/*==================================================================== filename: gdsp_interpreter.cpp project: GCemu created: 2004-6-18 mail: duddie@walla.com Copyright (c) 2005 Duddie & Tratax 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 2 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, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. ====================================================================*/ #include #include #include "gdsp_interface.h" #include "gdsp_opcodes_helper.h" #include "Tools.h" //------------------------------------------------------------------------------- SDSP g_dsp; uint16 SDSP::r[32]; uint16 SDSP::pc = 0; uint16 SDSP::err_pc = 0; uint16* SDSP::iram = 0; uint16* SDSP::dram = 0; uint16* SDSP::irom = 0; uint16* SDSP::drom = 0; uint16* SDSP::coef = 0; uint8* SDSP::cpu_ram = 0; uint16 SDSP::cr = 0; uint8 SDSP::reg_stack_ptr[4]; // lets make stack depth to 32 for now uint16 SDSP::reg_stack[4][DSP_STACK_DEPTH]; void (*SDSP::irq_request)() = NULL; bool SDSP::exception_in_progress_hack = false; // for debugger only uint32 SDSP::iram_crc = 0; uint64 SDSP::step_counter = 0; //------------------------------------------------------------------------------- static bool CR_HALT = true; static bool CR_EXTERNAL_INT = false; void UpdateCachedCR() { CR_HALT = (g_dsp.cr & 0x4) != 0; CR_EXTERNAL_INT = (g_dsp.cr & 0x02) != 0; } //------------------------------------------------------------------------------- void (*dsp_op[])(uint16 opc) = { dsp_op0, dsp_op1, dsp_op2, dsp_op3, dsp_op4, dsp_op5, dsp_op6, dsp_op7, dsp_op8, dsp_op9, dsp_opab, dsp_opab, dsp_opcd, dsp_opcd, dsp_ope, dsp_opf, }; void dbg_error(char* err_msg) { return; } void gdsp_init() { g_dsp.irom = (uint16*)malloc(DSP_IROM_SIZE * sizeof(uint16)); g_dsp.iram = (uint16*)malloc(DSP_IRAM_SIZE * sizeof(uint16)); g_dsp.drom = (uint16*)malloc(DSP_DROM_SIZE * sizeof(uint16)); g_dsp.dram = (uint16*)malloc(DSP_DRAM_SIZE * sizeof(uint16)); g_dsp.coef = (uint16*)malloc(DSP_COEF_SIZE * sizeof(uint16)); for (int i = 0; i < DSP_IRAM_SIZE; i++) { g_dsp.iram[i] = 0x0021; // HALT opcode } for (int i = 0; i < DSP_DRAM_SIZE; i++) { g_dsp.dram[i] = 0x0021; // HALT opcode } for (int i = 0; i < 32; i++) { g_dsp.r[i] = 0; } for (int i = 0; i < 4; i++) { g_dsp.reg_stack_ptr[i] = 0; for (int j = 0; j < DSP_STACK_DEPTH; j++) { g_dsp.reg_stack[i][j] = 0; } } // copied from a real console after the custom UCode has been loaded g_dsp.r[0x08] = 0xffff; g_dsp.r[0x09] = 0xffff; g_dsp.r[0x0a] = 0xffff; g_dsp.r[0x0b] = 0xffff; g_dsp.cr = 0x804; gdsp_ifx_init(); UpdateCachedCR(); } void gdsp_reset() { // _assert_msg_(0, "gdsp_reset()"); _assert_msg_(!g_dsp.exception_in_progress_hack, "assert while exception"); g_dsp.pc = DSP_RESET_VECTOR; g_dsp.exception_in_progress_hack = false; } uint8 gdsp_exceptions = 0; void gdsp_generate_exception(uint8 level) { gdsp_exceptions |= 1 << level; } bool gdsp_load_rom(char* fname) { FILE* pFile = fopen(fname, "rb"); if (pFile) { fread(g_dsp.irom, 1, DSP_IRAM_SIZE, pFile); fclose(pFile); return(true); } return(false); } bool gdsp_load_coef(char* fname) { FILE* pFile = fopen(fname, "rb"); if (pFile) { fread(g_dsp.coef, 1, DSP_COEF_SIZE, pFile); fclose(pFile); return(true); } return(false); } void gdsp_write_cr(uint16 val) { // reset if (val & 0x0001) { gdsp_reset(); } val &= ~0x0001; // update cr g_dsp.cr = val; UpdateCachedCR(); } uint16 gdsp_read_cr() { if (g_dsp.pc & 0x8000) { g_dsp.cr |= 0x800; } else { g_dsp.cr &= ~0x800; } UpdateCachedCR(); return(g_dsp.cr); } // special loop step.. because exception in loop or loopi fails // dunno how we have to fix it // atm we execute this instructions directly inside the loop command // so it cant be interrupted by an exception void gdsp_loop_step() { g_dsp.err_pc = g_dsp.pc; uint16 opc = dsp_fetch_code(); dsp_op[opc >> 12](opc); } u16 HLE_ROM_80E7_81F8(); void hacks(); void gdsp_step() { g_dsp.step_counter++; if (g_dsp.pc == 0x80e7) { //g_dsp.pc = HLE_ROM_80E7_81F8(); } g_dsp.err_pc = g_dsp.pc; #if PROFILE ProfilerAddDelta(g_dsp.err_pc, 1); if (g_dsp.step_counter == 1) { ProfilerInit(); } if ((g_dsp.step_counter & 0xFFFFF) == 0) { ProfilerDump(g_dsp.step_counter); } #endif uint16 opc = dsp_fetch_code(); dsp_op[opc >> 12](opc); uint16& rLoopCounter = g_dsp.r[DSP_REG_ST0 + 3]; if (rLoopCounter > 0) { const uint16& rCallAddress = g_dsp.r[DSP_REG_ST0 + 0]; const uint16& rLoopAddress = g_dsp.r[DSP_REG_ST0 + 2]; if (g_dsp.pc == (rLoopAddress + 1)) { rLoopCounter--; if (rLoopCounter > 0) { g_dsp.pc = rCallAddress; } else { // end of loop dsp_reg_load_stack(0); dsp_reg_load_stack(2); dsp_reg_load_stack(3); } } } // check if there is an external interrupt if (CR_EXTERNAL_INT) { if (dsp_SR_is_flag_set(FLAG_ENABLE_INTERUPT) && (g_dsp.exception_in_progress_hack == false)) { // level 7 is the interrupt exception gdsp_generate_exception(7); g_dsp.cr &= ~0x0002; UpdateCachedCR(); } } // check exceptions if ((gdsp_exceptions > 0) && (!g_dsp.exception_in_progress_hack)) { for (uint8 i=0; i<8; i++) { if (gdsp_exceptions & (1< 1024*1024*1) /* if (g_dsp.pc == 0x165) { PanicAlert("Opcode_06"); } if (g_dsp.pc == 0x43b) { PanicAlert("Opcode_14"); } if (g_dsp.pc == 0xb37) { PanicAlert("Opcode_08"); }*/ /* if (g_dsp.pc == 0x1bc) { r30 = g_dsp.r[30]; r31 = g_dsp.r[31]; } else if (g_dsp.pc == 0x384) { // if ((r30 == 0x1bc) && (r31 == 0xaff)) { //PanicAlert("%x, %x", r30, r31); const int numSamples = 0x280; static short Buffer[numSamples]; uint16 bufferAddr = 0x280; //dsp_dmem_read(0xe44); for (int i=0; i 1024*1024*2) { //PanicAlert("%x", bufferAddr); g_wave_writer.Stop(); exit(1); } } } */ if (g_dsp.pc == 0x468) { int numSamples = g_dsp.r[25] / 2; uint16 bufferAddr = g_dsp.r[27]; // PanicAlert("%x %x", bufferAddr, numSamples); short samples[1024]; for (int i=0; i 1024*1024*2) { //PanicAlert("%x", bufferAddr); g_wave_writer.Stop(); exit(1); } } }