/* DingusPPC - The Experimental PowerPC Macintosh emulator Copyright (C) 2018-20 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 . */ /** @file Factory for creating different machines. Author: Max Poliakovski */ #include "machinefactory.h" #include "devices/memctrlbase.h" #include "memaccess.h" #include "machineproperties.h" #include #include #include #include #include #include #include #include #include #include #include using namespace std; map> gMachineSettings; /** Power Macintosh ROM identification map. Maps Bootstrap string located at offset 0x30D064 (PCI Macs) or 0x30C064 (Nubus Macs) to machine name and description. */ static const map> rom_identity = { {0x416C6368, {"pm6400", "Performa 6400"}}, // Alchemy //{"Come", "PowerBook 2400"}, // Comet {0x436F7264, {"pm5200", "Power Mac 5200/6200 series"}}, // Cordyceps {0x47617A65, {"pm6500", "Power Mac 6500"}}, // Gazelle {0x476F7373, {"pmg3", "Power Mac G3 Beige"}}, // Gossamer {0x47525820, {"pbg3", "PowerBook G3 Wallstreet"}}, //{"Hoop", "PowerBook 3400"}, // Hooper {0x50425820, {"pb-preg3", "PowerBook Pre-G3"}}, {0x50444D20, {"pm6100", "Nubus Power Mac"}}, // Piltdown Man (6100/7100/8100) {0x50697020, {"pippin", "Bandai Pippin"}}, // Pippin //{"Powe", "Generic Power Mac"}, // PowerMac? {0x544E5420, {"pm7200", "Power Mac 7xxxx/8xxx series"}}, // Trinitrotoluene :-) {0x5A616E7A, {"pm4400", "Power Mac 4400/7220"}}, // Zanzibar }; static const PropMap GossamerSettings = { {"rambank1_size", new IntProperty(256, vector({8, 16, 32, 64, 128, 256}))}, {"rambank2_size", new IntProperty( 0, vector({0, 8, 16, 32, 64, 128, 256}))}, {"rambank3_size", new IntProperty( 0, vector({0, 8, 16, 32, 64, 128, 256}))}, {"gfxmem_size", new IntProperty( 2, vector({2, 4, 6}))}, }; static const PropMap PDMSettings = { {"rambank1_size", new IntProperty(0, vector({0, 8, 16, 32, 64, 128}))}, {"rambank2_size", new IntProperty(0, vector({0, 8, 16, 32, 64, 128}))}, }; static const map PropHelp = { {"rambank1_size", "specifies RAM bank 1 size in MB"}, {"rambank2_size", "specifies RAM bank 2 size in MB"}, {"rambank3_size", "specifies RAM bank 3 size in MB"}, {"gfxmem_size", "specifies video memory size in MB"}, }; static const map, string>> machines = { {"pm6100", {PDMSettings, create_pdm, "PowerMacintosh 6100"}}, {"pmg3", {GossamerSettings, create_gossamer, "Power Macintosh G3 (Beige)"}}, }; string machine_name_from_rom(string& rom_filepath) { ifstream rom_file; uint32_t file_size, config_info_offset, rom_id; char rom_id_str[17]; string machine_name = ""; rom_file.open(rom_filepath, ios::in | ios::binary); if (rom_file.fail()) { LOG_F(ERROR, "Cound not open the specified ROM file."); goto bail_out; } rom_file.seekg(0, rom_file.end); file_size = rom_file.tellg(); rom_file.seekg(0, rom_file.beg); if (file_size != 0x400000UL) { LOG_F(ERROR, "Unxpected ROM File size. Expected size is 4 megabytes."); goto bail_out; } /* read config info offset from file */ config_info_offset = 0; rom_file.seekg(0x300080, ios::beg); rom_file.read((char*)&config_info_offset, 4); config_info_offset = READ_DWORD_BE_A(&config_info_offset); /* rewind to ConfigInfo.BootstrapVersion field */ rom_file.seekg(0x300064 + config_info_offset, ios::beg); /* read BootstrapVersion as C string */ rom_file.read(rom_id_str, 16); rom_id_str[16] = 0; LOG_F(INFO, "ROM BootstrapVersion: %s", rom_id_str); if (strncmp(rom_id_str, "Boot", 4) != 0) { LOG_F(ERROR, "Invalid BootstrapVersion string."); goto bail_out; } /* convert BootstrapVersion string to ROM ID */ rom_id = (rom_id_str[5] << 24) | (rom_id_str[6] << 16) | (rom_id_str[7] << 8) | rom_id_str[8]; LOG_F(INFO, "The machine is identified as... %s\n", std::get<1>(rom_identity.at(rom_id))); machine_name = std::get<0>(rom_identity.at(rom_id)); bail_out: rom_file.close(); return machine_name; } int get_machine_settings(string& id, map &settings) { try { auto props = get<0>(machines.at(id)); gMachineSettings.clear(); for (auto& p : props) { settings[p.first] = p.second->get_string(); /* populate dynamic machine settings from presets */ gMachineSettings[p.first] = unique_ptr(p.second->clone()); } } catch(out_of_range ex) { LOG_F(ERROR, "Unknown machine id %s", id.c_str()); return -1; } return 0; } void set_machine_settings(map &settings) { for (auto& s : settings) { gMachineSettings.at(s.first)->set_string(s.second); } /* print machine settings summary */ cout << endl << "Machine settings summary: " << endl; for (auto& p : gMachineSettings) { cout << p.first << " : " << p.second->get_string() << endl; } } void list_machines() { cout << endl << "Supported machines:" << endl << endl; for (auto& mach : machines) { cout << setw(13) << mach.first << "\t\t" << get<2>(mach.second) << endl; } cout << endl; } void list_properties() { cout << endl; for (auto& mach : machines) { cout << get<2>(mach.second) << " supported properties:" << endl << endl; for (auto& p : get<0>(mach.second)) { cout << setw(13) << p.first << "\t\t" << PropHelp.at(p.first) << endl; if (p.second->get_type() == PROP_TYPE_INTEGER) { cout << setw(13) << "\t\t\t" "Valid values: " << dynamic_cast(p.second)->get_valid_values_as_str() << endl; } cout << endl; } } cout << endl; } /* Read ROM file content and transfer it to the dedicated ROM region */ void load_rom(std::ifstream& rom_file, uint32_t file_size) { unsigned char* sysrom_mem = new unsigned char[file_size]; rom_file.seekg(0, ios::beg); rom_file.read((char*)sysrom_mem, file_size); MemCtrlBase* mem_ctrl = dynamic_cast( gMachineObj->get_comp_by_type(HWCompType::MEM_CTRL)); mem_ctrl->set_data(0xFFC00000, sysrom_mem, file_size); delete[] sysrom_mem; } /* Read ROM file content and transfer it to the dedicated ROM region */ int load_boot_rom(string& rom_filepath) { ifstream rom_file; size_t file_size; int result; AddressMapEntry *rom_reg; rom_file.open(rom_filepath, ios::in | ios::binary); if (rom_file.fail()) { LOG_F(ERROR, "Cound not open the specified ROM file."); rom_file.close(); return -1; } rom_file.seekg(0, rom_file.end); file_size = rom_file.tellg(); rom_file.seekg(0, rom_file.beg); if (file_size != 0x400000UL) { LOG_F(ERROR, "Unxpected ROM File size. Expected size is 4 megabytes."); result = -1; } else { unsigned char* sysrom_mem = new unsigned char[file_size]; rom_file.seekg(0, ios::beg); rom_file.read((char*)sysrom_mem, file_size); MemCtrlBase* mem_ctrl = dynamic_cast( gMachineObj->get_comp_by_type(HWCompType::MEM_CTRL)); if ((rom_reg = mem_ctrl->find_rom_region())) { mem_ctrl->set_data(rom_reg->start, sysrom_mem, file_size); } else { ABORT_F("Could not locate physical ROM region!"); } delete[] sysrom_mem; result = 0; } rom_file.close(); return result; } int create_machine_for_id(string& id, string& rom_filepath) { try { auto machine = machines.at(id); /* build machine and load boot ROM */ if (get<1>(machine)(id) < 0 || load_boot_rom(rom_filepath) < 0) { return -1; } } catch(out_of_range ex) { LOG_F(ERROR, "Unknown machine id %s", id.c_str()); return -1; } return 0; }