///////////////////////////////////////////////////////////////////////// // $Id$ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001-2009 The Bochs Project // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ///////////////////////////////////////////////////////////////////////// // Define BX_PLUGGABLE in files that can be compiled into plugins. For // platforms that require a special tag on exported symbols, BX_PLUGGABLE // is used to know when we are exporting symbols and when we are importing. #define BX_PLUGGABLE #include "iodev.h" #if BX_SUPPORT_IODEBUG #include "cpu/cpu.h" #include "iodebug.h" #define BX_IODEBUG_THIS this-> bx_iodebug_c *theIODebugDevice = NULL; int libiodebug_LTX_plugin_init(plugin_t *plugin, plugintype_t type, int argc, char *argv[]) { theIODebugDevice = new bx_iodebug_c(); bx_devices.pluginIODebug = theIODebugDevice; BX_REGISTER_DEVICE_DEVMODEL(plugin, type, theIODebugDevice, BX_PLUGIN_IODEBUG); return(0); // Success } void libiodebug_LTX_plugin_fini(void) { delete theIODebugDevice; } struct bx_iodebug_s_type { bx_bool enabled; unsigned register_select; Bit32u registers[2]; bx_phy_address monitored_mem_areas_start[BX_IODEBUG_MAX_AREAS]; bx_phy_address monitored_mem_areas_end[BX_IODEBUG_MAX_AREAS]; } bx_iodebug_s; bx_iodebug_c::bx_iodebug_c() { put("IODBG"); } void bx_iodebug_c::init(void) { DEV_register_ioread_handler(this, read_handler, 0x8A00,"BOCHS IODEBUG", 2); DEV_register_iowrite_handler(this, write_handler, 0x8A00,"BOCHS IODEBUG", 2); DEV_register_iowrite_handler(this, write_handler, 0x8A01,"BOCHS IODEBUG", 2); bx_iodebug_s.enabled = 0; bx_iodebug_s.register_select = 0; for(int i=0;iread(addr, io_len); } Bit32u bx_iodebug_c::read(Bit32u addr, unsigned io_len) { if (bx_iodebug_s.enabled) return 0x8A00; return(0); } void bx_iodebug_c::write_handler(void *this_ptr, Bit32u addr, Bit32u dvalue, unsigned io_len) { bx_iodebug_c *bx_iodebug_ptr = (bx_iodebug_c *) this_ptr; bx_iodebug_ptr->write(addr, dvalue, io_len); } void bx_iodebug_c::write(Bit32u addr, Bit32u dvalue, unsigned io_len) { //fprintf(stderr, "IODEBUG addr: %4x\tdvalue: %8x\tio_len: %8x\n", (unsigned) addr, (unsigned) dvalue, io_len); if (addr == 0x8A01) { bx_iodebug_s.registers[bx_iodebug_s.register_select] = (bx_iodebug_s.registers[bx_iodebug_s.register_select] << 16) + (dvalue & 0xFFFF); } if (addr != 0x8A00) return; if (!bx_iodebug_s.enabled) { if(dvalue == 0x8A00) { bx_iodebug_s.enabled = 1; // fprintf(stderr, "IODEBUG enabled\n"); bx_iodebug_s.registers[0] = 0; bx_iodebug_s.registers[1] = 0; } return; } switch(dvalue) { case 0x8A01: bx_iodebug_s.register_select = 0; // fprintf(stderr, "IODEBUG register 0 selected\n"); break; case 0x8A02: bx_iodebug_s.register_select = 1; // fprintf(stderr, "IODEBUG register 1 selected\n"); break; case 0x8A80: bx_iodebug_s.register_select = 0; bx_iodebug_c::add_range(bx_iodebug_s.registers[0], bx_iodebug_s.registers[1]); bx_iodebug_s.registers[0] = 0; bx_iodebug_s.registers[1] = 0; break; #if BX_DEBUGGER case 0x8AE0: fprintf(stderr, "request return to dbg prompt received, 0x8AE0 command (iodebug)\n"); bx_guard.interrupt_requested=1; break; case 0x8AE2: fprintf(stderr, "request made by the guest os to disable tracing, iodebug port 0x8A00->0x8AE2\n"); BX_CPU(dbg_cpu)->trace = 0; break; case 0x8AE3: fprintf(stderr, "request made by the guest os to enable tracing, iodebug port 0x8A00->0x8AE3\n"); BX_CPU(dbg_cpu)->trace = 1; break; case 0x8AE4: fprintf(stderr, "request made by the guest os to disable register tracing, iodebug port 0x8A00->0x8AE4\n"); BX_CPU(dbg_cpu)->trace_reg = 0; break; case 0x8AE5: fprintf(stderr, "request made by the guest os to enable register tracing, iodebug port 0x8A00->0x8AE5\n"); BX_CPU(dbg_cpu)->trace_reg = 1; break; #endif case 0x8AFF: bx_iodebug_s.enabled = 0; // fprintf(stderr, "IODEBUG device deactivated\n"); // break; // default: // fprintf(stderr,"IODEBUG unsupported register code\n"); } } // Static function void bx_iodebug_c::mem_write(BX_CPU_C *cpu, bx_phy_address addr, unsigned len, void *data) { if(! bx_iodebug_s.enabled) return; unsigned area = bx_iodebug_c::range_test(addr, len); // Device is enabled, testing address ranges if(area) { area--; #if BX_DEBUGGER if (cpu != NULL) { fprintf(stdout, "IODEBUG CPU %d @ eip: " FMT_ADDRX " write at monitored memory location %8X\n", cpu->bx_cpuid, cpu->get_instruction_pointer(), addr); } else { fprintf(stdout, "IODEBUG write at monitored memory location %8X\n", addr); } bx_guard.interrupt_requested=1; #else fprintf(stderr, "IODEBUG write to monitored memory area: %2i\t", area); if (cpu != NULL) fprintf(stderr, "by EIP:\t\t" FMT_ADDRX "\n\t", cpu->get_instruction_pointer()); else fprintf(stderr, "(device origin)\t"); fprintf(stderr, "range start: \t\t%08X\trange end:\t%08X\n\taddress accessed:\t%08X\tdata written:\t", bx_iodebug_s.monitored_mem_areas_start[area], bx_iodebug_s.monitored_mem_areas_end[area], (unsigned) addr); switch(len) { case 1: { Bit8u data8 = * ((Bit8u *) data); fprintf(stderr,"%02X\n", (unsigned) data8); break; } case 2: { Bit16u data16 = * ((Bit16u *) data); fprintf(stderr,"%04X\n", (unsigned) data16); break; } case 4: { Bit32u data32 = * ((Bit32u *) data); fprintf(stderr,"%08X\n", (unsigned) data32); break; } case 8: { Bit64u data64 = * ((Bit64u *) data); fprintf(stderr,"%08X%08x\n", (unsigned) (data64 >> 32), (unsigned) (data64 & 0xffffffff)); break; } default: fprintf(stderr, "unsupported write size\n"); } #endif } } void bx_iodebug_c::mem_read(BX_CPU_C *cpu, bx_phy_address addr, unsigned len, void *data) { if(! bx_iodebug_s.enabled) return; unsigned area = bx_iodebug_c::range_test(addr, len); // Device is enabled, testing address ranges if(area) { area--; #if BX_DEBUGGER if (cpu != NULL) { fprintf(stdout, "IODEBUG CPU %d @ eip: " FMT_ADDRX " read at monitored memory location %8X\n", cpu->bx_cpuid, cpu->get_instruction_pointer(), addr); } else { fprintf(stdout, "IODEBUG read at monitored memory location %8X\n", addr); } bx_guard.interrupt_requested=1; #else fprintf(stderr, "IODEBUG read at monitored memory area: %2i\t", area); if (cpu != NULL) fprintf(stderr, "by EIP:\t\t" FMT_ADDRX "\n\t", cpu->get_instruction_pointer()); else fprintf(stderr, "(device origin)\t"); fprintf(stderr, "range start: \t\t%08X\trange end:\t%08X\n\taddress accessed:\t%08X\tdata written:\t", bx_iodebug_s.monitored_mem_areas_start[area], bx_iodebug_s.monitored_mem_areas_end[area], (unsigned) addr); switch(len) { case 1: { Bit8u data8 = * ((Bit8u *) data); fprintf(stderr,"%02X\n", (unsigned) data8); break; } case 2: { Bit16u data16 = * ((Bit16u *) data); fprintf(stderr,"%04X\n", (unsigned) data16); break; } case 4: { Bit32u data32 = * ((Bit32u *) data); fprintf(stderr,"%08X\n", (unsigned) data32); break; } case 8: { Bit64u data64 = * ((Bit64u *) data); fprintf(stderr,"%08X%08x\n", (unsigned) (data64 >> 32), (unsigned) (data64 & 0xffffffff)); break; } default: fprintf(stderr, "unsupported read size\n"); } #endif } } unsigned bx_iodebug_c::range_test(bx_phy_address addr, unsigned len) { for(unsigned i=0;i