357 lines
12 KiB
C
357 lines
12 KiB
C
/* armcopro.c -- co-processor interface: ARM6 Instruction Emulator.
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Copyright (C) 1994 Advanced RISC Machines Ltd.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
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#include "armdefs.h"
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extern unsigned ARMul_CoProInit(ARMul_State *state) ;
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extern void ARMul_CoProExit(ARMul_State *state) ;
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extern void ARMul_CoProAttach(ARMul_State *state, unsigned number,
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ARMul_CPInits *init, ARMul_CPExits *exit,
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ARMul_LDCs *ldc, ARMul_STCs *stc,
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ARMul_MRCs *mrc, ARMul_MCRs *mcr,
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ARMul_CDPs *cdp,
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ARMul_CPReads *read, ARMul_CPWrites *write) ;
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extern void ARMul_CoProDetach(ARMul_State *state, unsigned number) ;
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/***************************************************************************\
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* Dummy Co-processors *
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\***************************************************************************/
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static unsigned NoCoPro3R(ARMul_State *state,unsigned,ARMword) ;
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static unsigned NoCoPro4R(ARMul_State *state,unsigned,ARMword,ARMword) ;
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static unsigned NoCoPro4W(ARMul_State *state,unsigned,ARMword,ARMword *) ;
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/***************************************************************************\
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* Define Co-Processor instruction handlers here *
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\***************************************************************************/
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/* Here's ARMulator's MMU definition. A few things to note:
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1) it has eight registers, but only two are defined.
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2) you can only access its registers with MCR and MRC.
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3) MMU Register 0 (ID) returns 0x41440110
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4) Register 1 only has 4 bits defined. Bits 0 to 3 are unused, bit 4
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controls 32/26 bit program space, bit 5 controls 32/26 bit data space,
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bit 6 controls late abort timimg and bit 7 controls big/little endian.
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*/
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static ARMword MMUReg[8] ;
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static unsigned MMUInit(ARMul_State *state)
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{MMUReg[1] = state->prog32Sig << 4 |
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state->data32Sig << 5 |
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state->lateabtSig << 6 |
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state->bigendSig << 7 ;
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ARMul_ConsolePrint (state, ", MMU present") ;
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return(TRUE) ;
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}
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static unsigned MMUMRC(ARMul_State *state, unsigned type, ARMword instr,ARMword *value)
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{int reg = BITS(16,19) & 7 ;
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if (reg == 0)
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*value = 0x41440110 ;
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else
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*value = MMUReg[reg] ;
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return(ARMul_DONE) ;
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}
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static unsigned MMUMCR(ARMul_State *state, unsigned type, ARMword instr, ARMword value)
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{int reg = BITS(16,19) & 7 ;
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MMUReg[reg] = value ;
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if (reg == 1) {
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state->prog32Sig = value >> 4 & 1 ;
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state->data32Sig = value >> 5 & 1 ;
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state->lateabtSig = value >> 6 & 1 ;
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state->bigendSig = value >> 7 & 1 ;
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state->Emulate = TRUE ; /* force ARMulator to notice these now !*/
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}
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return(ARMul_DONE) ;
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}
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static unsigned MMURead(ARMul_State *state, unsigned reg, ARMword *value)
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{if (reg == 0)
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*value = 0x41440110 ;
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else if (reg < 8)
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*value = MMUReg[reg] ;
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return(TRUE) ;
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}
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static unsigned MMUWrite(ARMul_State *state, unsigned reg, ARMword value)
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{if (reg < 8)
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MMUReg[reg] = value ;
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if (reg == 1) {
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state->prog32Sig = value >> 4 & 1 ;
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state->data32Sig = value >> 5 & 1 ;
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state->lateabtSig = value >> 6 & 1 ;
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state->bigendSig = value >> 7 & 1 ;
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state->Emulate = TRUE ; /* force ARMulator to notice these now !*/
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}
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return(TRUE) ;
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}
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/* What follows is the Validation Suite Coprocessor. It uses two
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co-processor numbers (4 and 5) and has the follwing functionality.
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Sixteen registers. Both co-processor nuimbers can be used in an MCR and
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MRC to access these registers. CP 4 can LDC and STC to and from the
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registers. CP 4 and CP 5 CDP 0 will busy wait for the number of cycles
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specified by a CP register. CP 5 CDP 1 issues a FIQ after a number of
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cycles (specified in a CP register), CDP 2 issues an IRQW in the same
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way, CDP 3 and 4 turn of the FIQ and IRQ source, and CDP 5 stores a 32
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bit time value in a CP register (actually it's the total number of N, S,
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I, C and F cyles) */
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static ARMword ValReg[16] ;
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static unsigned ValLDC(ARMul_State *state, unsigned type,
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ARMword instr, ARMword data)
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{static unsigned words ;
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if (type != ARMul_DATA) {
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words = 0 ;
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return(ARMul_DONE) ;
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}
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if (BIT(22)) { /* it's a long access, get two words */
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ValReg[BITS(12,15)] = data ;
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if (words++ == 4)
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return(ARMul_DONE) ;
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else
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return(ARMul_INC) ;
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}
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else { /* get just one word */
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ValReg[BITS(12,15)] = data ;
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return(ARMul_DONE) ;
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}
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}
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static unsigned ValSTC(ARMul_State *state, unsigned type,
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ARMword instr, ARMword *data)
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{static unsigned words ;
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if (type != ARMul_DATA) {
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words = 0 ;
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return(ARMul_DONE) ;
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}
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if (BIT(22)) { /* it's a long access, get two words */
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*data = ValReg[BITS(12,15)] ;
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if (words++ == 4)
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return(ARMul_DONE) ;
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else
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return(ARMul_INC) ;
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}
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else { /* get just one word */
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*data = ValReg[BITS(12,15)] ;
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return(ARMul_DONE) ;
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}
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}
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static unsigned ValMRC(ARMul_State *state, unsigned type, ARMword instr,ARMword *value)
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{
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*value = ValReg[BITS(16,19)] ;
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return(ARMul_DONE) ;
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}
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static unsigned ValMCR(ARMul_State *state, unsigned type, ARMword instr, ARMword value)
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{
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ValReg[BITS(16,19)] = value ;
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return(ARMul_DONE) ;
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}
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static unsigned ValCDP(ARMul_State *state, unsigned type, ARMword instr)
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{
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static unsigned long finish = 0 ;
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ARMword howlong ;
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howlong = ValReg[BITS(0,3)] ;
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if (BITS(20,23)==0) {
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if (type == ARMul_FIRST) { /* First cycle of a busy wait */
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finish = ARMul_Time(state) + howlong ;
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if (howlong == 0)
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return(ARMul_DONE) ;
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else
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return(ARMul_BUSY) ;
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}
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else if (type == ARMul_BUSY) {
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if (ARMul_Time(state) >= finish)
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return(ARMul_DONE) ;
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else
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return(ARMul_BUSY) ;
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}
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}
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return(ARMul_CANT) ;
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}
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static unsigned DoAFIQ(ARMul_State *state)
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{state->NfiqSig = LOW ;
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state->Exception++ ;
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return(0) ;
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}
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static unsigned DoAIRQ(ARMul_State *state)
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{state->NirqSig = LOW ;
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state->Exception++ ;
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return(0) ;
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}
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static unsigned IntCDP(ARMul_State *state, unsigned type, ARMword instr)
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{static unsigned long finish ;
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ARMword howlong ;
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howlong = ValReg[BITS(0,3)] ;
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switch((int)BITS(20,23)) {
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case 0 : if (type == ARMul_FIRST) { /* First cycle of a busy wait */
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finish = ARMul_Time(state) + howlong ;
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if (howlong == 0)
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return(ARMul_DONE) ;
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else
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return(ARMul_BUSY) ;
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}
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else if (type == ARMul_BUSY) {
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if (ARMul_Time(state) >= finish)
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return(ARMul_DONE) ;
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else
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return(ARMul_BUSY) ;
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}
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return(ARMul_DONE) ;
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case 1 : if (howlong == 0)
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ARMul_Abort(state,ARMul_FIQV) ;
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else
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ARMul_ScheduleEvent(state,howlong,DoAFIQ) ;
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return(ARMul_DONE) ;
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case 2 : if (howlong == 0)
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ARMul_Abort(state,ARMul_IRQV) ;
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else
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ARMul_ScheduleEvent(state,howlong,DoAIRQ) ;
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return(ARMul_DONE) ;
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case 3 : state->NfiqSig = HIGH ;
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state->Exception-- ;
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return(ARMul_DONE) ;
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case 4 : state->NirqSig = HIGH ;
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state->Exception-- ;
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return(ARMul_DONE) ;
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case 5 : ValReg[BITS(0,3)] = ARMul_Time(state) ;
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return(ARMul_DONE) ;
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}
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return(ARMul_CANT) ;
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}
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/***************************************************************************\
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* Install co-processor instruction handlers in this routine *
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\***************************************************************************/
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unsigned ARMul_CoProInit(ARMul_State *state)
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{register unsigned i ;
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for (i = 0 ; i < 16 ; i++) /* initialise tham all first */
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ARMul_CoProDetach(state, i) ;
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/* Install CoPro Instruction handlers here
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The format is
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ARMul_CoProAttach(state, CP Number, Init routine, Exit routine
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LDC routine, STC routine, MRC routine, MCR routine,
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CDP routine, Read Reg routine, Write Reg routine) ;
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*/
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ARMul_CoProAttach(state, 4, NULL, NULL,
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ValLDC, ValSTC, ValMRC, ValMCR,
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ValCDP, NULL, NULL) ;
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ARMul_CoProAttach(state, 5, NULL, NULL,
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NULL, NULL, ValMRC, ValMCR,
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IntCDP, NULL, NULL) ;
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ARMul_CoProAttach(state, 15, MMUInit, NULL,
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NULL, NULL, MMUMRC, MMUMCR,
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NULL, MMURead, MMUWrite) ;
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/* No handlers below here */
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for (i = 0 ; i < 16 ; i++) /* Call all the initialisation routines */
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if (state->CPInit[i])
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(state->CPInit[i])(state) ;
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return(TRUE) ;
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}
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/***************************************************************************\
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* Install co-processor finalisation routines in this routine *
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\***************************************************************************/
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void ARMul_CoProExit(ARMul_State *state)
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{register unsigned i ;
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for (i = 0 ; i < 16 ; i++)
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if (state->CPExit[i])
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(state->CPExit[i])(state) ;
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for (i = 0 ; i < 16 ; i++) /* Detach all handlers */
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ARMul_CoProDetach(state, i) ;
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}
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/***************************************************************************\
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* Routines to hook Co-processors into ARMulator *
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\***************************************************************************/
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void ARMul_CoProAttach(ARMul_State *state, unsigned number,
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ARMul_CPInits *init, ARMul_CPExits *exit,
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ARMul_LDCs *ldc, ARMul_STCs *stc,
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ARMul_MRCs *mrc, ARMul_MCRs *mcr, ARMul_CDPs *cdp,
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ARMul_CPReads *read, ARMul_CPWrites *write)
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{if (init != NULL)
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state->CPInit[number] = init ;
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if (exit != NULL)
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state->CPExit[number] = exit ;
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if (ldc != NULL)
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state->LDC[number] = ldc ;
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if (stc != NULL)
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state->STC[number] = stc ;
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if (mrc != NULL)
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state->MRC[number] = mrc ;
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if (mcr != NULL)
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state->MCR[number] = mcr ;
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if (cdp != NULL)
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state->CDP[number] = cdp ;
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if (read != NULL)
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state->CPRead[number] = read ;
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if (write != NULL)
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state->CPWrite[number] = write ;
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}
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void ARMul_CoProDetach(ARMul_State *state, unsigned number)
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{ARMul_CoProAttach(state, number, NULL, NULL,
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NoCoPro4R, NoCoPro4W, NoCoPro4W, NoCoPro4R,
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NoCoPro3R, NULL, NULL) ;
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state->CPInit[number] = NULL ;
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state->CPExit[number] = NULL ;
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state->CPRead[number] = NULL ;
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state->CPWrite[number] = NULL ;
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}
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/***************************************************************************\
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* There is no CoPro around, so Undefined Instruction trap *
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\***************************************************************************/
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static unsigned NoCoPro3R(ARMul_State *state,unsigned a,ARMword b)
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{return(ARMul_CANT) ;}
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static unsigned NoCoPro4R(ARMul_State *state, unsigned a,ARMword b,ARMword c)
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{return(ARMul_CANT) ;}
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static unsigned NoCoPro4W(ARMul_State *state, unsigned a,ARMword b,ARMword *c)
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{return(ARMul_CANT) ;}
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