// Copyright 2015 Citra Emulator Project // Licensed under GPLv2 or any later version // Refer to the license.txt file included. #ifdef _MSC_VER #pragma warning(disable : 4244) #endif #include #include "common/assert.h" #include "A32/skyeye_interpreter/skyeye_common/armstate.h" #include "A32/skyeye_interpreter/skyeye_common/vfp/vfp.h" namespace Common { inline u16 swap16(u16 data) {return (data >> 8) | (data << 8);} inline u32 swap32(u32 data) {return (swap16(data) << 16) | swap16(data >> 16);} inline u64 swap64(u64 data) {return ((u64)swap32((u32)data) << 32) | (u64)swap32(data >> 32);} } ARMul_State::ARMul_State(PrivilegeMode initial_mode) { Reset(); ChangePrivilegeMode(initial_mode); } void ARMul_State::ChangePrivilegeMode(u32 new_mode) { if (Mode == new_mode) return; if (new_mode != USERBANK) { switch (Mode) { case SYSTEM32MODE: // Shares registers with user mode case USER32MODE: Reg_usr[0] = Reg[13]; Reg_usr[1] = Reg[14]; break; case IRQ32MODE: Reg_irq[0] = Reg[13]; Reg_irq[1] = Reg[14]; Spsr[IRQBANK] = Spsr_copy; break; case SVC32MODE: Reg_svc[0] = Reg[13]; Reg_svc[1] = Reg[14]; Spsr[SVCBANK] = Spsr_copy; break; case ABORT32MODE: Reg_abort[0] = Reg[13]; Reg_abort[1] = Reg[14]; Spsr[ABORTBANK] = Spsr_copy; break; case UNDEF32MODE: Reg_undef[0] = Reg[13]; Reg_undef[1] = Reg[14]; Spsr[UNDEFBANK] = Spsr_copy; break; case FIQ32MODE: std::copy(Reg.begin() + 8, Reg.end() - 1, Reg_firq.begin()); Spsr[FIQBANK] = Spsr_copy; break; } switch (new_mode) { case USER32MODE: Reg[13] = Reg_usr[0]; Reg[14] = Reg_usr[1]; Bank = USERBANK; break; case IRQ32MODE: Reg[13] = Reg_irq[0]; Reg[14] = Reg_irq[1]; Spsr_copy = Spsr[IRQBANK]; Bank = IRQBANK; break; case SVC32MODE: Reg[13] = Reg_svc[0]; Reg[14] = Reg_svc[1]; Spsr_copy = Spsr[SVCBANK]; Bank = SVCBANK; break; case ABORT32MODE: Reg[13] = Reg_abort[0]; Reg[14] = Reg_abort[1]; Spsr_copy = Spsr[ABORTBANK]; Bank = ABORTBANK; break; case UNDEF32MODE: Reg[13] = Reg_undef[0]; Reg[14] = Reg_undef[1]; Spsr_copy = Spsr[UNDEFBANK]; Bank = UNDEFBANK; break; case FIQ32MODE: std::copy(Reg_firq.begin(), Reg_firq.end(), Reg.begin() + 8); Spsr_copy = Spsr[FIQBANK]; Bank = FIQBANK; break; case SYSTEM32MODE: // Shares registers with user mode. Reg[13] = Reg_usr[0]; Reg[14] = Reg_usr[1]; Bank = SYSTEMBANK; break; } // Set the mode bits in the APSR Cpsr = (Cpsr & ~Mode) | new_mode; Mode = new_mode; } } // Performs a reset void ARMul_State::Reset() { VFPInit(this); // Set stack pointer to the top of the stack Reg[13] = 0x10000000; Reg[15] = 0; Cpsr = INTBITS | SVC32MODE; Mode = SVC32MODE; Bank = SVCBANK; ResetMPCoreCP15Registers(); NresetSig = HIGH; NfiqSig = HIGH; NirqSig = HIGH; NtransSig = (Mode & 3) ? HIGH : LOW; abortSig = LOW; NumInstrs = 0; Emulate = RUN; } // Resets certain MPCore CP15 values to their ARM-defined reset values. void ARMul_State::ResetMPCoreCP15Registers() { // c0 CP15[CP15_MAIN_ID] = 0x410FB024; CP15[CP15_TLB_TYPE] = 0x00000800; CP15[CP15_PROCESSOR_FEATURE_0] = 0x00000111; CP15[CP15_PROCESSOR_FEATURE_1] = 0x00000001; CP15[CP15_DEBUG_FEATURE_0] = 0x00000002; CP15[CP15_MEMORY_MODEL_FEATURE_0] = 0x01100103; CP15[CP15_MEMORY_MODEL_FEATURE_1] = 0x10020302; CP15[CP15_MEMORY_MODEL_FEATURE_2] = 0x01222000; CP15[CP15_MEMORY_MODEL_FEATURE_3] = 0x00000000; CP15[CP15_ISA_FEATURE_0] = 0x00100011; CP15[CP15_ISA_FEATURE_1] = 0x12002111; CP15[CP15_ISA_FEATURE_2] = 0x11221011; CP15[CP15_ISA_FEATURE_3] = 0x01102131; CP15[CP15_ISA_FEATURE_4] = 0x00000141; // c1 CP15[CP15_CONTROL] = 0x00054078; CP15[CP15_AUXILIARY_CONTROL] = 0x0000000F; CP15[CP15_COPROCESSOR_ACCESS_CONTROL] = 0x00000000; // c2 CP15[CP15_TRANSLATION_BASE_TABLE_0] = 0x00000000; CP15[CP15_TRANSLATION_BASE_TABLE_1] = 0x00000000; CP15[CP15_TRANSLATION_BASE_CONTROL] = 0x00000000; // c3 CP15[CP15_DOMAIN_ACCESS_CONTROL] = 0x00000000; // c7 CP15[CP15_PHYS_ADDRESS] = 0x00000000; // c9 CP15[CP15_DATA_CACHE_LOCKDOWN] = 0xFFFFFFF0; // c10 CP15[CP15_TLB_LOCKDOWN] = 0x00000000; CP15[CP15_PRIMARY_REGION_REMAP] = 0x00098AA4; CP15[CP15_NORMAL_REGION_REMAP] = 0x44E048E0; // c13 CP15[CP15_PID] = 0x00000000; CP15[CP15_CONTEXT_ID] = 0x00000000; CP15[CP15_THREAD_UPRW] = 0x00000000; CP15[CP15_THREAD_URO] = 0x00000000; CP15[CP15_THREAD_PRW] = 0x00000000; // c15 CP15[CP15_PERFORMANCE_MONITOR_CONTROL] = 0x00000000; CP15[CP15_MAIN_TLB_LOCKDOWN_VIRT_ADDRESS] = 0x00000000; CP15[CP15_MAIN_TLB_LOCKDOWN_PHYS_ADDRESS] = 0x00000000; CP15[CP15_MAIN_TLB_LOCKDOWN_ATTRIBUTE] = 0x00000000; CP15[CP15_TLB_DEBUG_CONTROL] = 0x00000000; } //static void CheckMemoryBreakpoint(u32 address, GDBStub::BreakpointType type) //{ // if (GDBStub::g_server_enabled && GDBStub::CheckBreakpoint(address, type)) { // LOG_DEBUG(Debug, "Found memory breakpoint @ %08x", address); // GDBStub::Break(true); // } //} u8 ARMul_State::ReadMemory8(u32 address) const { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Read); return user_callbacks->MemoryRead8(address); } u16 ARMul_State::ReadMemory16(u32 address) const { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Read); u16 data = user_callbacks->MemoryRead16(address); if (InBigEndianMode()) data = Common::swap16(data); return data; } u32 ARMul_State::ReadMemory32(u32 address) const { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Read); u32 data = user_callbacks->MemoryRead32(address); if (InBigEndianMode()) data = Common::swap32(data); return data; } u64 ARMul_State::ReadMemory64(u32 address) const { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Read); u64 data = user_callbacks->MemoryRead64(address); if (InBigEndianMode()) data = Common::swap64(data); return data; } void ARMul_State::WriteMemory8(u32 address, u8 data) { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Write); user_callbacks->MemoryWrite8(address, data); } void ARMul_State::WriteMemory16(u32 address, u16 data) { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Write); if (InBigEndianMode()) data = Common::swap16(data); user_callbacks->MemoryWrite16(address, data); } void ARMul_State::WriteMemory32(u32 address, u32 data) { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Write); if (InBigEndianMode()) data = Common::swap32(data); user_callbacks->MemoryWrite32(address, data); } void ARMul_State::WriteMemory64(u32 address, u64 data) { // CheckMemoryBreakpoint(address, GDBStub::BreakpointType::Write); if (InBigEndianMode()) data = Common::swap64(data); user_callbacks->MemoryWrite64(address, data); } // 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 ARMul_State::ReadCP15Register(u32 crn, u32 opcode_1, u32 crm, u32 opcode_2) const { // Unprivileged registers if (crn == 13 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 2) return CP15[CP15_THREAD_UPRW]; if (opcode_2 == 3) return CP15[CP15_THREAD_URO]; } if (InAPrivilegedMode()) { if (crn == 0 && opcode_1 == 0) { if (crm == 0) { if (opcode_2 == 0) return CP15[CP15_MAIN_ID]; if (opcode_2 == 1) return CP15[CP15_CACHE_TYPE]; if (opcode_2 == 3) return CP15[CP15_TLB_TYPE]; if (opcode_2 == 5) return CP15[CP15_CPU_ID]; } else if (crm == 1) { if (opcode_2 == 0) return CP15[CP15_PROCESSOR_FEATURE_0]; if (opcode_2 == 1) return CP15[CP15_PROCESSOR_FEATURE_1]; if (opcode_2 == 2) return CP15[CP15_DEBUG_FEATURE_0]; if (opcode_2 == 4) return CP15[CP15_MEMORY_MODEL_FEATURE_0]; if (opcode_2 == 5) return CP15[CP15_MEMORY_MODEL_FEATURE_1]; if (opcode_2 == 6) return CP15[CP15_MEMORY_MODEL_FEATURE_2]; if (opcode_2 == 7) return CP15[CP15_MEMORY_MODEL_FEATURE_3]; } else if (crm == 2) { if (opcode_2 == 0) return CP15[CP15_ISA_FEATURE_0]; if (opcode_2 == 1) return CP15[CP15_ISA_FEATURE_1]; if (opcode_2 == 2) return CP15[CP15_ISA_FEATURE_2]; if (opcode_2 == 3) return CP15[CP15_ISA_FEATURE_3]; if (opcode_2 == 4) return CP15[CP15_ISA_FEATURE_4]; } } if (crn == 1 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) return CP15[CP15_CONTROL]; if (opcode_2 == 1) return CP15[CP15_AUXILIARY_CONTROL]; if (opcode_2 == 2) return CP15[CP15_COPROCESSOR_ACCESS_CONTROL]; } if (crn == 2 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) return CP15[CP15_TRANSLATION_BASE_TABLE_0]; if (opcode_2 == 1) return CP15[CP15_TRANSLATION_BASE_TABLE_1]; if (opcode_2 == 2) return CP15[CP15_TRANSLATION_BASE_CONTROL]; } if (crn == 3 && opcode_1 == 0 && crm == 0 && opcode_2 == 0) return CP15[CP15_DOMAIN_ACCESS_CONTROL]; if (crn == 5 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) return CP15[CP15_FAULT_STATUS]; if (opcode_2 == 1) return CP15[CP15_INSTR_FAULT_STATUS]; } if (crn == 6 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) return CP15[CP15_FAULT_ADDRESS]; if (opcode_2 == 1) return CP15[CP15_WFAR]; } if (crn == 7 && opcode_1 == 0 && crm == 4 && opcode_2 == 0) return CP15[CP15_PHYS_ADDRESS]; if (crn == 9 && opcode_1 == 0 && crm == 0 && opcode_2 == 0) return CP15[CP15_DATA_CACHE_LOCKDOWN]; if (crn == 10 && opcode_1 == 0) { if (crm == 0 && opcode_2 == 0) return CP15[CP15_TLB_LOCKDOWN]; if (crm == 2) { if (opcode_2 == 0) return CP15[CP15_PRIMARY_REGION_REMAP]; if (opcode_2 == 1) return CP15[CP15_NORMAL_REGION_REMAP]; } } if (crn == 13 && crm == 0) { if (opcode_2 == 0) return CP15[CP15_PID]; if (opcode_2 == 1) return CP15[CP15_CONTEXT_ID]; if (opcode_2 == 4) return CP15[CP15_THREAD_PRW]; } if (crn == 15) { if (opcode_1 == 0 && crm == 12) { if (opcode_2 == 0) return CP15[CP15_PERFORMANCE_MONITOR_CONTROL]; if (opcode_2 == 1) return CP15[CP15_CYCLE_COUNTER]; if (opcode_2 == 2) return CP15[CP15_COUNT_0]; if (opcode_2 == 3) return CP15[CP15_COUNT_1]; } if (opcode_1 == 5 && opcode_2 == 2) { if (crm == 5) return CP15[CP15_MAIN_TLB_LOCKDOWN_VIRT_ADDRESS]; if (crm == 6) return CP15[CP15_MAIN_TLB_LOCKDOWN_PHYS_ADDRESS]; if (crm == 7) return CP15[CP15_MAIN_TLB_LOCKDOWN_ATTRIBUTE]; } if (opcode_1 == 7 && crm == 1 && opcode_2 == 0) return 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); ASSERT_MSG(false, "MRC CRn={}, CRm={}, OP1={} OP2={} is not implemented. Returning zero.", crn, crm, opcode_1, opcode_2); return 0; } // Write to the CP15 registers. Used with implementation of the MCR instruction. // Note that since the 3DS does not have the hypervisor extensions, these registers // are not implemented. void ARMul_State::WriteCP15Register(u32 value, u32 crn, u32 opcode_1, u32 crm, u32 opcode_2) { if (InAPrivilegedMode()) { if (crn == 1 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) CP15[CP15_CONTROL] = value; else if (opcode_2 == 1) CP15[CP15_AUXILIARY_CONTROL] = value; else if (opcode_2 == 2) CP15[CP15_COPROCESSOR_ACCESS_CONTROL] = value; } else if (crn == 2 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) CP15[CP15_TRANSLATION_BASE_TABLE_0] = value; else if (opcode_2 == 1) CP15[CP15_TRANSLATION_BASE_TABLE_1] = value; else if (opcode_2 == 2) CP15[CP15_TRANSLATION_BASE_CONTROL] = value; } else if (crn == 3 && opcode_1 == 0 && crm == 0 && opcode_2 == 0) { CP15[CP15_DOMAIN_ACCESS_CONTROL] = value; } else if (crn == 5 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) CP15[CP15_FAULT_STATUS] = value; else if (opcode_2 == 1) CP15[CP15_INSTR_FAULT_STATUS] = value; } else if (crn == 6 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) CP15[CP15_FAULT_ADDRESS] = value; else if (opcode_2 == 1) CP15[CP15_WFAR] = value; } else if (crn == 7 && opcode_1 == 0) { if (crm == 0 && opcode_2 == 4) { CP15[CP15_WAIT_FOR_INTERRUPT] = value; } else if (crm == 4 && opcode_2 == 0) { // NOTE: Not entirely accurate. This should do permission checks. //CP15[CP15_PHYS_ADDRESS] = Memory::VirtualToPhysicalAddress(value); } else if (crm == 5) { if (opcode_2 == 0) CP15[CP15_INVALIDATE_INSTR_CACHE] = value; else if (opcode_2 == 1) CP15[CP15_INVALIDATE_INSTR_CACHE_USING_MVA] = value; else if (opcode_2 == 2) CP15[CP15_INVALIDATE_INSTR_CACHE_USING_INDEX] = value; else if (opcode_2 == 6) CP15[CP15_FLUSH_BRANCH_TARGET_CACHE] = value; else if (opcode_2 == 7) CP15[CP15_FLUSH_BRANCH_TARGET_CACHE_ENTRY] = value; } else if (crm == 6) { if (opcode_2 == 0) CP15[CP15_INVALIDATE_DATA_CACHE] = value; else if (opcode_2 == 1) CP15[CP15_INVALIDATE_DATA_CACHE_LINE_USING_MVA] = value; else if (opcode_2 == 2) CP15[CP15_INVALIDATE_DATA_CACHE_LINE_USING_INDEX] = value; } else if (crm == 7 && opcode_2 == 0) { CP15[CP15_INVALIDATE_DATA_AND_INSTR_CACHE] = value; } else if (crm == 10) { if (opcode_2 == 0) CP15[CP15_CLEAN_DATA_CACHE] = value; else if (opcode_2 == 1) CP15[CP15_CLEAN_DATA_CACHE_LINE_USING_MVA] = value; else if (opcode_2 == 2) CP15[CP15_CLEAN_DATA_CACHE_LINE_USING_INDEX] = value; } else if (crm == 14) { if (opcode_2 == 0) CP15[CP15_CLEAN_AND_INVALIDATE_DATA_CACHE] = value; else if (opcode_2 == 1) CP15[CP15_CLEAN_AND_INVALIDATE_DATA_CACHE_LINE_USING_MVA] = value; else if (opcode_2 == 2) CP15[CP15_CLEAN_AND_INVALIDATE_DATA_CACHE_LINE_USING_INDEX] = value; } } else if (crn == 8 && opcode_1 == 0) { if (crm == 5) { if (opcode_2 == 0) CP15[CP15_INVALIDATE_ITLB] = value; else if (opcode_2 == 1) CP15[CP15_INVALIDATE_ITLB_SINGLE_ENTRY] = value; else if (opcode_2 == 2) CP15[CP15_INVALIDATE_ITLB_ENTRY_ON_ASID_MATCH] = value; else if (opcode_2 == 3) CP15[CP15_INVALIDATE_ITLB_ENTRY_ON_MVA] = value; } else if (crm == 6) { if (opcode_2 == 0) CP15[CP15_INVALIDATE_DTLB] = value; else if (opcode_2 == 1) CP15[CP15_INVALIDATE_DTLB_SINGLE_ENTRY] = value; else if (opcode_2 == 2) CP15[CP15_INVALIDATE_DTLB_ENTRY_ON_ASID_MATCH] = value; else if (opcode_2 == 3) CP15[CP15_INVALIDATE_DTLB_ENTRY_ON_MVA] = value; } else if (crm == 7) { if (opcode_2 == 0) CP15[CP15_INVALIDATE_UTLB] = value; else if (opcode_2 == 1) CP15[CP15_INVALIDATE_UTLB_SINGLE_ENTRY] = value; else if (opcode_2 == 2) CP15[CP15_INVALIDATE_UTLB_ENTRY_ON_ASID_MATCH] = value; else if (opcode_2 == 3) CP15[CP15_INVALIDATE_UTLB_ENTRY_ON_MVA] = value; } } else if (crn == 9 && opcode_1 == 0 && crm == 0 && opcode_2 == 0) { CP15[CP15_DATA_CACHE_LOCKDOWN] = value; } else if (crn == 10 && opcode_1 == 0) { if (crm == 0 && opcode_2 == 0) { CP15[CP15_TLB_LOCKDOWN] = value; } else if (crm == 2) { if (opcode_2 == 0) CP15[CP15_PRIMARY_REGION_REMAP] = value; else if (opcode_2 == 1) CP15[CP15_NORMAL_REGION_REMAP] = value; } } else if (crn == 13 && opcode_1 == 0 && crm == 0) { if (opcode_2 == 0) CP15[CP15_PID] = value; else if (opcode_2 == 1) CP15[CP15_CONTEXT_ID] = value; else if (opcode_2 == 3) CP15[CP15_THREAD_URO] = value; else if (opcode_2 == 4) CP15[CP15_THREAD_PRW] = value; } else if (crn == 15) { if (opcode_1 == 0 && crm == 12) { if (opcode_2 == 0) CP15[CP15_PERFORMANCE_MONITOR_CONTROL] = value; else if (opcode_2 == 1) CP15[CP15_CYCLE_COUNTER] = value; else if (opcode_2 == 2) CP15[CP15_COUNT_0] = value; else if (opcode_2 == 3) CP15[CP15_COUNT_1] = value; } else if (opcode_1 == 5) { if (crm == 4) { if (opcode_2 == 2) CP15[CP15_READ_MAIN_TLB_LOCKDOWN_ENTRY] = value; else if (opcode_2 == 4) CP15[CP15_WRITE_MAIN_TLB_LOCKDOWN_ENTRY] = value; } else if (crm == 5 && opcode_2 == 2) { CP15[CP15_MAIN_TLB_LOCKDOWN_VIRT_ADDRESS] = value; } else if (crm == 6 && opcode_2 == 2) { CP15[CP15_MAIN_TLB_LOCKDOWN_PHYS_ADDRESS] = value; } else if (crm == 7 && opcode_2 == 2) { CP15[CP15_MAIN_TLB_LOCKDOWN_ATTRIBUTE] = value; } } else if (opcode_1 == 7 && crm == 1 && opcode_2 == 0) { CP15[CP15_TLB_DEBUG_CONTROL] = value; } } } // Unprivileged registers if (crn == 7 && opcode_1 == 0 && crm == 5 && opcode_2 == 4) { CP15[CP15_FLUSH_PREFETCH_BUFFER] = value; } else if (crn == 7 && opcode_1 == 0 && crm == 10) { if (opcode_2 == 4) CP15[CP15_DATA_SYNC_BARRIER] = value; else if (opcode_2 == 5) CP15[CP15_DATA_MEMORY_BARRIER] = value; } else if (crn == 13 && opcode_1 == 0 && crm == 0 && opcode_2 == 2) { CP15[CP15_THREAD_UPRW] = value; } }