//DingusPPC - Prototype 5bf2 //Written by divingkatae //(c)2018-20 (theweirdo) //Please ask for permission //if you want to distribute this. //(divingkatae#1017 on Discord) // The memory operations - ppcmemory.cpp #include #include #include #include #include #include #include #include "viacuda.h" #include "macioserial.h" #include "macswim3.h" #include "ppcemumain.h" #include "ppcmemory.h" #include "openpic.h" #include "mpc106.h" #include "davbus.h" std::vector pte_storage; uint32_t pte_word1; uint32_t pte_word2; uint32_t msr_ir_test; uint32_t msr_dr_test; uint32_t msr_ip_test; uint32_t choose_sr; uint32_t pteg_hash1; uint32_t pteg_hash2; uint32_t pteg_answer; uint32_t pteg_address1; uint32_t pteg_temp1; uint32_t pteg_address2; uint32_t pteg_temp2; uint32_t pteg_check1; uint32_t rev_pteg_check1; uint32_t pteg_check2; uint32_t rev_pteg_check2; unsigned char * grab_tempmem_ptr1; unsigned char * grab_tempmem_ptr2; unsigned char * grab_tempmem_ptr3; unsigned char * grab_tempmem_ptr4; unsigned char * grab_macmem_ptr; unsigned char * grab_pteg1_ptr; unsigned char * grab_pteg2_ptr; std::atomic hash_found (false); /** PowerPC-style MMU BAT arrays (NULL initialization isn't prescribed). */ PPC_BAT_entry ibat_array[4] = {{0}}; PPC_BAT_entry dbat_array[4] = {{0}}; /** Quickly map to memory - sort of. 0x00000000 - 0x7FFFFFFF - Macintosh system memory (Because this emulator is trying to emulate a Mac with a Grackle motherboard, the most memory that can ever be allocated to the system is 2 Gigs.) 0x80000000 - 0xFF7FFFFF - PCI memory This memory is allocated to things like the memory controller, video, and audio. 0xF3000000 - Mac OS I/O Device area 0xF3013000 - Serial Printer Port (0x20 bytes) 0xF3013020 - Serial Modem Port (0x20 bytes) 0xF3011000 - BMAC Ethernet (0x1000 bytes) 0xF3014000 - DAVAudio Sound Bus (0x1000 bytes) 0xF3015000 - Swim 3 Floppy Disk Drive (0x1000 bytes) 0xF3016000 - Cuda (0x2000 bytes) 0xF3020000 - Heathrow ATA (Hard Drive Interface) 0xFF800000 - 0xFFFFFFFF - ROM memory This memory is for storing the ROM needed to boot up the computer. This could definitely be refactored better - TODO **/ void msr_status_update(){ msr_ip_test = (ppc_state.ppc_msr >> 6) & 1; msr_ir_test = (ppc_state.ppc_msr >> 5) & 1; msr_dr_test = (ppc_state.ppc_msr >> 4) & 1; } inline void ppc_set_cur_instruction(uint32_t mem_index) { ppc_cur_instruction = (grab_macmem_ptr[mem_index] << 24) | (grab_macmem_ptr[mem_index+1] << 16) | (grab_macmem_ptr[mem_index+2] << 8) | grab_macmem_ptr[mem_index+3]; } void ppc_set_return_val(uint32_t mem_index, int num_size) { //Put the final result in return_value here //This is what gets put back into the register if (ppc_state.ppc_msr & 1) { /* little-endian byte ordering */ if (num_size == 1) { // BYTE return_value = grab_macmem_ptr[mem_index]; } else if (num_size == 2) { // WORD return_value = grab_macmem_ptr[mem_index] | (grab_macmem_ptr[mem_index+1] << 8); } else if (num_size == 4) { // DWORD return_value = grab_macmem_ptr[mem_index] | (grab_macmem_ptr[mem_index+1] << 8) | (grab_macmem_ptr[mem_index+2] << 16) | (grab_macmem_ptr[mem_index+3] << 24); } } else { /* big-endian byte ordering */ if (num_size == 1) { // BYTE return_value = grab_macmem_ptr[mem_index]; } else if (num_size == 2) { // WORD return_value = (grab_macmem_ptr[mem_index] << 8) | grab_macmem_ptr[mem_index+1]; } else if (num_size == 4) { // DWORD return_value = (grab_macmem_ptr[mem_index] << 24) | (grab_macmem_ptr[mem_index+1] << 16) | (grab_macmem_ptr[mem_index+2] << 8) | grab_macmem_ptr[mem_index+3]; } } } void ppc_memstore_value(uint32_t value_insert, uint32_t mem_index, int num_size) { if (ppc_state.ppc_msr & 1) { /* little-endian byte ordering */ if (num_size >= 1) { // BYTE grab_macmem_ptr[mem_index] = value_insert & 0xFF; } if (num_size >= 2) { // WORD grab_macmem_ptr[mem_index+1] = (value_insert >> 8) & 0xFF; } if (num_size == 4) { // DWORD grab_macmem_ptr[mem_index+2] = (value_insert >> 16) & 0xFF; grab_macmem_ptr[mem_index+3] = (value_insert >> 24) & 0xFF; } } else { /* big-endian byte ordering */ if (num_size == 1) { // BYTE grab_macmem_ptr[mem_index] = value_insert & 0xFF; } else if (num_size == 2) { // WORD grab_macmem_ptr[mem_index] = (value_insert >> 8) & 0xFF; grab_macmem_ptr[mem_index+1] = value_insert & 0xFF; } else if (num_size == 4) { // DWORD grab_macmem_ptr[mem_index] = (value_insert >> 24) & 0xFF; grab_macmem_ptr[mem_index+1] = (value_insert >> 16) & 0xFF; grab_macmem_ptr[mem_index+2] = (value_insert >> 8) & 0xFF; grab_macmem_ptr[mem_index+3] = value_insert & 0xFF; } } } void ibat_update(uint32_t bat_reg) { int upper_reg_num; uint32_t bl, lo_mask; PPC_BAT_entry *bat_entry; upper_reg_num = bat_reg & 0xFFFFFFFE; if (ppc_state.ppc_spr[upper_reg_num] & 3) { // is that BAT pair valid? bat_entry = &ibat_array[(bat_reg - 528) >> 1]; bl = (ppc_state.ppc_spr[upper_reg_num] >> 2) & 0x7FF; lo_mask = (bl << 17) | 0x1FFFF; bat_entry->access = ppc_state.ppc_spr[upper_reg_num] & 3; bat_entry->prot = ppc_state.ppc_spr[upper_reg_num + 1] & 3; bat_entry->lo_mask = lo_mask; bat_entry->phys_hi = ppc_state.ppc_spr[upper_reg_num + 1] & ~lo_mask; bat_entry->bepi = ppc_state.ppc_spr[upper_reg_num] & ~lo_mask; } } void dbat_update(uint32_t bat_reg) { int upper_reg_num; uint32_t bl, lo_mask; PPC_BAT_entry *bat_entry; upper_reg_num = bat_reg & 0xFFFFFFFE; if (ppc_state.ppc_spr[upper_reg_num] & 3) { // is that BAT pair valid? bat_entry = &dbat_array[(bat_reg - 536) >> 1]; bl = (ppc_state.ppc_spr[upper_reg_num] >> 2) & 0x7FF; lo_mask = (bl << 17) | 0x1FFFF; bat_entry->access = ppc_state.ppc_spr[upper_reg_num] & 3; bat_entry->prot = ppc_state.ppc_spr[upper_reg_num + 1] & 3; bat_entry->lo_mask = lo_mask; bat_entry->phys_hi = ppc_state.ppc_spr[upper_reg_num + 1] & ~lo_mask; bat_entry->bepi = ppc_state.ppc_spr[upper_reg_num] & ~lo_mask; } } void get_pointer_pteg1(uint32_t address_grab){ //Grab the array pointer for the PTEG if (address_grab < 0x80000000){ pte_word1 = address_grab % ram_size_set; if (address_grab < 0x040000000){ //for debug purposes grab_pteg1_ptr = machine_sysram_mem; } else if ((address_grab >= 0x5fffe000) && (address_grab <= 0x5fffffff)){ pte_word1 = address_grab % 0x2000; grab_pteg1_ptr = machine_sysconfig_mem; } else{ printf("Uncharted territory: %x \n", address_grab); } } else if (address_grab < 0x80800000){ pte_word1 = address_grab % 0x800000; grab_pteg1_ptr = machine_upperiocontrol_mem; } else if (address_grab < 0x81000000){ pte_word1 = address_grab % 0x800000; grab_pteg1_ptr = machine_iocontrolcdma_mem; } else if (address_grab < 0xBF80000){ pte_word1 = address_grab % 33554432; grab_pteg1_ptr = machine_loweriocontrol_mem; } else if (address_grab < 0xC0000000){ pte_word1 = address_grab % 16; grab_pteg1_ptr = machine_interruptack_mem; } else if (address_grab < 0xF0000000){ printf("Invalid Memory Attempt: %x \n", address_grab); return; } else if (address_grab < 0xF8000000){ pte_word1 = address_grab % 67108864; grab_pteg1_ptr = machine_iocontrolmem_mem; } else if (address_grab < rom_file_begin){ //Get back to this! (weeny1) if (address_grab < 0xFE000000){ pte_word1 = address_grab % 4096; grab_pteg1_ptr = machine_f8xxxx_mem; } else if (address_grab < 0xFEC00000){ pte_word1 = address_grab % 65536; grab_pteg1_ptr = machine_fexxxx_mem; } else if (address_grab < 0xFEE00000){ pte_word1 = 0x0CF8; //CONFIG_ADDR grab_pteg1_ptr = machine_fecxxx_mem; } else if (address_grab < 0xFF000000){ pte_word1 = 0x0CFC; //CONFIG_DATA grab_pteg1_ptr = machine_feexxx_mem; } else if (address_grab < 0xFF800000){ pte_word1 = address_grab % 4096; grab_pteg1_ptr = machine_ff00xx_mem; } else{ pte_word1 = (address_grab % 1048576) + 0x400000; grab_pteg1_ptr = machine_sysram_mem; } } else{ pte_word1 = address_grab % rom_file_setsize; grab_pteg1_ptr = machine_sysrom_mem; } } void get_pointer_pteg2(uint32_t address_grab){ //Grab the array pointer for the PTEG if (address_grab < 0x80000000){ pte_word2 = address_grab % ram_size_set; if (address_grab < 0x040000000){ //for debug purposes grab_pteg2_ptr = machine_sysram_mem; } else if ((address_grab >= 0x5fffe000) && (address_grab <= 0x5fffffff)){ pte_word2 = address_grab % 0x2000; grab_pteg2_ptr = machine_sysconfig_mem; } else{ printf("Uncharted territory: %x \n", address_grab); } } else if (address_grab < 0x80800000){ pte_word2 = address_grab % 0x800000; grab_pteg2_ptr = machine_upperiocontrol_mem; } else if (address_grab < 0x81000000){ pte_word2 = address_grab % 0x800000; grab_pteg2_ptr = machine_iocontrolcdma_mem; } else if (address_grab < 0xBF80000){ pte_word2 = address_grab % 33554432; grab_pteg2_ptr = machine_loweriocontrol_mem; } else if (address_grab < 0xC0000000){ pte_word2 = address_grab % 16; grab_pteg2_ptr = machine_interruptack_mem; } else if (address_grab < 0xF0000000){ printf("Invalid Memory Attempt: %x \n", address_grab); return; } else if (address_grab < 0xF8000000){ pte_word2 = address_grab % 67108864; grab_pteg2_ptr = machine_iocontrolmem_mem; } else if (address_grab < rom_file_begin){ //Get back to this! (weeny1) if (address_grab < 0xFE000000){ pte_word2 = address_grab % 4096; grab_pteg2_ptr = machine_f8xxxx_mem; } else if (address_grab < 0xFEC00000){ pte_word2 = address_grab % 65536; grab_pteg2_ptr = machine_fexxxx_mem; } else if (address_grab < 0xFEE00000){ pte_word2 = 0x0CF8; //CONFIG_ADDR grab_pteg2_ptr = machine_fecxxx_mem; } else if (address_grab < 0xFF000000){ pte_word2 = 0x0CFC; //CONFIG_DATA grab_pteg2_ptr = machine_feexxx_mem; } else if (address_grab < 0xFF800000){ pte_word2 = address_grab % 4096; grab_pteg2_ptr = machine_ff00xx_mem; } else{ pte_word2 = (address_grab % 1048576) + 0x400000; grab_pteg2_ptr = machine_sysram_mem; } } else{ pte_word2 = address_grab % rom_file_setsize; grab_pteg2_ptr = machine_sysrom_mem; } } void primary_generate_pa(){ pteg_address1 |= ppc_state.ppc_spr[25] & 0xFE000000; pteg_temp1 = (((ppc_state.ppc_spr[25] & 0x1FF) << 10) & (pteg_hash1 & 0x7FC00)); pteg_address1 |= ((ppc_state.ppc_spr[25] & 0x1FF0000) | pteg_temp1); pteg_address1 |= (pteg_hash1 & 0x3FF) << 6; } void secondary_generate_pa(){ pteg_address2 |= ppc_state.ppc_spr[25] & 0xFE000000; pteg_temp2 = (((ppc_state.ppc_spr[25] & 0x1FF) << 10) & (pteg_hash2 & 0x7FC00)); pteg_address2 |= ((ppc_state.ppc_spr[25] & 0x1FF0000) | pteg_temp2); pteg_address2 |= (pteg_hash2 & 0x3FF) << 6; } void primary_hash_check(uint32_t vpid_known){ uint32_t entries_size = ((ppc_state.ppc_spr[25] & 0x1FF) > 0)? ((ppc_state.ppc_spr[25] & 0x1FF) << 9): 65536; uint32_t entries_area = pte_word1 + entries_size; uint32_t check_vpid = 0; do{ if (!hash_found){ check_vpid |= grab_pteg1_ptr[pte_word1++] << 24; check_vpid |= grab_pteg1_ptr[pte_word1++] << 16; check_vpid |= grab_pteg1_ptr[pte_word1++] << 8; check_vpid |= grab_pteg1_ptr[pte_word1++]; check_vpid = (check_vpid >> 7) & 0xFFFFFF; if ((check_vpid >> 31) & 0x01){ if (vpid_known == check_vpid){ hash_found = true; pteg_answer |= grab_pteg1_ptr[pte_word1++] << 24; pteg_answer |= grab_pteg1_ptr[pte_word1++] << 16; pteg_answer |= grab_pteg1_ptr[pte_word1++] << 8; pteg_answer |= grab_pteg1_ptr[pte_word1++]; break; } else{ pte_word1 += 4; check_vpid = 0; } } else{ pte_word1 += 4; check_vpid = 0; } } else{ pte_word1 = entries_area; } }while (pte_word1 < entries_area); } void secondary_hash_check(uint32_t vpid_known){ uint32_t entries_size = ((ppc_state.ppc_spr[25] & 0x1FF) > 0)? ((ppc_state.ppc_spr[25] & 0x1FF) << 9): 65536; uint32_t entries_area = pte_word1 + entries_size; uint32_t check_vpid = 0; do{ if (!hash_found){ check_vpid |= grab_pteg2_ptr[pte_word2++] << 24; check_vpid |= grab_pteg2_ptr[pte_word2++] << 16; check_vpid |= grab_pteg2_ptr[pte_word2++] << 8; check_vpid |= grab_pteg2_ptr[pte_word2++]; check_vpid = (check_vpid >> 7) & 0xFFFFFF; if ((check_vpid >> 31) & 0x01){ if (vpid_known == check_vpid){ hash_found = true; pteg_answer |= grab_pteg2_ptr[pte_word2++] << 24; pteg_answer |= grab_pteg2_ptr[pte_word2++] << 16; pteg_answer |= grab_pteg2_ptr[pte_word2++] << 8; pteg_answer |= grab_pteg2_ptr[pte_word2++]; break; } else{ pte_word2 += 4; check_vpid = 0; } } else{ pte_word2 += 4; check_vpid = 0; } } else{ pte_word2 = entries_area; } }while (pte_word2 < entries_area); } void pteg_translate(uint32_t address_grab){ uint32_t choose_sr = (ppc_effective_address >> 28) & 0x0F; pteg_hash1 = ppc_state.ppc_sr[choose_sr] & 0x7FFFF; uint32_t page_index = (ppc_effective_address & 0xFFFF000) >> 12; pteg_hash1 = (pteg_hash1 ^ page_index); pteg_hash2 = ~pteg_hash1; std::thread primary_pa_check(&primary_generate_pa); std::thread secondary_pa_check(&secondary_generate_pa); primary_pa_check.join(); secondary_pa_check.join(); uint32_t grab_val = ppc_state.ppc_sr[choose_sr] & 0xFFFFFF; std::thread primary_pteg_check(&primary_hash_check, std::ref(grab_val)); std::thread secondary_pteg_check(&secondary_hash_check, std::ref(grab_val)); primary_pteg_check.join(); secondary_pteg_check.join(); } /** PowerPC-style MMU instruction address translation. */ uint32_t ppc_mmu_instr_translate(uint32_t la) { uint32_t pa; /* translated physical address */ bool bat_hit = false; unsigned msr_pr = !!(ppc_state.ppc_msr & 0x4000); // Format: %XY // X - supervisor access bit, Y - problem/user access bit // Those bits are mutually exclusive unsigned access_bits = (~msr_pr << 1) | msr_pr; for (int bat_index = 0; bat_index < 4; bat_index++){ PPC_BAT_entry *bat_entry = &ibat_array[bat_index]; if ((bat_entry->access & access_bits) && ((la & ~bat_entry->lo_mask) == bat_entry->bepi)) { bat_hit = true; // TODO: check access // logical to physical translation pa = bat_entry->phys_hi | (la & bat_entry->lo_mask); break; } } // Segment registers & page table translation if (!bat_hit){ pteg_translate(la); if (hash_found == true){ pa = (la & 0xFFF) | (pteg_answer & 0xFFFFF000); } } return pa; } /** PowerPC-style MMU data address translation. */ uint32_t ppc_mmu_addr_translate(uint32_t la, uint32_t access_type) { uint32_t pa; /* translated physical address */ bool bat_hit = false; unsigned msr_pr = !!(ppc_state.ppc_msr & 0x4000); // Format: %XY // X - supervisor access bit, Y - problem/user access bit // Those bits are mutually exclusive unsigned access_bits = (~msr_pr << 1) | msr_pr; for (int bat_index = 0; bat_index < 4; bat_index++){ PPC_BAT_entry *bat_entry = &dbat_array[bat_index]; if ((bat_entry->access & access_bits) && ((la & ~bat_entry->lo_mask) == bat_entry->bepi)) { bat_hit = true; // TODO: check access // logical to physical translation pa = bat_entry->phys_hi | (la & bat_entry->lo_mask); break; } } // Segment registers & page table translation if (!bat_hit){ pteg_translate(la); if (hash_found == true){ pa = (la & 0xFFF) | (pteg_answer & 0xFFFFF000); } } return pa; } /** Insert a value into memory from a register. */ void address_quickinsert_translate(uint32_t value_insert, uint32_t address_grab, uint8_t num_bytes) { uint32_t storage_area = 0; printf("Inserting into address %x with %x \n", address_grab, value_insert); // data address translation if enabled if (ppc_state.ppc_msr & 0x10) { printf("DATA RELOCATION GO! - INSERTING \n"); address_grab = ppc_mmu_addr_translate(address_grab, 0); } //regular grabbing if (address_grab < 0x80000000){ if (mpc106_check_membound(address_grab)){ if (address_grab > 0x03ffffff){ //for debug purposes storage_area = address_grab; grab_macmem_ptr = machine_sysram_mem; } else if ((address_grab >= 0x40000000) && (address_grab < 0x40400000)){ if (is_nubus){ storage_area = address_grab % rom_file_setsize; grab_macmem_ptr = machine_sysrom_mem; ppc_memstore_value(value_insert, storage_area, num_bytes); return; } else{ return; } } else if ((address_grab >= 0x5fffe000) && (address_grab <= 0x5fffffff)){ storage_area = address_grab % 0x2000; grab_macmem_ptr = machine_sysconfig_mem; } else{ storage_area = address_grab % 0x04000000; grab_macmem_ptr = machine_sysram_mem; printf("Uncharted territory: %x \n", address_grab); } } else{ return; } } else if (address_grab < 0x80800000){ storage_area = address_grab % 0x800000; if (address_grab == 0x80000CF8){ storage_area = 0x0CF8; //CONFIG_ADDR value_insert = rev_endian32(value_insert); grab_macmem_ptr = machine_fecxxx_mem; uint32_t reg_num = (value_insert & 0x07FC) >> 2; uint32_t dev_num = (value_insert & 0xF800) >> 11; printf("ADDRESS SET FOR GRACKLE: "); printf("Device Number: %d ", dev_num); printf("Hex Register Number: %x \n", reg_num); mpc106_address = value_insert; } else{ grab_macmem_ptr = machine_upperiocontrol_mem; } if ((address_grab >= 0x80040000) && (address_grab < 0x80080000)){ openpic_address = address_grab - 0x80000000; openpic_read_word = value_insert; openpic_read(); return; } printf("Uncharted territory: %x \n", address_grab); } else if (address_grab < 0x81000000){ if (address_grab > 0x83FFFFFF){ return; } storage_area = address_grab; printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_iocontrolcdma_mem; } else if (address_grab < 0xBF800000){ storage_area = address_grab % 33554432; printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_loweriocontrol_mem; } else if (address_grab < 0xC0000000){ storage_area = address_grab % 16; printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_interruptack_mem; } else if (address_grab < 0xF0000000){ printf("Invalid Memory Attempt: %x \n", address_grab); return; } else if (address_grab < 0xF8000000){ storage_area = address_grab % 67108864; if ((address_grab >= 0xF3013000) && (address_grab < 0xF3013040)){ mac_serial_address = storage_area; serial_write_byte = (uint8_t)value_insert; printf("Writing byte to Serial address %x ... %x \n", address_grab, via_write_byte); mac_serial_write(); return; } else if ((address_grab >= 0xF3014000) && (address_grab < 0xF3015000)){ davbus_address = storage_area; davbus_write_word = value_insert; printf("\nWriting to DAVBus: %x \n", return_value); davbus_write(); return; } else if ((address_grab >= 0xF3015000) && (address_grab < 0xF3016000)){ mac_swim3_address = storage_area; swim3_write_byte = (uint8_t)value_insert; printf("Writing byte to SWIM3 address %x ... %x \n", address_grab, swim3_write_byte); mac_swim3_write(); return; } else if ((address_grab >= 0xF3016000) && (address_grab < 0xF3018000)){ via_cuda_address = storage_area; via_write_byte = (uint8_t)value_insert; printf("Writing byte to CUDA address %x ... %x \n", address_grab, via_write_byte); via_cuda_write(); return; } else if ((address_grab >= 0xF3040000) && (address_grab < 0xF3080000)){ openpic_address = storage_area - 0x3000000; openpic_write_word = value_insert; printf("Writing byte to OpenPIC address %x ... %x \n", address_grab, openpic_write_word); openpic_write(); return; } else if (address_grab > 0xF3FFFFFF){ printf("Uncharted territory: %x", address_grab); return; } grab_macmem_ptr = machine_iocontrolmem_mem; } else if (address_grab < rom_file_begin){ //Get back to this! (weeny1) if (address_grab < 0xFE000000){ storage_area = address_grab % 4096; grab_macmem_ptr = machine_f8xxxx_mem; } else if (address_grab < 0xFEC00000){ mpc106_address = address_grab % 65536; mpc106_write(value_insert); return; } else if (address_grab < 0xFEE00000){ storage_area = 0x0CF8; //CONFIG_ADDR grab_macmem_ptr = machine_fecxxx_mem; value_insert = rev_endian32(value_insert); uint32_t reg_num = (value_insert & 0x07FC) >> 2; uint32_t dev_num = (value_insert & 0xF800) >> 11; printf("ADDRESS SET FOR GRACKLE \n"); printf("Device Number: %d ", dev_num); printf("Hex Register Number: %x \n", reg_num); mpc_config_addr = value_insert; } else if (address_grab < 0xFF000000){ storage_area = 0x0CFC; //CONFIG_DATA mpc106_word_custom_size = num_bytes; mpc106_write_device(mpc_config_addr, value_insert, num_bytes); grab_macmem_ptr = machine_feexxx_mem; } else if (address_grab < 0xFF800000){ storage_area = address_grab % 4096; grab_macmem_ptr = machine_ff00xx_mem; } else{ storage_area = (address_grab % 1048576) + 0x400000; grab_macmem_ptr = machine_sysram_mem; } } else{ storage_area = address_grab % rom_file_setsize; grab_macmem_ptr = machine_sysrom_mem; } ppc_memstore_value(value_insert, storage_area, num_bytes); } /** Grab a value from memory into a register */ void address_quickgrab_translate(uint32_t address_grab, uint8_t num_bytes) { uint32_t storage_area = 0; //printf("Grabbing from address %x \n", address_grab); return_value = 0; //reset this before going into the real fun. /* data address translation if enabled */ if (ppc_state.ppc_msr & 0x10) { printf("DATA RELOCATION GO! - GRABBING \n"); address_grab = ppc_mmu_addr_translate(address_grab, 0); } if (address_grab >= 0xFFC00000){ //printf("Charting ROM Area: %x \n", address_grab); storage_area = address_grab % rom_file_setsize; grab_macmem_ptr = machine_sysrom_mem; ppc_set_return_val(storage_area, num_bytes); return; } //regular grabbing else if (address_grab < 0x80000000){ if ((address_grab >= 0x40000000) && (address_grab < 0x40400000) && is_nubus){ storage_area = address_grab % rom_file_setsize; grab_macmem_ptr = machine_sysrom_mem; ppc_set_return_val(storage_area, num_bytes); return; } if (mpc106_check_membound(address_grab)){ if (address_grab > 0x03ffffff){ //for debug purposes storage_area = address_grab; grab_macmem_ptr = machine_sysram_mem; } else if ((address_grab >= 0x40000000) && (address_grab < 0x40400000)){ storage_area = address_grab; grab_macmem_ptr = machine_sysram_mem; } else if ((address_grab >= 0x5fffe000) && (address_grab <= 0x5fffffff)){ storage_area = address_grab % 0x2000; grab_macmem_ptr = machine_sysconfig_mem; } else{ return_value = (num_bytes == 1)?0xFF:(num_bytes == 2)?0xFFFF:0xFFFFFFFF; return; } } else{ //The address is not within the ROM banks return_value = (num_bytes == 1)?0xFF:(num_bytes == 2)?0xFFFF:0xFFFFFFFF; return; } } else if (address_grab < 0x80800000){ if ((address_grab >= 0x80040000) && (address_grab < 0x80080000)){ openpic_address = address_grab - 0x80000000; openpic_write(); return_value = openpic_write_word; return; } storage_area = address_grab % 0x800000; printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_upperiocontrol_mem; } else if (address_grab < 0x81000000){ storage_area = address_grab; if (address_grab > 0x83FFFFFF){ return_value = (num_bytes == 1)?0xFF:(num_bytes == 2)?0xFFFF:0xFFFFFFFF; return; } printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_iocontrolcdma_mem; } else if (address_grab < 0xBF800000){ storage_area = address_grab % 33554432; printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_loweriocontrol_mem; } else if (address_grab < 0xC0000000){ storage_area = address_grab % 16; printf("Uncharted territory: %x \n", address_grab); grab_macmem_ptr = machine_interruptack_mem; } else if (address_grab < 0xF0000000){ return_value = (num_bytes == 1)?0xFF:(num_bytes == 2)?0xFFFF:0xFFFFFFFF; return; } else if (address_grab < 0xF8000000){ storage_area = address_grab % 67108864; if ((address_grab >= 0xF3013000) && (address_grab < 0xF3013040)){ mac_serial_address = storage_area; mac_serial_read(); return_value = serial_read_byte; printf("\n Read from Serial: %x \n", return_value); return; } else if ((address_grab >= 0xF3014000) && (address_grab < 0xF3015000)){ davbus_address = storage_area; davbus_read(); return_value = davbus_read_word; printf("\n Read from DAVBus: %x \n", return_value); return; } else if ((address_grab >= 0xF3015000) && (address_grab < 0xF3016000)){ mac_swim3_address = storage_area; mac_swim3_read(); return_value = swim3_read_byte; printf("\n Read from Swim3: %x \n", return_value); return; } else if ((address_grab >= 0xF3016000) && (address_grab < 0xF3018000)){ via_cuda_address = storage_area; via_cuda_read(); return_value = via_read_byte; printf("\n Read from CUDA: %x \n", return_value); return; } else if ((address_grab >= 0xF3040000) && (address_grab < 0xF3080000)){ openpic_address = storage_area - 0x3000000; openpic_read(); return_value = openpic_write_word; return; } else if (address_grab > 0xF3FFFFFF){ return_value = (num_bytes == 1)?0xFF:(num_bytes == 2)?0xFFFF:0xFFFFFFFF; return; } grab_macmem_ptr = machine_iocontrolmem_mem; } else if (address_grab < rom_file_begin){ //Get back to this! (weeny1) if (address_grab < 0xFE000000){ storage_area = address_grab % 4096; grab_macmem_ptr = machine_f8xxxx_mem; } else if (address_grab < 0xFEC00000){ mpc106_address = address_grab % 65536; mpc106_read(); return_value = mpc106_read_word; return; } else if (address_grab < 0xFEE00000){ return_value = (num_bytes == 1)? (mpc106_address & 0xFF):(num_bytes == 2)?(mpc106_address & 0xFFFF):mpc106_address; return; } else if (address_grab < 0xFF000000){ mpc106_word_custom_size = num_bytes; return_value = mpc106_read_device(mpc_config_addr, num_bytes); return_value = rev_endian32(return_value); return; } else if (address_grab < 0xFF800000){ storage_area = address_grab % 4096; grab_macmem_ptr = machine_ff00xx_mem; } else{ storage_area = (address_grab % 1048576) + 0x400000; grab_macmem_ptr = machine_sysram_mem; } } ppc_set_return_val(storage_area, num_bytes); } void quickinstruction_translate(uint32_t address_grab) { uint32_t storage_area = 0; return_value = 0; //reset this before going into the real fun. /* instruction address translation if enabled */ if (ppc_state.ppc_msr & 0x20) { printf("INSTRUCTION RELOCATION GO! \n"); address_grab = ppc_mmu_instr_translate(address_grab); } //grab opcode from memory area if (address_grab >= 0xFFC00000){ storage_area = address_grab % rom_file_setsize; grab_macmem_ptr = machine_sysrom_mem; ppc_set_cur_instruction(storage_area); return; } else if (address_grab < 0x80000000){ if (address_grab < 0x040000000){ //for debug purposes storage_area = address_grab; grab_macmem_ptr = machine_sysram_mem; } else if ((address_grab >= 0x40000000) && (address_grab < 0x40400000)){ if (is_nubus){ storage_area = address_grab % rom_file_setsize; grab_macmem_ptr = machine_sysrom_mem; ppc_set_cur_instruction(storage_area); return; } else{ storage_area = address_grab; grab_macmem_ptr = machine_sysram_mem; } } else if ((address_grab >= 0x5fffe000) && (address_grab <= 0x5fffffff)){ storage_area = address_grab % 0x2000; grab_macmem_ptr = machine_sysconfig_mem; } else{ storage_area = address_grab % 0x04000000; grab_macmem_ptr = machine_sysram_mem; printf("Uncharted territory: %x \n", address_grab); } } else if (address_grab < 0x80800000){ storage_area = address_grab % 0x800000; grab_macmem_ptr = machine_upperiocontrol_mem; } else if (address_grab < 0x81000000){ storage_area = address_grab % 0x800000; grab_macmem_ptr = machine_iocontrolcdma_mem; } else if (address_grab < 0xBF80000){ storage_area = address_grab % 33554432; grab_macmem_ptr = machine_loweriocontrol_mem; } else if (address_grab < 0xC0000000){ storage_area = address_grab % 16; grab_macmem_ptr = machine_interruptack_mem; } else if (address_grab < 0xF0000000){ printf("Invalid Memory Attempt: %x \n", address_grab); return; } else if (address_grab < 0xF8000000){ storage_area = address_grab % 67108864; grab_macmem_ptr = machine_iocontrolmem_mem; } else if (address_grab < rom_file_begin){ //Get back to this! (weeny1) if (address_grab < 0xFE000000){ storage_area = address_grab % 4096; grab_macmem_ptr = machine_f8xxxx_mem; } else if (address_grab < 0xFEC00000){ storage_area = address_grab % 65536; grab_macmem_ptr = machine_fexxxx_mem; } else if (address_grab < 0xFEE00000){ storage_area = 0x0CF8; //CONFIG_ADDR grab_macmem_ptr = machine_fecxxx_mem; } else if (address_grab < 0xFF000000){ storage_area = 0x0CFC; //CONFIG_DATA grab_macmem_ptr = machine_feexxx_mem; } else if (address_grab < 0xFF800000){ storage_area = address_grab % 4096; grab_macmem_ptr = machine_ff00xx_mem; } else{ storage_area = (address_grab % 1048576) + 0x400000; grab_macmem_ptr = machine_sysram_mem; } } ppc_set_cur_instruction(storage_area); }