtpr r1, mvptbr
|
|
mtpr r1, ivptbr
|
|
mtpr r31, pt_ptbr
|
|
// Performance counters
|
|
mtpr r31, pmctr
|
|
|
|
// Clear pmctr_ctl in impure area
|
|
|
|
|
|
ldah r14, 0xfff0(r31)
|
|
zap r14, 0xE0, r14 // Get Cbox IPR base
|
|
GET_IMPURE(r13)
|
|
stq_p r31, 0(r13) // Clear lock_flag
|
|
|
|
mfpr r0, pt0 // get entry type
|
|
br r31, sys_enter_console // enter the cosole
|
|
|
|
|
|
// swppal entry
|
|
// r0 - pt_misc
|
|
// r17 - new PC
|
|
// r18 - new PCBB
|
|
// r19 - new VPTB
|
|
sys_reset_switch:
|
|
or r31, 1, r9
|
|
sll r9, pt_misc_v_switch, r9
|
|
bic r0, r9, r0 // clear switch bit
|
|
mtpr r0, pt_misc
|
|
|
|
rpcc r1 // get cyccounter
|
|
|
|
ldq_p r22, osfpcb_q_fen(r18) // get new fen/pme
|
|
ldl_p r23, osfpcb_l_cc(r18) // get cycle counter
|
|
ldl_p r24, osfpcb_l_asn(r18) // get new asn
|
|
|
|
|
|
ldq_p r25, osfpcb_q_Mmptr(r18)// get new mmptr
|
|
sll r25, page_offset_size_bits, r25 // convert pfn to pa
|
|
mtpr r25, pt_ptbr // load the new mmptr
|
|
mtpr r18, pt_pcbb // set new pcbb
|
|
|
|
bic r17, 3, r17 // clean use pc
|
|
mtpr r17, exc_addr // set new pc
|
|
mtpr r19, mvptbr
|
|
mtpr r19, ivptbr
|
|
|
|
ldq_p r30, osfpcb_q_Usp(r18) // get new usp
|
|
mtpr r30, pt_usp // save usp
|
|
|
|
sll r24, dtb_asn_v_asn, r8
|
|
mtpr r8, dtb_asn
|
|
sll r24, itb_asn_v_asn, r24
|
|
mtpr r24, itb_asn
|
|
|
|
mfpr r25, icsr // get current icsr
|
|
lda r24, 1(r31)
|
|
sll r24, icsr_v_fpe, r24 // 1 in icsr<fpe> position
|
|
bic r25, r24, r25 // clean out old fpe
|
|
and r22, 1, r22 // isolate new fen bit
|
|
sll r22, icsr_v_fpe, r22
|
|
or r22, r25, r25 // or in new fpe
|
|
mtpr r25, icsr // update ibox ipr
|
|
|
|
subl r23, r1, r1 // gen new cc offset
|
|
insll r1, 4, r1 // << 32
|
|
mtpr r1, cc // set new offset
|
|
|
|
or r31, r31, r0 // set success
|
|
ldq_p r30, osfpcb_q_Ksp(r18) // get new ksp
|
|
mfpr r31, pt0 // stall
|
|
hw_rei_stall
|
|
|
|
//
|
|
//sys_machine_check - Machine check PAL
|
|
// A machine_check trap has occurred. The Icache has been flushed.
|
|
//
|
|
//
|
|
|
|
ALIGN_BLOCK
|
|
EXPORT(sys_machine_check)
|
|
// Need to fill up the refill buffer (32 instructions) and
|
|
// then flush the Icache again.
|
|
// Also, due to possible 2nd Cbox register file write for
|
|
// uncorrectable errors, no register file read or write for 7 cycles.
|
|
|
|
nop
|
|
mtpr r0, pt0 // Stash for scratch -- OK if Cbox overwrites
|
|
// r0 later
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
// 10 instructions// 5 cycles
|
|
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
|
|
// Register file can now be written
|
|
lda r0, scb_v_procmchk(r31) // SCB vector
|
|
mfpr r13, pt_mces // Get MCES
|
|
sll r0, 16, r0 // Move SCBv to correct position
|
|
bis r13, BIT(mces_v_mchk), r14 // Set MCES<MCHK> bit
|
|
|
|
|
|
zap r14, 0x3C, r14 // Clear mchk_code word and SCBv word
|
|
mtpr r14, pt_mces
|
|
// 20 instructions
|
|
|
|
nop
|
|
or r14, r0, r14 // Insert new SCB vector
|
|
lda r0, mchk_c_proc_hrd_error(r31) // MCHK code
|
|
mfpr r12, exc_addr
|
|
|
|
sll r0, 32, r0 // Move MCHK code to correct position
|
|
mtpr r4, pt4
|
|
or r14, r0, r14 // Insert new MCHK code
|
|
mtpr r14, pt_misc // Store updated MCES, MCHK code, and SCBv
|
|
|
|
ldah r14, 0xfff0(r31)
|
|
mtpr r1, pt1 // Stash for scratch - 30 instructions
|
|
|
|
zap r14, 0xE0, r14 // Get Cbox IPR base
|
|
mtpr r12, pt10 // Stash exc_addr
|
|
|
|
|
|
|
|
mtpr r31, ic_flush_ctl // Second Icache flush, now it is really flushed.
|
|
blbs r13, sys_double_machine_check // MCHK halt if double machine check
|
|
|
|
mtpr r6, pt6
|
|
mtpr r5, pt5
|
|
|
|
// Look for the powerfail cases here....
|
|
mfpr r4, isr
|
|
srl r4, isr_v_pfl, r4
|
|
blbc r4, sys_mchk_collect_iprs // skip if no powerfail interrupt pending
|
|
lda r4, 0xffc4(r31) // get GBUS$MISCR address bits
|
|
sll r4, 24, r4 // shift to proper position
|
|
ldq_p r4, 0(r4) // read GBUS$MISCR
|
|
srl r4, 5, r4 // isolate bit <5>
|
|
blbc r4, sys_mchk_collect_iprs // skip if already cleared
|
|
// No missed CFAIL mchk
|
|
lda r5, 0xffc7(r31) // get GBUS$SERNUM address bits
|
|
sll r5, 24, r5 // shift to proper position
|
|
lda r6, 0x40(r31) // get bit <6> mask
|
|
ldq_p r4, 0(r5) // read GBUS$SERNUM
|
|
or r4, r6, r6 // set bit <6>
|
|
stq_p r6, 0(r5) // clear GBUS$SERNUM<6>
|
|
mb
|
|
mb
|
|
|
|
|
|
//
|
|
// Start to collect the IPRs. Common entry point for mchk flows.
|
|
//
|
|
// Current state:
|
|
// pt0 - saved r0
|
|
// pt1 - saved r1
|
|
// pt4 - saved r4
|
|
// pt5 - saved r5
|
|
// pt6 - saved r6
|
|
// pt10 - saved exc_addr
|
|
// pt_misc<47:32> - mchk code
|
|
// pt_misc<31:16> - scb vector
|
|
// r14 - base of Cbox IPRs in IO space
|
|
// r0, r1, r4, r5, r6, r12, r13, r25 - available
|
|
// r8, r9, r10 - available as all loads are physical
|
|
// MCES<mchk> is set
|
|
//
|
|
//
|
|
|
|
EXPORT(sys_mchk_collect_iprs)
|
|
mb // MB before reading Scache IPRs
|
|
mfpr r1, icperr_stat
|
|
|
|
mfpr r8, dcperr_stat
|
|
mtpr r31, dc_flush // Flush the Dcache
|
|
|
|
mfpr r31, pt0 // Pad Mbox instructions from dc_flush
|
|
mfpr r31, pt0
|
|
nop
|
|
nop
|
|
|
|
ldq_p r9, sc_addr(r14) // SC_ADDR IPR
|
|
bis r9, r31, r31 // Touch ld to make sure it completes before
|
|
// read of SC_STAT
|
|
ldq_p r10, sc_stat(r14) // SC_STAT, also unlocks SC_ADDR
|
|
|
|
ldq_p r12, ei_addr(r14) // EI_ADDR IPR
|
|
ldq_p r13, bc_tag_addr(r14) // BC_TAG_ADDR IPR
|
|
ldq_p r0, fill_syn(r14) // FILL_SYN IPR
|
|
bis r12, r13, r31 // Touch lds to make sure they complete before reading EI_STAT
|
|
bis r0, r0, r31 // Touch lds to make sure they complete before reading EI_STAT
|
|
ldq_p r25, ei_stat(r14) // EI_STAT, unlock EI_ADDR, BC_TAG_ADDR, FILL_SYN
|
|
ldq_p r31, ei_stat(r14) // Read again to insure it is unlocked
|
|
|
|
|
|
|
|
|
|
//
|
|
// Look for nonretryable cases
|
|
// In this segment:
|
|
// r5<0> = 1 means retryable
|
|
// r4, r6, and r14 are available for scratch
|
|
//
|
|
//
|
|
|
|
|
|
bis r31, r31, r5 // Clear local retryable flag
|
|
srl r25, ei_stat_v_bc_tperr, r25 // Move EI_STAT status bits to low bits
|
|
|
|
lda r4, 1(r31)
|
|
sll r4, icperr_stat_v_tmr, r4
|
|
and r1, r4, r4 // Timeout reset
|
|
bne r4, sys_cpu_mchk_not_retryable
|
|
|
|
and r8, BIT(dcperr_stat_v_lock), r4 // DCache parity error locked
|
|
bne r4, sys_cpu_mchk_not_retryable
|
|
|
|
lda r4, 1(r31)
|
|
sll r4, sc_stat_v_sc_scnd_err, r4
|
|
and r10, r4, r4 // 2nd Scache error occurred
|
|
bne r4, sys_cpu_mchk_not_retryable
|
|
|
|
|
|
bis r31, 0xa3, r4 // EI_STAT Bcache Tag Parity Error, Bcache Tag Control
|
|
// Parity Error, Interface Parity Error, 2nd Error
|
|
|
|
and r25, r4, r4
|
|
bne r4, sys_cpu_mchk_not_retryable
|
|
|
|
// bis r31, #<1@<ei_stat$v_unc_ecc_err-ei_stat$v_bc_tperr>>, r4
|
|
bis r31, BIT((ei_stat_v_unc_ecc_err-ei_stat_v_bc_tperr)), r4
|
|
and r25, r4, r4 // Isolate the Uncorrectable Error Bit
|
|
// bis r31, #<1@<ei_stat$v_fil_ird-ei_stat$v_bc_tperr>>, r6
|
|
bis r31, BIT((ei_stat_v_fil_ird-ei_stat_v_bc_tperr)), r6 // Isolate the Iread bit
|
|
cmovne r6, 0, r4 // r4 = 0 if IRD or if No Uncorrectable Error
|
|
bne r4, sys_cpu_mchk_not_retryable
|
|
|
|
lda r4, 7(r31)
|
|
and r10, r4, r4 // Isolate the Scache Tag Parity Error bits
|
|
bne r4, sys_cpu_mchk_not_retryable // All Scache Tag PEs are not retryable
|
|
|
|
|
|
lda r4, 0x7f8(r31)
|
|
and r10, r4, r4 // Isolate the Scache Data Parity Error bits
|
|
srl r10, sc_stat_v_cbox_cmd, r6
|
|
and r6, 0x1f, r6 // Isolate Scache Command field
|
|
subq r6, 1, r6 // Scache Iread command = 1
|
|
cmoveq r6, 0, r4 // r4 = 0 if IRD or if No Parity Error
|
|
bne r4, sys_cpu_mchk_not_retryable
|
|
|
|
// Look for the system unretryable cases here....
|
|
|
|
mfpr r4, isr // mchk_interrupt pin asserted
|
|
srl r4, isr_v_mck, r4
|
|
blbs r4, sys_cpu_mchk_not_retryable
|
|
|
|
|
|
|
|
//
|
|
// Look for retryable cases
|
|
// In this segment:
|
|
// r5<0> = 1 means retryable
|
|
// r6 - holds the mchk code
|
|
// r4 and r14 are available for scratch
|
|
//
|
|
//
|
|
|
|
|
|
// Within the chip, the retryable cases are Istream errors
|
|
lda r4, 3(r31)
|
|
sll r4, icperr_stat_v_dpe, r4
|
|
and r1, r4, r4
|
|
cmovne r4, 1, r5 // Retryable if just Icache parity error
|
|
|
|
|
|
lda r4, 0x7f8(r31)
|
|
and r10, r4, r4 // Isolate the Scache Data Parity Error bits
|
|
srl r10, sc_stat_v_cbox_cmd, r14
|
|
and r14, 0x1f, r14 // Isolate Scache Command field
|
|
subq r14, 1, r14 // Scache Iread command = 1
|
|
cmovne r4, 1, r4 // r4 = 1 if Scache data parity error bit set
|
|
cmovne r14, 0, r4 // r4 = 1 if Scache PE and Iread
|
|
bis r4, r5, r5 // Accumulate
|
|
|
|
|
|
bis r31, BIT((ei_stat_v_unc_ecc_err-ei_stat_v_bc_tperr)), r4
|
|
and r25, r4, r4 // Isolate the Uncorrectable Error Bit
|
|
and r25, BIT((ei_stat_v_fil_ird-ei_stat_v_bc_tperr)), r14 // Isolate the Iread bit
|
|
cmovne r4, 1, r4 // r4 = 1 if uncorr error
|
|
cmoveq r14, 0, r4 // r4 = 1 if uncorr and Iread
|
|
bis r4, r5, r5 // Accumulate
|
|
|
|
mfpr r6, pt_misc
|
|
extwl r6, 4, r6 // Fetch mchk code
|
|
bic r6, 1, r6 // Clear flag from interrupt flow
|
|
cmovne r5, mchk_c_retryable_ird, r6 // Set mchk code
|
|
|
|
|
|
//
|
|
// Write the logout frame
|
|
//
|
|
// Current state:
|
|
// r0 - fill_syn
|
|
// r1 - icperr_stat
|
|
// r4 - available
|
|
// r5<0> - retry flag
|
|
// r6 - mchk code
|
|
// r8 - dcperr_stat
|
|
// r9 - sc_addr
|
|
// r10 - sc_stat
|
|
// r12 - ei_addr
|
|
// r13 - bc_tag_addr
|
|
// r14 - available
|
|
// r25 - ei_stat (shifted)
|
|
// pt0 - saved r0
|
|
// pt1 - saved r1
|
|
// pt4 - saved r4
|
|
// pt5 - saved r5
|
|
// pt6 - saved r6
|
|
// pt10 - saved exc_addr
|
|
//
|
|
//
|
|
|
|
sys_mchk_write_logout_frame:
|
|
// Get base of the logout area.
|
|
GET_IMPURE(r14) // addr of per-cpu impure area
|
|
GET_ADDR(r14,pal_logout_area+mchk_mchk_base,r14)
|
|
|
|
// Write the first 2 quadwords of the logout area:
|
|
|
|
sll r5, 63, r5 // Move retry flag to bit 63
|
|
lda r4, mchk_size(r5) // Combine retry flag and frame size
|
|
stq_p r4, mchk_flag(r14) // store flag/frame size
|
|
lda r4, mchk_sys_base(r31) // sys offset
|
|
sll r4, 32, r4
|
|
lda r4, mchk_cpu_base(r4) // cpu offset
|
|
stq_p r4, mchk_offsets(r14) // store sys offset/cpu offset into logout frame
|
|
|
|
//
|
|
// Write the mchk code to the logout area
|
|
// Write error IPRs already fetched to the logout area
|
|
// Restore some GPRs from PALtemps
|
|
//
|
|
|
|
mfpr r5, pt5
|
|
stq_p r6, mchk_mchk_code(r14)
|
|
mfpr r4, pt4
|
|
stq_p r1, mchk_ic_perr_stat(r14)
|
|
mfpr r6, pt6
|
|
stq_p r8, mchk_dc_perr_stat(r14)
|
|
mfpr r1, pt1
|
|
stq_p r9, mchk_sc_addr(r14)
|
|
stq_p r10, mchk_sc_stat(r14)
|
|
stq_p r12, mchk_ei_addr(r14)
|
|
stq_p r13, mchk_bc_tag_addr(r14)
|
|
stq_p r0, mchk_fill_syn(r14)
|
|
mfpr r0, pt0
|
|
sll r25, ei_stat_v_bc_tperr, r25 // Move EI_STAT status bits back to expected position
|
|
// retrieve lower 28 bits again from ei_stat and restore before storing to logout frame
|
|
ldah r13, 0xfff0(r31)
|
|
zapnot r13, 0x1f, r13
|
|
ldq_p r13, ei_stat(r13)
|
|
sll r13, 64-ei_stat_v_bc_tperr, r13
|
|
srl r13, 64-ei_stat_v_bc_tperr, r13
|
|
or r25, r13, r25
|
|
stq_p r25, mchk_ei_stat(r14)
|
|
|
|
|
|
|
|
|
|
//
|
|
// complete the CPU-specific part of the logout frame
|
|
//
|
|
|
|
ldah r13, 0xfff0(r31)
|
|
zap r13, 0xE0, r13 // Get Cbox IPR base
|
|
ldq_p r13, ld_lock(r13) // Get ld_lock IPR
|
|
stq_p r13, mchk_ld_lock(r14) // and stash it in the frame
|
|
|
|
// Unlock IPRs
|
|
lda r8, (BIT(dcperr_stat_v_lock)|BIT(dcperr_stat_v_seo))(r31)
|
|
mtpr r8, dcperr_stat // Clear Dcache parity error status
|
|
|
|
lda r8, (BIT(icperr_stat_v_dpe)|BIT(icperr_stat_v_tpe)|BIT(icperr_stat_v_tmr))(r31)
|
|
mtpr r8, icperr_stat // Clear Icache parity error & timeout status
|
|
|
|
1: ldq_p r8, mchk_ic_perr_stat(r14) // get ICPERR_STAT value
|
|
GET_ADDR(r0,0x1800,r31) // get ICPERR_STAT value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 2f // check next case if nothing set
|
|
lda r0, mchk_c_retryable_ird(r31) // set new MCHK code
|
|
br r31, do_670 // setup new vector
|
|
|
|
2: ldq_p r8, mchk_dc_perr_stat(r14) // get DCPERR_STAT value
|
|
GET_ADDR(r0,0x3f,r31) // get DCPERR_STAT value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 3f // check next case if nothing set
|
|
lda r0, mchk_c_dcperr(r31) // set new MCHK code
|
|
br r31, do_670 // setup new vector
|
|
|
|
3: ldq_p r8, mchk_sc_stat(r14) // get SC_STAT value
|
|
GET_ADDR(r0,0x107ff,r31) // get SC_STAT value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 4f // check next case if nothing set
|
|
lda r0, mchk_c_scperr(r31) // set new MCHK code
|
|
br r31, do_670 // setup new vector
|
|
|
|
4: ldq_p r8, mchk_ei_stat(r14) // get EI_STAT value
|
|
GET_ADDR(r0,0x30000000,r31) // get EI_STAT value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 5f // check next case if nothing set
|
|
lda r0, mchk_c_bcperr(r31) // set new MCHK code
|
|
br r31, do_670 // setup new vector
|
|
|
|
5: ldl_p r8, mchk_tlber(r14) // get TLBER value
|
|
GET_ADDR(r0,0xfe01,r31) // get high TLBER mask value
|
|
sll r0, 16, r0 // shift into proper position
|
|
GET_ADDR(r1,0x03ff,r31) // get low TLBER mask value
|
|
or r0, r1, r0 // merge mask values
|
|
and r0, r8, r0 // compare
|
|
beq r0, 6f // check next case if nothing set
|
|
GET_ADDR(r0, 0xfff0, r31) // set new MCHK code
|
|
br r31, do_660 // setup new vector
|
|
|
|
6: ldl_p r8, mchk_tlepaerr(r14) // get TLEPAERR value
|
|
GET_ADDR(r0,0xff7f,r31) // get TLEPAERR mask value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 7f // check next case if nothing set
|
|
GET_ADDR(r0, 0xfffa, r31) // set new MCHK code
|
|
br r31, do_660 // setup new vector
|
|
|
|
7: ldl_p r8, mchk_tlepderr(r14) // get TLEPDERR value
|
|
GET_ADDR(r0,0x7,r31) // get TLEPDERR mask value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 8f // check next case if nothing set
|
|
GET_ADDR(r0, 0xfffb, r31) // set new MCHK code
|
|
br r31, do_660 // setup new vector
|
|
|
|
8: ldl_p r8, mchk_tlepmerr(r14) // get TLEPMERR value
|
|
GET_ADDR(r0,0x3f,r31) // get TLEPMERR mask value
|
|
and r0, r8, r0 // compare
|
|
beq r0, 9f // check next case if nothing set
|
|
GET_ADDR(r0, 0xfffc, r31) // set new MCHK code
|
|
br r31, do_660 // setup new vector
|
|
|
|
9: ldq_p r8, mchk_ei_stat(r14) // get EI_STAT value
|
|
GET_ADDR(r0,0xb,r31) // get EI_STAT mask value
|
|
sll r0, 32, r0 // shift to upper lw
|
|
and r0, r8, r0 // compare
|
|
beq r0, 1f // check next case if nothing set
|
|
GET_ADDR(r0,0xfffd,r31) // set new MCHK code
|
|
br r31, do_660 // setup new vector
|
|
|
|
1: ldl_p r8, mchk_tlepaerr(r14) // get TLEPAERR value
|
|
GET_ADDR(r0,0x80,r31) // get TLEPAERR mask value
|
|
and r0, r8, r0 // compare
|
|
beq r0, cont_logout_frame // check next case if nothing set
|
|
GET_ADDR(r0, 0xfffe, r31) // set new MCHK code
|
|
br r31, do_660 // setup new vector
|
|
|
|
do_670: lda r8, scb_v_procmchk(r31) // SCB vector
|
|
br r31, do_6x0_cont
|
|
do_660: lda r8, scb_v_sysmchk(r31) // SCB vector
|
|
do_6x0_cont:
|
|
sll r8, 16, r8 // shift to proper position
|
|
mfpr r1, pt_misc // fetch current pt_misc
|
|
GET_ADDR(r4,0xffff, r31) // mask for vector field
|
|
sll r4, 16, r4 // shift to proper position
|
|
bic r1, r4, r1 // clear out old vector field
|
|
or r1, r8, r1 // merge in new vector
|
|
mtpr r1, pt_misc // save new vector field
|
|
stl_p r0, mchk_mchk_code(r14) // save new mchk code
|
|
|
|
cont_logout_frame:
|
|
// Restore some GPRs from PALtemps
|
|
mfpr r0, pt0
|
|
mfpr r1, pt1
|
|
mfpr r4, pt4
|
|
|
|
mfpr r12, pt10 // fetch original PC
|
|
blbs r12, sys_machine_check_while_in_pal // MCHK halt if machine check in pal
|
|
|
|
//XXXbugnion pvc_jsr armc, bsr=1
|
|
bsr r12, sys_arith_and_mchk // go check for and deal with arith trap
|
|
|
|
mtpr r31, exc_sum // Clear Exception Summary
|
|
|
|
mfpr r25, pt10 // write exc_addr after arith_and_mchk to pickup new pc
|
|
stq_p r25, mchk_exc_addr(r14)
|
|
|
|
//
|
|
// Set up the km trap
|
|
//
|
|
|
|
|
|
sys_post_mchk_trap:
|
|
mfpr r25, pt_misc // Check for flag from mchk interrupt
|
|
extwl r25, 4, r25
|
|
blbs r25, sys_mchk_stack_done // Stack from already pushed if from interrupt flow
|
|
|
|
bis r14, r31, r12 // stash pointer to logout area
|
|
mfpr r14, pt10 // get exc_addr
|
|
|
|
sll r11, 63-3, r25 // get mode to msb
|
|
bge r25, 3f
|
|
|
|
mtpr r31, dtb_cm
|
|
mtpr r31, ev5__ps
|
|
|
|
mtpr r30, pt_usp // save user stack
|
|
mfpr r30, pt_ksp
|
|
|
|
3:
|
|
lda sp, 0-osfsf_c_size(sp) // allocate stack space
|
|
nop
|
|
|
|
stq r18, osfsf_a2(sp) // a2
|
|
stq r11, osfsf_ps(sp) // save ps
|
|
|
|
stq r14, osfsf_pc(sp) // save pc
|
|
mfpr r25, pt_entint // get the VA of the interrupt routine
|
|
|
|
stq r16, osfsf_a0(sp) // a0
|
|
lda r16, osfint_c_mchk(r31) // flag as mchk in a0
|
|
|
|
stq r17, osfsf_a1(sp) // a1
|
|
mfpr r17, pt_misc // get vector
|
|
|
|
stq r29, osfsf_gp(sp) // old gp
|
|
mtpr r25, exc_addr //
|
|
|
|
or r31, 7, r11 // get new ps (km, high ipl)
|
|
subq r31, 1, r18 // get a -1
|
|
|
|
extwl r17, 2, r17 // a1 <- interrupt vector
|
|
bis r31, ipl_machine_check, r25
|
|
|
|
mtpr r25, ipl // Set internal ipl
|
|
srl r18, 42, r18 // shift off low bits of kseg addr
|
|
|
|
sll r18, 42, r18 // shift back into position
|
|
mfpr r29, pt_kgp // get the kern r29
|
|
|
|
or r12, r18, r18 // EV4 algorithm - pass pointer to mchk frame as kseg address
|
|
hw_rei_spe // out to interrupt dispatch routine
|
|
|
|
|
|
//
|
|
// The stack is pushed. Load up a0,a1,a2 and vector via entInt
|
|
//
|
|
//
|
|
ALIGN_BRANCH
|
|
sys_mchk_stack_done:
|
|
lda r16, osfint_c_mchk(r31) // flag as mchk/crd in a0
|
|
lda r17, scb_v_sysmchk(r31) // a1 <- interrupt vector
|
|
|
|
subq r31, 1, r18 // get a -1
|
|
mfpr r25, pt_entInt
|
|
|
|
srl r18, 42, r18 // shift off low bits of kseg addr
|
|
mtpr r25, exc_addr // load interrupt vector
|
|
|
|
sll r18, 42, r18 // shift back into position
|
|
or r14, r18, r18 // EV4 algorithm - pass pointer to mchk frame as kseg address
|
|
|
|
hw_rei_spe // done
|
|
|
|
|
|
ALIGN_BRANCH
|
|
sys_cpu_mchk_not_retryable:
|
|
mfpr r6, pt_misc
|
|
extwl r6, 4, r6 // Fetch mchk code
|
|
br r31, sys_mchk_write_logout_frame //
|
|
|
|
|
|
|
|
//
|
|
//sys_double_machine_check - a machine check was started, but MCES<MCHK> was
|
|
// already set. We will now double machine check halt.
|
|
//
|
|
// pt0 - old R0
|
|
//
|
|
//
|
|
|
|
EXPORT(sys_double_machine_check)
|
|
lda r0, hlt_c_dbl_mchk(r31)
|
|
br r31, sys_enter_console
|
|
|
|
//
|
|
// sys_machine_check_while_in_pal - a machine check was started,
|
|
// exc_addr points to a PAL PC. We will now machine check halt.
|
|
//
|
|
// pt0 - old R0
|
|
//
|
|
//
|
|
sys_machine_check_while_in_pal:
|
|
stq_p r12, mchk_exc_addr(r14) // exc_addr has not yet been written
|
|
lda r0, hlt_c_mchk_from_pal(r31)
|
|
br r31, sys_enter_console
|
|
|
|
|
|
//ARITH and MCHK
|
|
// Check for arithmetic errors and build trap frame,
|
|
// but don't post the trap.
|
|
// on entry:
|
|
// pt10 - exc_addr
|
|
// r12 - return address
|
|
// r14 - logout frame pointer
|
|
// r13 - available
|
|
// r8,r9,r10 - available except across stq's
|
|
// pt0,1,6 - available
|
|
//
|
|
// on exit:
|
|
// pt10 - new exc_addr
|
|
// r17 = exc_mask
|
|
// r16 = exc_sum
|
|
// r14 - logout frame pointer
|
|
//
|
|
ALIGN_BRANCH
|
|
sys_arith_and_mchk:
|
|
mfpr r13, ev5__exc_sum
|
|
srl r13, exc_sum_v_swc, r13
|
|
bne r13, handle_arith_and_mchk
|
|
|
|
// XXX bugnion pvc$jsr armc, bsr=1, dest=1
|
|
ret r31, (r12) // return if no outstanding arithmetic error
|
|
|
|
handle_arith_and_mchk:
|
|
mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel
|
|
// no virt ref for next 2 cycles
|
|
mtpr r14, pt0
|
|
|
|
mtpr r1, pt1 // get a scratch reg
|
|
and r11, osfps_m_mode, r1 // get mode bit
|
|
|
|
bis r11, r31, r25 // save ps
|
|
beq r1, 1f // if zero we are in kern now
|
|
|
|
bis r31, r31, r25 // set the new ps
|
|
mtpr r30, pt_usp // save user stack
|
|
|
|
mfpr r30, pt_ksp // get kern stack
|
|
1:
|
|
mfpr r14, exc_addr // get pc into r14 in case stack writes fault
|
|
|
|
lda sp, 0-osfsf_c_size(sp) // allocate stack space
|
|
mtpr r31, ev5__ps // Set Ibox current mode to kernel
|
|
|
|
mfpr r1, pt_entArith
|
|
stq r14, osfsf_pc(sp) // save pc
|
|
|
|
stq r17, osfsf_a1(sp)
|
|
mfpr r17, ev5__exc_mask // Get exception register mask IPR - no mtpr exc_sum in next cycle
|
|
|
|
stq r29, osfsf_gp(sp)
|
|
stq r16, osfsf_a0(sp) // save regs
|
|
|
|
bis r13, r31, r16 // move exc_sum to r16
|
|
stq r18, osfsf_a2(sp)
|
|
|
|
stq r11, osfsf_ps(sp) // save ps
|
|
mfpr r29, pt_kgp // get the kern gp
|
|
|
|
mfpr r14, pt0 // restore logout frame pointer from pt0
|
|
bis r25, r31, r11 // set new ps
|
|
|
|
mtpr r1, pt10 // Set new PC
|
|
mfpr r1, pt1
|
|
|
|
// XXX bugnion pvc$jsr armc, bsr=1, dest=1
|
|
ret r31, (r12) // return if no outstanding arithmetic error
|
|
|
|
|
|
|
|
// sys_enter_console - Common PALcode for ENTERING console
|
|
//
|
|
// Entry:
|
|
// Entered when PAL wants to enter the console.
|
|
// usually as the result of a HALT instruction or button,
|
|
// or catastrophic error.
|
|
//
|
|
// Regs on entry...
|
|
//
|
|
// R0 = halt code
|
|
// pt0 <- r0
|
|
//
|
|
// Function:
|
|
//
|
|
// Save all readable machine state, and "call" the console
|
|
//
|
|
// Returns:
|
|
//
|
|
//
|
|
// Notes:
|
|
//
|
|
// In these routines, once the save state routine has been executed,
|
|
// the remainder of the registers become scratchable, as the only
|
|
// "valid" copy of them is the "saved" copy.
|
|
//
|
|
// Any registers or PTs that are modified before calling the save
|
|
// routine will have there data lost. The code below will save all
|
|
// state, but will loose pt 0,4,5.
|
|
//
|
|
//
|
|
|
|
ALIGN_BLOCK
|
|
EXPORT(sys_enter_console)
|
|
mtpr r1, pt4
|
|
mtpr r3, pt5
|
|
subq r31, 1, r1
|
|
sll r1, 42, r1
|
|
ldah r1, 1(r1)
|
|
|
|
/* taken from scrmax, seems like the obvious thing to do */
|
|
mtpr r1, exc_addr
|
|
mfpr r1, pt4
|
|
mfpr r3, pt5
|
|
STALL
|
|
STALL
|
|
hw_rei_stall
|
|
|
|
|
|
//
|
|
// sys_exit_console - Common PALcode for ENTERING console
|
|
//
|
|
// Entry:
|
|
// Entered when console wants to reenter PAL.
|
|
// usually as the result of a CONTINUE.
|
|
//
|
|
//
|
|
// Regs' on entry...
|
|
//
|
|
//
|
|
// Function:
|
|
//
|
|
// Restore all readable machine state, and return to user code.
|
|
//
|
|
//
|
|
//
|
|
//
|
|
ALIGN_BLOCK
|
|
sys_exit_console:
|
|
|
|
GET_IMPURE(r1)
|
|
|
|
// clear lock and intr_flags prior to leaving console
|
|
rc r31 // clear intr_flag
|
|
// lock flag cleared by restore_state
|
|
// TB's have been flushed
|
|
|
|
ldq_p r3, (cns_gpr+(8*3))(r1) // restore r3
|
|
ldq_p r1, (cns_gpr+8)(r1) // restore r1
|
|
hw_rei_stall // back to user
|
|
|
|
|
|
// kludge_initial_pcbb - PCB for Boot use only
|
|
|
|
ALIGN_128
|
|
.globl kludge_initial_pcbb
|
|
kludge_initial_pcbb: // PCB is 128 bytes long
|
|
nop
|
|
nop
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
nop
|
|
nop
|
|
|
|
nop
|
|
nop
|
|
nop
|
|
nop
|
|
|
|
|
|
// SET_SC_BC_CTL subroutine
|
|
//
|
|
// Subroutine to set the SC_CTL, BC_CONFIG, and BC_CTL registers and
|
|
// flush the Scache
|
|
// There must be no outstanding memory references -- istream or
|
|
// dstream -- when these registers are written. EV5 prefetcher is
|
|
// difficult to turn off. So, this routine needs to be exactly 32
|
|
// instructions long// the final jmp must be in the last octaword of a
|
|
// page (prefetcher doesn't go across page)
|
|
//
|
|
//
|
|
// Register expecations:
|
|
// r0 base address of CBOX iprs
|
|
// r5 value to set sc_ctl to (flush bit is added in)
|
|
// r6 value to set bc_ctl to
|
|
// r7 value to set bc_config to
|
|
// r10 return address
|
|
// r19 old sc_ctl value
|
|
// r20 old value of bc_ctl
|
|
// r21 old value of bc_config
|
|
// r23 flush scache flag
|
|
// Register usage:
|
|
// r17 sc_ctl with flush bit cleared
|
|
// r22 loop address
|
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//
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//
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set_sc_bc_ctl:
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ret r31, (r10) // return to where we came from
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