summaryrefslogtreecommitdiff
path: root/system/alpha/palcode/osfpal.s
diff options
context:
space:
mode:
Diffstat (limited to 'system/alpha/palcode/osfpal.s')
-rw-r--r--system/alpha/palcode/osfpal.s5242
1 files changed, 0 insertions, 5242 deletions
diff --git a/system/alpha/palcode/osfpal.s b/system/alpha/palcode/osfpal.s
deleted file mode 100644
index 3f42ae143..000000000
--- a/system/alpha/palcode/osfpal.s
+++ /dev/null
@@ -1,5242 +0,0 @@
-// modified to use the Hudson style "impure.h" instead of ev5_impure.sdl
-// since we don't have a mechanism to expand the data structures.... pb Nov/95
-
-// build_fixed_image: not sure what means
-// real_mm to be replaced during rewrite
-// remove_save_state remove_restore_state can be remooved to save space ??
-
-
-#include "ev5_defs.h"
-#include "ev5_impure.h"
-#include "ev5_alpha_defs.h"
-#include "ev5_paldef.h"
-#include "ev5_osfalpha_defs.h"
-#include "fromHudsonMacros.h"
-#include "fromHudsonOsf.h"
-#include "dc21164FromGasSources.h"
-
-#ifdef SIMOS
-#define DEBUGSTORE(c) nop
-#else
-#define DEBUGSTORE(c) \
- lda r13, c(zero) ; \
- bsr r25, debugstore
-#endif
-
-#define DEBUG_EXC_ADDR()\
- bsr r25, put_exc_addr; \
- DEBUGSTORE(13) ; \
- DEBUGSTORE(10)
-
-#define egore 0
-#define acore 0
-#define beh_model 0
-#define ev5_p2 1
-#define ev5_p1 0
-#define ldvpte_bug_fix 1
-#define osf_chm_fix 0
-
-// Do we want to do this?? pb
-#define spe_fix 0
-// Do we want to do this?? pb
-#define build_fixed_image 0
-
-#define ev5_pass2
-#define enable_p4_fixups 0
-#define osf_svmin 1
-#define enable_physical_console 0
-#define fill_err_hack 0
-#define icflush_on_tbix 0
-#define max_cpuid 1
-#define perfmon_debug 0
-#define rawhide_system 0
-#define rax_mode 0
-
-
-// This is the fix for the user-mode super page references causing the machine to crash.
-#if (spe_fix == 1) && (build_fixed_image==1)
-#define hw_rei_spe br r31, hw_rei_update_spe
-#else
-#define hw_rei_spe hw_rei
-#endif
-
-
-// redefine a few of the distribution-code names to match the Hudson gas names.
-// opcodes
-#define ldqp ldq_p
-#define stqp stq_p
-#define ldlp ldl_p
-#define stlp stl_p
-
-#define r0 $0
-#define r1 $1
-#define r2 $2
-#define r3 $3
-#define r4 $4
-#define r5 $5
-#define r6 $6
-#define r7 $7
-#define r8 $8
-#define r9 $9
-#define r10 $10
-#define r11 $11
-#define r12 $12
-#define r13 $13
-#define r14 $14
-#define r15 $15
-#define r16 $16
-#define r17 $17
-#define r18 $18
-#define r19 $19
-#define r20 $20
-#define r21 $21
-#define r22 $22
-#define r23 $23
-#define r24 $24
-#define r25 $25
-#define r26 $26
-#define r27 $27
-#define r28 $28
-#define r29 $29
-#define r30 $30
-#define r31 $31
-
-// .title "EV5 OSF PAL"
-// .ident "V1.18"
-//
-//****************************************************************************
-//* *
-//* Copyright (c) 1992, 1993, 1994, 1995 *
-//* by DIGITAL Equipment Corporation, Maynard, Mass. *
-//* *
-//* This software is furnished under a license and may be used and copied *
-//* only in accordance with the terms of such license and with the *
-//* inclusion of the above copyright notice. This software or any other *
-//* copies thereof may not be provided or otherwise made available to any *
-//* other person. No title to and ownership of the software is hereby *
-//* transferred. *
-//* *
-//* The information in this software is subject to change without notice *
-//* and should not be construed as a commitment by DIGITAL Equipment *
-//* Corporation. *
-//* *
-//* DIGITAL assumes no responsibility for the use or reliability of its *
-//* software on equipment which is not supplied by DIGITAL. *
-//* *
-//****************************************************************************
-
-// .sbttl "Edit History"
-//+
-// Who Rev When What
-// ------------ --- ----------- --------------------------------
-// DB 0.0 03-Nov-1992 Start
-// DB 0.1 28-Dec-1992 add swpctx
-// DB 0.2 05-Jan-1993 Bug: PVC found mtpr dtb_CM -> virt ref bug
-// DB 0.3 11-Jan-1993 rearrange trap entry points
-// DB 0.4 01-Feb-1993 add tbi
-// DB 0.5 04-Feb-1993 real MM, kludge reset flow, kludge swppal
-// DB 0.6 09-Feb-1993 Bug: several stack pushers used r16 for pc (should be r14)
-// DB 0.7 10-Feb-1993 Bug: pushed wrong PC (+8) on CALL_PAL OPCDEC
-// Bug: typo on register number for store in wrunique
-// Bug: rti to kern uses r16 as scratch
-// Bug: callsys saving wrong value in pt_usp
-// DB 0.8 16-Feb-1993 PVC: fix possible pt write->read bug in wrkgp, wrusp
-// DB 0.9 18-Feb-1993 Bug: invalid_dpte_handler shifted pte twice
-// Bug: rti stl_c could corrupt the stack
-// Bug: unaligned returning wrong value in r17 (or should be and)
-// DB 0.10 19-Feb-1993 Add draina, rd/wrmces, cflush, cserve, interrupt
-// DB 0.11 23-Feb-1993 Turn caches on in reset flow
-// DB 0.12 10-Mar-1993 Bug: wrong value for icsr for FEN in kern mode flow
-// DB 0.13 15-Mar-1993 Bug: wrong value pushed for PC in invalid_dpte_handler if stack push tbmisses
-// DB 0.14 23-Mar-1993 Add impure pointer paltemp, reshuffle some other paltemps to match VMS
-// DB 0.15 15-Apr-1993 Combine paltemps for WHAMI and MCES
-// DB 0.16 12-May-1993 Update reset
-// New restriction: no mfpr exc_addr in cycle 1 of call_pal flows
-// Bug: in wrmces, not clearing DPC, DSC
-// Update swppal
-// Add pal bugchecks, pal_save_state, pal_restore_state
-// DB 0.17 24-May-1993 Add dfault_in_pal flow; fixup stack builder to have common state for pc/ps.
-// New restriction: No hw_rei_stall in 0,1,2 after mtpr itb_asn
-// DB 0.18 26-May-1993 PVC fixes
-// JM 0.19 01-jul-1993 Bug: OSFPAL_CALPAL_OPCDEC, TRAP_OPCDEC -- move mt exc_addr after stores
-// JM 0.20 07-jul-1993 Update cns_ and mchk_ names for impure.mar conversion to .sdl
-// Bug: exc_addr was being loaded before stores that could dtb_miss in the following
-// routines: TRAP_FEN,FEN_TO_OPCDEC,CALL_PAL_CALLSYS,RTI_TO_KERN
-// JM 0.21 26-jul-1993 Bug: move exc_addr load after ALL stores in the following routines:
-// TRAP_IACCVIO::,TRAP_OPCDEC::,TRAP_ARITH::,TRAP_FEN::
-// dfault_trap_cont:,fen_to_opcdec:,invalid_dpte_handler:
-// osfpal_calpal_opcdec:,CALL_PAL_callsys::,TRAP_UNALIGN::
-// Bugs from PVC: trap_unalign - mt pt0 ->mf pt0 within 2 cycles
-// JM 0.22 28-jul-1993 Add WRIPIR instruction
-// JM 0.23 05-aug-1993 Bump version number for release
-// JM 0.24 11-aug-1993 Bug: call_pal_swpipl - palshadow write -> hw_rei violation
-// JM 0.25 09-sep-1993 Disable certain "hidden" pvc checks in call_pals;
-// New restriction: No hw_rei_stall in 0,1,2,3,4 after mtpr itb_asn - affects HALT(raxmode),
-// and SWPCTX
-// JM 0.26 07-oct-1993 Re-implement pal_version
-// JM 0.27 12-oct-1993 One more time: change pal_version format to conform to SRM
-// JM 0.28 14-oct-1993 Change ic_flush routine to pal_ic_flush
-// JM 0.29 19-oct-1993 BUG(?): dfault_in_pal: use exc_addr to check for dtbmiss,itbmiss check instead
-// of mm_stat<opcode>. mm_stat contains original opcode, not hw_ld.
-// JM 0.30 28-oct-1993 BUG: PVC violation - mf exc_addr in first cycles of call_pal in rti,retsys
-// JM 0.31 15-nov-1993 BUG: WRFEN trashing r0
-// JM 0.32 21-nov-1993 BUG: dtb_ldq,itb_ldq (used in dfault_in_pal) not defined when real_mm=0
-// JM 0.33 24-nov-1993 save/restore_state -
-// BUG: use ivptbr to restore mvptbr
-// BUG: adjust hw_ld/st base/offsets to accomodate 10-bit offset limit
-// CHANGE: Load 2 pages into dtb to accomodate compressed logout area/multiprocessors
-// JM 0.34 20-dec-1993 BUG: set r11<mode> to kernel for ksnv halt case
-// BUG: generate ksnv halt when tb miss on kernel stack accesses
-// save exc_addr in r14 for invalid_dpte stack builder
-// JM 0.35 30-dec-1993 BUG: PVC violation in trap_arith - mt exc_sum in shadow of store with mf exc_mask in
-// the same shadow
-// JM 0.36 6-jan-1994 BUG: fen_to_opcdec - savePC should be PC+4, need to save old PS, update new PS
-// New palcode restiction: mt icsr<fpe,hwe> --> 3 bubbles to hw_rei --affects wrfen
-// JM 0.37 25-jan-1994 BUG: PVC violations in restore_state - mt dc_mode/maf_mode ->mbox instructions
-// Hide impure area manipulations in macros
-// BUG: PVC violation in save and restore state-- move mt icsr out of shadow of ld/st
-// Add some pvc_violate statements
-// JM 0.38 1-feb-1994 Changes to save_state: save pt1; don't save r31,f31; update comments to reflect reality;
-// Changes to restore_state: restore pt1, icsr; don't restore r31,f31; update comments
-// Add code to ensure fen bit set in icsr before ldt
-// conditionally compile rax_more_reset out.
-// move ldqp,stqp macro definitions to ev5_pal_macros.mar and add .mcall's for them here
-// move rax reset stuff to ev5_osf_system_pal.m64
-// JM 0.39 7-feb-1994 Move impure pointer to pal scratch space. Use former pt_impure for bc_ctl shadow
-// and performance monitoring bits
-// Change to save_state routine to save more iprs.
-// JM 0.40 19-feb-1994 Change algorithm in save/restore_state routines; add f31,r31 back in
-// JM 0.41 21-feb-1994 Add flags to compile out save/restore state (not needed in some systems)
-// remove_save_state,remove_restore_state;fix new pvc violation in save_state
-// JM 0.42 22-feb-1994 BUG: save_state overwriting r3
-// JM 0.43 24-feb-1994 BUG: save_state saving wrong icsr
-// JM 0.44 28-feb-1994 Remove ic_flush from wr_tbix instructions
-// JM 0.45 15-mar-1994 BUG: call_pal_tbi trashes a0 prior to range check (instruction order problem)
-// New pal restriction in pal_restore_state: icsr<fpe>->floating instr = 3 bubbles
-// Add exc_sum and exc_mask to pal_save_state (not restore)
-// JM 0.46 22-apr-1994 Move impure pointer back into paltemp; Move bc_ctl shadow and pmctr_ctl into impure
-// area.
-// Add performance counter support to swpctx and wrperfmon
-// JM 0.47 9-may-1994 Bump version # (for ev5_osf_system_pal.m64 sys_perfmon fix)
-// JM 0.48 13-jun-1994 BUG: trap_interrupt --> put new ev5 ipl at 30 for all osfipl6 interrupts
-// JM 0.49 8-jul-1994 BUG: In the unlikely (impossible?) event that the branch to pal_pal_bug_check is
-// taken in the interrupt flow, stack is pushed twice.
-// SWPPAL - update to support ECO 59 to allow 0 as a valid address
-// Add itb flush to save/restore state routines
-// Change hw_rei to hw_rei_stall in ic_flush routine. Shouldn't be necessary, but
-// conforms to itbia restriction.
-// Added enable_physical_console flag (for enter/exit console routines only)
-// JM 0.50 29-jul-1994 Add code to dfault & invalid_dpte_handler to ignore exceptions on a
-// load to r31/f31. changed dfault_fetch_err to dfault_fetch_ldr31_err and
-// nmiss_fetch_err to nmiss_fetch_ldr31_err.
-// JM 1.00 1-aug-1994 Add pass2 support (swpctx)
-// JM 1.01 2-aug-1994 swppal now passes bc_ctl/bc_config in r1/r2
-// JM 1.02 15-sep-1994 BUG: swpctx missing shift of pme bit to correct position in icsr (pass2)
-// Moved perfmon code here from system file.
-// BUG: pal_perfmon - enable function not saving correct enables when pme not set (pass1)
-// JM 1.03 3-oct-1994 Added (pass2 only) code to wrperfmon enable function to look at pme bit.
-// JM 1.04 14-oct-1994 BUG: trap_interrupt - ISR read (and saved) before INTID -- INTID can change
-// after ISR read, but we won't catch the ISR update. reverse order
-// JM 1.05 17-nov-1994 Add code to dismiss UNALIGN trap if LD r31/F31
-// JM 1.06 28-nov-1994 BUG: missing mm_stat shift for store case in trap_unalign (new bug due to "dismiss" code)
-// JM 1.07 1-dec-1994 EV5 PASS1,2,3 BUG WORKAROUND: Add flag LDVPTE_BUG_FIX. In DTBMISS_DOUBLE, branch to
-// DTBMISS_SINGLE if not in palmode.
-// JM 1.08 9-jan-1995 Bump version number for change to EV5_OSF_SYSTEM_PAL.M64 - ei_stat fix in mchk logout frame
-// JM 1.09 2-feb-1995 Add flag "spe_fix" and accompanying code to workaround pre-pass4 bug: Disable Ibox
-// superpage mode in User mode and re-enable in kernel mode.
-// EV5_OSF_SYSTEM_PAL.M64 and EV5_PALDEF.MAR (added pt_misc_v_cm) also changed to support this.
-// JM 1.10 24-feb-1995 Set ldvpte_bug_fix regardless of ev5 pass. set default to ev5_p2
-// ES 1.11 10-mar-1995 Add flag "osf_chm_fix" to enable dcache in user mode only to avoid
-// cpu bug.
-// JM 1.12 17-mar-1995 BUG FIX: Fix F0 corruption problem in pal_restore_state
-// ES 1.13 17-mar-1995 Refine osf_chm_fix
-// ES 1.14 20-mar-1995 Don't need as many stalls before hw_rei_stall in chm_fix
-// ES 1.15 21-mar-1995 Add a stall to avoid a pvc violation in pal_restore_state
-// Force pvc checking of exit_console
-// ES 1.16 26-apr-1995 In the wrperfmon disable function, correct meaning of R17<2:0> to ctl2,ctl2,ctl0
-// ES 1.17 01-may-1995 In hw_rei_update_spe code, in the osf_chm fix, use bic and bis (self-correcting)
-// instead of xor to maintain previous mode in pt_misc
-// ES 1.18 14-jul-1995 In wrperfmon enable on pass2, update pmctr even if current process does
-// not have pme set. The bits in icsr maintain the master enable state.
-// In sys_reset, add icsr<17>=1 for ev56 byte/word eco enable
-//
-#define vmaj 1
-#define vmin 18
-#define vms_pal 1
-#define osf_pal 2
-#define pal_type osf_pal
-#define osfpal_version_l ((pal_type<<16) | (vmaj<<8) | (vmin<<0))
-//-
-
-// .sbttl "PALtemp register usage"
-
-//+
-// The EV5 Ibox holds 24 PALtemp registers. This maps the OSF PAL usage
-// for these PALtemps:
-//
-// pt0 local scratch
-// pt1 local scratch
-// pt2 entUna pt_entUna
-// pt3 CPU specific impure area pointer pt_impure
-// pt4 memory management temp
-// pt5 memory management temp
-// pt6 memory management temp
-// pt7 entIF pt_entIF
-// pt8 intmask pt_intmask
-// pt9 entSys pt_entSys
-// pt10
-// pt11 entInt pt_entInt
-// pt12 entArith pt_entArith
-// pt13 reserved for system specific PAL
-// pt14 reserved for system specific PAL
-// pt15 reserved for system specific PAL
-// pt16 MISC: scratch ! WHAMI<7:0> ! 0 0 0 MCES<4:0> pt_misc, pt_whami, pt_mces
-// pt17 sysval pt_sysval
-// pt18 usp pt_usp
-// pt19 ksp pt_ksp
-// pt20 PTBR pt_ptbr
-// pt21 entMM pt_entMM
-// pt22 kgp pt_kgp
-// pt23 PCBB pt_pcbb
-//
-//-
-
-// .sbttl "PALshadow register usage"
-//
-//+
-//
-// EV5 shadows R8-R14 and R25 when in PALmode and ICSR<shadow_enable> = 1.
-// This maps the OSF PAL usage of R8 - R14 and R25:
-//
-// r8 ITBmiss/DTBmiss scratch
-// r9 ITBmiss/DTBmiss scratch
-// r10 ITBmiss/DTBmiss scratch
-// r11 PS
-// r12 local scratch
-// r13 local scratch
-// r14 local scratch
-// r25 local scratch
-//
-//
-//-
-
-// .sbttl "ALPHA symbol definitions"
-// _OSF_PSDEF GLOBAL
-// _OSF_PTEDEF GLOBAL
-// _OSF_VADEF GLOBAL
-// _OSF_PCBDEF GLOBAL
-// _OSF_SFDEF GLOBAL
-// _OSF_MMCSR_DEF GLOBAL
-// _SCBDEF GLOBAL
-// _FRMDEF GLOBAL
-// _EXSDEF GLOBAL
-// _OSF_A0_DEF GLOBAL
-// _MCESDEF GLOBAL
-
-// .sbttl "EV5 symbol definitions"
-
-// _EV5DEF
-// _PALTEMP
-// _MM_STAT_DEF
-// _EV5_MM
-// _EV5_IPLDEF
-
-// _HALT_CODES GLOBAL
-// _MCHK_CODES GLOBAL
-
-// _PAL_IMPURE
-// _PAL_LOGOUT
-
-
-
-
-// .sbttl "PALcode configuration options"
-
-// There are a number of options that may be assembled into this version of
-// PALcode. They should be adjusted in a prefix assembly file (i.e. do not edit
-// the following). The options that can be adjusted cause the resultant PALcode
-// to reflect the desired target system.
-
-
-#define osfpal 1 // This is the PALcode for OSF.
-
-#ifndef rawhide_system
-
-#define rawhide_system 0
-#endif
-
-
-#ifndef real_mm
-// Page table translation vs 1-1 mapping
-#define real_mm 1
-#endif
-
-
-#ifndef rax_mode
-
-#define rax_mode 0
-#endif
-
-#ifndef egore
-// End of reset flow starts a program at 200000(hex).
-#define egore 1
-#endif
-
-#ifndef acore
-// End of reset flow starts a program at 40000(hex).
-#define acore 0
-#endif
-
-
-// assume acore+egore+rax_mode lt 2 // Assertion checker
-
-#ifndef beh_model
-// EV5 behavioral model specific code
-#define beh_model 1
-#endif
-
-#ifndef init_cbox
-// Reset flow init of Bcache and Scache
-#define init_cbox 1
-#endif
-
-#ifndef disable_crd
-// Decides whether the reset flow will disable
-#define disable_crd 0
-#endif
-
- // correctable read interrupts via ICSR
-#ifndef perfmon_debug
-#define perfmon_debug 0
-#endif
-
-#ifndef icflush_on_tbix
-#define icflush_on_tbix 0
-#endif
-
-#ifndef remove_restore_state
-#define remove_restore_state 0
-#endif
-
-#ifndef remove_save_state
-#define remove_save_state 0
-#endif
-
-#ifndef enable_physical_console
-#define enable_physical_console 0
-#endif
-
-#ifndef ev5_p1
-#define ev5_p1 0
-#endif
-
-#ifndef ev5_p2
-#define ev5_p2 1
-#endif
-
-// assume ev5_p1+ev5_p2 eq 1
-
-#ifndef ldvpte_bug_fix
-#define ldvpte_bug_fix 1 // If set, fix ldvpte bug in dtbmiss_double flow.
-#endif
-
-#ifndef spe_fix
-// If set, disable super-page mode in user mode and re-enable
-#define spe_fix 0
-#endif
- // in kernel. Workaround for cpu bug.
-#ifndef build_fixed_image
-#define build_fixed_image 0
-#endif
-
-
-#ifndef fill_err_hack
-// If set, disable fill_error mode in user mode and re-enable
-#define fill_err_hack 0
-#endif
-
- // in kernel. Workaround for cpu bug.
-
-// .macro hw_rei_spe
-// .iif eq spe_fix, hw_rei
-//#if spe_fix != 0
-//
-//
-//#define hw_rei_chm_count hw_rei_chm_count + 1
-// p4_fixup_label \hw_rei_chm_count
-// .iif eq build_fixed_image, br r31, hw_rei_update_spe
-// .iif ne build_fixed_image, hw_rei
-//#endif
-//
-// .endm
-
-// Add flag "osf_chm_fix" to enable dcache in user mode only
-// to avoid cpu bug.
-
-#ifndef osf_chm_fix
-// If set, enable D-Cache in
-#define osf_chm_fix 0
-#endif
-
-#if osf_chm_fix != 0
-// user mode only.
-#define hw_rei_chm_count 0
-#endif
-
-#if osf_chm_fix != 0
-
-#define hw_rei_stall_chm_count 0
-#endif
-
-#ifndef enable_p4_fixups
-
-#define enable_p4_fixups 0
-#endif
-
- // If set, do EV5 Pass 4 fixups
-#if spe_fix == 0
-
-#define osf_chm_fix 0
-#endif
-
-#if spe_fix == 0
-
-#define enable_p4_fixups 0
-#endif
-
- // Only allow fixups if fix enabled
-
- //Turn off fill_errors and MEM_NEM in user mode
-// .macro fill_error_hack ?L10_, ?L20_, ?L30_, ?L40_
-// //save r22,r23,r24
-// stqp r22, 0x150(r31) //add
-// stqp r23, 0x158(r31) //contents
-// stqp r24, 0x160(r31) //bit mask
-//
-// lda r22, 0x82(r31)
-// ldah r22, 0x8740(r22)
-// sll r22, 8, r22
-// ldlp r23, 0x80(r22) // r23 <- contents of CIA_MASK
-// bis r23,r31,r23
-//
-// lda r24, 0x8(r31) // r24 <- MEM_NEM bit
-// beq r10, L10_ // IF user mode (r10<0> == 0) pal mode
-// bic r23, r24, r23 // set fillerr_en bit
-// br r31, L20_ // ELSE
-//L10_: bis r23, r24, r23 // clear fillerr_en bit
-//L20_: // ENDIF
-//
-// stlp r23, 0x80(r22) // write back the CIA_MASK register
-// mb
-// ldlp r23, 0x80(r22)
-// bis r23,r31,r23
-// mb
-//
-// lda r22, 1(r31) // r22 <- 87.4000.0100 ptr to CIA_CTRL
-// ldah r22, 0x8740(r22)
-// sll r22, 8, r22
-// ldlp r23, 0(r22) // r23 <- contents of CIA_CTRL
-// bis r23,r31,r23
-//
-//
-// lda r24, 0x400(r31) // r9 <- fillerr_en bit
-// beq r10, L30_ // IF user mode (r10<0> == 0) pal mode
-// bic r23, r24, r23 // set fillerr_en bit
-// br r31, L40_ // ELSE
-//L30_: bis r23, r24, r23 // clear fillerr_en bit
-//L40_: // ENDIF
-//
-// stlp r23, 0(r22) // write back the CIA_CTRL register
-// mb
-// ldlp r23, 0(r22)
-// bis r23,r31,r23
-// mb
-//
-// //restore r22,r23,r24
-// ldqp r22, 0x150(r31)
-// ldqp r23, 0x158(r31)
-// ldqp r24, 0x160(r31)
-//
-// .endm
-
-// multiprocessor support can be enabled for a max of n processors by
-// setting the following to the number of processors on the system.
-// Note that this is really the max cpuid.
-
-#ifndef max_cpuid
-#define max_cpuid 8
-#endif
-
-#ifndef osf_svmin // platform specific palcode version number
-#define osf_svmin 0
-#endif
-
-
-#define osfpal_version_h ((max_cpuid<<16) | (osf_svmin<<0))
-
-// .mcall ldqp // override macro64 definition with macro from library
-// .mcall stqp // override macro64 definition with macro from library
-
-
-// .psect _pal,mix
-// huh pb pal_base:
-// huh pb #define current_block_base . - pal_base
-
-// .sbttl "RESET - Reset Trap Entry Point"
-//+
-// RESET - offset 0000
-// Entry:
-// Vectored into via hardware trap on reset, or branched to
-// on swppal.
-//
-// r0 = whami
-// r1 = pal_base
-// r2 = base of scratch area
-// r3 = halt code
-//
-//
-// Function:
-//
-//-
-
- .text 0
- . = 0x0000
- .globl Pal_Base
-Pal_Base:
- HDW_VECTOR(PAL_RESET_ENTRY)
-Trap_Reset:
- nop
-#ifdef SIMOS
- /*
- * store into r1
- */
- br r1,sys_reset
-#else
- /* following is a srcmax change */
-
- DEBUGSTORE(0x41)
- /* The original code jumped using r1 as a linkage register to pass the base
- of PALcode to the platform specific code. We use r1 to pass a parameter
- from the SROM, so we hardcode the address of Pal_Base in platform.s
- */
- br r31, sys_reset
-#endif
-
- // Specify PAL version info as a constant
- // at a known location (reset + 8).
-
- .long osfpal_version_l // <pal_type@16> ! <vmaj@8> ! <vmin@0>
- .long osfpal_version_h // <max_cpuid@16> ! <osf_svmin@0>
- .long 0
- .long 0
-pal_impure_start:
- .quad 0
-pal_debug_ptr:
- .quad 0 // reserved for debug pointer ; 20
-#if beh_model == 0
-
-
-#if enable_p4_fixups != 0
-
-
- .quad 0
- .long p4_fixup_hw_rei_fixup_table
-#endif
-
-#else
-
- .quad 0 //
- .quad 0 //0x0030
- .quad 0
- .quad 0 //0x0040
- .quad 0
- .quad 0 //0x0050
- .quad 0
- .quad 0 //0x0060
- .quad 0
-pal_enter_cns_address:
- .quad 0 //0x0070 -- address to jump to from enter_console
- .long <<sys_exit_console-pal_base>+1> //0x0078 -- offset to sys_exit_console (set palmode bit)
-#endif
-
-
-
-
-// .sbttl "IACCVIO- Istream Access Violation Trap Entry Point"
-
-//+
-// IACCVIO - offset 0080
-// Entry:
-// Vectored into via hardware trap on Istream access violation or sign check error on PC.
-//
-// Function:
-// Build stack frame
-// a0 <- Faulting VA
-// a1 <- MMCSR (1 for ACV)
-// a2 <- -1 (for ifetch fault)
-// vector via entMM
-//-
-
- HDW_VECTOR(PAL_IACCVIO_ENTRY)
-Trap_Iaccvio:
- DEBUGSTORE(0x42)
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- bis r11, r31, r12 // Save PS
- bge r25, TRAP_IACCVIO_10_ // no stack swap needed if cm=kern
-
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r12 // Set new PS
- mfpr r30, pt_ksp
-
-TRAP_IACCVIO_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- mfpr r14, exc_addr // get pc
-
- stq r16, osfsf_a0(sp) // save regs
- bic r14, 3, r16 // pass pc/va as a0
-
- stq r17, osfsf_a1(sp) // a1
- or r31, mmcsr_c_acv, r17 // pass mm_csr as a1
-
- stq r18, osfsf_a2(sp) // a2
- mfpr r13, pt_entmm // get entry point
-
- stq r11, osfsf_ps(sp) // save old ps
- bis r12, r31, r11 // update ps
-
- stq r16, osfsf_pc(sp) // save pc
- stq r29, osfsf_gp(sp) // save gp
-
- mtpr r13, exc_addr // load exc_addr with entMM
- // 1 cycle to hw_rei
- mfpr r29, pt_kgp // get the kgp
-
- subq r31, 1, r18 // pass flag of istream, as a2
- hw_rei_spe
-
-
-// .sbttl "INTERRUPT- Interrupt Trap Entry Point"
-
-//+
-// INTERRUPT - offset 0100
-// Entry:
-// Vectored into via trap on hardware interrupt
-//
-// Function:
-// check for halt interrupt
-// check for passive release (current ipl geq requestor)
-// if necessary, switch to kernel mode
-// push stack frame, update ps (including current mode and ipl copies), sp, and gp
-// pass the interrupt info to the system module
-//
-//-
-
-
- HDW_VECTOR(PAL_INTERRUPT_ENTRY)
-Trap_Interrupt:
- mfpr r13, ev5__intid // Fetch level of interruptor
- mfpr r25, ev5__isr // Fetch interrupt summary register
-
- srl r25, isr_v_hlt, r9 // Get HLT bit
- mfpr r14, ev5__ipl
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kern
- blbs r9, sys_halt_interrupt // halt_interrupt if HLT bit set
-
- cmple r13, r14, r8 // R8 = 1 if intid .less than or eql. ipl
- bne r8, sys_passive_release // Passive release is current rupt is lt or eq ipl
-
- and r11, osfps_m_mode, r10 // get mode bit
- beq r10, TRAP_INTERRUPT_10_ // Skip stack swap in kernel
-
- mtpr r30, pt_usp // save user stack
- mfpr r30, pt_ksp // get kern stack
-
-TRAP_INTERRUPT_10_:
- lda sp, (0-osfsf_c_size)(sp)// allocate stack space
- mfpr r14, exc_addr // get pc
-
- stq r11, osfsf_ps(sp) // save ps
- stq r14, osfsf_pc(sp) // save pc
-
- stq r29, osfsf_gp(sp) // push gp
- stq r16, osfsf_a0(sp) // a0
-
-// pvc_violate 354 // ps is cleared anyway, if store to stack faults.
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
- stq r17, osfsf_a1(sp) // a1
-
- stq r18, osfsf_a2(sp) // a2
- subq r13, 0x11, r12 // Start to translate from EV5IPL->OSFIPL
-
- srl r12, 1, r8 // 1d, 1e: ipl 6. 1f: ipl 7.
- subq r13, 0x1d, r9 // Check for 1d, 1e, 1f
-
- cmovge r9, r8, r12 // if .ge. 1d, then take shifted value
- bis r12, r31, r11 // set new ps
-
- mfpr r12, pt_intmask
- and r11, osfps_m_ipl, r14 // Isolate just new ipl (not really needed, since all non-ipl bits zeroed already)
-
-#ifdef SIMOS
- /*
- * Lance had space problems. We don't.
- */
- extbl r12, r14, r14 // Translate new OSFIPL->EV5IPL
- mfpr r29, pt_kgp // update gp
- mtpr r14, ev5__ipl // load the new IPL into Ibox
-#else
-// Moved the following three lines to sys_interrupt to make room for debug
-// extbl r12, r14, r14 // Translate new OSFIPL->EV5IPL
-// mfpr r29, pt_kgp // update gp
-
-// mtpr r14, ev5__ipl // load the new IPL into Ibox
-#endif
- br r31, sys_interrupt // Go handle interrupt
-
-
-
-// .sbttl "ITBMISS- Istream TBmiss Trap Entry Point"
-
-//+
-// ITBMISS - offset 0180
-// Entry:
-// Vectored into via hardware trap on Istream translation buffer miss.
-//
-// Function:
-// Do a virtual fetch of the PTE, and fill the ITB if the PTE is valid.
-// Can trap into DTBMISS_DOUBLE.
-// This routine can use the PALshadow registers r8, r9, and r10
-//
-//-
-
- HDW_VECTOR(PAL_ITB_MISS_ENTRY)
-Trap_Itbmiss:
-#if real_mm == 0
-
-
- // Simple 1-1 va->pa mapping
-
- nop // Pad to align to E1
- mfpr r8, exc_addr
-
- srl r8, page_offset_size_bits, r9
- sll r9, 32, r9
-
- lda r9, 0x3301(r9) // Make PTE, V set, all KRE, URE, KWE, UWE
- mtpr r9, itb_pte // E1
-
- hw_rei_stall // Nital says I don't have to obey shadow wait rule here.
-#else
-
- // Real MM mapping
- nop
- mfpr r8, ev5__ifault_va_form // Get virtual address of PTE.
-
- nop
- mfpr r10, exc_addr // Get PC of faulting instruction in case of DTBmiss.
-
-pal_itb_ldq:
- ld_vpte r8, 0(r8) // Get PTE, traps to DTBMISS_DOUBLE in case of TBmiss
- mtpr r10, exc_addr // Restore exc_address if there was a trap.
-
- mfpr r31, ev5__va // Unlock VA in case there was a double miss
- nop
-
- and r8, osfpte_m_foe, r25 // Look for FOE set.
- blbc r8, invalid_ipte_handler // PTE not valid.
-
- nop
- bne r25, foe_ipte_handler // FOE is set
-
- nop
- mtpr r8, ev5__itb_pte // Ibox remembers the VA, load the PTE into the ITB.
-
- hw_rei_stall //
-
-#endif
-
-
-
-
-// .sbttl "DTBMISS_SINGLE - Dstream Single TBmiss Trap Entry Point"
-
-//+
-// DTBMISS_SINGLE - offset 0200
-// Entry:
-// Vectored into via hardware trap on Dstream single translation buffer miss.
-//
-// Function:
-// Do a virtual fetch of the PTE, and fill the DTB if the PTE is valid.
-// Can trap into DTBMISS_DOUBLE.
-// This routine can use the PALshadow registers r8, r9, and r10
-//-
-
- HDW_VECTOR(PAL_DTB_MISS_ENTRY)
-Trap_Dtbmiss_Single:
-#if real_mm == 0
- // Simple 1-1 va->pa mapping
- mfpr r8, va // E0
- srl r8, page_offset_size_bits, r9
-
- sll r9, 32, r9
- lda r9, 0x3301(r9) // Make PTE, V set, all KRE, URE, KWE, UWE
-
- mtpr r9, dtb_pte // E0
- nop // Pad to align to E0
-
-
-
- mtpr r8, dtb_tag // E0
- nop
-
- nop // Pad tag write
- nop
-
- nop // Pad tag write
- nop
-
- hw_rei
-#else
- mfpr r8, ev5__va_form // Get virtual address of PTE - 1 cycle delay. E0.
- mfpr r10, exc_addr // Get PC of faulting instruction in case of error. E1.
-
-// DEBUGSTORE(0x45)
-// DEBUG_EXC_ADDR()
- // Real MM mapping
- mfpr r9, ev5__mm_stat // Get read/write bit. E0.
- mtpr r10, pt6 // Stash exc_addr away
-
-pal_dtb_ldq:
- ld_vpte r8, 0(r8) // Get PTE, traps to DTBMISS_DOUBLE in case of TBmiss
- nop // Pad MF VA
-
- mfpr r10, ev5__va // Get original faulting VA for TB load. E0.
- nop
-
- mtpr r8, ev5__dtb_pte // Write DTB PTE part. E0.
- blbc r8, invalid_dpte_handler // Handle invalid PTE
-
- mtpr r10, ev5__dtb_tag // Write DTB TAG part, completes DTB load. No virt ref for 3 cycles.
- mfpr r10, pt6
-
- // Following 2 instructions take 2 cycles
- mtpr r10, exc_addr // Return linkage in case we trapped. E1.
- mfpr r31, pt0 // Pad the write to dtb_tag
-
- hw_rei // Done, return
-#endif
-
-
-
-
-// .sbttl "DTBMISS_DOUBLE - Dstream Double TBmiss Trap Entry Point"
-
-//+
-// DTBMISS_DOUBLE - offset 0280
-// Entry:
-// Vectored into via hardware trap on Double TBmiss from single miss flows.
-//
-// r8 - faulting VA
-// r9 - original MMstat
-// r10 - original exc_addr (both itb,dtb miss)
-// pt6 - original exc_addr (dtb miss flow only)
-// VA IPR - locked with original faulting VA
-//
-// Function:
-// Get PTE, if valid load TB and return.
-// If not valid then take TNV/ACV exception.
-//
-// pt4 and pt5 are reserved for this flow.
-//
-//
-//-
-
- HDW_VECTOR(PAL_DOUBLE_MISS_ENTRY)
-Trap_Dtbmiss_double:
-#if ldvpte_bug_fix != 0
- mtpr r8, pt4 // save r8 to do exc_addr check
- mfpr r8, exc_addr
- blbc r8, Trap_Dtbmiss_Single //if not in palmode, should be in the single routine, dummy!
- mfpr r8, pt4 // restore r8
-#endif
- nop
- mtpr r22, pt5 // Get some scratch space. E1.
- // Due to virtual scheme, we can skip the first lookup and go
- // right to fetch of level 2 PTE
- sll r8, (64-((2*page_seg_size_bits)+page_offset_size_bits)), r22 // Clean off upper bits of VA
- mtpr r21, pt4 // Get some scratch space. E1.
-
- srl r22, 61-page_seg_size_bits, r22 // Get Va<seg1>*8
- mfpr r21, pt_ptbr // Get physical address of the page table.
-
- nop
- addq r21, r22, r21 // Index into page table for level 2 PTE.
-
- sll r8, (64-((1*page_seg_size_bits)+page_offset_size_bits)), r22 // Clean off upper bits of VA
- ldqp r21, 0(r21) // Get level 2 PTE (addr<2:0> ignored)
-
- srl r22, 61-page_seg_size_bits, r22 // Get Va<seg1>*8
- blbc r21, double_pte_inv // Check for Invalid PTE.
-
- srl r21, 32, r21 // extract PFN from PTE
- sll r21, page_offset_size_bits, r21 // get PFN * 2^13 for add to <seg3>*8
-
- addq r21, r22, r21 // Index into page table for level 3 PTE.
- nop
-
- ldqp r21, 0(r21) // Get level 3 PTE (addr<2:0> ignored)
- blbc r21, double_pte_inv // Check for invalid PTE.
-
- mtpr r21, ev5__dtb_pte // Write the PTE. E0.
- mfpr r22, pt5 // Restore scratch register
-
- mtpr r8, ev5__dtb_tag // Write the TAG. E0. No virtual references in subsequent 3 cycles.
- mfpr r21, pt4 // Restore scratch register
-
- nop // Pad write to tag.
- nop
-
- nop // Pad write to tag.
- nop
-
- hw_rei
-
-
-
-// .sbttl "UNALIGN -- Dstream unalign trap"
-//+
-// UNALIGN - offset 0300
-// Entry:
-// Vectored into via hardware trap on unaligned Dstream reference.
-//
-// Function:
-// Build stack frame
-// a0 <- Faulting VA
-// a1 <- Opcode
-// a2 <- src/dst register number
-// vector via entUna
-//-
-
- HDW_VECTOR(PAL_UNALIGN_ENTRY)
-Trap_Unalign:
-/* DEBUGSTORE(0x47)*/
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- mfpr r8, ev5__mm_stat // Get mmstat --ok to use r8, no tbmiss
- mfpr r14, exc_addr // get pc
-
- srl r8, mm_stat_v_ra, r13 // Shift Ra field to ls bits
- blbs r14, pal_pal_bug_check // Bugcheck if unaligned in PAL
-
- blbs r8, UNALIGN_NO_DISMISS // lsb only set on store or fetch_m
- // not set, must be a load
- and r13, 0x1F, r8 // isolate ra
-
- cmpeq r8, 0x1F, r8 // check for r31/F31
- bne r8, dfault_fetch_ldr31_err // if its a load to r31 or f31 -- dismiss the fault
-
-UNALIGN_NO_DISMISS:
- bis r11, r31, r12 // Save PS
- bge r25, UNALIGN_NO_DISMISS_10_ // no stack swap needed if cm=kern
-
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r12 // Set new PS
- mfpr r30, pt_ksp
-
-UNALIGN_NO_DISMISS_10_:
- mfpr r25, ev5__va // Unlock VA
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
-
- mtpr r25, pt0 // Stash VA
- stq r18, osfsf_a2(sp) // a2
-
- stq r11, osfsf_ps(sp) // save old ps
- srl r13, mm_stat_v_opcode-mm_stat_v_ra, r25// Isolate opcode
-
- stq r29, osfsf_gp(sp) // save gp
- addq r14, 4, r14 // inc PC past the ld/st
-
- stq r17, osfsf_a1(sp) // a1
- and r25, mm_stat_m_opcode, r17// Clean opocde for a1
-
- stq r16, osfsf_a0(sp) // save regs
- mfpr r16, pt0 // a0 <- va/unlock
-
- stq r14, osfsf_pc(sp) // save pc
- mfpr r25, pt_entuna // get entry point
-
-
- bis r12, r31, r11 // update ps
- br r31, unalign_trap_cont
-
-
-
-
-// .sbttl "DFAULT - Dstream Fault Trap Entry Point"
-
-//+
-// DFAULT - offset 0380
-// Entry:
-// Vectored into via hardware trap on dstream fault or sign check error on DVA.
-//
-// Function:
-// Ignore faults on FETCH/FETCH_M
-// Check for DFAULT in PAL
-// Build stack frame
-// a0 <- Faulting VA
-// a1 <- MMCSR (1 for ACV, 2 for FOR, 4 for FOW)
-// a2 <- R/W
-// vector via entMM
-//
-//-
- HDW_VECTOR(PAL_D_FAULT_ENTRY)
-Trap_Dfault:
-// DEBUGSTORE(0x48)
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- mfpr r13, ev5__mm_stat // Get mmstat
- mfpr r8, exc_addr // get pc, preserve r14
-
- srl r13, mm_stat_v_opcode, r9 // Shift opcode field to ls bits
- blbs r8, dfault_in_pal
-
- bis r8, r31, r14 // move exc_addr to correct place
- bis r11, r31, r12 // Save PS
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- and r9, mm_stat_m_opcode, r9 // Clean all but opcode
-
- cmpeq r9, evx_opc_sync, r9 // Is the opcode fetch/fetchm?
- bne r9, dfault_fetch_ldr31_err // Yes, dismiss the fault
-
- //dismiss exception if load to r31/f31
- blbs r13, dfault_no_dismiss // mm_stat<0> set on store or fetchm
-
- // not a store or fetch, must be a load
- srl r13, mm_stat_v_ra, r9 // Shift rnum to low bits
-
- and r9, 0x1F, r9 // isolate rnum
- nop
-
- cmpeq r9, 0x1F, r9 // Is the rnum r31 or f31?
- bne r9, dfault_fetch_ldr31_err // Yes, dismiss the fault
-
-dfault_no_dismiss:
- and r13, 0xf, r13 // Clean extra bits in mm_stat
- bge r25, dfault_trap_cont // no stack swap needed if cm=kern
-
-
- mtpr r30, pt_usp // save user stack
- bis r31, r31, r12 // Set new PS
-
- mfpr r30, pt_ksp
- br r31, dfault_trap_cont
-
-
-
-
-
-// .sbttl "MCHK - Machine Check Trap Entry Point"
-
-//+
-// MCHK - offset 0400
-// Entry:
-// Vectored into via hardware trap on machine check.
-//
-// Function:
-//
-//-
-
- HDW_VECTOR(PAL_MCHK_ENTRY)
-Trap_Mchk:
- DEBUGSTORE(0x49)
- mtpr r31, ic_flush_ctl // Flush the Icache
- br r31, sys_machine_check
-
-
-
-
-// .sbttl "OPCDEC - Illegal Opcode Trap Entry Point"
-
-//+
-// OPCDEC - offset 0480
-// Entry:
-// Vectored into via hardware trap on illegal opcode.
-//
-// Build stack frame
-// a0 <- code
-// a1 <- unpred
-// a2 <- unpred
-// vector via entIF
-//
-//-
-
- HDW_VECTOR(PAL_OPCDEC_ENTRY)
-Trap_Opcdec:
- DEBUGSTORE(0x4a)
-//simos DEBUG_EXC_ADDR()
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- mfpr r14, exc_addr // get pc
- blbs r14, pal_pal_bug_check // check opcdec in palmode
-
- bis r11, r31, r12 // Save PS
- bge r25, TRAP_OPCDEC_10_ // no stack swap needed if cm=kern
-
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r12 // Set new PS
- mfpr r30, pt_ksp
-
-TRAP_OPCDEC_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- addq r14, 4, r14 // inc pc
-
- stq r16, osfsf_a0(sp) // save regs
- bis r31, osf_a0_opdec, r16 // set a0
-
- stq r11, osfsf_ps(sp) // save old ps
- mfpr r13, pt_entif // get entry point
-
- stq r18, osfsf_a2(sp) // a2
- stq r17, osfsf_a1(sp) // a1
-
- stq r29, osfsf_gp(sp) // save gp
- stq r14, osfsf_pc(sp) // save pc
-
- bis r12, r31, r11 // update ps
- mtpr r13, exc_addr // load exc_addr with entIF
- // 1 cycle to hw_rei, E1
-
- mfpr r29, pt_kgp // get the kgp, E1
-
- hw_rei_spe // done, E1
-
-
-
-
-
-
-// .sbttl "ARITH - Arithmetic Exception Trap Entry Point"
-
-//+
-// ARITH - offset 0500
-// Entry:
-// Vectored into via hardware trap on arithmetic excpetion.
-//
-// Function:
-// Build stack frame
-// a0 <- exc_sum
-// a1 <- exc_mask
-// a2 <- unpred
-// vector via entArith
-//
-//-
- HDW_VECTOR(PAL_ARITH_ENTRY)
-Trap_Arith:
- DEBUGSTORE(0x4b)
- and r11, osfps_m_mode, r12 // get mode bit
- mfpr r31, ev5__va // unlock mbox
-
- bis r11, r31, r25 // save ps
- mfpr r14, exc_addr // get pc
-
- nop
- blbs r14, pal_pal_bug_check // arith trap from PAL
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- beq r12, TRAP_ARITH_10_ // if zero we are in kern now
-
- bis r31, r31, r25 // set the new ps
- mtpr r30, pt_usp // save user stack
-
- nop
- mfpr r30, pt_ksp // get kern stack
-
-TRAP_ARITH_10_: lda sp, 0-osfsf_c_size(sp) // allocate stack space
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- nop // Pad current mode write and stq
- mfpr r13, ev5__exc_sum // get the exc_sum
-
- mfpr r12, 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 r11, osfsf_ps(sp) // save ps
- bis r25, r31, r11 // set new ps
-
- stq r16, osfsf_a0(sp) // save regs
- srl r13, exc_sum_v_swc, r16// shift data to correct position
-
- stq r18, osfsf_a2(sp)
-// pvc_violate 354 // ok, but make sure reads of exc_mask/sum are not in same trap shadow
- mtpr r31, ev5__exc_sum // Unlock exc_sum and exc_mask
-
- stq r29, osfsf_gp(sp)
- mtpr r12, exc_addr // Set new PC - 1 bubble to hw_rei - E1
-
- mfpr r29, pt_kgp // get the kern gp - E1
- hw_rei_spe // done - E1
-
-
-
-
-
-
-// .sbttl "FEN - Illegal Floating Point Operation Trap Entry Point"
-
-//+
-// FEN - offset 0580
-// Entry:
-// Vectored into via hardware trap on illegal FP op.
-//
-// Function:
-// Build stack frame
-// a0 <- code
-// a1 <- unpred
-// a2 <- unpred
-// vector via entIF
-//
-//-
-
- HDW_VECTOR(PAL_FEN_ENTRY)
-Trap_Fen:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- mfpr r14, exc_addr // get pc
- blbs r14, pal_pal_bug_check // check opcdec in palmode
-
- mfpr r13, ev5__icsr
- nop
-
- bis r11, r31, r12 // Save PS
- bge r25, TRAP_FEN_10_ // no stack swap needed if cm=kern
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r12 // Set new PS
- mfpr r30, pt_ksp
-
-TRAP_FEN_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- srl r13, icsr_v_fpe, r25 // Shift FP enable to bit 0
-
-
- stq r16, osfsf_a0(sp) // save regs
- mfpr r13, pt_entif // get entry point
-
- stq r18, osfsf_a2(sp) // a2
- stq r11, osfsf_ps(sp) // save old ps
-
- stq r29, osfsf_gp(sp) // save gp
- bis r12, r31, r11 // set new ps
-
- stq r17, osfsf_a1(sp) // a1
- blbs r25,fen_to_opcdec // If FP is enabled, this is really OPCDEC.
-
- bis r31, osf_a0_fen, r16 // set a0
- stq r14, osfsf_pc(sp) // save pc
-
- mtpr r13, exc_addr // load exc_addr with entIF
- // 1 cycle to hw_rei -E1
-
- mfpr r29, pt_kgp // get the kgp -E1
-
- hw_rei_spe // done -E1
-
-// FEN trap was taken, but the fault is really opcdec.
- ALIGN_BRANCH
-fen_to_opcdec:
- addq r14, 4, r14 // save PC+4
- bis r31, osf_a0_opdec, r16 // set a0
-
- stq r14, osfsf_pc(sp) // save pc
- mtpr r13, exc_addr // load exc_addr with entIF
- // 1 cycle to hw_rei
-
- mfpr r29, pt_kgp // get the kgp
- hw_rei_spe // done
-
-
-
-// .sbttl "Misc handlers"
- // Start area for misc code.
-//+
-//dfault_trap_cont
-// A dfault trap has been taken. The sp has been updated if necessary.
-// Push a stack frame a vector via entMM.
-//
-// Current state:
-// r12 - new PS
-// r13 - MMstat
-// VA - locked
-//
-//-
- ALIGN_BLOCK
-dfault_trap_cont:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- mfpr r25, ev5__va // Fetch VA/unlock
-
- stq r18, osfsf_a2(sp) // a2
- and r13, 1, r18 // Clean r/w bit for a2
-
- stq r16, osfsf_a0(sp) // save regs
- bis r25, r31, r16 // a0 <- va
-
- stq r17, osfsf_a1(sp) // a1
- srl r13, 1, r17 // shift fault bits to right position
-
- stq r11, osfsf_ps(sp) // save old ps
- bis r12, r31, r11 // update ps
-
- stq r14, osfsf_pc(sp) // save pc
- mfpr r25, pt_entmm // get entry point
-
- stq r29, osfsf_gp(sp) // save gp
- cmovlbs r17, 1, r17 // a2. acv overrides fox.
-
- mtpr r25, exc_addr // load exc_addr with entMM
- // 1 cycle to hw_rei
- mfpr r29, pt_kgp // get the kgp
-
- hw_rei_spe // done
-
-//+
-//unalign_trap_cont
-// An unalign trap has been taken. Just need to finish up a few things.
-//
-// Current state:
-// r25 - entUna
-// r13 - shifted MMstat
-//
-//-
- ALIGN_BLOCK
-unalign_trap_cont:
- mtpr r25, exc_addr // load exc_addr with entUna
- // 1 cycle to hw_rei
-
-
- mfpr r29, pt_kgp // get the kgp
- and r13, mm_stat_m_ra, r18 // Clean Ra for a2
-
- hw_rei_spe // done
-
-
-
-//+
-// dfault_in_pal
-// Dfault trap was taken, exc_addr points to a PAL PC.
-// r9 - mmstat<opcode> right justified
-// r8 - exception address
-//
-// These are the cases:
-// opcode was STQ -- from a stack builder, KSP not valid halt
-// r14 - original exc_addr
-// r11 - original PS
-// opcode was STL_C -- rti or retsys clear lock_flag by stack write,
-// KSP not valid halt
-// r11 - original PS
-// r14 - original exc_addr
-// opcode was LDQ -- retsys or rti stack read, KSP not valid halt
-// r11 - original PS
-// r14 - original exc_addr
-// opcode was HW_LD -- itbmiss or dtbmiss, bugcheck due to fault on page tables
-// r10 - original exc_addr
-// r11 - original PS
-//
-//
-//-
- ALIGN_BLOCK
-dfault_in_pal:
- DEBUGSTORE(0x50)
- bic r8, 3, r8 // Clean PC
- mfpr r9, pal_base
-
- mfpr r31, va // unlock VA
-#if real_mm != 0
- // if not real_mm, should never get here from miss flows
-
- subq r9, r8, r8 // pal_base - offset
-
- lda r9, pal_itb_ldq-pal_base(r8)
- nop
-
- beq r9, dfault_do_bugcheck
- lda r9, pal_dtb_ldq-pal_base(r8)
-
- beq r9, dfault_do_bugcheck
-#endif
-
-//
-// KSP invalid halt case --
-ksp_inval_halt:
- DEBUGSTORE(76)
- bic r11, osfps_m_mode, r11 // set ps to kernel mode
- mtpr r0, pt0
-
- mtpr r31, dtb_cm // Make sure that the CM IPRs are all kernel mode
- mtpr r31, ips
-
- mtpr r14, exc_addr // Set PC to instruction that caused trouble
-//orig pvc_jsr updpcb, bsr=1
- bsr r0, pal_update_pcb // update the pcb
-
- lda r0, hlt_c_ksp_inval(r31) // set halt code to hw halt
- br r31, sys_enter_console // enter the console
-
- ALIGN_BRANCH
-dfault_do_bugcheck:
- bis r10, r31, r14 // bugcheck expects exc_addr in r14
- br r31, pal_pal_bug_check
-
-
- ALIGN_BLOCK
-//+
-// dfault_fetch_ldr31_err - ignore faults on fetch(m) and loads to r31/f31
-// On entry -
-// r14 - exc_addr
-// VA is locked
-//
-//-
-dfault_fetch_ldr31_err:
- mtpr r11, ev5__dtb_cm
- mtpr r11, ev5__ps // Make sure ps hasn't changed
-
- mfpr r31, va // unlock the mbox
- addq r14, 4, r14 // inc the pc to skip the fetch
-
- mtpr r14, exc_addr // give ibox new PC
- mfpr r31, pt0 // pad exc_addr write
-
- hw_rei
-
-
-
- ALIGN_BLOCK
-//+
-// sys_from_kern
-// callsys from kernel mode - OS bugcheck machine check
-//
-//-
-sys_from_kern:
- mfpr r14, exc_addr // PC points to call_pal
- subq r14, 4, r14
-
- lda r25, mchk_c_os_bugcheck(r31) // fetch mchk code
- br r31, pal_pal_mchk
-
-
-// .sbttl "Continuation of long call_pal flows"
- ALIGN_BLOCK
-//+
-// wrent_tbl
-// Table to write *int in paltemps.
-// 4 instructions/entry
-// r16 has new value
-//
-//-
-wrent_tbl:
-//orig pvc_jsr wrent, dest=1
- nop
- mtpr r16, pt_entint
-
- mfpr r31, pt0 // Pad for mt->mf paltemp rule
- hw_rei
-
-
-//orig pvc_jsr wrent, dest=1
- nop
- mtpr r16, pt_entarith
-
- mfpr r31, pt0 // Pad for mt->mf paltemp rule
- hw_rei
-
-
-//orig pvc_jsr wrent, dest=1
- nop
- mtpr r16, pt_entmm
-
- mfpr r31, pt0 // Pad for mt->mf paltemp rule
- hw_rei
-
-
-//orig pvc_jsr wrent, dest=1
- nop
- mtpr r16, pt_entif
-
- mfpr r31, pt0 // Pad for mt->mf paltemp rule
- hw_rei
-
-
-//orig pvc_jsr wrent, dest=1
- nop
- mtpr r16, pt_entuna
-
- mfpr r31, pt0 // Pad for mt->mf paltemp rule
- hw_rei
-
-
-//orig pvc_jsr wrent, dest=1
- nop
- mtpr r16, pt_entsys
-
- mfpr r31, pt0 // Pad for mt->mf paltemp rule
- hw_rei
-
- ALIGN_BLOCK
-//+
-// tbi_tbl
-// Table to do tbi instructions
-// 4 instructions per entry
-//-
-tbi_tbl:
- // -2 tbia
-//orig pvc_jsr tbi, dest=1
- mtpr r31, ev5__dtb_ia // Flush DTB
- mtpr r31, ev5__itb_ia // Flush ITB
-
-#if icflush_on_tbix != 0
-
-
- br r31, pal_ic_flush // Flush Icache
-#else
-
- hw_rei_stall
-#endif
-
- nop // Pad table
-
- // -1 tbiap
-//orig pvc_jsr tbi, dest=1
- mtpr r31, ev5__dtb_iap // Flush DTB
- mtpr r31, ev5__itb_iap // Flush ITB
-
-#if icflush_on_tbix != 0
-
-
- br r31, pal_ic_flush // Flush Icache
-#else
-
- hw_rei_stall
-#endif
-
- nop // Pad table
-
-
- // 0 unused
-//orig pvc_jsr tbi, dest=1
- hw_rei // Pad table
- nop
- nop
- nop
-
-
- // 1 tbisi
-//orig pvc_jsr tbi, dest=1
-#if icflush_on_tbix != 0
-
-
-
- nop
- br r31, pal_ic_flush_and_tbisi // Flush Icache
- nop
- nop // Pad table
-#else
-
- nop
- nop
- mtpr r17, ev5__itb_is // Flush ITB
- hw_rei_stall
-#endif
-
-
-
- // 2 tbisd
-//orig pvc_jsr tbi, dest=1
- mtpr r17, ev5__dtb_is // Flush DTB.
- nop
-
- nop
- hw_rei_stall
-
-
- // 3 tbis
-//orig pvc_jsr tbi, dest=1
- mtpr r17, ev5__dtb_is // Flush DTB
-#if icflush_on_tbix != 0
-
-
- br r31, pal_ic_flush_and_tbisi // Flush Icache and ITB
-#else
- br r31, tbi_finish
- ALIGN_BRANCH
-tbi_finish:
- mtpr r17, ev5__itb_is // Flush ITB
- hw_rei_stall
-#endif
-
-
-
- ALIGN_BLOCK
-//+
-// bpt_bchk_common:
-// Finish up the bpt/bchk instructions
-//-
-bpt_bchk_common:
- stq r18, osfsf_a2(sp) // a2
- mfpr r13, pt_entif // get entry point
-
- stq r12, osfsf_ps(sp) // save old ps
- stq r14, osfsf_pc(sp) // save pc
-
- stq r29, osfsf_gp(sp) // save gp
- mtpr r13, exc_addr // load exc_addr with entIF
- // 1 cycle to hw_rei
-
- mfpr r29, pt_kgp // get the kgp
-
-
- hw_rei_spe // done
-
-
- ALIGN_BLOCK
-//+
-// rti_to_user
-// Finish up the rti instruction
-//-
-rti_to_user:
- mtpr r11, ev5__dtb_cm // set Mbox current mode - no virt ref for 2 cycles
- mtpr r11, ev5__ps // set Ibox current mode - 2 bubble to hw_rei
-
- mtpr r31, ev5__ipl // set the ipl. No hw_rei for 2 cycles
- mtpr r25, pt_ksp // save off incase RTI to user
-
- mfpr r30, pt_usp
- hw_rei_spe // and back
-
-
- ALIGN_BLOCK
-//+
-// rti_to_kern
-// Finish up the rti instruction
-//-
-rti_to_kern:
- and r12, osfps_m_ipl, r11 // clean ps
- mfpr r12, pt_intmask // get int mask
-
- extbl r12, r11, r12 // get mask for this ipl
- mtpr r25, pt_ksp // save off incase RTI to user
-
- mtpr r12, ev5__ipl // set the new ipl.
- or r25, r31, sp // sp
-
-// pvc_violate 217 // possible hidden mt->mf ipl not a problem in callpals
- hw_rei
-
- ALIGN_BLOCK
-//+
-// swpctx_cont
-// Finish up the swpctx instruction
-//-
-
-swpctx_cont:
-#if ev5_p1 != 0
-
-
- bic r25, r24, r25 // clean icsr<FPE>
- get_impure r8 // get impure pointer
-
- sll r12, icsr_v_fpe, r12 // shift new fen to pos
- fix_impure_ipr r8 // adjust impure pointer
-
- restore_reg1 pmctr_ctl, r8, r8, ipr=1 // "ldqp" - get pmctr_ctl bits
- srl r23, 32, r24 // move asn to low asn pos
-
- ldqp r14, osfpcb_q_mmptr(r16)// get new mmptr
- srl r22, osfpcb_v_pme, r22 // get pme down to bit 0
-
- or r25, r12, r25 // icsr with new fen
- sll r24, itb_asn_v_asn, r12
-
-#else
-
- bic r25, r24, r25 // clean icsr<FPE,PMP>
- sll r12, icsr_v_fpe, r12 // shift new fen to pos
-
- ldqp r14, osfpcb_q_mmptr(r16)// get new mmptr
- srl r22, osfpcb_v_pme, r22 // get pme down to bit 0
-
- or r25, r12, r25 // icsr with new fen
- srl r23, 32, r24 // move asn to low asn pos
-
- and r22, 1, r22
- sll r24, itb_asn_v_asn, r12
-
- sll r22, icsr_v_pmp, r22
- nop
-
- or r25, r22, r25 // icsr with new pme
-#endif
-
- sll r24, dtb_asn_v_asn, r24
-
- subl r23, r13, r13 // gen new cc offset
- mtpr r12, itb_asn // no hw_rei_stall in 0,1,2,3,4
-
- mtpr r24, dtb_asn // Load up new ASN
- mtpr r25, icsr // write the icsr
-
- sll r14, page_offset_size_bits, r14 // Move PTBR into internal position.
- ldqp r25, osfpcb_q_usp(r16) // get new usp
-
- insll r13, 4, r13 // >> 32
-// pvc_violate 379 // ldqp can't trap except replay. only problem if mf same ipr in same shadow
- mtpr r14, pt_ptbr // load the new ptbr
-
- mtpr r13, cc // set new offset
- ldqp r30, osfpcb_q_ksp(r16) // get new ksp
-
-// pvc_violate 379 // ldqp can't trap except replay. only problem if mf same ipr in same shadow
- mtpr r25, pt_usp // save usp
-
-#if ev5_p1 != 0
-
-
- blbc r8, no_pm_change // if monitoring all processes -- no need to change pm
-
- // otherwise, monitoring select processes - update pm
- lda r25, 0x3F(r31)
- cmovlbc r22, r31, r8 // if pme set, disable counters, otherwise use saved encodings
-
- sll r25, pmctr_v_ctl2, r25 // create ctl field bit mask
- mfpr r22, ev5__pmctr
-
- and r8, r25, r8 // mask new ctl value
- bic r22, r25, r22 // clear ctl field in pmctr
-
- or r8, r22, r8
- mtpr r8, ev5__pmctr
-
-no_pm_change:
-#endif
-
-
-#if osf_chm_fix != 0
-
-
- p4_fixup_hw_rei_stall // removes this section for Pass 4 by placing a hw_rei_stall here
-
-#if build_fixed_image != 0
-
-
- hw_rei_stall
-#else
-
- mfpr r9, pt_pcbb // get FEN
-#endif
-
- ldqp r9, osfpcb_q_fen(r9)
- blbc r9, no_pm_change_10_ // skip if FEN disabled
-
- mb // ensure no outstanding fills
- lda r12, 1<<dc_mode_v_dc_ena(r31)
- mtpr r12, dc_mode // turn dcache on so we can flush it
- nop // force correct slotting
- mfpr r31, pt0 // no mbox instructions in 1,2,3,4
- mfpr r31, pt0 // no mbox instructions in 1,2,3,4
- mfpr r31, pt0 // no mbox instructions in 1,2,3,4
- mfpr r31, pt0 // no mbox instructions in 1,2,3,4
-
- lda r8, 0(r31) // flood the dcache with junk data
-no_pm_change_5_: ldqp r31, 0(r8)
- lda r8, 0x20(r8) // touch each cache block
- srl r8, 13, r9
- blbc r9, no_pm_change_5_
-
- mb // ensure no outstanding fills
- mtpr r31, dc_mode // turn the dcache back off
- nop // force correct slotting
- mfpr r31, pt0 // no hw_rei_stall in 0,1
-#endif
-
-
-no_pm_change_10_: hw_rei_stall // back we go
-
- ALIGN_BLOCK
-//+
-// swppal_cont - finish up the swppal call_pal
-//-
-
-swppal_cont:
- mfpr r2, pt_misc // get misc bits
- sll r0, pt_misc_v_switch, r0 // get the "I've switched" bit
- or r2, r0, r2 // set the bit
- mtpr r31, ev5__alt_mode // ensure alt_mode set to 0 (kernel)
- mtpr r2, pt_misc // update the chip
-
- or r3, r31, r4
- mfpr r3, pt_impure // pass pointer to the impure area in r3
-//orig fix_impure_ipr r3 // adjust impure pointer for ipr read
-//orig restore_reg1 bc_ctl, r1, r3, ipr=1 // pass cns_bc_ctl in r1
-//orig restore_reg1 bc_config, r2, r3, ipr=1 // pass cns_bc_config in r2
-//orig unfix_impure_ipr r3 // restore impure pointer
- lda r3, CNS_Q_IPR(r3)
- RESTORE_SHADOW(r1,CNS_Q_BC_CTL,r3);
- RESTORE_SHADOW(r1,CNS_Q_BC_CFG,r3);
- lda r3, -CNS_Q_IPR(r3)
-
- or r31, r31, r0 // set status to success
-// pvc_violate 1007
- jmp r31, (r4) // and call our friend, it's her problem now
-
-
-swppal_fail:
- addq r0, 1, r0 // set unknown pal or not loaded
- hw_rei // and return
-
-
-// .sbttl "Memory management"
-
- ALIGN_BLOCK
-//+
-//foe_ipte_handler
-// IFOE detected on level 3 pte, sort out FOE vs ACV
-//
-// on entry:
-// with
-// R8 = pte
-// R10 = pc
-//
-// Function
-// Determine TNV vs ACV vs FOE. Build stack and dispatch
-// Will not be here if TNV.
-//-
-
-foe_ipte_handler:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- bis r11, r31, r12 // Save PS for stack write
- bge r25, foe_ipte_handler_10_ // no stack swap needed if cm=kern
-
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
- srl r8, osfpte_v_ure-osfpte_v_kre, r8 // move pte user bits to kern
- nop
-
-foe_ipte_handler_10_: srl r8, osfpte_v_kre, r25 // get kre to <0>
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
-
- or r10, r31, r14 // Save pc/va in case TBmiss or fault on stack
- mfpr r13, pt_entmm // get entry point
-
- stq r16, osfsf_a0(sp) // a0
- or r14, r31, r16 // pass pc/va as a0
-
- stq r17, osfsf_a1(sp) // a1
- nop
-
- stq r18, osfsf_a2(sp) // a2
- lda r17, mmcsr_c_acv(r31) // assume ACV
-
- stq r16, osfsf_pc(sp) // save pc
- cmovlbs r25, mmcsr_c_foe, r17 // otherwise FOE
-
- stq r12, osfsf_ps(sp) // save ps
- subq r31, 1, r18 // pass flag of istream as a2
-
- stq r29, osfsf_gp(sp)
- mtpr r13, exc_addr // set vector address
-
- mfpr r29, pt_kgp // load kgp
- hw_rei_spe // out to exec
-
- ALIGN_BLOCK
-//+
-//invalid_ipte_handler
-// TNV detected on level 3 pte, sort out TNV vs ACV
-//
-// on entry:
-// with
-// R8 = pte
-// R10 = pc
-//
-// Function
-// Determine TNV vs ACV. Build stack and dispatch.
-//-
-
-invalid_ipte_handler:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- bis r11, r31, r12 // Save PS for stack write
- bge r25, invalid_ipte_handler_10_ // no stack swap needed if cm=kern
-
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
- srl r8, osfpte_v_ure-osfpte_v_kre, r8 // move pte user bits to kern
- nop
-
-invalid_ipte_handler_10_: srl r8, osfpte_v_kre, r25 // get kre to <0>
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
-
- or r10, r31, r14 // Save pc/va in case TBmiss on stack
- mfpr r13, pt_entmm // get entry point
-
- stq r16, osfsf_a0(sp) // a0
- or r14, r31, r16 // pass pc/va as a0
-
- stq r17, osfsf_a1(sp) // a1
- nop
-
- stq r18, osfsf_a2(sp) // a2
- and r25, 1, r17 // Isolate kre
-
- stq r16, osfsf_pc(sp) // save pc
- xor r17, 1, r17 // map to acv/tnv as a1
-
- stq r12, osfsf_ps(sp) // save ps
- subq r31, 1, r18 // pass flag of istream as a2
-
- stq r29, osfsf_gp(sp)
- mtpr r13, exc_addr // set vector address
-
- mfpr r29, pt_kgp // load kgp
- hw_rei_spe // out to exec
-
-
-
-
- ALIGN_BLOCK
-//+
-//invalid_dpte_handler
-// INVALID detected on level 3 pte, sort out TNV vs ACV
-//
-// on entry:
-// with
-// R10 = va
-// R8 = pte
-// R9 = mm_stat
-// PT6 = pc
-//
-// Function
-// Determine TNV vs ACV. Build stack and dispatch
-//-
-
-
-invalid_dpte_handler:
- mfpr r12, pt6
- blbs r12, tnv_in_pal // Special handler if original faulting reference was in PALmode
-
- bis r12, r31, r14 // save PC in case of tbmiss or fault
- srl r9, mm_stat_v_opcode, r25 // shift opc to <0>
-
- mtpr r11, pt0 // Save PS for stack write
- and r25, mm_stat_m_opcode, r25 // isolate opcode
-
- cmpeq r25, evx_opc_sync, r25 // is it FETCH/FETCH_M?
- blbs r25, nmiss_fetch_ldr31_err // yes
-
- //dismiss exception if load to r31/f31
- blbs r9, invalid_dpte_no_dismiss // mm_stat<0> set on store or fetchm
-
- // not a store or fetch, must be a load
- srl r9, mm_stat_v_ra, r25 // Shift rnum to low bits
-
- and r25, 0x1F, r25 // isolate rnum
- nop
-
- cmpeq r25, 0x1F, r25 // Is the rnum r31 or f31?
- bne r25, nmiss_fetch_ldr31_err // Yes, dismiss the fault
-
-invalid_dpte_no_dismiss:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- bge r25, invalid_dpte_no_dismiss_10_ // no stack swap needed if cm=kern
-
- srl r8, osfpte_v_ure-osfpte_v_kre, r8 // move pte user bits to kern
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
-invalid_dpte_no_dismiss_10_: srl r8, osfpte_v_kre, r12 // get kre to <0>
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
-
- or r10, r31, r25 // Save va in case TBmiss on stack
- and r9, 1, r13 // save r/w flag
-
- stq r16, osfsf_a0(sp) // a0
- or r25, r31, r16 // pass va as a0
-
- stq r17, osfsf_a1(sp) // a1
- or r31, mmcsr_c_acv, r17 // assume acv
-
- srl r12, osfpte_v_kwe-osfpte_v_kre, r25 // get write enable to <0>
- stq r29, osfsf_gp(sp)
-
- stq r18, osfsf_a2(sp) // a2
- cmovlbs r13, r25, r12 // if write access move acv based on write enable
-
- or r13, r31, r18 // pass flag of dstream access and read vs write
- mfpr r25, pt0 // get ps
-
- stq r14, osfsf_pc(sp) // save pc
- mfpr r13, pt_entmm // get entry point
-
- stq r25, osfsf_ps(sp) // save ps
- mtpr r13, exc_addr // set vector address
-
- mfpr r29, pt_kgp // load kgp
- cmovlbs r12, mmcsr_c_tnv, r17 // make p2 be tnv if access ok else acv
-
- hw_rei_spe // out to exec
-
-//+
-//
-// We come here if we are erring on a dtb_miss, and the instr is a
-// fetch, fetch_m, of load to r31/f31.
-// The PC is incremented, and we return to the program.
-// essentially ignoring the instruction and error.
-//
-//-
- ALIGN_BLOCK
-nmiss_fetch_ldr31_err:
- mfpr r12, pt6
- addq r12, 4, r12 // bump pc to pc+4
-
- mtpr r12, exc_addr // and set entry point
- mfpr r31, pt0 // pad exc_addr write
-
- hw_rei //
-
- ALIGN_BLOCK
-//+
-// double_pte_inv
-// We had a single tbmiss which turned into a double tbmiss which found
-// an invalid PTE. Return to single miss with a fake pte, and the invalid
-// single miss flow will report the error.
-//
-// on entry:
-// r21 PTE
-// r22 available
-// VA IPR locked with original fault VA
-// pt4 saved r21
-// pt5 saved r22
-// pt6 original exc_addr
-//
-// on return to tbmiss flow:
-// r8 fake PTE
-//
-//
-//-
-double_pte_inv:
- srl r21, osfpte_v_kre, r21 // get the kre bit to <0>
- mfpr r22, exc_addr // get the pc
-
- lda r22, 4(r22) // inc the pc
- lda r8, osfpte_m_prot(r31) // make a fake pte with xre and xwe set
-
- cmovlbc r21, r31, r8 // set to all 0 for acv if pte<kre> is 0
- mtpr r22, exc_addr // set for rei
-
- mfpr r21, pt4 // restore regs
- mfpr r22, pt5 // restore regs
-
- hw_rei // back to tb miss
-
- ALIGN_BLOCK
-//+
-//tnv_in_pal
-// The only places in pal that ld or store are the
-// stack builders, rti or retsys. Any of these mean we
-// need to take a ksp not valid halt.
-//
-//-
-tnv_in_pal:
-
-
- br r31, ksp_inval_halt
-
-
-// .sbttl "Icache flush routines"
-
- ALIGN_BLOCK
-//+
-// Common Icache flush routine.
-//
-//
-//-
-pal_ic_flush:
- nop
- mtpr r31, ev5__ic_flush_ctl // Icache flush - E1
- nop
- nop
-
-// Now, do 44 NOPs. 3RFB prefetches (24) + IC buffer,IB,slot,issue (20)
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 10
-
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 20
-
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 30
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 40
-
- nop
- nop
-
-one_cycle_and_hw_rei:
- nop
- nop
-
- hw_rei_stall
-
-#if icflush_on_tbix != 0
-
-
- ALIGN_BLOCK
-
-//+
-// Common Icache flush and ITB invalidate single routine.
-// ITBIS and hw_rei_stall must be in same octaword.
-// r17 - has address to invalidate
-//
-//-
-PAL_IC_FLUSH_AND_TBISI:
- nop
- mtpr r31, ev5__ic_flush_ctl // Icache flush - E1
- nop
- nop
-
-// Now, do 44 NOPs. 3RFB prefetches (24) + IC buffer,IB,slot,issue (20)
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 10
-
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 20
-
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 30
- nop
- nop
- nop
- nop
-
- nop
- nop
- nop
- nop
-
- nop
- nop // 40
-
-
- nop
- nop
-
- nop
- nop
-
- // A quadword is 64 bits, so an octaword is 128 bits -> 16 bytes -> 4 instructions
- // 44 nops plus 4 instructions before it is 48 instructions.
- // Since this routine started on a 32-byte (8 instruction) boundary,
- // the following 2 instructions will be in the same octword as required.
-// ALIGN_BRANCH
- mtpr r17, ev5__itb_is // Flush ITB
- hw_rei_stall
-
-#endif
-
- ALIGN_BLOCK
-//+
-//osfpal_calpal_opcdec
-// Here for all opcdec CALL_PALs
-//
-// Build stack frame
-// a0 <- code
-// a1 <- unpred
-// a2 <- unpred
-// vector via entIF
-//
-//-
-
-osfpal_calpal_opcdec:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- mfpr r14, exc_addr // get pc
- nop
-
- bis r11, r31, r12 // Save PS for stack write
- bge r25, osfpal_calpal_opcdec_10_ // no stack swap needed if cm=kern
-
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
-osfpal_calpal_opcdec_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- nop
-
- stq r16, osfsf_a0(sp) // save regs
- bis r31, osf_a0_opdec, r16 // set a0
-
- stq r18, osfsf_a2(sp) // a2
- mfpr r13, pt_entif // get entry point
-
- stq r12, osfsf_ps(sp) // save old ps
- stq r17, osfsf_a1(sp) // a1
-
- stq r14, osfsf_pc(sp) // save pc
- nop
-
- stq r29, osfsf_gp(sp) // save gp
- mtpr r13, exc_addr // load exc_addr with entIF
- // 1 cycle to hw_rei
-
- mfpr r29, pt_kgp // get the kgp
-
-
- hw_rei_spe // done
-
-
-
-
-
-//+
-//pal_update_pcb
-// Update the PCB with the current SP, AST, and CC info
-//
-// r0 - return linkage
-//-
- ALIGN_BLOCK
-
-pal_update_pcb:
- mfpr r12, pt_pcbb // get pcbb
- and r11, osfps_m_mode, r25 // get mode
- beq r25, pal_update_pcb_10_ // in kern? no need to update user sp
- mtpr r30, pt_usp // save user stack
- stqp r30, osfpcb_q_usp(r12) // store usp
- br r31, pal_update_pcb_20_ // join common
-pal_update_pcb_10_: stqp r30, osfpcb_q_ksp(r12) // store ksp
-pal_update_pcb_20_: rpcc r13 // get cyccounter
- srl r13, 32, r14 // move offset
- addl r13, r14, r14 // merge for new time
- stlp r14, osfpcb_l_cc(r12) // save time
-
-//orig pvc_jsr updpcb, bsr=1, dest=1
- ret r31, (r0)
-
-
-
-#if remove_save_state == 0
-
-// .sbttl "PAL_SAVE_STATE"
-//+
-//
-// Pal_save_state
-//
-// Function
-// All chip state saved, all PT's, SR's FR's, IPR's
-//
-//
-// Regs' on entry...
-//
-// R0 = halt code
-// pt0 = r0
-// R1 = pointer to impure
-// pt4 = r1
-// R3 = return addr
-// pt5 = r3
-//
-// register usage:
-// r0 = halt_code
-// r1 = addr of impure area
-// r3 = return_address
-// r4 = scratch
-//
-//-
-
-
- ALIGN_BLOCK
- .globl pal_save_state
-pal_save_state:
-//
-//
-// start of implementation independent save routine
-//
-// the impure area is larger than the addressibility of hw_ld and hw_st
-// therefore, we need to play some games: The impure area
-// is informally divided into the "machine independent" part and the
-// "machine dependent" part. The state that will be saved in the
-// "machine independent" part are gpr's, fpr's, hlt, flag, mchkflag (use (un)fix_impure_gpr macros).
-// All others will be in the "machine dependent" part (use (un)fix_impure_ipr macros).
-// The impure pointer will need to be adjusted by a different offset for each. The store/restore_reg
-// macros will automagically adjust the offset correctly.
-//
-
-// The distributed code is commented out and followed by corresponding SRC code.
-// Beware: SAVE_IPR and RESTORE_IPR blow away r0(v0)
-
-//orig fix_impure_gpr r1 // adjust impure area pointer for stores to "gpr" part of impure area
- lda r1, 0x200(r1) // Point to center of CPU segment
-//orig store_reg1 flag, r31, r1, ipr=1 // clear dump area flag
- SAVE_GPR(r31,CNS_Q_FLAG,r1) // Clear the valid flag
-//orig store_reg1 hlt, r0, r1, ipr=1
- SAVE_GPR(r0,CNS_Q_HALT,r1) // Save the halt code
-
- mfpr r0, pt0 // get r0 back //orig
-//orig store_reg1 0, r0, r1 // save r0
- SAVE_GPR(r0,CNS_Q_GPR+0x00,r1) // Save r0
-
- mfpr r0, pt4 // get r1 back //orig
-//orig store_reg1 1, r0, r1 // save r1
- SAVE_GPR(r0,CNS_Q_GPR+0x08,r1) // Save r1
-
-//orig store_reg 2 // save r2
- SAVE_GPR(r2,CNS_Q_GPR+0x10,r1) // Save r2
-
- mfpr r0, pt5 // get r3 back //orig
-//orig store_reg1 3, r0, r1 // save r3
- SAVE_GPR(r0,CNS_Q_GPR+0x18,r1) // Save r3
-
- // reason code has been saved
- // r0 has been saved
- // r1 has been saved
- // r2 has been saved
- // r3 has been saved
- // pt0, pt4, pt5 have been lost
-
- //
- // Get out of shadow mode
- //
-
- mfpr r2, icsr // Get icsr //orig
-//orig ldah r0, <1@<icsr_v_sde-16>>(r31) // Get a one in SHADOW_ENABLE bit location
- ldah r0, (1<<(icsr_v_sde-16))(r31)
- bic r2, r0, r0 // ICSR with SDE clear //orig
- mtpr r0, icsr // Turn off SDE //orig
-
- mfpr r31, pt0 // SDE bubble cycle 1 //orig
- mfpr r31, pt0 // SDE bubble cycle 2 //orig
- mfpr r31, pt0 // SDE bubble cycle 3 //orig
- nop //orig
-
-
- // save integer regs R4-r31
-//orig #define t 4
-//orig .repeat 28
-//orig store_reg \t
-//orig #define t t + 1
-//orig .endr
- SAVE_GPR(r4,CNS_Q_GPR+0x20,r1)
- SAVE_GPR(r5,CNS_Q_GPR+0x28,r1)
- SAVE_GPR(r6,CNS_Q_GPR+0x30,r1)
- SAVE_GPR(r7,CNS_Q_GPR+0x38,r1)
- SAVE_GPR(r8,CNS_Q_GPR+0x40,r1)
- SAVE_GPR(r9,CNS_Q_GPR+0x48,r1)
- SAVE_GPR(r10,CNS_Q_GPR+0x50,r1)
- SAVE_GPR(r11,CNS_Q_GPR+0x58,r1)
- SAVE_GPR(r12,CNS_Q_GPR+0x60,r1)
- SAVE_GPR(r13,CNS_Q_GPR+0x68,r1)
- SAVE_GPR(r14,CNS_Q_GPR+0x70,r1)
- SAVE_GPR(r15,CNS_Q_GPR+0x78,r1)
- SAVE_GPR(r16,CNS_Q_GPR+0x80,r1)
- SAVE_GPR(r17,CNS_Q_GPR+0x88,r1)
- SAVE_GPR(r18,CNS_Q_GPR+0x90,r1)
- SAVE_GPR(r19,CNS_Q_GPR+0x98,r1)
- SAVE_GPR(r20,CNS_Q_GPR+0xA0,r1)
- SAVE_GPR(r21,CNS_Q_GPR+0xA8,r1)
- SAVE_GPR(r22,CNS_Q_GPR+0xB0,r1)
- SAVE_GPR(r23,CNS_Q_GPR+0xB8,r1)
- SAVE_GPR(r24,CNS_Q_GPR+0xC0,r1)
- SAVE_GPR(r25,CNS_Q_GPR+0xC8,r1)
- SAVE_GPR(r26,CNS_Q_GPR+0xD0,r1)
- SAVE_GPR(r27,CNS_Q_GPR+0xD8,r1)
- SAVE_GPR(r28,CNS_Q_GPR+0xE0,r1)
- SAVE_GPR(r29,CNS_Q_GPR+0xE8,r1)
- SAVE_GPR(r30,CNS_Q_GPR+0xF0,r1)
- SAVE_GPR(r31,CNS_Q_GPR+0xF8,r1)
-
- // save all paltemp regs except pt0
-
-//orig unfix_impure_gpr r1 // adjust impure area pointer for gpr stores
-//orig fix_impure_ipr r1 // adjust impure area pointer for pt stores
-//orig #define t 1
-//orig .repeat 23
-//orig store_reg \t , pal=1
-//orig #define t t + 1
-//orig .endr
-
- lda r1, -0x200(r1) // Restore the impure base address.
- lda r1, CNS_Q_IPR(r1) // Point to the base of IPR area.
- SAVE_IPR(pt0,CNS_Q_PT+0x00,r1) // the osf code didn't save/restore palTemp 0 ?? pboyle
- SAVE_IPR(pt1,CNS_Q_PT+0x08,r1)
- SAVE_IPR(pt2,CNS_Q_PT+0x10,r1)
- SAVE_IPR(pt3,CNS_Q_PT+0x18,r1)
- SAVE_IPR(pt4,CNS_Q_PT+0x20,r1)
- SAVE_IPR(pt5,CNS_Q_PT+0x28,r1)
- SAVE_IPR(pt6,CNS_Q_PT+0x30,r1)
- SAVE_IPR(pt7,CNS_Q_PT+0x38,r1)
- SAVE_IPR(pt8,CNS_Q_PT+0x40,r1)
- SAVE_IPR(pt9,CNS_Q_PT+0x48,r1)
- SAVE_IPR(pt10,CNS_Q_PT+0x50,r1)
- SAVE_IPR(pt11,CNS_Q_PT+0x58,r1)
- SAVE_IPR(pt12,CNS_Q_PT+0x60,r1)
- SAVE_IPR(pt13,CNS_Q_PT+0x68,r1)
- SAVE_IPR(pt14,CNS_Q_PT+0x70,r1)
- SAVE_IPR(pt15,CNS_Q_PT+0x78,r1)
- SAVE_IPR(pt16,CNS_Q_PT+0x80,r1)
- SAVE_IPR(pt17,CNS_Q_PT+0x88,r1)
- SAVE_IPR(pt18,CNS_Q_PT+0x90,r1)
- SAVE_IPR(pt19,CNS_Q_PT+0x98,r1)
- SAVE_IPR(pt20,CNS_Q_PT+0xA0,r1)
- SAVE_IPR(pt21,CNS_Q_PT+0xA8,r1)
- SAVE_IPR(pt22,CNS_Q_PT+0xB0,r1)
- SAVE_IPR(pt23,CNS_Q_PT+0xB8,r1)
-
- // Restore shadow mode
- mfpr r31, pt0 // pad write to icsr out of shadow of store (trap does not abort write) //orig
- mfpr r31, pt0 //orig
- mtpr r2, icsr // Restore original ICSR //orig
-
- mfpr r31, pt0 // SDE bubble cycle 1 //orig
- mfpr r31, pt0 // SDE bubble cycle 2 //orig
- mfpr r31, pt0 // SDE bubble cycle 3 //orig
- nop //orig
-
- // save all integer shadow regs
-
-//orig #define t 8
-//orig .repeat 7
-//orig store_reg \t, shadow=1
-//orig #define t t + 1
-//orig .endr
-//orig store_reg 25, shadow=1
-
- SAVE_SHADOW( r8,CNS_Q_SHADOW+0x00,r1) // also called p0...p7 in the Hudson code
- SAVE_SHADOW( r9,CNS_Q_SHADOW+0x08,r1)
- SAVE_SHADOW(r10,CNS_Q_SHADOW+0x10,r1)
- SAVE_SHADOW(r11,CNS_Q_SHADOW+0x18,r1)
- SAVE_SHADOW(r12,CNS_Q_SHADOW+0x20,r1)
- SAVE_SHADOW(r13,CNS_Q_SHADOW+0x28,r1)
- SAVE_SHADOW(r14,CNS_Q_SHADOW+0x30,r1)
- SAVE_SHADOW(r25,CNS_Q_SHADOW+0x38,r1)
-
-//orig store_reg exc_addr, ipr=1 // save ipr
-//orig store_reg pal_base, ipr=1 // save ipr
-//orig store_reg mm_stat, ipr=1 // save ipr
-//orig store_reg va, ipr=1 // save ipr
-//orig store_reg icsr, ipr=1 // save ipr
-//orig store_reg ipl, ipr=1 // save ipr
-//orig store_reg ps, ipr=1 // save ipr
-//orig store_reg itb_asn, ipr=1 // save ipr
-//orig store_reg aster, ipr=1 // save ipr
-//orig store_reg astrr, ipr=1 // save ipr
-//orig store_reg sirr, ipr=1 // save ipr
-//orig store_reg isr, ipr=1 // save ipr
-//orig store_reg ivptbr, ipr=1 // save ipr
-//orig store_reg mcsr, ipr=1 // save ipr
-//orig store_reg dc_mode, ipr=1 // save ipr
-
- SAVE_IPR(excAddr,CNS_Q_EXC_ADDR,r1)
- SAVE_IPR(palBase,CNS_Q_PAL_BASE,r1)
- SAVE_IPR(mmStat,CNS_Q_MM_STAT,r1)
- SAVE_IPR(va,CNS_Q_VA,r1)
- SAVE_IPR(icsr,CNS_Q_ICSR,r1)
- SAVE_IPR(ipl,CNS_Q_IPL,r1)
- SAVE_IPR(ips,CNS_Q_IPS,r1)
- SAVE_IPR(itbAsn,CNS_Q_ITB_ASN,r1)
- SAVE_IPR(aster,CNS_Q_ASTER,r1)
- SAVE_IPR(astrr,CNS_Q_ASTRR,r1)
- SAVE_IPR(sirr,CNS_Q_SIRR,r1)
- SAVE_IPR(isr,CNS_Q_ISR,r1)
- SAVE_IPR(iVptBr,CNS_Q_IVPTBR,r1)
- SAVE_IPR(mcsr,CNS_Q_MCSR,r1)
- SAVE_IPR(dcMode,CNS_Q_DC_MODE,r1)
-
-//orig pvc_violate 379 // mf maf_mode after a store ok (pvc doesn't distinguish ld from st)
-//orig store_reg maf_mode, ipr=1 // save ipr -- no mbox instructions for
-//orig // PVC violation applies only to
-pvc$osf35$379: // loads. HW_ST ok here, so ignore
- SAVE_IPR(mafMode,CNS_Q_MAF_MODE,r1) // MBOX INST->MF MAF_MODE IN 0,1,2
-
-
- //the following iprs are informational only -- will not be restored
-
-//orig store_reg icperr_stat, ipr=1
-//orig store_reg pmctr, ipr=1
-//orig store_reg intid, ipr=1
-//orig store_reg exc_sum, ipr=1
-//orig store_reg exc_mask, ipr=1
-//orig ldah r14, 0xfff0(r31)
-//orig zap r14, 0xE0, r14 // Get Cbox IPR base
-//orig nop // pad mf dcperr_stat out of shadow of last store
-//orig nop
-//orig nop
-//orig store_reg dcperr_stat, ipr=1
-
- SAVE_IPR(icPerr,CNS_Q_ICPERR_STAT,r1)
- SAVE_IPR(PmCtr,CNS_Q_PM_CTR,r1)
- SAVE_IPR(intId,CNS_Q_INT_ID,r1)
- SAVE_IPR(excSum,CNS_Q_EXC_SUM,r1)
- SAVE_IPR(excMask,CNS_Q_EXC_MASK,r1)
- ldah r14, 0xFFF0(zero)
- zap r14, 0xE0, r14 // Get base address of CBOX IPRs
- NOP // Pad mfpr dcPerr out of shadow of
- NOP // last store
- NOP
- SAVE_IPR(dcPerr,CNS_Q_DCPERR_STAT,r1)
-
- // read cbox ipr state
-
-//orig mb
-//orig ldqp r2, ev5__sc_ctl(r14)
-//orig ldqp r13, ld_lock(r14)
-//orig ldqp r4, ev5__sc_addr(r14)
-//orig ldqp r5, ev5__ei_addr(r14)
-//orig ldqp r6, ev5__bc_tag_addr(r14)
-//orig ldqp r7, ev5__fill_syn(r14)
-//orig bis r5, r4, r31
-//orig bis r7, r6, r31 // make sure previous loads finish before reading stat registers which unlock them
-//orig ldqp r8, ev5__sc_stat(r14) // unlocks sc_stat,sc_addr
-//orig ldqp r9, ev5__ei_stat(r14) // may unlock ei_*, bc_tag_addr, fill_syn
-//orig ldqp r31, ev5__ei_stat(r14) // ensures it is really unlocked
-//orig mb
-
-#ifndef SIMOS
- mb
- ldq_p r2, scCtl(r14)
- ldq_p r13, ldLock(r14)
- ldq_p r4, scAddr(r14)
- ldq_p r5, eiAddr(r14)
- ldq_p r6, bcTagAddr(r14)
- ldq_p r7, fillSyn(r14)
- bis r5, r4, zero // Make sure all loads complete before
- bis r7, r6, zero // reading registers that unlock them.
- ldq_p r8, scStat(r14) // Unlocks scAddr.
- ldq_p r9, eiStat(r14) // Unlocks eiAddr, bcTagAddr, fillSyn.
- ldq_p zero, eiStat(r14) // Make sure it is really unlocked.
- mb
-#endif
-//orig // save cbox ipr state
-//orig store_reg1 sc_ctl, r2, r1, ipr=1
-//orig store_reg1 ld_lock, r13, r1, ipr=1
-//orig store_reg1 sc_addr, r4, r1, ipr=1
-//orig store_reg1 ei_addr, r5, r1, ipr=1
-//orig store_reg1 bc_tag_addr, r6, r1, ipr=1
-//orig store_reg1 fill_syn, r7, r1, ipr=1
-//orig store_reg1 sc_stat, r8, r1, ipr=1
-//orig store_reg1 ei_stat, r9, r1, ipr=1
-//orig //bc_config? sl_rcv?
-
- SAVE_SHADOW(r2,CNS_Q_SC_CTL,r1);
- SAVE_SHADOW(r13,CNS_Q_LD_LOCK,r1);
- SAVE_SHADOW(r4,CNS_Q_SC_ADDR,r1);
- SAVE_SHADOW(r5,CNS_Q_EI_ADDR,r1);
- SAVE_SHADOW(r6,CNS_Q_BC_TAG_ADDR,r1);
- SAVE_SHADOW(r7,CNS_Q_FILL_SYN,r1);
- SAVE_SHADOW(r8,CNS_Q_SC_STAT,r1);
- SAVE_SHADOW(r9,CNS_Q_EI_STAT,r1);
-
-// restore impure base //orig
-//orig unfix_impure_ipr r1
- lda r1, -CNS_Q_IPR(r1)
-
-// save all floating regs //orig
- mfpr r0, icsr // get icsr //orig
- or r31, 1, r2 // get a one //orig
-//orig sll r2, #icsr_v_fpe, r2 // shift for fpu spot //orig
- sll r2, icsr_v_fpe, r2 // Shift it into ICSR<FPE> position
- or r2, r0, r0 // set FEN on //orig
- mtpr r0, icsr // write to icsr, enabling FEN //orig
-
-// map the save area virtually
-// orig mtpr r31, dtb_ia // clear the dtb
-// orig srl r1, page_offset_size_bits, r0 // Clean off low bits of VA
-// orig sll r0, 32, r0 // shift to PFN field
-// orig lda r2, 0xff(r31) // all read enable and write enable bits set
-// orig sll r2, 8, r2 // move to PTE location
-// orig addq r0, r2, r0 // combine with PFN
-// orig mtpr r0, dtb_pte // Load PTE and set TB valid bit
-// orig mtpr r1, dtb_tag // write TB tag
-
- mtpr r31, dtbIa // Clear all DTB entries
- srl r1, va_s_off, r0 // Clean off byte-within-page offset
- sll r0, pte_v_pfn, r0 // Shift to form PFN
- lda r0, pte_m_prot(r0) // Set all read/write enable bits
- mtpr r0, dtbPte // Load the PTE and set valid
- mtpr r1, dtbTag // Write the PTE and tag into the DTB
-
-
-//orig // map the next page too - in case the impure area crosses a page boundary
-//orig lda r4, 1@page_offset_size_bits(r1) // generate address for next page
-//orig srl r4, page_offset_size_bits, r0 // Clean off low bits of VA
-//orig sll r0, 32, r0 // shift to PFN field
-//orig lda r2, 0xff(r31) // all read enable and write enable bits set
-//orig sll r2, 8, r2 // move to PTE location
-//orig addq r0, r2, r0 // combine with PFN
-//orig mtpr r0, dtb_pte // Load PTE and set TB valid bit
-//orig mtpr r4, dtb_tag // write TB tag
-
- lda r4, (1<<va_s_off)(r1) // Generate address for next page
- srl r4, va_s_off, r0 // Clean off byte-within-page offset
- sll r0, pte_v_pfn, r0 // Shift to form PFN
- lda r0, pte_m_prot(r0) // Set all read/write enable bits
- mtpr r0, dtbPte // Load the PTE and set valid
- mtpr r4, dtbTag // Write the PTE and tag into the DTB
-
- sll r31, 0, r31 // stall cycle 1 // orig
- sll r31, 0, r31 // stall cycle 2 // orig
- sll r31, 0, r31 // stall cycle 3 // orig
- nop // orig
-
-//orig // add offset for saving fpr regs
-//orig fix_impure_gpr r1
-
- lda r1, 0x200(r1) // Point to center of CPU segment
-
-// now save the regs - F0-F31
-
-//orig #define t 0
-//orig .repeat 32
-//orig store_reg \t , fpu=1
-//orig #define t t + 1
-//orig .endr
-
- mf_fpcr f0 // original
-
- SAVE_FPR(f0,CNS_Q_FPR+0x00,r1)
- SAVE_FPR(f1,CNS_Q_FPR+0x08,r1)
- SAVE_FPR(f2,CNS_Q_FPR+0x10,r1)
- SAVE_FPR(f3,CNS_Q_FPR+0x18,r1)
- SAVE_FPR(f4,CNS_Q_FPR+0x20,r1)
- SAVE_FPR(f5,CNS_Q_FPR+0x28,r1)
- SAVE_FPR(f6,CNS_Q_FPR+0x30,r1)
- SAVE_FPR(f7,CNS_Q_FPR+0x38,r1)
- SAVE_FPR(f8,CNS_Q_FPR+0x40,r1)
- SAVE_FPR(f9,CNS_Q_FPR+0x48,r1)
- SAVE_FPR(f10,CNS_Q_FPR+0x50,r1)
- SAVE_FPR(f11,CNS_Q_FPR+0x58,r1)
- SAVE_FPR(f12,CNS_Q_FPR+0x60,r1)
- SAVE_FPR(f13,CNS_Q_FPR+0x68,r1)
- SAVE_FPR(f14,CNS_Q_FPR+0x70,r1)
- SAVE_FPR(f15,CNS_Q_FPR+0x78,r1)
- SAVE_FPR(f16,CNS_Q_FPR+0x80,r1)
- SAVE_FPR(f17,CNS_Q_FPR+0x88,r1)
- SAVE_FPR(f18,CNS_Q_FPR+0x90,r1)
- SAVE_FPR(f19,CNS_Q_FPR+0x98,r1)
- SAVE_FPR(f20,CNS_Q_FPR+0xA0,r1)
- SAVE_FPR(f21,CNS_Q_FPR+0xA8,r1)
- SAVE_FPR(f22,CNS_Q_FPR+0xB0,r1)
- SAVE_FPR(f23,CNS_Q_FPR+0xB8,r1)
- SAVE_FPR(f24,CNS_Q_FPR+0xC0,r1)
- SAVE_FPR(f25,CNS_Q_FPR+0xC8,r1)
- SAVE_FPR(f26,CNS_Q_FPR+0xD0,r1)
- SAVE_FPR(f27,CNS_Q_FPR+0xD8,r1)
- SAVE_FPR(f28,CNS_Q_FPR+0xE0,r1)
- SAVE_FPR(f29,CNS_Q_FPR+0xE8,r1)
- SAVE_FPR(f30,CNS_Q_FPR+0xF0,r1)
- SAVE_FPR(f31,CNS_Q_FPR+0xF8,r1)
-
-//orig //switch impure offset from gpr to ipr---
-//orig unfix_impure_gpr r1
-//orig fix_impure_ipr r1
-//orig store_reg1 fpcsr, f0, r1, fpcsr=1
-
- SAVE_FPR(f0,CNS_Q_FPCSR,r1) // fpcsr loaded above into f0 -- can it reach// pb
- lda r1, -0x200(r1) // Restore the impure base address
-
-//orig // and back to gpr ---
-//orig unfix_impure_ipr r1
-//orig fix_impure_gpr r1
-
-//orig lda r0, cns_mchksize(r31) // get size of mchk area
-//orig store_reg1 mchkflag, r0, r1, ipr=1
-//orig mb
-
- lda r1, CNS_Q_IPR(r1) // Point to base of IPR area again
- // save this using the IPR base (it is closer) not the GRP base as they used...pb
- lda r0, MACHINE_CHECK_SIZE(r31) // get size of mchk area
- SAVE_SHADOW(r0,CNS_Q_MCHK,r1);
- mb
-
-//orig or r31, 1, r0 // get a one
-//orig store_reg1 flag, r0, r1, ipr=1 // set dump area flag
-//orig mb
-
- lda r1, -CNS_Q_IPR(r1) // back to the base
- lda r1, 0x200(r1) // Point to center of CPU segment
- or r31, 1, r0 // get a one
- SAVE_GPR(r0,CNS_Q_FLAG,r1) // // set dump area valid flag
- mb
-
-//orig // restore impure area base
-//orig unfix_impure_gpr r1
- lda r1, -0x200(r1) // Point to center of CPU segment
-
- mtpr r31, dtb_ia // clear the dtb //orig
- mtpr r31, itb_ia // clear the itb //orig
-
-//orig pvc_jsr savsta, bsr=1, dest=1
- ret r31, (r3) // and back we go
-#endif
-
-
-#if remove_restore_state == 0
-
-
-// .sbttl "PAL_RESTORE_STATE"
-//+
-//
-// Pal_restore_state
-//
-//
-// register usage:
-// r1 = addr of impure area
-// r3 = return_address
-// all other regs are scratchable, as they are about to
-// be reloaded from ram.
-//
-// Function:
-// All chip state restored, all SRs, FRs, PTs, IPRs
-// *** except R1, R3, PT0, PT4, PT5 ***
-//
-//-
- ALIGN_BLOCK
-pal_restore_state:
-
-//need to restore sc_ctl,bc_ctl,bc_config??? if so, need to figure out a safe way to do so.
-
-//orig // map the console io area virtually
-//orig mtpr r31, dtb_ia // clear the dtb
-//orig srl r1, page_offset_size_bits, r0 // Clean off low bits of VA
-//orig sll r0, 32, r0 // shift to PFN field
-//orig lda r2, 0xff(r31) // all read enable and write enable bits set
-//orig sll r2, 8, r2 // move to PTE location
-//orig addq r0, r2, r0 // combine with PFN
-//orig
-//orig mtpr r0, dtb_pte // Load PTE and set TB valid bit
-//orig mtpr r1, dtb_tag // write TB tag
-//orig
-
- mtpr r31, dtbIa // Clear all DTB entries
- srl r1, va_s_off, r0 // Clean off byte-within-page offset
- sll r0, pte_v_pfn, r0 // Shift to form PFN
- lda r0, pte_m_prot(r0) // Set all read/write enable bits
- mtpr r0, dtbPte // Load the PTE and set valid
- mtpr r1, dtbTag // Write the PTE and tag into the DTB
-
-
-//orig // map the next page too, in case impure area crosses page boundary
-//orig lda r4, 1@page_offset_size_bits(r1) // generate address for next page
-//orig srl r4, page_offset_size_bits, r0 // Clean off low bits of VA
-//orig sll r0, 32, r0 // shift to PFN field
-//orig lda r2, 0xff(r31) // all read enable and write enable bits set
-//orig sll r2, 8, r2 // move to PTE location
-//orig addq r0, r2, r0 // combine with PFN
-//orig
-//orig mtpr r0, dtb_pte // Load PTE and set TB valid bit
-//orig mtpr r4, dtb_tag // write TB tag - no virtual mbox instruction for 3 cycles
-
- lda r4, (1<<VA_S_OFF)(r1) // Generate address for next page
- srl r4, va_s_off, r0 // Clean off byte-within-page offset
- sll r0, pte_v_pfn, r0 // Shift to form PFN
- lda r0, pte_m_prot(r0) // Set all read/write enable bits
- mtpr r0, dtbPte // Load the PTE and set valid
- mtpr r4, dtbTag // Write the PTE and tag into the DTB
-
-//orig // save all floating regs
-//orig mfpr r0, icsr // get icsr
-//orig// assume ICSR_V_SDE gt <ICSR_V_FPE> // assertion checker
-//orig or r31, <<1@<ICSR_V_SDE-ICSR_V_FPE>> ! 1>, r2 // set SDE and FPE
-//orig sll r2, #icsr_v_fpe, r2 // shift for fpu spot
-//orig or r2, r0, r0 // set FEN on
-//orig mtpr r0, icsr // write to icsr, enabling FEN and SDE. 3 bubbles to floating instr.
-
- mfpr r0, icsr // Get current ICSR
- bis zero, 1, r2 // Get a '1'
- or r2, (1<<(icsr_v_sde-icsr_v_fpe)), r2
- sll r2, icsr_v_fpe, r2 // Shift bits into position
- bis r2, r2, r0 // Set ICSR<SDE> and ICSR<FPE>
- mtpr r0, icsr // Update the chip
-
- mfpr r31, pt0 // FPE bubble cycle 1 //orig
- mfpr r31, pt0 // FPE bubble cycle 2 //orig
- mfpr r31, pt0 // FPE bubble cycle 3 //orig
-
-//orig fix_impure_ipr r1
-//orig restore_reg1 fpcsr, f0, r1, fpcsr=1
-//orig mt_fpcr f0
-//orig
-//orig unfix_impure_ipr r1
-//orig fix_impure_gpr r1 // adjust impure pointer offset for gpr access
-//orig
-//orig // restore all floating regs
-//orig#define t 0
-//orig .repeat 32
-//orig restore_reg \t , fpu=1
-//orig#define t t + 1
-//orig .endr
-
- lda r1, 200(r1) // Point to base of IPR area again
- RESTORE_FPR(f0,CNS_Q_FPCSR,r1) // can it reach?? pb
- mt_fpcr f0 // original
-
- lda r1, 0x200(r1) // point to center of CPU segment
- RESTORE_FPR(f0,CNS_Q_FPR+0x00,r1)
- RESTORE_FPR(f1,CNS_Q_FPR+0x08,r1)
- RESTORE_FPR(f2,CNS_Q_FPR+0x10,r1)
- RESTORE_FPR(f3,CNS_Q_FPR+0x18,r1)
- RESTORE_FPR(f4,CNS_Q_FPR+0x20,r1)
- RESTORE_FPR(f5,CNS_Q_FPR+0x28,r1)
- RESTORE_FPR(f6,CNS_Q_FPR+0x30,r1)
- RESTORE_FPR(f7,CNS_Q_FPR+0x38,r1)
- RESTORE_FPR(f8,CNS_Q_FPR+0x40,r1)
- RESTORE_FPR(f9,CNS_Q_FPR+0x48,r1)
- RESTORE_FPR(f10,CNS_Q_FPR+0x50,r1)
- RESTORE_FPR(f11,CNS_Q_FPR+0x58,r1)
- RESTORE_FPR(f12,CNS_Q_FPR+0x60,r1)
- RESTORE_FPR(f13,CNS_Q_FPR+0x68,r1)
- RESTORE_FPR(f14,CNS_Q_FPR+0x70,r1)
- RESTORE_FPR(f15,CNS_Q_FPR+0x78,r1)
- RESTORE_FPR(f16,CNS_Q_FPR+0x80,r1)
- RESTORE_FPR(f17,CNS_Q_FPR+0x88,r1)
- RESTORE_FPR(f18,CNS_Q_FPR+0x90,r1)
- RESTORE_FPR(f19,CNS_Q_FPR+0x98,r1)
- RESTORE_FPR(f20,CNS_Q_FPR+0xA0,r1)
- RESTORE_FPR(f21,CNS_Q_FPR+0xA8,r1)
- RESTORE_FPR(f22,CNS_Q_FPR+0xB0,r1)
- RESTORE_FPR(f23,CNS_Q_FPR+0xB8,r1)
- RESTORE_FPR(f24,CNS_Q_FPR+0xC0,r1)
- RESTORE_FPR(f25,CNS_Q_FPR+0xC8,r1)
- RESTORE_FPR(f26,CNS_Q_FPR+0xD0,r1)
- RESTORE_FPR(f27,CNS_Q_FPR+0xD8,r1)
- RESTORE_FPR(f28,CNS_Q_FPR+0xE0,r1)
- RESTORE_FPR(f29,CNS_Q_FPR+0xE8,r1)
- RESTORE_FPR(f30,CNS_Q_FPR+0xF0,r1)
- RESTORE_FPR(f31,CNS_Q_FPR+0xF8,r1)
-
-//orig // switch impure pointer from gpr to ipr area --
-//orig unfix_impure_gpr r1
-//orig fix_impure_ipr r1
-//orig
-//orig // restore all pal regs
-//orig#define t 1
-//orig .repeat 23
-//orig restore_reg \t , pal=1
-//orig#define t t + 1
-//orig .endr
-
- lda r1, -0x200(r1) // Restore base address of impure area.
- lda r1, CNS_Q_IPR(r1) // Point to base of IPR area.
- RESTORE_IPR(pt0,CNS_Q_PT+0x00,r1) // the osf code didn't save/restore palTemp 0 ?? pboyle
- RESTORE_IPR(pt1,CNS_Q_PT+0x08,r1)
- RESTORE_IPR(pt2,CNS_Q_PT+0x10,r1)
- RESTORE_IPR(pt3,CNS_Q_PT+0x18,r1)
- RESTORE_IPR(pt4,CNS_Q_PT+0x20,r1)
- RESTORE_IPR(pt5,CNS_Q_PT+0x28,r1)
- RESTORE_IPR(pt6,CNS_Q_PT+0x30,r1)
- RESTORE_IPR(pt7,CNS_Q_PT+0x38,r1)
- RESTORE_IPR(pt8,CNS_Q_PT+0x40,r1)
- RESTORE_IPR(pt9,CNS_Q_PT+0x48,r1)
- RESTORE_IPR(pt10,CNS_Q_PT+0x50,r1)
- RESTORE_IPR(pt11,CNS_Q_PT+0x58,r1)
- RESTORE_IPR(pt12,CNS_Q_PT+0x60,r1)
- RESTORE_IPR(pt13,CNS_Q_PT+0x68,r1)
- RESTORE_IPR(pt14,CNS_Q_PT+0x70,r1)
- RESTORE_IPR(pt15,CNS_Q_PT+0x78,r1)
- RESTORE_IPR(pt16,CNS_Q_PT+0x80,r1)
- RESTORE_IPR(pt17,CNS_Q_PT+0x88,r1)
- RESTORE_IPR(pt18,CNS_Q_PT+0x90,r1)
- RESTORE_IPR(pt19,CNS_Q_PT+0x98,r1)
- RESTORE_IPR(pt20,CNS_Q_PT+0xA0,r1)
- RESTORE_IPR(pt21,CNS_Q_PT+0xA8,r1)
- RESTORE_IPR(pt22,CNS_Q_PT+0xB0,r1)
- RESTORE_IPR(pt23,CNS_Q_PT+0xB8,r1)
-
-
-//orig restore_reg exc_addr, ipr=1 // restore ipr
-//orig restore_reg pal_base, ipr=1 // restore ipr
-//orig restore_reg ipl, ipr=1 // restore ipr
-//orig restore_reg ps, ipr=1 // restore ipr
-//orig mtpr r0, dtb_cm // set current mode in mbox too
-//orig restore_reg itb_asn, ipr=1
-//orig srl r0, itb_asn_v_asn, r0
-//orig sll r0, dtb_asn_v_asn, r0
-//orig mtpr r0, dtb_asn // set ASN in Mbox too
-//orig restore_reg ivptbr, ipr=1
-//orig mtpr r0, mvptbr // use ivptbr value to restore mvptbr
-//orig restore_reg mcsr, ipr=1
-//orig restore_reg aster, ipr=1
-//orig restore_reg astrr, ipr=1
-//orig restore_reg sirr, ipr=1
-//orig restore_reg maf_mode, ipr=1 // no mbox instruction for 3 cycles
-//orig mfpr r31, pt0 // (may issue with mt maf_mode)
-//orig mfpr r31, pt0 // bubble cycle 1
-//orig mfpr r31, pt0 // bubble cycle 2
-//orig mfpr r31, pt0 // bubble cycle 3
-//orig mfpr r31, pt0 // (may issue with following ld)
-
- // r0 gets the value of RESTORE_IPR in the macro and this code uses this side effect (gag)
- RESTORE_IPR(excAddr,CNS_Q_EXC_ADDR,r1)
- RESTORE_IPR(palBase,CNS_Q_PAL_BASE,r1)
- RESTORE_IPR(ipl,CNS_Q_IPL,r1)
- RESTORE_IPR(ips,CNS_Q_IPS,r1)
- mtpr r0, dtbCm // Set Mbox current mode too.
- RESTORE_IPR(itbAsn,CNS_Q_ITB_ASN,r1)
- srl r0, 4, r0
- sll r0, 57, r0
- mtpr r0, dtbAsn // Set Mbox ASN too
- RESTORE_IPR(iVptBr,CNS_Q_IVPTBR,r1)
- mtpr r0, mVptBr // Set Mbox VptBr too
- RESTORE_IPR(mcsr,CNS_Q_MCSR,r1)
- RESTORE_IPR(aster,CNS_Q_ASTER,r1)
- RESTORE_IPR(astrr,CNS_Q_ASTRR,r1)
- RESTORE_IPR(sirr,CNS_Q_SIRR,r1)
- RESTORE_IPR(mafMode,CNS_Q_MAF_MODE,r1)
- STALL
- STALL
- STALL
- STALL
- STALL
-
-
- // restore all integer shadow regs
-//orig#define t 8
-//orig .repeat 7
-//orig restore_reg \t, shadow=1
-//orig#define t t + 1
-//orig .endr
-//orig restore_reg 25, shadow=1
-//orig restore_reg dc_mode, ipr=1 // no mbox instructions for 4 cycles
-
- RESTORE_SHADOW( r8,CNS_Q_SHADOW+0x00,r1) // also called p0...p7 in the Hudson code
- RESTORE_SHADOW( r9,CNS_Q_SHADOW+0x08,r1)
- RESTORE_SHADOW(r10,CNS_Q_SHADOW+0x10,r1)
- RESTORE_SHADOW(r11,CNS_Q_SHADOW+0x18,r1)
- RESTORE_SHADOW(r12,CNS_Q_SHADOW+0x20,r1)
- RESTORE_SHADOW(r13,CNS_Q_SHADOW+0x28,r1)
- RESTORE_SHADOW(r14,CNS_Q_SHADOW+0x30,r1)
- RESTORE_SHADOW(r25,CNS_Q_SHADOW+0x38,r1)
- RESTORE_IPR(dcMode,CNS_Q_DC_MODE,r1)
-
- //
- // Get out of shadow mode
- //
-
- mfpr r31, pt0 // pad last load to icsr write (in case of replay, icsr will be written anyway) //orig
- mfpr r31, pt0 // "" //orig
- mfpr r0, icsr // Get icsr //orig
-//orig ldah r2, <1@<icsr_v_sde-16>>(r31) // Get a one in SHADOW_ENABLE bit location
- ldah r2, (1<<(ICSR_V_SDE-16))(r31) // Get a one in SHADOW_ENABLE bit location //orig
- bic r0, r2, r2 // ICSR with SDE clear //orig
- mtpr r2, icsr // Turn off SDE - no palshadow rd/wr for 3 bubble cycles //orig
-
- mfpr r31, pt0 // SDE bubble cycle 1 //orig
- mfpr r31, pt0 // SDE bubble cycle 2 //orig
- mfpr r31, pt0 // SDE bubble cycle 3 //orig
- nop //orig
-
-//orig // switch impure pointer from ipr to gpr area --
-//orig unfix_impure_ipr r1
-//orig fix_impure_gpr r1
-//orig // restore all integer regs
-//orig#define t 4
-//orig .repeat 28
-//orig restore_reg \t
-//orig#define t t + 1
-//orig .endr
-
-// Restore GPRs (r0, r2 are restored later, r1 and r3 are trashed) ...
-
- lda r1, -CNS_Q_IPR(r1) // Restore base address of impure area
- lda r1, 0x200(r1) // Point to center of CPU segment
-
- RESTORE_GPR(r4,CNS_Q_GPR+0x20,r1)
- RESTORE_GPR(r5,CNS_Q_GPR+0x28,r1)
- RESTORE_GPR(r6,CNS_Q_GPR+0x30,r1)
- RESTORE_GPR(r7,CNS_Q_GPR+0x38,r1)
- RESTORE_GPR(r8,CNS_Q_GPR+0x40,r1)
- RESTORE_GPR(r9,CNS_Q_GPR+0x48,r1)
- RESTORE_GPR(r10,CNS_Q_GPR+0x50,r1)
- RESTORE_GPR(r11,CNS_Q_GPR+0x58,r1)
- RESTORE_GPR(r12,CNS_Q_GPR+0x60,r1)
- RESTORE_GPR(r13,CNS_Q_GPR+0x68,r1)
- RESTORE_GPR(r14,CNS_Q_GPR+0x70,r1)
- RESTORE_GPR(r15,CNS_Q_GPR+0x78,r1)
- RESTORE_GPR(r16,CNS_Q_GPR+0x80,r1)
- RESTORE_GPR(r17,CNS_Q_GPR+0x88,r1)
- RESTORE_GPR(r18,CNS_Q_GPR+0x90,r1)
- RESTORE_GPR(r19,CNS_Q_GPR+0x98,r1)
- RESTORE_GPR(r20,CNS_Q_GPR+0xA0,r1)
- RESTORE_GPR(r21,CNS_Q_GPR+0xA8,r1)
- RESTORE_GPR(r22,CNS_Q_GPR+0xB0,r1)
- RESTORE_GPR(r23,CNS_Q_GPR+0xB8,r1)
- RESTORE_GPR(r24,CNS_Q_GPR+0xC0,r1)
- RESTORE_GPR(r25,CNS_Q_GPR+0xC8,r1)
- RESTORE_GPR(r26,CNS_Q_GPR+0xD0,r1)
- RESTORE_GPR(r27,CNS_Q_GPR+0xD8,r1)
- RESTORE_GPR(r28,CNS_Q_GPR+0xE0,r1)
- RESTORE_GPR(r29,CNS_Q_GPR+0xE8,r1)
- RESTORE_GPR(r30,CNS_Q_GPR+0xF0,r1)
- RESTORE_GPR(r31,CNS_Q_GPR+0xF8,r1)
-
-//orig // switch impure pointer from gpr to ipr area --
-//orig unfix_impure_gpr r1
-//orig fix_impure_ipr r1
-//orig restore_reg icsr, ipr=1 // restore original icsr- 4 bubbles to hw_rei
-
- lda t0, -0x200(t0) // Restore base address of impure area.
- lda t0, CNS_Q_IPR(t0) // Point to base of IPR area again.
- RESTORE_IPR(icsr,CNS_Q_ICSR,r1)
-
-//orig // and back again --
-//orig unfix_impure_ipr r1
-//orig fix_impure_gpr r1
-//orig store_reg1 flag, r31, r1, ipr=1 // clear dump area valid flag
-//orig mb
-
- lda t0, -CNS_Q_IPR(t0) // Back to base of impure area again,
- lda t0, 0x200(t0) // and back to center of CPU segment
- SAVE_GPR(r31,CNS_Q_FLAG,r1) // Clear the dump area valid flag
- mb
-
-//orig // and back we go
-//orig// restore_reg 3
-//orig restore_reg 2
-//orig// restore_reg 1
-//orig restore_reg 0
-//orig // restore impure area base
-//orig unfix_impure_gpr r1
-
- RESTORE_GPR(r2,CNS_Q_GPR+0x10,r1)
- RESTORE_GPR(r0,CNS_Q_GPR+0x00,r1)
- lda r1, -0x200(r1) // Restore impure base address
-
- mfpr r31, pt0 // stall for ldqp above //orig
-
- mtpr r31, dtb_ia // clear the tb //orig
- mtpr r31, itb_ia // clear the itb //orig
-
-//orig pvc_jsr rststa, bsr=1, dest=1
- ret r31, (r3) // back we go //orig
-#endif
-
-
-//+
-// pal_pal_bug_check -- code has found a bugcheck situation.
-// Set things up and join common machine check flow.
-//
-// Input:
-// r14 - exc_addr
-//
-// 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
- .globl pal_pal_bug_check_from_int
-pal_pal_bug_check_from_int:
- DEBUGSTORE(0x79)
-//simos DEBUG_EXC_ADDR()
- DEBUGSTORE(0x20)
-//simos bsr r25, put_hex
- lda r25, mchk_c_bugcheck(r31)
- addq r25, 1, r25 // set flag indicating we came from interrupt and stack is already pushed
- br r31, pal_pal_mchk
- nop
-
-pal_pal_bug_check:
- lda r25, mchk_c_bugcheck(r31)
-
-pal_pal_mchk:
- sll r25, 32, r25 // Move mchk code to position
-
- mtpr r14, pt10 // Stash exc_addr
- mtpr r14, exc_addr
-
- mfpr r12, pt_misc // Get MCES and scratch
- zap r12, 0x3c, r12
-
- or r12, r25, r12 // Combine mchk code
- lda r25, scb_v_procmchk(r31) // Get SCB vector
-
- sll r25, 16, r25 // Move SCBv to position
- or r12, r25, r25 // Combine SCBv
-
- mtpr r0, pt0 // Stash for scratch
- bis r25, mces_m_mchk, r25 // Set MCES<MCHK> bit
-
- mtpr r25, 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
- blbs r12, sys_double_machine_check // MCHK halt if double machine check
-
- br r31, sys_mchk_collect_iprs // Join common machine check flow
-
-// align_to_call_pal_section // Align to address of first call_pal entry point - 2000
-
-// .sbttl "HALT - PALcode for HALT instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// GO to console code
-//
-//-
-
- .text 1
-// . = 0x2000
- CALL_PAL_PRIV(PAL_HALT_ENTRY)
-call_pal_halt:
-#if rax_mode == 0
- mfpr r31, pt0 // Pad exc_addr read
- mfpr r31, pt0
-
- mfpr r12, exc_addr // get PC
- subq r12, 4, r12 // Point to the HALT
-
- mtpr r12, exc_addr
- mtpr r0, pt0
-
-//orig pvc_jsr updpcb, bsr=1
- bsr r0, pal_update_pcb // update the pcb
- lda r0, hlt_c_sw_halt(r31) // set halt code to sw halt
- br r31, sys_enter_console // enter the console
-
-#else // RAX mode
- mb
- mb
- mtpr r9, ev5__dtb_asn // no Dstream virtual ref for next 3 cycles.
- mtpr r9, ev5__itb_asn // E1. Update ITB ASN. No hw_rei for 5 cycles.
- mtpr r8, exc_addr // no HW_REI for 1 cycle.
- blbc r9, not_begin_case
- mtpr r31, ev5__dtb_ia // clear DTB. No Dstream virtual ref for 2 cycles.
- mtpr r31, ev5__itb_ia // clear ITB.
-
-not_begin_case:
- nop
- nop
-
- nop
- nop // pad mt itb_asn ->hw_rei_stall
-
- hw_rei_stall
-#endif
-
-// .sbttl "CFLUSH- PALcode for CFLUSH instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// R16 - contains the PFN of the page to be flushed
-//
-// Function:
-// Flush all Dstream caches of 1 entire page
-// The CFLUSH routine is in the system specific module.
-//
-//-
-
- CALL_PAL_PRIV(PAL_CFLUSH_ENTRY)
-Call_Pal_Cflush:
- br r31, sys_cflush
-
-// .sbttl "DRAINA - PALcode for DRAINA instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-// Implicit TRAPB performed by hardware.
-//
-// Function:
-// Stall instruction issue until all prior instructions are guaranteed to
-// complete without incurring aborts. For the EV5 implementation, this
-// means waiting until all pending DREADS are returned.
-//
-//-
-
- CALL_PAL_PRIV(PAL_DRAINA_ENTRY)
-Call_Pal_Draina:
- ldah r14, 0x100(r31) // Init counter. Value?
- nop
-
-DRAINA_LOOP:
- subq r14, 1, r14 // Decrement counter
- mfpr r13, ev5__maf_mode // Fetch status bit
-
- srl r13, maf_mode_v_dread_pending, r13
- ble r14, DRAINA_LOOP_TOO_LONG
-
- nop
- blbs r13, DRAINA_LOOP // Wait until all DREADS clear
-
- hw_rei
-
-DRAINA_LOOP_TOO_LONG:
- br r31, call_pal_halt
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_PRIV(0x0003)
-CallPal_OpcDec03:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0004)
-CallPal_OpcDec04:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0005)
-CallPal_OpcDec05:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0006)
-CallPal_OpcDec06:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0007)
-CallPal_OpcDec07:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0008)
-CallPal_OpcDec08:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "CSERVE- PALcode for CSERVE instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Various functions for private use of console software
-//
-// option selector in r0
-// arguments in r16....
-// The CSERVE routine is in the system specific module.
-//
-//-
-
- CALL_PAL_PRIV(PAL_CSERVE_ENTRY)
-Call_Pal_Cserve:
- br r31, sys_cserve
-
-// .sbttl "swppal - PALcode for swppal instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-// Vectored into via hardware PALcode instruction dispatch.
-// R16 contains the new PAL identifier
-// R17:R21 contain implementation-specific entry parameters
-//
-// R0 receives status:
-// 0 success (PAL was switched)
-// 1 unknown PAL variant
-// 2 known PAL variant, but PAL not loaded
-//
-//
-// Function:
-// Swap control to another PAL.
-//-
-
- CALL_PAL_PRIV(PAL_SWPPAL_ENTRY)
-Call_Pal_Swppal:
- cmpule r16, 255, r0 // see if a kibble was passed
- cmoveq r16, r16, r0 // if r16=0 then a valid address (ECO 59)
-
- or r16, r31, r3 // set r3 incase this is a address
- blbc r0, swppal_cont // nope, try it as an address
-
- cmpeq r16, 2, r0 // is it our friend OSF?
- blbc r0, swppal_fail // nope, don't know this fellow
-
- br r2, CALL_PAL_SWPPAL_10_ // tis our buddy OSF
-
-// .global osfpal_hw_entry_reset
-// .weak osfpal_hw_entry_reset
-// .long <osfpal_hw_entry_reset-pal_start>
-//orig halt // don't know how to get the address here - kludge ok, load pal at 0
- .long 0 // ?? hack upon hack...pb
-
-CALL_PAL_SWPPAL_10_: ldlp r3, 0(r2) // fetch target addr
-// ble r3, swppal_fail ; if OSF not linked in say not loaded.
- mfpr r2, pal_base // fetch pal base
-
- addq r2, r3, r3 // add pal base
- lda r2, 0x3FFF(r31) // get pal base checker mask
-
- and r3, r2, r2 // any funky bits set?
- cmpeq r2, 0, r0 //
-
- blbc r0, swppal_fail // return unknown if bad bit set.
- br r31, swppal_cont
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_PRIV(0x000B)
-CallPal_OpcDec0B:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x000C)
-CallPal_OpcDec0C:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "wripir- PALcode for wripir instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-// r16 = processor number to interrupt
-//
-// Function:
-// IPIR <- R16
-// Handled in system-specific code
-//
-// Exit:
-// interprocessor interrupt is recorded on the target processor
-// and is initiated when the proper enabling conditions are present.
-//-
-
- CALL_PAL_PRIV(PAL_WRIPIR_ENTRY)
-Call_Pal_Wrpir:
- br r31, sys_wripir
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_PRIV(0x000E)
-CallPal_OpcDec0E:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x000F)
-CallPal_OpcDec0F:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "rdmces- PALcode for rdmces instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// R0 <- ZEXT(MCES)
-//-
-
- CALL_PAL_PRIV(PAL_RDMCES_ENTRY)
-Call_Pal_Rdmces:
- mfpr r0, pt_mces // Read from PALtemp
- and r0, mces_m_all, r0 // Clear other bits
-
- hw_rei
-
-// .sbttl "wrmces- PALcode for wrmces instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// If {R16<0> EQ 1} then MCES<0> <- 0 (MCHK)
-// If {R16<1> EQ 1} then MCES<1> <- 0 (SCE)
-// If {R16<2> EQ 1} then MCES<2> <- 0 (PCE)
-// MCES<3> <- R16<3> (DPC)
-// MCES<4> <- R16<4> (DSC)
-//
-//-
-
- CALL_PAL_PRIV(PAL_WRMCES_ENTRY)
-Call_Pal_Wrmces:
- and r16, ((1<<mces_v_mchk) | (1<<mces_v_sce) | (1<<mces_v_pce)), r13 // Isolate MCHK, SCE, PCE
- mfpr r14, pt_mces // Get current value
-
- ornot r31, r13, r13 // Flip all the bits
- and r16, ((1<<mces_v_dpc) | (1<<mces_v_dsc)), r17
-
- and r14, r13, r1 // Update MCHK, SCE, PCE
- bic r1, ((1<<mces_v_dpc) | (1<<mces_v_dsc)), r1 // Clear old DPC, DSC
-
- or r1, r17, r1 // Update DPC and DSC
- mtpr r1, pt_mces // Write MCES back
-
-#if rawhide_system == 0
- nop // Pad to fix PT write->read restriction
-#else
- blbs r16, RAWHIDE_clear_mchk_lock // Clear logout from lock
-#endif
-
- nop
- hw_rei
-
-
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_PRIV(0x0012)
-CallPal_OpcDec12:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0013)
-CallPal_OpcDec13:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0014)
-CallPal_OpcDec14:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0015)
-CallPal_OpcDec15:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0016)
-CallPal_OpcDec16:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0017)
-CallPal_OpcDec17:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0018)
-CallPal_OpcDec18:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0019)
-CallPal_OpcDec19:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x001A)
-CallPal_OpcDec1A:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x001B)
-CallPal_OpcDec1B:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x001C)
-CallPal_OpcDec1C:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x001D)
-CallPal_OpcDec1D:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x001E)
-CallPal_OpcDec1E:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x001F)
-CallPal_OpcDec1F:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0020)
-CallPal_OpcDec20:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0021)
-CallPal_OpcDec21:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0022)
-CallPal_OpcDec22:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0023)
-CallPal_OpcDec23:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0024)
-CallPal_OpcDec24:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0025)
-CallPal_OpcDec25:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0026)
-CallPal_OpcDec26:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0027)
-CallPal_OpcDec27:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0028)
-CallPal_OpcDec28:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x0029)
-CallPal_OpcDec29:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x002A)
-CallPal_OpcDec2A:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "wrfen - PALcode for wrfen instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// a0<0> -> ICSR<FPE>
-// Store new FEN in PCB
-// Final value of t0 (r1), t8..t10 (r22..r24) and a0 (r16) are UNPREDICTABLE
-//
-// Issue: What about pending FP loads when FEN goes from on->off????
-//-
-
- CALL_PAL_PRIV(PAL_WRFEN_ENTRY)
-Call_Pal_Wrfen:
- or r31, 1, r13 // Get a one
- mfpr r1, ev5__icsr // Get current FPE
-
- sll r13, icsr_v_fpe, r13 // shift 1 to icsr<fpe> spot, e0
- and r16, 1, r16 // clean new fen
-
- sll r16, icsr_v_fpe, r12 // shift new fen to correct bit position
- bic r1, r13, r1 // zero icsr<fpe>
-
- or r1, r12, r1 // Or new FEN into ICSR
- mfpr r12, pt_pcbb // Get PCBB - E1
-
- mtpr r1, ev5__icsr // write new ICSR. 3 Bubble cycles to HW_REI
- stlp r16, osfpcb_q_fen(r12) // Store FEN in PCB.
-
- mfpr r31, pt0 // Pad ICSR<FPE> write.
- mfpr r31, pt0
-
- mfpr r31, pt0
-// pvc_violate 225 // cuz PVC can't distinguish which bits changed
- hw_rei
-
-
- CALL_PAL_PRIV(0x002C)
-CallPal_OpcDec2C:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "wrvptpr - PALcode for wrvptpr instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// vptptr <- a0 (r16)
-//-
-
- CALL_PAL_PRIV(PAL_WRVPTPTR_ENTRY)
-Call_Pal_Wrvptptr:
- mtpr r16, ev5__mvptbr // Load Mbox copy
- mtpr r16, ev5__ivptbr // Load Ibox copy
- nop // Pad IPR write
- nop
- hw_rei
-
- CALL_PAL_PRIV(0x002E)
-CallPal_OpcDec2E:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_PRIV(0x002F)
-CallPal_OpcDec2F:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "swpctx- PALcode for swpctx instruction"
-
-//+
-//
-// Entry:
-// hardware dispatch via callPal instruction
-// R16 -> new pcb
-//
-// Function:
-// dynamic state moved to old pcb
-// new state loaded from new pcb
-// pcbb pointer set
-// old pcbb returned in R0
-//
-// Note: need to add perf monitor stuff
-//-
-
- CALL_PAL_PRIV(PAL_SWPCTX_ENTRY)
-Call_Pal_Swpctx:
- rpcc r13 // get cyccounter
- mfpr r0, pt_pcbb // get pcbb
-
- ldqp r22, osfpcb_q_fen(r16) // get new fen/pme
- ldqp r23, osfpcb_l_cc(r16) // get new asn
-
- srl r13, 32, r25 // move offset
- mfpr r24, pt_usp // get usp
-
- stqp r30, osfpcb_q_ksp(r0) // store old ksp
-// pvc_violate 379 // stqp can't trap except replay. only problem if mf same ipr in same shadow.
- mtpr r16, pt_pcbb // set new pcbb
-
- stqp r24, osfpcb_q_usp(r0) // store usp
- addl r13, r25, r25 // merge for new time
-
- stlp r25, osfpcb_l_cc(r0) // save time
- ldah r24, (1<<(icsr_v_fpe-16))(r31)
-
- and r22, 1, r12 // isolate fen
- mfpr r25, icsr // get current icsr
-
- ev5_pass2 lda r24, (1<<icsr_v_pmp)(r24)
- br r31, swpctx_cont
-
-// .sbttl "wrval - PALcode for wrval instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// sysvalue <- a0 (r16)
-//-
-
- CALL_PAL_PRIV(PAL_WRVAL_ENTRY)
-Call_Pal_Wrval:
- nop
- mtpr r16, pt_sysval // Pad paltemp write
- nop
- nop
- hw_rei
-
-
-// .sbttl "rdval - PALcode for rdval instruction"
-
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// v0 (r0) <- sysvalue
-//-
-
- CALL_PAL_PRIV(PAL_RDVAL_ENTRY)
-Call_Pal_Rdval:
- nop
- mfpr r0, pt_sysval
- nop
- hw_rei
-
-// .sbttl "tbi - PALcode for tbi instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// TB invalidate
-// r16/a0 = TBI type
-// r17/a1 = Va for TBISx instructions
-//-
-
- CALL_PAL_PRIV(PAL_TBI_ENTRY)
-Call_Pal_Tbi:
- addq r16, 2, r16 // change range to 0-2
- br r23, CALL_PAL_tbi_10_ // get our address
-
-CALL_PAL_tbi_10_: cmpult r16, 6, r22 // see if in range
- lda r23, tbi_tbl-CALL_PAL_tbi_10_(r23) // set base to start of table
- sll r16, 4, r16 // * 16
- blbc r22, CALL_PAL_tbi_30_ // go rei, if not
-
- addq r23, r16, r23 // addr of our code
-//orig pvc_jsr tbi
- jmp r31, (r23) // and go do it
-
-CALL_PAL_tbi_30_:
- hw_rei
- nop
-
-// .sbttl "wrent - PALcode for wrent instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Update ent* in paltemps
-// r16/a0 = Address of entry routine
-// r17/a1 = Entry Number 0..5
-//
-// r22, r23 trashed
-//-
-
- CALL_PAL_PRIV(PAL_WRENT_ENTRY)
-Call_Pal_Wrent:
- cmpult r17, 6, r22 // see if in range
- br r23, CALL_PAL_wrent_10_ // get our address
-
-CALL_PAL_wrent_10_: bic r16, 3, r16 // clean pc
- blbc r22, CALL_PAL_wrent_30_ // go rei, if not in range
-
- lda r23, wrent_tbl-CALL_PAL_wrent_10_(r23) // set base to start of table
- sll r17, 4, r17 // *16
-
- addq r17, r23, r23 // Get address in table
-//orig pvc_jsr wrent
- jmp r31, (r23) // and go do it
-
-CALL_PAL_wrent_30_:
- hw_rei // out of range, just return
-
-// .sbttl "swpipl - PALcode for swpipl instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// v0 (r0) <- PS<IPL>
-// PS<IPL> <- a0<2:0> (r16)
-//
-// t8 (r22) is scratch
-//-
-
- CALL_PAL_PRIV(PAL_SWPIPL_ENTRY)
-Call_Pal_Swpipl:
- and r16, osfps_m_ipl, r16 // clean New ipl
- mfpr r22, pt_intmask // get int mask
-
- extbl r22, r16, r22 // get mask for this ipl
- bis r11, r31, r0 // return old ipl
-
- bis r16, r31, r11 // set new ps
- mtpr r22, ev5__ipl // set new mask
-
- mfpr r31, pt0 // pad ipl write
- mfpr r31, pt0 // pad ipl write
-
- hw_rei // back
-
-// .sbttl "rdps - PALcode for rdps instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// v0 (r0) <- ps
-//-
-
- CALL_PAL_PRIV(PAL_RDPS_ENTRY)
-Call_Pal_Rdps:
- bis r11, r31, r0 // Fetch PALshadow PS
- nop // Must be 2 cycles long
- hw_rei
-
-// .sbttl "wrkgp - PALcode for wrkgp instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// kgp <- a0 (r16)
-//-
-
- CALL_PAL_PRIV(PAL_WRKGP_ENTRY)
-Call_Pal_Wrkgp:
- nop
- mtpr r16, pt_kgp
- nop // Pad for pt write->read restriction
- nop
- hw_rei
-
-// .sbttl "wrusp - PALcode for wrusp instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// usp <- a0 (r16)
-//-
-
- CALL_PAL_PRIV(PAL_WRUSP_ENTRY)
-Call_Pal_Wrusp:
- nop
- mtpr r16, pt_usp
- nop // Pad possible pt write->read restriction
- nop
- hw_rei
-
-// .sbttl "wrperfmon - PALcode for wrperfmon instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-//
-// Function:
-// Various control functions for the onchip performance counters
-//
-// option selector in r16
-// option argument in r17
-// returned status in r0
-//
-//
-// r16 = 0 Disable performance monitoring for one or more cpu's
-// r17 = 0 disable no counters
-// r17 = bitmask disable counters specified in bit mask (1=disable)
-//
-// r16 = 1 Enable performance monitoring for one or more cpu's
-// r17 = 0 enable no counters
-// r17 = bitmask enable counters specified in bit mask (1=enable)
-//
-// r16 = 2 Mux select for one or more cpu's
-// r17 = Mux selection (cpu specific)
-// <24:19> bc_ctl<pm_mux_sel> field (see spec)
-// <31>,<7:4>,<3:0> pmctr <sel0>,<sel1>,<sel2> fields (see spec)
-//
-// r16 = 3 Options
-// r17 = (cpu specific)
-// <0> = 0 log all processes
-// <0> = 1 log only selected processes
-// <30,9,8> mode select - ku,kp,kk
-//
-// r16 = 4 Interrupt frequency select
-// r17 = (cpu specific) indicates interrupt frequencies desired for each
-// counter, with "zero interrupts" being an option
-// frequency info in r17 bits as defined by PMCTR_CTL<FRQx> below
-//
-// r16 = 5 Read Counters
-// r17 = na
-// r0 = value (same format as ev5 pmctr)
-// <0> = 0 Read failed
-// <0> = 1 Read succeeded
-//
-// r16 = 6 Write Counters
-// r17 = value (same format as ev5 pmctr; all counters written simultaneously)
-//
-// r16 = 7 Enable performance monitoring for one or more cpu's and reset counter to 0
-// r17 = 0 enable no counters
-// r17 = bitmask enable & clear counters specified in bit mask (1=enable & clear)
-//
-//=============================================================================
-//Assumptions:
-//PMCTR_CTL:
-//
-// <15:14> CTL0 -- encoded frequency select and enable - CTR0
-// <13:12> CTL1 -- " - CTR1
-// <11:10> CTL2 -- " - CTR2
-//
-// <9:8> FRQ0 -- frequency select for CTR0 (no enable info)
-// <7:6> FRQ1 -- frequency select for CTR1
-// <5:4> FRQ2 -- frequency select for CTR2
-//
-// <0> all vs. select processes (0=all,1=select)
-//
-// where
-// FRQx<1:0>
-// 0 1 disable interrupt
-// 1 0 frequency = 65536 (16384 for ctr2)
-// 1 1 frequency = 256
-// note: FRQx<1:0> = 00 will keep counters from ever being enabled.
-//
-//=============================================================================
-//
- CALL_PAL_PRIV(0x0039)
-// unsupported in Hudson code .. pboyle Nov/95
-CALL_PAL_Wrperfmon:
-#if perfmon_debug == 0
- // "real" performance monitoring code
- cmpeq r16, 1, r0 // check for enable
- bne r0, perfmon_en // br if requested to enable
-
- cmpeq r16, 2, r0 // check for mux ctl
- bne r0, perfmon_muxctl // br if request to set mux controls
-
- cmpeq r16, 3, r0 // check for options
- bne r0, perfmon_ctl // br if request to set options
-
- cmpeq r16, 4, r0 // check for interrupt frequency select
- bne r0, perfmon_freq // br if request to change frequency select
-
- cmpeq r16, 5, r0 // check for counter read request
- bne r0, perfmon_rd // br if request to read counters
-
- cmpeq r16, 6, r0 // check for counter write request
- bne r0, perfmon_wr // br if request to write counters
-
- cmpeq r16, 7, r0 // check for counter clear/enable request
- bne r0, perfmon_enclr // br if request to clear/enable counters
-
- beq r16, perfmon_dis // br if requested to disable (r16=0)
- br r31, perfmon_unknown // br if unknown request
-#else
-
- br r31, pal_perfmon_debug
-#endif
-
-// .sbttl "rdusp - PALcode for rdusp instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// v0 (r0) <- usp
-//-
-
- CALL_PAL_PRIV(PAL_RDUSP_ENTRY)
-Call_Pal_Rdusp:
- nop
- mfpr r0, pt_usp
- hw_rei
-
-
- CALL_PAL_PRIV(0x003B)
-CallPal_OpcDec3B:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "whami - PALcode for whami instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// v0 (r0) <- whami
-//-
- CALL_PAL_PRIV(PAL_WHAMI_ENTRY)
-Call_Pal_Whami:
- nop
- mfpr r0, pt_whami // Get Whami
- extbl r0, 1, r0 // Isolate just whami bits
- hw_rei
-
-// .sbttl "retsys - PALcode for retsys instruction"
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-// 00(sp) contains return pc
-// 08(sp) contains r29
-//
-// Function:
-// Return from system call.
-// mode switched from kern to user.
-// stacks swapped, ugp, upc restored.
-// r23, r25 junked
-//-
-
- CALL_PAL_PRIV(PAL_RETSYS_ENTRY)
-Call_Pal_Retsys:
- lda r25, osfsf_c_size(sp) // pop stack
- bis r25, r31, r14 // touch r25 & r14 to stall mf exc_addr
-
- mfpr r14, exc_addr // save exc_addr in case of fault
- ldq r23, osfsf_pc(sp) // get pc
-
- ldq r29, osfsf_gp(sp) // get gp
- stl_c r31, -4(sp) // clear lock_flag
-
- lda r11, 1<<osfps_v_mode(r31)// new PS:mode=user
- mfpr r30, pt_usp // get users stack
-
- bic r23, 3, r23 // clean return pc
- mtpr r31, ev5__ipl // zero ibox IPL - 2 bubbles to hw_rei
-
- mtpr r11, ev5__dtb_cm // set Mbox current mode - no virt ref for 2 cycles
- mtpr r11, ev5__ps // set Ibox current mode - 2 bubble to hw_rei
-
- mtpr r23, exc_addr // set return address - 1 bubble to hw_rei
- mtpr r25, pt_ksp // save kern stack
-
- rc r31 // clear inter_flag
-// pvc_violate 248 // possible hidden mt->mf pt violation ok in callpal
- hw_rei_spe // and back
-
-
- CALL_PAL_PRIV(0x003E)
-CallPal_OpcDec3E:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "rti - PALcode for rti instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// 00(sp) -> ps
-// 08(sp) -> pc
-// 16(sp) -> r29 (gp)
-// 24(sp) -> r16 (a0)
-// 32(sp) -> r17 (a1)
-// 40(sp) -> r18 (a3)
-//-
-
- CALL_PAL_PRIV(PAL_RTI_ENTRY)
-#ifdef SIMOS
- /* called once by platform_tlaser */
- .globl Call_Pal_Rti
-#endif
-Call_Pal_Rti:
- lda r25, osfsf_c_size(sp) // get updated sp
- bis r25, r31, r14 // touch r14,r25 to stall mf exc_addr
-
- mfpr r14, exc_addr // save PC in case of fault
- rc r31 // clear intr_flag
-
- ldq r12, -6*8(r25) // get ps
- ldq r13, -5*8(r25) // pc
-
- ldq r18, -1*8(r25) // a2
- ldq r17, -2*8(r25) // a1
-
- ldq r16, -3*8(r25) // a0
- ldq r29, -4*8(r25) // gp
-
- bic r13, 3, r13 // clean return pc
- stl_c r31, -4(r25) // clear lock_flag
-
- and r12, osfps_m_mode, r11 // get mode
- mtpr r13, exc_addr // set return address
-
- beq r11, rti_to_kern // br if rti to Kern
- br r31, rti_to_user // out of call_pal space
-
-
-// .sbttl "Start the Unprivileged CALL_PAL Entry Points"
-// .sbttl "bpt- PALcode for bpt instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Build stack frame
-// a0 <- code
-// a1 <- unpred
-// a2 <- unpred
-// vector via entIF
-//
-//-
-//
- .text 1
-// . = 0x3000
- CALL_PAL_UNPRIV(PAL_BPT_ENTRY)
-Call_Pal_Bpt:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- bis r11, r31, r12 // Save PS for stack write
- bge r25, CALL_PAL_bpt_10_ // no stack swap needed if cm=kern
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
-CALL_PAL_bpt_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- mfpr r14, exc_addr // get pc
-
- stq r16, osfsf_a0(sp) // save regs
- bis r31, osf_a0_bpt, r16 // set a0
-
- stq r17, osfsf_a1(sp) // a1
- br r31, bpt_bchk_common // out of call_pal space
-
-
-// .sbttl "bugchk- PALcode for bugchk instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Build stack frame
-// a0 <- code
-// a1 <- unpred
-// a2 <- unpred
-// vector via entIF
-//
-//-
-//
- CALL_PAL_UNPRIV(PAL_BUGCHK_ENTRY)
-Call_Pal_Bugchk:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- bis r11, r31, r12 // Save PS for stack write
- bge r25, CALL_PAL_bugchk_10_ // no stack swap needed if cm=kern
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
-CALL_PAL_bugchk_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- mfpr r14, exc_addr // get pc
-
- stq r16, osfsf_a0(sp) // save regs
- bis r31, osf_a0_bugchk, r16 // set a0
-
- stq r17, osfsf_a1(sp) // a1
- br r31, bpt_bchk_common // out of call_pal space
-
-
- CALL_PAL_UNPRIV(0x0082)
-CallPal_OpcDec82:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "callsys - PALcode for callsys instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Switch mode to kernel and build a callsys stack frame.
-// sp = ksp
-// gp = kgp
-// t8 - t10 (r22-r24) trashed
-//
-//-
-//
- CALL_PAL_UNPRIV(PAL_CALLSYS_ENTRY)
-Call_Pal_Callsys:
-
- and r11, osfps_m_mode, r24 // get mode
- mfpr r22, pt_ksp // get ksp
-
- beq r24, sys_from_kern // sysCall from kern is not allowed
- mfpr r12, pt_entsys // get address of callSys routine
-
-//+
-// from here on we know we are in user going to Kern
-//-
- mtpr r31, ev5__dtb_cm // set Mbox current mode - no virt ref for 2 cycles
- mtpr r31, ev5__ps // set Ibox current mode - 2 bubble to hw_rei
-
- bis r31, r31, r11 // PS=0 (mode=kern)
- mfpr r23, exc_addr // get pc
-
- mtpr r30, pt_usp // save usp
- lda sp, 0-osfsf_c_size(r22)// set new sp
-
- stq r29, osfsf_gp(sp) // save user gp/r29
- stq r24, osfsf_ps(sp) // save ps
-
- stq r23, osfsf_pc(sp) // save pc
- mtpr r12, exc_addr // set address
- // 1 cycle to hw_rei
-
- mfpr r29, pt_kgp // get the kern gp/r29
-
- hw_rei_spe // and off we go!
-
-
- CALL_PAL_UNPRIV(0x0084)
-CallPal_OpcDec84:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0085)
-CallPal_OpcDec85:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "imb - PALcode for imb instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Flush the writebuffer and flush the Icache
-//
-//-
-//
- CALL_PAL_UNPRIV(PAL_IMB_ENTRY)
-Call_Pal_Imb:
- mb // Clear the writebuffer
- mfpr r31, ev5__mcsr // Sync with clear
- nop
- nop
- br r31, pal_ic_flush // Flush Icache
-
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_UNPRIV(0x0087)
-CallPal_OpcDec87:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0088)
-CallPal_OpcDec88:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0089)
-CallPal_OpcDec89:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x008A)
-CallPal_OpcDec8A:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x008B)
-CallPal_OpcDec8B:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x008C)
-CallPal_OpcDec8C:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x008D)
-CallPal_OpcDec8D:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x008E)
-CallPal_OpcDec8E:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x008F)
-CallPal_OpcDec8F:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0090)
-CallPal_OpcDec90:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0091)
-CallPal_OpcDec91:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0092)
-CallPal_OpcDec92:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0093)
-CallPal_OpcDec93:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0094)
-CallPal_OpcDec94:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0095)
-CallPal_OpcDec95:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0096)
-CallPal_OpcDec96:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0097)
-CallPal_OpcDec97:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0098)
-CallPal_OpcDec98:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x0099)
-CallPal_OpcDec99:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x009A)
-CallPal_OpcDec9A:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x009B)
-CallPal_OpcDec9B:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x009C)
-CallPal_OpcDec9C:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x009D)
-CallPal_OpcDec9D:
- br r31, osfpal_calpal_opcdec
-
-// .sbttl "rdunique - PALcode for rdunique instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// v0 (r0) <- unique
-//
-//-
-//
- CALL_PAL_UNPRIV(PAL_RDUNIQUE_ENTRY)
-CALL_PALrdunique_:
- mfpr r0, pt_pcbb // get pcb pointer
- ldqp r0, osfpcb_q_unique(r0) // get new value
-
- hw_rei
-
-// .sbttl "wrunique - PALcode for wrunique instruction"
-//+
-//
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// unique <- a0 (r16)
-//
-//-
-//
-CALL_PAL_UNPRIV(PAL_WRUNIQUE_ENTRY)
-CALL_PAL_Wrunique:
- nop
- mfpr r12, pt_pcbb // get pcb pointer
- stqp r16, osfpcb_q_unique(r12)// get new value
- nop // Pad palshadow write
- hw_rei // back
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_UNPRIV(0x00A0)
-CallPal_OpcDecA0:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A1)
-CallPal_OpcDecA1:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A2)
-CallPal_OpcDecA2:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A3)
-CallPal_OpcDecA3:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A4)
-CallPal_OpcDecA4:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A5)
-CallPal_OpcDecA5:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A6)
-CallPal_OpcDecA6:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A7)
-CallPal_OpcDecA7:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A8)
-CallPal_OpcDecA8:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00A9)
-CallPal_OpcDecA9:
- br r31, osfpal_calpal_opcdec
-
-
-// .sbttl "gentrap - PALcode for gentrap instruction"
-//+
-// CALL_PAL_gentrap:
-// Entry:
-// Vectored into via hardware PALcode instruction dispatch.
-//
-// Function:
-// Build stack frame
-// a0 <- code
-// a1 <- unpred
-// a2 <- unpred
-// vector via entIF
-//
-//-
-
- CALL_PAL_UNPRIV(0x00AA)
-// unsupported in Hudson code .. pboyle Nov/95
-CALL_PAL_gentrap:
- sll r11, 63-osfps_v_mode, r25 // Shift mode up to MS bit
- mtpr r31, ev5__ps // Set Ibox current mode to kernel
-
- bis r11, r31, r12 // Save PS for stack write
- bge r25, CALL_PAL_gentrap_10_ // no stack swap needed if cm=kern
-
- mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel -
- // no virt ref for next 2 cycles
- mtpr r30, pt_usp // save user stack
-
- bis r31, r31, r11 // Set new PS
- mfpr r30, pt_ksp
-
-CALL_PAL_gentrap_10_:
- lda sp, 0-osfsf_c_size(sp)// allocate stack space
- mfpr r14, exc_addr // get pc
-
- stq r16, osfsf_a0(sp) // save regs
- bis r31, osf_a0_gentrap, r16// set a0
-
- stq r17, osfsf_a1(sp) // a1
- br r31, bpt_bchk_common // out of call_pal space
-
-
-// .sbttl "CALL_PAL OPCDECs"
-
- CALL_PAL_UNPRIV(0x00AB)
-CallPal_OpcDecAB:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00AC)
-CallPal_OpcDecAC:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00AD)
-CallPal_OpcDecAD:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00AE)
-CallPal_OpcDecAE:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00AF)
-CallPal_OpcDecAF:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B0)
-CallPal_OpcDecB0:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B1)
-CallPal_OpcDecB1:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B2)
-CallPal_OpcDecB2:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B3)
-CallPal_OpcDecB3:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B4)
-CallPal_OpcDecB4:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B5)
-CallPal_OpcDecB5:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B6)
-CallPal_OpcDecB6:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B7)
-CallPal_OpcDecB7:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B8)
-CallPal_OpcDecB8:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00B9)
-CallPal_OpcDecB9:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00BA)
-CallPal_OpcDecBA:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00BB)
-CallPal_OpcDecBB:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00BC)
-CallPal_OpcDecBC:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00BD)
-CallPal_OpcDecBD:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00BE)
-CallPal_OpcDecBE:
- br r31, osfpal_calpal_opcdec
-
- CALL_PAL_UNPRIV(0x00BF)
-CallPal_OpcDecBF:
- // MODIFIED BY EGH 2/25/04
- br r31, copypal_impl
-
-
-/*======================================================================*/
-/* OSF/1 CALL_PAL CONTINUATION AREA */
-/*======================================================================*/
-
- .text 2
-
- . = 0x4000
-
-
-// .sbttl "Continuation of MTPR_PERFMON"
- ALIGN_BLOCK
-#if perfmon_debug == 0
- // "real" performance monitoring code
-// mux ctl
-perfmon_muxctl:
- lda r8, 1(r31) // get a 1
- sll r8, pmctr_v_sel0, r8 // move to sel0 position
- or r8, ((0xf<<pmctr_v_sel1) | (0xf<<pmctr_v_sel2)), r8 // build mux select mask
- and r17, r8, r25 // isolate pmctr mux select bits
- mfpr r0, ev5__pmctr
- bic r0, r8, r0 // clear old mux select bits
- or r0,r25, r25 // or in new mux select bits
- mtpr r25, ev5__pmctr
-
- // ok, now tackle cbox mux selects
- ldah r14, 0xfff0(r31)
- zap r14, 0xE0, r14 // Get Cbox IPR base
-//orig get_bc_ctl_shadow r16 // bc_ctl returned in lower longword
-// adapted from ev5_pal_macros.mar
- mfpr r16, pt_impure
- lda r16, CNS_Q_IPR(r16)
- RESTORE_SHADOW(r16,CNS_Q_BC_CTL,r16);
-
- lda r8, 0x3F(r31) // build mux select mask
- sll r8, bc_ctl_v_pm_mux_sel, r8
-
- and r17, r8, r25 // isolate bc_ctl mux select bits
- bic r16, r8, r16 // isolate old mux select bits
- or r16, r25, r25 // create new bc_ctl
- mb // clear out cbox for future ipr write
- stqp r25, ev5__bc_ctl(r14) // store to cbox ipr
- mb // clear out cbox for future ipr write
-
-//orig update_bc_ctl_shadow r25, r16 // r25=value, r16-overwritten with adjusted impure ptr
-// adapted from ev5_pal_macros.mar
- mfpr r16, pt_impure
- lda r16, CNS_Q_IPR(r16)
- SAVE_SHADOW(r25,CNS_Q_BC_CTL,r16);
-
- br r31, perfmon_success
-
-
-// requested to disable perf monitoring
-perfmon_dis:
- mfpr r14, ev5__pmctr // read ibox pmctr ipr
-perfmon_dis_ctr0: // and begin with ctr0
- blbc r17, perfmon_dis_ctr1 // do not disable ctr0
- lda r8, 3(r31)
- sll r8, pmctr_v_ctl0, r8
- bic r14, r8, r14 // disable ctr0
-perfmon_dis_ctr1:
- srl r17, 1, r17
- blbc r17, perfmon_dis_ctr2 // do not disable ctr1
- lda r8, 3(r31)
- sll r8, pmctr_v_ctl1, r8
- bic r14, r8, r14 // disable ctr1
-perfmon_dis_ctr2:
- srl r17, 1, r17
- blbc r17, perfmon_dis_update // do not disable ctr2
- lda r8, 3(r31)
- sll r8, pmctr_v_ctl2, r8
- bic r14, r8, r14 // disable ctr2
-perfmon_dis_update:
- mtpr r14, ev5__pmctr // update pmctr ipr
-//;the following code is not needed for ev5 pass2 and later, but doesn't hurt anything to leave in
-// adapted from ev5_pal_macros.mar
-//orig get_pmctr_ctl r8, r25 // pmctr_ctl bit in r8. adjusted impure pointer in r25
- mfpr r25, pt_impure
- lda r25, CNS_Q_IPR(r25)
- RESTORE_SHADOW(r8,CNS_Q_PM_CTL,r25);
-
- lda r17, 0x3F(r31) // build mask
- sll r17, pmctr_v_ctl2, r17 // shift mask to correct position
- and r14, r17, r14 // isolate ctl bits
- bic r8, r17, r8 // clear out old ctl bits
- or r14, r8, r14 // create shadow ctl bits
-//orig store_reg1 pmctr_ctl, r14, r25, ipr=1 // update pmctr_ctl register
-//adjusted impure pointer still in r25
- SAVE_SHADOW(r14,CNS_Q_PM_CTL,r25);
-
- br r31, perfmon_success
-
-
-// requested to enable perf monitoring
-//;the following code can be greatly simplified for pass2, but should work fine as is.
-
-
-perfmon_enclr:
- lda r9, 1(r31) // set enclr flag
- br perfmon_en_cont
-
-perfmon_en:
- bis r31, r31, r9 // clear enclr flag
-
-perfmon_en_cont:
- mfpr r8, pt_pcbb // get PCB base
-//orig get_pmctr_ctl r25, r25
- mfpr r25, pt_impure
- lda r25, CNS_Q_IPR(r25)
- RESTORE_SHADOW(r25,CNS_Q_PM_CTL,r25);
-
- ldqp r16, osfpcb_q_fen(r8) // read DAT/PME/FEN quadword
- mfpr r14, ev5__pmctr // read ibox pmctr ipr
- srl r16, osfpcb_v_pme, r16 // get pme bit
- mfpr r13, icsr
- and r16, 1, r16 // isolate pme bit
-
- // this code only needed in pass2 and later
-//orig sget_addr r12, 1<<icsr_v_pmp, r31
- lda r12, 1<<icsr_v_pmp(r31) // pb
- bic r13, r12, r13 // clear pmp bit
- sll r16, icsr_v_pmp, r12 // move pme bit to icsr<pmp> position
- or r12, r13, r13 // new icsr with icsr<pmp> bit set/clear
- ev5_pass2 mtpr r13, icsr // update icsr
-
-#if ev5_p1 != 0
- lda r12, 1(r31)
- cmovlbc r25, r12, r16 // r16<0> set if either pme=1 or sprocess=0 (sprocess in bit 0 of r25)
-#else
- bis r31, 1, r16 // set r16<0> on pass2 to update pmctr always (icsr provides real enable)
-#endif
-
- sll r25, 6, r25 // shift frequency bits into pmctr_v_ctl positions
- bis r14, r31, r13 // copy pmctr
-
-perfmon_en_ctr0: // and begin with ctr0
- blbc r17, perfmon_en_ctr1 // do not enable ctr0
-
- blbc r9, perfmon_en_noclr0 // enclr flag set, clear ctr0 field
- lda r8, 0xffff(r31)
- zapnot r8, 3, r8 // ctr0<15:0> mask
- sll r8, pmctr_v_ctr0, r8
- bic r14, r8, r14 // clear ctr bits
- bic r13, r8, r13 // clear ctr bits
-
-perfmon_en_noclr0:
-//orig get_addr r8, 3<<pmctr_v_ctl0, r31
- LDLI(r8, (3<<pmctr_v_ctl0))
- and r25, r8, r12 //isolate frequency select bits for ctr0
- bic r14, r8, r14 // clear ctl0 bits in preparation for enabling
- or r14,r12,r14 // or in new ctl0 bits
-
-perfmon_en_ctr1: // enable ctr1
- srl r17, 1, r17 // get ctr1 enable
- blbc r17, perfmon_en_ctr2 // do not enable ctr1
-
- blbc r9, perfmon_en_noclr1 // if enclr flag set, clear ctr1 field
- lda r8, 0xffff(r31)
- zapnot r8, 3, r8 // ctr1<15:0> mask
- sll r8, pmctr_v_ctr1, r8
- bic r14, r8, r14 // clear ctr bits
- bic r13, r8, r13 // clear ctr bits
-
-perfmon_en_noclr1:
-//orig get_addr r8, 3<<pmctr_v_ctl1, r31
- LDLI(r8, (3<<pmctr_v_ctl1))
- and r25, r8, r12 //isolate frequency select bits for ctr1
- bic r14, r8, r14 // clear ctl1 bits in preparation for enabling
- or r14,r12,r14 // or in new ctl1 bits
-
-perfmon_en_ctr2: // enable ctr2
- srl r17, 1, r17 // get ctr2 enable
- blbc r17, perfmon_en_return // do not enable ctr2 - return
-
- blbc r9, perfmon_en_noclr2 // if enclr flag set, clear ctr2 field
- lda r8, 0x3FFF(r31) // ctr2<13:0> mask
- sll r8, pmctr_v_ctr2, r8
- bic r14, r8, r14 // clear ctr bits
- bic r13, r8, r13 // clear ctr bits
-
-perfmon_en_noclr2:
-//orig get_addr r8, 3<<pmctr_v_ctl2, r31
- LDLI(r8, (3<<pmctr_v_ctl2))
- and r25, r8, r12 //isolate frequency select bits for ctr2
- bic r14, r8, r14 // clear ctl2 bits in preparation for enabling
- or r14,r12,r14 // or in new ctl2 bits
-
-perfmon_en_return:
- cmovlbs r16, r14, r13 // if pme enabled, move enables into pmctr
- // else only do the counter clears
- mtpr r13, ev5__pmctr // update pmctr ipr
-
-//;this code not needed for pass2 and later, but does not hurt to leave it in
- lda r8, 0x3F(r31)
-//orig get_pmctr_ctl r25, r12 // read pmctr ctl; r12=adjusted impure pointer
- mfpr r12, pt_impure
- lda r12, CNS_Q_IPR(r12)
- RESTORE_SHADOW(r25,CNS_Q_PM_CTL,r12);
-
- sll r8, pmctr_v_ctl2, r8 // build ctl mask
- and r8, r14, r14 // isolate new ctl bits
- bic r25, r8, r25 // clear out old ctl value
- or r25, r14, r14 // create new pmctr_ctl
-//orig store_reg1 pmctr_ctl, r14, r12, ipr=1
- SAVE_SHADOW(r14,CNS_Q_PM_CTL,r12); // r12 still has the adjusted impure ptr
-
- br r31, perfmon_success
-
-
-// options...
-perfmon_ctl:
-
-// set mode
-//orig get_pmctr_ctl r14, r12 // read shadow pmctr ctl; r12=adjusted impure pointer
- mfpr r12, pt_impure
- lda r12, CNS_Q_IPR(r12)
- RESTORE_SHADOW(r14,CNS_Q_PM_CTL,r12);
-
-//orig get_addr r8, (1<<pmctr_v_killu) | (1<<pmctr_v_killp) | (1<<pmctr_v_killk), r31 // build mode mask for pmctr register
- LDLI(r8, ((1<<pmctr_v_killu) | (1<<pmctr_v_killp) | (1<<pmctr_v_killk)))
- mfpr r0, ev5__pmctr
- and r17, r8, r25 // isolate pmctr mode bits
- bic r0, r8, r0 // clear old mode bits
- or r0, r25, r25 // or in new mode bits
- mtpr r25, ev5__pmctr
-
-//;the following code will only be used in pass2, but should not hurt anything if run in pass1.
- mfpr r8, icsr
- lda r25, 1<<icsr_v_pma(r31) // set icsr<pma> if r17<0>=0
- bic r8, r25, r8 // clear old pma bit
- cmovlbs r17, r31, r25 // and clear icsr<pma> if r17<0>=1
- or r8, r25, r8
- ev5_pass2 mtpr r8, icsr // 4 bubbles to hw_rei
- mfpr r31, pt0 // pad icsr write
- mfpr r31, pt0 // pad icsr write
-
-//;the following code not needed for pass2 and later, but should work anyway.
- bis r14, 1, r14 // set for select processes
- blbs r17, perfmon_sp // branch if select processes
- bic r14, 1, r14 // all processes
-perfmon_sp:
-//orig store_reg1 pmctr_ctl, r14, r12, ipr=1 // update pmctr_ctl register
- SAVE_SHADOW(r14,CNS_Q_PM_CTL,r12); // r12 still has the adjusted impure ptr
- br r31, perfmon_success
-
-// counter frequency select
-perfmon_freq:
-//orig get_pmctr_ctl r14, r12 // read shadow pmctr ctl; r12=adjusted impure pointer
- mfpr r12, pt_impure
- lda r12, CNS_Q_IPR(r12)
- RESTORE_SHADOW(r14,CNS_Q_PM_CTL,r12);
-
- lda r8, 0x3F(r31)
-//orig sll r8, pmctr_ctl_v_frq2, r8 // build mask for frequency select field
-// I guess this should be a shift of 4 bits from the above control register structure .. pb
-#define pmctr_ctl_v_frq2_SHIFT 4
- sll r8, pmctr_ctl_v_frq2_SHIFT, r8 // build mask for frequency select field
-
- and r8, r17, r17
- bic r14, r8, r14 // clear out old frequency select bits
-
- or r17, r14, r14 // or in new frequency select info
-//orig store_reg1 pmctr_ctl, r14, r12, ipr=1 // update pmctr_ctl register
- SAVE_SHADOW(r14,CNS_Q_PM_CTL,r12); // r12 still has the adjusted impure ptr
-
- br r31, perfmon_success
-
-// read counters
-perfmon_rd:
- mfpr r0, ev5__pmctr
- or r0, 1, r0 // or in return status
- hw_rei // back to user
-
-// write counters
-perfmon_wr:
- mfpr r14, ev5__pmctr
- lda r8, 0x3FFF(r31) // ctr2<13:0> mask
- sll r8, pmctr_v_ctr2, r8
-
-//orig get_addr r9, 0xFFFFFFFF, r31, verify=0 // ctr2<15:0>,ctr1<15:0> mask
- LDLI(r9, (0xFFFFFFFF))
- sll r9, pmctr_v_ctr1, r9
- or r8, r9, r8 // or ctr2, ctr1, ctr0 mask
- bic r14, r8, r14 // clear ctr fields
- and r17, r8, r25 // clear all but ctr fields
- or r25, r14, r14 // write ctr fields
- mtpr r14, ev5__pmctr // update pmctr ipr
-
- mfpr r31, pt0 // pad pmctr write (needed only to keep PVC happy)
-
-perfmon_success:
- or r31, 1, r0 // set success
- hw_rei // back to user
-
-perfmon_unknown:
- or r31, r31, r0 // set fail
- hw_rei // back to user
-
-#else
-
-// end of "real code", start of debug code
-
-//+
-// Debug environment:
-// (in pass2, always set icsr<pma> to ensure master counter enable is on)
-// R16 = 0 Write to on-chip performance monitor ipr
-// r17 = on-chip ipr
-// r0 = return value of read of on-chip performance monitor ipr
-// R16 = 1 Setup Cbox mux selects
-// r17 = Cbox mux selects in same position as in bc_ctl ipr.
-// r0 = return value of read of on-chip performance monitor ipr
-//
-//-
-pal_perfmon_debug:
- mfpr r8, icsr
- lda r9, 1<<icsr_v_pma(r31)
- bis r8, r9, r8
- mtpr r8, icsr
-
- mfpr r0, ev5__pmctr // read old value
- bne r16, cbox_mux_sel
-
- mtpr r17, ev5__pmctr // update pmctr ipr
- br r31, end_pm
-
-cbox_mux_sel:
- // ok, now tackle cbox mux selects
- ldah r14, 0xfff0(r31)
- zap r14, 0xE0, r14 // Get Cbox IPR base
-//orig get_bc_ctl_shadow r16 // bc_ctl returned
- mfpr r16, pt_impure
- lda r16, CNS_Q_IPR(r16)
- RESTORE_SHADOW(r16,CNS_Q_BC_CTL,r16);
-
- lda r8, 0x3F(r31) // build mux select mask
- sll r8, BC_CTL_V_PM_MUX_SEL, r8
-
- and r17, r8, r25 // isolate bc_ctl mux select bits
- bic r16, r8, r16 // isolate old mux select bits
- or r16, r25, r25 // create new bc_ctl
- mb // clear out cbox for future ipr write
- stqp r25, ev5__bc_ctl(r14) // store to cbox ipr
- mb // clear out cbox for future ipr write
-//orig update_bc_ctl_shadow r25, r16 // r25=value, r16-overwritten with adjusted impure ptr
- mfpr r16, pt_impure
- lda r16, CNS_Q_IPR(r16)
- SAVE_SHADOW(r25,CNS_Q_BC_CTL,r16);
-
-end_pm: hw_rei
-
-#endif
-
-
-//;The following code is a workaround for a cpu bug where Istream prefetches to
-//;super-page address space in user mode may escape off-chip.
-#if spe_fix != 0
-
- ALIGN_BLOCK
-hw_rei_update_spe:
- mfpr r12, pt_misc // get previous mode
- srl r11, osfps_v_mode, r10 // isolate current mode bit
- and r10, 1, r10
- extbl r12, 7, r8 // get previous mode field
- and r8, 1, r8 // isolate previous mode bit
- cmpeq r10, r8, r8 // compare previous and current modes
- beq r8, hw_rei_update_spe_5_
- hw_rei // if same, just return
-
-hw_rei_update_spe_5_:
-
-#if fill_err_hack != 0
-
- fill_error_hack
-#endif
-
- mfpr r8, icsr // get current icsr value
- ldah r9, (2<<(icsr_v_spe-16))(r31) // get spe bit mask
- bic r8, r9, r8 // disable spe
- xor r10, 1, r9 // flip mode for new spe bit
- sll r9, icsr_v_spe+1, r9 // shift into position
- bis r8, r9, r8 // enable/disable spe
- lda r9, 1(r31) // now update our flag
- sll r9, pt_misc_v_cm, r9 // previous mode saved bit mask
- bic r12, r9, r12 // clear saved previous mode
- sll r10, pt_misc_v_cm, r9 // current mode saved bit mask
- bis r12, r9, r12 // set saved current mode
- mtpr r12, pt_misc // update pt_misc
- mtpr r8, icsr // update icsr
-
-#if osf_chm_fix != 0
-
-
- blbc r10, hw_rei_update_spe_10_ // branch if not user mode
-
- mb // ensure no outstanding fills
- lda r12, 1<<dc_mode_v_dc_ena(r31) // User mode
- mtpr r12, dc_mode // Turn on dcache
- mtpr r31, dc_flush // and flush it
- br r31, pal_ic_flush
-
-hw_rei_update_spe_10_: mfpr r9, pt_pcbb // Kernel mode
- ldqp r9, osfpcb_q_Fen(r9) // get FEN
- blbc r9, pal_ic_flush // return if FP disabled
- mb // ensure no outstanding fills
- mtpr r31, dc_mode // turn off dcache
-#endif
-
-
- br r31, pal_ic_flush // Pal restriction - must flush Icache if changing ICSR<SPE>
-#endif
-
-
-copypal_impl:
- mov r16, r0
- ble r18, finished #if len <=0 we are finished
- ldq_u r8, 0(r17)
- xor r17, r16, r9
- and r9, 7, r9
- and r16, 7, r10
- bne r9, unaligned
- beq r10, aligned
- ldq_u r9, 0(r16)
- addq r18, r10, r18
- mskqh r8, r17, r8
- mskql r9, r17, r9
- bis r8, r9, r8
-aligned:
- subq r18, 1, r10
- bic r10, 7, r10
- and r18, 7, r18
- beq r10, aligned_done
-loop:
- stq_u r8, 0(r16)
- ldq_u r8, 8(r17)
- subq r10, 8, r10
- lda r16,8(r16)
- lda r17,8(r17)
- bne r10, loop
-aligned_done:
- bne r18, few_left
- stq_u r8, 0(r16)
- br r31, finished
- few_left:
- mskql r8, r18, r10
- ldq_u r9, 0(r16)
- mskqh r9, r18, r9
- bis r10, r9, r10
- stq_u r10, 0(r16)
- br r31, finished
-unaligned:
- addq r17, r18, r25
- cmpule r18, 8, r9
- bne r9, unaligned_few_left
- beq r10, unaligned_dest_aligned
- and r16, 7, r10
- subq r31, r10, r10
- addq r10, 8, r10
- ldq_u r9, 7(r17)
- extql r8, r17, r8
- extqh r9, r17, r9
- bis r8, r9, r12
- insql r12, r16, r12
- ldq_u r13, 0(r16)
- mskql r13, r16, r13
- bis r12, r13, r12
- stq_u r12, 0(r16)
- addq r16, r10, r16
- addq r17, r10, r17
- subq r18, r10, r18
- ldq_u r8, 0(r17)
-unaligned_dest_aligned:
- subq r18, 1, r10
- bic r10, 7, r10
- and r18, 7, r18
- beq r10, unaligned_partial_left
-unaligned_loop:
- ldq_u r9, 7(r17)
- lda r17, 8(r17)
- extql r8, r17, r12
- extqh r9, r17, r13
- subq r10, 8, r10
- bis r12, r13, r13
- stq r13, 0(r16)
- lda r16, 8(r16)
- beq r10, unaligned_second_partial_left
- ldq_u r8, 7(r17)
- lda r17, 8(r17)
- extql r9, r17, r12
- extqh r8, r17, r13
- bis r12, r13, r13
- subq r10, 8, r10
- stq r13, 0(r16)
- lda r16, 8(r16)
- bne r10, unaligned_loop
-unaligned_partial_left:
- mov r8, r9
-unaligned_second_partial_left:
- ldq_u r8, -1(r25)
- extql r9, r17, r9
- extqh r8, r17, r8
- bis r8, r9, r8
- bne r18, few_left
- stq_u r8, 0(r16)
- br r31, finished
-unaligned_few_left:
- ldq_u r9, -1(r25)
- extql r8, r17, r8
- extqh r9, r17, r9
- bis r8, r9, r8
- insqh r8, r16, r9
- insql r8, r16, r8
- lda r12, -1(r31)
- mskql r12, r18, r13
- cmovne r13, r13, r12
- insqh r12, r16, r13
- insql r12, r16, r12
- addq r16, r18, r10
- ldq_u r14, 0(r16)
- ldq_u r25, -1(r10)
- bic r14, r12, r14
- bic r25, r13, r25
- and r8, r12, r8
- and r9, r13, r9
- bis r8, r14, r8
- bis r9, r25, r9
- stq_u r9, -1(r10)
- stq_u r8, 0(r16)
-finished:
- hw_rei
generated by cgit v1.2.3 (git 2.25.1) at 2024-11-16 12:03:18 +0000