dyncom: Move CP15 register reading into its own function.

Keeps everything contained. Added all supported readable registers in an ARM11 MPCore.
master
Lioncash 2015-03-26 12:54:16 +07:00
parent de6eba0288
commit 5e5954c63b
4 changed files with 253 additions and 49 deletions

@ -3697,6 +3697,7 @@ unsigned InterpreterMainLoop(ARMul_State* state) {
#undef RS
#define CRn inst_cream->crn
#define OPCODE_1 inst_cream->opcode_1
#define OPCODE_2 inst_cream->opcode_2
#define CRm inst_cream->crm
#define CP15_REG(n) cpu->CP15[CP15(n)]
@ -4922,50 +4923,8 @@ unsigned InterpreterMainLoop(ARMul_State* state) {
CITRA_IGNORE_EXIT(-1);
goto END;
} else {
if (inst_cream->cp_num == 15) {
if(CRn == 0 && OPCODE_2 == 0 && CRm == 0) {
RD = cpu->CP15[CP15(CP15_MAIN_ID)];
} else if (CRn == 0 && CRm == 0 && OPCODE_2 == 1) {
RD = cpu->CP15[CP15(CP15_CACHE_TYPE)];
} else if (CRn == 1 && CRm == 0 && OPCODE_2 == 0) {
RD = cpu->CP15[CP15(CP15_CONTROL)];
} else if (CRn == 1 && CRm == 0 && OPCODE_2 == 1) {
RD = cpu->CP15[CP15(CP15_AUXILIARY_CONTROL)];
} else if (CRn == 1 && CRm == 0 && OPCODE_2 == 2) {
RD = cpu->CP15[CP15(CP15_COPROCESSOR_ACCESS_CONTROL)];
} else if (CRn == 2 && CRm == 0 && OPCODE_2 == 0) {
RD = cpu->CP15[CP15(CP15_TRANSLATION_BASE_TABLE_0)];
} else if (CRn == 2 && CRm == 0 && OPCODE_2 == 1) {
RD = cpu->CP15[CP15(CP15_TRANSLATION_BASE_TABLE_1)];
} else if (CRn == 2 && CRm == 0 && OPCODE_2 == 2) {
RD = cpu->CP15[CP15(CP15_TRANSLATION_BASE_CONTROL)];
} else if (CRn == 3 && CRm == 0 && OPCODE_2 == 0) {
RD = cpu->CP15[CP15(CP15_DOMAIN_ACCESS_CONTROL)];
} else if (CRn == 5 && CRm == 0 && OPCODE_2 == 0) {
RD = cpu->CP15[CP15(CP15_FAULT_STATUS)];
} else if (CRn == 5 && CRm == 0 && OPCODE_2 == 1) {
RD = cpu->CP15[CP15(CP15_INSTR_FAULT_STATUS)];
} else if (CRn == 6 && CRm == 0 && OPCODE_2 == 0) {
RD = cpu->CP15[CP15(CP15_FAULT_ADDRESS)];
} else if (CRn == 13) {
if(OPCODE_2 == 0) {
RD = CP15_REG(CP15_PID);
} else if(OPCODE_2 == 1) {
RD = CP15_REG(CP15_CONTEXT_ID);
} else if (OPCODE_2 == 2) {
RD = CP15_REG(CP15_THREAD_UPRW);
} else if(OPCODE_2 == 3) {
RD = Memory::KERNEL_MEMORY_VADDR;
} else if (OPCODE_2 == 4) {
if (InAPrivilegedMode(cpu))
RD = CP15_REG(CP15_THREAD_PRW);
} else {
LOG_ERROR(Core_ARM11, "mmu_mrr wrote UNKNOWN - reg %d", CRn);
}
} else {
LOG_ERROR(Core_ARM11, "mrc CRn=%d, CRm=%d, OP2=%d is not implemented", CRn, CRm, OPCODE_2);
}
}
if (inst_cream->cp_num == 15)
RD = ReadCP15Register(cpu, CRn, OPCODE_1, CRm, OPCODE_2);
}
}
cpu->Reg[15] += GET_INST_SIZE(cpu);

@ -15,7 +15,9 @@
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
#include "core/mem_map.h"
#include "core/arm/skyeye_common/armdefs.h"
#include "core/arm/skyeye_common/arm_regformat.h"
// Unsigned sum of absolute difference
u8 ARMul_UnsignedAbsoluteDifference(u8 left, u8 right)
@ -213,3 +215,197 @@ bool InAPrivilegedMode(ARMul_State* cpu)
{
return (cpu->Mode != USER32MODE);
}
// Reads from the CP15 registers. Used with implementation of the MRC instruction.
// Note that since the 3DS does not have the hypervisor extensions, these registers
// are not implemented.
u32 ReadCP15Register(ARMul_State* cpu, u32 crn, u32 opcode_1, u32 crm, u32 opcode_2)
{
// Unprivileged registers
if (crn == 13 && opcode_1 == 0 && crm == 0)
{
if (opcode_2 == 2)
return cpu->CP15[CP15(CP15_THREAD_UPRW)];
// TODO: Whenever TLS is implemented, this should return
// "cpu->CP15[CP15(CP15_THREAD_URO)];"
// which contains the address of the 0x200-byte TLS
if (opcode_2 == 3)
return Memory::KERNEL_MEMORY_VADDR;
}
if (InAPrivilegedMode(cpu))
{
if (crn == 0 && opcode_1 == 0)
{
if (crm == 0)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_MAIN_ID)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_CACHE_TYPE)];
if (opcode_2 == 3)
return cpu->CP15[CP15(CP15_TLB_TYPE)];
if (opcode_2 == 5)
return cpu->CP15[CP15(CP15_CPU_ID)];
}
else if (crm == 1)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_PROCESSOR_FEATURE_0)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_PROCESSOR_FEATURE_1)];
if (opcode_2 == 2)
return cpu->CP15[CP15(CP15_DEBUG_FEATURE_0)];
if (opcode_2 == 4)
return cpu->CP15[CP15(CP15_MEMORY_MODEL_FEATURE_0)];
if (opcode_2 == 5)
return cpu->CP15[CP15(CP15_MEMORY_MODEL_FEATURE_1)];
if (opcode_2 == 6)
return cpu->CP15[CP15(CP15_MEMORY_MODEL_FEATURE_2)];
if (opcode_2 == 7)
return cpu->CP15[CP15(CP15_MEMORY_MODEL_FEATURE_3)];
}
else if (crm == 2)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_ISA_FEATURE_0)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_ISA_FEATURE_1)];
if (opcode_2 == 2)
return cpu->CP15[CP15(CP15_ISA_FEATURE_2)];
if (opcode_2 == 3)
return cpu->CP15[CP15(CP15_ISA_FEATURE_3)];
if (opcode_2 == 4)
return cpu->CP15[CP15(CP15_ISA_FEATURE_4)];
}
}
if (crn == 1 && opcode_1 == 0 && crm == 0)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_CONTROL)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_AUXILIARY_CONTROL)];
if (opcode_2 == 2)
return cpu->CP15[CP15(CP15_COPROCESSOR_ACCESS_CONTROL)];
}
if (crn == 2 && opcode_1 == 0 && crm == 0)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_TRANSLATION_BASE_TABLE_0)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_TRANSLATION_BASE_TABLE_1)];
if (opcode_2 == 2)
return cpu->CP15[CP15(CP15_TRANSLATION_BASE_CONTROL)];
}
if (crn == 3 && opcode_1 == 0 && crm == 0 && opcode_2 == 0)
return cpu->CP15[CP15(CP15_DOMAIN_ACCESS_CONTROL)];
if (crn == 5 && opcode_1 == 0 && crm == 0)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_FAULT_STATUS)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_INSTR_FAULT_STATUS)];
}
if (crn == 6 && opcode_1 == 0 && crm == 0)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_FAULT_ADDRESS)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_WFAR)];
}
if (crn == 7 && opcode_1 == 0 && crm == 4 && opcode_2 == 0)
return cpu->CP15[CP15(CP15_PHYS_ADDRESS)];
if (crn == 9 && opcode_1 == 0 && crm == 0 && opcode_2 == 0)
return cpu->CP15[CP15(CP15_DATA_CACHE_LOCKDOWN)];
if (crn == 10 && opcode_1 == 0)
{
if (crm == 0 && opcode_2 == 0)
return cpu->CP15[CP15(CP15_TLB_LOCKDOWN)];
if (crm == 2)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_PRIMARY_REGION_REMAP)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_NORMAL_REGION_REMAP)];
}
}
if (crn == 13 && crm == 0)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_PID)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_CONTEXT_ID)];
if (opcode_2 == 4)
return cpu->CP15[CP15(CP15_THREAD_PRW)];
}
if (crn == 15)
{
if (opcode_1 == 0 && crm == 12)
{
if (opcode_2 == 0)
return cpu->CP15[CP15(CP15_PERFORMANCE_MONITOR_CONTROL)];
if (opcode_2 == 1)
return cpu->CP15[CP15(CP15_CYCLE_COUNTER)];
if (opcode_2 == 2)
return cpu->CP15[CP15(CP15_COUNT_0)];
if (opcode_2 == 3)
return cpu->CP15[CP15(CP15_COUNT_1)];
}
if (opcode_1 == 5 && opcode_2 == 2)
{
if (crm == 5)
return cpu->CP15[CP15(CP15_MAIN_TLB_LOCKDOWN_VIRT_ADDRESS)];
if (crm == 6)
return cpu->CP15[CP15(CP15_MAIN_TLB_LOCKDOWN_PHYS_ADDRESS)];
if (crm == 7)
return cpu->CP15[CP15(CP15_MAIN_TLB_LOCKDOWN_ATTRIBUTE)];
}
if (opcode_1 == 7 && crm == 1 && opcode_2 == 0)
return cpu->CP15[CP15(CP15_TLB_DEBUG_CONTROL)];
}
}
LOG_ERROR(Core_ARM11, "MRC CRn=%u, CRm=%u, OP1=%u OP2=%u is not implemented. Returning zero.", crn, crm, opcode_1, opcode_2);
return 0;
}

@ -50,6 +50,8 @@ enum {
EXCLUSIVE_TAG,
EXCLUSIVE_STATE,
EXCLUSIVE_RESULT,
// c0 - Information registers
CP15_BASE,
CP15_C0 = CP15_BASE,
CP15_C0_C0 = CP15_C0,
@ -57,15 +59,30 @@ enum {
CP15_CACHE_TYPE,
CP15_TCM_STATUS,
CP15_TLB_TYPE,
CP15_CPU_ID,
CP15_C0_C1,
CP15_PROCESSOR_FEATURE_0 = CP15_C0_C1,
CP15_PROCESSOR_FEATURE_1,
CP15_DEBUG_FEATURE_0,
CP15_AUXILIARY_FEATURE_0,
CP15_MEMORY_MODEL_FEATURE_0,
CP15_MEMORY_MODEL_FEATURE_1,
CP15_MEMORY_MODEL_FEATURE_2,
CP15_MEMORY_MODEL_FEATURE_3,
CP15_C0_C2,
CP15_ISA_FEATURE_0 = CP15_C0_C2,
CP15_ISA_FEATURE_1,
CP15_ISA_FEATURE_2,
CP15_ISA_FEATURE_3,
CP15_ISA_FEATURE_4,
// c1 - Control registers
CP15_C1_C0,
CP15_CONTROL = CP15_C1_C0,
CP15_AUXILIARY_CONTROL,
CP15_COPROCESSOR_ACCESS_CONTROL,
// c2 - Translation table registers
CP15_C2,
CP15_C2_C0 = CP15_C2,
CP15_TRANSLATION_BASE = CP15_C2_C0,
@ -74,24 +91,54 @@ enum {
CP15_TRANSLATION_BASE_CONTROL,
CP15_DOMAIN_ACCESS_CONTROL,
CP15_RESERVED,
/* Fault status */
// c5 - Fault status registers
CP15_FAULT_STATUS,
CP15_INSTR_FAULT_STATUS,
CP15_COMBINED_DATA_FSR = CP15_FAULT_STATUS,
CP15_INST_FSR,
/* Fault Address register */
// c6 - Fault Address registers
CP15_FAULT_ADDRESS,
CP15_COMBINED_DATA_FAR = CP15_FAULT_ADDRESS,
CP15_WFAR,
CP15_IFAR,
// c7 - Cache operation registers
CP15_PHYS_ADDRESS,
// c9 - Data cache lockdown register
CP15_DATA_CACHE_LOCKDOWN,
// c10 - TLB/Memory map registers
CP15_TLB_LOCKDOWN,
CP15_PRIMARY_REGION_REMAP,
CP15_NORMAL_REGION_REMAP,
// c13 - Thread related registers
CP15_PID,
CP15_CONTEXT_ID,
CP15_THREAD_UPRW, // Thread ID register - User/Privileged Read/Write
CP15_THREAD_URO, // Thread ID register - User Read Only (Privileged R/W)
CP15_THREAD_PRW, // Thread ID register - Privileged R/W only.
CP15_TLB_FAULT_ADDR, /* defined by SkyEye */
CP15_TLB_FAULT_STATUS, /* defined by SkyEye */
/* VFP registers */
// c15 - Performance and TLB lockdown registers
CP15_PERFORMANCE_MONITOR_CONTROL,
CP15_CYCLE_COUNTER,
CP15_COUNT_0,
CP15_COUNT_1,
CP15_READ_MAIN_TLB_LOCKDOWN_ENTRY,
CP15_WRITE_MAIN_TLB_LOCKDOWN_ENTRY,
CP15_MAIN_TLB_LOCKDOWN_VIRT_ADDRESS,
CP15_MAIN_TLB_LOCKDOWN_PHYS_ADDRESS,
CP15_MAIN_TLB_LOCKDOWN_ATTRIBUTE,
CP15_TLB_DEBUG_CONTROL,
// Skyeye defined
CP15_TLB_FAULT_ADDR,
CP15_TLB_FAULT_STATUS,
// VFP registers
VFP_BASE,
VFP_FPSID = VFP_BASE,
VFP_FPSCR,

@ -358,3 +358,5 @@ extern u32 ARMul_UnsignedSatQ(s32, u8, bool*);
extern bool InBigEndianMode(ARMul_State*);
extern bool InAPrivilegedMode(ARMul_State*);
extern u32 ReadCP15Register(ARMul_State* cpu, u32 crn, u32 opcode_1, u32 crm, u32 opcode_2);