/* DingusPPC - The Experimental PowerPC Macintosh emulator Copyright (C) 2018-23 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 . */ #ifndef PPCEMU_H #define PPCEMU_H #include #include #include #include #include #include #include // Uncomment this to help debug the emulator further //#define EXHAUSTIVE_DEBUG 1 // Uncomment this to have a more graceful approach to illegal opcodes //#define ILLEGAL_OP_SAFE 1 //#define CPU_PROFILING // enable CPU profiling /** type of compiler used during execution */ enum EXEC_MODE:uint32_t { interpreter = 0, debugger = 1, threaded_int = 2, jit = 3 }; enum endian_switch { big_end = 0, little_end = 1 }; typedef void (*PPCOpcode)(void); union FPR_storage { double dbl64_r; // double floating-point representation uint64_t int64_r; // double integer representation }; /** Except for the floating-point registers, all registers require 32 bits for representation. Floating-point registers need 64 bits. gpr = General Purpose Register fpr = Floating Point (FP) Register cr = Condition Register tbr = Time Base Register fpscr = FP Status and Condition Register spr = Special Register msr = Machine State Register sr = Segment Register **/ typedef struct struct_ppc_state { FPR_storage fpr[32]; uint32_t pc; // Referred as the CIA in the PPC manual uint32_t gpr[32]; uint32_t cr; uint32_t fpscr; uint32_t tbr[2]; uint32_t spr[1024]; uint32_t msr; uint32_t sr[16]; bool reserve; // reserve bit used for lwarx and stcwx } SetPRS; extern SetPRS ppc_state; /** symbolic names for frequently used SPRs */ enum SPR : int { MQ = 0, XER = 1, RTCU_U = 4, // user RTCU RTCL_U = 5, // user RTCL LR = 8, CTR = 9, DSISR = 18, DAR = 19, RTCU_S = 20, // supervisor RTCU RTCL_S = 21, // supervisor RTCL DEC = 22, // decrementer SDR1 = 25, SRR0 = 26, SRR1 = 27, TBL_U = 268, // user mode TBL TBU_U = 269, // user mode TBU SPRG0 = 272, SPRG1 = 273, SPRG2 = 274, SPRG3 = 275, TBL_S = 284, // supervisor TBL TBU_S = 285, // supervisor TBU PVR = 287, MMCR0 = 952, PMC1 = 953, PMC2 = 954, SIA = 955, MMCR1 = 956, SDA = 959, HID0 = 1008, HID1 = 1009, }; /** symbolic names for common PPC processors */ enum PPC_VER : uint32_t { MPC601 = 0x00010001, MPC603 = 0x00030001, MPC604 = 0x00040001, MPC603E = 0x00060101, MPC603EV = 0x00070101, MPC750 = 0x00080200, MPC604E = 0x00090202, MPC970MP = 0x00440100, }; /** typedef struct struct_ppc64_state { FPR_storage fpr [32]; uint64_t pc; //Referred as the CIA in the PPC manual uint64_t gpr [32]; uint32_t cr; uint32_t fpscr; uint32_t tbr [2]; uint64_t spr [1024]; uint32_t msr; uint32_t sr [16]; bool reserve; //reserve bit used for lwarx and stcwx } SetPRS64; extern SetPRS64 ppc_state64; **/ /** Specific SPRS to be weary of: USER MODEL SPR 1 - XER SPR 8 - Link Register / Branch b0 - Summary Overflow b1 - Overflow b2 - Carry b25-31 - Number of bytes to transfer SPR 9 - Count SUPERVISOR MODEL 19 is the Data Address Register 22 is the Decrementer 26, 27 are the Save and Restore Registers (SRR0, SRR1) 272 - 275 are the SPRGs 284 - 285 for writing to the TBR's. 528 - 535 are the Instruction BAT registers 536 - 543 are the Data BAT registers **/ extern uint64_t timebase_counter; extern uint64_t tbr_wr_timestamp; extern uint64_t dec_wr_timestamp; extern uint64_t rtc_timestamp; extern uint64_t tbr_wr_value; extern uint32_t dec_wr_value; extern uint32_t tbr_freq_ghz; extern uint64_t tbr_period_ns; extern uint32_t rtc_lo, rtc_hi; extern uint32_t reg_s; extern uint32_t reg_d; extern uint32_t reg_a; extern uint32_t reg_b; extern uint32_t reg_c; extern uint32_t uimm; extern int32_t simm; // Used for GP calcs extern uint32_t ppc_result_a; extern uint32_t ppc_result_b; extern uint32_t ppc_result_d; /* Flags for controlling interpreter execution. */ enum { EXEF_BRANCH = 1 << 0, EXEF_EXCEPTION = 1 << 1, EXEF_RFI = 1 << 2, EXEF_TIMER = 1 << 7 }; enum CR_select : int32_t { CR0_field = (0xF << 28), CR1_field = (0xF << 24), }; // Define bit masks for CR0. // To use them in other CR fields, just right shift it by 4*CR_num bits. enum CRx_bit : uint32_t { CR_SO = 1UL << 28, CR_EQ = 1UL << 29, CR_GT = 1UL << 30, CR_LT = 1UL << 31 }; enum CR1_bit : uint32_t { CR1_OX = 24, CR1_VX, CR1_FEX, CR1_FX, }; enum FPSCR : uint32_t { RN_MASK = 0x3, NI = 1UL << 2, XE = 1UL << 3, ZE = 1UL << 4, UE = 1UL << 5, OE = 1UL << 6, VE = 1UL << 7, VXCVI = 1UL << 8, VXSQRT = 1UL << 9, VXSOFT = 1UL << 10, FPCC_FUNAN = 1UL << 12, FPCC_ZERO = 1UL << 13, FPCC_POS = 1UL << 14, FPCC_NEG = 1UL << 15, FPCC_MASK = FPCC_NEG | FPCC_POS | FPCC_ZERO | FPCC_FUNAN, FPRCD = 1UL << 16, FPRF_MASK = FPRCD | FPCC_MASK, FI = 1UL << 17, FR = 1UL << 18, VXVC = 1UL << 19, VXIMZ = 1UL << 20, VXZDZ = 1UL << 21, VXIDI = 1UL << 22, VXISI = 1UL << 23, VXSNAN = 1UL << 24, XX = 1UL << 25, ZX = 1UL << 26, UX = 1UL << 27, OX = 1UL << 28, VX = 1UL << 29, FEX = 1UL << 30, FX = 1UL << 31 }; enum MSR : int { LE = 0x1, //little endian mode RI = 0x2, DR = 0x10, IR = 0x20, IP = 0x40, FE1 = 0x100, BE = 0x200, SE = 0x400, FE0 = 0x800, ME = 0x1000, FP = 0x2000, PR = 0x4000, EE = 0x8000, //external interrupt ILE = 0x10000, POW = 0x40000 }; enum XER : uint32_t { CA = 1UL << 29, OV = 1UL << 30, SO = 1UL << 31 }; //for inf and nan checks enum FPOP : int { DIV = 0x12, SUB = 0x14, ADD = 0x15, SQRT = 0x16, MUL = 0x19 }; /** PowerPC exception types. */ enum class Except_Type { EXC_SYSTEM_RESET = 1, EXC_MACHINE_CHECK, EXC_DSI, EXC_ISI, EXC_EXT_INT, EXC_ALIGNMENT, EXC_PROGRAM, EXC_NO_FPU, EXC_DECR, EXC_SYSCALL = 12, EXC_TRACE = 13 }; /** Program Exception subclasses. */ enum Exc_Cause : uint32_t { FPU_OFF = 1 << (31 - 11), ILLEGAL_OP = 1 << (31 - 12), NOT_ALLOWED = 1 << (31 - 13), TRAP = 1 << (31 - 14), }; extern unsigned exec_flags; extern jmp_buf exc_env; extern bool grab_return; enum Po_Cause : int { po_none, po_starting_up, po_shut_down, po_shutting_down, po_disassemble_on, po_disassemble_off, po_enter_debugger, po_entered_debugger, po_signal_interrupt, }; extern bool power_on; extern Po_Cause power_off_reason; extern bool int_pin; extern bool dec_exception_pending; extern bool is_601; // For PowerPC 601 Emulation extern bool is_altivec; // For Altivec Emulation extern bool is_64bit; // For PowerPC G5 Emulation extern bool rc_flag; // Record flag extern bool oe_flag; // Overflow flag // Important Addressing Integers extern uint32_t ppc_cur_instruction; extern uint32_t ppc_effective_address; extern uint32_t ppc_next_instruction_address; inline void ppc_set_cur_instruction(const uint8_t* ptr) { ppc_cur_instruction = READ_DWORD_BE_A(ptr); } // Profiling Stats #ifdef CPU_PROFILING extern uint64_t num_executed_instrs; extern uint64_t num_supervisor_instrs; extern uint64_t num_int_loads; extern uint64_t num_int_stores; extern uint64_t exceptions_processed; #endif // Function prototypes extern void ppc_cpu_init(MemCtrlBase* mem_ctrl, uint32_t cpu_version, uint64_t tb_freq); extern void ppc_mmu_init(); void ppc_illegalop(); void ppc_fpu_off(); void ppc_assert_int(); void ppc_release_int(); //void ppc_opcode4(); void ppc_opcode16(); void ppc_opcode18(); void ppc_opcode19(); void ppc_opcode31(); void ppc_opcode59(); void ppc_opcode63(); void initialize_ppc_opcode_tables(); extern double fp_return_double(uint32_t reg); extern uint64_t fp_return_uint64(uint32_t reg); extern void ppc_grab_regsda(); extern void ppc_grab_regsdb(); extern void ppc_grab_regssa(); extern void ppc_grab_regssb(); extern void ppc_grab_regsdab(); extern void ppc_grab_regssab(); extern void ppc_grab_regsdasimm(); extern void ppc_grab_regsdauimm(); extern void ppc_grab_regsasimm(); extern void ppc_grab_regssauimm(); extern void ppc_store_result_regd(); extern void ppc_store_result_rega(); void ppc_changecrf0(uint32_t set_result); void set_host_rounding_mode(uint8_t mode); void update_fpscr(uint32_t new_fpscr); /* Exception handlers. */ void ppc_exception_handler(Except_Type exception_type, uint32_t srr1_bits); [[noreturn]] void dbg_exception_handler(Except_Type exception_type, uint32_t srr1_bits); void ppc_floating_point_exception(); void ppc_alignment_exception(uint32_t ea); // MEMORY DECLARATIONS extern MemCtrlBase* mem_ctrl_instance; extern void add_ctx_sync_action(const std::function &); extern void do_ctx_sync(void); // The functions used by the PowerPC processor namespace dppc_interpreter { extern void ppc_bcctr(); extern void ppc_bcctrl(); extern void ppc_bclr(); extern void ppc_bclrl(); extern void ppc_crand(); extern void ppc_crandc(); extern void ppc_creqv(); extern void ppc_crnand(); extern void ppc_crnor(); extern void ppc_cror(); extern void ppc_crorc(); extern void ppc_crxor(); extern void ppc_isync(); extern void ppc_add(); extern void ppc_addc(); extern void ppc_adde(); extern void ppc_addme(); extern void ppc_addze(); extern void ppc_and(); extern void ppc_andc(); extern void ppc_cmp(); extern void ppc_cmpl(); extern void ppc_cntlzw(); extern void ppc_dcbf(); extern void ppc_dcbi(); extern void ppc_dcbst(); extern void ppc_dcbt(); extern void ppc_dcbtst(); extern void ppc_dcbz(); extern void ppc_divw(); extern void ppc_divwu(); extern void ppc_eciwx(); extern void ppc_ecowx(); extern void ppc_eieio(); extern void ppc_eqv(); extern void ppc_extsb(); extern void ppc_extsh(); extern void ppc_icbi(); extern void ppc_mftb(); extern void ppc_lhzux(); extern void ppc_lhzx(); extern void ppc_lhaux(); extern void ppc_lhax(); extern void ppc_lhbrx(); extern void ppc_lwarx(); extern void ppc_lbzux(); extern void ppc_lbzx(); extern void ppc_lwbrx(); extern void ppc_lwzux(); extern void ppc_lwzx(); extern void ppc_mcrxr(); extern void ppc_mfcr(); extern void ppc_mulhwu(); extern void ppc_mulhw(); extern void ppc_mullw(); extern void ppc_nand(); extern void ppc_neg(); extern void ppc_nor(); extern void ppc_or(); extern void ppc_orc(); extern void ppc_slw(); extern void ppc_srw(); extern void ppc_sraw(); extern void ppc_srawi(); extern void ppc_stbx(); extern void ppc_stbux(); extern void ppc_stfiwx(); extern void ppc_sthx(); extern void ppc_sthux(); extern void ppc_sthbrx(); extern void ppc_stwx(); extern void ppc_stwcx(); extern void ppc_stwux(); extern void ppc_stwbrx(); extern void ppc_subf(); extern void ppc_subfc(); extern void ppc_subfe(); extern void ppc_subfme(); extern void ppc_subfze(); extern void ppc_sync(); extern void ppc_tlbia(); extern void ppc_tlbie(); extern void ppc_tlbli(); extern void ppc_tlbld(); extern void ppc_tlbsync(); extern void ppc_tw(); extern void ppc_xor(); extern void ppc_lswi(); extern void ppc_lswx(); extern void ppc_stswi(); extern void ppc_stswx(); extern void ppc_mfsr(); extern void ppc_mfsrin(); extern void ppc_mtsr(); extern void ppc_mtsrin(); extern void ppc_mcrf(); extern void ppc_mtcrf(); extern void ppc_mfmsr(); extern void ppc_mfspr(); extern void ppc_mtmsr(); extern void ppc_mtspr(); extern void ppc_mtfsb0(); extern void ppc_mtfsb1(); extern void ppc_mcrfs(); extern void ppc_fmr(); extern void ppc_mffs(); extern void ppc_mffs_601(); extern void ppc_mtfsf(); extern void ppc_mtfsfi(); extern void ppc_addi(); extern void ppc_addic(); extern void ppc_addicdot(); extern void ppc_addis(); extern void ppc_andidot(); extern void ppc_andisdot(); extern void ppc_b(); extern void ppc_ba(); extern void ppc_bl(); extern void ppc_bla(); extern void ppc_bc(); extern void ppc_bca(); extern void ppc_bcl(); extern void ppc_bcla(); extern void ppc_cmpi(); extern void ppc_cmpli(); extern void ppc_lbz(); extern void ppc_lbzu(); extern void ppc_lha(); extern void ppc_lhau(); extern void ppc_lhz(); extern void ppc_lhzu(); extern void ppc_lwz(); extern void ppc_lwzu(); extern void ppc_lmw(); extern void ppc_mulli(); extern void ppc_ori(); extern void ppc_oris(); extern void ppc_rfi(); extern void ppc_rlwimi(); extern void ppc_rlwinm(); extern void ppc_rlwnm(); extern void ppc_sc(); extern void ppc_stb(); extern void ppc_stbu(); extern void ppc_sth(); extern void ppc_sthu(); extern void ppc_stw(); extern void ppc_stwu(); extern void ppc_stmw(); extern void ppc_subfic(); extern void ppc_twi(); extern void ppc_xori(); extern void ppc_xoris(); extern void ppc_lfs(); extern void ppc_lfsu(); extern void ppc_lfsx(); extern void ppc_lfsux(); extern void ppc_lfd(); extern void ppc_lfdu(); extern void ppc_lfdx(); extern void ppc_lfdux(); extern void ppc_stfs(); extern void ppc_stfsu(); extern void ppc_stfsx(); extern void ppc_stfsux(); extern void ppc_stfd(); extern void ppc_stfdu(); extern void ppc_stfdx(); extern void ppc_stfdux(); extern void ppc_fadd(); extern void ppc_fsub(); extern void ppc_fmul(); extern void ppc_fdiv(); extern void ppc_fadds(); extern void ppc_fsubs(); extern void ppc_fmuls(); extern void ppc_fdivs(); extern void ppc_fmadd(); extern void ppc_fmsub(); extern void ppc_fnmadd(); extern void ppc_fnmsub(); extern void ppc_fmadds(); extern void ppc_fmsubs(); extern void ppc_fnmadds(); extern void ppc_fnmsubs(); extern void ppc_fabs(); extern void ppc_fnabs(); extern void ppc_fneg(); extern void ppc_fsel(); extern void ppc_fres(); extern void ppc_fsqrts(); extern void ppc_fsqrt(); extern void ppc_frsqrte(); extern void ppc_frsp(); extern void ppc_fctiw(); extern void ppc_fctiwz(); extern void ppc_fcmpo(); extern void ppc_fcmpu(); // Power-specific instructions extern void power_abs(); extern void power_clcs(); extern void power_div(); extern void power_divs(); extern void power_doz(); extern void power_dozi(); extern void power_lscbx(); extern void power_maskg(); extern void power_maskir(); extern void power_mul(); extern void power_nabs(); extern void power_rlmi(); extern void power_rrib(); extern void power_sle(); extern void power_sleq(); extern void power_sliq(); extern void power_slliq(); extern void power_sllq(); extern void power_slq(); extern void power_sraiq(); extern void power_sraq(); extern void power_sre(); extern void power_srea(); extern void power_sreq(); extern void power_sriq(); extern void power_srliq(); extern void power_srlq(); extern void power_srq(); } // namespace dppc_interpreter // AltiVec instructions // 64-bit instructions // G5+ instructions extern uint64_t get_virt_time_ns(void); extern void ppc_main_opcode(void); extern void ppc_exec(void); extern void ppc_exec_single(void); extern void ppc_exec_until(uint32_t goal_addr); extern void ppc_exec_dbg(uint32_t start_addr, uint32_t size); /* debugging support API */ void print_fprs(void); /* print content of the floating-point registers */ uint64_t get_reg(std::string reg_name); /* get content of the register reg_name */ void set_reg(std::string reg_name, uint64_t val); /* set reg_name to val */ #endif /* PPCEMU_H */