dingusppc/cpu/ppc/ppcopcodes.cpp

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/*
DingusPPC - The Experimental PowerPC Macintosh emulator
Copyright (C) 2018-21 divingkatae and maximum
(theweirdo) spatium
(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
// General opcodes for the processor - ppcopcodes.cpp
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#include <core/timermanager.h>
#include <core/mathutils.h>
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#include "ppcemu.h"
#include "ppcmmu.h"
#include <cinttypes>
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#include <vector>
uint32_t crf_d;
uint32_t crf_s;
uint32_t reg_s;
uint32_t reg_d;
uint32_t reg_a;
uint32_t reg_b;
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uint32_t reg_c; // used only for floating point multiplication operations
uint32_t xercon;
uint32_t cmp_c;
uint32_t crm;
uint32_t uimm;
uint32_t grab_sr;
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uint32_t grab_inb; // This is for grabbing the number of immediate bytes for loading and storing
uint32_t ppc_to;
int32_t simm;
int32_t adr_li;
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// Used for GP calcs
uint32_t ppc_result_a = 0;
uint32_t ppc_result_b = 0;
uint32_t ppc_result_c = 0;
uint32_t ppc_result_d = 0;
/**
Extract the registers desired and the values of the registers
This also takes the MSR into account, mainly to determine
what endian the numbers are to be stored in.
**/
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// Storage and register retrieval functions for the integer functions.
void ppc_store_result_regd() {
ppc_state.gpr[reg_d] = ppc_result_d;
}
void ppc_store_result_rega() {
ppc_state.gpr[reg_a] = ppc_result_a;
}
void ppc_grab_regsdasimm() {
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reg_d = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
simm = (int32_t)((int16_t)((ppc_cur_instruction)&65535));
ppc_result_a = ppc_state.gpr[reg_a];
}
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inline void ppc_grab_regsdauimm() {
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reg_d = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
uimm = (uint32_t)((uint16_t)((ppc_cur_instruction)&65535));
ppc_result_a = ppc_state.gpr[reg_a];
}
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inline void ppc_grab_regsasimm() {
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reg_a = (ppc_cur_instruction >> 16) & 31;
simm = (int32_t)((int16_t)(ppc_cur_instruction & 65535));
ppc_result_a = ppc_state.gpr[reg_a];
}
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inline void ppc_grab_regssauimm() {
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reg_s = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
uimm = (uint32_t)((uint16_t)((ppc_cur_instruction)&65535));
ppc_result_d = ppc_state.gpr[reg_s];
ppc_result_a = ppc_state.gpr[reg_a];
}
void ppc_grab_regsdab() {
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reg_d = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
reg_b = (ppc_cur_instruction >> 11) & 31;
ppc_result_a = ppc_state.gpr[reg_a];
ppc_result_b = ppc_state.gpr[reg_b];
}
void ppc_grab_regssab() {
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reg_s = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
reg_b = (ppc_cur_instruction >> 11) & 31;
ppc_result_d = ppc_state.gpr[reg_s];
ppc_result_a = ppc_state.gpr[reg_a];
ppc_result_b = ppc_state.gpr[reg_b];
}
void ppc_grab_regssa() {
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reg_s = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
ppc_result_d = ppc_state.gpr[reg_s];
ppc_result_a = ppc_state.gpr[reg_a];
}
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inline void ppc_grab_regssb() {
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reg_s = (ppc_cur_instruction >> 21) & 31;
reg_b = (ppc_cur_instruction >> 11) & 31;
ppc_result_d = ppc_state.gpr[reg_s];
ppc_result_b = ppc_state.gpr[reg_b];
}
void ppc_grab_regsda() {
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reg_d = (ppc_cur_instruction >> 21) & 31;
reg_a = (ppc_cur_instruction >> 16) & 31;
ppc_result_a = ppc_state.gpr[reg_a];
}
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inline void ppc_grab_regsdb() {
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reg_d = (ppc_cur_instruction >> 21) & 31;
reg_b = (ppc_cur_instruction >> 11) & 31;
ppc_result_b = ppc_state.gpr[reg_b];
}
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// Affects CR Field 0 - For integer operations
void ppc_changecrf0(uint32_t set_result) {
ppc_state.cr &= 0x0FFFFFFFUL;
if (set_result == 0) {
ppc_state.cr |= 0x20000000UL;
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} else {
if (set_result & 0x80000000) {
ppc_state.cr |= 0x80000000UL;
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} else {
ppc_state.cr |= 0x40000000UL;
}
}
/* copy XER[SO] into CR0[SO]. */
ppc_state.cr |= (ppc_state.spr[SPR::XER] >> 3) & 0x10000000UL;
}
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// Affects the XER register's Carry Bit
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inline void ppc_carry(uint32_t a, uint32_t b) {
if (b < a) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
}
inline void ppc_carry_sub(uint32_t a, uint32_t b) {
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if (b >= a) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
}
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// Affects the XER register's SO and OV Bits
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inline void ppc_setsoov(uint32_t a, uint32_t b, uint32_t d) {
if ((a ^ b) & (a ^ d) & 0x80000000UL) {
ppc_state.spr[SPR::XER] |= 0xC0000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xBFFFFFFFUL;
}
}
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typedef std::function<void()> CtxSyncCallback;
std::vector<CtxSyncCallback> gCtxSyncCallbacks;
// perform context synchronization by executing registered actions if any
void do_ctx_sync() {
while (!gCtxSyncCallbacks.empty()) {
gCtxSyncCallbacks.back()();
gCtxSyncCallbacks.pop_back();
}
}
void add_ctx_sync_action(const CtxSyncCallback &cb) {
gCtxSyncCallbacks.push_back(cb);
}
/**
The core functionality of this PPC emulation is within all of these void functions.
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This is where the opcode tables in the ppcemumain.h come into play - reducing the number of
comparisons needed. This means loads of functions, but less CPU cycles needed to determine the
function (theoretically).
**/
void dppc_interpreter::ppc_addi() {
ppc_grab_regsdasimm();
ppc_result_d = (reg_a == 0) ? simm : (ppc_result_a + simm);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_addic() {
ppc_grab_regsdasimm();
ppc_result_d = (ppc_result_a + simm);
ppc_carry(ppc_result_a, ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_addicdot() {
ppc_grab_regsdasimm();
ppc_result_d = (ppc_result_a + simm);
ppc_changecrf0(ppc_result_d);
ppc_carry(ppc_result_a, ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_addis() {
ppc_grab_regsdasimm();
ppc_result_d = (reg_a == 0) ? (simm << 16) : (ppc_result_a + (simm << 16));
ppc_store_result_regd();
}
void dppc_interpreter::ppc_add() {
ppc_grab_regsdab();
ppc_result_d = ppc_result_a + ppc_result_b;
if (oe_flag)
ppc_setsoov(ppc_result_a, ~ppc_result_b, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_addc() {
ppc_grab_regsdab();
ppc_result_d = ppc_result_a + ppc_result_b;
ppc_carry(ppc_result_a, ppc_result_d);
if (oe_flag)
ppc_setsoov(ppc_result_a, ~ppc_result_b, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_adde() {
ppc_grab_regsdab();
uint32_t xer_ca = !!(ppc_state.spr[SPR::XER] & 0x20000000);
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ppc_result_d = ppc_result_a + ppc_result_b + xer_ca;
if ((ppc_result_d < ppc_result_a) || (xer_ca && (ppc_result_d == ppc_result_a))) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
if (oe_flag)
ppc_setsoov(ppc_result_a, ~ppc_result_b, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_addme() {
ppc_grab_regsda();
uint32_t xer_ca = !!(ppc_state.spr[SPR::XER] & 0x20000000);
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ppc_result_d = ppc_result_a + xer_ca - 1;
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if (((xer_ca - 1) < 0xFFFFFFFFUL) || (ppc_result_d < ppc_result_a)) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
if (oe_flag)
ppc_setsoov(ppc_result_a, 0, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_addze() {
ppc_grab_regsda();
uint32_t grab_xer = !!(ppc_state.spr[SPR::XER] & 0x20000000);
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ppc_result_d = ppc_result_a + grab_xer;
if (ppc_result_d < ppc_result_a) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
if (oe_flag)
ppc_setsoov(ppc_result_a, 0xFFFFFFFFUL, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_subf() {
ppc_grab_regsdab();
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ppc_result_d = ppc_result_b - ppc_result_a;
if (oe_flag)
ppc_setsoov(ppc_result_b, ppc_result_a, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_subfc() {
ppc_grab_regsdab();
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ppc_result_d = ppc_result_b - ppc_result_a;
ppc_carry_sub(ppc_result_a, ppc_result_b);
if (oe_flag)
ppc_setsoov(ppc_result_b, ppc_result_a, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_subfic() {
ppc_grab_regsdasimm();
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ppc_result_d = simm - ppc_result_a;
ppc_carry(~ppc_result_a, ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_subfe() {
ppc_grab_regsdab();
uint32_t grab_xer = !!(ppc_state.spr[SPR::XER] & 0x20000000);
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ppc_result_d = ~ppc_result_a + ppc_result_b + grab_xer;
ppc_carry(~ppc_result_a, ppc_result_d);
if (oe_flag)
ppc_setsoov(ppc_result_b, ppc_result_a, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
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ppc_store_result_regd();
}
void dppc_interpreter::ppc_subfme() {
ppc_grab_regsda();
uint32_t grab_xer = !!(ppc_state.spr[SPR::XER] & 0x20000000);
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ppc_result_d = ~ppc_result_a + grab_xer - 1;
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ppc_carry(~ppc_result_a, ppc_result_d);
if (oe_flag)
ppc_setsoov(0xFFFFFFFF, ppc_result_a, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
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ppc_store_result_regd();
}
void dppc_interpreter::ppc_subfze() {
ppc_grab_regsda();
ppc_result_d = ~ppc_result_a + (ppc_state.spr[SPR::XER] & 0x20000000);
ppc_carry(~ppc_result_a, ppc_result_d);
if (oe_flag)
ppc_setsoov(0, ppc_result_a, ppc_result_d);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
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ppc_store_result_regd();
}
void dppc_interpreter::ppc_and() {
ppc_grab_regssab();
ppc_result_a = ppc_result_d & ppc_result_b;
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_andc() {
ppc_grab_regssab();
ppc_result_a = ppc_result_d & ~(ppc_result_b);
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_andidot() {
ppc_grab_regssauimm();
ppc_result_a = ppc_result_d & uimm;
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_andisdot() {
ppc_grab_regssauimm();
ppc_result_a = ppc_result_d & (uimm << 16);
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_nand() {
ppc_grab_regssab();
ppc_result_a = ~(ppc_result_d & ppc_result_b);
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_or() {
ppc_grab_regssab();
ppc_result_a = ppc_result_d | ppc_result_b;
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_orc() {
ppc_grab_regssab();
ppc_result_a = ppc_result_d | ~(ppc_result_b);
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_ori() {
ppc_grab_regssauimm();
ppc_result_a = ppc_result_d | uimm;
ppc_store_result_rega();
}
void dppc_interpreter::ppc_oris() {
ppc_grab_regssauimm();
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ppc_result_a = (uimm << 16) | ppc_result_d;
ppc_store_result_rega();
}
void dppc_interpreter::ppc_eqv() {
ppc_grab_regssab();
ppc_result_a = ~(ppc_result_d ^ ppc_result_b);
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_nor() {
ppc_grab_regssab();
ppc_result_a = ~(ppc_result_d | ppc_result_b);
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_xor() {
ppc_grab_regssab();
ppc_result_a = ppc_result_d ^ ppc_result_b;
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_xori() {
ppc_grab_regssauimm();
ppc_result_a = ppc_result_d ^ uimm;
ppc_store_result_rega();
}
void dppc_interpreter::ppc_xoris() {
ppc_grab_regssauimm();
ppc_result_a = ppc_result_d ^ (uimm << 16);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_neg() {
ppc_grab_regsda();
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ppc_result_d = ~(ppc_result_a) + 1;
if (oe_flag) {
if (ppc_result_a == 0x80000000)
ppc_state.spr[SPR::XER] |= 0xC0000000;
else
ppc_state.spr[SPR::XER] &= 0xBFFFFFFF;
}
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_cntlzw() {
ppc_grab_regssa();
uint32_t bit_check = ppc_result_d;
#ifdef USE_GCC_BUILTINS
uint32_t lead = !bit_check ? 32 : __builtin_clz(bit_check);
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#elif defined USE_VS_BUILTINS
uint32_t lead = __lzcnt(bit_check);
#else
uint32_t lead, mask;
for (mask = 0x80000000UL, lead = 0; mask != 0; lead++, mask >>= 1) {
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if (bit_check & mask)
break;
}
#endif
ppc_result_a = lead;
if (rc_flag) {
ppc_changecrf0(ppc_result_a);
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}
ppc_store_result_rega();
}
void dppc_interpreter::ppc_mulhwu() {
ppc_grab_regsdab();
uint64_t product = (uint64_t)ppc_result_a * (uint64_t)ppc_result_b;
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ppc_result_d = (uint32_t)(product >> 32);
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_mulhw() {
ppc_grab_regsdab();
int64_t product = (int64_t)(int32_t)ppc_result_a * (int64_t)(int32_t)ppc_result_b;
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ppc_result_d = product >> 32;
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_mullw() {
ppc_grab_regsdab();
int64_t product = (int64_t)(int32_t)ppc_result_a * (int64_t)(int32_t)ppc_result_b;
if (oe_flag) {
if (product != (int64_t)(int32_t)product) {
ppc_state.spr[SPR::XER] |= 0xC0000000;
} else {
ppc_state.spr[SPR::XER] &= 0xBFFFFFFFUL;
}
}
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ppc_result_d = (uint32_t)product;
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_mulli() {
ppc_grab_regsdasimm();
int64_t product = (int64_t)(int32_t)ppc_result_a * (int64_t)(int32_t)simm;
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ppc_result_d = (uint32_t)product;
ppc_store_result_regd();
}
void dppc_interpreter::ppc_divw() {
ppc_grab_regsdab();
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if (!ppc_result_b) { /* handle the "anything / 0" case */
ppc_result_d = (ppc_result_a & 0x80000000) ? -1 : 0; /* UNDOCUMENTED! */
if (oe_flag)
ppc_state.spr[SPR::XER] |= 0xC0000000;
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} else if (ppc_result_a == 0x80000000UL && ppc_result_b == 0xFFFFFFFFUL) {
ppc_result_d = 0xFFFFFFFF;
if (oe_flag)
ppc_state.spr[SPR::XER] |= 0xC0000000;
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} else { /* normal signed devision */
ppc_result_d = (int32_t)ppc_result_a / (int32_t)ppc_result_b;
if (oe_flag)
ppc_state.spr[SPR::XER] &= 0xBFFFFFFFUL;
}
if (rc_flag)
ppc_changecrf0(ppc_result_d);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_divwu() {
ppc_grab_regsdab();
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if (!ppc_result_b) { /* division by zero */
ppc_result_d = 0;
if (oe_flag)
ppc_state.spr[SPR::XER] |= 0xC0000000;
if (rc_flag)
ppc_state.cr |= 0x20000000;
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} else {
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ppc_result_d = ppc_result_a / ppc_result_b;
if (oe_flag)
ppc_state.spr[SPR::XER] &= 0xBFFFFFFFUL;
}
if (rc_flag)
ppc_changecrf0(ppc_result_d);
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ppc_store_result_regd();
}
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// Value shifting
void dppc_interpreter::ppc_slw() {
ppc_grab_regssab();
if (ppc_result_b & 0x20) {
ppc_result_a = 0;
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} else {
ppc_result_a = ppc_result_d << (ppc_result_b & 0x1F);
}
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_srw() {
ppc_grab_regssab();
if (ppc_result_b & 0x20) {
ppc_result_a = 0;
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} else {
ppc_result_a = ppc_result_d >> (ppc_result_b & 0x1F);
}
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_sraw() {
ppc_grab_regssab();
if (ppc_result_b & 0x20) {
ppc_result_a = (int32_t)ppc_result_d >> 31;
ppc_state.spr[SPR::XER] |= (ppc_result_a & 1) << 29;
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} else {
uint32_t shift = ppc_result_b & 0x1F;
uint32_t mask = (1U << shift) - 1;
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ppc_result_a = (int32_t)ppc_result_d >> shift;
if ((ppc_result_d & 0x80000000UL) && (ppc_result_d & mask)) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
}
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_srawi() {
ppc_grab_regssa();
unsigned shift = (ppc_cur_instruction >> 11) & 0x1F;
uint32_t mask = (1U << shift) - 1;
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ppc_result_a = (int32_t)ppc_result_d >> shift;
if ((ppc_result_d & 0x80000000UL) && (ppc_result_d & mask)) {
ppc_state.spr[SPR::XER] |= 0x20000000UL;
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} else {
ppc_state.spr[SPR::XER] &= 0xDFFFFFFFUL;
}
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
/** mask generator for rotate and shift instructions (§ 4.2.1.4 PowerpC PEM) */
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static inline uint32_t rot_mask(unsigned rot_mb, unsigned rot_me) {
uint32_t m1 = 0xFFFFFFFFUL >> rot_mb;
uint32_t m2 = (uint32_t)(0xFFFFFFFFUL << (31 - rot_me));
return ((rot_mb <= rot_me) ? m2 & m1 : m1 | m2);
}
void dppc_interpreter::ppc_rlwimi() {
ppc_grab_regssa();
unsigned rot_sh = (ppc_cur_instruction >> 11) & 31;
unsigned rot_mb = (ppc_cur_instruction >> 6) & 31;
unsigned rot_me = (ppc_cur_instruction >> 1) & 31;
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uint32_t mask = rot_mask(rot_mb, rot_me);
uint32_t r = rot_sh ? ((ppc_result_d << rot_sh) | (ppc_result_d >> (32 - rot_sh))) : ppc_result_d;
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ppc_result_a = (ppc_result_a & ~mask) | (r & mask);
if ((ppc_cur_instruction & 0x01) == 1) {
ppc_changecrf0(ppc_result_a);
}
ppc_store_result_rega();
}
void dppc_interpreter::ppc_rlwinm() {
ppc_grab_regssa();
unsigned rot_sh = (ppc_cur_instruction >> 11) & 31;
unsigned rot_mb = (ppc_cur_instruction >> 6) & 31;
unsigned rot_me = (ppc_cur_instruction >> 1) & 31;
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uint32_t mask = rot_mask(rot_mb, rot_me);
uint32_t r = rot_sh ? ((ppc_result_d << rot_sh) | (ppc_result_d >> (32 - rot_sh))) : ppc_result_d;
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ppc_result_a = r & mask;
if ((ppc_cur_instruction & 0x01) == 1) {
ppc_changecrf0(ppc_result_a);
}
ppc_store_result_rega();
}
void dppc_interpreter::ppc_rlwnm() {
ppc_grab_regssab();
unsigned rot_mb = (ppc_cur_instruction >> 6) & 31;
unsigned rot_me = (ppc_cur_instruction >> 1) & 31;
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uint32_t mask = rot_mask(rot_mb, rot_me);
uint32_t rot = ppc_result_b & 0x1F;
uint32_t r = rot ? ((ppc_result_d << rot) | (ppc_result_d >> (32 - rot))) : ppc_result_d;
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ppc_result_a = r & mask;
if ((ppc_cur_instruction & 0x01) == 1) {
ppc_changecrf0(ppc_result_a);
}
ppc_store_result_rega();
}
void dppc_interpreter::ppc_mfcr() {
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reg_d = (ppc_cur_instruction >> 21) & 31;
ppc_state.gpr[reg_d] = ppc_state.cr;
}
void dppc_interpreter::ppc_mtsr() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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if (ppc_state.msr & MSR::PR) {
ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::NOT_ALLOWED);
}
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reg_s = (ppc_cur_instruction >> 21) & 31;
grab_sr = (ppc_cur_instruction >> 16) & 15;
ppc_state.sr[grab_sr] = ppc_state.gpr[reg_s];
mmu_pat_ctx_changed();
}
void dppc_interpreter::ppc_mtsrin() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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if (ppc_state.msr & MSR::PR) {
ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::NOT_ALLOWED);
}
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ppc_grab_regssb();
grab_sr = ppc_result_b >> 28;
ppc_state.sr[grab_sr] = ppc_result_d;
mmu_pat_ctx_changed();
}
void dppc_interpreter::ppc_mfsr() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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if (ppc_state.msr & MSR::PR) {
ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::NOT_ALLOWED);
}
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reg_d = (ppc_cur_instruction >> 21) & 31;
grab_sr = (ppc_cur_instruction >> 16) & 15;
ppc_state.gpr[reg_d] = ppc_state.sr[grab_sr];
}
void dppc_interpreter::ppc_mfsrin() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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if (ppc_state.msr & MSR::PR) {
ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::NOT_ALLOWED);
}
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ppc_grab_regsdb();
grab_sr = ppc_result_b >> 28;
ppc_state.gpr[reg_d] = ppc_state.sr[grab_sr];
}
void dppc_interpreter::ppc_mfmsr() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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if (ppc_state.msr & MSR::PR) {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::NOT_ALLOWED);
}
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reg_d = (ppc_cur_instruction >> 21) & 31;
ppc_state.gpr[reg_d] = ppc_state.msr;
}
void dppc_interpreter::ppc_mtmsr() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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if (ppc_state.msr & MSR::PR) {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::NOT_ALLOWED);
}
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reg_s = (ppc_cur_instruction >> 21) & 31;
ppc_state.msr = ppc_state.gpr[reg_s];
// generate External Interrupt Exception
// if CPU interrupt line is asserted
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if (ppc_state.msr & MSR::EE && int_pin) {
//LOG_F(WARNING, "MTMSR: CPU INT pending, generate CPU exception");
ppc_exception_handler(Except_Type::EXC_EXT_INT, 0);
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} else if ((ppc_state.msr & MSR::EE) && dec_exception_pending) {
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dec_exception_pending = false;
//LOG_F(WARNING, "MTMSR: decrementer exception triggered");
ppc_exception_handler(Except_Type::EXC_DECR, 0);
} else {
mmu_change_mode();
}
}
static inline void calc_rtcl_value()
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{
uint64_t new_ts = get_virt_time_ns();
uint64_t rtc_l = new_ts - rtc_timestamp + rtc_lo;
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if (rtc_l >= ONE_BILLION_NS) { // check RTCL overflow
rtc_hi += (uint32_t)(rtc_l / ONE_BILLION_NS);
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rtc_lo = rtc_l % ONE_BILLION_NS;
}
else {
rtc_lo = (uint32_t)rtc_l;
}
rtc_timestamp = new_ts;
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}
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static inline uint64_t calc_tbr_value()
{
uint64_t tbr_inc;
uint32_t tbr_inc_lo;
uint64_t diff = get_virt_time_ns() - tbr_wr_timestamp;
_u32xu64(tbr_freq_ghz, diff, tbr_inc, tbr_inc_lo);
return (tbr_wr_value + tbr_inc);
}
static inline uint32_t calc_dec_value() {
uint64_t dec_adj;
uint32_t dec_adj_lo;
uint64_t diff = get_virt_time_ns() - dec_wr_timestamp;
_u32xu64(tbr_freq_ghz, diff, dec_adj, dec_adj_lo);
return (dec_wr_value - dec_adj);
}
static void update_timebase(uint64_t mask, uint64_t new_val)
{
uint64_t tbr_value = calc_tbr_value();
tbr_wr_value = (tbr_value & mask) | new_val;
tbr_wr_timestamp = get_virt_time_ns();
}
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static uint32_t decrementer_timer_id = 0;
static void trigger_decrementer_exception() {
decrementer_timer_id = 0;
dec_wr_value = -1;
dec_wr_timestamp = get_virt_time_ns();
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if (ppc_state.msr & MSR::EE) {
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dec_exception_pending = false;
//LOG_F(WARNING, "decrementer exception triggered");
ppc_exception_handler(Except_Type::EXC_DECR, 0);
}
else {
//LOG_F(WARNING, "decrementer exception pending");
dec_exception_pending = true;
}
}
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static void update_decrementer(uint32_t val) {
dec_wr_value = val;
dec_wr_timestamp = get_virt_time_ns();
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dec_exception_pending = false;
if (is_601)
return;
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if (decrementer_timer_id) {
//LOG_F(WARNING, "decrementer cancel timer");
TimerManager::get_instance()->cancel_timer(decrementer_timer_id);
}
uint64_t time_out;
uint32_t time_out_lo;
_u32xu64(val, tbr_period_ns, time_out, time_out_lo);
//LOG_F(WARNING, "decrementer:0x%08X ns:%llu", val, time_out);
decrementer_timer_id = TimerManager::get_instance()->add_oneshot_timer(
time_out,
trigger_decrementer_exception
);
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}
void dppc_interpreter::ppc_mfspr() {
uint32_t ref_spr = (((ppc_cur_instruction >> 11) & 31) << 5) | ((ppc_cur_instruction >> 16) & 31);
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#ifdef CPU_PROFILING
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if (ref_spr > 31) {
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num_supervisor_instrs++;
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}
#endif
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switch (ref_spr) {
case SPR::RTCL_U:
calc_rtcl_value();
ppc_state.spr[SPR::RTCL_U] = rtc_lo & 0x3FFFFF80UL;
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break;
case SPR::RTCU_U:
calc_rtcl_value();
ppc_state.spr[SPR::RTCU_U] = rtc_hi;
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break;
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case SPR::DEC:
ppc_state.spr[SPR::DEC] = calc_dec_value();
break;
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}
ppc_state.gpr[(ppc_cur_instruction >> 21) & 31] = ppc_state.spr[ref_spr];
}
void dppc_interpreter::ppc_mtspr() {
uint32_t ref_spr = (((ppc_cur_instruction >> 11) & 31) << 5) | ((ppc_cur_instruction >> 16) & 31);
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reg_s = (ppc_cur_instruction >> 21) & 31;
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#ifdef CPU_PROFILING
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if (ref_spr > 31) {
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num_supervisor_instrs++;
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}
#endif
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uint32_t val = ppc_state.gpr[reg_s];
if (ref_spr != SPR::PVR) { // prevent writes to the read-only PVR
ppc_state.spr[ref_spr] = val;
}
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if (ref_spr == SPR::SDR1) { // adapt to SDR1 changes
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mmu_pat_ctx_changed();
}
switch (ref_spr) {
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case SPR::RTCL_S:
calc_rtcl_value();
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rtc_lo = val & 0x3FFFFF80UL;
break;
case SPR::RTCU_S:
calc_rtcl_value();
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rtc_hi = val;
break;
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case SPR::DEC:
update_decrementer(val);
break;
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case SPR::TBL_S:
update_timebase(0xFFFFFFFF00000000ULL, val);
break;
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case SPR::TBU_S:
update_timebase(0x00000000FFFFFFFFULL, (uint64_t)(val) << 32);
break;
case 528:
case 529:
case 530:
case 531:
case 532:
case 533:
case 534:
case 535:
ibat_update(ref_spr);
break;
case 536:
case 537:
case 538:
case 539:
case 540:
case 541:
case 542:
case 543:
dbat_update(ref_spr);
}
}
void dppc_interpreter::ppc_mftb() {
uint32_t ref_spr = (((ppc_cur_instruction >> 11) & 31) << 5) | ((ppc_cur_instruction >> 16) & 31);
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reg_d = (ppc_cur_instruction >> 21) & 31;
uint64_t tbr_value = calc_tbr_value();
switch (ref_spr) {
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case SPR::TBL_U:
ppc_state.gpr[reg_d] = tbr_value & 0xFFFFFFFFUL;
break;
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case SPR::TBU_U:
ppc_state.gpr[reg_d] = (tbr_value >> 32) & 0xFFFFFFFFUL;
break;
default:
ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_mtcrf() {
uint32_t cr_mask = 0;
ppc_grab_regssa();
crm = ((ppc_cur_instruction >> 12) & 255);
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// check this
cr_mask = (crm & 128) ? 0xF0000000 : 0x00000000;
cr_mask += (crm & 64) ? 0x0F000000 : 0x00000000;
cr_mask += (crm & 32) ? 0x00F00000 : 0x00000000;
cr_mask += (crm & 16) ? 0x000F0000 : 0x00000000;
cr_mask += (crm & 8) ? 0x0000F000 : 0x00000000;
cr_mask += (crm & 4) ? 0x00000F00 : 0x00000000;
cr_mask += (crm & 2) ? 0x000000F0 : 0x00000000;
cr_mask += (crm & 1) ? 0x0000000F : 0x00000000;
ppc_state.cr = (ppc_result_d & cr_mask) | (ppc_state.cr & ~(cr_mask));
}
void dppc_interpreter::ppc_mcrxr() {
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int crf_d = (ppc_cur_instruction >> 21) & 0x1C;
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ppc_state.cr = (ppc_state.cr & ~(0xF0000000UL >> crf_d)) |
((ppc_state.spr[SPR::XER] & 0xF0000000UL) >> crf_d);
ppc_state.spr[SPR::XER] &= 0x0FFFFFFF;
}
void dppc_interpreter::ppc_extsb() {
ppc_grab_regssa();
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ppc_result_d = ppc_result_d & 0xFF;
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ppc_result_a = (ppc_result_d < 0x80) ? (ppc_result_d & 0x000000FF)
: (0xFFFFFF00UL | (ppc_result_d & 0x000000FF));
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
void dppc_interpreter::ppc_extsh() {
ppc_grab_regssa();
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ppc_result_d = ppc_result_d & 0xFFFF;
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ppc_result_a = (ppc_result_d < 0x8000) ? (ppc_result_d & 0x0000FFFF)
: (0xFFFF0000UL | (ppc_result_d & 0x0000FFFF));
if (rc_flag)
ppc_changecrf0(ppc_result_a);
ppc_store_result_rega();
}
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// Branching Instructions
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// The last two bytes of the instruction are used for determining how the branch happens.
// The middle 24 bytes are the 24-bit address to use for branching to.
void dppc_interpreter::ppc_b() {
uint32_t quick_test = (ppc_cur_instruction & 0x03FFFFFC);
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adr_li = (quick_test < 0x2000000) ? quick_test : (0xFC000000UL + quick_test);
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ppc_next_instruction_address = (uint32_t)(ppc_state.pc + adr_li);
exec_flags = EXEF_BRANCH;
}
void dppc_interpreter::ppc_bl() {
uint32_t quick_test = (ppc_cur_instruction & 0x03FFFFFC);
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adr_li = (quick_test < 0x2000000) ? quick_test : (0xFC000000UL + quick_test);
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ppc_next_instruction_address = (uint32_t)(ppc_state.pc + adr_li);
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ppc_state.spr[SPR::LR] = (uint32_t)(ppc_state.pc + 4);
exec_flags = EXEF_BRANCH;
}
void dppc_interpreter::ppc_ba() {
uint32_t quick_test = (ppc_cur_instruction & 0x03FFFFFC);
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adr_li = (quick_test < 0x2000000) ? quick_test : (0xFC000000UL + quick_test);
ppc_next_instruction_address = adr_li;
exec_flags = EXEF_BRANCH;
}
void dppc_interpreter::ppc_bla() {
uint32_t quick_test = (ppc_cur_instruction & 0x03FFFFFC);
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adr_li = (quick_test < 0x2000000) ? quick_test : (0xFC000000UL + quick_test);
ppc_next_instruction_address = adr_li;
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ppc_state.spr[SPR::LR] = ppc_state.pc + 4;
exec_flags = EXEF_BRANCH;
}
void dppc_interpreter::ppc_bc() {
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uint32_t ctr_ok;
uint32_t cnd_ok;
uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
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int32_t br_bd = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFC));
if (!(br_bo & 0x04)) {
(ppc_state.spr[SPR::CTR])--; /* decrement CTR */
}
ctr_ok = (br_bo & 0x04) || ((ppc_state.spr[SPR::CTR] != 0) == !(br_bo & 0x02));
cnd_ok = (br_bo & 0x10) || (!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (ctr_ok && cnd_ok) {
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ppc_next_instruction_address = (ppc_state.pc + br_bd);
exec_flags = EXEF_BRANCH;
}
}
void dppc_interpreter::ppc_bca() {
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uint32_t ctr_ok;
uint32_t cnd_ok;
uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
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int32_t br_bd = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFC));
if (!(br_bo & 0x04)) {
(ppc_state.spr[SPR::CTR])--; /* decrement CTR */
}
ctr_ok = (br_bo & 0x04) || ((ppc_state.spr[SPR::CTR] != 0) == !(br_bo & 0x02));
cnd_ok = (br_bo & 0x10) || (!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (ctr_ok && cnd_ok) {
ppc_next_instruction_address = br_bd;
exec_flags = EXEF_BRANCH;
}
}
void dppc_interpreter::ppc_bcl() {
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uint32_t ctr_ok;
uint32_t cnd_ok;
uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
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int32_t br_bd = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFC));
if (!(br_bo & 0x04)) {
(ppc_state.spr[SPR::CTR])--; /* decrement CTR */
}
ctr_ok = (br_bo & 0x04) || ((ppc_state.spr[SPR::CTR] != 0) == !(br_bo & 0x02));
cnd_ok = (br_bo & 0x10) || (!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (ctr_ok && cnd_ok) {
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ppc_next_instruction_address = (ppc_state.pc + br_bd);
exec_flags = EXEF_BRANCH;
}
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ppc_state.spr[SPR::LR] = ppc_state.pc + 4;
}
void dppc_interpreter::ppc_bcla() {
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uint32_t ctr_ok;
uint32_t cnd_ok;
uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
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int32_t br_bd = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFC));
if (!(br_bo & 0x04)) {
(ppc_state.spr[SPR::CTR])--; /* decrement CTR */
}
ctr_ok = (br_bo & 0x04) || ((ppc_state.spr[SPR::CTR] != 0) == !(br_bo & 0x02));
cnd_ok = (br_bo & 0x10) || (!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (ctr_ok && cnd_ok) {
ppc_next_instruction_address = br_bd;
exec_flags = EXEF_BRANCH;
}
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ppc_state.spr[SPR::LR] = ppc_state.pc + 4;
}
void dppc_interpreter::ppc_bcctr() {
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uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
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uint32_t cnd_ok = (br_bo & 0x10) ||
(!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (cnd_ok) {
ppc_next_instruction_address = (ppc_state.spr[SPR::CTR] & 0xFFFFFFFCUL);
exec_flags = EXEF_BRANCH;
}
}
void dppc_interpreter::ppc_bcctrl() {
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uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
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uint32_t cnd_ok = (br_bo & 0x10) ||
(!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (cnd_ok) {
ppc_next_instruction_address = (ppc_state.spr[SPR::CTR] & 0xFFFFFFFCUL);
exec_flags = EXEF_BRANCH;
}
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ppc_state.spr[SPR::LR] = ppc_state.pc + 4;
}
void dppc_interpreter::ppc_bclr() {
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uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
uint32_t ctr_ok;
uint32_t cnd_ok;
if (!(br_bo & 0x04)) {
(ppc_state.spr[SPR::CTR])--; /* decrement CTR */
}
ctr_ok = (br_bo & 0x04) || ((ppc_state.spr[SPR::CTR] != 0) == !(br_bo & 0x02));
cnd_ok = (br_bo & 0x10) || (!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (ctr_ok && cnd_ok) {
ppc_next_instruction_address = (ppc_state.spr[SPR::LR] & 0xFFFFFFFCUL);
exec_flags = EXEF_BRANCH;
}
}
void dppc_interpreter::ppc_bclrl() {
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uint32_t br_bo = (ppc_cur_instruction >> 21) & 31;
uint32_t br_bi = (ppc_cur_instruction >> 16) & 31;
uint32_t ctr_ok;
uint32_t cnd_ok;
if (!(br_bo & 0x04)) {
(ppc_state.spr[SPR::CTR])--; /* decrement CTR */
}
ctr_ok = (br_bo & 0x04) || ((ppc_state.spr[SPR::CTR] != 0) == !(br_bo & 0x02));
cnd_ok = (br_bo & 0x10) || (!(ppc_state.cr & (0x80000000UL >> br_bi)) == !(br_bo & 0x08));
if (ctr_ok && cnd_ok) {
ppc_next_instruction_address = (ppc_state.spr[SPR::LR] & 0xFFFFFFFCUL);
exec_flags = EXEF_BRANCH;
}
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ppc_state.spr[SPR::LR] = ppc_state.pc + 4;
}
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// Compare Instructions
void dppc_interpreter::ppc_cmp() {
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#ifdef CHECK_INVALID
if (ppc_cur_instruction & 0x200000) {
LOG_F(WARNING, "Invalid CMP instruction form (L=1)!");
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return;
}
#endif
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int crf_d = (ppc_cur_instruction >> 21) & 0x1C;
ppc_grab_regssab();
xercon = (ppc_state.spr[SPR::XER] & 0x80000000UL) >> 3;
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cmp_c = (((int32_t)ppc_result_a) == ((int32_t)ppc_result_b))
? 0x20000000UL
: (((int32_t)ppc_result_a) > ((int32_t)ppc_result_b)) ? 0x40000000UL : 0x80000000UL;
ppc_state.cr = ((ppc_state.cr & ~(0xf0000000UL >> crf_d)) | ((cmp_c + xercon) >> crf_d));
}
void dppc_interpreter::ppc_cmpi() {
#ifdef CHECK_INVALID
if (ppc_cur_instruction & 0x200000) {
LOG_F(WARNING, "Invalid CMPI instruction form (L=1)!");
return;
}
#endif
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int crf_d = (ppc_cur_instruction >> 21) & 0x1C;
ppc_grab_regsasimm();
xercon = (ppc_state.spr[SPR::XER] & 0x80000000UL) >> 3;
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cmp_c = (((int32_t)ppc_result_a) == simm)
? 0x20000000UL
: (((int32_t)ppc_result_a) > simm) ? 0x40000000UL : 0x80000000UL;
ppc_state.cr = ((ppc_state.cr & ~(0xf0000000UL >> crf_d)) | ((cmp_c + xercon) >> crf_d));
}
void dppc_interpreter::ppc_cmpl() {
#ifdef CHECK_INVALID
if (ppc_cur_instruction & 0x200000) {
LOG_F(WARNING, "Invalid CMPL instruction form (L=1)!");
return;
}
#endif
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int crf_d = (ppc_cur_instruction >> 21) & 0x1C;
ppc_grab_regssab();
xercon = (ppc_state.spr[SPR::XER] & 0x80000000UL) >> 3;
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cmp_c = (ppc_result_a == ppc_result_b)
? 0x20000000UL
: (ppc_result_a > ppc_result_b) ? 0x40000000UL : 0x80000000UL;
ppc_state.cr = ((ppc_state.cr & ~(0xf0000000UL >> crf_d)) | ((cmp_c + xercon) >> crf_d));
}
void dppc_interpreter::ppc_cmpli() {
#ifdef CHECK_INVALID
if (ppc_cur_instruction & 0x200000) {
LOG_F(WARNING, "Invalid CMPLI instruction form (L=1)!");
return;
}
#endif
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int crf_d = (ppc_cur_instruction >> 21) & 0x1C;
ppc_grab_regssauimm();
xercon = (ppc_state.spr[SPR::XER] & 0x80000000UL) >> 3;
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cmp_c = (ppc_result_a == uimm) ? 0x20000000UL
: (ppc_result_a > uimm) ? 0x40000000UL : 0x80000000UL;
ppc_state.cr = ((ppc_state.cr & ~(0xf0000000UL >> crf_d)) | ((cmp_c + xercon) >> crf_d));
}
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// Condition Register Changes
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void dppc_interpreter::ppc_mcrf() {
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int crf_d = (ppc_cur_instruction >> 21) & 0x1C;
int crf_s = (ppc_cur_instruction >> 16) & 0x1C;
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// extract and right justify source flags field
uint32_t grab_s = (ppc_state.cr >> (28 - crf_s)) & 0xF;
ppc_state.cr = (ppc_state.cr & ~(0xf0000000UL >> crf_d)) | (grab_s << (28 - crf_d));
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}
void dppc_interpreter::ppc_crand() {
ppc_grab_regsdab();
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uint8_t ir = (ppc_state.cr >> (31 - reg_a)) & (ppc_state.cr >> (31 - reg_b));
if (ir & 1) {
ppc_state.cr |= (0x80000000UL >> reg_d);
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} else {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
}
}
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void dppc_interpreter::ppc_crandc() {
ppc_grab_regsdab();
if ((ppc_state.cr & (0x80000000UL >> reg_a)) && !(ppc_state.cr & (0x80000000UL >> reg_b))) {
ppc_state.cr |= (0x80000000UL >> reg_d);
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} else {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
}
}
void dppc_interpreter::ppc_creqv() {
ppc_grab_regsdab();
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uint8_t ir = (ppc_state.cr >> (31 - reg_a)) ^ (ppc_state.cr >> (31 - reg_b));
if (ir & 1) { // compliment is implemented by swapping the following if/else bodies
ppc_state.cr &= ~(0x80000000UL >> reg_d);
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} else {
ppc_state.cr |= (0x80000000UL >> reg_d);
}
}
void dppc_interpreter::ppc_crnand() {
ppc_grab_regsdab();
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uint8_t ir = (ppc_state.cr >> (31 - reg_a)) & (ppc_state.cr >> (31 - reg_b));
if (ir & 1) {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
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} else {
ppc_state.cr |= (0x80000000UL >> reg_d);
}
}
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void dppc_interpreter::ppc_crnor() {
ppc_grab_regsdab();
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uint8_t ir = (ppc_state.cr >> (31 - reg_a)) | (ppc_state.cr >> (31 - reg_b));
if (ir & 1) {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
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} else {
ppc_state.cr |= (0x80000000UL >> reg_d);
}
}
void dppc_interpreter::ppc_cror() {
ppc_grab_regsdab();
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uint8_t ir = (ppc_state.cr >> (31 - reg_a)) | (ppc_state.cr >> (31 - reg_b));
if (ir & 1) {
ppc_state.cr |= (0x80000000UL >> reg_d);
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} else {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
}
}
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void dppc_interpreter::ppc_crorc() {
ppc_grab_regsdab();
if ((ppc_state.cr & (0x80000000UL >> reg_a)) || !(ppc_state.cr & (0x80000000UL >> reg_b))) {
ppc_state.cr |= (0x80000000UL >> reg_d);
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} else {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
}
}
void dppc_interpreter::ppc_crxor() {
ppc_grab_regsdab();
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uint8_t ir = (ppc_state.cr >> (31 - reg_a)) ^ (ppc_state.cr >> (31 - reg_b));
if (ir & 1) {
ppc_state.cr |= (0x80000000UL >> reg_d);
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} else {
ppc_state.cr &= ~(0x80000000UL >> reg_d);
}
}
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// Processor MGMT Fns.
void dppc_interpreter::ppc_rfi() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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uint32_t new_srr1_val = (ppc_state.spr[SPR::SRR1] & 0x87C0FF73UL);
uint32_t new_msr_val = (ppc_state.msr & ~(0x87C0FF73UL));
ppc_state.msr = (new_msr_val | new_srr1_val) & 0xFFFBFFFFUL;
// generate External Interrupt Exception
// if CPU interrupt line is still asserted
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if (ppc_state.msr & MSR::EE && int_pin) {
uint32_t save_srr0 = ppc_state.spr[SPR::SRR0] & 0xFFFFFFFCUL;
ppc_exception_handler(Except_Type::EXC_EXT_INT, 0);
ppc_state.spr[SPR::SRR0] = save_srr0;
return;
}
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if ((ppc_state.msr & MSR::EE) && dec_exception_pending) {
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dec_exception_pending = false;
//LOG_F(WARNING, "decrementer exception from rfi msr:0x%X", ppc_state.msr);
uint32_t save_srr0 = ppc_state.spr[SPR::SRR0] & 0xFFFFFFFCUL;
ppc_exception_handler(Except_Type::EXC_DECR, 0);
ppc_state.spr[SPR::SRR0] = save_srr0;
return;
}
ppc_next_instruction_address = ppc_state.spr[SPR::SRR0] & 0xFFFFFFFCUL;
do_ctx_sync(); // RFI is context synchronizing
mmu_change_mode();
grab_return = true;
exec_flags = EXEF_RFI;
}
void dppc_interpreter::ppc_sc() {
do_ctx_sync(); // SC is context synchronizing!
ppc_exception_handler(Except_Type::EXC_SYSCALL, 0x20000);
}
void dppc_interpreter::ppc_tw() {
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reg_a = (ppc_cur_instruction >> 11) & 31;
reg_b = (ppc_cur_instruction >> 16) & 31;
ppc_to = (ppc_cur_instruction >> 21) & 31;
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if ((((int32_t)ppc_state.gpr[reg_a] < (int32_t)ppc_state.gpr[reg_b]) && (ppc_to & 0x10)) ||
(((int32_t)ppc_state.gpr[reg_a] > (int32_t)ppc_state.gpr[reg_b]) && (ppc_to & 0x08)) ||
(((int32_t)ppc_state.gpr[reg_a] == (int32_t)ppc_state.gpr[reg_b]) && (ppc_to & 0x04)) ||
((ppc_state.gpr[reg_a] < ppc_state.gpr[reg_b]) && (ppc_to & 0x02)) ||
((ppc_state.gpr[reg_a] > ppc_state.gpr[reg_b]) && (ppc_to & 0x01))) {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::TRAP);
}
}
void dppc_interpreter::ppc_twi() {
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simm = (int32_t)((int16_t)((ppc_cur_instruction)&0xFFFF));
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reg_a = (ppc_cur_instruction >> 16) & 0x1F;
ppc_to = (ppc_cur_instruction >> 21) & 0x1F;
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if ((((int32_t)ppc_state.gpr[reg_a] < simm) && (ppc_to & 0x10)) ||
(((int32_t)ppc_state.gpr[reg_a] > simm) && (ppc_to & 0x08)) ||
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(((int32_t)ppc_state.gpr[reg_a] == simm) && (ppc_to & 0x04)) ||
((ppc_state.gpr[reg_a] < (uint32_t)simm) && (ppc_to & 0x02)) ||
((ppc_state.gpr[reg_a] > (uint32_t)simm) && (ppc_to & 0x01))) {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::TRAP);
}
}
void dppc_interpreter::ppc_eieio() {
/* placeholder */
}
void dppc_interpreter::ppc_isync() {
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do_ctx_sync();
}
void dppc_interpreter::ppc_sync() {
/* placeholder */
}
void dppc_interpreter::ppc_icbi() {
/* placeholder */
}
void dppc_interpreter::ppc_dcbf() {
/* placeholder */
}
void dppc_interpreter::ppc_dcbi() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
#endif
/* placeholder */
}
void dppc_interpreter::ppc_dcbst() {
/* placeholder */
}
void dppc_interpreter::ppc_dcbt() {
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// Not needed, the HDI reg is touched to no-op this instruction.
return;
}
void dppc_interpreter::ppc_dcbtst() {
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// Not needed, the HDI reg is touched to no-op this instruction.
return;
}
void dppc_interpreter::ppc_dcbz() {
ppc_grab_regsdab();
ppc_effective_address = (reg_a == 0) ? ppc_result_b : (ppc_result_a + ppc_result_b);
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ppc_effective_address &= 0xFFFFFFE0UL; // align EA on a 32-byte boundary
// the following is not especially efficient but necessary
// to make BlockZero under Mac OS 8.x and later to work
mmu_write_vmem<uint64_t>(ppc_effective_address + 0, 0);
mmu_write_vmem<uint64_t>(ppc_effective_address + 8, 0);
mmu_write_vmem<uint64_t>(ppc_effective_address + 16, 0);
mmu_write_vmem<uint64_t>(ppc_effective_address + 24, 0);
}
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// Integer Load and Store Functions
void dppc_interpreter::ppc_stb() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
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ppc_effective_address += reg_a ? ppc_result_a : 0;
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mmu_write_vmem<uint8_t>(ppc_effective_address, ppc_result_d);
//mem_write_byte(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_stbx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
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mmu_write_vmem<uint8_t>(ppc_effective_address, ppc_result_d);
//mem_write_byte(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_stbu() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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if (reg_a != 0) {
ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += ppc_result_a;
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mmu_write_vmem<uint8_t>(ppc_effective_address, ppc_result_d);
//mem_write_byte(ppc_effective_address, ppc_result_d);
ppc_state.gpr[reg_a] = ppc_effective_address;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
}
void dppc_interpreter::ppc_stbux() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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if (reg_a != 0) {
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ppc_effective_address = ppc_result_a + ppc_result_b;
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mmu_write_vmem<uint8_t>(ppc_effective_address, ppc_result_d);
//mem_write_byte(ppc_effective_address, ppc_result_d);
ppc_state.gpr[reg_a] = ppc_effective_address;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
}
void dppc_interpreter::ppc_sth() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += (reg_a > 0) ? ppc_result_a : 0;
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mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_result_d);
//mem_write_word(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_sthu() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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if (reg_a != 0) {
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += ppc_result_a;
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mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_result_d);
//mem_write_word(ppc_effective_address, ppc_result_d);
ppc_state.gpr[reg_a] = ppc_effective_address;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_sthux() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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if (reg_a != 0) {
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ppc_effective_address = ppc_result_a + ppc_result_b;
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mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_result_d);
//mem_write_word(ppc_effective_address, ppc_result_d);
ppc_state.gpr[reg_a] = ppc_effective_address;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_sthx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
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mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_result_d);
//mem_write_word(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_sthbrx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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ppc_effective_address = (reg_a == 0) ? ppc_result_b : (ppc_result_a + ppc_result_b);
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ppc_result_d = (uint32_t)(BYTESWAP_16((uint16_t)ppc_result_d));
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mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_result_d);
//mem_write_word(ppc_effective_address, ppc_result_d);
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}
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void dppc_interpreter::ppc_stw() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
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ppc_effective_address += reg_a ? ppc_result_a : 0;
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
//mem_write_dword(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_stwx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
//mem_write_dword(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_stwcx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
if (rc_flag == 0) {
ppc_illegalop();
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} else {
ppc_grab_regssab();
ppc_effective_address = (reg_a == 0) ? ppc_result_b : (ppc_result_a + ppc_result_b);
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ppc_state.cr &= 0x0FFFFFFFUL; // clear CR0
ppc_state.cr |= (ppc_state.spr[SPR::XER] & 0x80000000UL) >> 3; // copy XER[SO] to CR0[SO]
if (ppc_state.reserve) {
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
ppc_state.reserve = false;
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ppc_state.cr |= 0x20000000UL; // set CR0[EQ]
}
}
}
void dppc_interpreter::ppc_stwu() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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if (reg_a != 0) {
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += ppc_result_a;
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
//mem_write_dword(ppc_effective_address, ppc_result_d);
ppc_state.gpr[reg_a] = ppc_effective_address;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_stwux() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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if (reg_a != 0) {
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ppc_effective_address = ppc_result_a + ppc_result_b;
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
//mem_write_dword(ppc_effective_address, ppc_result_d);
ppc_state.gpr[reg_a] = ppc_effective_address;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_stwbrx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
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ppc_result_d = BYTESWAP_32(ppc_result_d);
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
//mem_write_dword(ppc_effective_address, ppc_result_d);
}
void dppc_interpreter::ppc_stmw() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += (reg_a > 0) ? ppc_result_a : 0;
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/* what should we do if EA is unaligned? */
if (ppc_effective_address & 3) {
ppc_exception_handler(Except_Type::EXC_ALIGNMENT, 0x00000);
}
for (; reg_s <= 31; reg_s++) {
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mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_state.gpr[reg_s]);
//mem_write_dword(ppc_effective_address, ppc_state.gpr[reg_s]);
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ppc_effective_address += 4;
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}
}
void dppc_interpreter::ppc_lbz() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += (reg_a > 0) ? ppc_result_a : 0;
//ppc_result_d = mem_grab_byte(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint8_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lbzu() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address += ppc_result_a;
//ppc_result_d = mem_grab_byte(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint8_t>(ppc_effective_address);
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ppc_result_a = ppc_effective_address;
ppc_store_result_regd();
ppc_store_result_rega();
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
}
void dppc_interpreter::ppc_lbzx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//ppc_result_d = mem_grab_byte(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint8_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lbzux() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address = ppc_result_a + ppc_result_b;
//ppc_result_d = mem_grab_byte(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint8_t>(ppc_effective_address);
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ppc_result_a = ppc_effective_address;
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ppc_store_result_regd();
ppc_store_result_rega();
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
}
void dppc_interpreter::ppc_lhz() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
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ppc_effective_address += reg_a ? ppc_result_a : 0;
//ppc_result_d = mem_grab_word(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint16_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lhzu() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += ppc_result_a;
//ppc_result_d = mem_grab_word(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint16_t>(ppc_effective_address);
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ppc_result_a = ppc_effective_address;
ppc_store_result_regd();
ppc_store_result_rega();
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_lhzx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//ppc_result_d = mem_grab_word(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint16_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lhzux() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address = ppc_result_a + ppc_result_b;
//ppc_result_d = mem_grab_word(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint16_t>(ppc_effective_address);
ppc_result_a = ppc_effective_address;
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ppc_store_result_regd();
ppc_store_result_rega();
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
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}
}
void dppc_interpreter::ppc_lha() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += (reg_a > 0) ? ppc_result_a : 0;
//uint16_t val = mem_grab_word(ppc_effective_address);
uint16_t val = mmu_read_vmem<uint16_t>(ppc_effective_address);
if (val & 0x8000) {
ppc_result_d = 0xFFFF0000UL | (uint32_t)val;
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} else {
ppc_result_d = (uint32_t)val;
}
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lhau() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += ppc_result_a;
//uint16_t val = mem_grab_word(ppc_effective_address);
uint16_t val = mmu_read_vmem<uint16_t>(ppc_effective_address);
if (val & 0x8000) {
ppc_result_d = 0xFFFF0000UL | (uint32_t)val;
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} else {
ppc_result_d = (uint32_t)val;
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}
ppc_store_result_regd();
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ppc_result_a = ppc_effective_address;
ppc_store_result_rega();
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
}
void dppc_interpreter::ppc_lhaux() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//uint16_t val = mem_grab_word(ppc_effective_address);
uint16_t val = mmu_read_vmem<uint16_t>(ppc_effective_address);
if (val & 0x8000) {
ppc_result_d = 0xFFFF0000UL | (uint32_t)val;
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} else {
ppc_result_d = (uint32_t)val;
}
ppc_store_result_regd();
ppc_result_a = ppc_effective_address;
ppc_store_result_rega();
}
void dppc_interpreter::ppc_lhax() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//uint16_t val = mem_grab_word(ppc_effective_address);
uint16_t val = mmu_read_vmem<uint16_t>(ppc_effective_address);
if (val & 0x8000) {
ppc_result_d = 0xFFFF0000UL | (uint32_t)val;
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} else {
ppc_result_d = (uint32_t)val;
}
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lhbrx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//ppc_result_d = (uint32_t)(BYTESWAP_16(mem_grab_word(ppc_effective_address)));
ppc_result_d = (uint32_t)(BYTESWAP_16(mmu_read_vmem<uint16_t>(ppc_effective_address)));
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lwz() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += (reg_a > 0) ? ppc_result_a : 0;
//ppc_result_d = mem_grab_dword(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint32_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lwbrx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//ppc_result_d = BYTESWAP_32(mem_grab_dword(ppc_effective_address));
ppc_result_d = BYTESWAP_32(mmu_read_vmem<uint32_t>(ppc_effective_address));
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lwzu() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address += ppc_result_a;
//ppc_result_d = mem_grab_dword(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint32_t>(ppc_effective_address);
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ppc_store_result_regd();
ppc_result_a = ppc_effective_address;
ppc_store_result_rega();
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
}
void dppc_interpreter::ppc_lwzx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
//ppc_result_d = mem_grab_dword(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint32_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lwzux() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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if ((reg_a != reg_d) || reg_a != 0) {
ppc_effective_address = ppc_result_a + ppc_result_b;
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} else {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
//ppc_result_d = mem_grab_dword(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint32_t>(ppc_effective_address);
ppc_result_a = ppc_effective_address;
ppc_store_result_regd();
ppc_store_result_rega();
}
void dppc_interpreter::ppc_lwarx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
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// Placeholder - Get the reservation of memory implemented!
ppc_grab_regsdab();
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ppc_effective_address = (reg_a == 0) ? ppc_result_b : (ppc_result_a + ppc_result_b);
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ppc_state.reserve = true;
//ppc_result_d = mem_grab_dword(ppc_effective_address);
ppc_result_d = mmu_read_vmem<uint32_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_lmw() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = (int32_t)((int16_t)(ppc_cur_instruction & 0xFFFF));
ppc_effective_address += (reg_a > 0) ? ppc_result_a : 0;
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// How many words to load in memory - using a do-while for this
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do {
//ppc_state.gpr[reg_d] = mem_grab_dword(ppc_effective_address);
ppc_state.gpr[reg_d] = mmu_read_vmem<uint32_t>(ppc_effective_address);
ppc_effective_address += 4;
reg_d++;
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} while (reg_d < 32);
}
void dppc_interpreter::ppc_lswi() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsda();
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ppc_effective_address = reg_a ? ppc_result_a : 0;
grab_inb = (ppc_cur_instruction >> 11) & 0x1F;
grab_inb = grab_inb ? grab_inb : 32;
while (grab_inb >= 4) {
ppc_state.gpr[reg_d] = mmu_read_vmem<uint32_t>(ppc_effective_address);
reg_d++;
if (reg_d >= 32) { // wrap around through GPR0
reg_d = 0;
}
ppc_effective_address += 4;
grab_inb -= 4;
}
// handle remaining bytes
switch (grab_inb) {
case 1:
ppc_state.gpr[reg_d] = mmu_read_vmem<uint8_t>(ppc_effective_address) << 24;
break;
case 2:
ppc_state.gpr[reg_d] = mmu_read_vmem<uint16_t>(ppc_effective_address) << 16;
break;
case 3:
ppc_state.gpr[reg_d] = mmu_read_vmem<uint16_t>(ppc_effective_address) << 16;
ppc_state.gpr[reg_d] += mmu_read_vmem<uint8_t>(ppc_effective_address + 2) << 8;
break;
default:
break;
}
}
void dppc_interpreter::ppc_lswx() {
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#ifdef CPU_PROFILING
num_int_loads++;
#endif
ppc_grab_regsdab();
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// Invalid instruction forms
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if ((reg_d | reg_a) == 0 || (reg_d == reg_a) || (reg_d == reg_b)) {
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ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP);
}
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
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grab_inb = ppc_state.spr[SPR::XER] & 0x7F;
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while (grab_inb >= 4) {
ppc_state.gpr[reg_d] = mmu_read_vmem<uint32_t>(ppc_effective_address);
reg_d++;
if (reg_d >= 32) { // wrap around through GPR0
reg_d = 0;
}
ppc_effective_address += 4;
grab_inb -= 4;
}
// handle remaining bytes
switch (grab_inb) {
case 1:
ppc_state.gpr[reg_d] = mmu_read_vmem<uint8_t>(ppc_effective_address) << 24;
break;
case 2:
ppc_state.gpr[reg_d] = mmu_read_vmem<uint16_t>(ppc_effective_address) << 16;
break;
case 3:
ppc_state.gpr[reg_d] = mmu_read_vmem<uint16_t>(ppc_effective_address) << 16;
ppc_state.gpr[reg_d] += mmu_read_vmem<uint8_t>(ppc_effective_address + 2) << 8;
break;
default:
break;
}
}
void dppc_interpreter::ppc_stswi() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssa();
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ppc_effective_address = reg_a ? ppc_result_a : 0;
grab_inb = (ppc_cur_instruction >> 11) & 0x1F;
grab_inb = grab_inb ? grab_inb : 32;
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while (grab_inb >= 4) {
mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_state.gpr[reg_s]);
reg_s++;
if (reg_s >= 32) { // wrap around through GPR0
reg_s = 0;
}
ppc_effective_address += 4;
grab_inb -= 4;
}
// handle remaining bytes
switch (grab_inb) {
case 1:
mmu_write_vmem<uint8_t>(ppc_effective_address, ppc_state.gpr[reg_s] >> 24);
break;
case 2:
mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_state.gpr[reg_s] >> 16);
break;
case 3:
mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_state.gpr[reg_s] >> 16);
mmu_write_vmem<uint8_t>(ppc_effective_address + 2, (ppc_state.gpr[reg_s] >> 8) & 0xFF);
break;
default:
break;
}
}
void dppc_interpreter::ppc_stswx() {
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#ifdef CPU_PROFILING
num_int_stores++;
#endif
ppc_grab_regssab();
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ppc_effective_address = reg_a ? (ppc_result_a + ppc_result_b) : ppc_result_b;
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grab_inb = ppc_state.spr[SPR::XER] & 127;
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while (grab_inb >= 4) {
mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_state.gpr[reg_s]);
reg_s++;
if (reg_s >= 32) { // wrap around through GPR0
reg_s = 0;
}
ppc_effective_address += 4;
grab_inb -= 4;
}
// handle remaining bytes
switch (grab_inb) {
case 1:
mmu_write_vmem<uint8_t>(ppc_effective_address, ppc_state.gpr[reg_s] >> 24);
break;
case 2:
mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_state.gpr[reg_s] >> 16);
break;
case 3:
mmu_write_vmem<uint16_t>(ppc_effective_address, ppc_state.gpr[reg_s] >> 16);
mmu_write_vmem<uint8_t>(ppc_effective_address + 2, (ppc_state.gpr[reg_s] >> 8) & 0xFF);
break;
default:
break;
}
}
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void dppc_interpreter::ppc_eciwx() {
uint32_t ear_enable = 0x80000000;
// error if EAR[E] != 1
if (!(ppc_state.spr[282] && ear_enable)) {
ppc_exception_handler(Except_Type::EXC_DSI, 0x0);
}
ppc_grab_regsdab();
ppc_effective_address = (reg_a == 0) ? ppc_result_b : (ppc_result_a + ppc_result_b);
if (ppc_effective_address & 0x3) {
ppc_exception_handler(Except_Type::EXC_ALIGNMENT, 0x0);
}
ppc_result_d = mmu_read_vmem<uint32_t>(ppc_effective_address);
ppc_store_result_regd();
}
void dppc_interpreter::ppc_ecowx() {
uint32_t ear_enable = 0x80000000;
// error if EAR[E] != 1
if (!(ppc_state.spr[282] && ear_enable)) {
ppc_exception_handler(Except_Type::EXC_DSI, 0x0);
}
ppc_grab_regssab();
ppc_effective_address = (reg_a == 0) ? ppc_result_b : (ppc_result_a + ppc_result_b);
if (ppc_effective_address & 0x3) {
ppc_exception_handler(Except_Type::EXC_ALIGNMENT, 0x0);
}
mmu_write_vmem<uint32_t>(ppc_effective_address, ppc_result_d);
ppc_store_result_regd();
}
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// TLB Instructions
void dppc_interpreter::ppc_tlbie() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
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tlb_flush_entry(ppc_state.gpr[(ppc_cur_instruction >> 11) & 31]);
}
void dppc_interpreter::ppc_tlbia() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
/* placeholder */
}
void dppc_interpreter::ppc_tlbld() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
/* placeholder */
}
void dppc_interpreter::ppc_tlbli() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
/* placeholder */
}
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void dppc_interpreter::ppc_tlbsync() {
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#ifdef CPU_PROFILING
num_supervisor_instrs++;
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#endif
/* placeholder */
}